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Generate the Verilog code corresponding to the following Chisel files. File PE.scala: // See README.md for license details. package gemmini import chisel3._ import chisel3.util._ class PEControl[T <: Data : Arithmetic](accType: T) extends Bundle { val dataflow = UInt(1.W) // TODO make this an Enum val propagate = UInt(1.W) // Which register should be propagated (and which should be accumulated)? val shift = UInt(log2Up(accType.getWidth).W) // TODO this isn't correct for Floats } class MacUnit[T <: Data](inputType: T, cType: T, dType: T) (implicit ev: Arithmetic[T]) extends Module { import ev._ val io = IO(new Bundle { val in_a = Input(inputType) val in_b = Input(inputType) val in_c = Input(cType) val out_d = Output(dType) }) io.out_d := io.in_c.mac(io.in_a, io.in_b) } // TODO update documentation /** * A PE implementing a MAC operation. Configured as fully combinational when integrated into a Mesh. * @param width Data width of operands */ class PE[T <: Data](inputType: T, outputType: T, accType: T, df: Dataflow.Value, max_simultaneous_matmuls: Int) (implicit ev: Arithmetic[T]) extends Module { // Debugging variables import ev._ val io = IO(new Bundle { val in_a = Input(inputType) val in_b = Input(outputType) val in_d = Input(outputType) val out_a = Output(inputType) val out_b = Output(outputType) val out_c = Output(outputType) val in_control = Input(new PEControl(accType)) val out_control = Output(new PEControl(accType)) val in_id = Input(UInt(log2Up(max_simultaneous_matmuls).W)) val out_id = Output(UInt(log2Up(max_simultaneous_matmuls).W)) val in_last = Input(Bool()) val out_last = Output(Bool()) val in_valid = Input(Bool()) val out_valid = Output(Bool()) val bad_dataflow = Output(Bool()) }) val cType = if (df == Dataflow.WS) inputType else accType // When creating PEs that support multiple dataflows, the // elaboration/synthesis tools often fail to consolidate and de-duplicate // MAC units. To force mac circuitry to be re-used, we create a "mac_unit" // module here which just performs a single MAC operation val mac_unit = Module(new MacUnit(inputType, if (df == Dataflow.WS) outputType else accType, outputType)) val a = io.in_a val b = io.in_b val d = io.in_d val c1 = Reg(cType) val c2 = Reg(cType) val dataflow = io.in_control.dataflow val prop = io.in_control.propagate val shift = io.in_control.shift val id = io.in_id val last = io.in_last val valid = io.in_valid io.out_a := a io.out_control.dataflow := dataflow io.out_control.propagate := prop io.out_control.shift := shift io.out_id := id io.out_last := last io.out_valid := valid mac_unit.io.in_a := a val last_s = RegEnable(prop, valid) val flip = last_s =/= prop val shift_offset = Mux(flip, shift, 0.U) // Which dataflow are we using? val OUTPUT_STATIONARY = Dataflow.OS.id.U(1.W) val WEIGHT_STATIONARY = Dataflow.WS.id.U(1.W) // Is c1 being computed on, or propagated forward (in the output-stationary dataflow)? val COMPUTE = 0.U(1.W) val PROPAGATE = 1.U(1.W) io.bad_dataflow := false.B when ((df == Dataflow.OS).B || ((df == Dataflow.BOTH).B && dataflow === OUTPUT_STATIONARY)) { when(prop === PROPAGATE) { io.out_c := (c1 >> shift_offset).clippedToWidthOf(outputType) io.out_b := b mac_unit.io.in_b := b.asTypeOf(inputType) mac_unit.io.in_c := c2 c2 := mac_unit.io.out_d c1 := d.withWidthOf(cType) }.otherwise { io.out_c := (c2 >> shift_offset).clippedToWidthOf(outputType) io.out_b := b mac_unit.io.in_b := b.asTypeOf(inputType) mac_unit.io.in_c := c1 c1 := mac_unit.io.out_d c2 := d.withWidthOf(cType) } }.elsewhen ((df == Dataflow.WS).B || ((df == Dataflow.BOTH).B && dataflow === WEIGHT_STATIONARY)) { when(prop === PROPAGATE) { io.out_c := c1 mac_unit.io.in_b := c2.asTypeOf(inputType) mac_unit.io.in_c := b io.out_b := mac_unit.io.out_d c1 := d }.otherwise { io.out_c := c2 mac_unit.io.in_b := c1.asTypeOf(inputType) mac_unit.io.in_c := b io.out_b := mac_unit.io.out_d c2 := d } }.otherwise { io.bad_dataflow := true.B //assert(false.B, "unknown dataflow") io.out_c := DontCare io.out_b := DontCare mac_unit.io.in_b := b.asTypeOf(inputType) mac_unit.io.in_c := c2 } when (!valid) { c1 := c1 c2 := c2 mac_unit.io.in_b := DontCare mac_unit.io.in_c := DontCare } } File Arithmetic.scala: // A simple type class for Chisel datatypes that can add and multiply. To add your own type, simply create your own: // implicit MyTypeArithmetic extends Arithmetic[MyType] { ... } package gemmini import chisel3._ import chisel3.util._ import hardfloat._ // Bundles that represent the raw bits of custom datatypes case class Float(expWidth: Int, sigWidth: Int) extends Bundle { val bits = UInt((expWidth + sigWidth).W) val bias: Int = (1 << (expWidth-1)) - 1 } case class DummySInt(w: Int) extends Bundle { val bits = UInt(w.W) def dontCare: DummySInt = { val o = Wire(new DummySInt(w)) o.bits := 0.U o } } // The Arithmetic typeclass which implements various arithmetic operations on custom datatypes abstract class Arithmetic[T <: Data] { implicit def cast(t: T): ArithmeticOps[T] } abstract class ArithmeticOps[T <: Data](self: T) { def *(t: T): T def mac(m1: T, m2: T): T // Returns (m1 * m2 + self) def +(t: T): T def -(t: T): T def >>(u: UInt): T // This is a rounding shift! Rounds away from 0 def >(t: T): Bool def identity: T def withWidthOf(t: T): T def clippedToWidthOf(t: T): T // Like "withWidthOf", except that it saturates def relu: T def zero: T def minimum: T // Optional parameters, which only need to be defined if you want to enable various optimizations for transformers def divider(denom_t: UInt, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[T])] = None def sqrt: Option[(DecoupledIO[UInt], DecoupledIO[T])] = None def reciprocal[U <: Data](u: U, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[U])] = None def mult_with_reciprocal[U <: Data](reciprocal: U) = self } object Arithmetic { implicit object UIntArithmetic extends Arithmetic[UInt] { override implicit def cast(self: UInt) = new ArithmeticOps(self) { override def *(t: UInt) = self * t override def mac(m1: UInt, m2: UInt) = m1 * m2 + self override def +(t: UInt) = self + t override def -(t: UInt) = self - t override def >>(u: UInt) = { // The equation we use can be found here: https://riscv.github.io/documents/riscv-v-spec/#_vector_fixed_point_rounding_mode_register_vxrm // TODO Do we need to explicitly handle the cases where "u" is a small number (like 0)? What is the default behavior here? val point_five = Mux(u === 0.U, 0.U, self(u - 1.U)) val zeros = Mux(u <= 1.U, 0.U, self.asUInt & ((1.U << (u - 1.U)).asUInt - 1.U)) =/= 0.U val ones_digit = self(u) val r = point_five & (zeros | ones_digit) (self >> u).asUInt + r } override def >(t: UInt): Bool = self > t override def withWidthOf(t: UInt) = self.asTypeOf(t) override def clippedToWidthOf(t: UInt) = { val sat = ((1 << (t.getWidth-1))-1).U Mux(self > sat, sat, self)(t.getWidth-1, 0) } override def relu: UInt = self override def zero: UInt = 0.U override def identity: UInt = 1.U override def minimum: UInt = 0.U } } implicit object SIntArithmetic extends Arithmetic[SInt] { override implicit def cast(self: SInt) = new ArithmeticOps(self) { override def *(t: SInt) = self * t override def mac(m1: SInt, m2: SInt) = m1 * m2 + self override def +(t: SInt) = self + t override def -(t: SInt) = self - t override def >>(u: UInt) = { // The equation we use can be found here: https://riscv.github.io/documents/riscv-v-spec/#_vector_fixed_point_rounding_mode_register_vxrm // TODO Do we need to explicitly handle the cases where "u" is a small number (like 0)? What is the default behavior here? val point_five = Mux(u === 0.U, 0.U, self(u - 1.U)) val zeros = Mux(u <= 1.U, 0.U, self.asUInt & ((1.U << (u - 1.U)).asUInt - 1.U)) =/= 0.U val ones_digit = self(u) val r = (point_five & (zeros | ones_digit)).asBool (self >> u).asSInt + Mux(r, 1.S, 0.S) } override def >(t: SInt): Bool = self > t override def withWidthOf(t: SInt) = { if (self.getWidth >= t.getWidth) self(t.getWidth-1, 0).asSInt else { val sign_bits = t.getWidth - self.getWidth val sign = self(self.getWidth-1) Cat(Cat(Seq.fill(sign_bits)(sign)), self).asTypeOf(t) } } override def clippedToWidthOf(t: SInt): SInt = { val maxsat = ((1 << (t.getWidth-1))-1).S val minsat = (-(1 << (t.getWidth-1))).S MuxCase(self, Seq((self > maxsat) -> maxsat, (self < minsat) -> minsat))(t.getWidth-1, 0).asSInt } override def relu: SInt = Mux(self >= 0.S, self, 0.S) override def zero: SInt = 0.S override def identity: SInt = 1.S override def minimum: SInt = (-(1 << (self.getWidth-1))).S override def divider(denom_t: UInt, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[SInt])] = { // TODO this uses a floating point divider, but we should use an integer divider instead val input = Wire(Decoupled(denom_t.cloneType)) val output = Wire(Decoupled(self.cloneType)) // We translate our integer to floating-point form so that we can use the hardfloat divider val expWidth = log2Up(self.getWidth) + 1 val sigWidth = self.getWidth def sin_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_minMag // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def uin_to_float(x: UInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := false.B in_to_rec_fn.io.in := x in_to_rec_fn.io.roundingMode := consts.round_minMag // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def float_to_in(x: UInt) = { val rec_fn_to_in = Module(new RecFNToIN(expWidth = expWidth, sigWidth, self.getWidth)) rec_fn_to_in.io.signedOut := true.B rec_fn_to_in.io.in := x rec_fn_to_in.io.roundingMode := consts.round_minMag // consts.round_near_maxMag rec_fn_to_in.io.out.asSInt } val self_rec = sin_to_float(self) val denom_rec = uin_to_float(input.bits) // Instantiate the hardloat divider val divider = Module(new DivSqrtRecFN_small(expWidth, sigWidth, options)) input.ready := divider.io.inReady divider.io.inValid := input.valid divider.io.sqrtOp := false.B divider.io.a := self_rec divider.io.b := denom_rec divider.io.roundingMode := consts.round_minMag divider.io.detectTininess := consts.tininess_afterRounding output.valid := divider.io.outValid_div output.bits := float_to_in(divider.io.out) assert(!output.valid || output.ready) Some((input, output)) } override def sqrt: Option[(DecoupledIO[UInt], DecoupledIO[SInt])] = { // TODO this uses a floating point divider, but we should use an integer divider instead val input = Wire(Decoupled(UInt(0.W))) val output = Wire(Decoupled(self.cloneType)) input.bits := DontCare // We translate our integer to floating-point form so that we can use the hardfloat divider val expWidth = log2Up(self.getWidth) + 1 val sigWidth = self.getWidth def in_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_minMag // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def float_to_in(x: UInt) = { val rec_fn_to_in = Module(new RecFNToIN(expWidth = expWidth, sigWidth, self.getWidth)) rec_fn_to_in.io.signedOut := true.B rec_fn_to_in.io.in := x rec_fn_to_in.io.roundingMode := consts.round_minMag // consts.round_near_maxMag rec_fn_to_in.io.out.asSInt } val self_rec = in_to_float(self) // Instantiate the hardloat sqrt val sqrter = Module(new DivSqrtRecFN_small(expWidth, sigWidth, 0)) input.ready := sqrter.io.inReady sqrter.io.inValid := input.valid sqrter.io.sqrtOp := true.B sqrter.io.a := self_rec sqrter.io.b := DontCare sqrter.io.roundingMode := consts.round_minMag sqrter.io.detectTininess := consts.tininess_afterRounding output.valid := sqrter.io.outValid_sqrt output.bits := float_to_in(sqrter.io.out) assert(!output.valid || output.ready) Some((input, output)) } override def reciprocal[U <: Data](u: U, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[U])] = u match { case Float(expWidth, sigWidth) => val input = Wire(Decoupled(UInt(0.W))) val output = Wire(Decoupled(u.cloneType)) input.bits := DontCare // We translate our integer to floating-point form so that we can use the hardfloat divider def in_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_near_even // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } val self_rec = in_to_float(self) val one_rec = in_to_float(1.S) // Instantiate the hardloat divider val divider = Module(new DivSqrtRecFN_small(expWidth, sigWidth, options)) input.ready := divider.io.inReady divider.io.inValid := input.valid divider.io.sqrtOp := false.B divider.io.a := one_rec divider.io.b := self_rec divider.io.roundingMode := consts.round_near_even divider.io.detectTininess := consts.tininess_afterRounding output.valid := divider.io.outValid_div output.bits := fNFromRecFN(expWidth, sigWidth, divider.io.out).asTypeOf(u) assert(!output.valid || output.ready) Some((input, output)) case _ => None } override def mult_with_reciprocal[U <: Data](reciprocal: U): SInt = reciprocal match { case recip @ Float(expWidth, sigWidth) => def in_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_near_even // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def float_to_in(x: UInt) = { val rec_fn_to_in = Module(new RecFNToIN(expWidth = expWidth, sigWidth, self.getWidth)) rec_fn_to_in.io.signedOut := true.B rec_fn_to_in.io.in := x rec_fn_to_in.io.roundingMode := consts.round_minMag rec_fn_to_in.io.out.asSInt } val self_rec = in_to_float(self) val reciprocal_rec = recFNFromFN(expWidth, sigWidth, recip.bits) // Instantiate the hardloat divider val muladder = Module(new MulRecFN(expWidth, sigWidth)) muladder.io.roundingMode := consts.round_near_even muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := self_rec muladder.io.b := reciprocal_rec float_to_in(muladder.io.out) case _ => self } } } implicit object FloatArithmetic extends Arithmetic[Float] { // TODO Floating point arithmetic currently switches between recoded and standard formats for every operation. However, it should stay in the recoded format as it travels through the systolic array override implicit def cast(self: Float): ArithmeticOps[Float] = new ArithmeticOps(self) { override def *(t: Float): Float = { val t_rec = recFNFromFN(t.expWidth, t.sigWidth, t.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) val t_resizer = Module(new RecFNToRecFN(t.expWidth, t.sigWidth, self.expWidth, self.sigWidth)) t_resizer.io.in := t_rec t_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag t_resizer.io.detectTininess := consts.tininess_afterRounding val t_rec_resized = t_resizer.io.out val muladder = Module(new MulRecFN(self.expWidth, self.sigWidth)) muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := self_rec muladder.io.b := t_rec_resized val out = Wire(Float(self.expWidth, self.sigWidth)) out.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) out } override def mac(m1: Float, m2: Float): Float = { // Recode all operands val m1_rec = recFNFromFN(m1.expWidth, m1.sigWidth, m1.bits) val m2_rec = recFNFromFN(m2.expWidth, m2.sigWidth, m2.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Resize m1 to self's width val m1_resizer = Module(new RecFNToRecFN(m1.expWidth, m1.sigWidth, self.expWidth, self.sigWidth)) m1_resizer.io.in := m1_rec m1_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag m1_resizer.io.detectTininess := consts.tininess_afterRounding val m1_rec_resized = m1_resizer.io.out // Resize m2 to self's width val m2_resizer = Module(new RecFNToRecFN(m2.expWidth, m2.sigWidth, self.expWidth, self.sigWidth)) m2_resizer.io.in := m2_rec m2_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag m2_resizer.io.detectTininess := consts.tininess_afterRounding val m2_rec_resized = m2_resizer.io.out // Perform multiply-add val muladder = Module(new MulAddRecFN(self.expWidth, self.sigWidth)) muladder.io.op := 0.U muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := m1_rec_resized muladder.io.b := m2_rec_resized muladder.io.c := self_rec // Convert result to standard format // TODO remove these intermediate recodings val out = Wire(Float(self.expWidth, self.sigWidth)) out.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) out } override def +(t: Float): Float = { require(self.getWidth >= t.getWidth) // This just makes it easier to write the resizing code // Recode all operands val t_rec = recFNFromFN(t.expWidth, t.sigWidth, t.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Generate 1 as a float val in_to_rec_fn = Module(new INToRecFN(1, self.expWidth, self.sigWidth)) in_to_rec_fn.io.signedIn := false.B in_to_rec_fn.io.in := 1.U in_to_rec_fn.io.roundingMode := consts.round_near_even // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding val one_rec = in_to_rec_fn.io.out // Resize t val t_resizer = Module(new RecFNToRecFN(t.expWidth, t.sigWidth, self.expWidth, self.sigWidth)) t_resizer.io.in := t_rec t_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag t_resizer.io.detectTininess := consts.tininess_afterRounding val t_rec_resized = t_resizer.io.out // Perform addition val muladder = Module(new MulAddRecFN(self.expWidth, self.sigWidth)) muladder.io.op := 0.U muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := t_rec_resized muladder.io.b := one_rec muladder.io.c := self_rec val result = Wire(Float(self.expWidth, self.sigWidth)) result.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) result } override def -(t: Float): Float = { val t_sgn = t.bits(t.getWidth-1) val neg_t = Cat(~t_sgn, t.bits(t.getWidth-2,0)).asTypeOf(t) self + neg_t } override def >>(u: UInt): Float = { // Recode self val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Get 2^(-u) as a recoded float val shift_exp = Wire(UInt(self.expWidth.W)) shift_exp := self.bias.U - u val shift_fn = Cat(0.U(1.W), shift_exp, 0.U((self.sigWidth-1).W)) val shift_rec = recFNFromFN(self.expWidth, self.sigWidth, shift_fn) assert(shift_exp =/= 0.U, "scaling by denormalized numbers is not currently supported") // Multiply self and 2^(-u) val muladder = Module(new MulRecFN(self.expWidth, self.sigWidth)) muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := self_rec muladder.io.b := shift_rec val result = Wire(Float(self.expWidth, self.sigWidth)) result.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) result } override def >(t: Float): Bool = { // Recode all operands val t_rec = recFNFromFN(t.expWidth, t.sigWidth, t.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Resize t to self's width val t_resizer = Module(new RecFNToRecFN(t.expWidth, t.sigWidth, self.expWidth, self.sigWidth)) t_resizer.io.in := t_rec t_resizer.io.roundingMode := consts.round_near_even t_resizer.io.detectTininess := consts.tininess_afterRounding val t_rec_resized = t_resizer.io.out val comparator = Module(new CompareRecFN(self.expWidth, self.sigWidth)) comparator.io.a := self_rec comparator.io.b := t_rec_resized comparator.io.signaling := false.B comparator.io.gt } override def withWidthOf(t: Float): Float = { val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) val resizer = Module(new RecFNToRecFN(self.expWidth, self.sigWidth, t.expWidth, t.sigWidth)) resizer.io.in := self_rec resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag resizer.io.detectTininess := consts.tininess_afterRounding val result = Wire(Float(t.expWidth, t.sigWidth)) result.bits := fNFromRecFN(t.expWidth, t.sigWidth, resizer.io.out) result } override def clippedToWidthOf(t: Float): Float = { // TODO check for overflow. Right now, we just assume that overflow doesn't happen val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) val resizer = Module(new RecFNToRecFN(self.expWidth, self.sigWidth, t.expWidth, t.sigWidth)) resizer.io.in := self_rec resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag resizer.io.detectTininess := consts.tininess_afterRounding val result = Wire(Float(t.expWidth, t.sigWidth)) result.bits := fNFromRecFN(t.expWidth, t.sigWidth, resizer.io.out) result } override def relu: Float = { val raw = rawFloatFromFN(self.expWidth, self.sigWidth, self.bits) val result = Wire(Float(self.expWidth, self.sigWidth)) result.bits := Mux(!raw.isZero && raw.sign, 0.U, self.bits) result } override def zero: Float = 0.U.asTypeOf(self) override def identity: Float = Cat(0.U(2.W), ~(0.U((self.expWidth-1).W)), 0.U((self.sigWidth-1).W)).asTypeOf(self) override def minimum: Float = Cat(1.U, ~(0.U(self.expWidth.W)), 0.U((self.sigWidth-1).W)).asTypeOf(self) } } implicit object DummySIntArithmetic extends Arithmetic[DummySInt] { override implicit def cast(self: DummySInt) = new ArithmeticOps(self) { override def *(t: DummySInt) = self.dontCare override def mac(m1: DummySInt, m2: DummySInt) = self.dontCare override def +(t: DummySInt) = self.dontCare override def -(t: DummySInt) = self.dontCare override def >>(t: UInt) = self.dontCare override def >(t: DummySInt): Bool = false.B override def identity = self.dontCare override def withWidthOf(t: DummySInt) = self.dontCare override def clippedToWidthOf(t: DummySInt) = self.dontCare override def relu = self.dontCare override def zero = self.dontCare override def minimum: DummySInt = self.dontCare } } }
module MacUnit_5( // @[PE.scala:14:7] input clock, // @[PE.scala:14:7] input reset, // @[PE.scala:14:7] input [7:0] io_in_a, // @[PE.scala:16:14] input [7:0] io_in_b, // @[PE.scala:16:14] input [31:0] io_in_c, // @[PE.scala:16:14] output [19:0] io_out_d // @[PE.scala:16:14] ); wire [7:0] io_in_a_0 = io_in_a; // @[PE.scala:14:7] wire [7:0] io_in_b_0 = io_in_b; // @[PE.scala:14:7] wire [31:0] io_in_c_0 = io_in_c; // @[PE.scala:14:7] wire [19:0] io_out_d_0; // @[PE.scala:14:7] wire [15:0] _io_out_d_T = {{8{io_in_a_0[7]}}, io_in_a_0} * {{8{io_in_b_0[7]}}, io_in_b_0}; // @[PE.scala:14:7] wire [32:0] _io_out_d_T_1 = {{17{_io_out_d_T[15]}}, _io_out_d_T} + {io_in_c_0[31], io_in_c_0}; // @[PE.scala:14:7] wire [31:0] _io_out_d_T_2 = _io_out_d_T_1[31:0]; // @[Arithmetic.scala:93:54] wire [31:0] _io_out_d_T_3 = _io_out_d_T_2; // @[Arithmetic.scala:93:54] assign io_out_d_0 = _io_out_d_T_3[19:0]; // @[PE.scala:14:7, :23:12] assign io_out_d = io_out_d_0; // @[PE.scala:14:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File RecFNToRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import consts._ class RecFNToRecFN( inExpWidth: Int, inSigWidth: Int, outExpWidth: Int, outSigWidth: Int) extends chisel3.RawModule { val io = IO(new Bundle { val in = Input(Bits((inExpWidth + inSigWidth + 1).W)) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((outExpWidth + outSigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val rawIn = rawFloatFromRecFN(inExpWidth, inSigWidth, io.in); if ((inExpWidth == outExpWidth) && (inSigWidth <= outSigWidth)) { //-------------------------------------------------------------------- //-------------------------------------------------------------------- io.out := io.in<<(outSigWidth - inSigWidth) io.exceptionFlags := isSigNaNRawFloat(rawIn) ## 0.U(4.W) } else { //-------------------------------------------------------------------- //-------------------------------------------------------------------- val roundAnyRawFNToRecFN = Module( new RoundAnyRawFNToRecFN( inExpWidth, inSigWidth, outExpWidth, outSigWidth, flRoundOpt_sigMSBitAlwaysZero )) roundAnyRawFNToRecFN.io.invalidExc := isSigNaNRawFloat(rawIn) roundAnyRawFNToRecFN.io.infiniteExc := false.B roundAnyRawFNToRecFN.io.in := rawIn roundAnyRawFNToRecFN.io.roundingMode := io.roundingMode roundAnyRawFNToRecFN.io.detectTininess := io.detectTininess io.out := roundAnyRawFNToRecFN.io.out io.exceptionFlags := roundAnyRawFNToRecFN.io.exceptionFlags } } File rawFloatFromRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ /*---------------------------------------------------------------------------- | In the result, no more than one of 'isNaN', 'isInf', and 'isZero' will be | set. *----------------------------------------------------------------------------*/ object rawFloatFromRecFN { def apply(expWidth: Int, sigWidth: Int, in: Bits): RawFloat = { val exp = in(expWidth + sigWidth - 1, sigWidth - 1) val isZero = exp(expWidth, expWidth - 2) === 0.U val isSpecial = exp(expWidth, expWidth - 1) === 3.U val out = Wire(new RawFloat(expWidth, sigWidth)) out.isNaN := isSpecial && exp(expWidth - 2) out.isInf := isSpecial && ! exp(expWidth - 2) out.isZero := isZero out.sign := in(expWidth + sigWidth) out.sExp := exp.zext out.sig := 0.U(1.W) ## ! isZero ## in(sigWidth - 2, 0) out } }
module RecFNToRecFN_11( // @[RecFNToRecFN.scala:44:5] input [32:0] io_in, // @[RecFNToRecFN.scala:48:16] output [32:0] io_out // @[RecFNToRecFN.scala:48:16] ); wire [32:0] io_in_0 = io_in; // @[RecFNToRecFN.scala:44:5] wire io_detectTininess = 1'h1; // @[RecFNToRecFN.scala:44:5, :48:16] wire [2:0] io_roundingMode = 3'h0; // @[RecFNToRecFN.scala:44:5, :48:16] wire [32:0] _io_out_T = io_in_0; // @[RecFNToRecFN.scala:44:5, :64:35] wire [4:0] _io_exceptionFlags_T_3; // @[RecFNToRecFN.scala:65:54] wire [32:0] io_out_0; // @[RecFNToRecFN.scala:44:5] wire [4:0] io_exceptionFlags; // @[RecFNToRecFN.scala:44:5] wire [8:0] rawIn_exp = io_in_0[31:23]; // @[rawFloatFromRecFN.scala:51:21] wire [2:0] _rawIn_isZero_T = rawIn_exp[8:6]; // @[rawFloatFromRecFN.scala:51:21, :52:28] wire rawIn_isZero = _rawIn_isZero_T == 3'h0; // @[rawFloatFromRecFN.scala:52:{28,53}] wire rawIn_isZero_0 = rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :55:23] wire [1:0] _rawIn_isSpecial_T = rawIn_exp[8:7]; // @[rawFloatFromRecFN.scala:51:21, :53:28] wire rawIn_isSpecial = &_rawIn_isSpecial_T; // @[rawFloatFromRecFN.scala:53:{28,53}] wire _rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:56:33] wire _rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:57:33] wire _rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:59:25] wire [9:0] _rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:60:27] wire [24:0] _rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:61:44] wire rawIn_isNaN; // @[rawFloatFromRecFN.scala:55:23] wire rawIn_isInf; // @[rawFloatFromRecFN.scala:55:23] wire rawIn_sign; // @[rawFloatFromRecFN.scala:55:23] wire [9:0] rawIn_sExp; // @[rawFloatFromRecFN.scala:55:23] wire [24:0] rawIn_sig; // @[rawFloatFromRecFN.scala:55:23] wire _rawIn_out_isNaN_T = rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41] wire _rawIn_out_isInf_T = rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41, :57:41] assign _rawIn_out_isNaN_T_1 = rawIn_isSpecial & _rawIn_out_isNaN_T; // @[rawFloatFromRecFN.scala:53:53, :56:{33,41}] assign rawIn_isNaN = _rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:55:23, :56:33] wire _rawIn_out_isInf_T_1 = ~_rawIn_out_isInf_T; // @[rawFloatFromRecFN.scala:57:{36,41}] assign _rawIn_out_isInf_T_2 = rawIn_isSpecial & _rawIn_out_isInf_T_1; // @[rawFloatFromRecFN.scala:53:53, :57:{33,36}] assign rawIn_isInf = _rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:55:23, :57:33] assign _rawIn_out_sign_T = io_in_0[32]; // @[rawFloatFromRecFN.scala:59:25] assign rawIn_sign = _rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:55:23, :59:25] assign _rawIn_out_sExp_T = {1'h0, rawIn_exp}; // @[rawFloatFromRecFN.scala:51:21, :60:27] assign rawIn_sExp = _rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:55:23, :60:27] wire _rawIn_out_sig_T = ~rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :61:35] wire [1:0] _rawIn_out_sig_T_1 = {1'h0, _rawIn_out_sig_T}; // @[rawFloatFromRecFN.scala:61:{32,35}] wire [22:0] _rawIn_out_sig_T_2 = io_in_0[22:0]; // @[rawFloatFromRecFN.scala:61:49] assign _rawIn_out_sig_T_3 = {_rawIn_out_sig_T_1, _rawIn_out_sig_T_2}; // @[rawFloatFromRecFN.scala:61:{32,44,49}] assign rawIn_sig = _rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:55:23, :61:44] assign io_out_0 = _io_out_T; // @[RecFNToRecFN.scala:44:5, :64:35] wire _io_exceptionFlags_T = rawIn_sig[22]; // @[rawFloatFromRecFN.scala:55:23] wire _io_exceptionFlags_T_1 = ~_io_exceptionFlags_T; // @[common.scala:82:{49,56}] wire _io_exceptionFlags_T_2 = rawIn_isNaN & _io_exceptionFlags_T_1; // @[rawFloatFromRecFN.scala:55:23] assign _io_exceptionFlags_T_3 = {_io_exceptionFlags_T_2, 4'h0}; // @[common.scala:82:46] assign io_exceptionFlags = _io_exceptionFlags_T_3; // @[RecFNToRecFN.scala:44:5, :65:54] assign io_out = io_out_0; // @[RecFNToRecFN.scala:44:5] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Periphery.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.devices.debug import chisel3._ import chisel3.experimental.{noPrefix, IntParam} import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.amba.apb.{APBBundle, APBBundleParameters, APBMasterNode, APBMasterParameters, APBMasterPortParameters} import freechips.rocketchip.interrupts.{IntSyncXbar, NullIntSyncSource} import freechips.rocketchip.jtag.JTAGIO import freechips.rocketchip.prci.{ClockSinkNode, ClockSinkParameters} import freechips.rocketchip.subsystem.{BaseSubsystem, CBUS, FBUS, ResetSynchronous, SubsystemResetSchemeKey, TLBusWrapperLocation} import freechips.rocketchip.tilelink.{TLFragmenter, TLWidthWidget} import freechips.rocketchip.util.{AsyncResetSynchronizerShiftReg, CanHavePSDTestModeIO, ClockGate, PSDTestMode, PlusArg, ResetSynchronizerShiftReg} import freechips.rocketchip.util.BooleanToAugmentedBoolean /** Protocols used for communicating with external debugging tools */ sealed trait DebugExportProtocol case object DMI extends DebugExportProtocol case object JTAG extends DebugExportProtocol case object CJTAG extends DebugExportProtocol case object APB extends DebugExportProtocol /** Options for possible debug interfaces */ case class DebugAttachParams( protocols: Set[DebugExportProtocol] = Set(DMI), externalDisable: Boolean = false, masterWhere: TLBusWrapperLocation = FBUS, slaveWhere: TLBusWrapperLocation = CBUS ) { def dmi = protocols.contains(DMI) def jtag = protocols.contains(JTAG) def cjtag = protocols.contains(CJTAG) def apb = protocols.contains(APB) } case object ExportDebug extends Field(DebugAttachParams()) class ClockedAPBBundle(params: APBBundleParameters) extends APBBundle(params) { val clock = Clock() val reset = Reset() } class DebugIO(implicit val p: Parameters) extends Bundle { val clock = Input(Clock()) val reset = Input(Reset()) val clockeddmi = p(ExportDebug).dmi.option(Flipped(new ClockedDMIIO())) val systemjtag = p(ExportDebug).jtag.option(new SystemJTAGIO) val apb = p(ExportDebug).apb.option(Flipped(new ClockedAPBBundle(APBBundleParameters(addrBits=12, dataBits=32)))) //------------------------------ val ndreset = Output(Bool()) val dmactive = Output(Bool()) val dmactiveAck = Input(Bool()) val extTrigger = (p(DebugModuleKey).get.nExtTriggers > 0).option(new DebugExtTriggerIO()) val disableDebug = p(ExportDebug).externalDisable.option(Input(Bool())) } class PSDIO(implicit val p: Parameters) extends Bundle with CanHavePSDTestModeIO { } class ResetCtrlIO(val nComponents: Int)(implicit val p: Parameters) extends Bundle { val hartResetReq = (p(DebugModuleKey).exists(x=>x.hasHartResets)).option(Output(Vec(nComponents, Bool()))) val hartIsInReset = Input(Vec(nComponents, Bool())) } /** Either adds a JTAG DTM to system, and exports a JTAG interface, * or exports the Debug Module Interface (DMI), or exports and hooks up APB, * based on a global parameter. */ trait HasPeripheryDebug { this: BaseSubsystem => private lazy val tlbus = locateTLBusWrapper(p(ExportDebug).slaveWhere) lazy val debugCustomXbarOpt = p(DebugModuleKey).map(params => LazyModule( new DebugCustomXbar(outputRequiresInput = false))) lazy val apbDebugNodeOpt = p(ExportDebug).apb.option(APBMasterNode(Seq(APBMasterPortParameters(Seq(APBMasterParameters("debugAPB")))))) val debugTLDomainOpt = p(DebugModuleKey).map { _ => val domain = ClockSinkNode(Seq(ClockSinkParameters())) domain := tlbus.fixedClockNode domain } lazy val debugOpt = p(DebugModuleKey).map { params => val tlDM = LazyModule(new TLDebugModule(tlbus.beatBytes)) tlDM.node := tlbus.coupleTo("debug"){ TLFragmenter(tlbus.beatBytes, tlbus.blockBytes, nameSuffix = Some("Debug")) := _ } tlDM.dmInner.dmInner.customNode := debugCustomXbarOpt.get.node (apbDebugNodeOpt zip tlDM.apbNodeOpt) foreach { case (master, slave) => slave := master } tlDM.dmInner.dmInner.sb2tlOpt.foreach { sb2tl => locateTLBusWrapper(p(ExportDebug).masterWhere).coupleFrom("debug_sb") { _ := TLWidthWidget(1) := sb2tl.node } } tlDM } val debugNode = debugOpt.map(_.intnode) val psd = InModuleBody { val psd = IO(new PSDIO) psd } val resetctrl = InModuleBody { debugOpt.map { debug => debug.module.io.tl_reset := debugTLDomainOpt.get.in.head._1.reset debug.module.io.tl_clock := debugTLDomainOpt.get.in.head._1.clock val resetctrl = IO(new ResetCtrlIO(debug.dmOuter.dmOuter.intnode.edges.out.size)) debug.module.io.hartIsInReset := resetctrl.hartIsInReset resetctrl.hartResetReq.foreach { rcio => debug.module.io.hartResetReq.foreach { rcdm => rcio := rcdm }} resetctrl } } // noPrefix is workaround https://github.com/freechipsproject/chisel3/issues/1603 val debug = InModuleBody { noPrefix(debugOpt.map { debugmod => val debug = IO(new DebugIO) require(!(debug.clockeddmi.isDefined && debug.systemjtag.isDefined), "You cannot have both DMI and JTAG interface in HasPeripheryDebug") require(!(debug.clockeddmi.isDefined && debug.apb.isDefined), "You cannot have both DMI and APB interface in HasPeripheryDebug") require(!(debug.systemjtag.isDefined && debug.apb.isDefined), "You cannot have both APB and JTAG interface in HasPeripheryDebug") debug.clockeddmi.foreach { dbg => debugmod.module.io.dmi.get <> dbg } (debug.apb zip apbDebugNodeOpt zip debugmod.module.io.apb_clock zip debugmod.module.io.apb_reset).foreach { case (((io, apb), c ), r) => apb.out(0)._1 <> io c:= io.clock r:= io.reset } debugmod.module.io.debug_reset := debug.reset debugmod.module.io.debug_clock := debug.clock debug.ndreset := debugmod.module.io.ctrl.ndreset debug.dmactive := debugmod.module.io.ctrl.dmactive debugmod.module.io.ctrl.dmactiveAck := debug.dmactiveAck debug.extTrigger.foreach { x => debugmod.module.io.extTrigger.foreach {y => x <> y}} // TODO in inheriting traits: Set this to something meaningful, e.g. "component is in reset or powered down" debugmod.module.io.ctrl.debugUnavail.foreach { _ := false.B } debug })} val dtm = InModuleBody { debug.flatMap(_.systemjtag.map(instantiateJtagDTM(_))) } def instantiateJtagDTM(sj: SystemJTAGIO): DebugTransportModuleJTAG = { val dtm = Module(new DebugTransportModuleJTAG(p(DebugModuleKey).get.nDMIAddrSize, p(JtagDTMKey))) dtm.io.jtag <> sj.jtag debug.map(_.disableDebug.foreach { x => dtm.io.jtag.TMS := sj.jtag.TMS | x }) // force TMS high when debug is disabled dtm.io.jtag_clock := sj.jtag.TCK dtm.io.jtag_reset := sj.reset dtm.io.jtag_mfr_id := sj.mfr_id dtm.io.jtag_part_number := sj.part_number dtm.io.jtag_version := sj.version dtm.rf_reset := sj.reset debugOpt.map { outerdebug => outerdebug.module.io.dmi.get.dmi <> dtm.io.dmi outerdebug.module.io.dmi.get.dmiClock := sj.jtag.TCK outerdebug.module.io.dmi.get.dmiReset := sj.reset } dtm } } /** BlackBox to export DMI interface */ class SimDTM(implicit p: Parameters) extends BlackBox with HasBlackBoxResource { val io = IO(new Bundle { val clk = Input(Clock()) val reset = Input(Bool()) val debug = new DMIIO val exit = Output(UInt(32.W)) }) def connect(tbclk: Clock, tbreset: Bool, dutio: ClockedDMIIO, tbsuccess: Bool) = { io.clk := tbclk io.reset := tbreset dutio.dmi <> io.debug dutio.dmiClock := tbclk dutio.dmiReset := tbreset tbsuccess := io.exit === 1.U assert(io.exit < 2.U, "*** FAILED *** (exit code = %d)\n", io.exit >> 1.U) } addResource("/vsrc/SimDTM.v") addResource("/csrc/SimDTM.cc") } /** BlackBox to export JTAG interface */ class SimJTAG(tickDelay: Int = 50) extends BlackBox(Map("TICK_DELAY" -> IntParam(tickDelay))) with HasBlackBoxResource { val io = IO(new Bundle { val clock = Input(Clock()) val reset = Input(Bool()) val jtag = new JTAGIO(hasTRSTn = true) val enable = Input(Bool()) val init_done = Input(Bool()) val exit = Output(UInt(32.W)) }) def connect(dutio: JTAGIO, tbclock: Clock, tbreset: Bool, init_done: Bool, tbsuccess: Bool) = { dutio.TCK := io.jtag.TCK dutio.TMS := io.jtag.TMS dutio.TDI := io.jtag.TDI io.jtag.TDO := dutio.TDO io.clock := tbclock io.reset := tbreset io.enable := PlusArg("jtag_rbb_enable", 0, "Enable SimJTAG for JTAG Connections. Simulation will pause until connection is made.") io.init_done := init_done // Success is determined by the gdbserver // which is controlling this simulation. tbsuccess := io.exit === 1.U assert(io.exit < 2.U, "*** FAILED *** (exit code = %d)\n", io.exit >> 1.U) } addResource("/vsrc/SimJTAG.v") addResource("/csrc/SimJTAG.cc") addResource("/csrc/remote_bitbang.h") addResource("/csrc/remote_bitbang.cc") } object Debug { def connectDebug( debugOpt: Option[DebugIO], resetctrlOpt: Option[ResetCtrlIO], psdio: PSDIO, c: Clock, r: Bool, out: Bool, tckHalfPeriod: Int = 2, cmdDelay: Int = 2, psd: PSDTestMode = 0.U.asTypeOf(new PSDTestMode())) (implicit p: Parameters): Unit = { connectDebugClockAndReset(debugOpt, c) resetctrlOpt.map { rcio => rcio.hartIsInReset.map { _ := r }} debugOpt.map { debug => debug.clockeddmi.foreach { d => val dtm = Module(new SimDTM).connect(c, r, d, out) } debug.systemjtag.foreach { sj => val jtag = Module(new SimJTAG(tickDelay=3)).connect(sj.jtag, c, r, ~r, out) sj.reset := r.asAsyncReset sj.mfr_id := p(JtagDTMKey).idcodeManufId.U(11.W) sj.part_number := p(JtagDTMKey).idcodePartNum.U(16.W) sj.version := p(JtagDTMKey).idcodeVersion.U(4.W) } debug.apb.foreach { apb => require(false, "No support for connectDebug for an APB debug connection.") } psdio.psd.foreach { _ <> psd } debug.disableDebug.foreach { x => x := false.B } } } def connectDebugClockAndReset(debugOpt: Option[DebugIO], c: Clock, sync: Boolean = true)(implicit p: Parameters): Unit = { debugOpt.foreach { debug => val dmi_reset = debug.clockeddmi.map(_.dmiReset.asBool).getOrElse(false.B) | debug.systemjtag.map(_.reset.asBool).getOrElse(false.B) | debug.apb.map(_.reset.asBool).getOrElse(false.B) connectDebugClockHelper(debug, dmi_reset, c, sync) } } def connectDebugClockHelper(debug: DebugIO, dmi_reset: Reset, c: Clock, sync: Boolean = true)(implicit p: Parameters): Unit = { val debug_reset = Wire(Bool()) withClockAndReset(c, dmi_reset) { val debug_reset_syncd = if(sync) ~AsyncResetSynchronizerShiftReg(in=true.B, sync=3, name=Some("debug_reset_sync")) else dmi_reset debug_reset := debug_reset_syncd } // Need to clock DM during debug_reset because of synchronous reset, so keep // the clock alive for one cycle after debug_reset asserts to action this behavior. // The unit should also be clocked when dmactive is high. withClockAndReset(c, debug_reset.asAsyncReset) { val dmactiveAck = if (sync) ResetSynchronizerShiftReg(in=debug.dmactive, sync=3, name=Some("dmactiveAck")) else debug.dmactive val clock_en = RegNext(next=dmactiveAck, init=true.B) val gated_clock = if (!p(DebugModuleKey).get.clockGate) c else ClockGate(c, clock_en, "debug_clock_gate") debug.clock := gated_clock debug.reset := (if (p(SubsystemResetSchemeKey)==ResetSynchronous) debug_reset else debug_reset.asAsyncReset) debug.dmactiveAck := dmactiveAck } } def tieoffDebug(debugOpt: Option[DebugIO], resetctrlOpt: Option[ResetCtrlIO] = None, psdio: Option[PSDIO] = None)(implicit p: Parameters): Bool = { psdio.foreach(_.psd.foreach { _ <> 0.U.asTypeOf(new PSDTestMode()) } ) resetctrlOpt.map { rcio => rcio.hartIsInReset.map { _ := false.B }} debugOpt.map { debug => debug.clock := true.B.asClock debug.reset := (if (p(SubsystemResetSchemeKey)==ResetSynchronous) true.B else true.B.asAsyncReset) debug.systemjtag.foreach { sj => sj.jtag.TCK := true.B.asClock sj.jtag.TMS := true.B sj.jtag.TDI := true.B sj.jtag.TRSTn.foreach { r => r := true.B } sj.reset := true.B.asAsyncReset sj.mfr_id := 0.U sj.part_number := 0.U sj.version := 0.U } debug.clockeddmi.foreach { d => d.dmi.req.valid := false.B d.dmi.req.bits.addr := 0.U d.dmi.req.bits.data := 0.U d.dmi.req.bits.op := 0.U d.dmi.resp.ready := true.B d.dmiClock := false.B.asClock d.dmiReset := true.B.asAsyncReset } debug.apb.foreach { apb => apb.clock := false.B.asClock apb.reset := true.B.asAsyncReset apb.pready := false.B apb.pslverr := false.B apb.prdata := 0.U apb.pduser := 0.U.asTypeOf(chiselTypeOf(apb.pduser)) apb.psel := false.B apb.penable := false.B } debug.extTrigger.foreach { t => t.in.req := false.B t.out.ack := t.out.req } debug.disableDebug.foreach { x => x := false.B } debug.dmactiveAck := false.B debug.ndreset }.getOrElse(false.B) } } File HasChipyardPRCI.scala: package chipyard.clocking import chisel3._ import scala.collection.mutable.{ArrayBuffer} import org.chipsalliance.cde.config.{Parameters, Field, Config} import freechips.rocketchip.diplomacy._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.devices.tilelink._ import freechips.rocketchip.regmapper._ import freechips.rocketchip.subsystem._ import freechips.rocketchip.util._ import freechips.rocketchip.tile._ import freechips.rocketchip.prci._ import testchipip.boot.{TLTileResetCtrl} import testchipip.clocking.{ClockGroupFakeResetSynchronizer} case class ChipyardPRCIControlParams( slaveWhere: TLBusWrapperLocation = CBUS, baseAddress: BigInt = 0x100000, enableTileClockGating: Boolean = true, enableTileResetSetting: Boolean = true, enableResetSynchronizers: Boolean = true // this should only be disabled to work around verilator async-reset initialization problems ) { def generatePRCIXBar = enableTileClockGating || enableTileResetSetting } case object ChipyardPRCIControlKey extends Field[ChipyardPRCIControlParams](ChipyardPRCIControlParams()) trait HasChipyardPRCI { this: BaseSubsystem with InstantiatesHierarchicalElements => require(!p(SubsystemDriveClockGroupsFromIO), "Subsystem allClockGroups cannot be driven from implicit clocks") val prciParams = p(ChipyardPRCIControlKey) // Set up clock domain private val tlbus = locateTLBusWrapper(prciParams.slaveWhere) val prci_ctrl_domain = tlbus.generateSynchronousDomain("ChipyardPRCICtrl") .suggestName("chipyard_prcictrl_domain") val prci_ctrl_bus = Option.when(prciParams.generatePRCIXBar) { prci_ctrl_domain { TLXbar(nameSuffix = Some("prcibus")) } } prci_ctrl_bus.foreach(xbar => tlbus.coupleTo("prci_ctrl") { (xbar := TLFIFOFixer(TLFIFOFixer.all) := TLBuffer() := _) }) // Aggregate all the clock groups into a single node val aggregator = LazyModule(new ClockGroupAggregator("allClocks")).node // The diplomatic clocks in the subsystem are routed to this allClockGroupsNode val clockNamePrefixer = ClockGroupNamePrefixer() (allClockGroupsNode :*= clockNamePrefixer :*= aggregator) // Once all the clocks are gathered in the aggregator node, several steps remain // 1. Assign frequencies to any clock groups which did not specify a frequency. // 2. Combine duplicated clock groups (clock groups which physically should be in the same clock domain) // 3. Synchronize reset to each clock group // 4. Clock gate the clock groups corresponding to Tiles (if desired). // 5. Add reset control registers to the tiles (if desired) // The final clock group here contains physically distinct clock domains, which some PRCI node in a // diplomatic IOBinder should drive val frequencySpecifier = ClockGroupFrequencySpecifier(p(ClockFrequencyAssignersKey)) val clockGroupCombiner = ClockGroupCombiner() val resetSynchronizer = prci_ctrl_domain { if (prciParams.enableResetSynchronizers) ClockGroupResetSynchronizer() else ClockGroupFakeResetSynchronizer() } val tileClockGater = Option.when(prciParams.enableTileClockGating) { prci_ctrl_domain { val clock_gater = LazyModule(new TileClockGater(prciParams.baseAddress + 0x00000, tlbus.beatBytes)) clock_gater.tlNode := TLFragmenter(tlbus.beatBytes, tlbus.blockBytes, nameSuffix = Some("TileClockGater")) := prci_ctrl_bus.get clock_gater } } val tileResetSetter = Option.when(prciParams.enableTileResetSetting) { prci_ctrl_domain { val reset_setter = LazyModule(new TileResetSetter(prciParams.baseAddress + 0x10000, tlbus.beatBytes, tile_prci_domains.map(_._2.tile_reset_domain.clockNode.portParams(0).name.get).toSeq, Nil)) reset_setter.tlNode := TLFragmenter(tlbus.beatBytes, tlbus.blockBytes, nameSuffix = Some("TileResetSetter")) := prci_ctrl_bus.get reset_setter } } if (!prciParams.enableResetSynchronizers) { println(Console.RED + s""" !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! WARNING: DISABLING THE RESET SYNCHRONIZERS RESULTS IN A BROKEN DESIGN THAT WILL NOT BEHAVE PROPERLY AS ASIC OR FPGA. THESE SHOULD ONLY BE DISABLED TO WORK AROUND LIMITATIONS IN ASYNC RESET INITIALIZATION IN RTL SIMULATORS, NAMELY VERILATOR. !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! """ + Console.RESET) } // The chiptopClockGroupsNode shouuld be what ClockBinders attach to val chiptopClockGroupsNode = ClockGroupEphemeralNode() (aggregator := frequencySpecifier := clockGroupCombiner := resetSynchronizer := tileClockGater.map(_.clockNode).getOrElse(ClockGroupEphemeralNode()(ValName("temp"))) := tileResetSetter.map(_.clockNode).getOrElse(ClockGroupEphemeralNode()(ValName("temp"))) := chiptopClockGroupsNode) } File UART.scala: package sifive.blocks.devices.uart import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.{Field, Parameters} import freechips.rocketchip.diplomacy._ import freechips.rocketchip.interrupts._ import freechips.rocketchip.prci._ import freechips.rocketchip.regmapper._ import freechips.rocketchip.subsystem._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.devices.tilelink._ import freechips.rocketchip.util._ import sifive.blocks.util._ /** UART parameters * * @param address uart device TL base address * @param dataBits number of bits in data frame * @param stopBits number of stop bits * @param divisorBits width of baud rate divisor * @param oversample constructs the times of sampling for every data bit * @param nSamples number of reserved Rx sampling result for decide one data bit * @param nTxEntries number of entries in fifo between TL bus and Tx * @param nRxEntries number of entries in fifo between TL bus and Rx * @param includeFourWire additional CTS/RTS ports for flow control * @param includeParity parity support * @param includeIndependentParity Tx and Rx have opposite parity modes * @param initBaudRate initial baud rate * * @note baud rate divisor = clk frequency / baud rate. It means the number of clk period for one data bit. * Calculated in [[UARTAttachParams.attachTo()]] * * @example To configure a 8N1 UART with features below: * {{{ * 8 entries of Tx and Rx fifo * Baud rate = 115200 * Rx samples each data bit 16 times * Uses 3 sample result for each data bit * }}} * Set the stopBits as below and keep the other parameter unchanged * {{{ * stopBits = 1 * }}} * */ case class UARTParams( address: BigInt, dataBits: Int = 8, stopBits: Int = 2, divisorBits: Int = 16, oversample: Int = 4, nSamples: Int = 3, nTxEntries: Int = 8, nRxEntries: Int = 8, includeFourWire: Boolean = false, includeParity: Boolean = false, includeIndependentParity: Boolean = false, // Tx and Rx have opposite parity modes initBaudRate: BigInt = BigInt(115200), ) extends DeviceParams { def oversampleFactor = 1 << oversample require(divisorBits > oversample) require(oversampleFactor > nSamples) require((dataBits == 8) || (dataBits == 9)) } class UARTPortIO(val c: UARTParams) extends Bundle { val txd = Output(Bool()) val rxd = Input(Bool()) val cts_n = c.includeFourWire.option(Input(Bool())) val rts_n = c.includeFourWire.option(Output(Bool())) } class UARTInterrupts extends Bundle { val rxwm = Bool() val txwm = Bool() } //abstract class UART(busWidthBytes: Int, val c: UARTParams, divisorInit: Int = 0) /** UART Module organizes Tx and Rx module with fifo and generates control signals for them according to CSRs and UART parameters. * * ==Component== * - Tx * - Tx fifo * - Rx * - Rx fifo * - TL bus to soc * * ==IO== * [[UARTPortIO]] * * ==Datapass== * {{{ * TL bus -> Tx fifo -> Tx * TL bus <- Rx fifo <- Rx * }}} * * @param divisorInit: number of clk period for one data bit */ class UART(busWidthBytes: Int, val c: UARTParams, divisorInit: Int = 0) (implicit p: Parameters) extends IORegisterRouter( RegisterRouterParams( name = "serial", compat = Seq("sifive,uart0"), base = c.address, beatBytes = busWidthBytes), new UARTPortIO(c)) //with HasInterruptSources { with HasInterruptSources with HasTLControlRegMap { def nInterrupts = 1 + c.includeParity.toInt ResourceBinding { Resource(ResourceAnchors.aliases, "uart").bind(ResourceAlias(device.label)) } require(divisorInit != 0, "UART divisor wasn't initialized during instantiation") require(divisorInit >> c.divisorBits == 0, s"UART divisor reg (width $c.divisorBits) not wide enough to hold $divisorInit") lazy val module = new LazyModuleImp(this) { val txm = Module(new UARTTx(c)) val txq = Module(new Queue(UInt(c.dataBits.W), c.nTxEntries)) val rxm = Module(new UARTRx(c)) val rxq = Module(new Queue(UInt(c.dataBits.W), c.nRxEntries)) val div = RegInit(divisorInit.U(c.divisorBits.W)) private val stopCountBits = log2Up(c.stopBits) private val txCountBits = log2Floor(c.nTxEntries) + 1 private val rxCountBits = log2Floor(c.nRxEntries) + 1 val txen = RegInit(false.B) val rxen = RegInit(false.B) val enwire4 = RegInit(false.B) val invpol = RegInit(false.B) val enparity = RegInit(false.B) val parity = RegInit(false.B) // Odd parity - 1 , Even parity - 0 val errorparity = RegInit(false.B) val errie = RegInit(false.B) val txwm = RegInit(0.U(txCountBits.W)) val rxwm = RegInit(0.U(rxCountBits.W)) val nstop = RegInit(0.U(stopCountBits.W)) val data8or9 = RegInit(true.B) if (c.includeFourWire){ txm.io.en := txen && (!port.cts_n.get || !enwire4) txm.io.cts_n.get := port.cts_n.get } else txm.io.en := txen txm.io.in <> txq.io.deq txm.io.div := div txm.io.nstop := nstop port.txd := txm.io.out if (c.dataBits == 9) { txm.io.data8or9.get := data8or9 rxm.io.data8or9.get := data8or9 } rxm.io.en := rxen rxm.io.in := port.rxd rxq.io.enq.valid := rxm.io.out.valid rxq.io.enq.bits := rxm.io.out.bits rxm.io.div := div val tx_busy = (txm.io.tx_busy || txq.io.count.orR) && txen port.rts_n.foreach { r => r := Mux(enwire4, !(rxq.io.count < c.nRxEntries.U), tx_busy ^ invpol) } if (c.includeParity) { txm.io.enparity.get := enparity txm.io.parity.get := parity rxm.io.parity.get := parity ^ c.includeIndependentParity.B // independent parity on tx and rx rxm.io.enparity.get := enparity errorparity := rxm.io.errorparity.get || errorparity interrupts(1) := errorparity && errie } val ie = RegInit(0.U.asTypeOf(new UARTInterrupts())) val ip = Wire(new UARTInterrupts) ip.txwm := (txq.io.count < txwm) ip.rxwm := (rxq.io.count > rxwm) interrupts(0) := (ip.txwm && ie.txwm) || (ip.rxwm && ie.rxwm) val mapping = Seq( UARTCtrlRegs.txfifo -> RegFieldGroup("txdata",Some("Transmit data"), NonBlockingEnqueue(txq.io.enq)), UARTCtrlRegs.rxfifo -> RegFieldGroup("rxdata",Some("Receive data"), NonBlockingDequeue(rxq.io.deq)), UARTCtrlRegs.txctrl -> RegFieldGroup("txctrl",Some("Serial transmit control"),Seq( RegField(1, txen, RegFieldDesc("txen","Transmit enable", reset=Some(0))), RegField(stopCountBits, nstop, RegFieldDesc("nstop","Number of stop bits", reset=Some(0))))), UARTCtrlRegs.rxctrl -> Seq(RegField(1, rxen, RegFieldDesc("rxen","Receive enable", reset=Some(0)))), UARTCtrlRegs.txmark -> Seq(RegField(txCountBits, txwm, RegFieldDesc("txcnt","Transmit watermark level", reset=Some(0)))), UARTCtrlRegs.rxmark -> Seq(RegField(rxCountBits, rxwm, RegFieldDesc("rxcnt","Receive watermark level", reset=Some(0)))), UARTCtrlRegs.ie -> RegFieldGroup("ie",Some("Serial interrupt enable"),Seq( RegField(1, ie.txwm, RegFieldDesc("txwm_ie","Transmit watermark interrupt enable", reset=Some(0))), RegField(1, ie.rxwm, RegFieldDesc("rxwm_ie","Receive watermark interrupt enable", reset=Some(0))))), UARTCtrlRegs.ip -> RegFieldGroup("ip",Some("Serial interrupt pending"),Seq( RegField.r(1, ip.txwm, RegFieldDesc("txwm_ip","Transmit watermark interrupt pending", volatile=true)), RegField.r(1, ip.rxwm, RegFieldDesc("rxwm_ip","Receive watermark interrupt pending", volatile=true)))), UARTCtrlRegs.div -> Seq( RegField(c.divisorBits, div, RegFieldDesc("div","Baud rate divisor",reset=Some(divisorInit)))) ) val optionalparity = if (c.includeParity) Seq( UARTCtrlRegs.parity -> RegFieldGroup("paritygenandcheck",Some("Odd/Even Parity Generation/Checking"),Seq( RegField(1, enparity, RegFieldDesc("enparity","Enable Parity Generation/Checking", reset=Some(0))), RegField(1, parity, RegFieldDesc("parity","Odd(1)/Even(0) Parity", reset=Some(0))), RegField(1, errorparity, RegFieldDesc("errorparity","Parity Status Sticky Bit", reset=Some(0))), RegField(1, errie, RegFieldDesc("errie","Interrupt on error in parity enable", reset=Some(0)))))) else Nil val optionalwire4 = if (c.includeFourWire) Seq( UARTCtrlRegs.wire4 -> RegFieldGroup("wire4",Some("Configure Clear-to-send / Request-to-send ports / RS-485"),Seq( RegField(1, enwire4, RegFieldDesc("enwire4","Enable CTS/RTS(1) or RS-485(0)", reset=Some(0))), RegField(1, invpol, RegFieldDesc("invpol","Invert polarity of RTS in RS-485 mode", reset=Some(0))) ))) else Nil val optional8or9 = if (c.dataBits == 9) Seq( UARTCtrlRegs.either8or9 -> RegFieldGroup("ConfigurableDataBits",Some("Configure number of data bits to be transmitted"),Seq( RegField(1, data8or9, RegFieldDesc("databits8or9","Data Bits to be 8(1) or 9(0)", reset=Some(1)))))) else Nil regmap(mapping ++ optionalparity ++ optionalwire4 ++ optional8or9:_*) } } class TLUART(busWidthBytes: Int, params: UARTParams, divinit: Int)(implicit p: Parameters) extends UART(busWidthBytes, params, divinit) with HasTLControlRegMap case class UARTLocated(loc: HierarchicalLocation) extends Field[Seq[UARTAttachParams]](Nil) case class UARTAttachParams( device: UARTParams, controlWhere: TLBusWrapperLocation = PBUS, blockerAddr: Option[BigInt] = None, controlXType: ClockCrossingType = NoCrossing, intXType: ClockCrossingType = NoCrossing) extends DeviceAttachParams { def attachTo(where: Attachable)(implicit p: Parameters): TLUART = where { val name = s"uart_${UART.nextId()}" val tlbus = where.locateTLBusWrapper(controlWhere) val divinit = (tlbus.dtsFrequency.get / device.initBaudRate).toInt val uartClockDomainWrapper = LazyModule(new ClockSinkDomain(take = None, name = Some("TLUART"))) val uart = uartClockDomainWrapper { LazyModule(new TLUART(tlbus.beatBytes, device, divinit)) } uart.suggestName(name) tlbus.coupleTo(s"device_named_$name") { bus => val blockerOpt = blockerAddr.map { a => val blocker = LazyModule(new TLClockBlocker(BasicBusBlockerParams(a, tlbus.beatBytes, tlbus.beatBytes))) tlbus.coupleTo(s"bus_blocker_for_$name") { blocker.controlNode := TLFragmenter(tlbus, Some("UART_Blocker")) := _ } blocker } uartClockDomainWrapper.clockNode := (controlXType match { case _: SynchronousCrossing => tlbus.dtsClk.map(_.bind(uart.device)) tlbus.fixedClockNode case _: RationalCrossing => tlbus.clockNode case _: AsynchronousCrossing => val uartClockGroup = ClockGroup() uartClockGroup := where.allClockGroupsNode blockerOpt.map { _.clockNode := uartClockGroup } .getOrElse { uartClockGroup } }) (uart.controlXing(controlXType) := TLFragmenter(tlbus, Some("UART")) := blockerOpt.map { _.node := bus } .getOrElse { bus }) } (intXType match { case _: SynchronousCrossing => where.ibus.fromSync case _: RationalCrossing => where.ibus.fromRational case _: AsynchronousCrossing => where.ibus.fromAsync }) := uart.intXing(intXType) uart } } object UART { val nextId = { var i = -1; () => { i += 1; i} } def makePort(node: BundleBridgeSource[UARTPortIO], name: String)(implicit p: Parameters): ModuleValue[UARTPortIO] = { val uartNode = node.makeSink() InModuleBody { uartNode.makeIO()(ValName(name)) } } def tieoff(port: UARTPortIO) { port.rxd := 1.U if (port.c.includeFourWire) { port.cts_n.foreach { ct => ct := false.B } // active-low } } def loopback(port: UARTPortIO) { port.rxd := port.txd if (port.c.includeFourWire) { port.cts_n.get := port.rts_n.get } } } /* Copyright 2016 SiFive, Inc. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ File Crossing.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.interrupts import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.util.{SynchronizerShiftReg, AsyncResetReg} @deprecated("IntXing does not ensure interrupt source is glitch free. Use IntSyncSource and IntSyncSink", "rocket-chip 1.2") class IntXing(sync: Int = 3)(implicit p: Parameters) extends LazyModule { val intnode = IntAdapterNode() lazy val module = new Impl class Impl extends LazyModuleImp(this) { (intnode.in zip intnode.out) foreach { case ((in, _), (out, _)) => out := SynchronizerShiftReg(in, sync) } } } object IntSyncCrossingSource { def apply(alreadyRegistered: Boolean = false)(implicit p: Parameters) = { val intsource = LazyModule(new IntSyncCrossingSource(alreadyRegistered)) intsource.node } } class IntSyncCrossingSource(alreadyRegistered: Boolean = false)(implicit p: Parameters) extends LazyModule { val node = IntSyncSourceNode(alreadyRegistered) lazy val module = if (alreadyRegistered) (new ImplRegistered) else (new Impl) class Impl extends LazyModuleImp(this) { def outSize = node.out.headOption.map(_._1.sync.size).getOrElse(0) override def desiredName = s"IntSyncCrossingSource_n${node.out.size}x${outSize}" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out.sync := AsyncResetReg(Cat(in.reverse)).asBools } } class ImplRegistered extends LazyRawModuleImp(this) { def outSize = node.out.headOption.map(_._1.sync.size).getOrElse(0) override def desiredName = s"IntSyncCrossingSource_n${node.out.size}x${outSize}_Registered" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out.sync := in } } } object IntSyncCrossingSink { @deprecated("IntSyncCrossingSink which used the `sync` parameter to determine crossing type is deprecated. Use IntSyncAsyncCrossingSink, IntSyncRationalCrossingSink, or IntSyncSyncCrossingSink instead for > 1, 1, and 0 sync values respectively", "rocket-chip 1.2") def apply(sync: Int = 3)(implicit p: Parameters) = { val intsink = LazyModule(new IntSyncAsyncCrossingSink(sync)) intsink.node } } class IntSyncAsyncCrossingSink(sync: Int = 3)(implicit p: Parameters) extends LazyModule { val node = IntSyncSinkNode(sync) lazy val module = new Impl class Impl extends LazyModuleImp(this) { override def desiredName = s"IntSyncAsyncCrossingSink_n${node.out.size}x${node.out.head._1.size}" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out := SynchronizerShiftReg(in.sync, sync) } } } object IntSyncAsyncCrossingSink { def apply(sync: Int = 3)(implicit p: Parameters) = { val intsink = LazyModule(new IntSyncAsyncCrossingSink(sync)) intsink.node } } class IntSyncSyncCrossingSink()(implicit p: Parameters) extends LazyModule { val node = IntSyncSinkNode(0) lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { def outSize = node.out.headOption.map(_._1.size).getOrElse(0) override def desiredName = s"IntSyncSyncCrossingSink_n${node.out.size}x${outSize}" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out := in.sync } } } object IntSyncSyncCrossingSink { def apply()(implicit p: Parameters) = { val intsink = LazyModule(new IntSyncSyncCrossingSink()) intsink.node } } class IntSyncRationalCrossingSink()(implicit p: Parameters) extends LazyModule { val node = IntSyncSinkNode(1) lazy val module = new Impl class Impl extends LazyModuleImp(this) { def outSize = node.out.headOption.map(_._1.size).getOrElse(0) override def desiredName = s"IntSyncRationalCrossingSink_n${node.out.size}x${outSize}" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out := RegNext(in.sync) } } } object IntSyncRationalCrossingSink { def apply()(implicit p: Parameters) = { val intsink = LazyModule(new IntSyncRationalCrossingSink()) intsink.node } } File MemoryBus.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.subsystem import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.devices.tilelink.{BuiltInDevices, HasBuiltInDeviceParams, BuiltInErrorDeviceParams, BuiltInZeroDeviceParams} import freechips.rocketchip.tilelink.{ ReplicatedRegion, HasTLBusParams, HasRegionReplicatorParams, TLBusWrapper, TLBusWrapperInstantiationLike, RegionReplicator, TLXbar, TLInwardNode, TLOutwardNode, ProbePicker, TLEdge, TLFIFOFixer } import freechips.rocketchip.util.Location /** Parameterization of the memory-side bus created for each memory channel */ case class MemoryBusParams( beatBytes: Int, blockBytes: Int, dtsFrequency: Option[BigInt] = None, zeroDevice: Option[BuiltInZeroDeviceParams] = None, errorDevice: Option[BuiltInErrorDeviceParams] = None, replication: Option[ReplicatedRegion] = None) extends HasTLBusParams with HasBuiltInDeviceParams with HasRegionReplicatorParams with TLBusWrapperInstantiationLike { def instantiate(context: HasTileLinkLocations, loc: Location[TLBusWrapper])(implicit p: Parameters): MemoryBus = { val mbus = LazyModule(new MemoryBus(this, loc.name)) mbus.suggestName(loc.name) context.tlBusWrapperLocationMap += (loc -> mbus) mbus } } /** Wrapper for creating TL nodes from a bus connected to the back of each mem channel */ class MemoryBus(params: MemoryBusParams, name: String = "memory_bus")(implicit p: Parameters) extends TLBusWrapper(params, name)(p) { private val replicator = params.replication.map(r => LazyModule(new RegionReplicator(r))) val prefixNode = replicator.map { r => r.prefix := addressPrefixNexusNode addressPrefixNexusNode } private val xbar = LazyModule(new TLXbar(nameSuffix = Some(name))).suggestName(busName + "_xbar") val inwardNode: TLInwardNode = replicator.map(xbar.node :*=* TLFIFOFixer(TLFIFOFixer.all) :*=* _.node) .getOrElse(xbar.node :*=* TLFIFOFixer(TLFIFOFixer.all)) val outwardNode: TLOutwardNode = ProbePicker() :*= xbar.node def busView: TLEdge = xbar.node.edges.in.head val builtInDevices: BuiltInDevices = BuiltInDevices.attach(params, outwardNode) } File ClockDomain.scala: package freechips.rocketchip.prci import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ abstract class Domain(implicit p: Parameters) extends LazyModule with HasDomainCrossing { def clockBundle: ClockBundle lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { childClock := clockBundle.clock childReset := clockBundle.reset override def provideImplicitClockToLazyChildren = true // these are just for backwards compatibility with external devices // that were manually wiring themselves to the domain's clock/reset input: val clock = IO(Output(chiselTypeOf(clockBundle.clock))) val reset = IO(Output(chiselTypeOf(clockBundle.reset))) clock := clockBundle.clock reset := clockBundle.reset } } abstract class ClockDomain(implicit p: Parameters) extends Domain with HasClockDomainCrossing class ClockSinkDomain(val clockSinkParams: ClockSinkParameters)(implicit p: Parameters) extends ClockDomain { def this(take: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSinkParameters(take = take, name = name)) val clockNode = ClockSinkNode(Seq(clockSinkParams)) def clockBundle = clockNode.in.head._1 override lazy val desiredName = (clockSinkParams.name.toSeq :+ "ClockSinkDomain").mkString } class ClockSourceDomain(val clockSourceParams: ClockSourceParameters)(implicit p: Parameters) extends ClockDomain { def this(give: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSourceParameters(give = give, name = name)) val clockNode = ClockSourceNode(Seq(clockSourceParams)) def clockBundle = clockNode.out.head._1 override lazy val desiredName = (clockSourceParams.name.toSeq :+ "ClockSourceDomain").mkString } abstract class ResetDomain(implicit p: Parameters) extends Domain with HasResetDomainCrossing File CanHaveClockTap.scala: package chipyard.clocking import chisel3._ import org.chipsalliance.cde.config.{Parameters, Field, Config} import freechips.rocketchip.diplomacy._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.subsystem._ import freechips.rocketchip.util._ import freechips.rocketchip.tile._ import freechips.rocketchip.prci._ case object ClockTapKey extends Field[Boolean](true) trait CanHaveClockTap { this: BaseSubsystem => require(!p(SubsystemDriveClockGroupsFromIO), "Subsystem must not drive clocks from IO") val clockTapNode = Option.when(p(ClockTapKey)) { val clockTap = ClockSinkNode(Seq(ClockSinkParameters(name=Some("clock_tap")))) clockTap := ClockGroup() := allClockGroupsNode clockTap } val clockTapIO = clockTapNode.map { node => InModuleBody { val clock_tap = IO(Output(Clock())) clock_tap := node.in.head._1.clock clock_tap }} } File PeripheryBus.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.subsystem import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.devices.tilelink.{BuiltInZeroDeviceParams, BuiltInErrorDeviceParams, HasBuiltInDeviceParams, BuiltInDevices} import freechips.rocketchip.diplomacy.BufferParams import freechips.rocketchip.tilelink.{ RegionReplicator, ReplicatedRegion, HasTLBusParams, HasRegionReplicatorParams, TLBusWrapper, TLBusWrapperInstantiationLike, TLFIFOFixer, TLNode, TLXbar, TLInwardNode, TLOutwardNode, TLBuffer, TLWidthWidget, TLAtomicAutomata, TLEdge } import freechips.rocketchip.util.Location case class BusAtomics( arithmetic: Boolean = true, buffer: BufferParams = BufferParams.default, widenBytes: Option[Int] = None ) case class PeripheryBusParams( beatBytes: Int, blockBytes: Int, atomics: Option[BusAtomics] = Some(BusAtomics()), dtsFrequency: Option[BigInt] = None, zeroDevice: Option[BuiltInZeroDeviceParams] = None, errorDevice: Option[BuiltInErrorDeviceParams] = None, replication: Option[ReplicatedRegion] = None) extends HasTLBusParams with HasBuiltInDeviceParams with HasRegionReplicatorParams with TLBusWrapperInstantiationLike { def instantiate(context: HasTileLinkLocations, loc: Location[TLBusWrapper])(implicit p: Parameters): PeripheryBus = { val pbus = LazyModule(new PeripheryBus(this, loc.name)) pbus.suggestName(loc.name) context.tlBusWrapperLocationMap += (loc -> pbus) pbus } } class PeripheryBus(params: PeripheryBusParams, name: String)(implicit p: Parameters) extends TLBusWrapper(params, name) { override lazy val desiredName = s"PeripheryBus_$name" private val replicator = params.replication.map(r => LazyModule(new RegionReplicator(r))) val prefixNode = replicator.map { r => r.prefix := addressPrefixNexusNode addressPrefixNexusNode } private val fixer = LazyModule(new TLFIFOFixer(TLFIFOFixer.all)) private val node: TLNode = params.atomics.map { pa => val in_xbar = LazyModule(new TLXbar(nameSuffix = Some(s"${name}_in"))) val out_xbar = LazyModule(new TLXbar(nameSuffix = Some(s"${name}_out"))) val fixer_node = replicator.map(fixer.node :*= _.node).getOrElse(fixer.node) (out_xbar.node :*= fixer_node :*= TLBuffer(pa.buffer) :*= (pa.widenBytes.filter(_ > beatBytes).map { w => TLWidthWidget(w) :*= TLAtomicAutomata(arithmetic = pa.arithmetic, nameSuffix = Some(name)) } .getOrElse { TLAtomicAutomata(arithmetic = pa.arithmetic, nameSuffix = Some(name)) }) :*= in_xbar.node) } .getOrElse { TLXbar() :*= fixer.node } def inwardNode: TLInwardNode = node def outwardNode: TLOutwardNode = node def busView: TLEdge = fixer.node.edges.in.head val builtInDevices: BuiltInDevices = BuiltInDevices.attach(params, outwardNode) } File BankedCoherenceParams.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.subsystem import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.devices.tilelink.BuiltInDevices import freechips.rocketchip.diplomacy.AddressSet import freechips.rocketchip.interrupts.IntOutwardNode import freechips.rocketchip.tilelink.{ TLBroadcast, HasTLBusParams, BroadcastFilter, TLBusWrapper, TLBusWrapperInstantiationLike, TLJbar, TLEdge, TLOutwardNode, TLTempNode, TLInwardNode, BankBinder, TLBroadcastParams, TLBroadcastControlParams, TLBuffer, TLFragmenter, TLNameNode } import freechips.rocketchip.util.Location import CoherenceManagerWrapper._ /** Global cache coherence granularity, which applies to all caches, for now. */ case object CacheBlockBytes extends Field[Int](64) /** LLC Broadcast Hub configuration */ case object BroadcastKey extends Field(BroadcastParams()) case class BroadcastParams( nTrackers: Int = 4, bufferless: Boolean = false, controlAddress: Option[BigInt] = None, filterFactory: TLBroadcast.ProbeFilterFactory = BroadcastFilter.factory) /** Coherence manager configuration */ case object SubsystemBankedCoherenceKey extends Field(BankedCoherenceParams()) case class ClusterBankedCoherenceKey(clusterId: Int) extends Field(BankedCoherenceParams(nBanks=0)) case class BankedCoherenceParams( nBanks: Int = 1, coherenceManager: CoherenceManagerInstantiationFn = broadcastManager ) { require (isPow2(nBanks) || nBanks == 0) } case class CoherenceManagerWrapperParams( blockBytes: Int, beatBytes: Int, nBanks: Int, name: String, dtsFrequency: Option[BigInt] = None) (val coherenceManager: CoherenceManagerInstantiationFn) extends HasTLBusParams with TLBusWrapperInstantiationLike { def instantiate(context: HasTileLinkLocations, loc: Location[TLBusWrapper])(implicit p: Parameters): CoherenceManagerWrapper = { val cmWrapper = LazyModule(new CoherenceManagerWrapper(this, context)) cmWrapper.suggestName(loc.name + "_wrapper") cmWrapper.halt.foreach { context.anyLocationMap += loc.halt(_) } context.tlBusWrapperLocationMap += (loc -> cmWrapper) cmWrapper } } class CoherenceManagerWrapper(params: CoherenceManagerWrapperParams, context: HasTileLinkLocations)(implicit p: Parameters) extends TLBusWrapper(params, params.name) { val (tempIn, tempOut, halt) = params.coherenceManager(context) private val coherent_jbar = LazyModule(new TLJbar) def busView: TLEdge = coherent_jbar.node.edges.out.head val inwardNode = tempIn :*= coherent_jbar.node val builtInDevices = BuiltInDevices.none val prefixNode = None private def banked(node: TLOutwardNode): TLOutwardNode = if (params.nBanks == 0) node else { TLTempNode() :=* BankBinder(params.nBanks, params.blockBytes) :*= node } val outwardNode = banked(tempOut) } object CoherenceManagerWrapper { type CoherenceManagerInstantiationFn = HasTileLinkLocations => (TLInwardNode, TLOutwardNode, Option[IntOutwardNode]) def broadcastManagerFn( name: String, location: HierarchicalLocation, controlPortsSlaveWhere: TLBusWrapperLocation ): CoherenceManagerInstantiationFn = { context => implicit val p = context.p val cbus = context.locateTLBusWrapper(controlPortsSlaveWhere) val BroadcastParams(nTrackers, bufferless, controlAddress, filterFactory) = p(BroadcastKey) val bh = LazyModule(new TLBroadcast(TLBroadcastParams( lineBytes = p(CacheBlockBytes), numTrackers = nTrackers, bufferless = bufferless, control = controlAddress.map(x => TLBroadcastControlParams(AddressSet(x, 0xfff), cbus.beatBytes)), filterFactory = filterFactory))) bh.suggestName(name) bh.controlNode.foreach { _ := cbus.coupleTo(s"${name}_ctrl") { TLBuffer(1) := TLFragmenter(cbus) := _ } } bh.intNode.foreach { context.ibus.fromSync := _ } (bh.node, bh.node, None) } val broadcastManager = broadcastManagerFn("broadcast", InSystem, CBUS) val incoherentManager: CoherenceManagerInstantiationFn = { _ => val node = TLNameNode("no_coherence_manager") (node, node, None) } } File HasTiles.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.subsystem import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.bundlebridge._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.devices.debug.TLDebugModule import freechips.rocketchip.diplomacy.{DisableMonitors, FlipRendering} import freechips.rocketchip.interrupts.{IntXbar, IntSinkNode, IntSinkPortSimple, IntSyncAsyncCrossingSink} import freechips.rocketchip.tile.{MaxHartIdBits, BaseTile, InstantiableTileParams, TileParams, TilePRCIDomain, TraceBundle, PriorityMuxHartIdFromSeq} import freechips.rocketchip.tilelink.TLWidthWidget import freechips.rocketchip.prci.{ClockGroup, BundleBridgeBlockDuringReset, NoCrossing, SynchronousCrossing, CreditedCrossing, RationalCrossing, AsynchronousCrossing} import freechips.rocketchip.rocket.TracedInstruction import freechips.rocketchip.util.TraceCoreInterface import scala.collection.immutable.SortedMap /** Entry point for Config-uring the presence of Tiles */ case class TilesLocated(loc: HierarchicalLocation) extends Field[Seq[CanAttachTile]](Nil) /** List of HierarchicalLocations which might contain a Tile */ case object PossibleTileLocations extends Field[Seq[HierarchicalLocation]](Nil) /** For determining static tile id */ case object NumTiles extends Field[Int](0) /** Whether to add timing-closure registers along the path of the hart id * as it propagates through the subsystem and into the tile. * * These are typically only desirable when a dynamically programmable prefix is being combined * with the static hart id via [[freechips.rocketchip.subsystem.HasTiles.tileHartIdNexusNode]]. */ case object InsertTimingClosureRegistersOnHartIds extends Field[Boolean](false) /** Whether per-tile hart ids are going to be driven as inputs into a HasTiles block, * and if so, what their width should be. */ case object HasTilesExternalHartIdWidthKey extends Field[Option[Int]](None) /** Whether per-tile reset vectors are going to be driven as inputs into a HasTiles block. * * Unlike the hart ids, the reset vector width is determined by the sinks within the tiles, * based on the size of the address map visible to the tiles. */ case object HasTilesExternalResetVectorKey extends Field[Boolean](true) /** These are sources of "constants" that are driven into the tile. * * While they are not expected to change dyanmically while the tile is executing code, * they may be either tied to a contant value or programmed during boot or reset. * They need to be instantiated before tiles are attached within the subsystem containing them. */ trait HasTileInputConstants { this: LazyModule with Attachable with InstantiatesHierarchicalElements => /** tileHartIdNode is used to collect publishers and subscribers of hartids. */ val tileHartIdNodes: SortedMap[Int, BundleBridgeEphemeralNode[UInt]] = (0 until nTotalTiles).map { i => (i, BundleBridgeEphemeralNode[UInt]()) }.to(SortedMap) /** tileHartIdNexusNode is a BundleBridgeNexus that collects dynamic hart prefixes. * * Each "prefix" input is actually the same full width as the outer hart id; the expected usage * is that each prefix source would set only some non-overlapping portion of the bits to non-zero values. * This node orReduces them, and further combines the reduction with the static ids assigned to each tile, * producing a unique, dynamic hart id for each tile. * * If p(InsertTimingClosureRegistersOnHartIds) is set, the input and output values are registered. * * The output values are [[dontTouch]]'d to prevent constant propagation from pulling the values into * the tiles if they are constant, which would ruin deduplication of tiles that are otherwise homogeneous. */ val tileHartIdNexusNode = LazyModule(new BundleBridgeNexus[UInt]( inputFn = BundleBridgeNexus.orReduction[UInt](registered = p(InsertTimingClosureRegistersOnHartIds)) _, outputFn = (prefix: UInt, n: Int) => Seq.tabulate(n) { i => val y = dontTouch(prefix | totalTileIdList(i).U(p(MaxHartIdBits).W)) // dontTouch to keep constant prop from breaking tile dedup if (p(InsertTimingClosureRegistersOnHartIds)) BundleBridgeNexus.safeRegNext(y) else y }, default = Some(() => 0.U(p(MaxHartIdBits).W)), inputRequiresOutput = true, // guard against this being driven but then ignored in tileHartIdIONodes below shouldBeInlined = false // can't inline something whose output we are are dontTouching )).node // TODO: Replace the DebugModuleHartSelFuncs config key with logic to consume the dynamic hart IDs /** tileResetVectorNode is used to collect publishers and subscribers of tile reset vector addresses. */ val tileResetVectorNodes: SortedMap[Int, BundleBridgeEphemeralNode[UInt]] = (0 until nTotalTiles).map { i => (i, BundleBridgeEphemeralNode[UInt]()) }.to(SortedMap) /** tileResetVectorNexusNode is a BundleBridgeNexus that accepts a single reset vector source, and broadcasts it to all tiles. */ val tileResetVectorNexusNode = BundleBroadcast[UInt]( inputRequiresOutput = true // guard against this being driven but ignored in tileResetVectorIONodes below ) /** tileHartIdIONodes may generate subsystem IOs, one per tile, allowing the parent to assign unique hart ids. * * Or, if such IOs are not configured to exist, tileHartIdNexusNode is used to supply an id to each tile. */ val tileHartIdIONodes: Seq[BundleBridgeSource[UInt]] = p(HasTilesExternalHartIdWidthKey) match { case Some(w) => (0 until nTotalTiles).map { i => val hartIdSource = BundleBridgeSource(() => UInt(w.W)) tileHartIdNodes(i) := hartIdSource hartIdSource } case None => { (0 until nTotalTiles).map { i => tileHartIdNodes(i) :*= tileHartIdNexusNode } Nil } } /** tileResetVectorIONodes may generate subsystem IOs, one per tile, allowing the parent to assign unique reset vectors. * * Or, if such IOs are not configured to exist, tileResetVectorNexusNode is used to supply a single reset vector to every tile. */ val tileResetVectorIONodes: Seq[BundleBridgeSource[UInt]] = p(HasTilesExternalResetVectorKey) match { case true => (0 until nTotalTiles).map { i => val resetVectorSource = BundleBridgeSource[UInt]() tileResetVectorNodes(i) := resetVectorSource resetVectorSource } case false => { (0 until nTotalTiles).map { i => tileResetVectorNodes(i) :*= tileResetVectorNexusNode } Nil } } } /** These are sinks of notifications that are driven out from the tile. * * They need to be instantiated before tiles are attached to the subsystem containing them. */ trait HasTileNotificationSinks { this: LazyModule => val tileHaltXbarNode = IntXbar() val tileHaltSinkNode = IntSinkNode(IntSinkPortSimple()) tileHaltSinkNode := tileHaltXbarNode val tileWFIXbarNode = IntXbar() val tileWFISinkNode = IntSinkNode(IntSinkPortSimple()) tileWFISinkNode := tileWFIXbarNode val tileCeaseXbarNode = IntXbar() val tileCeaseSinkNode = IntSinkNode(IntSinkPortSimple()) tileCeaseSinkNode := tileCeaseXbarNode } /** Standardized interface by which parameterized tiles can be attached to contexts containing interconnect resources. * * Sub-classes of this trait can optionally override the individual connect functions in order to specialize * their attachment behaviors, but most use cases should be be handled simply by changing the implementation * of the injectNode functions in crossingParams. */ trait CanAttachTile { type TileType <: BaseTile type TileContextType <: DefaultHierarchicalElementContextType def tileParams: InstantiableTileParams[TileType] def crossingParams: HierarchicalElementCrossingParamsLike /** Narrow waist through which all tiles are intended to pass while being instantiated. */ def instantiate(allTileParams: Seq[TileParams], instantiatedTiles: SortedMap[Int, TilePRCIDomain[_]])(implicit p: Parameters): TilePRCIDomain[TileType] = { val clockSinkParams = tileParams.clockSinkParams.copy(name = Some(tileParams.uniqueName)) val tile_prci_domain = LazyModule(new TilePRCIDomain[TileType](clockSinkParams, crossingParams) { self => val element = self.element_reset_domain { LazyModule(tileParams.instantiate(crossingParams, PriorityMuxHartIdFromSeq(allTileParams))) } }) tile_prci_domain } /** A default set of connections that need to occur for most tile types */ def connect(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { connectMasterPorts(domain, context) connectSlavePorts(domain, context) connectInterrupts(domain, context) connectPRC(domain, context) connectOutputNotifications(domain, context) connectInputConstants(domain, context) connectTrace(domain, context) } /** Connect the port where the tile is the master to a TileLink interconnect. */ def connectMasterPorts(domain: TilePRCIDomain[TileType], context: Attachable): Unit = { implicit val p = context.p val dataBus = context.locateTLBusWrapper(crossingParams.master.where) dataBus.coupleFrom(tileParams.baseName) { bus => bus :=* crossingParams.master.injectNode(context) :=* domain.crossMasterPort(crossingParams.crossingType) } } /** Connect the port where the tile is the slave to a TileLink interconnect. */ def connectSlavePorts(domain: TilePRCIDomain[TileType], context: Attachable): Unit = { implicit val p = context.p DisableMonitors { implicit p => val controlBus = context.locateTLBusWrapper(crossingParams.slave.where) controlBus.coupleTo(tileParams.baseName) { bus => domain.crossSlavePort(crossingParams.crossingType) :*= crossingParams.slave.injectNode(context) :*= TLWidthWidget(controlBus.beatBytes) :*= bus } } } /** Connect the various interrupts sent to and and raised by the tile. */ def connectInterrupts(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p // NOTE: The order of calls to := matters! They must match how interrupts // are decoded from tile.intInwardNode inside the tile. For this reason, // we stub out missing interrupts with constant sources here. // 1. Debug interrupt is definitely asynchronous in all cases. domain.element.intInwardNode := domain { IntSyncAsyncCrossingSink(3) } := context.debugNodes(domain.element.tileId) // 2. The CLINT and PLIC output interrupts are synchronous to the CLINT/PLIC respectively, // so might need to be synchronized depending on the Tile's crossing type. // From CLINT: "msip" and "mtip" context.msipDomain { domain.crossIntIn(crossingParams.crossingType, domain.element.intInwardNode) := context.msipNodes(domain.element.tileId) } // From PLIC: "meip" context.meipDomain { domain.crossIntIn(crossingParams.crossingType, domain.element.intInwardNode) := context.meipNodes(domain.element.tileId) } // From PLIC: "seip" (only if supervisor mode is enabled) if (domain.element.tileParams.core.hasSupervisorMode) { context.seipDomain { domain.crossIntIn(crossingParams.crossingType, domain.element.intInwardNode) := context.seipNodes(domain.element.tileId) } } // 3. Local Interrupts ("lip") are required to already be synchronous to the Tile's clock. // (they are connected to domain.element.intInwardNode in a seperate trait) // 4. Interrupts coming out of the tile are sent to the PLIC, // so might need to be synchronized depending on the Tile's crossing type. context.tileToPlicNodes.get(domain.element.tileId).foreach { node => FlipRendering { implicit p => domain.element.intOutwardNode.foreach { out => context.toPlicDomain { node := domain.crossIntOut(crossingParams.crossingType, out) } }} } // 5. Connect NMI inputs to the tile. These inputs are synchronous to the respective core_clock. domain.element.nmiNode.foreach(_ := context.nmiNodes(domain.element.tileId)) } /** Notifications of tile status are connected to be broadcast without needing to be clock-crossed. */ def connectOutputNotifications(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p domain { context.tileHaltXbarNode :=* domain.crossIntOut(NoCrossing, domain.element.haltNode) context.tileWFIXbarNode :=* domain.crossIntOut(NoCrossing, domain.element.wfiNode) context.tileCeaseXbarNode :=* domain.crossIntOut(NoCrossing, domain.element.ceaseNode) } // TODO should context be forced to have a trace sink connected here? // for now this just ensures domain.trace[Core]Node has been crossed without connecting it externally } /** Connect inputs to the tile that are assumed to be constant during normal operation, and so are not clock-crossed. */ def connectInputConstants(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p val tlBusToGetPrefixFrom = context.locateTLBusWrapper(crossingParams.mmioBaseAddressPrefixWhere) domain.element.hartIdNode := context.tileHartIdNodes(domain.element.tileId) domain.element.resetVectorNode := context.tileResetVectorNodes(domain.element.tileId) tlBusToGetPrefixFrom.prefixNode.foreach { domain.element.mmioAddressPrefixNode := _ } } /** Connect power/reset/clock resources. */ def connectPRC(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p val tlBusToGetClockDriverFrom = context.locateTLBusWrapper(crossingParams.master.where) (crossingParams.crossingType match { case _: SynchronousCrossing | _: CreditedCrossing => if (crossingParams.forceSeparateClockReset) { domain.clockNode := tlBusToGetClockDriverFrom.clockNode } else { domain.clockNode := tlBusToGetClockDriverFrom.fixedClockNode } case _: RationalCrossing => domain.clockNode := tlBusToGetClockDriverFrom.clockNode case _: AsynchronousCrossing => { val tileClockGroup = ClockGroup() tileClockGroup := context.allClockGroupsNode domain.clockNode := tileClockGroup } }) domain { domain.element_reset_domain.clockNode := crossingParams.resetCrossingType.injectClockNode := domain.clockNode } } /** Function to handle all trace crossings when tile is instantiated inside domains */ def connectTrace(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p val traceCrossingNode = BundleBridgeBlockDuringReset[TraceBundle]( resetCrossingType = crossingParams.resetCrossingType) context.traceNodes(domain.element.tileId) := traceCrossingNode := domain.element.traceNode val traceCoreCrossingNode = BundleBridgeBlockDuringReset[TraceCoreInterface]( resetCrossingType = crossingParams.resetCrossingType) context.traceCoreNodes(domain.element.tileId) :*= traceCoreCrossingNode := domain.element.traceCoreNode } } case class CloneTileAttachParams( sourceTileId: Int, cloneParams: CanAttachTile ) extends CanAttachTile { type TileType = cloneParams.TileType type TileContextType = cloneParams.TileContextType def tileParams = cloneParams.tileParams def crossingParams = cloneParams.crossingParams override def instantiate(allTileParams: Seq[TileParams], instantiatedTiles: SortedMap[Int, TilePRCIDomain[_]])(implicit p: Parameters): TilePRCIDomain[TileType] = { require(instantiatedTiles.contains(sourceTileId)) val clockSinkParams = tileParams.clockSinkParams.copy(name = Some(tileParams.uniqueName)) val tile_prci_domain = CloneLazyModule( new TilePRCIDomain[TileType](clockSinkParams, crossingParams) { self => val element = self.element_reset_domain { LazyModule(tileParams.instantiate(crossingParams, PriorityMuxHartIdFromSeq(allTileParams))) } }, instantiatedTiles(sourceTileId).asInstanceOf[TilePRCIDomain[TileType]] ) tile_prci_domain } } File BusWrapper.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.bundlebridge._ import org.chipsalliance.diplomacy.lazymodule._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.diplomacy.{AddressSet, NoHandle, NodeHandle, NodeBinding} // TODO This class should be moved to package subsystem to resolve // the dependency awkwardness of the following imports import freechips.rocketchip.devices.tilelink.{BuiltInDevices, CanHaveBuiltInDevices} import freechips.rocketchip.prci.{ ClockParameters, ClockDomain, ClockGroup, ClockGroupAggregator, ClockSinkNode, FixedClockBroadcast, ClockGroupEdgeParameters, ClockSinkParameters, ClockSinkDomain, ClockGroupEphemeralNode, asyncMux, ClockCrossingType, NoCrossing } import freechips.rocketchip.subsystem.{ HasTileLinkLocations, CanConnectWithinContextThatHasTileLinkLocations, CanInstantiateWithinContextThatHasTileLinkLocations } import freechips.rocketchip.util.Location /** Specifies widths of various attachement points in the SoC */ trait HasTLBusParams { def beatBytes: Int def blockBytes: Int def beatBits: Int = beatBytes * 8 def blockBits: Int = blockBytes * 8 def blockBeats: Int = blockBytes / beatBytes def blockOffset: Int = log2Up(blockBytes) def dtsFrequency: Option[BigInt] def fixedClockOpt = dtsFrequency.map(f => ClockParameters(freqMHz = f.toDouble / 1000000.0)) require (isPow2(beatBytes)) require (isPow2(blockBytes)) } abstract class TLBusWrapper(params: HasTLBusParams, val busName: String)(implicit p: Parameters) extends ClockDomain with HasTLBusParams with CanHaveBuiltInDevices { private val clockGroupAggregator = LazyModule(new ClockGroupAggregator(busName){ override def shouldBeInlined = true }).suggestName(busName + "_clock_groups") private val clockGroup = LazyModule(new ClockGroup(busName){ override def shouldBeInlined = true }) val clockGroupNode = clockGroupAggregator.node // other bus clock groups attach here val clockNode = clockGroup.node val fixedClockNode = FixedClockBroadcast(fixedClockOpt) // device clocks attach here private val clockSinkNode = ClockSinkNode(List(ClockSinkParameters(take = fixedClockOpt))) clockGroup.node := clockGroupAggregator.node fixedClockNode := clockGroup.node // first member of group is always domain's own clock clockSinkNode := fixedClockNode InModuleBody { // make sure the above connections work properly because mismatched-by-name signals will just be ignored. (clockGroup.node.edges.in zip clockGroupAggregator.node.edges.out).zipWithIndex map { case ((in: ClockGroupEdgeParameters , out: ClockGroupEdgeParameters), i) => require(in.members.keys == out.members.keys, s"clockGroup := clockGroupAggregator not working as you expect for index ${i}, becuase clockGroup has ${in.members.keys} and clockGroupAggregator has ${out.members.keys}") } } def clockBundle = clockSinkNode.in.head._1 def beatBytes = params.beatBytes def blockBytes = params.blockBytes def dtsFrequency = params.dtsFrequency val dtsClk = fixedClockNode.fixedClockResources(s"${busName}_clock").flatten.headOption /* If you violate this requirement, you will have a rough time. * The codebase is riddled with the assumption that this is true. */ require(blockBytes >= beatBytes) def inwardNode: TLInwardNode def outwardNode: TLOutwardNode def busView: TLEdge def prefixNode: Option[BundleBridgeNode[UInt]] def unifyManagers: List[TLManagerParameters] = ManagerUnification(busView.manager.managers) def crossOutHelper = this.crossOut(outwardNode)(ValName("bus_xing")) def crossInHelper = this.crossIn(inwardNode)(ValName("bus_xing")) def generateSynchronousDomain(domainName: String): ClockSinkDomain = { val domain = LazyModule(new ClockSinkDomain(take = fixedClockOpt, name = Some(domainName))) domain.clockNode := fixedClockNode domain } def generateSynchronousDomain: ClockSinkDomain = generateSynchronousDomain("") protected val addressPrefixNexusNode = BundleBroadcast[UInt](registered = false, default = Some(() => 0.U(1.W))) def to[T](name: String)(body: => T): T = { this { LazyScope(s"coupler_to_${name}", s"TLInterconnectCoupler_${busName}_to_${name}") { body } } } def from[T](name: String)(body: => T): T = { this { LazyScope(s"coupler_from_${name}", s"TLInterconnectCoupler_${busName}_from_${name}") { body } } } def coupleTo[T](name: String)(gen: TLOutwardNode => T): T = to(name) { gen(TLNameNode("tl") :*=* outwardNode) } def coupleFrom[T](name: String)(gen: TLInwardNode => T): T = from(name) { gen(inwardNode :*=* TLNameNode("tl")) } def crossToBus(bus: TLBusWrapper, xType: ClockCrossingType, allClockGroupNode: ClockGroupEphemeralNode): NoHandle = { bus.clockGroupNode := asyncMux(xType, allClockGroupNode, this.clockGroupNode) coupleTo(s"bus_named_${bus.busName}") { bus.crossInHelper(xType) :*= TLWidthWidget(beatBytes) :*= _ } } def crossFromBus(bus: TLBusWrapper, xType: ClockCrossingType, allClockGroupNode: ClockGroupEphemeralNode): NoHandle = { bus.clockGroupNode := asyncMux(xType, allClockGroupNode, this.clockGroupNode) coupleFrom(s"bus_named_${bus.busName}") { _ :=* TLWidthWidget(bus.beatBytes) :=* bus.crossOutHelper(xType) } } } trait TLBusWrapperInstantiationLike { def instantiate(context: HasTileLinkLocations, loc: Location[TLBusWrapper])(implicit p: Parameters): TLBusWrapper } trait TLBusWrapperConnectionLike { val xType: ClockCrossingType def connect(context: HasTileLinkLocations, master: Location[TLBusWrapper], slave: Location[TLBusWrapper])(implicit p: Parameters): Unit } object TLBusWrapperConnection { /** Backwards compatibility factory for master driving clock and slave setting cardinality */ def crossTo( xType: ClockCrossingType, driveClockFromMaster: Option[Boolean] = Some(true), nodeBinding: NodeBinding = BIND_STAR, flipRendering: Boolean = false) = { apply(xType, driveClockFromMaster, nodeBinding, flipRendering)( slaveNodeView = { case(w, p) => w.crossInHelper(xType)(p) }) } /** Backwards compatibility factory for slave driving clock and master setting cardinality */ def crossFrom( xType: ClockCrossingType, driveClockFromMaster: Option[Boolean] = Some(false), nodeBinding: NodeBinding = BIND_QUERY, flipRendering: Boolean = true) = { apply(xType, driveClockFromMaster, nodeBinding, flipRendering)( masterNodeView = { case(w, p) => w.crossOutHelper(xType)(p) }) } /** Factory for making generic connections between TLBusWrappers */ def apply (xType: ClockCrossingType = NoCrossing, driveClockFromMaster: Option[Boolean] = None, nodeBinding: NodeBinding = BIND_ONCE, flipRendering: Boolean = false)( slaveNodeView: (TLBusWrapper, Parameters) => TLInwardNode = { case(w, _) => w.inwardNode }, masterNodeView: (TLBusWrapper, Parameters) => TLOutwardNode = { case(w, _) => w.outwardNode }, inject: Parameters => TLNode = { _ => TLTempNode() }) = { new TLBusWrapperConnection( xType, driveClockFromMaster, nodeBinding, flipRendering)( slaveNodeView, masterNodeView, inject) } } /** TLBusWrapperConnection is a parameterization of a connection between two TLBusWrappers. * It has the following serializable parameters: * - xType: What type of TL clock crossing adapter to insert between the buses. * The appropriate half of the crossing adapter ends up inside each bus. * - driveClockFromMaster: if None, don't bind the bus's diplomatic clockGroupNode, * otherwise have either the master or the slave bus bind the other one's clockGroupNode, * assuming the inserted crossing type is not asynchronous. * - nodeBinding: fine-grained control of multi-edge cardinality resolution for diplomatic bindings within the connection. * - flipRendering: fine-grained control of the graphML rendering of the connection. * If has the following non-serializable parameters: * - slaveNodeView: programmatic control of the specific attachment point within the slave bus. * - masterNodeView: programmatic control of the specific attachment point within the master bus. * - injectNode: programmatic injection of additional nodes into the middle of the connection. * The connect method applies all these parameters to create a diplomatic connection between two Location[TLBusWrapper]s. */ class TLBusWrapperConnection (val xType: ClockCrossingType, val driveClockFromMaster: Option[Boolean], val nodeBinding: NodeBinding, val flipRendering: Boolean) (slaveNodeView: (TLBusWrapper, Parameters) => TLInwardNode, masterNodeView: (TLBusWrapper, Parameters) => TLOutwardNode, inject: Parameters => TLNode) extends TLBusWrapperConnectionLike { def connect(context: HasTileLinkLocations, master: Location[TLBusWrapper], slave: Location[TLBusWrapper])(implicit p: Parameters): Unit = { val masterTLBus = context.locateTLBusWrapper(master) val slaveTLBus = context.locateTLBusWrapper(slave) def bindClocks(implicit p: Parameters) = driveClockFromMaster match { case Some(true) => slaveTLBus.clockGroupNode := asyncMux(xType, context.allClockGroupsNode, masterTLBus.clockGroupNode) case Some(false) => masterTLBus.clockGroupNode := asyncMux(xType, context.allClockGroupsNode, slaveTLBus.clockGroupNode) case None => } def bindTLNodes(implicit p: Parameters) = nodeBinding match { case BIND_ONCE => slaveNodeView(slaveTLBus, p) := TLWidthWidget(masterTLBus.beatBytes) := inject(p) := masterNodeView(masterTLBus, p) case BIND_QUERY => slaveNodeView(slaveTLBus, p) :=* TLWidthWidget(masterTLBus.beatBytes) :=* inject(p) :=* masterNodeView(masterTLBus, p) case BIND_STAR => slaveNodeView(slaveTLBus, p) :*= TLWidthWidget(masterTLBus.beatBytes) :*= inject(p) :*= masterNodeView(masterTLBus, p) case BIND_FLEX => slaveNodeView(slaveTLBus, p) :*=* TLWidthWidget(masterTLBus.beatBytes) :*=* inject(p) :*=* masterNodeView(masterTLBus, p) } if (flipRendering) { FlipRendering { implicit p => bindClocks(implicitly[Parameters]) slaveTLBus.from(s"bus_named_${masterTLBus.busName}") { bindTLNodes(implicitly[Parameters]) } } } else { bindClocks(implicitly[Parameters]) masterTLBus.to (s"bus_named_${slaveTLBus.busName}") { bindTLNodes(implicitly[Parameters]) } } } } class TLBusWrapperTopology( val instantiations: Seq[(Location[TLBusWrapper], TLBusWrapperInstantiationLike)], val connections: Seq[(Location[TLBusWrapper], Location[TLBusWrapper], TLBusWrapperConnectionLike)] ) extends CanInstantiateWithinContextThatHasTileLinkLocations with CanConnectWithinContextThatHasTileLinkLocations { def instantiate(context: HasTileLinkLocations)(implicit p: Parameters): Unit = { instantiations.foreach { case (loc, params) => context { params.instantiate(context, loc) } } } def connect(context: HasTileLinkLocations)(implicit p: Parameters): Unit = { connections.foreach { case (master, slave, params) => context { params.connect(context, master, slave) } } } } trait HasTLXbarPhy { this: TLBusWrapper => private val xbar = LazyModule(new TLXbar(nameSuffix = Some(busName))).suggestName(busName + "_xbar") override def shouldBeInlined = xbar.node.circuitIdentity def inwardNode: TLInwardNode = xbar.node def outwardNode: TLOutwardNode = xbar.node def busView: TLEdge = xbar.node.edges.in.head } case class AddressAdjusterWrapperParams( blockBytes: Int, beatBytes: Int, replication: Option[ReplicatedRegion], forceLocal: Seq[AddressSet] = Nil, localBaseAddressDefault: Option[BigInt] = None, policy: TLFIFOFixer.Policy = TLFIFOFixer.allVolatile, ordered: Boolean = true ) extends HasTLBusParams with TLBusWrapperInstantiationLike { val dtsFrequency = None def instantiate(context: HasTileLinkLocations, loc: Location[TLBusWrapper])(implicit p: Parameters): AddressAdjusterWrapper = { val aaWrapper = LazyModule(new AddressAdjusterWrapper(this, context.busContextName + "_" + loc.name)) aaWrapper.suggestName(context.busContextName + "_" + loc.name + "_wrapper") context.tlBusWrapperLocationMap += (loc -> aaWrapper) aaWrapper } } class AddressAdjusterWrapper(params: AddressAdjusterWrapperParams, name: String)(implicit p: Parameters) extends TLBusWrapper(params, name) { private val address_adjuster = params.replication.map { r => LazyModule(new AddressAdjuster(r, params.forceLocal, params.localBaseAddressDefault, params.ordered)) } private val viewNode = TLIdentityNode() val inwardNode: TLInwardNode = address_adjuster.map(_.node :*=* TLFIFOFixer(params.policy) :*=* viewNode).getOrElse(viewNode) def outwardNode: TLOutwardNode = address_adjuster.map(_.node).getOrElse(viewNode) def busView: TLEdge = viewNode.edges.in.head val prefixNode = address_adjuster.map { a => a.prefix := addressPrefixNexusNode addressPrefixNexusNode } val builtInDevices = BuiltInDevices.none override def shouldBeInlined = !params.replication.isDefined } case class TLJBarWrapperParams( blockBytes: Int, beatBytes: Int ) extends HasTLBusParams with TLBusWrapperInstantiationLike { val dtsFrequency = None def instantiate(context: HasTileLinkLocations, loc: Location[TLBusWrapper])(implicit p: Parameters): TLJBarWrapper = { val jbarWrapper = LazyModule(new TLJBarWrapper(this, context.busContextName + "_" + loc.name)) jbarWrapper.suggestName(context.busContextName + "_" + loc.name + "_wrapper") context.tlBusWrapperLocationMap += (loc -> jbarWrapper) jbarWrapper } } class TLJBarWrapper(params: TLJBarWrapperParams, name: String)(implicit p: Parameters) extends TLBusWrapper(params, name) { private val jbar = LazyModule(new TLJbar) val inwardNode: TLInwardNode = jbar.node val outwardNode: TLOutwardNode = jbar.node def busView: TLEdge = jbar.node.edges.in.head val prefixNode = None val builtInDevices = BuiltInDevices.none override def shouldBeInlined = jbar.node.circuitIdentity } File ClockGroup.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.prci import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.lazymodule._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.resources.FixedClockResource case class ClockGroupingNode(groupName: String)(implicit valName: ValName) extends MixedNexusNode(ClockGroupImp, ClockImp)( dFn = { _ => ClockSourceParameters() }, uFn = { seq => ClockGroupSinkParameters(name = groupName, members = seq) }) { override def circuitIdentity = outputs.size == 1 } class ClockGroup(groupName: String)(implicit p: Parameters) extends LazyModule { val node = ClockGroupingNode(groupName) lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { val (in, _) = node.in(0) val (out, _) = node.out.unzip require (node.in.size == 1) require (in.member.size == out.size) (in.member.data zip out) foreach { case (i, o) => o := i } } } object ClockGroup { def apply()(implicit p: Parameters, valName: ValName) = LazyModule(new ClockGroup(valName.name)).node } case class ClockGroupAggregateNode(groupName: String)(implicit valName: ValName) extends NexusNode(ClockGroupImp)( dFn = { _ => ClockGroupSourceParameters() }, uFn = { seq => ClockGroupSinkParameters(name = groupName, members = seq.flatMap(_.members))}) { override def circuitIdentity = outputs.size == 1 } class ClockGroupAggregator(groupName: String)(implicit p: Parameters) extends LazyModule { val node = ClockGroupAggregateNode(groupName) override lazy val desiredName = s"ClockGroupAggregator_$groupName" lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { val (in, _) = node.in.unzip val (out, _) = node.out.unzip val outputs = out.flatMap(_.member.data) require (node.in.size == 1, s"Aggregator for groupName: ${groupName} had ${node.in.size} inward edges instead of 1") require (in.head.member.size == outputs.size) in.head.member.data.zip(outputs).foreach { case (i, o) => o := i } } } object ClockGroupAggregator { def apply()(implicit p: Parameters, valName: ValName) = LazyModule(new ClockGroupAggregator(valName.name)).node } class SimpleClockGroupSource(numSources: Int = 1)(implicit p: Parameters) extends LazyModule { val node = ClockGroupSourceNode(List.fill(numSources) { ClockGroupSourceParameters() }) lazy val module = new Impl class Impl extends LazyModuleImp(this) { val (out, _) = node.out.unzip out.map { out: ClockGroupBundle => out.member.data.foreach { o => o.clock := clock; o.reset := reset } } } } object SimpleClockGroupSource { def apply(num: Int = 1)(implicit p: Parameters, valName: ValName) = LazyModule(new SimpleClockGroupSource(num)).node } case class FixedClockBroadcastNode(fixedClockOpt: Option[ClockParameters])(implicit valName: ValName) extends NexusNode(ClockImp)( dFn = { seq => fixedClockOpt.map(_ => ClockSourceParameters(give = fixedClockOpt)).orElse(seq.headOption).getOrElse(ClockSourceParameters()) }, uFn = { seq => fixedClockOpt.map(_ => ClockSinkParameters(take = fixedClockOpt)).orElse(seq.headOption).getOrElse(ClockSinkParameters()) }, inputRequiresOutput = false) { def fixedClockResources(name: String, prefix: String = "soc/"): Seq[Option[FixedClockResource]] = Seq(fixedClockOpt.map(t => new FixedClockResource(name, t.freqMHz, prefix))) } class FixedClockBroadcast(fixedClockOpt: Option[ClockParameters])(implicit p: Parameters) extends LazyModule { val node = new FixedClockBroadcastNode(fixedClockOpt) { override def circuitIdentity = outputs.size == 1 } lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { val (in, _) = node.in(0) val (out, _) = node.out.unzip override def desiredName = s"FixedClockBroadcast_${out.size}" require (node.in.size == 1, "FixedClockBroadcast can only broadcast a single clock") out.foreach { _ := in } } } object FixedClockBroadcast { def apply(fixedClockOpt: Option[ClockParameters] = None)(implicit p: Parameters, valName: ValName) = LazyModule(new FixedClockBroadcast(fixedClockOpt)).node } case class PRCIClockGroupNode()(implicit valName: ValName) extends NexusNode(ClockGroupImp)( dFn = { _ => ClockGroupSourceParameters() }, uFn = { _ => ClockGroupSinkParameters("prci", Nil) }, outputRequiresInput = false) File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File Scratchpad.scala: package testchipip.soc import chisel3._ import freechips.rocketchip.subsystem._ import org.chipsalliance.cde.config.{Field, Config, Parameters} import freechips.rocketchip.diplomacy._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.resources.{DiplomacyUtils} import freechips.rocketchip.prci.{ClockSinkDomain, ClockSinkParameters} import scala.collection.immutable.{ListMap} case class BankedScratchpadParams( base: BigInt, size: BigInt, busWhere: TLBusWrapperLocation = SBUS, banks: Int = 4, subBanks: Int = 2, name: String = "banked-scratchpad", disableMonitors: Boolean = false, buffer: BufferParams = BufferParams.none, outerBuffer: BufferParams = BufferParams.none, dtsEnabled: Boolean = false ) case object BankedScratchpadKey extends Field[Seq[BankedScratchpadParams]](Nil) class ScratchpadBank(subBanks: Int, address: AddressSet, beatBytes: Int, devOverride: MemoryDevice, buffer: BufferParams)(implicit p: Parameters) extends ClockSinkDomain(ClockSinkParameters())(p) { val mask = (subBanks - 1) * p(CacheBlockBytes) val xbar = TLXbar() (0 until subBanks).map { sb => val ram = LazyModule(new TLRAM( address = AddressSet(address.base + sb * p(CacheBlockBytes), address.mask - mask), beatBytes = beatBytes, devOverride = Some(devOverride)) { override lazy val desiredName = s"TLRAM_ScratchpadBank" }) ram.node := TLFragmenter(beatBytes, p(CacheBlockBytes), nameSuffix = Some("ScratchpadBank")) := TLBuffer(buffer) := xbar } override lazy val desiredName = "ScratchpadBank" } trait CanHaveBankedScratchpad { this: BaseSubsystem => p(BankedScratchpadKey).zipWithIndex.foreach { case (params, si) => val bus = locateTLBusWrapper(params.busWhere) require (params.subBanks >= 1) val name = params.name val banks = params.banks val bankStripe = p(CacheBlockBytes)*params.subBanks val mask = (params.banks-1)*bankStripe val device = new MemoryDevice { override def describe(resources: ResourceBindings): Description = { Description(describeName("memory", resources), ListMap( "reg" -> resources.map.filterKeys(DiplomacyUtils.regFilter).flatMap(_._2).map(_.value).toList, "device_type" -> Seq(ResourceString("memory")), "status" -> Seq(ResourceString(if (params.dtsEnabled) "okay" else "disabled")) )) } } def genBanks()(implicit p: Parameters) = (0 until banks).map { b => val bank = LazyModule(new ScratchpadBank( params.subBanks, AddressSet(params.base + bankStripe * b, params.size - 1 - mask), bus.beatBytes, device, params.buffer)) bank.clockNode := bus.fixedClockNode bus.coupleTo(s"$name-$si-$b") { bank.xbar := bus { TLBuffer(params.outerBuffer) } := _ } } if (params.disableMonitors) DisableMonitors { implicit p => genBanks()(p) } else genBanks() } } File ClockGroupCombiner.scala: package chipyard.clocking import chisel3._ import chisel3.util._ import chisel3.experimental.Analog import org.chipsalliance.cde.config._ import freechips.rocketchip.subsystem._ import freechips.rocketchip.diplomacy._ import freechips.rocketchip.prci._ import freechips.rocketchip.util._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.devices.tilelink._ import freechips.rocketchip.regmapper._ import freechips.rocketchip.subsystem._ object ClockGroupCombiner { def apply()(implicit p: Parameters, valName: ValName): ClockGroupAdapterNode = { LazyModule(new ClockGroupCombiner()).node } } case object ClockGroupCombinerKey extends Field[Seq[(String, ClockSinkParameters => Boolean)]](Nil) // All clock groups with a name containing any substring in names will be combined into a single clock group class WithClockGroupsCombinedByName(groups: (String, Seq[String], Seq[String])*) extends Config((site, here, up) => { case ClockGroupCombinerKey => groups.map { case (grouped_name, matched_names, unmatched_names) => (grouped_name, (m: ClockSinkParameters) => matched_names.exists(n => m.name.get.contains(n)) && !unmatched_names.exists(n => m.name.get.contains(n))) } }) /** This node combines sets of clock groups according to functions provided in the ClockGroupCombinerKey * The ClockGroupCombinersKey contains a list of tuples of: * - The name of the combined group * - A function on the ClockSinkParameters, returning True if the associated clock group should be grouped by this node * This node will fail if * - Multiple grouping functions match a single clock group * - A grouping function matches zero clock groups * - A grouping function matches clock groups with different requested frequncies */ class ClockGroupCombiner(implicit p: Parameters, v: ValName) extends LazyModule { val combiners = p(ClockGroupCombinerKey) val sourceFn: ClockGroupSourceParameters => ClockGroupSourceParameters = { m => m } val sinkFn: ClockGroupSinkParameters => ClockGroupSinkParameters = { u => var i = 0 val (grouped, rest) = combiners.map(_._2).foldLeft((Seq[ClockSinkParameters](), u.members)) { case ((grouped, rest), c) => val (g, r) = rest.partition(c(_)) val name = combiners(i)._1 i = i + 1 require(g.size >= 1) val names = g.map(_.name.getOrElse("unamed")) val takes = g.map(_.take).flatten require(takes.distinct.size <= 1, s"Clock group '$name' has non-homogeneous requested ClockParameters ${names.zip(takes)}") require(takes.size > 0, s"Clock group '$name' has no inheritable frequencies") (grouped ++ Seq(ClockSinkParameters(take = takes.headOption, name = Some(name))), r) } ClockGroupSinkParameters( name = u.name, members = grouped ++ rest ) } val node = ClockGroupAdapterNode(sourceFn, sinkFn) lazy val module = new LazyRawModuleImp(this) { (node.out zip node.in).map { case ((o, oe), (i, ie)) => { val inMap = (i.member.data zip ie.sink.members).map { case (id, im) => im.name.get -> id }.toMap (o.member.data zip oe.sink.members).map { case (od, om) => val matches = combiners.filter(c => c._2(om)) require(matches.size <= 1) if (matches.size == 0) { od := inMap(om.name.get) } else { od := inMap(matches(0)._1) } } } } } } File SinkNode.scala: package org.chipsalliance.diplomacy.nodes import chisel3.{Data, IO} import org.chipsalliance.diplomacy.ValName /** A node which represents a node in the graph which has only inward edges, no outward edges. * * A [[SinkNode]] cannot appear cannot appear right of a `:=`, `:*=`, `:=*`, or `:*=*` * * There are no "Mixed" [[SinkNode]]s because each one only has an inward side. */ class SinkNode[D, U, EO, EI, B <: Data]( imp: NodeImp[D, U, EO, EI, B] )(pi: Seq[U] )( implicit valName: ValName) extends MixedNode(imp, imp) { override def description = "sink" protected[diplomacy] def resolveStar(iKnown: Int, oKnown: Int, iStars: Int, oStars: Int): (Int, Int) = { def resolveStarInfo: String = s"""$context |$bindingInfo |number of known := bindings to inward nodes: $iKnown |number of known := bindings to outward nodes: $oKnown |number of binding queries from inward nodes: $iStars |number of binding queries from outward nodes: $oStars |${pi.size} inward parameters: [${pi.map(_.toString).mkString(",")}] |""".stripMargin require( iStars <= 1, s"""Diplomacy has detected a problem with your graph: |The following node appears left of a :*= $iStars times; at most once is allowed. |$resolveStarInfo |""".stripMargin ) require( oStars == 0, s"""Diplomacy has detected a problem with your graph: |The following node cannot appear right of a :=* |$resolveStarInfo |""".stripMargin ) require( oKnown == 0, s"""Diplomacy has detected a problem with your graph: |The following node cannot appear right of a := |$resolveStarInfo |""".stripMargin ) if (iStars == 0) require( pi.size == iKnown, s"""Diplomacy has detected a problem with your graph: |The following node has $iKnown inward bindings connected to it, but ${pi.size} sinks were specified to the node constructor. |Either the number of inward := bindings should be exactly equal to the number of sink, or connect this node on the left-hand side of a :*= |$resolveStarInfo |""".stripMargin ) else require( pi.size >= iKnown, s"""Diplomacy has detected a problem with your graph: |The following node has $iKnown inward bindings connected to it, but ${pi.size} sinks were specified to the node constructor. |To resolve :*=, size of inward parameters can not be less than bindings. |$resolveStarInfo |""".stripMargin ) (pi.size - iKnown, 0) } protected[diplomacy] def mapParamsD(n: Int, p: Seq[D]): Seq[D] = Seq() protected[diplomacy] def mapParamsU(n: Int, p: Seq[U]): Seq[U] = pi def makeIOs( )( implicit valName: ValName ): HeterogeneousBag[B] = { val bundles = this.in.map(_._1) val ios = IO(new HeterogeneousBag(bundles)) ios.suggestName(valName.value) bundles.zip(ios).foreach { case (bundle, io) => io <> bundle } ios } } File Integration.scala: package rerocc import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import freechips.rocketchip.diplomacy._ import freechips.rocketchip.tile._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.rocket._ import freechips.rocketchip.util._ import freechips.rocketchip.prci._ import freechips.rocketchip.subsystem._ import boom.v4.common.{BoomTile} import shuttle.common.{ShuttleTile} import rerocc.client._ import rerocc.manager._ import rerocc.bus._ case object ReRoCCControlBus extends Field[TLBusWrapperLocation](CBUS) case object ReRoCCNoCKey extends Field[Option[ReRoCCNoCParams]](None) trait CanHaveReRoCCTiles { this: BaseSubsystem with InstantiatesHierarchicalElements with constellation.soc.CanHaveGlobalNoC => // WARNING: Not multi-clock safe val reRoCCClients = totalTiles.values.map { t => t match { case r: RocketTile => r.roccs collect { case r: ReRoCCClient => (t, r) } case b: BoomTile => b.roccs collect { case r: ReRoCCClient => (t, r) } case s: ShuttleTile => s.roccs collect { case r: ReRoCCClient => (t, r) } // Added for shuttle case _ => Nil }}.flatten val reRoCCManagerIds = (0 until p(ReRoCCTileKey).size) val reRoCCManagerIdNexusNode = LazyModule(new BundleBridgeNexus[UInt]( inputFn = BundleBridgeNexus.orReduction[UInt](false) _, outputFn = (prefix: UInt, n: Int) => Seq.tabulate(n) { i => { dontTouch(prefix | reRoCCManagerIds(i).U(7.W)) // dontTouch to keep constant prop from breaking tile dedup }}, default = Some(() => 0.U(7.W)), inputRequiresOutput = true, // guard against this being driven but then ignored in tileHartIdIONodes below shouldBeInlined = false // can't inline something whose output we are are dontTouching )).node val reRoCCManagers = p(ReRoCCTileKey).zipWithIndex.map { case (g,i) => val rerocc_prci_domain = locateTLBusWrapper(SBUS).generateSynchronousDomain.suggestName(s"rerocc_prci_domain_$i") val rerocc_tile = rerocc_prci_domain { LazyModule(new ReRoCCManagerTile( g.copy(reroccId = i, pgLevels = reRoCCClients.head._2.pgLevels), p)) } println(s"ReRoCC Manager id $i is a ${rerocc_tile.rocc}") locateTLBusWrapper(SBUS).coupleFrom(s"port_named_rerocc_$i") { (_ :=* TLBuffer() :=* rerocc_tile.tlNode) } locateTLBusWrapper(SBUS).coupleTo(s"sport_named_rerocc_$i") { (rerocc_tile.stlNode :*= TLBuffer() :*= TLWidthWidget(locateTLBusWrapper(SBUS).beatBytes) :*= TLBuffer() :*= _) } val ctrlBus = locateTLBusWrapper(p(ReRoCCControlBus)) ctrlBus.coupleTo(s"port_named_rerocc_ctrl_$i") { val remapper = ctrlBus { LazyModule(new ReRoCCManagerControlRemapper(i)) } (rerocc_tile.ctrl.ctrlNode := remapper.node := _) } rerocc_tile.reroccManagerIdSinkNode := reRoCCManagerIdNexusNode rerocc_tile } require(!(reRoCCManagers.isEmpty ^ reRoCCClients.isEmpty)) if (!reRoCCClients.isEmpty) { require(reRoCCClients.map(_._2).forall(_.pgLevels == reRoCCClients.head._2.pgLevels)) require(reRoCCClients.map(_._2).forall(_.xLen == 64)) val rerocc_bus_domain = locateTLBusWrapper(SBUS).generateSynchronousDomain rerocc_bus_domain { val rerocc_bus = p(ReRoCCNoCKey).map { k => if (k.useGlobalNoC) { globalNoCDomain { LazyModule(new ReRoCCGlobalNoC(k)) } } else { LazyModule(new ReRoCCNoC(k)) } }.getOrElse(LazyModule(new ReRoCCXbar())) reRoCCClients.foreach { case (t, c) => rerocc_bus.node := ReRoCCBuffer() := t { ReRoCCBuffer() := c.reRoCCNode } } reRoCCManagers.foreach { m => m.reRoCCNode := rerocc_bus.node } } } } File DigitalTop.scala: package chipyard import chisel3._ import freechips.rocketchip.subsystem._ import freechips.rocketchip.system._ import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.devices.tilelink._ // ------------------------------------ // BOOM and/or Rocket Top Level Systems // ------------------------------------ // DOC include start: DigitalTop class DigitalTop(implicit p: Parameters) extends ChipyardSystem with testchipip.tsi.CanHavePeripheryUARTTSI // Enables optional UART-based TSI transport with testchipip.boot.CanHavePeripheryCustomBootPin // Enables optional custom boot pin with testchipip.boot.CanHavePeripheryBootAddrReg // Use programmable boot address register with testchipip.cosim.CanHaveTraceIO // Enables optionally adding trace IO with testchipip.soc.CanHaveBankedScratchpad // Enables optionally adding a banked scratchpad with testchipip.iceblk.CanHavePeripheryBlockDevice // Enables optionally adding the block device with testchipip.serdes.CanHavePeripheryTLSerial // Enables optionally adding the tl-serial interface with testchipip.serdes.old.CanHavePeripheryTLSerial // Enables optionally adding the DEPRECATED tl-serial interface with testchipip.soc.CanHavePeripheryChipIdPin // Enables optional pin to set chip id for multi-chip configs with sifive.blocks.devices.i2c.HasPeripheryI2C // Enables optionally adding the sifive I2C with sifive.blocks.devices.timer.HasPeripheryTimer // Enables optionally adding the timer device with sifive.blocks.devices.pwm.HasPeripheryPWM // Enables optionally adding the sifive PWM with sifive.blocks.devices.uart.HasPeripheryUART // Enables optionally adding the sifive UART with sifive.blocks.devices.gpio.HasPeripheryGPIO // Enables optionally adding the sifive GPIOs with sifive.blocks.devices.spi.HasPeripherySPIFlash // Enables optionally adding the sifive SPI flash controller with sifive.blocks.devices.spi.HasPeripherySPI // Enables optionally adding the sifive SPI port with icenet.CanHavePeripheryIceNIC // Enables optionally adding the IceNIC for FireSim with chipyard.example.CanHavePeripheryInitZero // Enables optionally adding the initzero example widget with chipyard.example.CanHavePeripheryGCD // Enables optionally adding the GCD example widget with chipyard.example.CanHavePeripheryStreamingFIR // Enables optionally adding the DSPTools FIR example widget with chipyard.example.CanHavePeripheryStreamingPassthrough // Enables optionally adding the DSPTools streaming-passthrough example widget with nvidia.blocks.dla.CanHavePeripheryNVDLA // Enables optionally having an NVDLA with chipyard.clocking.HasChipyardPRCI // Use Chipyard reset/clock distribution with chipyard.clocking.CanHaveClockTap // Enables optionally adding a clock tap output port with fftgenerator.CanHavePeripheryFFT // Enables optionally having an MMIO-based FFT block with constellation.soc.CanHaveGlobalNoC // Support instantiating a global NoC interconnect with rerocc.CanHaveReRoCCTiles // Support tiles that instantiate rerocc-attached accelerators { override lazy val module = new DigitalTopModule(this) } class DigitalTopModule(l: DigitalTop) extends ChipyardSystemModule(l) with freechips.rocketchip.util.DontTouch // DOC include end: DigitalTop File MixedNode.scala: package org.chipsalliance.diplomacy.nodes import chisel3.{Data, DontCare, Wire} import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.{Field, Parameters} import org.chipsalliance.diplomacy.ValName import org.chipsalliance.diplomacy.sourceLine /** One side metadata of a [[Dangle]]. * * Describes one side of an edge going into or out of a [[BaseNode]]. * * @param serial * the global [[BaseNode.serial]] number of the [[BaseNode]] that this [[HalfEdge]] connects to. * @param index * the `index` in the [[BaseNode]]'s input or output port list that this [[HalfEdge]] belongs to. */ case class HalfEdge(serial: Int, index: Int) extends Ordered[HalfEdge] { import scala.math.Ordered.orderingToOrdered def compare(that: HalfEdge): Int = HalfEdge.unapply(this).compare(HalfEdge.unapply(that)) } /** [[Dangle]] captures the `IO` information of a [[LazyModule]] and which two [[BaseNode]]s the [[Edges]]/[[Bundle]] * connects. * * [[Dangle]]s are generated by [[BaseNode.instantiate]] using [[MixedNode.danglesOut]] and [[MixedNode.danglesIn]] , * [[LazyModuleImp.instantiate]] connects those that go to internal or explicit IO connections in a [[LazyModule]]. * * @param source * the source [[HalfEdge]] of this [[Dangle]], which captures the source [[BaseNode]] and the port `index` within * that [[BaseNode]]. * @param sink * sink [[HalfEdge]] of this [[Dangle]], which captures the sink [[BaseNode]] and the port `index` within that * [[BaseNode]]. * @param flipped * flip or not in [[AutoBundle.makeElements]]. If true this corresponds to `danglesOut`, if false it corresponds to * `danglesIn`. * @param dataOpt * actual [[Data]] for the hardware connection. Can be empty if this belongs to a cloned module */ case class Dangle(source: HalfEdge, sink: HalfEdge, flipped: Boolean, name: String, dataOpt: Option[Data]) { def data = dataOpt.get } /** [[Edges]] is a collection of parameters describing the functionality and connection for an interface, which is often * derived from the interconnection protocol and can inform the parameterization of the hardware bundles that actually * implement the protocol. */ case class Edges[EI, EO](in: Seq[EI], out: Seq[EO]) /** A field available in [[Parameters]] used to determine whether [[InwardNodeImp.monitor]] will be called. */ case object MonitorsEnabled extends Field[Boolean](true) /** When rendering the edge in a graphical format, flip the order in which the edges' source and sink are presented. * * For example, when rendering graphML, yEd by default tries to put the source node vertically above the sink node, but * [[RenderFlipped]] inverts this relationship. When a particular [[LazyModule]] contains both source nodes and sink * nodes, flipping the rendering of one node's edge will usual produce a more concise visual layout for the * [[LazyModule]]. */ case object RenderFlipped extends Field[Boolean](false) /** The sealed node class in the package, all node are derived from it. * * @param inner * Sink interface implementation. * @param outer * Source interface implementation. * @param valName * val name of this node. * @tparam DI * Downward-flowing parameters received on the inner side of the node. It is usually a brunch of parameters * describing the protocol parameters from a source. For an [[InwardNode]], it is determined by the connected * [[OutwardNode]]. Since it can be connected to multiple sources, this parameter is always a Seq of source port * parameters. * @tparam UI * Upward-flowing parameters generated by the inner side of the node. It is usually a brunch of parameters describing * the protocol parameters of a sink. For an [[InwardNode]], it is determined itself. * @tparam EI * Edge Parameters describing a connection on the inner side of the node. It is usually a brunch of transfers * specified for a sink according to protocol. * @tparam BI * Bundle type used when connecting to the inner side of the node. It is a hardware interface of this sink interface. * It should extends from [[chisel3.Data]], which represents the real hardware. * @tparam DO * Downward-flowing parameters generated on the outer side of the node. It is usually a brunch of parameters * describing the protocol parameters of a source. For an [[OutwardNode]], it is determined itself. * @tparam UO * Upward-flowing parameters received by the outer side of the node. It is usually a brunch of parameters describing * the protocol parameters from a sink. For an [[OutwardNode]], it is determined by the connected [[InwardNode]]. * Since it can be connected to multiple sinks, this parameter is always a Seq of sink port parameters. * @tparam EO * Edge Parameters describing a connection on the outer side of the node. It is usually a brunch of transfers * specified for a source according to protocol. * @tparam BO * Bundle type used when connecting to the outer side of the node. It is a hardware interface of this source * interface. It should extends from [[chisel3.Data]], which represents the real hardware. * * @note * Call Graph of [[MixedNode]] * - line `─`: source is process by a function and generate pass to others * - Arrow `β†’`: target of arrow is generated by source * * {{{ * (from the other node) * β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€[[InwardNode.uiParams]]─────────────┐ * ↓ β”‚ * (binding node when elaboration) [[OutwardNode.uoParams]]────────────────────────[[MixedNode.mapParamsU]]→──────────┐ β”‚ * [[InwardNode.accPI]] β”‚ β”‚ β”‚ * β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ ↓ β”‚ * ↓ β”‚ β”‚ β”‚ * (immobilize after elaboration) (inward port from [[OutwardNode]]) β”‚ ↓ β”‚ * [[InwardNode.iBindings]]──┐ [[MixedNode.iDirectPorts]]────────────────────→[[MixedNode.iPorts]] [[InwardNode.uiParams]] β”‚ * β”‚ β”‚ ↑ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[OutwardNode.doParams]] β”‚ β”‚ * β”‚ β”‚ β”‚ (from the other node) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ └────────┬─────────────── β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ (from the other node) β”‚ ↓ β”‚ * β”‚ └───[[OutwardNode.oPortMapping]] [[OutwardNode.oStar]] β”‚ [[MixedNode.edgesIn]]───┐ β”‚ * β”‚ ↑ ↑ β”‚ β”‚ ↓ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ [[MixedNode.in]] β”‚ * β”‚ β”‚ β”‚ β”‚ ↓ ↑ β”‚ * β”‚ (solve star connection) β”‚ β”‚ β”‚ [[MixedNode.bundleIn]]β”€β”€β”˜ β”‚ * β”œβ”€β”€β”€[[MixedNode.resolveStar]]→─┼────────────────────────────── └────────────────────────────────────┐ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.bundleOut]]─┐ β”‚ β”‚ * β”‚ β”‚ β”‚ ↑ ↓ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.out]] β”‚ β”‚ * β”‚ ↓ ↓ β”‚ ↑ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€[[InwardNode.iPortMapping]] [[InwardNode.iStar]] [[MixedNode.edgesOut]]β”€β”€β”˜ β”‚ β”‚ * β”‚ β”‚ (from the other node) ↑ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.outer.edgeO]] β”‚ β”‚ * β”‚ β”‚ β”‚ (based on protocol) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * (immobilize after elaboration)β”‚ ↓ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.oBindings]]β”€β”˜ [[MixedNode.oDirectPorts]]───→[[MixedNode.oPorts]] [[OutwardNode.doParams]] β”‚ β”‚ * ↑ (inward port from [[OutwardNode]]) β”‚ β”‚ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.accPO]] β”‚ ↓ β”‚ β”‚ β”‚ * (binding node when elaboration) β”‚ [[InwardNode.diParams]]─────→[[MixedNode.mapParamsD]]β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ β”‚ * β”‚ ↑ β”‚ β”‚ * β”‚ β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ * β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ * }}} */ abstract class MixedNode[DI, UI, EI, BI <: Data, DO, UO, EO, BO <: Data]( val inner: InwardNodeImp[DI, UI, EI, BI], val outer: OutwardNodeImp[DO, UO, EO, BO] )( implicit valName: ValName) extends BaseNode with NodeHandle[DI, UI, EI, BI, DO, UO, EO, BO] with InwardNode[DI, UI, BI] with OutwardNode[DO, UO, BO] { // Generate a [[NodeHandle]] with inward and outward node are both this node. val inward = this val outward = this /** Debug info of nodes binding. */ def bindingInfo: String = s"""$iBindingInfo |$oBindingInfo |""".stripMargin /** Debug info of ports connecting. */ def connectedPortsInfo: String = s"""${oPorts.size} outward ports connected: [${oPorts.map(_._2.name).mkString(",")}] |${iPorts.size} inward ports connected: [${iPorts.map(_._2.name).mkString(",")}] |""".stripMargin /** Debug info of parameters propagations. */ def parametersInfo: String = s"""${doParams.size} downstream outward parameters: [${doParams.mkString(",")}] |${uoParams.size} upstream outward parameters: [${uoParams.mkString(",")}] |${diParams.size} downstream inward parameters: [${diParams.mkString(",")}] |${uiParams.size} upstream inward parameters: [${uiParams.mkString(",")}] |""".stripMargin /** For a given node, converts [[OutwardNode.accPO]] and [[InwardNode.accPI]] to [[MixedNode.oPortMapping]] and * [[MixedNode.iPortMapping]]. * * Given counts of known inward and outward binding and inward and outward star bindings, return the resolved inward * stars and outward stars. * * This method will also validate the arguments and throw a runtime error if the values are unsuitable for this type * of node. * * @param iKnown * Number of known-size ([[BIND_ONCE]]) input bindings. * @param oKnown * Number of known-size ([[BIND_ONCE]]) output bindings. * @param iStar * Number of unknown size ([[BIND_STAR]]) input bindings. * @param oStar * Number of unknown size ([[BIND_STAR]]) output bindings. * @return * A Tuple of the resolved number of input and output connections. */ protected[diplomacy] def resolveStar(iKnown: Int, oKnown: Int, iStar: Int, oStar: Int): (Int, Int) /** Function to generate downward-flowing outward params from the downward-flowing input params and the current output * ports. * * @param n * The size of the output sequence to generate. * @param p * Sequence of downward-flowing input parameters of this node. * @return * A `n`-sized sequence of downward-flowing output edge parameters. */ protected[diplomacy] def mapParamsD(n: Int, p: Seq[DI]): Seq[DO] /** Function to generate upward-flowing input parameters from the upward-flowing output parameters [[uiParams]]. * * @param n * Size of the output sequence. * @param p * Upward-flowing output edge parameters. * @return * A n-sized sequence of upward-flowing input edge parameters. */ protected[diplomacy] def mapParamsU(n: Int, p: Seq[UO]): Seq[UI] /** @return * The sink cardinality of the node, the number of outputs bound with [[BIND_QUERY]] summed with inputs bound with * [[BIND_STAR]]. */ protected[diplomacy] lazy val sinkCard: Int = oBindings.count(_._3 == BIND_QUERY) + iBindings.count(_._3 == BIND_STAR) /** @return * The source cardinality of this node, the number of inputs bound with [[BIND_QUERY]] summed with the number of * output bindings bound with [[BIND_STAR]]. */ protected[diplomacy] lazy val sourceCard: Int = iBindings.count(_._3 == BIND_QUERY) + oBindings.count(_._3 == BIND_STAR) /** @return list of nodes involved in flex bindings with this node. */ protected[diplomacy] lazy val flexes: Seq[BaseNode] = oBindings.filter(_._3 == BIND_FLEX).map(_._2) ++ iBindings.filter(_._3 == BIND_FLEX).map(_._2) /** Resolves the flex to be either source or sink and returns the offset where the [[BIND_STAR]] operators begin * greedily taking up the remaining connections. * * @return * A value >= 0 if it is sink cardinality, a negative value for source cardinality. The magnitude of the return * value is not relevant. */ protected[diplomacy] lazy val flexOffset: Int = { /** Recursively performs a depth-first search of the [[flexes]], [[BaseNode]]s connected to this node with flex * operators. The algorithm bottoms out when we either get to a node we have already visited or when we get to a * connection that is not a flex and can set the direction for us. Otherwise, recurse by visiting the `flexes` of * each node in the current set and decide whether they should be added to the set or not. * * @return * the mapping of [[BaseNode]] indexed by their serial numbers. */ def DFS(v: BaseNode, visited: Map[Int, BaseNode]): Map[Int, BaseNode] = { if (visited.contains(v.serial) || !v.flexibleArityDirection) { visited } else { v.flexes.foldLeft(visited + (v.serial -> v))((sum, n) => DFS(n, sum)) } } /** Determine which [[BaseNode]] are involved in resolving the flex connections to/from this node. * * @example * {{{ * a :*=* b :*=* c * d :*=* b * e :*=* f * }}} * * `flexSet` for `a`, `b`, `c`, or `d` will be `Set(a, b, c, d)` `flexSet` for `e` or `f` will be `Set(e,f)` */ val flexSet = DFS(this, Map()).values /** The total number of :*= operators where we're on the left. */ val allSink = flexSet.map(_.sinkCard).sum /** The total number of :=* operators used when we're on the right. */ val allSource = flexSet.map(_.sourceCard).sum require( allSink == 0 || allSource == 0, s"The nodes ${flexSet.map(_.name)} which are inter-connected by :*=* have ${allSink} :*= operators and ${allSource} :=* operators connected to them, making it impossible to determine cardinality inference direction." ) allSink - allSource } /** @return A value >= 0 if it is sink cardinality, a negative value for source cardinality. */ protected[diplomacy] def edgeArityDirection(n: BaseNode): Int = { if (flexibleArityDirection) flexOffset else if (n.flexibleArityDirection) n.flexOffset else 0 } /** For a node which is connected between two nodes, select the one that will influence the direction of the flex * resolution. */ protected[diplomacy] def edgeAritySelect(n: BaseNode, l: => Int, r: => Int): Int = { val dir = edgeArityDirection(n) if (dir < 0) l else if (dir > 0) r else 1 } /** Ensure that the same node is not visited twice in resolving `:*=`, etc operators. */ private var starCycleGuard = false /** Resolve all the star operators into concrete indicies. As connections are being made, some may be "star" * connections which need to be resolved. In some way to determine how many actual edges they correspond to. We also * need to build up the ranges of edges which correspond to each binding operator, so that We can apply the correct * edge parameters and later build up correct bundle connections. * * [[oPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that oPort (binding * operator). [[iPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that iPort * (binding operator). [[oStar]]: `Int` the value to return for this node `N` for any `N :*= foo` or `N :*=* foo :*= * bar` [[iStar]]: `Int` the value to return for this node `N` for any `foo :=* N` or `bar :=* foo :*=* N` */ protected[diplomacy] lazy val ( oPortMapping: Seq[(Int, Int)], iPortMapping: Seq[(Int, Int)], oStar: Int, iStar: Int ) = { try { if (starCycleGuard) throw StarCycleException() starCycleGuard = true // For a given node N... // Number of foo :=* N // + Number of bar :=* foo :*=* N val oStars = oBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) < 0) } // Number of N :*= foo // + Number of N :*=* foo :*= bar val iStars = iBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) > 0) } // 1 for foo := N // + bar.iStar for bar :*= foo :*=* N // + foo.iStar for foo :*= N // + 0 for foo :=* N val oKnown = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, 0, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => 0 } }.sum // 1 for N := foo // + bar.oStar for N :*=* foo :=* bar // + foo.oStar for N :=* foo // + 0 for N :*= foo val iKnown = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, 0) case BIND_QUERY => n.oStar case BIND_STAR => 0 } }.sum // Resolve star depends on the node subclass to implement the algorithm for this. val (iStar, oStar) = resolveStar(iKnown, oKnown, iStars, oStars) // Cumulative list of resolved outward binding range starting points val oSum = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, oStar, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => oStar } }.scanLeft(0)(_ + _) // Cumulative list of resolved inward binding range starting points val iSum = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, iStar) case BIND_QUERY => n.oStar case BIND_STAR => iStar } }.scanLeft(0)(_ + _) // Create ranges for each binding based on the running sums and return // those along with resolved values for the star operations. (oSum.init.zip(oSum.tail), iSum.init.zip(iSum.tail), oStar, iStar) } catch { case c: StarCycleException => throw c.copy(loop = context +: c.loop) } } /** Sequence of inward ports. * * This should be called after all star bindings are resolved. * * Each element is: `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. * `n` Instance of inward node. `p` View of [[Parameters]] where this connection was made. `s` Source info where this * connection was made in the source code. */ protected[diplomacy] lazy val oDirectPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oBindings.flatMap { case (i, n, _, p, s) => // for each binding operator in this node, look at what it connects to val (start, end) = n.iPortMapping(i) (start until end).map { j => (j, n, p, s) } } /** Sequence of outward ports. * * This should be called after all star bindings are resolved. * * `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. `n` Instance of * outward node. `p` View of [[Parameters]] where this connection was made. `s` [[SourceInfo]] where this connection * was made in the source code. */ protected[diplomacy] lazy val iDirectPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iBindings.flatMap { case (i, n, _, p, s) => // query this port index range of this node in the other side of node. val (start, end) = n.oPortMapping(i) (start until end).map { j => (j, n, p, s) } } // Ephemeral nodes ( which have non-None iForward/oForward) have in_degree = out_degree // Thus, there must exist an Eulerian path and the below algorithms terminate @scala.annotation.tailrec private def oTrace( tuple: (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) ): (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.iForward(i) match { case None => (i, n, p, s) case Some((j, m)) => oTrace((j, m, p, s)) } } @scala.annotation.tailrec private def iTrace( tuple: (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) ): (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.oForward(i) match { case None => (i, n, p, s) case Some((j, m)) => iTrace((j, m, p, s)) } } /** Final output ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - Numeric index of this binding in the [[InwardNode]] on the other end. * - [[InwardNode]] on the other end of this binding. * - A view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val oPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oDirectPorts.map(oTrace) /** Final input ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - numeric index of this binding in [[OutwardNode]] on the other end. * - [[OutwardNode]] on the other end of this binding. * - a view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val iPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iDirectPorts.map(iTrace) private var oParamsCycleGuard = false protected[diplomacy] lazy val diParams: Seq[DI] = iPorts.map { case (i, n, _, _) => n.doParams(i) } protected[diplomacy] lazy val doParams: Seq[DO] = { try { if (oParamsCycleGuard) throw DownwardCycleException() oParamsCycleGuard = true val o = mapParamsD(oPorts.size, diParams) require( o.size == oPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of outward ports should equal the number of produced outward parameters. |$context |$connectedPortsInfo |Downstreamed inward parameters: [${diParams.mkString(",")}] |Produced outward parameters: [${o.mkString(",")}] |""".stripMargin ) o.map(outer.mixO(_, this)) } catch { case c: DownwardCycleException => throw c.copy(loop = context +: c.loop) } } private var iParamsCycleGuard = false protected[diplomacy] lazy val uoParams: Seq[UO] = oPorts.map { case (o, n, _, _) => n.uiParams(o) } protected[diplomacy] lazy val uiParams: Seq[UI] = { try { if (iParamsCycleGuard) throw UpwardCycleException() iParamsCycleGuard = true val i = mapParamsU(iPorts.size, uoParams) require( i.size == iPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of inward ports should equal the number of produced inward parameters. |$context |$connectedPortsInfo |Upstreamed outward parameters: [${uoParams.mkString(",")}] |Produced inward parameters: [${i.mkString(",")}] |""".stripMargin ) i.map(inner.mixI(_, this)) } catch { case c: UpwardCycleException => throw c.copy(loop = context +: c.loop) } } /** Outward edge parameters. */ protected[diplomacy] lazy val edgesOut: Seq[EO] = (oPorts.zip(doParams)).map { case ((i, n, p, s), o) => outer.edgeO(o, n.uiParams(i), p, s) } /** Inward edge parameters. */ protected[diplomacy] lazy val edgesIn: Seq[EI] = (iPorts.zip(uiParams)).map { case ((o, n, p, s), i) => inner.edgeI(n.doParams(o), i, p, s) } /** A tuple of the input edge parameters and output edge parameters for the edges bound to this node. * * If you need to access to the edges of a foreign Node, use this method (in/out create bundles). */ lazy val edges: Edges[EI, EO] = Edges(edgesIn, edgesOut) /** Create actual Wires corresponding to the Bundles parameterized by the outward edges of this node. */ protected[diplomacy] lazy val bundleOut: Seq[BO] = edgesOut.map { e => val x = Wire(outer.bundleO(e)).suggestName(s"${valName.value}Out") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } /** Create actual Wires corresponding to the Bundles parameterized by the inward edges of this node. */ protected[diplomacy] lazy val bundleIn: Seq[BI] = edgesIn.map { e => val x = Wire(inner.bundleI(e)).suggestName(s"${valName.value}In") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } private def emptyDanglesOut: Seq[Dangle] = oPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(serial, i), sink = HalfEdge(n.serial, j), flipped = false, name = wirePrefix + "out", dataOpt = None ) } private def emptyDanglesIn: Seq[Dangle] = iPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(n.serial, j), sink = HalfEdge(serial, i), flipped = true, name = wirePrefix + "in", dataOpt = None ) } /** Create the [[Dangle]]s which describe the connections from this node output to other nodes inputs. */ protected[diplomacy] def danglesOut: Seq[Dangle] = emptyDanglesOut.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleOut(i))) } /** Create the [[Dangle]]s which describe the connections from this node input from other nodes outputs. */ protected[diplomacy] def danglesIn: Seq[Dangle] = emptyDanglesIn.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleIn(i))) } private[diplomacy] var instantiated = false /** Gather Bundle and edge parameters of outward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def out: Seq[(BO, EO)] = { require( instantiated, s"$name.out should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleOut.zip(edgesOut) } /** Gather Bundle and edge parameters of inward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def in: Seq[(BI, EI)] = { require( instantiated, s"$name.in should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleIn.zip(edgesIn) } /** Actually instantiate this node during [[LazyModuleImp]] evaluation. Mark that it's safe to use the Bundle wires, * instantiate monitors on all input ports if appropriate, and return all the dangles of this node. */ protected[diplomacy] def instantiate(): Seq[Dangle] = { instantiated = true if (!circuitIdentity) { (iPorts.zip(in)).foreach { case ((_, _, p, _), (b, e)) => if (p(MonitorsEnabled)) inner.monitor(b, e) } } danglesOut ++ danglesIn } protected[diplomacy] def cloneDangles(): Seq[Dangle] = emptyDanglesOut ++ emptyDanglesIn /** Connects the outward part of a node with the inward part of this node. */ protected[diplomacy] def bind( h: OutwardNode[DI, UI, BI], binding: NodeBinding )( implicit p: Parameters, sourceInfo: SourceInfo ): Unit = { val x = this // x := y val y = h sourceLine(sourceInfo, " at ", "") val i = x.iPushed val o = y.oPushed y.oPush( i, x, binding match { case BIND_ONCE => BIND_ONCE case BIND_FLEX => BIND_FLEX case BIND_STAR => BIND_QUERY case BIND_QUERY => BIND_STAR } ) x.iPush(o, y, binding) } /* Metadata for printing the node graph. */ def inputs: Seq[(OutwardNode[DI, UI, BI], RenderedEdge)] = (iPorts.zip(edgesIn)).map { case ((_, n, p, _), e) => val re = inner.render(e) (n, re.copy(flipped = re.flipped != p(RenderFlipped))) } /** Metadata for printing the node graph */ def outputs: Seq[(InwardNode[DO, UO, BO], RenderedEdge)] = oPorts.map { case (i, n, _, _) => (n, n.inputs(i)._2) } } File FrontBus.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.subsystem import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.devices.tilelink.{BuiltInErrorDeviceParams, BuiltInZeroDeviceParams, BuiltInDevices, HasBuiltInDeviceParams} import freechips.rocketchip.tilelink.{HasTLBusParams, TLBusWrapper, TLBusWrapperInstantiationLike, HasTLXbarPhy} import freechips.rocketchip.util.{Location} case class FrontBusParams( beatBytes: Int, blockBytes: Int, dtsFrequency: Option[BigInt] = None, zeroDevice: Option[BuiltInZeroDeviceParams] = None, errorDevice: Option[BuiltInErrorDeviceParams] = None) extends HasTLBusParams with HasBuiltInDeviceParams with TLBusWrapperInstantiationLike { def instantiate(context: HasTileLinkLocations, loc: Location[TLBusWrapper])(implicit p: Parameters): FrontBus = { val fbus = LazyModule(new FrontBus(this, loc.name)) fbus.suggestName(loc.name) context.tlBusWrapperLocationMap += (loc -> fbus) fbus } } class FrontBus(params: FrontBusParams, name: String = "front_bus")(implicit p: Parameters) extends TLBusWrapper(params, name) with HasTLXbarPhy { val builtInDevices: BuiltInDevices = BuiltInDevices.attach(params, outwardNode) val prefixNode = None } File PeripheryTLSerial.scala: package testchipip.serdes import chisel3._ import chisel3.util._ import chisel3.experimental.dataview._ import org.chipsalliance.cde.config.{Parameters, Field} import freechips.rocketchip.subsystem._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.devices.tilelink._ import freechips.rocketchip.diplomacy._ import freechips.rocketchip.util._ import freechips.rocketchip.prci._ import testchipip.util.{ClockedIO} import testchipip.soc.{OBUS} // Parameters for a read-only-memory that appears over serial-TL case class ManagerROMParams( address: BigInt = 0x20000, size: Int = 0x10000, contentFileName: Option[String] = None) // If unset, generates a JALR to DRAM_BASE // Parameters for a read/write memory that appears over serial-TL case class ManagerRAMParams( address: BigInt, size: BigInt) // Parameters for a coherent cacheable read/write memory that appears over serial-TL case class ManagerCOHParams( address: BigInt, size: BigInt) // Parameters for a set of memory regions that appear over serial-TL case class SerialTLManagerParams( memParams: Seq[ManagerRAMParams] = Nil, romParams: Seq[ManagerROMParams] = Nil, cohParams: Seq[ManagerCOHParams] = Nil, isMemoryDevice: Boolean = false, sinkIdBits: Int = 8, totalIdBits: Int = 8, cacheIdBits: Int = 2, slaveWhere: TLBusWrapperLocation = OBUS ) // Parameters for a TL client which may probe this system over serial-TL case class SerialTLClientParams( totalIdBits: Int = 8, cacheIdBits: Int = 2, masterWhere: TLBusWrapperLocation = FBUS, supportsProbe: Boolean = false ) // The SerialTL can be configured to be bidirectional if serialTLManagerParams is set case class SerialTLParams( client: Option[SerialTLClientParams] = None, manager: Option[SerialTLManagerParams] = None, phyParams: SerialPhyParams = ExternalSyncSerialPhyParams(), bundleParams: TLBundleParameters = TLSerdesser.STANDARD_TLBUNDLE_PARAMS) case object SerialTLKey extends Field[Seq[SerialTLParams]](Nil) trait CanHavePeripheryTLSerial { this: BaseSubsystem => private val portName = "serial-tl" val tlChannels = 5 val (serdessers, serial_tls, serial_tl_debugs) = p(SerialTLKey).zipWithIndex.map { case (params, sid) => val name = s"serial_tl_$sid" lazy val manager_bus = params.manager.map(m => locateTLBusWrapper(m.slaveWhere)) lazy val client_bus = params.client.map(c => locateTLBusWrapper(c.masterWhere)) val clientPortParams = params.client.map { c => TLMasterPortParameters.v1( clients = Seq.tabulate(1 << c.cacheIdBits){ i => TLMasterParameters.v1( name = s"serial_tl_${sid}_${i}", sourceId = IdRange(i << (c.totalIdBits - c.cacheIdBits), (i + 1) << (c.totalIdBits - c.cacheIdBits)), supportsProbe = if (c.supportsProbe) TransferSizes(client_bus.get.blockBytes, client_bus.get.blockBytes) else TransferSizes.none )} )} val managerPortParams = params.manager.map { m => val memParams = m.memParams val romParams = m.romParams val cohParams = m.cohParams val memDevice = if (m.isMemoryDevice) new MemoryDevice else new SimpleDevice("lbwif-readwrite", Nil) val romDevice = new SimpleDevice("lbwif-readonly", Nil) val blockBytes = manager_bus.get.blockBytes TLSlavePortParameters.v1( managers = memParams.map { memParams => TLSlaveParameters.v1( address = AddressSet.misaligned(memParams.address, memParams.size), resources = memDevice.reg, regionType = RegionType.UNCACHED, // cacheable executable = true, supportsGet = TransferSizes(1, blockBytes), supportsPutFull = TransferSizes(1, blockBytes), supportsPutPartial = TransferSizes(1, blockBytes) )} ++ romParams.map { romParams => TLSlaveParameters.v1( address = List(AddressSet(romParams.address, romParams.size-1)), resources = romDevice.reg, regionType = RegionType.UNCACHED, // cacheable executable = true, supportsGet = TransferSizes(1, blockBytes), fifoId = Some(0) )} ++ cohParams.map { cohParams => TLSlaveParameters.v1( address = AddressSet.misaligned(cohParams.address, cohParams.size), regionType = RegionType.TRACKED, // cacheable executable = true, supportsAcquireT = TransferSizes(1, blockBytes), supportsAcquireB = TransferSizes(1, blockBytes), supportsGet = TransferSizes(1, blockBytes), supportsPutFull = TransferSizes(1, blockBytes), supportsPutPartial = TransferSizes(1, blockBytes) )}, beatBytes = manager_bus.get.beatBytes, endSinkId = if (cohParams.isEmpty) 0 else (1 << m.sinkIdBits), minLatency = 1 ) } val serial_tl_domain = LazyModule(new ClockSinkDomain(name=Some(s"SerialTL$sid"))) serial_tl_domain.clockNode := manager_bus.getOrElse(client_bus.get).fixedClockNode if (manager_bus.isDefined) require(manager_bus.get.dtsFrequency.isDefined, s"Manager bus ${manager_bus.get.busName} must provide a frequency") if (client_bus.isDefined) require(client_bus.get.dtsFrequency.isDefined, s"Client bus ${client_bus.get.busName} must provide a frequency") if (manager_bus.isDefined && client_bus.isDefined) { val managerFreq = manager_bus.get.dtsFrequency.get val clientFreq = client_bus.get.dtsFrequency.get require(managerFreq == clientFreq, s"Mismatching manager freq $managerFreq != client freq $clientFreq") } val serdesser = serial_tl_domain { LazyModule(new TLSerdesser( flitWidth = params.phyParams.flitWidth, clientPortParams = clientPortParams, managerPortParams = managerPortParams, bundleParams = params.bundleParams, nameSuffix = Some(name) )) } serdesser.managerNode.foreach { managerNode => val maxClients = 1 << params.manager.get.cacheIdBits val maxIdsPerClient = 1 << (params.manager.get.totalIdBits - params.manager.get.cacheIdBits) manager_bus.get.coupleTo(s"port_named_${name}_out") { (managerNode := TLProbeBlocker(p(CacheBlockBytes)) := TLSourceAdjuster(maxClients, maxIdsPerClient) := TLSourceCombiner(maxIdsPerClient) := TLWidthWidget(manager_bus.get.beatBytes) := _) } } serdesser.clientNode.foreach { clientNode => client_bus.get.coupleFrom(s"port_named_${name}_in") { _ := TLBuffer() := clientNode } } // If we provide a clock, generate a clock domain for the outgoing clock val serial_tl_clock_freqMHz = params.phyParams match { case params: InternalSyncSerialPhyParams => Some(params.freqMHz) case params: ExternalSyncSerialPhyParams => None case params: SourceSyncSerialPhyParams => Some(params.freqMHz) } val serial_tl_clock_node = serial_tl_clock_freqMHz.map { f => serial_tl_domain { ClockSinkNode(Seq(ClockSinkParameters(take=Some(ClockParameters(f))))) } } serial_tl_clock_node.foreach(_ := ClockGroup()(p, ValName(s"${name}_clock")) := allClockGroupsNode) val inner_io = serial_tl_domain { InModuleBody { val inner_io = IO(params.phyParams.genIO).suggestName(name) inner_io match { case io: InternalSyncPhitIO => { // Outer clock comes from the clock node. Synchronize the serdesser's reset to that // clock to get the outer reset val outer_clock = serial_tl_clock_node.get.in.head._1.clock io.clock_out := outer_clock val phy = Module(new DecoupledSerialPhy(tlChannels, params.phyParams)) phy.io.outer_clock := outer_clock phy.io.outer_reset := ResetCatchAndSync(outer_clock, serdesser.module.reset.asBool) phy.io.inner_clock := serdesser.module.clock phy.io.inner_reset := serdesser.module.reset phy.io.outer_ser <> io.viewAsSupertype(new DecoupledPhitIO(io.phitWidth)) phy.io.inner_ser <> serdesser.module.io.ser } case io: ExternalSyncPhitIO => { // Outer clock comes from the IO. Synchronize the serdesser's reset to that // clock to get the outer reset val outer_clock = io.clock_in val outer_reset = ResetCatchAndSync(outer_clock, serdesser.module.reset.asBool) val phy = Module(new DecoupledSerialPhy(tlChannels, params.phyParams)) phy.io.outer_clock := outer_clock phy.io.outer_reset := ResetCatchAndSync(outer_clock, serdesser.module.reset.asBool) phy.io.inner_clock := serdesser.module.clock phy.io.inner_reset := serdesser.module.reset phy.io.outer_ser <> io.viewAsSupertype(new DecoupledPhitIO(params.phyParams.phitWidth)) phy.io.inner_ser <> serdesser.module.io.ser } case io: SourceSyncPhitIO => { // 3 clock domains - // - serdesser's "Inner clock": synchronizes signals going to the digital logic // - outgoing clock: synchronizes signals going out // - incoming clock: synchronizes signals coming in val outgoing_clock = serial_tl_clock_node.get.in.head._1.clock val outgoing_reset = ResetCatchAndSync(outgoing_clock, serdesser.module.reset.asBool) val incoming_clock = io.clock_in val incoming_reset = ResetCatchAndSync(incoming_clock, io.reset_in.asBool) io.clock_out := outgoing_clock io.reset_out := outgoing_reset.asAsyncReset val phy = Module(new CreditedSerialPhy(tlChannels, params.phyParams)) phy.io.incoming_clock := incoming_clock phy.io.incoming_reset := incoming_reset phy.io.outgoing_clock := outgoing_clock phy.io.outgoing_reset := outgoing_reset phy.io.inner_clock := serdesser.module.clock phy.io.inner_reset := serdesser.module.reset phy.io.inner_ser <> serdesser.module.io.ser phy.io.outer_ser <> io.viewAsSupertype(new ValidPhitIO(params.phyParams.phitWidth)) } } inner_io }} val outer_io = InModuleBody { val outer_io = IO(params.phyParams.genIO).suggestName(name) outer_io <> inner_io outer_io } val inner_debug_io = serial_tl_domain { InModuleBody { val inner_debug_io = IO(new SerdesDebugIO).suggestName(s"${name}_debug") inner_debug_io := serdesser.module.io.debug inner_debug_io }} val outer_debug_io = InModuleBody { val outer_debug_io = IO(new SerdesDebugIO).suggestName(s"${name}_debug") outer_debug_io := inner_debug_io outer_debug_io } (serdesser, outer_io, outer_debug_io) }.unzip3 } File CustomBootPin.scala: package testchipip.boot import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import freechips.rocketchip.diplomacy._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.devices.tilelink._ import freechips.rocketchip.regmapper._ import freechips.rocketchip.subsystem._ case class CustomBootPinParams( customBootAddress: BigInt = 0x80000000L, // Default is DRAM_BASE masterWhere: TLBusWrapperLocation = CBUS // This needs to write to clint and bootaddrreg, which are on CBUS/PBUS ) case object CustomBootPinKey extends Field[Option[CustomBootPinParams]](None) trait CanHavePeripheryCustomBootPin { this: BaseSubsystem => val custom_boot_pin = p(CustomBootPinKey).map { params => require(p(BootAddrRegKey).isDefined, "CustomBootPin relies on existence of BootAddrReg") val tlbus = locateTLBusWrapper(params.masterWhere) val clientParams = TLMasterPortParameters.v1( clients = Seq(TLMasterParameters.v1( name = "custom-boot", sourceId = IdRange(0, 1), )), minLatency = 1 ) val inner_io = tlbus { val node = TLClientNode(Seq(clientParams)) tlbus.coupleFrom(s"port_named_custom_boot_pin") ({ _ := node }) InModuleBody { val custom_boot = IO(Input(Bool())).suggestName("custom_boot") val (tl, edge) = node.out(0) val inactive :: waiting_bootaddr_reg_a :: waiting_bootaddr_reg_d :: waiting_msip_a :: waiting_msip_d :: dead :: Nil = Enum(6) val state = RegInit(inactive) tl.a.valid := false.B tl.a.bits := DontCare tl.d.ready := true.B switch (state) { is (inactive) { when (custom_boot) { state := waiting_bootaddr_reg_a } } is (waiting_bootaddr_reg_a) { tl.a.valid := true.B tl.a.bits := edge.Put( toAddress = p(BootAddrRegKey).get.bootRegAddress.U, fromSource = 0.U, lgSize = 2.U, data = params.customBootAddress.U )._2 when (tl.a.fire) { state := waiting_bootaddr_reg_d } } is (waiting_bootaddr_reg_d) { when (tl.d.fire) { state := waiting_msip_a } } is (waiting_msip_a) { tl.a.valid := true.B tl.a.bits := edge.Put( toAddress = (p(CLINTKey).get.baseAddress + CLINTConsts.msipOffset(0)).U, // msip for hart0 fromSource = 0.U, lgSize = log2Ceil(CLINTConsts.msipBytes).U, data = 1.U )._2 when (tl.a.fire) { state := waiting_msip_d } } is (waiting_msip_d) { when (tl.d.fire) { state := dead } } is (dead) { when (!custom_boot) { state := inactive } } } custom_boot } } val outer_io = InModuleBody { val custom_boot = IO(Input(Bool())).suggestName("custom_boot") inner_io := custom_boot custom_boot } outer_io } } File SystemBus.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.subsystem import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.devices.tilelink.{ BuiltInDevices, BuiltInZeroDeviceParams, BuiltInErrorDeviceParams, HasBuiltInDeviceParams } import freechips.rocketchip.tilelink.{ TLArbiter, RegionReplicator, ReplicatedRegion, HasTLBusParams, TLBusWrapper, TLBusWrapperInstantiationLike, TLXbar, TLEdge, TLInwardNode, TLOutwardNode, TLFIFOFixer, TLTempNode } import freechips.rocketchip.util.Location case class SystemBusParams( beatBytes: Int, blockBytes: Int, policy: TLArbiter.Policy = TLArbiter.roundRobin, dtsFrequency: Option[BigInt] = None, zeroDevice: Option[BuiltInZeroDeviceParams] = None, errorDevice: Option[BuiltInErrorDeviceParams] = None, replication: Option[ReplicatedRegion] = None) extends HasTLBusParams with HasBuiltInDeviceParams with TLBusWrapperInstantiationLike { def instantiate(context: HasTileLinkLocations, loc: Location[TLBusWrapper])(implicit p: Parameters): SystemBus = { val sbus = LazyModule(new SystemBus(this, loc.name)) sbus.suggestName(loc.name) context.tlBusWrapperLocationMap += (loc -> sbus) sbus } } class SystemBus(params: SystemBusParams, name: String = "system_bus")(implicit p: Parameters) extends TLBusWrapper(params, name) { private val replicator = params.replication.map(r => LazyModule(new RegionReplicator(r))) val prefixNode = replicator.map { r => r.prefix := addressPrefixNexusNode addressPrefixNexusNode } private val system_bus_xbar = LazyModule(new TLXbar(policy = params.policy, nameSuffix = Some(name))) val inwardNode: TLInwardNode = system_bus_xbar.node :=* TLFIFOFixer(TLFIFOFixer.allVolatile) :=* replicator.map(_.node).getOrElse(TLTempNode()) val outwardNode: TLOutwardNode = system_bus_xbar.node def busView: TLEdge = system_bus_xbar.node.edges.in.head val builtInDevices: BuiltInDevices = BuiltInDevices.attach(params, outwardNode) } File ClockGroupNamePrefixer.scala: package chipyard.clocking import chisel3._ import org.chipsalliance.cde.config.{Parameters, Config, Field} import freechips.rocketchip.diplomacy._ import freechips.rocketchip.prci._ case object ClockFrequencyAssignersKey extends Field[Seq[(String) => Option[Double]]](Seq.empty) class ClockNameMatchesAssignment(name: String, fMHz: Double) extends Config((site, here, up) => { case ClockFrequencyAssignersKey => up(ClockFrequencyAssignersKey, site) ++ Seq((cName: String) => if (cName == name) Some(fMHz) else None) }) class ClockNameContainsAssignment(name: String, fMHz: Double) extends Config((site, here, up) => { case ClockFrequencyAssignersKey => up(ClockFrequencyAssignersKey, site) ++ Seq((cName: String) => if (cName.contains(name)) Some(fMHz) else None) }) /** * This sort of node can be used when it is a connectivity passthrough, but modifies * the flow of parameters (which may result in changing the names of the underlying signals). */ class ClockGroupParameterModifier( sourceFn: ClockGroupSourceParameters => ClockGroupSourceParameters = { m => m }, sinkFn: ClockGroupSinkParameters => ClockGroupSinkParameters = { s => s })( implicit p: Parameters, v: ValName) extends LazyModule { val node = ClockGroupAdapterNode(sourceFn, sinkFn) override def shouldBeInlined = true lazy val module = new LazyRawModuleImp(this) { (node.out zip node.in).map { case ((o, _), (i, _)) => (o.member.data zip i.member.data).foreach { case (oD, iD) => oD := iD } } } } /** * Pushes the ClockGroup's name into each member's name field as a prefix. This is * intended to be used before a ClockGroupAggregator so that sources from * different aggregated ClockGroups can be disambiguated by their names. */ object ClockGroupNamePrefixer { def apply()(implicit p: Parameters, valName: ValName): ClockGroupAdapterNode = LazyModule(new ClockGroupParameterModifier(sinkFn = { s => s.copy(members = s.members.zipWithIndex.map { case (m, idx) => m.copy(name = m.name match { // This matches what the chisel would do if the names were not modified case Some(clockName) => Some(s"${s.name}_${clockName}") case None => Some(s"${s.name}_${idx}") }) })})).node } /** * [Word from on high is that Strings are in...] * Overrides the take field of all clocks in a group, by attempting to apply a * series of assignment functions: * (name: String) => freq-in-MHz: Option[Double] * to each sink. Later functions that return non-empty values take priority. * The default if all functions return None. */ object ClockGroupFrequencySpecifier { def apply(assigners: Seq[(String) => Option[Double]])( implicit p: Parameters, valName: ValName): ClockGroupAdapterNode = { def lookupFrequencyForName(clock: ClockSinkParameters): ClockSinkParameters = clock.copy(take = clock.take match { case Some(cp) => println(s"Clock ${clock.name.get}: using diplomatically specified frequency of ${cp.freqMHz}.") Some(cp) case None => { val freqs = assigners.map { f => f(clock.name.get) }.flatten if (freqs.size > 0) { println(s"Clock ${clock.name.get}: using specified frequency of ${freqs.last}") Some(ClockParameters(freqs.last)) } else { None } } }) LazyModule(new ClockGroupParameterModifier(sinkFn = { s => s.copy(members = s.members.map(lookupFrequencyForName)) })).node } } File InterruptBus.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.subsystem import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.resources.{Device, DeviceInterrupts, Description, ResourceBindings} import freechips.rocketchip.interrupts.{IntInwardNode, IntOutwardNode, IntXbar, IntNameNode, IntSourceNode, IntSourcePortSimple} import freechips.rocketchip.prci.{ClockCrossingType, AsynchronousCrossing, RationalCrossing, ClockSinkDomain} import freechips.rocketchip.interrupts.IntClockDomainCrossing /** Collects interrupts from internal and external devices and feeds them into the PLIC */ class InterruptBusWrapper(implicit p: Parameters) extends ClockSinkDomain { override def shouldBeInlined = true val int_bus = LazyModule(new IntXbar) // Interrupt crossbar private val int_in_xing = this.crossIn(int_bus.intnode) private val int_out_xing = this.crossOut(int_bus.intnode) def from(name: Option[String])(xing: ClockCrossingType) = int_in_xing(xing) :=* IntNameNode(name) def to(name: Option[String])(xing: ClockCrossingType) = IntNameNode(name) :*= int_out_xing(xing) def fromAsync: IntInwardNode = from(None)(AsynchronousCrossing(8,3)) def fromRational: IntInwardNode = from(None)(RationalCrossing()) def fromSync: IntInwardNode = int_bus.intnode def toPLIC: IntOutwardNode = int_bus.intnode } /** Specifies the number of external interrupts */ case object NExtTopInterrupts extends Field[Int](0) /** This trait adds externally driven interrupts to the system. * However, it should not be used directly; instead one of the below * synchronization wiring child traits should be used. */ abstract trait HasExtInterrupts { this: BaseSubsystem => private val device = new Device with DeviceInterrupts { def describe(resources: ResourceBindings): Description = { Description("soc/external-interrupts", describeInterrupts(resources)) } } val nExtInterrupts = p(NExtTopInterrupts) val extInterrupts = IntSourceNode(IntSourcePortSimple(num = nExtInterrupts, resources = device.int)) } /** This trait should be used if the External Interrupts have NOT * already been synchronized to the Periphery (PLIC) Clock. */ trait HasAsyncExtInterrupts extends HasExtInterrupts { this: BaseSubsystem => if (nExtInterrupts > 0) { ibus { ibus.fromAsync := extInterrupts } } } /** This trait can be used if the External Interrupts have already been synchronized * to the Periphery (PLIC) Clock. */ trait HasSyncExtInterrupts extends HasExtInterrupts { this: BaseSubsystem => if (nExtInterrupts > 0) { ibus { ibus.fromSync := extInterrupts } } } /** Common io name and methods for propagating or tying off the port bundle */ trait HasExtInterruptsBundle { val interrupts: UInt def tieOffInterrupts(dummy: Int = 1): Unit = { interrupts := 0.U } } /** This trait performs the translation from a UInt IO into Diplomatic Interrupts. * The wiring must be done in the concrete LazyModuleImp. */ trait HasExtInterruptsModuleImp extends LazyRawModuleImp with HasExtInterruptsBundle { val outer: HasExtInterrupts val interrupts = IO(Input(UInt(outer.nExtInterrupts.W))) outer.extInterrupts.out.map(_._1).flatten.zipWithIndex.foreach { case(o, i) => o := interrupts(i) } } File GlobalNoC.scala: package constellation.soc import chisel3._ import chisel3.util._ import constellation.channel._ import constellation.noc._ import constellation.protocol._ import org.chipsalliance.cde.config._ import freechips.rocketchip.diplomacy._ import freechips.rocketchip.subsystem._ import freechips.rocketchip.prci._ case class GlobalNoCParams( nocParams: NoCParams = NoCParams() ) trait CanAttachToGlobalNoC { val protocolParams: ProtocolParams val io_global: Data } case object GlobalNoCKey extends Field[GlobalNoCParams](GlobalNoCParams()) class GlobalNoCDomain(implicit p: Parameters) extends ClockSinkDomain()(p) { InModuleBody { val interfaces = getChildren.map(_.module).collect { case a: CanAttachToGlobalNoC => a }.toSeq if (interfaces.size > 0) { val noc = Module(new ProtocolNoC(ProtocolNoCParams( p(GlobalNoCKey).nocParams, interfaces.map(_.protocolParams) ))) (interfaces zip noc.io.protocol).foreach { case (l,r) => l.io_global <> r } } } } trait CanHaveGlobalNoC { this: BaseSubsystem => lazy val globalNoCDomain = LazyModule(new GlobalNoCDomain) globalNoCDomain.clockNode := locateTLBusWrapper(SBUS).fixedClockNode } File BundleBridgeNexus.scala: package org.chipsalliance.diplomacy.bundlebridge import chisel3.{chiselTypeOf, ActualDirection, Data, Reg} import chisel3.reflect.DataMirror import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.lazymodule.{LazyModule, LazyRawModuleImp} class BundleBridgeNexus[T <: Data]( inputFn: Seq[T] => T, outputFn: (T, Int) => Seq[T], default: Option[() => T] = None, inputRequiresOutput: Boolean = false, override val shouldBeInlined: Boolean = true )( implicit p: Parameters) extends LazyModule { val node = BundleBridgeNexusNode[T](default, inputRequiresOutput) lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { val defaultWireOpt = default.map(_()) val inputs: Seq[T] = node.in.map(_._1) inputs.foreach { i => require( DataMirror.checkTypeEquivalence(i, inputs.head), s"${node.context} requires all inputs have equivalent Chisel Data types, but got\n$i\nvs\n${inputs.head}" ) } inputs.flatMap(getElements).foreach { elt => DataMirror.directionOf(elt) match { case ActualDirection.Output => () case ActualDirection.Unspecified => () case _ => require(false, s"${node.context} can only be used with Output-directed Bundles") } } val outputs: Seq[T] = if (node.out.size > 0) { val broadcast: T = if (inputs.size >= 1) inputFn(inputs) else defaultWireOpt.get outputFn(broadcast, node.out.size) } else { Nil } val typeName = outputs.headOption.map(_.typeName).getOrElse("NoOutput") override def desiredName = s"BundleBridgeNexus_$typeName" node.out.map(_._1).foreach { o => require( DataMirror.checkTypeEquivalence(o, outputs.head), s"${node.context} requires all outputs have equivalent Chisel Data types, but got\n$o\nvs\n${outputs.head}" ) } require( outputs.size == node.out.size, s"${node.context} outputFn must generate one output wire per edgeOut, but got ${outputs.size} vs ${node.out.size}" ) node.out.zip(outputs).foreach { case ((out, _), bcast) => out := bcast } } } object BundleBridgeNexus { def safeRegNext[T <: Data](x: T): T = { val reg = Reg(chiselTypeOf(x)) reg := x reg } def requireOne[T <: Data](registered: Boolean)(seq: Seq[T]): T = { require(seq.size == 1, "BundleBroadcast default requires one input") if (registered) safeRegNext(seq.head) else seq.head } def orReduction[T <: Data](registered: Boolean)(seq: Seq[T]): T = { val x = seq.reduce((a, b) => (a.asUInt | b.asUInt).asTypeOf(seq.head)) if (registered) safeRegNext(x) else x } def fillN[T <: Data](registered: Boolean)(x: T, n: Int): Seq[T] = Seq.fill(n) { if (registered) safeRegNext(x) else x } def apply[T <: Data]( inputFn: Seq[T] => T = orReduction[T](false) _, outputFn: (T, Int) => Seq[T] = fillN[T](false) _, default: Option[() => T] = None, inputRequiresOutput: Boolean = false, shouldBeInlined: Boolean = true )( implicit p: Parameters ): BundleBridgeNexusNode[T] = { val nexus = LazyModule(new BundleBridgeNexus[T](inputFn, outputFn, default, inputRequiresOutput, shouldBeInlined)) nexus.node } } File BundleBridgeSink.scala: package org.chipsalliance.diplomacy.bundlebridge import chisel3.{chiselTypeOf, ActualDirection, Data, IO, Output} import chisel3.reflect.DataMirror import chisel3.reflect.DataMirror.internal.chiselTypeClone import org.chipsalliance.diplomacy.ValName import org.chipsalliance.diplomacy.nodes.SinkNode case class BundleBridgeSink[T <: Data]( genOpt: Option[() => T] = None )( implicit valName: ValName) extends SinkNode(new BundleBridgeImp[T])(Seq(BundleBridgeParams(genOpt))) { def bundle: T = in(0)._1 private def inferOutput = getElements(bundle).forall { elt => DataMirror.directionOf(elt) == ActualDirection.Unspecified } def makeIO( )( implicit valName: ValName ): T = { val io: T = IO( if (inferOutput) Output(chiselTypeOf(bundle)) else chiselTypeClone(bundle) ) io.suggestName(valName.value) io <> bundle io } def makeIO(name: String): T = makeIO()(ValName(name)) } object BundleBridgeSink { def apply[T <: Data]( )( implicit valName: ValName ): BundleBridgeSink[T] = { BundleBridgeSink(None) } } File Xbar.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.interrupts import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ class IntXbar()(implicit p: Parameters) extends LazyModule { val intnode = new IntNexusNode( sinkFn = { _ => IntSinkPortParameters(Seq(IntSinkParameters())) }, sourceFn = { seq => IntSourcePortParameters((seq zip seq.map(_.num).scanLeft(0)(_+_).init).map { case (s, o) => s.sources.map(z => z.copy(range = z.range.offset(o))) }.flatten) }) { override def circuitIdentity = outputs == 1 && inputs == 1 } lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { override def desiredName = s"IntXbar_i${intnode.in.size}_o${intnode.out.size}" val cat = intnode.in.map { case (i, e) => i.take(e.source.num) }.flatten intnode.out.foreach { case (o, _) => o := cat } } } class IntSyncXbar()(implicit p: Parameters) extends LazyModule { val intnode = new IntSyncNexusNode( sinkFn = { _ => IntSinkPortParameters(Seq(IntSinkParameters())) }, sourceFn = { seq => IntSourcePortParameters((seq zip seq.map(_.num).scanLeft(0)(_+_).init).map { case (s, o) => s.sources.map(z => z.copy(range = z.range.offset(o))) }.flatten) }) { override def circuitIdentity = outputs == 1 && inputs == 1 } lazy val module = new Impl class Impl extends LazyModuleImp(this) { override def desiredName = s"IntSyncXbar_i${intnode.in.size}_o${intnode.out.size}" val cat = intnode.in.map { case (i, e) => i.sync.take(e.source.num) }.flatten intnode.out.foreach { case (o, _) => o.sync := cat } } } object IntXbar { def apply()(implicit p: Parameters): IntNode = { val xbar = LazyModule(new IntXbar) xbar.intnode } } object IntSyncXbar { def apply()(implicit p: Parameters): IntSyncNode = { val xbar = LazyModule(new IntSyncXbar) xbar.intnode } }
module DigitalTop( // @[DigitalTop.scala:47:7] input auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_mbus_0_clock, // @[LazyModuleImp.scala:107:25] input auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_mbus_0_reset, // @[LazyModuleImp.scala:107:25] input auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_tileClockGroup_rockettile_0_clock, // @[LazyModuleImp.scala:107:25] input auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_tileClockGroup_rockettile_0_reset, // @[LazyModuleImp.scala:107:25] input auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_periphery_clock, // @[LazyModuleImp.scala:107:25] input auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_periphery_reset, // @[LazyModuleImp.scala:107:25] input auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_uncore_clock, // @[LazyModuleImp.scala:107:25] input auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_uncore_reset, // @[LazyModuleImp.scala:107:25] output auto_mbus_fixedClockNode_anon_out_clock, // @[LazyModuleImp.scala:107:25] output auto_mbus_fixedClockNode_anon_out_reset, // @[LazyModuleImp.scala:107:25] output auto_cbus_fixedClockNode_anon_out_clock, // @[LazyModuleImp.scala:107:25] output auto_cbus_fixedClockNode_anon_out_reset, // @[LazyModuleImp.scala:107:25] input resetctrl_hartIsInReset_0, // @[Periphery.scala:116:25] input debug_clock, // @[Periphery.scala:125:19] input debug_reset, // @[Periphery.scala:125:19] input debug_systemjtag_jtag_TCK, // @[Periphery.scala:125:19] input debug_systemjtag_jtag_TMS, // @[Periphery.scala:125:19] input debug_systemjtag_jtag_TDI, // @[Periphery.scala:125:19] output debug_systemjtag_jtag_TDO_data, // @[Periphery.scala:125:19] input debug_systemjtag_reset, // @[Periphery.scala:125:19] output debug_dmactive, // @[Periphery.scala:125:19] input debug_dmactiveAck, // @[Periphery.scala:125:19] input mem_axi4_0_aw_ready, // @[SinkNode.scala:76:21] output mem_axi4_0_aw_valid, // @[SinkNode.scala:76:21] output [3:0] mem_axi4_0_aw_bits_id, // @[SinkNode.scala:76:21] output [31:0] mem_axi4_0_aw_bits_addr, // @[SinkNode.scala:76:21] output [7:0] mem_axi4_0_aw_bits_len, // @[SinkNode.scala:76:21] output [2:0] mem_axi4_0_aw_bits_size, // @[SinkNode.scala:76:21] output [1:0] mem_axi4_0_aw_bits_burst, // @[SinkNode.scala:76:21] output mem_axi4_0_aw_bits_lock, // @[SinkNode.scala:76:21] output [3:0] mem_axi4_0_aw_bits_cache, // @[SinkNode.scala:76:21] output [2:0] mem_axi4_0_aw_bits_prot, // @[SinkNode.scala:76:21] output [3:0] mem_axi4_0_aw_bits_qos, // @[SinkNode.scala:76:21] input mem_axi4_0_w_ready, // @[SinkNode.scala:76:21] output mem_axi4_0_w_valid, // @[SinkNode.scala:76:21] output [63:0] mem_axi4_0_w_bits_data, // @[SinkNode.scala:76:21] output [7:0] mem_axi4_0_w_bits_strb, // @[SinkNode.scala:76:21] output mem_axi4_0_w_bits_last, // @[SinkNode.scala:76:21] output mem_axi4_0_b_ready, // @[SinkNode.scala:76:21] input mem_axi4_0_b_valid, // @[SinkNode.scala:76:21] input [3:0] mem_axi4_0_b_bits_id, // @[SinkNode.scala:76:21] input [1:0] mem_axi4_0_b_bits_resp, // @[SinkNode.scala:76:21] input mem_axi4_0_ar_ready, // @[SinkNode.scala:76:21] output mem_axi4_0_ar_valid, // @[SinkNode.scala:76:21] output [3:0] mem_axi4_0_ar_bits_id, // @[SinkNode.scala:76:21] output [31:0] mem_axi4_0_ar_bits_addr, // @[SinkNode.scala:76:21] output [7:0] mem_axi4_0_ar_bits_len, // @[SinkNode.scala:76:21] output [2:0] mem_axi4_0_ar_bits_size, // @[SinkNode.scala:76:21] output [1:0] mem_axi4_0_ar_bits_burst, // @[SinkNode.scala:76:21] output mem_axi4_0_ar_bits_lock, // @[SinkNode.scala:76:21] output [3:0] mem_axi4_0_ar_bits_cache, // @[SinkNode.scala:76:21] output [2:0] mem_axi4_0_ar_bits_prot, // @[SinkNode.scala:76:21] output [3:0] mem_axi4_0_ar_bits_qos, // @[SinkNode.scala:76:21] output mem_axi4_0_r_ready, // @[SinkNode.scala:76:21] input mem_axi4_0_r_valid, // @[SinkNode.scala:76:21] input [3:0] mem_axi4_0_r_bits_id, // @[SinkNode.scala:76:21] input [63:0] mem_axi4_0_r_bits_data, // @[SinkNode.scala:76:21] input [1:0] mem_axi4_0_r_bits_resp, // @[SinkNode.scala:76:21] input mem_axi4_0_r_bits_last, // @[SinkNode.scala:76:21] input custom_boot, // @[CustomBootPin.scala:73:27] output serial_tl_0_in_ready, // @[PeripheryTLSerial.scala:220:24] input serial_tl_0_in_valid, // @[PeripheryTLSerial.scala:220:24] input [31:0] serial_tl_0_in_bits_phit, // @[PeripheryTLSerial.scala:220:24] input serial_tl_0_out_ready, // @[PeripheryTLSerial.scala:220:24] output serial_tl_0_out_valid, // @[PeripheryTLSerial.scala:220:24] output [31:0] serial_tl_0_out_bits_phit, // @[PeripheryTLSerial.scala:220:24] input serial_tl_0_clock_in, // @[PeripheryTLSerial.scala:220:24] output uart_0_txd, // @[BundleBridgeSink.scala:25:19] input uart_0_rxd, // @[BundleBridgeSink.scala:25:19] output clock_tap // @[CanHaveClockTap.scala:23:23] ); wire clockTapNode_auto_out_reset; // @[ClockGroup.scala:24:9] wire clockTapNode_auto_out_clock; // @[ClockGroup.scala:24:9] wire clockTapNode_auto_in_member_clockTapNode_clock_tap_reset; // @[ClockGroup.scala:24:9] wire clockTapNode_auto_in_member_clockTapNode_clock_tap_clock; // @[ClockGroup.scala:24:9] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_sbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_sbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_sbus_1_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_sbus_1_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_tileClockGroup_rockettile_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_tileClockGroup_rockettile_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_pbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_pbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_fbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_fbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_mbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_mbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_cbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_cbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_clockTapNode_clock_tap_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_in_member_allClocks_clockTapNode_clock_tap_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_0_member_sbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_0_member_sbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_0_member_sbus_1_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_0_member_sbus_1_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_1_member_tileClockGroup_rockettile_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_1_member_tileClockGroup_rockettile_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_2_member_pbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_2_member_pbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_3_member_fbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_3_member_fbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_4_member_mbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_4_member_mbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_5_member_cbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_5_member_cbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_6_member_clockTapNode_clock_tap_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_out_6_member_clockTapNode_clock_tap_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_0_member_sbus_sbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_0_member_sbus_sbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_0_member_sbus_sbus_1_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_0_member_sbus_sbus_1_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_1_member_tileClockGroup_tileClockGroup_rockettile_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_1_member_tileClockGroup_tileClockGroup_rockettile_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_2_member_pbus_pbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_2_member_pbus_pbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_3_member_fbus_fbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_3_member_fbus_fbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_4_member_mbus_mbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_4_member_mbus_mbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_5_member_cbus_cbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_5_member_cbus_cbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_6_member_clockTapNode_clockTapNode_clock_tap_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire clockNamePrefixer_auto_clock_name_prefixer_in_6_member_clockTapNode_clockTapNode_clock_tap_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire [63:0] nexus_auto_out_time; // @[BundleBridgeNexus.scala:20:9] wire [39:0] nexus_auto_out_insns_0_tval; // @[BundleBridgeNexus.scala:20:9] wire [63:0] nexus_auto_out_insns_0_cause; // @[BundleBridgeNexus.scala:20:9] wire nexus_auto_out_insns_0_interrupt; // @[BundleBridgeNexus.scala:20:9] wire nexus_auto_out_insns_0_exception; // @[BundleBridgeNexus.scala:20:9] wire [2:0] nexus_auto_out_insns_0_priv; // @[BundleBridgeNexus.scala:20:9] wire [31:0] nexus_auto_out_insns_0_insn; // @[BundleBridgeNexus.scala:20:9] wire [39:0] nexus_auto_out_insns_0_iaddr; // @[BundleBridgeNexus.scala:20:9] wire nexus_auto_out_insns_0_valid; // @[BundleBridgeNexus.scala:20:9] wire [63:0] nexus_auto_in_time; // @[BundleBridgeNexus.scala:20:9] wire [39:0] nexus_auto_in_insns_0_tval; // @[BundleBridgeNexus.scala:20:9] wire [63:0] nexus_auto_in_insns_0_cause; // @[BundleBridgeNexus.scala:20:9] wire nexus_auto_in_insns_0_interrupt; // @[BundleBridgeNexus.scala:20:9] wire nexus_auto_in_insns_0_exception; // @[BundleBridgeNexus.scala:20:9] wire [2:0] nexus_auto_in_insns_0_priv; // @[BundleBridgeNexus.scala:20:9] wire [31:0] nexus_auto_in_insns_0_insn; // @[BundleBridgeNexus.scala:20:9] wire [39:0] nexus_auto_in_insns_0_iaddr; // @[BundleBridgeNexus.scala:20:9] wire nexus_auto_in_insns_0_valid; // @[BundleBridgeNexus.scala:20:9] wire tileClockGroup_auto_in_member_tileClockGroup_rockettile_0_reset; // @[ClockGroup.scala:24:9] wire tileClockGroup_auto_in_member_tileClockGroup_rockettile_0_clock; // @[ClockGroup.scala:24:9] wire ibus_auto_clock_in_reset; // @[ClockDomain.scala:14:9] wire ibus_auto_clock_in_clock; // @[ClockDomain.scala:14:9] wire _dtm_io_dmi_req_valid; // @[Periphery.scala:166:21] wire [6:0] _dtm_io_dmi_req_bits_addr; // @[Periphery.scala:166:21] wire [31:0] _dtm_io_dmi_req_bits_data; // @[Periphery.scala:166:21] wire [1:0] _dtm_io_dmi_req_bits_op; // @[Periphery.scala:166:21] wire _dtm_io_dmi_resp_ready; // @[Periphery.scala:166:21] wire _chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_mbus_0_clock; // @[BusWrapper.scala:89:28] wire _chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_mbus_0_reset; // @[BusWrapper.scala:89:28] wire _chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_tileClockGroup_rockettile_0_clock; // @[BusWrapper.scala:89:28] wire _chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_tileClockGroup_rockettile_0_reset; // @[BusWrapper.scala:89:28] wire _chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_periphery_clock; // @[BusWrapper.scala:89:28] wire _chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_periphery_reset; // @[BusWrapper.scala:89:28] wire _chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_uncore_clock; // @[BusWrapper.scala:89:28] wire _chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_uncore_reset; // @[BusWrapper.scala:89:28] wire _chipyard_prcictrl_domain_auto_xbar_anon_in_a_ready; // @[BusWrapper.scala:89:28] wire _chipyard_prcictrl_domain_auto_xbar_anon_in_d_valid; // @[BusWrapper.scala:89:28] wire [2:0] _chipyard_prcictrl_domain_auto_xbar_anon_in_d_bits_opcode; // @[BusWrapper.scala:89:28] wire [2:0] _chipyard_prcictrl_domain_auto_xbar_anon_in_d_bits_size; // @[BusWrapper.scala:89:28] wire [6:0] _chipyard_prcictrl_domain_auto_xbar_anon_in_d_bits_source; // @[BusWrapper.scala:89:28] wire [63:0] _chipyard_prcictrl_domain_auto_xbar_anon_in_d_bits_data; // @[BusWrapper.scala:89:28] wire _uartClockDomainWrapper_auto_uart_0_control_xing_in_a_ready; // @[UART.scala:270:44] wire _uartClockDomainWrapper_auto_uart_0_control_xing_in_d_valid; // @[UART.scala:270:44] wire [2:0] _uartClockDomainWrapper_auto_uart_0_control_xing_in_d_bits_opcode; // @[UART.scala:270:44] wire [1:0] _uartClockDomainWrapper_auto_uart_0_control_xing_in_d_bits_size; // @[UART.scala:270:44] wire [10:0] _uartClockDomainWrapper_auto_uart_0_control_xing_in_d_bits_source; // @[UART.scala:270:44] wire [63:0] _uartClockDomainWrapper_auto_uart_0_control_xing_in_d_bits_data; // @[UART.scala:270:44] wire _serial_tl_domain_auto_serdesser_client_out_a_valid; // @[PeripheryTLSerial.scala:116:38] wire [2:0] _serial_tl_domain_auto_serdesser_client_out_a_bits_opcode; // @[PeripheryTLSerial.scala:116:38] wire [2:0] _serial_tl_domain_auto_serdesser_client_out_a_bits_param; // @[PeripheryTLSerial.scala:116:38] wire [3:0] _serial_tl_domain_auto_serdesser_client_out_a_bits_size; // @[PeripheryTLSerial.scala:116:38] wire [3:0] _serial_tl_domain_auto_serdesser_client_out_a_bits_source; // @[PeripheryTLSerial.scala:116:38] wire [31:0] _serial_tl_domain_auto_serdesser_client_out_a_bits_address; // @[PeripheryTLSerial.scala:116:38] wire [7:0] _serial_tl_domain_auto_serdesser_client_out_a_bits_mask; // @[PeripheryTLSerial.scala:116:38] wire [63:0] _serial_tl_domain_auto_serdesser_client_out_a_bits_data; // @[PeripheryTLSerial.scala:116:38] wire _serial_tl_domain_auto_serdesser_client_out_a_bits_corrupt; // @[PeripheryTLSerial.scala:116:38] wire _serial_tl_domain_auto_serdesser_client_out_d_ready; // @[PeripheryTLSerial.scala:116:38] wire _serial_tl_domain_serial_tl_0_debug_ser_busy; // @[PeripheryTLSerial.scala:116:38] wire _serial_tl_domain_serial_tl_0_debug_des_busy; // @[PeripheryTLSerial.scala:116:38] wire _bank_auto_xbar_anon_in_a_ready; // @[Scratchpad.scala:65:28] wire _bank_auto_xbar_anon_in_d_valid; // @[Scratchpad.scala:65:28] wire [2:0] _bank_auto_xbar_anon_in_d_bits_opcode; // @[Scratchpad.scala:65:28] wire [1:0] _bank_auto_xbar_anon_in_d_bits_param; // @[Scratchpad.scala:65:28] wire [2:0] _bank_auto_xbar_anon_in_d_bits_size; // @[Scratchpad.scala:65:28] wire [3:0] _bank_auto_xbar_anon_in_d_bits_source; // @[Scratchpad.scala:65:28] wire _bank_auto_xbar_anon_in_d_bits_sink; // @[Scratchpad.scala:65:28] wire _bank_auto_xbar_anon_in_d_bits_denied; // @[Scratchpad.scala:65:28] wire [63:0] _bank_auto_xbar_anon_in_d_bits_data; // @[Scratchpad.scala:65:28] wire _bank_auto_xbar_anon_in_d_bits_corrupt; // @[Scratchpad.scala:65:28] wire _bootrom_domain_auto_bootrom_in_a_ready; // @[BusWrapper.scala:89:28] wire _bootrom_domain_auto_bootrom_in_d_valid; // @[BusWrapper.scala:89:28] wire [1:0] _bootrom_domain_auto_bootrom_in_d_bits_size; // @[BusWrapper.scala:89:28] wire [10:0] _bootrom_domain_auto_bootrom_in_d_bits_source; // @[BusWrapper.scala:89:28] wire [63:0] _bootrom_domain_auto_bootrom_in_d_bits_data; // @[BusWrapper.scala:89:28] wire _tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_valid; // @[Periphery.scala:88:26] wire [2:0] _tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_bits_opcode; // @[Periphery.scala:88:26] wire [3:0] _tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_bits_size; // @[Periphery.scala:88:26] wire [31:0] _tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_bits_address; // @[Periphery.scala:88:26] wire [7:0] _tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_bits_data; // @[Periphery.scala:88:26] wire _tlDM_auto_dmInner_dmInner_sb2tlOpt_out_d_ready; // @[Periphery.scala:88:26] wire _tlDM_auto_dmInner_dmInner_tl_in_a_ready; // @[Periphery.scala:88:26] wire _tlDM_auto_dmInner_dmInner_tl_in_d_valid; // @[Periphery.scala:88:26] wire [2:0] _tlDM_auto_dmInner_dmInner_tl_in_d_bits_opcode; // @[Periphery.scala:88:26] wire [1:0] _tlDM_auto_dmInner_dmInner_tl_in_d_bits_size; // @[Periphery.scala:88:26] wire [10:0] _tlDM_auto_dmInner_dmInner_tl_in_d_bits_source; // @[Periphery.scala:88:26] wire [63:0] _tlDM_auto_dmInner_dmInner_tl_in_d_bits_data; // @[Periphery.scala:88:26] wire _tlDM_io_dmi_dmi_req_ready; // @[Periphery.scala:88:26] wire _tlDM_io_dmi_dmi_resp_valid; // @[Periphery.scala:88:26] wire [31:0] _tlDM_io_dmi_dmi_resp_bits_data; // @[Periphery.scala:88:26] wire [1:0] _tlDM_io_dmi_dmi_resp_bits_resp; // @[Periphery.scala:88:26] wire _plic_domain_auto_plic_in_a_ready; // @[BusWrapper.scala:89:28] wire _plic_domain_auto_plic_in_d_valid; // @[BusWrapper.scala:89:28] wire [2:0] _plic_domain_auto_plic_in_d_bits_opcode; // @[BusWrapper.scala:89:28] wire [1:0] _plic_domain_auto_plic_in_d_bits_size; // @[BusWrapper.scala:89:28] wire [10:0] _plic_domain_auto_plic_in_d_bits_source; // @[BusWrapper.scala:89:28] wire [63:0] _plic_domain_auto_plic_in_d_bits_data; // @[BusWrapper.scala:89:28] wire _plic_domain_auto_int_in_clock_xing_out_1_sync_0; // @[BusWrapper.scala:89:28] wire _plic_domain_auto_int_in_clock_xing_out_0_sync_0; // @[BusWrapper.scala:89:28] wire _clint_domain_auto_clint_in_a_ready; // @[BusWrapper.scala:89:28] wire _clint_domain_auto_clint_in_d_valid; // @[BusWrapper.scala:89:28] wire [2:0] _clint_domain_auto_clint_in_d_bits_opcode; // @[BusWrapper.scala:89:28] wire [1:0] _clint_domain_auto_clint_in_d_bits_size; // @[BusWrapper.scala:89:28] wire [10:0] _clint_domain_auto_clint_in_d_bits_source; // @[BusWrapper.scala:89:28] wire [63:0] _clint_domain_auto_clint_in_d_bits_data; // @[BusWrapper.scala:89:28] wire _clint_domain_auto_int_in_clock_xing_out_sync_0; // @[BusWrapper.scala:89:28] wire _clint_domain_auto_int_in_clock_xing_out_sync_1; // @[BusWrapper.scala:89:28] wire _clint_domain_clock; // @[BusWrapper.scala:89:28] wire _clint_domain_reset; // @[BusWrapper.scala:89:28] wire _tileHartIdNexusNode_auto_out; // @[HasTiles.scala:75:39] wire _tile_prci_domain_auto_intsink_out_1_0; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_address; // @[HasTiles.scala:163:38] wire [7:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_mask; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_address; // @[HasTiles.scala:163:38] wire [7:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_mask; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_address; // @[HasTiles.scala:163:38] wire [7:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_mask; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_address; // @[HasTiles.scala:163:38] wire [7:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_mask; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_address; // @[HasTiles.scala:163:38] wire [7:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_mask; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_address; // @[HasTiles.scala:163:38] wire [7:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_mask; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_address; // @[HasTiles.scala:163:38] wire [7:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_mask; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_address; // @[HasTiles.scala:163:38] wire [7:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_mask; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_data; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_a_widx; // @[HasTiles.scala:163:38] wire _tile_prci_domain_auto_tl_master_clock_xing_out_a_safe_widx_valid; // @[HasTiles.scala:163:38] wire _tile_prci_domain_auto_tl_master_clock_xing_out_a_safe_source_reset_n; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_b_ridx; // @[HasTiles.scala:163:38] wire _tile_prci_domain_auto_tl_master_clock_xing_out_b_safe_ridx_valid; // @[HasTiles.scala:163:38] wire _tile_prci_domain_auto_tl_master_clock_xing_out_b_safe_sink_reset_n; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_address; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_address; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_address; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_address; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_address; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_address; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_address; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_data; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_opcode; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_param; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_size; // @[HasTiles.scala:163:38] wire [1:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_source; // @[HasTiles.scala:163:38] wire [31:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_address; // @[HasTiles.scala:163:38] wire [63:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_data; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_c_widx; // @[HasTiles.scala:163:38] wire _tile_prci_domain_auto_tl_master_clock_xing_out_c_safe_widx_valid; // @[HasTiles.scala:163:38] wire _tile_prci_domain_auto_tl_master_clock_xing_out_c_safe_source_reset_n; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_d_ridx; // @[HasTiles.scala:163:38] wire _tile_prci_domain_auto_tl_master_clock_xing_out_d_safe_ridx_valid; // @[HasTiles.scala:163:38] wire _tile_prci_domain_auto_tl_master_clock_xing_out_d_safe_sink_reset_n; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_0_sink; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_1_sink; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_2_sink; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_3_sink; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_4_sink; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_5_sink; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_6_sink; // @[HasTiles.scala:163:38] wire [2:0] _tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_7_sink; // @[HasTiles.scala:163:38] wire [3:0] _tile_prci_domain_auto_tl_master_clock_xing_out_e_widx; // @[HasTiles.scala:163:38] wire _tile_prci_domain_auto_tl_master_clock_xing_out_e_safe_widx_valid; // @[HasTiles.scala:163:38] wire _tile_prci_domain_auto_tl_master_clock_xing_out_e_safe_source_reset_n; // @[HasTiles.scala:163:38] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_opcode; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_param; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_size; // @[BankedCoherenceParams.scala:56:31] wire [3:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_source; // @[BankedCoherenceParams.scala:56:31] wire [31:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_address; // @[BankedCoherenceParams.scala:56:31] wire [7:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_mask; // @[BankedCoherenceParams.scala:56:31] wire [63:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_data; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_corrupt; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_opcode; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_param; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_size; // @[BankedCoherenceParams.scala:56:31] wire [3:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_source; // @[BankedCoherenceParams.scala:56:31] wire [31:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_address; // @[BankedCoherenceParams.scala:56:31] wire [7:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_mask; // @[BankedCoherenceParams.scala:56:31] wire [63:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_data; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_corrupt; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_opcode; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_param; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_size; // @[BankedCoherenceParams.scala:56:31] wire [3:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_source; // @[BankedCoherenceParams.scala:56:31] wire [31:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_address; // @[BankedCoherenceParams.scala:56:31] wire [7:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_mask; // @[BankedCoherenceParams.scala:56:31] wire [63:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_data; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_corrupt; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_opcode; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_param; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_size; // @[BankedCoherenceParams.scala:56:31] wire [3:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_source; // @[BankedCoherenceParams.scala:56:31] wire [31:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_address; // @[BankedCoherenceParams.scala:56:31] wire [7:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_mask; // @[BankedCoherenceParams.scala:56:31] wire [63:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_data; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_corrupt; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_opcode; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_param; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_size; // @[BankedCoherenceParams.scala:56:31] wire [3:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_source; // @[BankedCoherenceParams.scala:56:31] wire [31:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_address; // @[BankedCoherenceParams.scala:56:31] wire [7:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_mask; // @[BankedCoherenceParams.scala:56:31] wire [63:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_data; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_corrupt; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_opcode; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_param; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_size; // @[BankedCoherenceParams.scala:56:31] wire [3:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_source; // @[BankedCoherenceParams.scala:56:31] wire [31:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_address; // @[BankedCoherenceParams.scala:56:31] wire [7:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_mask; // @[BankedCoherenceParams.scala:56:31] wire [63:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_data; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_corrupt; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_opcode; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_param; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_size; // @[BankedCoherenceParams.scala:56:31] wire [3:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_source; // @[BankedCoherenceParams.scala:56:31] wire [31:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_address; // @[BankedCoherenceParams.scala:56:31] wire [7:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_mask; // @[BankedCoherenceParams.scala:56:31] wire [63:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_data; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_corrupt; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_opcode; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_param; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_size; // @[BankedCoherenceParams.scala:56:31] wire [3:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_source; // @[BankedCoherenceParams.scala:56:31] wire [31:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_address; // @[BankedCoherenceParams.scala:56:31] wire [7:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_mask; // @[BankedCoherenceParams.scala:56:31] wire [63:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_data; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_corrupt; // @[BankedCoherenceParams.scala:56:31] wire [3:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_widx; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_safe_widx_valid; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_safe_source_reset_n; // @[BankedCoherenceParams.scala:56:31] wire [3:0] _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_d_ridx; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_d_safe_ridx_valid; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_d_safe_sink_reset_n; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coherent_jbar_anon_in_a_ready; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coherent_jbar_anon_in_b_valid; // @[BankedCoherenceParams.scala:56:31] wire [1:0] _coh_wrapper_auto_coherent_jbar_anon_in_b_bits_param; // @[BankedCoherenceParams.scala:56:31] wire [31:0] _coh_wrapper_auto_coherent_jbar_anon_in_b_bits_address; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coherent_jbar_anon_in_c_ready; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coherent_jbar_anon_in_d_valid; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coherent_jbar_anon_in_d_bits_opcode; // @[BankedCoherenceParams.scala:56:31] wire [1:0] _coh_wrapper_auto_coherent_jbar_anon_in_d_bits_param; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coherent_jbar_anon_in_d_bits_size; // @[BankedCoherenceParams.scala:56:31] wire [5:0] _coh_wrapper_auto_coherent_jbar_anon_in_d_bits_source; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_coherent_jbar_anon_in_d_bits_sink; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coherent_jbar_anon_in_d_bits_denied; // @[BankedCoherenceParams.scala:56:31] wire [63:0] _coh_wrapper_auto_coherent_jbar_anon_in_d_bits_data; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_coherent_jbar_anon_in_d_bits_corrupt; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_l2_ctrls_ctrl_in_a_ready; // @[BankedCoherenceParams.scala:56:31] wire _coh_wrapper_auto_l2_ctrls_ctrl_in_d_valid; // @[BankedCoherenceParams.scala:56:31] wire [2:0] _coh_wrapper_auto_l2_ctrls_ctrl_in_d_bits_opcode; // @[BankedCoherenceParams.scala:56:31] wire [1:0] _coh_wrapper_auto_l2_ctrls_ctrl_in_d_bits_size; // @[BankedCoherenceParams.scala:56:31] wire [10:0] _coh_wrapper_auto_l2_ctrls_ctrl_in_d_bits_source; // @[BankedCoherenceParams.scala:56:31] wire [63:0] _coh_wrapper_auto_l2_ctrls_ctrl_in_d_bits_data; // @[BankedCoherenceParams.scala:56:31] wire _mbus_auto_buffer_out_a_valid; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_buffer_out_a_bits_opcode; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_buffer_out_a_bits_param; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_buffer_out_a_bits_size; // @[MemoryBus.scala:30:26] wire [3:0] _mbus_auto_buffer_out_a_bits_source; // @[MemoryBus.scala:30:26] wire [27:0] _mbus_auto_buffer_out_a_bits_address; // @[MemoryBus.scala:30:26] wire [7:0] _mbus_auto_buffer_out_a_bits_mask; // @[MemoryBus.scala:30:26] wire [63:0] _mbus_auto_buffer_out_a_bits_data; // @[MemoryBus.scala:30:26] wire _mbus_auto_buffer_out_a_bits_corrupt; // @[MemoryBus.scala:30:26] wire _mbus_auto_buffer_out_d_ready; // @[MemoryBus.scala:30:26] wire _mbus_auto_fixedClockNode_anon_out_0_clock; // @[MemoryBus.scala:30:26] wire _mbus_auto_fixedClockNode_anon_out_0_reset; // @[MemoryBus.scala:30:26] wire [3:0] _mbus_auto_bus_xing_in_a_ridx; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_a_safe_ridx_valid; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_a_safe_sink_reset_n; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_0_opcode; // @[MemoryBus.scala:30:26] wire [1:0] _mbus_auto_bus_xing_in_d_mem_0_param; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_0_size; // @[MemoryBus.scala:30:26] wire [3:0] _mbus_auto_bus_xing_in_d_mem_0_source; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_0_sink; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_0_denied; // @[MemoryBus.scala:30:26] wire [63:0] _mbus_auto_bus_xing_in_d_mem_0_data; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_0_corrupt; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_1_opcode; // @[MemoryBus.scala:30:26] wire [1:0] _mbus_auto_bus_xing_in_d_mem_1_param; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_1_size; // @[MemoryBus.scala:30:26] wire [3:0] _mbus_auto_bus_xing_in_d_mem_1_source; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_1_sink; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_1_denied; // @[MemoryBus.scala:30:26] wire [63:0] _mbus_auto_bus_xing_in_d_mem_1_data; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_1_corrupt; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_2_opcode; // @[MemoryBus.scala:30:26] wire [1:0] _mbus_auto_bus_xing_in_d_mem_2_param; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_2_size; // @[MemoryBus.scala:30:26] wire [3:0] _mbus_auto_bus_xing_in_d_mem_2_source; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_2_sink; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_2_denied; // @[MemoryBus.scala:30:26] wire [63:0] _mbus_auto_bus_xing_in_d_mem_2_data; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_2_corrupt; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_3_opcode; // @[MemoryBus.scala:30:26] wire [1:0] _mbus_auto_bus_xing_in_d_mem_3_param; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_3_size; // @[MemoryBus.scala:30:26] wire [3:0] _mbus_auto_bus_xing_in_d_mem_3_source; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_3_sink; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_3_denied; // @[MemoryBus.scala:30:26] wire [63:0] _mbus_auto_bus_xing_in_d_mem_3_data; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_3_corrupt; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_4_opcode; // @[MemoryBus.scala:30:26] wire [1:0] _mbus_auto_bus_xing_in_d_mem_4_param; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_4_size; // @[MemoryBus.scala:30:26] wire [3:0] _mbus_auto_bus_xing_in_d_mem_4_source; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_4_sink; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_4_denied; // @[MemoryBus.scala:30:26] wire [63:0] _mbus_auto_bus_xing_in_d_mem_4_data; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_4_corrupt; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_5_opcode; // @[MemoryBus.scala:30:26] wire [1:0] _mbus_auto_bus_xing_in_d_mem_5_param; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_5_size; // @[MemoryBus.scala:30:26] wire [3:0] _mbus_auto_bus_xing_in_d_mem_5_source; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_5_sink; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_5_denied; // @[MemoryBus.scala:30:26] wire [63:0] _mbus_auto_bus_xing_in_d_mem_5_data; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_5_corrupt; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_6_opcode; // @[MemoryBus.scala:30:26] wire [1:0] _mbus_auto_bus_xing_in_d_mem_6_param; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_6_size; // @[MemoryBus.scala:30:26] wire [3:0] _mbus_auto_bus_xing_in_d_mem_6_source; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_6_sink; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_6_denied; // @[MemoryBus.scala:30:26] wire [63:0] _mbus_auto_bus_xing_in_d_mem_6_data; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_6_corrupt; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_7_opcode; // @[MemoryBus.scala:30:26] wire [1:0] _mbus_auto_bus_xing_in_d_mem_7_param; // @[MemoryBus.scala:30:26] wire [2:0] _mbus_auto_bus_xing_in_d_mem_7_size; // @[MemoryBus.scala:30:26] wire [3:0] _mbus_auto_bus_xing_in_d_mem_7_source; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_7_sink; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_7_denied; // @[MemoryBus.scala:30:26] wire [63:0] _mbus_auto_bus_xing_in_d_mem_7_data; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_mem_7_corrupt; // @[MemoryBus.scala:30:26] wire [3:0] _mbus_auto_bus_xing_in_d_widx; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_safe_widx_valid; // @[MemoryBus.scala:30:26] wire _mbus_auto_bus_xing_in_d_safe_source_reset_n; // @[MemoryBus.scala:30:26] wire _cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_valid; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_param; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_size; // @[PeripheryBus.scala:37:26] wire [6:0] _cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_source; // @[PeripheryBus.scala:37:26] wire [20:0] _cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_corrupt; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_d_ready; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_valid; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_param; // @[PeripheryBus.scala:37:26] wire [1:0] _cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_size; // @[PeripheryBus.scala:37:26] wire [10:0] _cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_source; // @[PeripheryBus.scala:37:26] wire [16:0] _cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_corrupt; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bootrom_fragmenter_anon_out_d_ready; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_debug_fragmenter_anon_out_a_valid; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_param; // @[PeripheryBus.scala:37:26] wire [1:0] _cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_size; // @[PeripheryBus.scala:37:26] wire [10:0] _cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_source; // @[PeripheryBus.scala:37:26] wire [11:0] _cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_corrupt; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_debug_fragmenter_anon_out_d_ready; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_plic_fragmenter_anon_out_a_valid; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_param; // @[PeripheryBus.scala:37:26] wire [1:0] _cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_size; // @[PeripheryBus.scala:37:26] wire [10:0] _cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_source; // @[PeripheryBus.scala:37:26] wire [27:0] _cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_corrupt; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_plic_fragmenter_anon_out_d_ready; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_clint_fragmenter_anon_out_a_valid; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_param; // @[PeripheryBus.scala:37:26] wire [1:0] _cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_size; // @[PeripheryBus.scala:37:26] wire [10:0] _cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_source; // @[PeripheryBus.scala:37:26] wire [25:0] _cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_corrupt; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_clint_fragmenter_anon_out_d_ready; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_param; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_size; // @[PeripheryBus.scala:37:26] wire [6:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_source; // @[PeripheryBus.scala:37:26] wire [28:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_param; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_size; // @[PeripheryBus.scala:37:26] wire [6:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_source; // @[PeripheryBus.scala:37:26] wire [28:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_param; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_size; // @[PeripheryBus.scala:37:26] wire [6:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_source; // @[PeripheryBus.scala:37:26] wire [28:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_param; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_size; // @[PeripheryBus.scala:37:26] wire [6:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_source; // @[PeripheryBus.scala:37:26] wire [28:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_param; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_size; // @[PeripheryBus.scala:37:26] wire [6:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_source; // @[PeripheryBus.scala:37:26] wire [28:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_param; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_size; // @[PeripheryBus.scala:37:26] wire [6:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_source; // @[PeripheryBus.scala:37:26] wire [28:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_param; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_size; // @[PeripheryBus.scala:37:26] wire [6:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_source; // @[PeripheryBus.scala:37:26] wire [28:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_param; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_size; // @[PeripheryBus.scala:37:26] wire [6:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_source; // @[PeripheryBus.scala:37:26] wire [28:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_corrupt; // @[PeripheryBus.scala:37:26] wire [3:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_widx; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_safe_widx_valid; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_safe_source_reset_n; // @[PeripheryBus.scala:37:26] wire [3:0] _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_d_ridx; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_d_safe_ridx_valid; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_d_safe_sink_reset_n; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_l2_ctrl_buffer_out_a_valid; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_param; // @[PeripheryBus.scala:37:26] wire [1:0] _cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_size; // @[PeripheryBus.scala:37:26] wire [10:0] _cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_source; // @[PeripheryBus.scala:37:26] wire [25:0] _cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_address; // @[PeripheryBus.scala:37:26] wire [7:0] _cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_corrupt; // @[PeripheryBus.scala:37:26] wire _cbus_auto_coupler_to_l2_ctrl_buffer_out_d_ready; // @[PeripheryBus.scala:37:26] wire _cbus_auto_fixedClockNode_anon_out_4_clock; // @[PeripheryBus.scala:37:26] wire _cbus_auto_fixedClockNode_anon_out_4_reset; // @[PeripheryBus.scala:37:26] wire _cbus_auto_fixedClockNode_anon_out_3_clock; // @[PeripheryBus.scala:37:26] wire _cbus_auto_fixedClockNode_anon_out_3_reset; // @[PeripheryBus.scala:37:26] wire _cbus_auto_fixedClockNode_anon_out_1_clock; // @[PeripheryBus.scala:37:26] wire _cbus_auto_fixedClockNode_anon_out_1_reset; // @[PeripheryBus.scala:37:26] wire _cbus_auto_fixedClockNode_anon_out_0_clock; // @[PeripheryBus.scala:37:26] wire _cbus_auto_fixedClockNode_anon_out_0_reset; // @[PeripheryBus.scala:37:26] wire _cbus_auto_bus_xing_in_a_ready; // @[PeripheryBus.scala:37:26] wire _cbus_auto_bus_xing_in_d_valid; // @[PeripheryBus.scala:37:26] wire [2:0] _cbus_auto_bus_xing_in_d_bits_opcode; // @[PeripheryBus.scala:37:26] wire [1:0] _cbus_auto_bus_xing_in_d_bits_param; // @[PeripheryBus.scala:37:26] wire [3:0] _cbus_auto_bus_xing_in_d_bits_size; // @[PeripheryBus.scala:37:26] wire [5:0] _cbus_auto_bus_xing_in_d_bits_source; // @[PeripheryBus.scala:37:26] wire _cbus_auto_bus_xing_in_d_bits_sink; // @[PeripheryBus.scala:37:26] wire _cbus_auto_bus_xing_in_d_bits_denied; // @[PeripheryBus.scala:37:26] wire [63:0] _cbus_auto_bus_xing_in_d_bits_data; // @[PeripheryBus.scala:37:26] wire _cbus_auto_bus_xing_in_d_bits_corrupt; // @[PeripheryBus.scala:37:26] wire _fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_a_ready; // @[FrontBus.scala:23:26] wire _fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_valid; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_opcode; // @[FrontBus.scala:23:26] wire [1:0] _fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_param; // @[FrontBus.scala:23:26] wire [3:0] _fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_size; // @[FrontBus.scala:23:26] wire [3:0] _fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_source; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_sink; // @[FrontBus.scala:23:26] wire _fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_denied; // @[FrontBus.scala:23:26] wire [63:0] _fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_data; // @[FrontBus.scala:23:26] wire _fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_corrupt; // @[FrontBus.scala:23:26] wire _fbus_auto_coupler_from_debug_sb_widget_anon_in_a_ready; // @[FrontBus.scala:23:26] wire _fbus_auto_coupler_from_debug_sb_widget_anon_in_d_valid; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_opcode; // @[FrontBus.scala:23:26] wire [1:0] _fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_param; // @[FrontBus.scala:23:26] wire [3:0] _fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_size; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_sink; // @[FrontBus.scala:23:26] wire _fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_denied; // @[FrontBus.scala:23:26] wire [7:0] _fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_data; // @[FrontBus.scala:23:26] wire _fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_corrupt; // @[FrontBus.scala:23:26] wire _fbus_auto_fixedClockNode_anon_out_clock; // @[FrontBus.scala:23:26] wire _fbus_auto_fixedClockNode_anon_out_reset; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_0_opcode; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_0_param; // @[FrontBus.scala:23:26] wire [3:0] _fbus_auto_bus_xing_out_a_mem_0_size; // @[FrontBus.scala:23:26] wire [4:0] _fbus_auto_bus_xing_out_a_mem_0_source; // @[FrontBus.scala:23:26] wire [31:0] _fbus_auto_bus_xing_out_a_mem_0_address; // @[FrontBus.scala:23:26] wire [7:0] _fbus_auto_bus_xing_out_a_mem_0_mask; // @[FrontBus.scala:23:26] wire [63:0] _fbus_auto_bus_xing_out_a_mem_0_data; // @[FrontBus.scala:23:26] wire _fbus_auto_bus_xing_out_a_mem_0_corrupt; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_1_opcode; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_1_param; // @[FrontBus.scala:23:26] wire [3:0] _fbus_auto_bus_xing_out_a_mem_1_size; // @[FrontBus.scala:23:26] wire [4:0] _fbus_auto_bus_xing_out_a_mem_1_source; // @[FrontBus.scala:23:26] wire [31:0] _fbus_auto_bus_xing_out_a_mem_1_address; // @[FrontBus.scala:23:26] wire [7:0] _fbus_auto_bus_xing_out_a_mem_1_mask; // @[FrontBus.scala:23:26] wire [63:0] _fbus_auto_bus_xing_out_a_mem_1_data; // @[FrontBus.scala:23:26] wire _fbus_auto_bus_xing_out_a_mem_1_corrupt; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_2_opcode; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_2_param; // @[FrontBus.scala:23:26] wire [3:0] _fbus_auto_bus_xing_out_a_mem_2_size; // @[FrontBus.scala:23:26] wire [4:0] _fbus_auto_bus_xing_out_a_mem_2_source; // @[FrontBus.scala:23:26] wire [31:0] _fbus_auto_bus_xing_out_a_mem_2_address; // @[FrontBus.scala:23:26] wire [7:0] _fbus_auto_bus_xing_out_a_mem_2_mask; // @[FrontBus.scala:23:26] wire [63:0] _fbus_auto_bus_xing_out_a_mem_2_data; // @[FrontBus.scala:23:26] wire _fbus_auto_bus_xing_out_a_mem_2_corrupt; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_3_opcode; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_3_param; // @[FrontBus.scala:23:26] wire [3:0] _fbus_auto_bus_xing_out_a_mem_3_size; // @[FrontBus.scala:23:26] wire [4:0] _fbus_auto_bus_xing_out_a_mem_3_source; // @[FrontBus.scala:23:26] wire [31:0] _fbus_auto_bus_xing_out_a_mem_3_address; // @[FrontBus.scala:23:26] wire [7:0] _fbus_auto_bus_xing_out_a_mem_3_mask; // @[FrontBus.scala:23:26] wire [63:0] _fbus_auto_bus_xing_out_a_mem_3_data; // @[FrontBus.scala:23:26] wire _fbus_auto_bus_xing_out_a_mem_3_corrupt; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_4_opcode; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_4_param; // @[FrontBus.scala:23:26] wire [3:0] _fbus_auto_bus_xing_out_a_mem_4_size; // @[FrontBus.scala:23:26] wire [4:0] _fbus_auto_bus_xing_out_a_mem_4_source; // @[FrontBus.scala:23:26] wire [31:0] _fbus_auto_bus_xing_out_a_mem_4_address; // @[FrontBus.scala:23:26] wire [7:0] _fbus_auto_bus_xing_out_a_mem_4_mask; // @[FrontBus.scala:23:26] wire [63:0] _fbus_auto_bus_xing_out_a_mem_4_data; // @[FrontBus.scala:23:26] wire _fbus_auto_bus_xing_out_a_mem_4_corrupt; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_5_opcode; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_5_param; // @[FrontBus.scala:23:26] wire [3:0] _fbus_auto_bus_xing_out_a_mem_5_size; // @[FrontBus.scala:23:26] wire [4:0] _fbus_auto_bus_xing_out_a_mem_5_source; // @[FrontBus.scala:23:26] wire [31:0] _fbus_auto_bus_xing_out_a_mem_5_address; // @[FrontBus.scala:23:26] wire [7:0] _fbus_auto_bus_xing_out_a_mem_5_mask; // @[FrontBus.scala:23:26] wire [63:0] _fbus_auto_bus_xing_out_a_mem_5_data; // @[FrontBus.scala:23:26] wire _fbus_auto_bus_xing_out_a_mem_5_corrupt; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_6_opcode; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_6_param; // @[FrontBus.scala:23:26] wire [3:0] _fbus_auto_bus_xing_out_a_mem_6_size; // @[FrontBus.scala:23:26] wire [4:0] _fbus_auto_bus_xing_out_a_mem_6_source; // @[FrontBus.scala:23:26] wire [31:0] _fbus_auto_bus_xing_out_a_mem_6_address; // @[FrontBus.scala:23:26] wire [7:0] _fbus_auto_bus_xing_out_a_mem_6_mask; // @[FrontBus.scala:23:26] wire [63:0] _fbus_auto_bus_xing_out_a_mem_6_data; // @[FrontBus.scala:23:26] wire _fbus_auto_bus_xing_out_a_mem_6_corrupt; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_7_opcode; // @[FrontBus.scala:23:26] wire [2:0] _fbus_auto_bus_xing_out_a_mem_7_param; // @[FrontBus.scala:23:26] wire [3:0] _fbus_auto_bus_xing_out_a_mem_7_size; // @[FrontBus.scala:23:26] wire [4:0] _fbus_auto_bus_xing_out_a_mem_7_source; // @[FrontBus.scala:23:26] wire [31:0] _fbus_auto_bus_xing_out_a_mem_7_address; // @[FrontBus.scala:23:26] wire [7:0] _fbus_auto_bus_xing_out_a_mem_7_mask; // @[FrontBus.scala:23:26] wire [63:0] _fbus_auto_bus_xing_out_a_mem_7_data; // @[FrontBus.scala:23:26] wire _fbus_auto_bus_xing_out_a_mem_7_corrupt; // @[FrontBus.scala:23:26] wire [3:0] _fbus_auto_bus_xing_out_a_widx; // @[FrontBus.scala:23:26] wire _fbus_auto_bus_xing_out_a_safe_widx_valid; // @[FrontBus.scala:23:26] wire _fbus_auto_bus_xing_out_a_safe_source_reset_n; // @[FrontBus.scala:23:26] wire [3:0] _fbus_auto_bus_xing_out_d_ridx; // @[FrontBus.scala:23:26] wire _fbus_auto_bus_xing_out_d_safe_ridx_valid; // @[FrontBus.scala:23:26] wire _fbus_auto_bus_xing_out_d_safe_sink_reset_n; // @[FrontBus.scala:23:26] wire _pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_valid; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_opcode; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_param; // @[PeripheryBus.scala:37:26] wire [1:0] _pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_size; // @[PeripheryBus.scala:37:26] wire [10:0] _pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_source; // @[PeripheryBus.scala:37:26] wire [28:0] _pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_address; // @[PeripheryBus.scala:37:26] wire [7:0] _pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_mask; // @[PeripheryBus.scala:37:26] wire [63:0] _pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_data; // @[PeripheryBus.scala:37:26] wire _pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_corrupt; // @[PeripheryBus.scala:37:26] wire _pbus_auto_coupler_to_device_named_uart_0_control_xing_out_d_ready; // @[PeripheryBus.scala:37:26] wire _pbus_auto_fixedClockNode_anon_out_clock; // @[PeripheryBus.scala:37:26] wire _pbus_auto_fixedClockNode_anon_out_reset; // @[PeripheryBus.scala:37:26] wire [3:0] _pbus_auto_bus_xing_in_a_ridx; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_a_safe_ridx_valid; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_a_safe_sink_reset_n; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_0_opcode; // @[PeripheryBus.scala:37:26] wire [1:0] _pbus_auto_bus_xing_in_d_mem_0_param; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_0_size; // @[PeripheryBus.scala:37:26] wire [6:0] _pbus_auto_bus_xing_in_d_mem_0_source; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_0_sink; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_0_denied; // @[PeripheryBus.scala:37:26] wire [63:0] _pbus_auto_bus_xing_in_d_mem_0_data; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_0_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_1_opcode; // @[PeripheryBus.scala:37:26] wire [1:0] _pbus_auto_bus_xing_in_d_mem_1_param; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_1_size; // @[PeripheryBus.scala:37:26] wire [6:0] _pbus_auto_bus_xing_in_d_mem_1_source; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_1_sink; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_1_denied; // @[PeripheryBus.scala:37:26] wire [63:0] _pbus_auto_bus_xing_in_d_mem_1_data; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_1_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_2_opcode; // @[PeripheryBus.scala:37:26] wire [1:0] _pbus_auto_bus_xing_in_d_mem_2_param; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_2_size; // @[PeripheryBus.scala:37:26] wire [6:0] _pbus_auto_bus_xing_in_d_mem_2_source; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_2_sink; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_2_denied; // @[PeripheryBus.scala:37:26] wire [63:0] _pbus_auto_bus_xing_in_d_mem_2_data; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_2_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_3_opcode; // @[PeripheryBus.scala:37:26] wire [1:0] _pbus_auto_bus_xing_in_d_mem_3_param; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_3_size; // @[PeripheryBus.scala:37:26] wire [6:0] _pbus_auto_bus_xing_in_d_mem_3_source; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_3_sink; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_3_denied; // @[PeripheryBus.scala:37:26] wire [63:0] _pbus_auto_bus_xing_in_d_mem_3_data; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_3_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_4_opcode; // @[PeripheryBus.scala:37:26] wire [1:0] _pbus_auto_bus_xing_in_d_mem_4_param; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_4_size; // @[PeripheryBus.scala:37:26] wire [6:0] _pbus_auto_bus_xing_in_d_mem_4_source; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_4_sink; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_4_denied; // @[PeripheryBus.scala:37:26] wire [63:0] _pbus_auto_bus_xing_in_d_mem_4_data; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_4_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_5_opcode; // @[PeripheryBus.scala:37:26] wire [1:0] _pbus_auto_bus_xing_in_d_mem_5_param; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_5_size; // @[PeripheryBus.scala:37:26] wire [6:0] _pbus_auto_bus_xing_in_d_mem_5_source; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_5_sink; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_5_denied; // @[PeripheryBus.scala:37:26] wire [63:0] _pbus_auto_bus_xing_in_d_mem_5_data; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_5_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_6_opcode; // @[PeripheryBus.scala:37:26] wire [1:0] _pbus_auto_bus_xing_in_d_mem_6_param; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_6_size; // @[PeripheryBus.scala:37:26] wire [6:0] _pbus_auto_bus_xing_in_d_mem_6_source; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_6_sink; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_6_denied; // @[PeripheryBus.scala:37:26] wire [63:0] _pbus_auto_bus_xing_in_d_mem_6_data; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_6_corrupt; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_7_opcode; // @[PeripheryBus.scala:37:26] wire [1:0] _pbus_auto_bus_xing_in_d_mem_7_param; // @[PeripheryBus.scala:37:26] wire [2:0] _pbus_auto_bus_xing_in_d_mem_7_size; // @[PeripheryBus.scala:37:26] wire [6:0] _pbus_auto_bus_xing_in_d_mem_7_source; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_7_sink; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_7_denied; // @[PeripheryBus.scala:37:26] wire [63:0] _pbus_auto_bus_xing_in_d_mem_7_data; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_mem_7_corrupt; // @[PeripheryBus.scala:37:26] wire [3:0] _pbus_auto_bus_xing_in_d_widx; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_safe_widx_valid; // @[PeripheryBus.scala:37:26] wire _pbus_auto_bus_xing_in_d_safe_source_reset_n; // @[PeripheryBus.scala:37:26] wire [3:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_a_ridx; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_a_safe_ridx_valid; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_a_safe_sink_reset_n; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_0_param; // @[SystemBus.scala:31:26] wire [31:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_0_address; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_1_param; // @[SystemBus.scala:31:26] wire [31:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_1_address; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_2_param; // @[SystemBus.scala:31:26] wire [31:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_2_address; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_3_param; // @[SystemBus.scala:31:26] wire [31:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_3_address; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_4_param; // @[SystemBus.scala:31:26] wire [31:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_4_address; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_5_param; // @[SystemBus.scala:31:26] wire [31:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_5_address; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_6_param; // @[SystemBus.scala:31:26] wire [31:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_6_address; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_7_param; // @[SystemBus.scala:31:26] wire [31:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_7_address; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_widx; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_safe_widx_valid; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_safe_source_reset_n; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_c_ridx; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_c_safe_ridx_valid; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_c_safe_sink_reset_n; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_size; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_size; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_size; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_size; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_size; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_size; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_size; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_size; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_corrupt; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_widx; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_safe_widx_valid; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_safe_source_reset_n; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_e_ridx; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_e_safe_ridx_valid; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_e_safe_sink_reset_n; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_valid; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_opcode; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_param; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_size; // @[SystemBus.scala:31:26] wire [5:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_source; // @[SystemBus.scala:31:26] wire [31:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_address; // @[SystemBus.scala:31:26] wire [7:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_mask; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_corrupt; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_b_ready; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_valid; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_opcode; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_param; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_size; // @[SystemBus.scala:31:26] wire [5:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_source; // @[SystemBus.scala:31:26] wire [31:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_address; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_corrupt; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_d_ready; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_e_valid; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_to_bus_named_coh_widget_anon_out_e_bits_sink; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_a_ridx; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_a_safe_ridx_valid; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_a_safe_sink_reset_n; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_size; // @[SystemBus.scala:31:26] wire [4:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_size; // @[SystemBus.scala:31:26] wire [4:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_size; // @[SystemBus.scala:31:26] wire [4:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_size; // @[SystemBus.scala:31:26] wire [4:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_size; // @[SystemBus.scala:31:26] wire [4:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_size; // @[SystemBus.scala:31:26] wire [4:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_size; // @[SystemBus.scala:31:26] wire [4:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_corrupt; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_opcode; // @[SystemBus.scala:31:26] wire [1:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_size; // @[SystemBus.scala:31:26] wire [4:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_source; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_sink; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_denied; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_corrupt; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_widx; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_safe_widx_valid; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_safe_source_reset_n; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_valid; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_opcode; // @[SystemBus.scala:31:26] wire [2:0] _sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_param; // @[SystemBus.scala:31:26] wire [3:0] _sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_size; // @[SystemBus.scala:31:26] wire [5:0] _sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_source; // @[SystemBus.scala:31:26] wire [28:0] _sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_address; // @[SystemBus.scala:31:26] wire [7:0] _sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_mask; // @[SystemBus.scala:31:26] wire [63:0] _sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_data; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_corrupt; // @[SystemBus.scala:31:26] wire _sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_d_ready; // @[SystemBus.scala:31:26] wire _sbus_auto_fixedClockNode_anon_out_1_clock; // @[SystemBus.scala:31:26] wire _sbus_auto_fixedClockNode_anon_out_1_reset; // @[SystemBus.scala:31:26] wire _sbus_auto_sbus_clock_groups_out_member_coh_0_clock; // @[SystemBus.scala:31:26] wire _sbus_auto_sbus_clock_groups_out_member_coh_0_reset; // @[SystemBus.scala:31:26] wire auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_mbus_0_clock_0 = auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_mbus_0_clock; // @[DigitalTop.scala:47:7] wire auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_mbus_0_reset_0 = auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_mbus_0_reset; // @[DigitalTop.scala:47:7] wire auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_tileClockGroup_rockettile_0_clock_0 = auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_tileClockGroup_rockettile_0_clock; // @[DigitalTop.scala:47:7] wire auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_tileClockGroup_rockettile_0_reset_0 = auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_tileClockGroup_rockettile_0_reset; // @[DigitalTop.scala:47:7] wire auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_periphery_clock_0 = auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_periphery_clock; // @[DigitalTop.scala:47:7] wire auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_periphery_reset_0 = auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_periphery_reset; // @[DigitalTop.scala:47:7] wire auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_uncore_clock_0 = auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_uncore_clock; // @[DigitalTop.scala:47:7] wire auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_uncore_reset_0 = auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_uncore_reset; // @[DigitalTop.scala:47:7] wire resetctrl_hartIsInReset_0_0 = resetctrl_hartIsInReset_0; // @[DigitalTop.scala:47:7] wire debug_clock_0 = debug_clock; // @[DigitalTop.scala:47:7] wire debug_reset_0 = debug_reset; // @[DigitalTop.scala:47:7] wire debug_systemjtag_jtag_TCK_0 = debug_systemjtag_jtag_TCK; // @[DigitalTop.scala:47:7] wire debug_systemjtag_jtag_TMS_0 = debug_systemjtag_jtag_TMS; // @[DigitalTop.scala:47:7] wire debug_systemjtag_jtag_TDI_0 = debug_systemjtag_jtag_TDI; // @[DigitalTop.scala:47:7] wire debug_systemjtag_reset_0 = debug_systemjtag_reset; // @[DigitalTop.scala:47:7] wire debug_dmactiveAck_0 = debug_dmactiveAck; // @[DigitalTop.scala:47:7] wire mem_axi4_0_aw_ready_0 = mem_axi4_0_aw_ready; // @[DigitalTop.scala:47:7] wire mem_axi4_0_w_ready_0 = mem_axi4_0_w_ready; // @[DigitalTop.scala:47:7] wire mem_axi4_0_b_valid_0 = mem_axi4_0_b_valid; // @[DigitalTop.scala:47:7] wire [3:0] mem_axi4_0_b_bits_id_0 = mem_axi4_0_b_bits_id; // @[DigitalTop.scala:47:7] wire [1:0] mem_axi4_0_b_bits_resp_0 = mem_axi4_0_b_bits_resp; // @[DigitalTop.scala:47:7] wire mem_axi4_0_ar_ready_0 = mem_axi4_0_ar_ready; // @[DigitalTop.scala:47:7] wire mem_axi4_0_r_valid_0 = mem_axi4_0_r_valid; // @[DigitalTop.scala:47:7] wire [3:0] mem_axi4_0_r_bits_id_0 = mem_axi4_0_r_bits_id; // @[DigitalTop.scala:47:7] wire [63:0] mem_axi4_0_r_bits_data_0 = mem_axi4_0_r_bits_data; // @[DigitalTop.scala:47:7] wire [1:0] mem_axi4_0_r_bits_resp_0 = mem_axi4_0_r_bits_resp; // @[DigitalTop.scala:47:7] wire mem_axi4_0_r_bits_last_0 = mem_axi4_0_r_bits_last; // @[DigitalTop.scala:47:7] wire serial_tl_0_in_valid_0 = serial_tl_0_in_valid; // @[DigitalTop.scala:47:7] wire [31:0] serial_tl_0_in_bits_phit_0 = serial_tl_0_in_bits_phit; // @[DigitalTop.scala:47:7] wire serial_tl_0_out_ready_0 = serial_tl_0_out_ready; // @[DigitalTop.scala:47:7] wire serial_tl_0_clock_in_0 = serial_tl_0_clock_in; // @[DigitalTop.scala:47:7] wire uart_0_rxd_0 = uart_0_rxd; // @[DigitalTop.scala:47:7] wire [10:0] debug_systemjtag_mfr_id = 11'h0; // @[DigitalTop.scala:47:7] wire [15:0] debug_systemjtag_part_number = 16'h0; // @[DigitalTop.scala:47:7] wire [3:0] debug_systemjtag_version = 4'h0; // @[DigitalTop.scala:47:7] wire [3:0] nexus_1_auto_in_group_0_itype = 4'h0; // @[BundleBridgeNexus.scala:20:9] wire [3:0] nexus_1_auto_in_priv = 4'h0; // @[BundleBridgeNexus.scala:20:9] wire [3:0] nexus_1_auto_out_group_0_itype = 4'h0; // @[BundleBridgeNexus.scala:20:9] wire [3:0] nexus_1_auto_out_priv = 4'h0; // @[BundleBridgeNexus.scala:20:9] wire [3:0] nexus_1_nodeIn_group_0_itype = 4'h0; // @[MixedNode.scala:551:17] wire [3:0] nexus_1_nodeIn_priv = 4'h0; // @[MixedNode.scala:551:17] wire [3:0] nexus_1_nodeOut_group_0_itype = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nexus_1_nodeOut_priv = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] traceCoreNodesIn_group_0_itype = 4'h0; // @[MixedNode.scala:551:17] wire [3:0] traceCoreNodesIn_priv = 4'h0; // @[MixedNode.scala:551:17] wire [31:0] broadcast_auto_in = 32'h10000; // @[BundleBridgeNexus.scala:20:9] wire [31:0] broadcast_auto_out = 32'h10000; // @[BundleBridgeNexus.scala:20:9] wire [31:0] broadcast_nodeIn = 32'h10000; // @[MixedNode.scala:551:17] wire [31:0] broadcast_nodeOut = 32'h10000; // @[MixedNode.scala:542:17] wire [31:0] bootROMResetVectorSourceNodeOut = 32'h10000; // @[MixedNode.scala:542:17] wire [31:0] nexus_1_auto_in_group_0_iaddr = 32'h0; // @[BundleBridgeNexus.scala:20:9] wire [31:0] nexus_1_auto_in_tval = 32'h0; // @[BundleBridgeNexus.scala:20:9] wire [31:0] nexus_1_auto_in_cause = 32'h0; // @[BundleBridgeNexus.scala:20:9] wire [31:0] nexus_1_auto_out_group_0_iaddr = 32'h0; // @[BundleBridgeNexus.scala:20:9] wire [31:0] nexus_1_auto_out_tval = 32'h0; // @[BundleBridgeNexus.scala:20:9] wire [31:0] nexus_1_auto_out_cause = 32'h0; // @[BundleBridgeNexus.scala:20:9] wire [31:0] nexus_1_nodeIn_group_0_iaddr = 32'h0; // @[MixedNode.scala:551:17] wire [31:0] nexus_1_nodeIn_tval = 32'h0; // @[MixedNode.scala:551:17] wire [31:0] nexus_1_nodeIn_cause = 32'h0; // @[MixedNode.scala:551:17] wire [31:0] nexus_1_nodeOut_group_0_iaddr = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nexus_1_nodeOut_tval = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nexus_1_nodeOut_cause = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] traceCoreNodesIn_group_0_iaddr = 32'h0; // @[MixedNode.scala:551:17] wire [31:0] traceCoreNodesIn_tval = 32'h0; // @[MixedNode.scala:551:17] wire [31:0] traceCoreNodesIn_cause = 32'h0; // @[MixedNode.scala:551:17] wire childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire _childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire ibus__childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire broadcast_childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire broadcast_childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire broadcast__childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire tileClockGroup_childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire tileClockGroup_childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire tileClockGroup__childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire nexus_childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire nexus_childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire nexus__childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire nexus_1_auto_in_group_0_iretire = 1'h0; // @[BundleBridgeNexus.scala:20:9] wire nexus_1_auto_in_group_0_ilastsize = 1'h0; // @[BundleBridgeNexus.scala:20:9] wire nexus_1_auto_out_group_0_iretire = 1'h0; // @[BundleBridgeNexus.scala:20:9] wire nexus_1_auto_out_group_0_ilastsize = 1'h0; // @[BundleBridgeNexus.scala:20:9] wire nexus_1_childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire nexus_1_childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire nexus_1__childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire nexus_1_nodeIn_group_0_iretire = 1'h0; // @[MixedNode.scala:551:17] wire nexus_1_nodeIn_group_0_ilastsize = 1'h0; // @[MixedNode.scala:551:17] wire nexus_1_nodeOut_group_0_iretire = 1'h0; // @[MixedNode.scala:542:17] wire nexus_1_nodeOut_group_0_ilastsize = 1'h0; // @[MixedNode.scala:542:17] wire clockNamePrefixer_childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire clockNamePrefixer_childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire clockNamePrefixer__childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire frequencySpecifier_childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire frequencySpecifier_childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire frequencySpecifier__childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire clockTapNode_childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire clockTapNode_childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire clockTapNode__childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire tileHaltSinkNodeIn_0 = 1'h0; // @[MixedNode.scala:551:17] wire tileCeaseSinkNodeIn_0 = 1'h0; // @[MixedNode.scala:551:17] wire traceCoreNodesIn_group_0_iretire = 1'h0; // @[MixedNode.scala:551:17] wire traceCoreNodesIn_group_0_ilastsize = 1'h0; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_aw_ready = mem_axi4_0_aw_ready_0; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_aw_valid; // @[MixedNode.scala:551:17] wire [3:0] memAXI4NodeIn_aw_bits_id; // @[MixedNode.scala:551:17] wire [31:0] memAXI4NodeIn_aw_bits_addr; // @[MixedNode.scala:551:17] wire [7:0] memAXI4NodeIn_aw_bits_len; // @[MixedNode.scala:551:17] wire [2:0] memAXI4NodeIn_aw_bits_size; // @[MixedNode.scala:551:17] wire [1:0] memAXI4NodeIn_aw_bits_burst; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_aw_bits_lock; // @[MixedNode.scala:551:17] wire [3:0] memAXI4NodeIn_aw_bits_cache; // @[MixedNode.scala:551:17] wire [2:0] memAXI4NodeIn_aw_bits_prot; // @[MixedNode.scala:551:17] wire [3:0] memAXI4NodeIn_aw_bits_qos; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_w_ready = mem_axi4_0_w_ready_0; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_w_valid; // @[MixedNode.scala:551:17] wire [63:0] memAXI4NodeIn_w_bits_data; // @[MixedNode.scala:551:17] wire [7:0] memAXI4NodeIn_w_bits_strb; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_w_bits_last; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_b_ready; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_b_valid = mem_axi4_0_b_valid_0; // @[MixedNode.scala:551:17] wire [3:0] memAXI4NodeIn_b_bits_id = mem_axi4_0_b_bits_id_0; // @[MixedNode.scala:551:17] wire [1:0] memAXI4NodeIn_b_bits_resp = mem_axi4_0_b_bits_resp_0; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_ar_ready = mem_axi4_0_ar_ready_0; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_ar_valid; // @[MixedNode.scala:551:17] wire [3:0] memAXI4NodeIn_ar_bits_id; // @[MixedNode.scala:551:17] wire [31:0] memAXI4NodeIn_ar_bits_addr; // @[MixedNode.scala:551:17] wire [7:0] memAXI4NodeIn_ar_bits_len; // @[MixedNode.scala:551:17] wire [2:0] memAXI4NodeIn_ar_bits_size; // @[MixedNode.scala:551:17] wire [1:0] memAXI4NodeIn_ar_bits_burst; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_ar_bits_lock; // @[MixedNode.scala:551:17] wire [3:0] memAXI4NodeIn_ar_bits_cache; // @[MixedNode.scala:551:17] wire [2:0] memAXI4NodeIn_ar_bits_prot; // @[MixedNode.scala:551:17] wire [3:0] memAXI4NodeIn_ar_bits_qos; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_r_ready; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_r_valid = mem_axi4_0_r_valid_0; // @[MixedNode.scala:551:17] wire [3:0] memAXI4NodeIn_r_bits_id = mem_axi4_0_r_bits_id_0; // @[MixedNode.scala:551:17] wire [63:0] memAXI4NodeIn_r_bits_data = mem_axi4_0_r_bits_data_0; // @[MixedNode.scala:551:17] wire [1:0] memAXI4NodeIn_r_bits_resp = mem_axi4_0_r_bits_resp_0; // @[MixedNode.scala:551:17] wire memAXI4NodeIn_r_bits_last = mem_axi4_0_r_bits_last_0; // @[MixedNode.scala:551:17] wire ioNodeIn_txd; // @[MixedNode.scala:551:17] wire ioNodeIn_rxd = uart_0_rxd_0; // @[MixedNode.scala:551:17] wire auto_mbus_fixedClockNode_anon_out_clock_0; // @[DigitalTop.scala:47:7] wire auto_mbus_fixedClockNode_anon_out_reset_0; // @[DigitalTop.scala:47:7] wire auto_cbus_fixedClockNode_anon_out_clock_0; // @[DigitalTop.scala:47:7] wire auto_cbus_fixedClockNode_anon_out_reset_0; // @[DigitalTop.scala:47:7] wire debug_systemjtag_jtag_TDO_data_0; // @[DigitalTop.scala:47:7] wire debug_systemjtag_jtag_TDO_driven; // @[DigitalTop.scala:47:7] wire debug_ndreset; // @[DigitalTop.scala:47:7] wire debug_dmactive_0; // @[DigitalTop.scala:47:7] wire [3:0] mem_axi4_0_aw_bits_id_0; // @[DigitalTop.scala:47:7] wire [31:0] mem_axi4_0_aw_bits_addr_0; // @[DigitalTop.scala:47:7] wire [7:0] mem_axi4_0_aw_bits_len_0; // @[DigitalTop.scala:47:7] wire [2:0] mem_axi4_0_aw_bits_size_0; // @[DigitalTop.scala:47:7] wire [1:0] mem_axi4_0_aw_bits_burst_0; // @[DigitalTop.scala:47:7] wire mem_axi4_0_aw_bits_lock_0; // @[DigitalTop.scala:47:7] wire [3:0] mem_axi4_0_aw_bits_cache_0; // @[DigitalTop.scala:47:7] wire [2:0] mem_axi4_0_aw_bits_prot_0; // @[DigitalTop.scala:47:7] wire [3:0] mem_axi4_0_aw_bits_qos_0; // @[DigitalTop.scala:47:7] wire mem_axi4_0_aw_valid_0; // @[DigitalTop.scala:47:7] wire [63:0] mem_axi4_0_w_bits_data_0; // @[DigitalTop.scala:47:7] wire [7:0] mem_axi4_0_w_bits_strb_0; // @[DigitalTop.scala:47:7] wire mem_axi4_0_w_bits_last_0; // @[DigitalTop.scala:47:7] wire mem_axi4_0_w_valid_0; // @[DigitalTop.scala:47:7] wire mem_axi4_0_b_ready_0; // @[DigitalTop.scala:47:7] wire [3:0] mem_axi4_0_ar_bits_id_0; // @[DigitalTop.scala:47:7] wire [31:0] mem_axi4_0_ar_bits_addr_0; // @[DigitalTop.scala:47:7] wire [7:0] mem_axi4_0_ar_bits_len_0; // @[DigitalTop.scala:47:7] wire [2:0] mem_axi4_0_ar_bits_size_0; // @[DigitalTop.scala:47:7] wire [1:0] mem_axi4_0_ar_bits_burst_0; // @[DigitalTop.scala:47:7] wire mem_axi4_0_ar_bits_lock_0; // @[DigitalTop.scala:47:7] wire [3:0] mem_axi4_0_ar_bits_cache_0; // @[DigitalTop.scala:47:7] wire [2:0] mem_axi4_0_ar_bits_prot_0; // @[DigitalTop.scala:47:7] wire [3:0] mem_axi4_0_ar_bits_qos_0; // @[DigitalTop.scala:47:7] wire mem_axi4_0_ar_valid_0; // @[DigitalTop.scala:47:7] wire mem_axi4_0_r_ready_0; // @[DigitalTop.scala:47:7] wire serial_tl_0_in_ready_0; // @[DigitalTop.scala:47:7] wire [31:0] serial_tl_0_out_bits_phit_0; // @[DigitalTop.scala:47:7] wire serial_tl_0_out_valid_0; // @[DigitalTop.scala:47:7] wire uart_0_txd_0; // @[DigitalTop.scala:47:7] wire clockTapIn_clock; // @[MixedNode.scala:551:17] wire ibus_clockNodeIn_clock = ibus_auto_clock_in_clock; // @[ClockDomain.scala:14:9] wire ibus_auto_int_bus_anon_in_0; // @[ClockDomain.scala:14:9] wire ibus_clockNodeIn_reset = ibus_auto_clock_in_reset; // @[ClockDomain.scala:14:9] wire ibus_auto_int_bus_anon_out_0; // @[ClockDomain.scala:14:9] wire ibus_childClock; // @[LazyModuleImp.scala:155:31] wire ibus_childReset; // @[LazyModuleImp.scala:158:31] assign ibus_childClock = ibus_clockNodeIn_clock; // @[MixedNode.scala:551:17] assign ibus_childReset = ibus_clockNodeIn_reset; // @[MixedNode.scala:551:17] wire x1_allClockGroupsNodeOut_member_tileClockGroup_rockettile_0_clock; // @[MixedNode.scala:542:17] wire tileClockGroup_nodeIn_member_tileClockGroup_rockettile_0_clock = tileClockGroup_auto_in_member_tileClockGroup_rockettile_0_clock; // @[ClockGroup.scala:24:9] wire x1_allClockGroupsNodeOut_member_tileClockGroup_rockettile_0_reset; // @[MixedNode.scala:542:17] wire tileClockGroup_nodeOut_clock; // @[MixedNode.scala:542:17] wire tileClockGroup_nodeIn_member_tileClockGroup_rockettile_0_reset = tileClockGroup_auto_in_member_tileClockGroup_rockettile_0_reset; // @[ClockGroup.scala:24:9] wire tileClockGroup_nodeOut_reset; // @[MixedNode.scala:542:17] wire tileClockGroup_auto_out_clock; // @[ClockGroup.scala:24:9] wire tileClockGroup_auto_out_reset; // @[ClockGroup.scala:24:9] assign tileClockGroup_auto_out_clock = tileClockGroup_nodeOut_clock; // @[ClockGroup.scala:24:9] assign tileClockGroup_auto_out_reset = tileClockGroup_nodeOut_reset; // @[ClockGroup.scala:24:9] assign tileClockGroup_nodeOut_clock = tileClockGroup_nodeIn_member_tileClockGroup_rockettile_0_clock; // @[MixedNode.scala:542:17, :551:17] assign tileClockGroup_nodeOut_reset = tileClockGroup_nodeIn_member_tileClockGroup_rockettile_0_reset; // @[MixedNode.scala:542:17, :551:17] wire nexus_nodeIn_insns_0_valid = nexus_auto_in_insns_0_valid; // @[MixedNode.scala:551:17] wire [39:0] nexus_nodeIn_insns_0_iaddr = nexus_auto_in_insns_0_iaddr; // @[MixedNode.scala:551:17] wire [31:0] nexus_nodeIn_insns_0_insn = nexus_auto_in_insns_0_insn; // @[MixedNode.scala:551:17] wire [2:0] nexus_nodeIn_insns_0_priv = nexus_auto_in_insns_0_priv; // @[MixedNode.scala:551:17] wire nexus_nodeIn_insns_0_exception = nexus_auto_in_insns_0_exception; // @[MixedNode.scala:551:17] wire nexus_nodeIn_insns_0_interrupt = nexus_auto_in_insns_0_interrupt; // @[MixedNode.scala:551:17] wire [63:0] nexus_nodeIn_insns_0_cause = nexus_auto_in_insns_0_cause; // @[MixedNode.scala:551:17] wire [39:0] nexus_nodeIn_insns_0_tval = nexus_auto_in_insns_0_tval; // @[MixedNode.scala:551:17] wire [63:0] nexus_nodeIn_time = nexus_auto_in_time; // @[MixedNode.scala:551:17] wire nexus_nodeOut_insns_0_valid; // @[MixedNode.scala:542:17] wire [39:0] nexus_nodeOut_insns_0_iaddr; // @[MixedNode.scala:542:17] wire traceNodesIn_insns_0_valid = nexus_auto_out_insns_0_valid; // @[MixedNode.scala:551:17] wire [31:0] nexus_nodeOut_insns_0_insn; // @[MixedNode.scala:542:17] wire [39:0] traceNodesIn_insns_0_iaddr = nexus_auto_out_insns_0_iaddr; // @[MixedNode.scala:551:17] wire [2:0] nexus_nodeOut_insns_0_priv; // @[MixedNode.scala:542:17] wire [31:0] traceNodesIn_insns_0_insn = nexus_auto_out_insns_0_insn; // @[MixedNode.scala:551:17] wire nexus_nodeOut_insns_0_exception; // @[MixedNode.scala:542:17] wire [2:0] traceNodesIn_insns_0_priv = nexus_auto_out_insns_0_priv; // @[MixedNode.scala:551:17] wire nexus_nodeOut_insns_0_interrupt; // @[MixedNode.scala:542:17] wire traceNodesIn_insns_0_exception = nexus_auto_out_insns_0_exception; // @[MixedNode.scala:551:17] wire [63:0] nexus_nodeOut_insns_0_cause; // @[MixedNode.scala:542:17] wire traceNodesIn_insns_0_interrupt = nexus_auto_out_insns_0_interrupt; // @[MixedNode.scala:551:17] wire [39:0] nexus_nodeOut_insns_0_tval; // @[MixedNode.scala:542:17] wire [63:0] traceNodesIn_insns_0_cause = nexus_auto_out_insns_0_cause; // @[MixedNode.scala:551:17] wire [63:0] nexus_nodeOut_time; // @[MixedNode.scala:542:17] wire [39:0] traceNodesIn_insns_0_tval = nexus_auto_out_insns_0_tval; // @[MixedNode.scala:551:17] wire [63:0] traceNodesIn_time = nexus_auto_out_time; // @[MixedNode.scala:551:17] assign nexus_nodeOut_insns_0_valid = nexus_nodeIn_insns_0_valid; // @[MixedNode.scala:542:17, :551:17] assign nexus_nodeOut_insns_0_iaddr = nexus_nodeIn_insns_0_iaddr; // @[MixedNode.scala:542:17, :551:17] assign nexus_nodeOut_insns_0_insn = nexus_nodeIn_insns_0_insn; // @[MixedNode.scala:542:17, :551:17] assign nexus_nodeOut_insns_0_priv = nexus_nodeIn_insns_0_priv; // @[MixedNode.scala:542:17, :551:17] assign nexus_nodeOut_insns_0_exception = nexus_nodeIn_insns_0_exception; // @[MixedNode.scala:542:17, :551:17] assign nexus_nodeOut_insns_0_interrupt = nexus_nodeIn_insns_0_interrupt; // @[MixedNode.scala:542:17, :551:17] assign nexus_nodeOut_insns_0_cause = nexus_nodeIn_insns_0_cause; // @[MixedNode.scala:542:17, :551:17] assign nexus_nodeOut_insns_0_tval = nexus_nodeIn_insns_0_tval; // @[MixedNode.scala:542:17, :551:17] assign nexus_nodeOut_time = nexus_nodeIn_time; // @[MixedNode.scala:542:17, :551:17] assign nexus_auto_out_insns_0_valid = nexus_nodeOut_insns_0_valid; // @[MixedNode.scala:542:17] assign nexus_auto_out_insns_0_iaddr = nexus_nodeOut_insns_0_iaddr; // @[MixedNode.scala:542:17] assign nexus_auto_out_insns_0_insn = nexus_nodeOut_insns_0_insn; // @[MixedNode.scala:542:17] assign nexus_auto_out_insns_0_priv = nexus_nodeOut_insns_0_priv; // @[MixedNode.scala:542:17] assign nexus_auto_out_insns_0_exception = nexus_nodeOut_insns_0_exception; // @[MixedNode.scala:542:17] assign nexus_auto_out_insns_0_interrupt = nexus_nodeOut_insns_0_interrupt; // @[MixedNode.scala:542:17] assign nexus_auto_out_insns_0_cause = nexus_nodeOut_insns_0_cause; // @[MixedNode.scala:542:17] assign nexus_auto_out_insns_0_tval = nexus_nodeOut_insns_0_tval; // @[MixedNode.scala:542:17] assign nexus_auto_out_time = nexus_nodeOut_time; // @[MixedNode.scala:542:17] wire clockNamePrefixer_clockNamePrefixerIn_6_member_clockTapNode_clockTapNode_clock_tap_clock = clockNamePrefixer_auto_clock_name_prefixer_in_6_member_clockTapNode_clockTapNode_clock_tap_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_6_member_clockTapNode_clockTapNode_clock_tap_reset = clockNamePrefixer_auto_clock_name_prefixer_in_6_member_clockTapNode_clockTapNode_clock_tap_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_5_member_cbus_cbus_0_clock = clockNamePrefixer_auto_clock_name_prefixer_in_5_member_cbus_cbus_0_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_5_member_cbus_cbus_0_reset = clockNamePrefixer_auto_clock_name_prefixer_in_5_member_cbus_cbus_0_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_4_member_mbus_mbus_0_clock = clockNamePrefixer_auto_clock_name_prefixer_in_4_member_mbus_mbus_0_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_4_member_mbus_mbus_0_reset = clockNamePrefixer_auto_clock_name_prefixer_in_4_member_mbus_mbus_0_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_3_member_fbus_fbus_0_clock = clockNamePrefixer_auto_clock_name_prefixer_in_3_member_fbus_fbus_0_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_3_member_fbus_fbus_0_reset = clockNamePrefixer_auto_clock_name_prefixer_in_3_member_fbus_fbus_0_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_2_member_pbus_pbus_0_clock = clockNamePrefixer_auto_clock_name_prefixer_in_2_member_pbus_pbus_0_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_2_member_pbus_pbus_0_reset = clockNamePrefixer_auto_clock_name_prefixer_in_2_member_pbus_pbus_0_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_1_member_tileClockGroup_tileClockGroup_rockettile_0_clock = clockNamePrefixer_auto_clock_name_prefixer_in_1_member_tileClockGroup_tileClockGroup_rockettile_0_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_1_member_tileClockGroup_tileClockGroup_rockettile_0_reset = clockNamePrefixer_auto_clock_name_prefixer_in_1_member_tileClockGroup_tileClockGroup_rockettile_0_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_member_sbus_sbus_1_clock = clockNamePrefixer_auto_clock_name_prefixer_in_0_member_sbus_sbus_1_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_member_sbus_sbus_1_reset = clockNamePrefixer_auto_clock_name_prefixer_in_0_member_sbus_sbus_1_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_member_sbus_sbus_0_clock = clockNamePrefixer_auto_clock_name_prefixer_in_0_member_sbus_sbus_0_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerIn_member_sbus_sbus_0_reset = clockNamePrefixer_auto_clock_name_prefixer_in_0_member_sbus_sbus_0_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_x1_clockNamePrefixerOut_5_member_clockTapNode_clock_tap_clock; // @[MixedNode.scala:542:17] wire clockNamePrefixer_x1_clockNamePrefixerOut_5_member_clockTapNode_clock_tap_reset; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeIn_5_member_clockTapNode_clock_tap_clock = clockNamePrefixer_auto_clock_name_prefixer_out_6_member_clockTapNode_clock_tap_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_x1_clockNamePrefixerOut_4_member_cbus_0_clock; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeIn_5_member_clockTapNode_clock_tap_reset = clockNamePrefixer_auto_clock_name_prefixer_out_6_member_clockTapNode_clock_tap_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_x1_clockNamePrefixerOut_4_member_cbus_0_reset; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeIn_4_member_cbus_0_clock = clockNamePrefixer_auto_clock_name_prefixer_out_5_member_cbus_0_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_x1_clockNamePrefixerOut_3_member_mbus_0_clock; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeIn_4_member_cbus_0_reset = clockNamePrefixer_auto_clock_name_prefixer_out_5_member_cbus_0_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_x1_clockNamePrefixerOut_3_member_mbus_0_reset; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeIn_3_member_mbus_0_clock = clockNamePrefixer_auto_clock_name_prefixer_out_4_member_mbus_0_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_x1_clockNamePrefixerOut_2_member_fbus_0_clock; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeIn_3_member_mbus_0_reset = clockNamePrefixer_auto_clock_name_prefixer_out_4_member_mbus_0_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_x1_clockNamePrefixerOut_2_member_fbus_0_reset; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeIn_2_member_fbus_0_clock = clockNamePrefixer_auto_clock_name_prefixer_out_3_member_fbus_0_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_x1_clockNamePrefixerOut_1_member_pbus_0_clock; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeIn_2_member_fbus_0_reset = clockNamePrefixer_auto_clock_name_prefixer_out_3_member_fbus_0_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_x1_clockNamePrefixerOut_1_member_pbus_0_reset; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeIn_1_member_pbus_0_clock = clockNamePrefixer_auto_clock_name_prefixer_out_2_member_pbus_0_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_x1_clockNamePrefixerOut_member_tileClockGroup_rockettile_0_clock; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeIn_1_member_pbus_0_reset = clockNamePrefixer_auto_clock_name_prefixer_out_2_member_pbus_0_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_x1_clockNamePrefixerOut_member_tileClockGroup_rockettile_0_reset; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeIn_member_tileClockGroup_rockettile_0_clock = clockNamePrefixer_auto_clock_name_prefixer_out_1_member_tileClockGroup_rockettile_0_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerOut_member_sbus_1_clock; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeIn_member_tileClockGroup_rockettile_0_reset = clockNamePrefixer_auto_clock_name_prefixer_out_1_member_tileClockGroup_rockettile_0_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerOut_member_sbus_1_reset; // @[MixedNode.scala:542:17] wire allClockGroupsNodeIn_member_sbus_1_clock = clockNamePrefixer_auto_clock_name_prefixer_out_0_member_sbus_1_clock; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerOut_member_sbus_0_clock; // @[MixedNode.scala:542:17] wire allClockGroupsNodeIn_member_sbus_1_reset = clockNamePrefixer_auto_clock_name_prefixer_out_0_member_sbus_1_reset; // @[MixedNode.scala:551:17] wire clockNamePrefixer_clockNamePrefixerOut_member_sbus_0_reset; // @[MixedNode.scala:542:17] wire allClockGroupsNodeIn_member_sbus_0_clock = clockNamePrefixer_auto_clock_name_prefixer_out_0_member_sbus_0_clock; // @[MixedNode.scala:551:17] wire allClockGroupsNodeIn_member_sbus_0_reset = clockNamePrefixer_auto_clock_name_prefixer_out_0_member_sbus_0_reset; // @[MixedNode.scala:551:17] assign clockNamePrefixer_clockNamePrefixerOut_member_sbus_1_clock = clockNamePrefixer_clockNamePrefixerIn_member_sbus_sbus_1_clock; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_clockNamePrefixerOut_member_sbus_1_reset = clockNamePrefixer_clockNamePrefixerIn_member_sbus_sbus_1_reset; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_clockNamePrefixerOut_member_sbus_0_clock = clockNamePrefixer_clockNamePrefixerIn_member_sbus_sbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_clockNamePrefixerOut_member_sbus_0_reset = clockNamePrefixer_clockNamePrefixerIn_member_sbus_sbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_x1_clockNamePrefixerOut_member_tileClockGroup_rockettile_0_clock = clockNamePrefixer_clockNamePrefixerIn_1_member_tileClockGroup_tileClockGroup_rockettile_0_clock; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_x1_clockNamePrefixerOut_member_tileClockGroup_rockettile_0_reset = clockNamePrefixer_clockNamePrefixerIn_1_member_tileClockGroup_tileClockGroup_rockettile_0_reset; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_x1_clockNamePrefixerOut_1_member_pbus_0_clock = clockNamePrefixer_clockNamePrefixerIn_2_member_pbus_pbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_x1_clockNamePrefixerOut_1_member_pbus_0_reset = clockNamePrefixer_clockNamePrefixerIn_2_member_pbus_pbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_x1_clockNamePrefixerOut_2_member_fbus_0_clock = clockNamePrefixer_clockNamePrefixerIn_3_member_fbus_fbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_x1_clockNamePrefixerOut_2_member_fbus_0_reset = clockNamePrefixer_clockNamePrefixerIn_3_member_fbus_fbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_x1_clockNamePrefixerOut_3_member_mbus_0_clock = clockNamePrefixer_clockNamePrefixerIn_4_member_mbus_mbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_x1_clockNamePrefixerOut_3_member_mbus_0_reset = clockNamePrefixer_clockNamePrefixerIn_4_member_mbus_mbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_x1_clockNamePrefixerOut_4_member_cbus_0_clock = clockNamePrefixer_clockNamePrefixerIn_5_member_cbus_cbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_x1_clockNamePrefixerOut_4_member_cbus_0_reset = clockNamePrefixer_clockNamePrefixerIn_5_member_cbus_cbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_x1_clockNamePrefixerOut_5_member_clockTapNode_clock_tap_clock = clockNamePrefixer_clockNamePrefixerIn_6_member_clockTapNode_clockTapNode_clock_tap_clock; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_x1_clockNamePrefixerOut_5_member_clockTapNode_clock_tap_reset = clockNamePrefixer_clockNamePrefixerIn_6_member_clockTapNode_clockTapNode_clock_tap_reset; // @[MixedNode.scala:542:17, :551:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_0_member_sbus_1_clock = clockNamePrefixer_clockNamePrefixerOut_member_sbus_1_clock; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_0_member_sbus_1_reset = clockNamePrefixer_clockNamePrefixerOut_member_sbus_1_reset; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_0_member_sbus_0_clock = clockNamePrefixer_clockNamePrefixerOut_member_sbus_0_clock; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_0_member_sbus_0_reset = clockNamePrefixer_clockNamePrefixerOut_member_sbus_0_reset; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_1_member_tileClockGroup_rockettile_0_clock = clockNamePrefixer_x1_clockNamePrefixerOut_member_tileClockGroup_rockettile_0_clock; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_1_member_tileClockGroup_rockettile_0_reset = clockNamePrefixer_x1_clockNamePrefixerOut_member_tileClockGroup_rockettile_0_reset; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_2_member_pbus_0_clock = clockNamePrefixer_x1_clockNamePrefixerOut_1_member_pbus_0_clock; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_2_member_pbus_0_reset = clockNamePrefixer_x1_clockNamePrefixerOut_1_member_pbus_0_reset; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_3_member_fbus_0_clock = clockNamePrefixer_x1_clockNamePrefixerOut_2_member_fbus_0_clock; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_3_member_fbus_0_reset = clockNamePrefixer_x1_clockNamePrefixerOut_2_member_fbus_0_reset; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_4_member_mbus_0_clock = clockNamePrefixer_x1_clockNamePrefixerOut_3_member_mbus_0_clock; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_4_member_mbus_0_reset = clockNamePrefixer_x1_clockNamePrefixerOut_3_member_mbus_0_reset; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_5_member_cbus_0_clock = clockNamePrefixer_x1_clockNamePrefixerOut_4_member_cbus_0_clock; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_5_member_cbus_0_reset = clockNamePrefixer_x1_clockNamePrefixerOut_4_member_cbus_0_reset; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_6_member_clockTapNode_clock_tap_clock = clockNamePrefixer_x1_clockNamePrefixerOut_5_member_clockTapNode_clock_tap_clock; // @[MixedNode.scala:542:17] assign clockNamePrefixer_auto_clock_name_prefixer_out_6_member_clockTapNode_clock_tap_reset = clockNamePrefixer_x1_clockNamePrefixerOut_5_member_clockTapNode_clock_tap_reset; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_clockTapNode_clock_tap_clock = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_clockTapNode_clock_tap_clock; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_clockTapNode_clock_tap_reset = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_clockTapNode_clock_tap_reset; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_cbus_0_clock = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_cbus_0_clock; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_cbus_0_reset = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_cbus_0_reset; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_mbus_0_clock = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_mbus_0_clock; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_mbus_0_reset = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_mbus_0_reset; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_fbus_0_clock = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_fbus_0_clock; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_fbus_0_reset = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_fbus_0_reset; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_pbus_0_clock = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_pbus_0_clock; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_pbus_0_reset = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_pbus_0_reset; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_tileClockGroup_rockettile_0_clock = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_tileClockGroup_rockettile_0_clock; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_tileClockGroup_rockettile_0_reset = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_tileClockGroup_rockettile_0_reset; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_sbus_1_clock = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_sbus_1_clock; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_sbus_1_reset = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_sbus_1_reset; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_sbus_0_clock = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_sbus_0_clock; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierIn_member_allClocks_sbus_0_reset = frequencySpecifier_auto_frequency_specifier_in_member_allClocks_sbus_0_reset; // @[MixedNode.scala:551:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_clockTapNode_clock_tap_clock; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_clockTapNode_clock_tap_reset; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_cbus_0_clock; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_cbus_0_reset; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_mbus_0_clock; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_mbus_0_reset; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_fbus_0_clock; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_fbus_0_reset; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_pbus_0_clock; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_pbus_0_reset; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_tileClockGroup_rockettile_0_clock; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_tileClockGroup_rockettile_0_reset; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_sbus_1_clock; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_sbus_1_reset; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_sbus_0_clock; // @[MixedNode.scala:542:17] wire frequencySpecifier_frequencySpecifierOut_member_allClocks_sbus_0_reset; // @[MixedNode.scala:542:17] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_clockTapNode_clock_tap_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_clockTapNode_clock_tap_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_cbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_cbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_mbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_mbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_fbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_fbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_pbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_pbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_tileClockGroup_rockettile_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_tileClockGroup_rockettile_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_sbus_1_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_sbus_1_reset; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_sbus_0_clock; // @[ClockGroupNamePrefixer.scala:32:25] wire frequencySpecifier_auto_frequency_specifier_out_member_allClocks_sbus_0_reset; // @[ClockGroupNamePrefixer.scala:32:25] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_clockTapNode_clock_tap_clock = frequencySpecifier_frequencySpecifierIn_member_allClocks_clockTapNode_clock_tap_clock; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_clockTapNode_clock_tap_reset = frequencySpecifier_frequencySpecifierIn_member_allClocks_clockTapNode_clock_tap_reset; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_cbus_0_clock = frequencySpecifier_frequencySpecifierIn_member_allClocks_cbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_cbus_0_reset = frequencySpecifier_frequencySpecifierIn_member_allClocks_cbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_mbus_0_clock = frequencySpecifier_frequencySpecifierIn_member_allClocks_mbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_mbus_0_reset = frequencySpecifier_frequencySpecifierIn_member_allClocks_mbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_fbus_0_clock = frequencySpecifier_frequencySpecifierIn_member_allClocks_fbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_fbus_0_reset = frequencySpecifier_frequencySpecifierIn_member_allClocks_fbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_pbus_0_clock = frequencySpecifier_frequencySpecifierIn_member_allClocks_pbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_pbus_0_reset = frequencySpecifier_frequencySpecifierIn_member_allClocks_pbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_tileClockGroup_rockettile_0_clock = frequencySpecifier_frequencySpecifierIn_member_allClocks_tileClockGroup_rockettile_0_clock; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_tileClockGroup_rockettile_0_reset = frequencySpecifier_frequencySpecifierIn_member_allClocks_tileClockGroup_rockettile_0_reset; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_sbus_1_clock = frequencySpecifier_frequencySpecifierIn_member_allClocks_sbus_1_clock; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_sbus_1_reset = frequencySpecifier_frequencySpecifierIn_member_allClocks_sbus_1_reset; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_sbus_0_clock = frequencySpecifier_frequencySpecifierIn_member_allClocks_sbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_frequencySpecifierOut_member_allClocks_sbus_0_reset = frequencySpecifier_frequencySpecifierIn_member_allClocks_sbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_clockTapNode_clock_tap_clock = frequencySpecifier_frequencySpecifierOut_member_allClocks_clockTapNode_clock_tap_clock; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_clockTapNode_clock_tap_reset = frequencySpecifier_frequencySpecifierOut_member_allClocks_clockTapNode_clock_tap_reset; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_cbus_0_clock = frequencySpecifier_frequencySpecifierOut_member_allClocks_cbus_0_clock; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_cbus_0_reset = frequencySpecifier_frequencySpecifierOut_member_allClocks_cbus_0_reset; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_mbus_0_clock = frequencySpecifier_frequencySpecifierOut_member_allClocks_mbus_0_clock; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_mbus_0_reset = frequencySpecifier_frequencySpecifierOut_member_allClocks_mbus_0_reset; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_fbus_0_clock = frequencySpecifier_frequencySpecifierOut_member_allClocks_fbus_0_clock; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_fbus_0_reset = frequencySpecifier_frequencySpecifierOut_member_allClocks_fbus_0_reset; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_pbus_0_clock = frequencySpecifier_frequencySpecifierOut_member_allClocks_pbus_0_clock; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_pbus_0_reset = frequencySpecifier_frequencySpecifierOut_member_allClocks_pbus_0_reset; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_tileClockGroup_rockettile_0_clock = frequencySpecifier_frequencySpecifierOut_member_allClocks_tileClockGroup_rockettile_0_clock; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_tileClockGroup_rockettile_0_reset = frequencySpecifier_frequencySpecifierOut_member_allClocks_tileClockGroup_rockettile_0_reset; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_sbus_1_clock = frequencySpecifier_frequencySpecifierOut_member_allClocks_sbus_1_clock; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_sbus_1_reset = frequencySpecifier_frequencySpecifierOut_member_allClocks_sbus_1_reset; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_sbus_0_clock = frequencySpecifier_frequencySpecifierOut_member_allClocks_sbus_0_clock; // @[MixedNode.scala:542:17] assign frequencySpecifier_auto_frequency_specifier_out_member_allClocks_sbus_0_reset = frequencySpecifier_frequencySpecifierOut_member_allClocks_sbus_0_reset; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeOut_5_member_clockTapNode_clock_tap_clock; // @[MixedNode.scala:542:17] wire clockTapNode_nodeIn_member_clockTapNode_clock_tap_clock = clockTapNode_auto_in_member_clockTapNode_clock_tap_clock; // @[ClockGroup.scala:24:9] wire x1_allClockGroupsNodeOut_5_member_clockTapNode_clock_tap_reset; // @[MixedNode.scala:542:17] wire clockTapNode_nodeOut_clock; // @[MixedNode.scala:542:17] wire clockTapNode_nodeIn_member_clockTapNode_clock_tap_reset = clockTapNode_auto_in_member_clockTapNode_clock_tap_reset; // @[ClockGroup.scala:24:9] wire clockTapNode_nodeOut_reset; // @[MixedNode.scala:542:17] assign clockTapIn_clock = clockTapNode_auto_out_clock; // @[ClockGroup.scala:24:9] wire clockTapIn_reset = clockTapNode_auto_out_reset; // @[ClockGroup.scala:24:9] assign clockTapNode_auto_out_clock = clockTapNode_nodeOut_clock; // @[ClockGroup.scala:24:9] assign clockTapNode_auto_out_reset = clockTapNode_nodeOut_reset; // @[ClockGroup.scala:24:9] assign clockTapNode_nodeOut_clock = clockTapNode_nodeIn_member_clockTapNode_clock_tap_clock; // @[MixedNode.scala:542:17, :551:17] assign clockTapNode_nodeOut_reset = clockTapNode_nodeIn_member_clockTapNode_clock_tap_reset; // @[MixedNode.scala:542:17, :551:17] wire allClockGroupsNodeOut_member_sbus_1_clock; // @[MixedNode.scala:542:17] wire allClockGroupsNodeOut_member_sbus_1_reset; // @[MixedNode.scala:542:17] wire allClockGroupsNodeOut_member_sbus_0_clock; // @[MixedNode.scala:542:17] wire allClockGroupsNodeOut_member_sbus_0_reset; // @[MixedNode.scala:542:17] assign tileClockGroup_auto_in_member_tileClockGroup_rockettile_0_clock = x1_allClockGroupsNodeOut_member_tileClockGroup_rockettile_0_clock; // @[ClockGroup.scala:24:9] assign tileClockGroup_auto_in_member_tileClockGroup_rockettile_0_reset = x1_allClockGroupsNodeOut_member_tileClockGroup_rockettile_0_reset; // @[ClockGroup.scala:24:9] wire x1_allClockGroupsNodeOut_1_member_pbus_0_clock; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeOut_1_member_pbus_0_reset; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeOut_2_member_fbus_0_clock; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeOut_2_member_fbus_0_reset; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeOut_3_member_mbus_0_clock; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeOut_3_member_mbus_0_reset; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeOut_4_member_cbus_0_clock; // @[MixedNode.scala:542:17] wire x1_allClockGroupsNodeOut_4_member_cbus_0_reset; // @[MixedNode.scala:542:17] assign clockTapNode_auto_in_member_clockTapNode_clock_tap_clock = x1_allClockGroupsNodeOut_5_member_clockTapNode_clock_tap_clock; // @[ClockGroup.scala:24:9] assign clockTapNode_auto_in_member_clockTapNode_clock_tap_reset = x1_allClockGroupsNodeOut_5_member_clockTapNode_clock_tap_reset; // @[ClockGroup.scala:24:9] assign allClockGroupsNodeOut_member_sbus_1_clock = allClockGroupsNodeIn_member_sbus_1_clock; // @[MixedNode.scala:542:17, :551:17] assign allClockGroupsNodeOut_member_sbus_1_reset = allClockGroupsNodeIn_member_sbus_1_reset; // @[MixedNode.scala:542:17, :551:17] assign allClockGroupsNodeOut_member_sbus_0_clock = allClockGroupsNodeIn_member_sbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign allClockGroupsNodeOut_member_sbus_0_reset = allClockGroupsNodeIn_member_sbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign x1_allClockGroupsNodeOut_member_tileClockGroup_rockettile_0_clock = x1_allClockGroupsNodeIn_member_tileClockGroup_rockettile_0_clock; // @[MixedNode.scala:542:17, :551:17] assign x1_allClockGroupsNodeOut_member_tileClockGroup_rockettile_0_reset = x1_allClockGroupsNodeIn_member_tileClockGroup_rockettile_0_reset; // @[MixedNode.scala:542:17, :551:17] assign x1_allClockGroupsNodeOut_1_member_pbus_0_clock = x1_allClockGroupsNodeIn_1_member_pbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign x1_allClockGroupsNodeOut_1_member_pbus_0_reset = x1_allClockGroupsNodeIn_1_member_pbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign x1_allClockGroupsNodeOut_2_member_fbus_0_clock = x1_allClockGroupsNodeIn_2_member_fbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign x1_allClockGroupsNodeOut_2_member_fbus_0_reset = x1_allClockGroupsNodeIn_2_member_fbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign x1_allClockGroupsNodeOut_3_member_mbus_0_clock = x1_allClockGroupsNodeIn_3_member_mbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign x1_allClockGroupsNodeOut_3_member_mbus_0_reset = x1_allClockGroupsNodeIn_3_member_mbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign x1_allClockGroupsNodeOut_4_member_cbus_0_clock = x1_allClockGroupsNodeIn_4_member_cbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign x1_allClockGroupsNodeOut_4_member_cbus_0_reset = x1_allClockGroupsNodeIn_4_member_cbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign x1_allClockGroupsNodeOut_5_member_clockTapNode_clock_tap_clock = x1_allClockGroupsNodeIn_5_member_clockTapNode_clock_tap_clock; // @[MixedNode.scala:542:17, :551:17] assign x1_allClockGroupsNodeOut_5_member_clockTapNode_clock_tap_reset = x1_allClockGroupsNodeIn_5_member_clockTapNode_clock_tap_reset; // @[MixedNode.scala:542:17, :551:17] wire tileWFISinkNodeIn_0; // @[MixedNode.scala:551:17] wire domainIn_clock; // @[MixedNode.scala:551:17] wire domainIn_reset; // @[MixedNode.scala:551:17] wire debugNodesIn_sync_0; // @[MixedNode.scala:551:17] wire debugNodesOut_sync_0; // @[MixedNode.scala:542:17] assign debugNodesOut_sync_0 = debugNodesIn_sync_0; // @[MixedNode.scala:542:17, :551:17] assign mem_axi4_0_aw_valid_0 = memAXI4NodeIn_aw_valid; // @[MixedNode.scala:551:17] assign mem_axi4_0_aw_bits_id_0 = memAXI4NodeIn_aw_bits_id; // @[MixedNode.scala:551:17] assign mem_axi4_0_aw_bits_addr_0 = memAXI4NodeIn_aw_bits_addr; // @[MixedNode.scala:551:17] assign mem_axi4_0_aw_bits_len_0 = memAXI4NodeIn_aw_bits_len; // @[MixedNode.scala:551:17] assign mem_axi4_0_aw_bits_size_0 = memAXI4NodeIn_aw_bits_size; // @[MixedNode.scala:551:17] assign mem_axi4_0_aw_bits_burst_0 = memAXI4NodeIn_aw_bits_burst; // @[MixedNode.scala:551:17] assign mem_axi4_0_aw_bits_lock_0 = memAXI4NodeIn_aw_bits_lock; // @[MixedNode.scala:551:17] assign mem_axi4_0_aw_bits_cache_0 = memAXI4NodeIn_aw_bits_cache; // @[MixedNode.scala:551:17] assign mem_axi4_0_aw_bits_prot_0 = memAXI4NodeIn_aw_bits_prot; // @[MixedNode.scala:551:17] assign mem_axi4_0_aw_bits_qos_0 = memAXI4NodeIn_aw_bits_qos; // @[MixedNode.scala:551:17] assign mem_axi4_0_w_valid_0 = memAXI4NodeIn_w_valid; // @[MixedNode.scala:551:17] assign mem_axi4_0_w_bits_data_0 = memAXI4NodeIn_w_bits_data; // @[MixedNode.scala:551:17] assign mem_axi4_0_w_bits_strb_0 = memAXI4NodeIn_w_bits_strb; // @[MixedNode.scala:551:17] assign mem_axi4_0_w_bits_last_0 = memAXI4NodeIn_w_bits_last; // @[MixedNode.scala:551:17] assign mem_axi4_0_b_ready_0 = memAXI4NodeIn_b_ready; // @[MixedNode.scala:551:17] assign mem_axi4_0_ar_valid_0 = memAXI4NodeIn_ar_valid; // @[MixedNode.scala:551:17] assign mem_axi4_0_ar_bits_id_0 = memAXI4NodeIn_ar_bits_id; // @[MixedNode.scala:551:17] assign mem_axi4_0_ar_bits_addr_0 = memAXI4NodeIn_ar_bits_addr; // @[MixedNode.scala:551:17] assign mem_axi4_0_ar_bits_len_0 = memAXI4NodeIn_ar_bits_len; // @[MixedNode.scala:551:17] assign mem_axi4_0_ar_bits_size_0 = memAXI4NodeIn_ar_bits_size; // @[MixedNode.scala:551:17] assign mem_axi4_0_ar_bits_burst_0 = memAXI4NodeIn_ar_bits_burst; // @[MixedNode.scala:551:17] assign mem_axi4_0_ar_bits_lock_0 = memAXI4NodeIn_ar_bits_lock; // @[MixedNode.scala:551:17] assign mem_axi4_0_ar_bits_cache_0 = memAXI4NodeIn_ar_bits_cache; // @[MixedNode.scala:551:17] assign mem_axi4_0_ar_bits_prot_0 = memAXI4NodeIn_ar_bits_prot; // @[MixedNode.scala:551:17] assign mem_axi4_0_ar_bits_qos_0 = memAXI4NodeIn_ar_bits_qos; // @[MixedNode.scala:551:17] assign mem_axi4_0_r_ready_0 = memAXI4NodeIn_r_ready; // @[MixedNode.scala:551:17] wire intXingIn_sync_0; // @[MixedNode.scala:551:17] wire intXingOut_sync_0; // @[MixedNode.scala:542:17] assign intXingOut_sync_0 = intXingIn_sync_0; // @[MixedNode.scala:542:17, :551:17] assign uart_0_txd_0 = ioNodeIn_txd; // @[MixedNode.scala:551:17] reg [9:0] int_rtc_tick_c_value; // @[Counter.scala:61:40] wire int_rtc_tick_wrap_wrap; // @[Counter.scala:73:24] wire int_rtc_tick; // @[Counter.scala:117:24] assign int_rtc_tick_wrap_wrap = int_rtc_tick_c_value == 10'h3E7; // @[Counter.scala:61:40, :73:24] assign int_rtc_tick = int_rtc_tick_wrap_wrap; // @[Counter.scala:73:24, :117:24] wire [10:0] _int_rtc_tick_wrap_value_T = {1'h0, int_rtc_tick_c_value} + 11'h1; // @[Counter.scala:61:40, :77:24] wire [9:0] _int_rtc_tick_wrap_value_T_1 = _int_rtc_tick_wrap_value_T[9:0]; // @[Counter.scala:77:24] always @(posedge _clint_domain_clock) begin // @[BusWrapper.scala:89:28] if (_clint_domain_reset) // @[BusWrapper.scala:89:28] int_rtc_tick_c_value <= 10'h0; // @[Counter.scala:61:40] else // @[BusWrapper.scala:89:28] int_rtc_tick_c_value <= int_rtc_tick_wrap_wrap ? 10'h0 : _int_rtc_tick_wrap_value_T_1; // @[Counter.scala:61:40, :73:24, :77:{15,24}, :87:{20,28}] always @(posedge) IntXbar_i1_o1 ibus_int_bus ( // @[InterruptBus.scala:19:27] .auto_anon_in_0 (ibus_auto_int_bus_anon_in_0), // @[ClockDomain.scala:14:9] .auto_anon_out_0 (ibus_auto_int_bus_anon_out_0) ); // @[InterruptBus.scala:19:27] SystemBus sbus ( // @[SystemBus.scala:31:26] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_0_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_0_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_0_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_0_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_0_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_0_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_mask), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_0_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_1_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_1_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_1_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_1_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_1_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_1_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_mask), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_1_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_2_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_2_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_2_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_2_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_2_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_2_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_mask), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_2_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_3_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_3_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_3_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_3_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_3_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_3_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_mask), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_3_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_4_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_4_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_4_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_4_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_4_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_4_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_mask), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_4_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_5_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_5_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_5_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_5_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_5_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_5_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_mask), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_5_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_6_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_6_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_6_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_6_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_6_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_6_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_mask), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_6_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_7_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_7_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_7_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_7_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_7_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_7_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_mask), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_mem_7_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_ridx (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_a_ridx), .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_widx (_tile_prci_domain_auto_tl_master_clock_xing_out_a_widx), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_safe_ridx_valid (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_a_safe_ridx_valid), .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_safe_widx_valid (_tile_prci_domain_auto_tl_master_clock_xing_out_a_safe_widx_valid), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_safe_source_reset_n (_tile_prci_domain_auto_tl_master_clock_xing_out_a_safe_source_reset_n), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_a_safe_sink_reset_n (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_a_safe_sink_reset_n), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_0_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_0_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_0_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_0_address), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_1_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_1_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_1_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_1_address), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_2_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_2_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_2_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_2_address), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_3_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_3_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_3_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_3_address), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_4_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_4_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_4_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_4_address), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_5_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_5_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_5_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_5_address), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_6_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_6_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_6_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_6_address), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_7_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_7_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_7_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_7_address), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_ridx (_tile_prci_domain_auto_tl_master_clock_xing_out_b_ridx), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_widx (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_widx), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_safe_ridx_valid (_tile_prci_domain_auto_tl_master_clock_xing_out_b_safe_ridx_valid), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_safe_widx_valid (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_safe_widx_valid), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_safe_source_reset_n (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_safe_source_reset_n), .auto_coupler_from_rockettile_tl_master_clock_xing_in_b_safe_sink_reset_n (_tile_prci_domain_auto_tl_master_clock_xing_out_b_safe_sink_reset_n), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_0_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_0_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_0_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_0_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_0_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_0_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_1_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_1_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_1_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_1_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_1_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_1_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_2_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_2_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_2_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_2_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_2_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_2_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_3_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_3_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_3_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_3_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_3_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_3_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_4_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_4_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_4_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_4_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_4_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_4_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_5_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_5_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_5_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_5_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_5_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_5_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_6_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_6_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_6_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_6_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_6_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_6_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_7_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_opcode), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_7_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_param), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_7_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_size), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_7_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_source), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_7_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_address), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_mem_7_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_data), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_ridx (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_c_ridx), .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_widx (_tile_prci_domain_auto_tl_master_clock_xing_out_c_widx), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_safe_ridx_valid (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_c_safe_ridx_valid), .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_safe_widx_valid (_tile_prci_domain_auto_tl_master_clock_xing_out_c_safe_widx_valid), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_safe_source_reset_n (_tile_prci_domain_auto_tl_master_clock_xing_out_c_safe_source_reset_n), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_c_safe_sink_reset_n (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_c_safe_sink_reset_n), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_opcode), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_size), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_source), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_sink), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_denied), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_data), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_corrupt), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_opcode), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_size), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_source), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_sink), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_denied), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_data), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_corrupt), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_opcode), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_size), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_source), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_sink), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_denied), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_data), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_corrupt), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_opcode), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_size), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_source), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_sink), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_denied), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_data), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_corrupt), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_opcode), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_size), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_source), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_sink), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_denied), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_data), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_corrupt), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_opcode), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_size), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_source), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_sink), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_denied), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_data), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_corrupt), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_opcode), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_size), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_source), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_sink), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_denied), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_data), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_corrupt), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_opcode), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_param), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_size), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_source), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_sink), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_denied), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_data), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_corrupt), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_ridx (_tile_prci_domain_auto_tl_master_clock_xing_out_d_ridx), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_widx (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_widx), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_safe_ridx_valid (_tile_prci_domain_auto_tl_master_clock_xing_out_d_safe_ridx_valid), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_safe_widx_valid (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_safe_widx_valid), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_safe_source_reset_n (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_safe_source_reset_n), .auto_coupler_from_rockettile_tl_master_clock_xing_in_d_safe_sink_reset_n (_tile_prci_domain_auto_tl_master_clock_xing_out_d_safe_sink_reset_n), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_mem_0_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_0_sink), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_mem_1_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_1_sink), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_mem_2_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_2_sink), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_mem_3_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_3_sink), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_mem_4_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_4_sink), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_mem_5_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_5_sink), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_mem_6_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_6_sink), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_mem_7_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_7_sink), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_ridx (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_e_ridx), .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_widx (_tile_prci_domain_auto_tl_master_clock_xing_out_e_widx), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_safe_ridx_valid (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_e_safe_ridx_valid), .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_safe_widx_valid (_tile_prci_domain_auto_tl_master_clock_xing_out_e_safe_widx_valid), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_safe_source_reset_n (_tile_prci_domain_auto_tl_master_clock_xing_out_e_safe_source_reset_n), // @[HasTiles.scala:163:38] .auto_coupler_from_rockettile_tl_master_clock_xing_in_e_safe_sink_reset_n (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_e_safe_sink_reset_n), .auto_coupler_to_bus_named_coh_widget_anon_out_a_ready (_coh_wrapper_auto_coherent_jbar_anon_in_a_ready), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_a_valid (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_valid), .auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_opcode (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_opcode), .auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_param (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_param), .auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_size (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_size), .auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_source (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_source), .auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_address (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_address), .auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_mask (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_mask), .auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_data (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_data), .auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_corrupt (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_corrupt), .auto_coupler_to_bus_named_coh_widget_anon_out_b_ready (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_b_ready), .auto_coupler_to_bus_named_coh_widget_anon_out_b_valid (_coh_wrapper_auto_coherent_jbar_anon_in_b_valid), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_param (_coh_wrapper_auto_coherent_jbar_anon_in_b_bits_param), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_address (_coh_wrapper_auto_coherent_jbar_anon_in_b_bits_address), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_c_ready (_coh_wrapper_auto_coherent_jbar_anon_in_c_ready), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_c_valid (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_valid), .auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_opcode (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_opcode), .auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_param (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_param), .auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_size (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_size), .auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_source (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_source), .auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_address (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_address), .auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_data (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_data), .auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_corrupt (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_corrupt), .auto_coupler_to_bus_named_coh_widget_anon_out_d_ready (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_d_ready), .auto_coupler_to_bus_named_coh_widget_anon_out_d_valid (_coh_wrapper_auto_coherent_jbar_anon_in_d_valid), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_opcode (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_opcode), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_param (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_param), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_size (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_size), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_source (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_source), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_sink (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_sink), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_denied (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_denied), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_data (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_data), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_corrupt (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_corrupt), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_coh_widget_anon_out_e_valid (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_e_valid), .auto_coupler_to_bus_named_coh_widget_anon_out_e_bits_sink (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_e_bits_sink), .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_0_opcode (_fbus_auto_bus_xing_out_a_mem_0_opcode), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_0_param (_fbus_auto_bus_xing_out_a_mem_0_param), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_0_size (_fbus_auto_bus_xing_out_a_mem_0_size), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_0_source (_fbus_auto_bus_xing_out_a_mem_0_source), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_0_address (_fbus_auto_bus_xing_out_a_mem_0_address), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_0_mask (_fbus_auto_bus_xing_out_a_mem_0_mask), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_0_data (_fbus_auto_bus_xing_out_a_mem_0_data), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_0_corrupt (_fbus_auto_bus_xing_out_a_mem_0_corrupt), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_1_opcode (_fbus_auto_bus_xing_out_a_mem_1_opcode), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_1_param (_fbus_auto_bus_xing_out_a_mem_1_param), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_1_size (_fbus_auto_bus_xing_out_a_mem_1_size), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_1_source (_fbus_auto_bus_xing_out_a_mem_1_source), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_1_address (_fbus_auto_bus_xing_out_a_mem_1_address), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_1_mask (_fbus_auto_bus_xing_out_a_mem_1_mask), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_1_data (_fbus_auto_bus_xing_out_a_mem_1_data), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_1_corrupt (_fbus_auto_bus_xing_out_a_mem_1_corrupt), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_2_opcode (_fbus_auto_bus_xing_out_a_mem_2_opcode), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_2_param (_fbus_auto_bus_xing_out_a_mem_2_param), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_2_size (_fbus_auto_bus_xing_out_a_mem_2_size), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_2_source (_fbus_auto_bus_xing_out_a_mem_2_source), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_2_address (_fbus_auto_bus_xing_out_a_mem_2_address), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_2_mask (_fbus_auto_bus_xing_out_a_mem_2_mask), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_2_data (_fbus_auto_bus_xing_out_a_mem_2_data), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_2_corrupt (_fbus_auto_bus_xing_out_a_mem_2_corrupt), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_3_opcode (_fbus_auto_bus_xing_out_a_mem_3_opcode), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_3_param (_fbus_auto_bus_xing_out_a_mem_3_param), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_3_size (_fbus_auto_bus_xing_out_a_mem_3_size), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_3_source (_fbus_auto_bus_xing_out_a_mem_3_source), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_3_address (_fbus_auto_bus_xing_out_a_mem_3_address), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_3_mask (_fbus_auto_bus_xing_out_a_mem_3_mask), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_3_data (_fbus_auto_bus_xing_out_a_mem_3_data), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_3_corrupt (_fbus_auto_bus_xing_out_a_mem_3_corrupt), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_4_opcode (_fbus_auto_bus_xing_out_a_mem_4_opcode), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_4_param (_fbus_auto_bus_xing_out_a_mem_4_param), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_4_size (_fbus_auto_bus_xing_out_a_mem_4_size), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_4_source (_fbus_auto_bus_xing_out_a_mem_4_source), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_4_address (_fbus_auto_bus_xing_out_a_mem_4_address), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_4_mask (_fbus_auto_bus_xing_out_a_mem_4_mask), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_4_data (_fbus_auto_bus_xing_out_a_mem_4_data), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_4_corrupt (_fbus_auto_bus_xing_out_a_mem_4_corrupt), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_5_opcode (_fbus_auto_bus_xing_out_a_mem_5_opcode), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_5_param (_fbus_auto_bus_xing_out_a_mem_5_param), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_5_size (_fbus_auto_bus_xing_out_a_mem_5_size), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_5_source (_fbus_auto_bus_xing_out_a_mem_5_source), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_5_address (_fbus_auto_bus_xing_out_a_mem_5_address), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_5_mask (_fbus_auto_bus_xing_out_a_mem_5_mask), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_5_data (_fbus_auto_bus_xing_out_a_mem_5_data), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_5_corrupt (_fbus_auto_bus_xing_out_a_mem_5_corrupt), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_6_opcode (_fbus_auto_bus_xing_out_a_mem_6_opcode), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_6_param (_fbus_auto_bus_xing_out_a_mem_6_param), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_6_size (_fbus_auto_bus_xing_out_a_mem_6_size), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_6_source (_fbus_auto_bus_xing_out_a_mem_6_source), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_6_address (_fbus_auto_bus_xing_out_a_mem_6_address), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_6_mask (_fbus_auto_bus_xing_out_a_mem_6_mask), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_6_data (_fbus_auto_bus_xing_out_a_mem_6_data), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_6_corrupt (_fbus_auto_bus_xing_out_a_mem_6_corrupt), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_7_opcode (_fbus_auto_bus_xing_out_a_mem_7_opcode), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_7_param (_fbus_auto_bus_xing_out_a_mem_7_param), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_7_size (_fbus_auto_bus_xing_out_a_mem_7_size), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_7_source (_fbus_auto_bus_xing_out_a_mem_7_source), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_7_address (_fbus_auto_bus_xing_out_a_mem_7_address), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_7_mask (_fbus_auto_bus_xing_out_a_mem_7_mask), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_7_data (_fbus_auto_bus_xing_out_a_mem_7_data), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_mem_7_corrupt (_fbus_auto_bus_xing_out_a_mem_7_corrupt), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_ridx (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_a_ridx), .auto_coupler_from_bus_named_fbus_bus_xing_in_a_widx (_fbus_auto_bus_xing_out_a_widx), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_safe_ridx_valid (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_a_safe_ridx_valid), .auto_coupler_from_bus_named_fbus_bus_xing_in_a_safe_widx_valid (_fbus_auto_bus_xing_out_a_safe_widx_valid), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_safe_source_reset_n (_fbus_auto_bus_xing_out_a_safe_source_reset_n), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_a_safe_sink_reset_n (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_a_safe_sink_reset_n), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_opcode), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_param), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_size), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_source), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_sink), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_denied), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_data), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_corrupt), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_opcode), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_param), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_size), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_source), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_sink), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_denied), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_data), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_corrupt), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_opcode), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_param), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_size), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_source), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_sink), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_denied), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_data), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_corrupt), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_opcode), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_param), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_size), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_source), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_sink), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_denied), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_data), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_corrupt), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_opcode), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_param), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_size), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_source), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_sink), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_denied), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_data), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_corrupt), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_opcode), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_param), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_size), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_source), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_sink), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_denied), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_data), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_corrupt), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_opcode), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_param), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_size), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_source), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_sink), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_denied), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_data), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_corrupt), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_opcode), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_param), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_size), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_source), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_sink), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_denied), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_data), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_corrupt), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_ridx (_fbus_auto_bus_xing_out_d_ridx), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_d_widx (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_widx), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_safe_ridx_valid (_fbus_auto_bus_xing_out_d_safe_ridx_valid), // @[FrontBus.scala:23:26] .auto_coupler_from_bus_named_fbus_bus_xing_in_d_safe_widx_valid (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_safe_widx_valid), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_safe_source_reset_n (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_safe_source_reset_n), .auto_coupler_from_bus_named_fbus_bus_xing_in_d_safe_sink_reset_n (_fbus_auto_bus_xing_out_d_safe_sink_reset_n), // @[FrontBus.scala:23:26] .auto_coupler_to_bus_named_cbus_bus_xing_out_a_ready (_cbus_auto_bus_xing_in_a_ready), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_cbus_bus_xing_out_a_valid (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_valid), .auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_opcode (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_opcode), .auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_param (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_param), .auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_size (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_size), .auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_source (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_source), .auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_address (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_address), .auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_mask (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_mask), .auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_data (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_data), .auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_corrupt (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_corrupt), .auto_coupler_to_bus_named_cbus_bus_xing_out_d_ready (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_d_ready), .auto_coupler_to_bus_named_cbus_bus_xing_out_d_valid (_cbus_auto_bus_xing_in_d_valid), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_opcode (_cbus_auto_bus_xing_in_d_bits_opcode), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_param (_cbus_auto_bus_xing_in_d_bits_param), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_size (_cbus_auto_bus_xing_in_d_bits_size), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_source (_cbus_auto_bus_xing_in_d_bits_source), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_sink (_cbus_auto_bus_xing_in_d_bits_sink), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_denied (_cbus_auto_bus_xing_in_d_bits_denied), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_data (_cbus_auto_bus_xing_in_d_bits_data), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_corrupt (_cbus_auto_bus_xing_in_d_bits_corrupt), // @[PeripheryBus.scala:37:26] .auto_fixedClockNode_anon_out_1_clock (_sbus_auto_fixedClockNode_anon_out_1_clock), .auto_fixedClockNode_anon_out_1_reset (_sbus_auto_fixedClockNode_anon_out_1_reset), .auto_fixedClockNode_anon_out_0_clock (ibus_auto_clock_in_clock), .auto_fixedClockNode_anon_out_0_reset (ibus_auto_clock_in_reset), .auto_sbus_clock_groups_in_member_sbus_1_clock (allClockGroupsNodeOut_member_sbus_1_clock), // @[MixedNode.scala:542:17] .auto_sbus_clock_groups_in_member_sbus_1_reset (allClockGroupsNodeOut_member_sbus_1_reset), // @[MixedNode.scala:542:17] .auto_sbus_clock_groups_in_member_sbus_0_clock (allClockGroupsNodeOut_member_sbus_0_clock), // @[MixedNode.scala:542:17] .auto_sbus_clock_groups_in_member_sbus_0_reset (allClockGroupsNodeOut_member_sbus_0_reset), // @[MixedNode.scala:542:17] .auto_sbus_clock_groups_out_member_coh_0_clock (_sbus_auto_sbus_clock_groups_out_member_coh_0_clock), .auto_sbus_clock_groups_out_member_coh_0_reset (_sbus_auto_sbus_clock_groups_out_member_coh_0_reset) ); // @[SystemBus.scala:31:26] PeripheryBus_pbus pbus ( // @[PeripheryBus.scala:37:26] .auto_coupler_to_device_named_uart_0_control_xing_out_a_ready (_uartClockDomainWrapper_auto_uart_0_control_xing_in_a_ready), // @[UART.scala:270:44] .auto_coupler_to_device_named_uart_0_control_xing_out_a_valid (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_valid), .auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_opcode (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_opcode), .auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_param (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_param), .auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_size (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_size), .auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_source (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_source), .auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_address (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_address), .auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_mask (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_mask), .auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_data (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_data), .auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_corrupt (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_corrupt), .auto_coupler_to_device_named_uart_0_control_xing_out_d_ready (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_d_ready), .auto_coupler_to_device_named_uart_0_control_xing_out_d_valid (_uartClockDomainWrapper_auto_uart_0_control_xing_in_d_valid), // @[UART.scala:270:44] .auto_coupler_to_device_named_uart_0_control_xing_out_d_bits_opcode (_uartClockDomainWrapper_auto_uart_0_control_xing_in_d_bits_opcode), // @[UART.scala:270:44] .auto_coupler_to_device_named_uart_0_control_xing_out_d_bits_size (_uartClockDomainWrapper_auto_uart_0_control_xing_in_d_bits_size), // @[UART.scala:270:44] .auto_coupler_to_device_named_uart_0_control_xing_out_d_bits_source (_uartClockDomainWrapper_auto_uart_0_control_xing_in_d_bits_source), // @[UART.scala:270:44] .auto_coupler_to_device_named_uart_0_control_xing_out_d_bits_data (_uartClockDomainWrapper_auto_uart_0_control_xing_in_d_bits_data), // @[UART.scala:270:44] .auto_fixedClockNode_anon_out_clock (_pbus_auto_fixedClockNode_anon_out_clock), .auto_fixedClockNode_anon_out_reset (_pbus_auto_fixedClockNode_anon_out_reset), .auto_pbus_clock_groups_in_member_pbus_0_clock (x1_allClockGroupsNodeOut_1_member_pbus_0_clock), // @[MixedNode.scala:542:17] .auto_pbus_clock_groups_in_member_pbus_0_reset (x1_allClockGroupsNodeOut_1_member_pbus_0_reset), // @[MixedNode.scala:542:17] .auto_bus_xing_in_a_mem_0_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_opcode), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_0_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_param), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_0_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_size), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_0_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_source), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_0_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_address), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_0_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_mask), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_0_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_data), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_0_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_corrupt), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_1_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_opcode), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_1_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_param), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_1_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_size), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_1_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_source), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_1_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_address), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_1_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_mask), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_1_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_data), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_1_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_corrupt), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_2_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_opcode), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_2_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_param), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_2_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_size), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_2_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_source), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_2_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_address), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_2_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_mask), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_2_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_data), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_2_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_corrupt), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_3_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_opcode), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_3_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_param), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_3_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_size), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_3_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_source), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_3_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_address), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_3_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_mask), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_3_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_data), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_3_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_corrupt), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_4_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_opcode), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_4_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_param), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_4_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_size), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_4_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_source), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_4_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_address), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_4_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_mask), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_4_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_data), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_4_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_corrupt), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_5_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_opcode), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_5_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_param), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_5_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_size), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_5_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_source), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_5_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_address), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_5_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_mask), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_5_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_data), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_5_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_corrupt), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_6_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_opcode), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_6_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_param), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_6_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_size), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_6_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_source), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_6_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_address), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_6_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_mask), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_6_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_data), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_6_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_corrupt), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_7_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_opcode), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_7_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_param), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_7_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_size), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_7_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_source), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_7_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_address), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_7_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_mask), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_7_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_data), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_mem_7_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_corrupt), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_ridx (_pbus_auto_bus_xing_in_a_ridx), .auto_bus_xing_in_a_widx (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_widx), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_safe_ridx_valid (_pbus_auto_bus_xing_in_a_safe_ridx_valid), .auto_bus_xing_in_a_safe_widx_valid (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_safe_widx_valid), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_safe_source_reset_n (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_safe_source_reset_n), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_a_safe_sink_reset_n (_pbus_auto_bus_xing_in_a_safe_sink_reset_n), .auto_bus_xing_in_d_mem_0_opcode (_pbus_auto_bus_xing_in_d_mem_0_opcode), .auto_bus_xing_in_d_mem_0_param (_pbus_auto_bus_xing_in_d_mem_0_param), .auto_bus_xing_in_d_mem_0_size (_pbus_auto_bus_xing_in_d_mem_0_size), .auto_bus_xing_in_d_mem_0_source (_pbus_auto_bus_xing_in_d_mem_0_source), .auto_bus_xing_in_d_mem_0_sink (_pbus_auto_bus_xing_in_d_mem_0_sink), .auto_bus_xing_in_d_mem_0_denied (_pbus_auto_bus_xing_in_d_mem_0_denied), .auto_bus_xing_in_d_mem_0_data (_pbus_auto_bus_xing_in_d_mem_0_data), .auto_bus_xing_in_d_mem_0_corrupt (_pbus_auto_bus_xing_in_d_mem_0_corrupt), .auto_bus_xing_in_d_mem_1_opcode (_pbus_auto_bus_xing_in_d_mem_1_opcode), .auto_bus_xing_in_d_mem_1_param (_pbus_auto_bus_xing_in_d_mem_1_param), .auto_bus_xing_in_d_mem_1_size (_pbus_auto_bus_xing_in_d_mem_1_size), .auto_bus_xing_in_d_mem_1_source (_pbus_auto_bus_xing_in_d_mem_1_source), .auto_bus_xing_in_d_mem_1_sink (_pbus_auto_bus_xing_in_d_mem_1_sink), .auto_bus_xing_in_d_mem_1_denied (_pbus_auto_bus_xing_in_d_mem_1_denied), .auto_bus_xing_in_d_mem_1_data (_pbus_auto_bus_xing_in_d_mem_1_data), .auto_bus_xing_in_d_mem_1_corrupt (_pbus_auto_bus_xing_in_d_mem_1_corrupt), .auto_bus_xing_in_d_mem_2_opcode (_pbus_auto_bus_xing_in_d_mem_2_opcode), .auto_bus_xing_in_d_mem_2_param (_pbus_auto_bus_xing_in_d_mem_2_param), .auto_bus_xing_in_d_mem_2_size (_pbus_auto_bus_xing_in_d_mem_2_size), .auto_bus_xing_in_d_mem_2_source (_pbus_auto_bus_xing_in_d_mem_2_source), .auto_bus_xing_in_d_mem_2_sink (_pbus_auto_bus_xing_in_d_mem_2_sink), .auto_bus_xing_in_d_mem_2_denied (_pbus_auto_bus_xing_in_d_mem_2_denied), .auto_bus_xing_in_d_mem_2_data (_pbus_auto_bus_xing_in_d_mem_2_data), .auto_bus_xing_in_d_mem_2_corrupt (_pbus_auto_bus_xing_in_d_mem_2_corrupt), .auto_bus_xing_in_d_mem_3_opcode (_pbus_auto_bus_xing_in_d_mem_3_opcode), .auto_bus_xing_in_d_mem_3_param (_pbus_auto_bus_xing_in_d_mem_3_param), .auto_bus_xing_in_d_mem_3_size (_pbus_auto_bus_xing_in_d_mem_3_size), .auto_bus_xing_in_d_mem_3_source (_pbus_auto_bus_xing_in_d_mem_3_source), .auto_bus_xing_in_d_mem_3_sink (_pbus_auto_bus_xing_in_d_mem_3_sink), .auto_bus_xing_in_d_mem_3_denied (_pbus_auto_bus_xing_in_d_mem_3_denied), .auto_bus_xing_in_d_mem_3_data (_pbus_auto_bus_xing_in_d_mem_3_data), .auto_bus_xing_in_d_mem_3_corrupt (_pbus_auto_bus_xing_in_d_mem_3_corrupt), .auto_bus_xing_in_d_mem_4_opcode (_pbus_auto_bus_xing_in_d_mem_4_opcode), .auto_bus_xing_in_d_mem_4_param (_pbus_auto_bus_xing_in_d_mem_4_param), .auto_bus_xing_in_d_mem_4_size (_pbus_auto_bus_xing_in_d_mem_4_size), .auto_bus_xing_in_d_mem_4_source (_pbus_auto_bus_xing_in_d_mem_4_source), .auto_bus_xing_in_d_mem_4_sink (_pbus_auto_bus_xing_in_d_mem_4_sink), .auto_bus_xing_in_d_mem_4_denied (_pbus_auto_bus_xing_in_d_mem_4_denied), .auto_bus_xing_in_d_mem_4_data (_pbus_auto_bus_xing_in_d_mem_4_data), .auto_bus_xing_in_d_mem_4_corrupt (_pbus_auto_bus_xing_in_d_mem_4_corrupt), .auto_bus_xing_in_d_mem_5_opcode (_pbus_auto_bus_xing_in_d_mem_5_opcode), .auto_bus_xing_in_d_mem_5_param (_pbus_auto_bus_xing_in_d_mem_5_param), .auto_bus_xing_in_d_mem_5_size (_pbus_auto_bus_xing_in_d_mem_5_size), .auto_bus_xing_in_d_mem_5_source (_pbus_auto_bus_xing_in_d_mem_5_source), .auto_bus_xing_in_d_mem_5_sink (_pbus_auto_bus_xing_in_d_mem_5_sink), .auto_bus_xing_in_d_mem_5_denied (_pbus_auto_bus_xing_in_d_mem_5_denied), .auto_bus_xing_in_d_mem_5_data (_pbus_auto_bus_xing_in_d_mem_5_data), .auto_bus_xing_in_d_mem_5_corrupt (_pbus_auto_bus_xing_in_d_mem_5_corrupt), .auto_bus_xing_in_d_mem_6_opcode (_pbus_auto_bus_xing_in_d_mem_6_opcode), .auto_bus_xing_in_d_mem_6_param (_pbus_auto_bus_xing_in_d_mem_6_param), .auto_bus_xing_in_d_mem_6_size (_pbus_auto_bus_xing_in_d_mem_6_size), .auto_bus_xing_in_d_mem_6_source (_pbus_auto_bus_xing_in_d_mem_6_source), .auto_bus_xing_in_d_mem_6_sink (_pbus_auto_bus_xing_in_d_mem_6_sink), .auto_bus_xing_in_d_mem_6_denied (_pbus_auto_bus_xing_in_d_mem_6_denied), .auto_bus_xing_in_d_mem_6_data (_pbus_auto_bus_xing_in_d_mem_6_data), .auto_bus_xing_in_d_mem_6_corrupt (_pbus_auto_bus_xing_in_d_mem_6_corrupt), .auto_bus_xing_in_d_mem_7_opcode (_pbus_auto_bus_xing_in_d_mem_7_opcode), .auto_bus_xing_in_d_mem_7_param (_pbus_auto_bus_xing_in_d_mem_7_param), .auto_bus_xing_in_d_mem_7_size (_pbus_auto_bus_xing_in_d_mem_7_size), .auto_bus_xing_in_d_mem_7_source (_pbus_auto_bus_xing_in_d_mem_7_source), .auto_bus_xing_in_d_mem_7_sink (_pbus_auto_bus_xing_in_d_mem_7_sink), .auto_bus_xing_in_d_mem_7_denied (_pbus_auto_bus_xing_in_d_mem_7_denied), .auto_bus_xing_in_d_mem_7_data (_pbus_auto_bus_xing_in_d_mem_7_data), .auto_bus_xing_in_d_mem_7_corrupt (_pbus_auto_bus_xing_in_d_mem_7_corrupt), .auto_bus_xing_in_d_ridx (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_d_ridx), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_d_widx (_pbus_auto_bus_xing_in_d_widx), .auto_bus_xing_in_d_safe_ridx_valid (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_d_safe_ridx_valid), // @[PeripheryBus.scala:37:26] .auto_bus_xing_in_d_safe_widx_valid (_pbus_auto_bus_xing_in_d_safe_widx_valid), .auto_bus_xing_in_d_safe_source_reset_n (_pbus_auto_bus_xing_in_d_safe_source_reset_n), .auto_bus_xing_in_d_safe_sink_reset_n (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_d_safe_sink_reset_n) // @[PeripheryBus.scala:37:26] ); // @[PeripheryBus.scala:37:26] FrontBus fbus ( // @[FrontBus.scala:23:26] .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_a_ready (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_a_ready), .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_a_valid (_serial_tl_domain_auto_serdesser_client_out_a_valid), // @[PeripheryTLSerial.scala:116:38] .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_a_bits_opcode (_serial_tl_domain_auto_serdesser_client_out_a_bits_opcode), // @[PeripheryTLSerial.scala:116:38] .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_a_bits_param (_serial_tl_domain_auto_serdesser_client_out_a_bits_param), // @[PeripheryTLSerial.scala:116:38] .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_a_bits_size (_serial_tl_domain_auto_serdesser_client_out_a_bits_size), // @[PeripheryTLSerial.scala:116:38] .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_a_bits_source (_serial_tl_domain_auto_serdesser_client_out_a_bits_source), // @[PeripheryTLSerial.scala:116:38] .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_a_bits_address (_serial_tl_domain_auto_serdesser_client_out_a_bits_address), // @[PeripheryTLSerial.scala:116:38] .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_a_bits_mask (_serial_tl_domain_auto_serdesser_client_out_a_bits_mask), // @[PeripheryTLSerial.scala:116:38] .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_a_bits_data (_serial_tl_domain_auto_serdesser_client_out_a_bits_data), // @[PeripheryTLSerial.scala:116:38] .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_a_bits_corrupt (_serial_tl_domain_auto_serdesser_client_out_a_bits_corrupt), // @[PeripheryTLSerial.scala:116:38] .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_ready (_serial_tl_domain_auto_serdesser_client_out_d_ready), // @[PeripheryTLSerial.scala:116:38] .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_valid (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_valid), .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_opcode (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_opcode), .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_param (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_param), .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_size (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_size), .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_source (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_source), .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_sink (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_sink), .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_denied (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_denied), .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_data (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_data), .auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_corrupt (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_corrupt), .auto_coupler_from_debug_sb_widget_anon_in_a_ready (_fbus_auto_coupler_from_debug_sb_widget_anon_in_a_ready), .auto_coupler_from_debug_sb_widget_anon_in_a_valid (_tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_valid), // @[Periphery.scala:88:26] .auto_coupler_from_debug_sb_widget_anon_in_a_bits_opcode (_tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_bits_opcode), // @[Periphery.scala:88:26] .auto_coupler_from_debug_sb_widget_anon_in_a_bits_size (_tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_bits_size), // @[Periphery.scala:88:26] .auto_coupler_from_debug_sb_widget_anon_in_a_bits_address (_tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_bits_address), // @[Periphery.scala:88:26] .auto_coupler_from_debug_sb_widget_anon_in_a_bits_data (_tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_bits_data), // @[Periphery.scala:88:26] .auto_coupler_from_debug_sb_widget_anon_in_d_ready (_tlDM_auto_dmInner_dmInner_sb2tlOpt_out_d_ready), // @[Periphery.scala:88:26] .auto_coupler_from_debug_sb_widget_anon_in_d_valid (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_valid), .auto_coupler_from_debug_sb_widget_anon_in_d_bits_opcode (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_opcode), .auto_coupler_from_debug_sb_widget_anon_in_d_bits_param (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_param), .auto_coupler_from_debug_sb_widget_anon_in_d_bits_size (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_size), .auto_coupler_from_debug_sb_widget_anon_in_d_bits_sink (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_sink), .auto_coupler_from_debug_sb_widget_anon_in_d_bits_denied (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_denied), .auto_coupler_from_debug_sb_widget_anon_in_d_bits_data (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_data), .auto_coupler_from_debug_sb_widget_anon_in_d_bits_corrupt (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_corrupt), .auto_fixedClockNode_anon_out_clock (_fbus_auto_fixedClockNode_anon_out_clock), .auto_fixedClockNode_anon_out_reset (_fbus_auto_fixedClockNode_anon_out_reset), .auto_fbus_clock_groups_in_member_fbus_0_clock (x1_allClockGroupsNodeOut_2_member_fbus_0_clock), // @[MixedNode.scala:542:17] .auto_fbus_clock_groups_in_member_fbus_0_reset (x1_allClockGroupsNodeOut_2_member_fbus_0_reset), // @[MixedNode.scala:542:17] .auto_bus_xing_out_a_mem_0_opcode (_fbus_auto_bus_xing_out_a_mem_0_opcode), .auto_bus_xing_out_a_mem_0_param (_fbus_auto_bus_xing_out_a_mem_0_param), .auto_bus_xing_out_a_mem_0_size (_fbus_auto_bus_xing_out_a_mem_0_size), .auto_bus_xing_out_a_mem_0_source (_fbus_auto_bus_xing_out_a_mem_0_source), .auto_bus_xing_out_a_mem_0_address (_fbus_auto_bus_xing_out_a_mem_0_address), .auto_bus_xing_out_a_mem_0_mask (_fbus_auto_bus_xing_out_a_mem_0_mask), .auto_bus_xing_out_a_mem_0_data (_fbus_auto_bus_xing_out_a_mem_0_data), .auto_bus_xing_out_a_mem_0_corrupt (_fbus_auto_bus_xing_out_a_mem_0_corrupt), .auto_bus_xing_out_a_mem_1_opcode (_fbus_auto_bus_xing_out_a_mem_1_opcode), .auto_bus_xing_out_a_mem_1_param (_fbus_auto_bus_xing_out_a_mem_1_param), .auto_bus_xing_out_a_mem_1_size (_fbus_auto_bus_xing_out_a_mem_1_size), .auto_bus_xing_out_a_mem_1_source (_fbus_auto_bus_xing_out_a_mem_1_source), .auto_bus_xing_out_a_mem_1_address (_fbus_auto_bus_xing_out_a_mem_1_address), .auto_bus_xing_out_a_mem_1_mask (_fbus_auto_bus_xing_out_a_mem_1_mask), .auto_bus_xing_out_a_mem_1_data (_fbus_auto_bus_xing_out_a_mem_1_data), .auto_bus_xing_out_a_mem_1_corrupt (_fbus_auto_bus_xing_out_a_mem_1_corrupt), .auto_bus_xing_out_a_mem_2_opcode (_fbus_auto_bus_xing_out_a_mem_2_opcode), .auto_bus_xing_out_a_mem_2_param (_fbus_auto_bus_xing_out_a_mem_2_param), .auto_bus_xing_out_a_mem_2_size (_fbus_auto_bus_xing_out_a_mem_2_size), .auto_bus_xing_out_a_mem_2_source (_fbus_auto_bus_xing_out_a_mem_2_source), .auto_bus_xing_out_a_mem_2_address (_fbus_auto_bus_xing_out_a_mem_2_address), .auto_bus_xing_out_a_mem_2_mask (_fbus_auto_bus_xing_out_a_mem_2_mask), .auto_bus_xing_out_a_mem_2_data (_fbus_auto_bus_xing_out_a_mem_2_data), .auto_bus_xing_out_a_mem_2_corrupt (_fbus_auto_bus_xing_out_a_mem_2_corrupt), .auto_bus_xing_out_a_mem_3_opcode (_fbus_auto_bus_xing_out_a_mem_3_opcode), .auto_bus_xing_out_a_mem_3_param (_fbus_auto_bus_xing_out_a_mem_3_param), .auto_bus_xing_out_a_mem_3_size (_fbus_auto_bus_xing_out_a_mem_3_size), .auto_bus_xing_out_a_mem_3_source (_fbus_auto_bus_xing_out_a_mem_3_source), .auto_bus_xing_out_a_mem_3_address (_fbus_auto_bus_xing_out_a_mem_3_address), .auto_bus_xing_out_a_mem_3_mask (_fbus_auto_bus_xing_out_a_mem_3_mask), .auto_bus_xing_out_a_mem_3_data (_fbus_auto_bus_xing_out_a_mem_3_data), .auto_bus_xing_out_a_mem_3_corrupt (_fbus_auto_bus_xing_out_a_mem_3_corrupt), .auto_bus_xing_out_a_mem_4_opcode (_fbus_auto_bus_xing_out_a_mem_4_opcode), .auto_bus_xing_out_a_mem_4_param (_fbus_auto_bus_xing_out_a_mem_4_param), .auto_bus_xing_out_a_mem_4_size (_fbus_auto_bus_xing_out_a_mem_4_size), .auto_bus_xing_out_a_mem_4_source (_fbus_auto_bus_xing_out_a_mem_4_source), .auto_bus_xing_out_a_mem_4_address (_fbus_auto_bus_xing_out_a_mem_4_address), .auto_bus_xing_out_a_mem_4_mask (_fbus_auto_bus_xing_out_a_mem_4_mask), .auto_bus_xing_out_a_mem_4_data (_fbus_auto_bus_xing_out_a_mem_4_data), .auto_bus_xing_out_a_mem_4_corrupt (_fbus_auto_bus_xing_out_a_mem_4_corrupt), .auto_bus_xing_out_a_mem_5_opcode (_fbus_auto_bus_xing_out_a_mem_5_opcode), .auto_bus_xing_out_a_mem_5_param (_fbus_auto_bus_xing_out_a_mem_5_param), .auto_bus_xing_out_a_mem_5_size (_fbus_auto_bus_xing_out_a_mem_5_size), .auto_bus_xing_out_a_mem_5_source (_fbus_auto_bus_xing_out_a_mem_5_source), .auto_bus_xing_out_a_mem_5_address (_fbus_auto_bus_xing_out_a_mem_5_address), .auto_bus_xing_out_a_mem_5_mask (_fbus_auto_bus_xing_out_a_mem_5_mask), .auto_bus_xing_out_a_mem_5_data (_fbus_auto_bus_xing_out_a_mem_5_data), .auto_bus_xing_out_a_mem_5_corrupt (_fbus_auto_bus_xing_out_a_mem_5_corrupt), .auto_bus_xing_out_a_mem_6_opcode (_fbus_auto_bus_xing_out_a_mem_6_opcode), .auto_bus_xing_out_a_mem_6_param (_fbus_auto_bus_xing_out_a_mem_6_param), .auto_bus_xing_out_a_mem_6_size (_fbus_auto_bus_xing_out_a_mem_6_size), .auto_bus_xing_out_a_mem_6_source (_fbus_auto_bus_xing_out_a_mem_6_source), .auto_bus_xing_out_a_mem_6_address (_fbus_auto_bus_xing_out_a_mem_6_address), .auto_bus_xing_out_a_mem_6_mask (_fbus_auto_bus_xing_out_a_mem_6_mask), .auto_bus_xing_out_a_mem_6_data (_fbus_auto_bus_xing_out_a_mem_6_data), .auto_bus_xing_out_a_mem_6_corrupt (_fbus_auto_bus_xing_out_a_mem_6_corrupt), .auto_bus_xing_out_a_mem_7_opcode (_fbus_auto_bus_xing_out_a_mem_7_opcode), .auto_bus_xing_out_a_mem_7_param (_fbus_auto_bus_xing_out_a_mem_7_param), .auto_bus_xing_out_a_mem_7_size (_fbus_auto_bus_xing_out_a_mem_7_size), .auto_bus_xing_out_a_mem_7_source (_fbus_auto_bus_xing_out_a_mem_7_source), .auto_bus_xing_out_a_mem_7_address (_fbus_auto_bus_xing_out_a_mem_7_address), .auto_bus_xing_out_a_mem_7_mask (_fbus_auto_bus_xing_out_a_mem_7_mask), .auto_bus_xing_out_a_mem_7_data (_fbus_auto_bus_xing_out_a_mem_7_data), .auto_bus_xing_out_a_mem_7_corrupt (_fbus_auto_bus_xing_out_a_mem_7_corrupt), .auto_bus_xing_out_a_ridx (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_a_ridx), // @[SystemBus.scala:31:26] .auto_bus_xing_out_a_widx (_fbus_auto_bus_xing_out_a_widx), .auto_bus_xing_out_a_safe_ridx_valid (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_a_safe_ridx_valid), // @[SystemBus.scala:31:26] .auto_bus_xing_out_a_safe_widx_valid (_fbus_auto_bus_xing_out_a_safe_widx_valid), .auto_bus_xing_out_a_safe_source_reset_n (_fbus_auto_bus_xing_out_a_safe_source_reset_n), .auto_bus_xing_out_a_safe_sink_reset_n (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_a_safe_sink_reset_n), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_0_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_opcode), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_0_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_param), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_0_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_size), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_0_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_source), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_0_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_sink), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_0_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_denied), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_0_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_data), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_0_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_0_corrupt), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_1_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_opcode), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_1_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_param), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_1_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_size), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_1_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_source), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_1_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_sink), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_1_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_denied), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_1_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_data), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_1_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_1_corrupt), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_2_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_opcode), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_2_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_param), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_2_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_size), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_2_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_source), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_2_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_sink), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_2_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_denied), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_2_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_data), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_2_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_2_corrupt), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_3_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_opcode), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_3_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_param), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_3_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_size), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_3_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_source), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_3_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_sink), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_3_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_denied), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_3_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_data), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_3_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_3_corrupt), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_4_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_opcode), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_4_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_param), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_4_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_size), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_4_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_source), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_4_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_sink), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_4_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_denied), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_4_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_data), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_4_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_4_corrupt), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_5_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_opcode), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_5_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_param), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_5_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_size), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_5_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_source), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_5_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_sink), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_5_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_denied), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_5_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_data), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_5_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_5_corrupt), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_6_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_opcode), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_6_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_param), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_6_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_size), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_6_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_source), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_6_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_sink), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_6_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_denied), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_6_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_data), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_6_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_6_corrupt), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_7_opcode (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_opcode), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_7_param (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_param), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_7_size (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_size), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_7_source (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_source), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_7_sink (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_sink), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_7_denied (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_denied), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_7_data (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_data), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_mem_7_corrupt (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_mem_7_corrupt), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_ridx (_fbus_auto_bus_xing_out_d_ridx), .auto_bus_xing_out_d_widx (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_widx), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_safe_ridx_valid (_fbus_auto_bus_xing_out_d_safe_ridx_valid), .auto_bus_xing_out_d_safe_widx_valid (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_safe_widx_valid), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_safe_source_reset_n (_sbus_auto_coupler_from_bus_named_fbus_bus_xing_in_d_safe_source_reset_n), // @[SystemBus.scala:31:26] .auto_bus_xing_out_d_safe_sink_reset_n (_fbus_auto_bus_xing_out_d_safe_sink_reset_n) ); // @[FrontBus.scala:23:26] PeripheryBus_cbus cbus ( // @[PeripheryBus.scala:37:26] .auto_coupler_to_prci_ctrl_fixer_anon_out_a_ready (_chipyard_prcictrl_domain_auto_xbar_anon_in_a_ready), // @[BusWrapper.scala:89:28] .auto_coupler_to_prci_ctrl_fixer_anon_out_a_valid (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_valid), .auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_opcode (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_opcode), .auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_param (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_param), .auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_size (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_size), .auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_source (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_source), .auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_address (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_address), .auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_mask (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_mask), .auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_data (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_data), .auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_corrupt (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_corrupt), .auto_coupler_to_prci_ctrl_fixer_anon_out_d_ready (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_d_ready), .auto_coupler_to_prci_ctrl_fixer_anon_out_d_valid (_chipyard_prcictrl_domain_auto_xbar_anon_in_d_valid), // @[BusWrapper.scala:89:28] .auto_coupler_to_prci_ctrl_fixer_anon_out_d_bits_opcode (_chipyard_prcictrl_domain_auto_xbar_anon_in_d_bits_opcode), // @[BusWrapper.scala:89:28] .auto_coupler_to_prci_ctrl_fixer_anon_out_d_bits_size (_chipyard_prcictrl_domain_auto_xbar_anon_in_d_bits_size), // @[BusWrapper.scala:89:28] .auto_coupler_to_prci_ctrl_fixer_anon_out_d_bits_source (_chipyard_prcictrl_domain_auto_xbar_anon_in_d_bits_source), // @[BusWrapper.scala:89:28] .auto_coupler_to_prci_ctrl_fixer_anon_out_d_bits_data (_chipyard_prcictrl_domain_auto_xbar_anon_in_d_bits_data), // @[BusWrapper.scala:89:28] .auto_coupler_to_bootrom_fragmenter_anon_out_a_ready (_bootrom_domain_auto_bootrom_in_a_ready), // @[BusWrapper.scala:89:28] .auto_coupler_to_bootrom_fragmenter_anon_out_a_valid (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_valid), .auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_opcode (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_opcode), .auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_param (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_param), .auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_size (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_size), .auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_source (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_source), .auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_address (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_address), .auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_mask (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_mask), .auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_data (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_data), .auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_corrupt (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_corrupt), .auto_coupler_to_bootrom_fragmenter_anon_out_d_ready (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_d_ready), .auto_coupler_to_bootrom_fragmenter_anon_out_d_valid (_bootrom_domain_auto_bootrom_in_d_valid), // @[BusWrapper.scala:89:28] .auto_coupler_to_bootrom_fragmenter_anon_out_d_bits_size (_bootrom_domain_auto_bootrom_in_d_bits_size), // @[BusWrapper.scala:89:28] .auto_coupler_to_bootrom_fragmenter_anon_out_d_bits_source (_bootrom_domain_auto_bootrom_in_d_bits_source), // @[BusWrapper.scala:89:28] .auto_coupler_to_bootrom_fragmenter_anon_out_d_bits_data (_bootrom_domain_auto_bootrom_in_d_bits_data), // @[BusWrapper.scala:89:28] .auto_coupler_to_debug_fragmenter_anon_out_a_ready (_tlDM_auto_dmInner_dmInner_tl_in_a_ready), // @[Periphery.scala:88:26] .auto_coupler_to_debug_fragmenter_anon_out_a_valid (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_valid), .auto_coupler_to_debug_fragmenter_anon_out_a_bits_opcode (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_opcode), .auto_coupler_to_debug_fragmenter_anon_out_a_bits_param (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_param), .auto_coupler_to_debug_fragmenter_anon_out_a_bits_size (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_size), .auto_coupler_to_debug_fragmenter_anon_out_a_bits_source (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_source), .auto_coupler_to_debug_fragmenter_anon_out_a_bits_address (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_address), .auto_coupler_to_debug_fragmenter_anon_out_a_bits_mask (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_mask), .auto_coupler_to_debug_fragmenter_anon_out_a_bits_data (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_data), .auto_coupler_to_debug_fragmenter_anon_out_a_bits_corrupt (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_corrupt), .auto_coupler_to_debug_fragmenter_anon_out_d_ready (_cbus_auto_coupler_to_debug_fragmenter_anon_out_d_ready), .auto_coupler_to_debug_fragmenter_anon_out_d_valid (_tlDM_auto_dmInner_dmInner_tl_in_d_valid), // @[Periphery.scala:88:26] .auto_coupler_to_debug_fragmenter_anon_out_d_bits_opcode (_tlDM_auto_dmInner_dmInner_tl_in_d_bits_opcode), // @[Periphery.scala:88:26] .auto_coupler_to_debug_fragmenter_anon_out_d_bits_size (_tlDM_auto_dmInner_dmInner_tl_in_d_bits_size), // @[Periphery.scala:88:26] .auto_coupler_to_debug_fragmenter_anon_out_d_bits_source (_tlDM_auto_dmInner_dmInner_tl_in_d_bits_source), // @[Periphery.scala:88:26] .auto_coupler_to_debug_fragmenter_anon_out_d_bits_data (_tlDM_auto_dmInner_dmInner_tl_in_d_bits_data), // @[Periphery.scala:88:26] .auto_coupler_to_plic_fragmenter_anon_out_a_ready (_plic_domain_auto_plic_in_a_ready), // @[BusWrapper.scala:89:28] .auto_coupler_to_plic_fragmenter_anon_out_a_valid (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_valid), .auto_coupler_to_plic_fragmenter_anon_out_a_bits_opcode (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_opcode), .auto_coupler_to_plic_fragmenter_anon_out_a_bits_param (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_param), .auto_coupler_to_plic_fragmenter_anon_out_a_bits_size (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_size), .auto_coupler_to_plic_fragmenter_anon_out_a_bits_source (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_source), .auto_coupler_to_plic_fragmenter_anon_out_a_bits_address (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_address), .auto_coupler_to_plic_fragmenter_anon_out_a_bits_mask (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_mask), .auto_coupler_to_plic_fragmenter_anon_out_a_bits_data (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_data), .auto_coupler_to_plic_fragmenter_anon_out_a_bits_corrupt (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_corrupt), .auto_coupler_to_plic_fragmenter_anon_out_d_ready (_cbus_auto_coupler_to_plic_fragmenter_anon_out_d_ready), .auto_coupler_to_plic_fragmenter_anon_out_d_valid (_plic_domain_auto_plic_in_d_valid), // @[BusWrapper.scala:89:28] .auto_coupler_to_plic_fragmenter_anon_out_d_bits_opcode (_plic_domain_auto_plic_in_d_bits_opcode), // @[BusWrapper.scala:89:28] .auto_coupler_to_plic_fragmenter_anon_out_d_bits_size (_plic_domain_auto_plic_in_d_bits_size), // @[BusWrapper.scala:89:28] .auto_coupler_to_plic_fragmenter_anon_out_d_bits_source (_plic_domain_auto_plic_in_d_bits_source), // @[BusWrapper.scala:89:28] .auto_coupler_to_plic_fragmenter_anon_out_d_bits_data (_plic_domain_auto_plic_in_d_bits_data), // @[BusWrapper.scala:89:28] .auto_coupler_to_clint_fragmenter_anon_out_a_ready (_clint_domain_auto_clint_in_a_ready), // @[BusWrapper.scala:89:28] .auto_coupler_to_clint_fragmenter_anon_out_a_valid (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_valid), .auto_coupler_to_clint_fragmenter_anon_out_a_bits_opcode (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_opcode), .auto_coupler_to_clint_fragmenter_anon_out_a_bits_param (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_param), .auto_coupler_to_clint_fragmenter_anon_out_a_bits_size (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_size), .auto_coupler_to_clint_fragmenter_anon_out_a_bits_source (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_source), .auto_coupler_to_clint_fragmenter_anon_out_a_bits_address (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_address), .auto_coupler_to_clint_fragmenter_anon_out_a_bits_mask (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_mask), .auto_coupler_to_clint_fragmenter_anon_out_a_bits_data (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_data), .auto_coupler_to_clint_fragmenter_anon_out_a_bits_corrupt (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_corrupt), .auto_coupler_to_clint_fragmenter_anon_out_d_ready (_cbus_auto_coupler_to_clint_fragmenter_anon_out_d_ready), .auto_coupler_to_clint_fragmenter_anon_out_d_valid (_clint_domain_auto_clint_in_d_valid), // @[BusWrapper.scala:89:28] .auto_coupler_to_clint_fragmenter_anon_out_d_bits_opcode (_clint_domain_auto_clint_in_d_bits_opcode), // @[BusWrapper.scala:89:28] .auto_coupler_to_clint_fragmenter_anon_out_d_bits_size (_clint_domain_auto_clint_in_d_bits_size), // @[BusWrapper.scala:89:28] .auto_coupler_to_clint_fragmenter_anon_out_d_bits_source (_clint_domain_auto_clint_in_d_bits_source), // @[BusWrapper.scala:89:28] .auto_coupler_to_clint_fragmenter_anon_out_d_bits_data (_clint_domain_auto_clint_in_d_bits_data), // @[BusWrapper.scala:89:28] .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_opcode), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_param), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_size), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_source), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_address), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_mask), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_data), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_0_corrupt), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_opcode), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_param), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_size), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_source), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_address), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_mask), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_data), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_1_corrupt), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_opcode), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_param), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_size), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_source), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_address), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_mask), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_data), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_2_corrupt), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_opcode), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_param), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_size), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_source), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_address), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_mask), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_data), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_3_corrupt), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_opcode), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_param), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_size), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_source), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_address), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_mask), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_data), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_4_corrupt), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_opcode), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_param), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_size), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_source), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_address), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_mask), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_data), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_5_corrupt), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_opcode), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_param), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_size), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_source), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_address), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_mask), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_data), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_6_corrupt), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_opcode (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_opcode), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_param (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_param), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_size (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_size), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_source (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_source), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_address (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_address), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_mask (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_mask), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_data (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_data), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_corrupt (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_mem_7_corrupt), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_ridx (_pbus_auto_bus_xing_in_a_ridx), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_a_widx (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_widx), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_safe_ridx_valid (_pbus_auto_bus_xing_in_a_safe_ridx_valid), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_a_safe_widx_valid (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_safe_widx_valid), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_safe_source_reset_n (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_a_safe_source_reset_n), .auto_coupler_to_bus_named_pbus_bus_xing_out_a_safe_sink_reset_n (_pbus_auto_bus_xing_in_a_safe_sink_reset_n), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_0_opcode (_pbus_auto_bus_xing_in_d_mem_0_opcode), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_0_param (_pbus_auto_bus_xing_in_d_mem_0_param), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_0_size (_pbus_auto_bus_xing_in_d_mem_0_size), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_0_source (_pbus_auto_bus_xing_in_d_mem_0_source), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_0_sink (_pbus_auto_bus_xing_in_d_mem_0_sink), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_0_denied (_pbus_auto_bus_xing_in_d_mem_0_denied), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_0_data (_pbus_auto_bus_xing_in_d_mem_0_data), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_0_corrupt (_pbus_auto_bus_xing_in_d_mem_0_corrupt), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_1_opcode (_pbus_auto_bus_xing_in_d_mem_1_opcode), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_1_param (_pbus_auto_bus_xing_in_d_mem_1_param), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_1_size (_pbus_auto_bus_xing_in_d_mem_1_size), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_1_source (_pbus_auto_bus_xing_in_d_mem_1_source), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_1_sink (_pbus_auto_bus_xing_in_d_mem_1_sink), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_1_denied (_pbus_auto_bus_xing_in_d_mem_1_denied), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_1_data (_pbus_auto_bus_xing_in_d_mem_1_data), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_1_corrupt (_pbus_auto_bus_xing_in_d_mem_1_corrupt), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_2_opcode (_pbus_auto_bus_xing_in_d_mem_2_opcode), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_2_param (_pbus_auto_bus_xing_in_d_mem_2_param), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_2_size (_pbus_auto_bus_xing_in_d_mem_2_size), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_2_source (_pbus_auto_bus_xing_in_d_mem_2_source), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_2_sink (_pbus_auto_bus_xing_in_d_mem_2_sink), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_2_denied (_pbus_auto_bus_xing_in_d_mem_2_denied), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_2_data (_pbus_auto_bus_xing_in_d_mem_2_data), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_2_corrupt (_pbus_auto_bus_xing_in_d_mem_2_corrupt), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_3_opcode (_pbus_auto_bus_xing_in_d_mem_3_opcode), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_3_param (_pbus_auto_bus_xing_in_d_mem_3_param), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_3_size (_pbus_auto_bus_xing_in_d_mem_3_size), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_3_source (_pbus_auto_bus_xing_in_d_mem_3_source), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_3_sink (_pbus_auto_bus_xing_in_d_mem_3_sink), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_3_denied (_pbus_auto_bus_xing_in_d_mem_3_denied), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_3_data (_pbus_auto_bus_xing_in_d_mem_3_data), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_3_corrupt (_pbus_auto_bus_xing_in_d_mem_3_corrupt), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_4_opcode (_pbus_auto_bus_xing_in_d_mem_4_opcode), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_4_param (_pbus_auto_bus_xing_in_d_mem_4_param), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_4_size (_pbus_auto_bus_xing_in_d_mem_4_size), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_4_source (_pbus_auto_bus_xing_in_d_mem_4_source), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_4_sink (_pbus_auto_bus_xing_in_d_mem_4_sink), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_4_denied (_pbus_auto_bus_xing_in_d_mem_4_denied), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_4_data (_pbus_auto_bus_xing_in_d_mem_4_data), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_4_corrupt (_pbus_auto_bus_xing_in_d_mem_4_corrupt), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_5_opcode (_pbus_auto_bus_xing_in_d_mem_5_opcode), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_5_param (_pbus_auto_bus_xing_in_d_mem_5_param), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_5_size (_pbus_auto_bus_xing_in_d_mem_5_size), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_5_source (_pbus_auto_bus_xing_in_d_mem_5_source), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_5_sink (_pbus_auto_bus_xing_in_d_mem_5_sink), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_5_denied (_pbus_auto_bus_xing_in_d_mem_5_denied), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_5_data (_pbus_auto_bus_xing_in_d_mem_5_data), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_5_corrupt (_pbus_auto_bus_xing_in_d_mem_5_corrupt), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_6_opcode (_pbus_auto_bus_xing_in_d_mem_6_opcode), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_6_param (_pbus_auto_bus_xing_in_d_mem_6_param), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_6_size (_pbus_auto_bus_xing_in_d_mem_6_size), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_6_source (_pbus_auto_bus_xing_in_d_mem_6_source), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_6_sink (_pbus_auto_bus_xing_in_d_mem_6_sink), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_6_denied (_pbus_auto_bus_xing_in_d_mem_6_denied), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_6_data (_pbus_auto_bus_xing_in_d_mem_6_data), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_6_corrupt (_pbus_auto_bus_xing_in_d_mem_6_corrupt), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_7_opcode (_pbus_auto_bus_xing_in_d_mem_7_opcode), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_7_param (_pbus_auto_bus_xing_in_d_mem_7_param), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_7_size (_pbus_auto_bus_xing_in_d_mem_7_size), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_7_source (_pbus_auto_bus_xing_in_d_mem_7_source), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_7_sink (_pbus_auto_bus_xing_in_d_mem_7_sink), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_7_denied (_pbus_auto_bus_xing_in_d_mem_7_denied), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_7_data (_pbus_auto_bus_xing_in_d_mem_7_data), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_mem_7_corrupt (_pbus_auto_bus_xing_in_d_mem_7_corrupt), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_ridx (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_d_ridx), .auto_coupler_to_bus_named_pbus_bus_xing_out_d_widx (_pbus_auto_bus_xing_in_d_widx), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_safe_ridx_valid (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_d_safe_ridx_valid), .auto_coupler_to_bus_named_pbus_bus_xing_out_d_safe_widx_valid (_pbus_auto_bus_xing_in_d_safe_widx_valid), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_safe_source_reset_n (_pbus_auto_bus_xing_in_d_safe_source_reset_n), // @[PeripheryBus.scala:37:26] .auto_coupler_to_bus_named_pbus_bus_xing_out_d_safe_sink_reset_n (_cbus_auto_coupler_to_bus_named_pbus_bus_xing_out_d_safe_sink_reset_n), .auto_coupler_to_l2_ctrl_buffer_out_a_ready (_coh_wrapper_auto_l2_ctrls_ctrl_in_a_ready), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_l2_ctrl_buffer_out_a_valid (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_valid), .auto_coupler_to_l2_ctrl_buffer_out_a_bits_opcode (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_opcode), .auto_coupler_to_l2_ctrl_buffer_out_a_bits_param (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_param), .auto_coupler_to_l2_ctrl_buffer_out_a_bits_size (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_size), .auto_coupler_to_l2_ctrl_buffer_out_a_bits_source (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_source), .auto_coupler_to_l2_ctrl_buffer_out_a_bits_address (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_address), .auto_coupler_to_l2_ctrl_buffer_out_a_bits_mask (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_mask), .auto_coupler_to_l2_ctrl_buffer_out_a_bits_data (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_data), .auto_coupler_to_l2_ctrl_buffer_out_a_bits_corrupt (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_corrupt), .auto_coupler_to_l2_ctrl_buffer_out_d_ready (_cbus_auto_coupler_to_l2_ctrl_buffer_out_d_ready), .auto_coupler_to_l2_ctrl_buffer_out_d_valid (_coh_wrapper_auto_l2_ctrls_ctrl_in_d_valid), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_l2_ctrl_buffer_out_d_bits_opcode (_coh_wrapper_auto_l2_ctrls_ctrl_in_d_bits_opcode), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_l2_ctrl_buffer_out_d_bits_size (_coh_wrapper_auto_l2_ctrls_ctrl_in_d_bits_size), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_l2_ctrl_buffer_out_d_bits_source (_coh_wrapper_auto_l2_ctrls_ctrl_in_d_bits_source), // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_l2_ctrl_buffer_out_d_bits_data (_coh_wrapper_auto_l2_ctrls_ctrl_in_d_bits_data), // @[BankedCoherenceParams.scala:56:31] .auto_fixedClockNode_anon_out_5_clock (auto_cbus_fixedClockNode_anon_out_clock_0), .auto_fixedClockNode_anon_out_5_reset (auto_cbus_fixedClockNode_anon_out_reset_0), .auto_fixedClockNode_anon_out_4_clock (_cbus_auto_fixedClockNode_anon_out_4_clock), .auto_fixedClockNode_anon_out_4_reset (_cbus_auto_fixedClockNode_anon_out_4_reset), .auto_fixedClockNode_anon_out_3_clock (_cbus_auto_fixedClockNode_anon_out_3_clock), .auto_fixedClockNode_anon_out_3_reset (_cbus_auto_fixedClockNode_anon_out_3_reset), .auto_fixedClockNode_anon_out_2_clock (domainIn_clock), .auto_fixedClockNode_anon_out_2_reset (domainIn_reset), .auto_fixedClockNode_anon_out_1_clock (_cbus_auto_fixedClockNode_anon_out_1_clock), .auto_fixedClockNode_anon_out_1_reset (_cbus_auto_fixedClockNode_anon_out_1_reset), .auto_fixedClockNode_anon_out_0_clock (_cbus_auto_fixedClockNode_anon_out_0_clock), .auto_fixedClockNode_anon_out_0_reset (_cbus_auto_fixedClockNode_anon_out_0_reset), .auto_cbus_clock_groups_in_member_cbus_0_clock (x1_allClockGroupsNodeOut_4_member_cbus_0_clock), // @[MixedNode.scala:542:17] .auto_cbus_clock_groups_in_member_cbus_0_reset (x1_allClockGroupsNodeOut_4_member_cbus_0_reset), // @[MixedNode.scala:542:17] .auto_bus_xing_in_a_ready (_cbus_auto_bus_xing_in_a_ready), .auto_bus_xing_in_a_valid (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_valid), // @[SystemBus.scala:31:26] .auto_bus_xing_in_a_bits_opcode (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_opcode), // @[SystemBus.scala:31:26] .auto_bus_xing_in_a_bits_param (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_param), // @[SystemBus.scala:31:26] .auto_bus_xing_in_a_bits_size (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_size), // @[SystemBus.scala:31:26] .auto_bus_xing_in_a_bits_source (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_source), // @[SystemBus.scala:31:26] .auto_bus_xing_in_a_bits_address (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_address), // @[SystemBus.scala:31:26] .auto_bus_xing_in_a_bits_mask (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_mask), // @[SystemBus.scala:31:26] .auto_bus_xing_in_a_bits_data (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_data), // @[SystemBus.scala:31:26] .auto_bus_xing_in_a_bits_corrupt (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_corrupt), // @[SystemBus.scala:31:26] .auto_bus_xing_in_d_ready (_sbus_auto_coupler_to_bus_named_cbus_bus_xing_out_d_ready), // @[SystemBus.scala:31:26] .auto_bus_xing_in_d_valid (_cbus_auto_bus_xing_in_d_valid), .auto_bus_xing_in_d_bits_opcode (_cbus_auto_bus_xing_in_d_bits_opcode), .auto_bus_xing_in_d_bits_param (_cbus_auto_bus_xing_in_d_bits_param), .auto_bus_xing_in_d_bits_size (_cbus_auto_bus_xing_in_d_bits_size), .auto_bus_xing_in_d_bits_source (_cbus_auto_bus_xing_in_d_bits_source), .auto_bus_xing_in_d_bits_sink (_cbus_auto_bus_xing_in_d_bits_sink), .auto_bus_xing_in_d_bits_denied (_cbus_auto_bus_xing_in_d_bits_denied), .auto_bus_xing_in_d_bits_data (_cbus_auto_bus_xing_in_d_bits_data), .auto_bus_xing_in_d_bits_corrupt (_cbus_auto_bus_xing_in_d_bits_corrupt), .custom_boot (custom_boot) ); // @[PeripheryBus.scala:37:26] MemoryBus mbus ( // @[MemoryBus.scala:30:26] .auto_buffer_out_a_ready (_bank_auto_xbar_anon_in_a_ready), // @[Scratchpad.scala:65:28] .auto_buffer_out_a_valid (_mbus_auto_buffer_out_a_valid), .auto_buffer_out_a_bits_opcode (_mbus_auto_buffer_out_a_bits_opcode), .auto_buffer_out_a_bits_param (_mbus_auto_buffer_out_a_bits_param), .auto_buffer_out_a_bits_size (_mbus_auto_buffer_out_a_bits_size), .auto_buffer_out_a_bits_source (_mbus_auto_buffer_out_a_bits_source), .auto_buffer_out_a_bits_address (_mbus_auto_buffer_out_a_bits_address), .auto_buffer_out_a_bits_mask (_mbus_auto_buffer_out_a_bits_mask), .auto_buffer_out_a_bits_data (_mbus_auto_buffer_out_a_bits_data), .auto_buffer_out_a_bits_corrupt (_mbus_auto_buffer_out_a_bits_corrupt), .auto_buffer_out_d_ready (_mbus_auto_buffer_out_d_ready), .auto_buffer_out_d_valid (_bank_auto_xbar_anon_in_d_valid), // @[Scratchpad.scala:65:28] .auto_buffer_out_d_bits_opcode (_bank_auto_xbar_anon_in_d_bits_opcode), // @[Scratchpad.scala:65:28] .auto_buffer_out_d_bits_param (_bank_auto_xbar_anon_in_d_bits_param), // @[Scratchpad.scala:65:28] .auto_buffer_out_d_bits_size (_bank_auto_xbar_anon_in_d_bits_size), // @[Scratchpad.scala:65:28] .auto_buffer_out_d_bits_source (_bank_auto_xbar_anon_in_d_bits_source), // @[Scratchpad.scala:65:28] .auto_buffer_out_d_bits_sink (_bank_auto_xbar_anon_in_d_bits_sink), // @[Scratchpad.scala:65:28] .auto_buffer_out_d_bits_denied (_bank_auto_xbar_anon_in_d_bits_denied), // @[Scratchpad.scala:65:28] .auto_buffer_out_d_bits_data (_bank_auto_xbar_anon_in_d_bits_data), // @[Scratchpad.scala:65:28] .auto_buffer_out_d_bits_corrupt (_bank_auto_xbar_anon_in_d_bits_corrupt), // @[Scratchpad.scala:65:28] .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_aw_ready (memAXI4NodeIn_aw_ready), // @[MixedNode.scala:551:17] .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_aw_valid (memAXI4NodeIn_aw_valid), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_aw_bits_id (memAXI4NodeIn_aw_bits_id), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_aw_bits_addr (memAXI4NodeIn_aw_bits_addr), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_aw_bits_len (memAXI4NodeIn_aw_bits_len), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_aw_bits_size (memAXI4NodeIn_aw_bits_size), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_aw_bits_burst (memAXI4NodeIn_aw_bits_burst), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_aw_bits_lock (memAXI4NodeIn_aw_bits_lock), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_aw_bits_cache (memAXI4NodeIn_aw_bits_cache), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_aw_bits_prot (memAXI4NodeIn_aw_bits_prot), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_aw_bits_qos (memAXI4NodeIn_aw_bits_qos), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_w_ready (memAXI4NodeIn_w_ready), // @[MixedNode.scala:551:17] .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_w_valid (memAXI4NodeIn_w_valid), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_w_bits_data (memAXI4NodeIn_w_bits_data), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_w_bits_strb (memAXI4NodeIn_w_bits_strb), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_w_bits_last (memAXI4NodeIn_w_bits_last), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_b_ready (memAXI4NodeIn_b_ready), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_b_valid (memAXI4NodeIn_b_valid), // @[MixedNode.scala:551:17] .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_b_bits_id (memAXI4NodeIn_b_bits_id), // @[MixedNode.scala:551:17] .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_b_bits_resp (memAXI4NodeIn_b_bits_resp), // @[MixedNode.scala:551:17] .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_ar_ready (memAXI4NodeIn_ar_ready), // @[MixedNode.scala:551:17] .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_ar_valid (memAXI4NodeIn_ar_valid), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_ar_bits_id (memAXI4NodeIn_ar_bits_id), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_ar_bits_addr (memAXI4NodeIn_ar_bits_addr), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_ar_bits_len (memAXI4NodeIn_ar_bits_len), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_ar_bits_size (memAXI4NodeIn_ar_bits_size), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_ar_bits_burst (memAXI4NodeIn_ar_bits_burst), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_ar_bits_lock (memAXI4NodeIn_ar_bits_lock), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_ar_bits_cache (memAXI4NodeIn_ar_bits_cache), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_ar_bits_prot (memAXI4NodeIn_ar_bits_prot), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_ar_bits_qos (memAXI4NodeIn_ar_bits_qos), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_r_ready (memAXI4NodeIn_r_ready), .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_r_valid (memAXI4NodeIn_r_valid), // @[MixedNode.scala:551:17] .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_r_bits_id (memAXI4NodeIn_r_bits_id), // @[MixedNode.scala:551:17] .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_r_bits_data (memAXI4NodeIn_r_bits_data), // @[MixedNode.scala:551:17] .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_r_bits_resp (memAXI4NodeIn_r_bits_resp), // @[MixedNode.scala:551:17] .auto_coupler_to_memory_controller_port_named_axi4_axi4yank_out_r_bits_last (memAXI4NodeIn_r_bits_last), // @[MixedNode.scala:551:17] .auto_fixedClockNode_anon_out_1_clock (auto_mbus_fixedClockNode_anon_out_clock_0), .auto_fixedClockNode_anon_out_1_reset (auto_mbus_fixedClockNode_anon_out_reset_0), .auto_fixedClockNode_anon_out_0_clock (_mbus_auto_fixedClockNode_anon_out_0_clock), .auto_fixedClockNode_anon_out_0_reset (_mbus_auto_fixedClockNode_anon_out_0_reset), .auto_mbus_clock_groups_in_member_mbus_0_clock (x1_allClockGroupsNodeOut_3_member_mbus_0_clock), // @[MixedNode.scala:542:17] .auto_mbus_clock_groups_in_member_mbus_0_reset (x1_allClockGroupsNodeOut_3_member_mbus_0_reset), // @[MixedNode.scala:542:17] .auto_bus_xing_in_a_mem_0_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_opcode), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_0_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_param), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_0_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_size), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_0_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_source), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_0_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_address), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_0_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_mask), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_0_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_data), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_0_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_corrupt), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_1_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_opcode), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_1_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_param), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_1_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_size), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_1_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_source), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_1_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_address), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_1_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_mask), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_1_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_data), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_1_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_corrupt), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_2_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_opcode), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_2_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_param), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_2_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_size), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_2_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_source), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_2_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_address), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_2_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_mask), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_2_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_data), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_2_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_corrupt), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_3_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_opcode), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_3_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_param), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_3_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_size), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_3_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_source), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_3_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_address), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_3_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_mask), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_3_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_data), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_3_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_corrupt), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_4_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_opcode), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_4_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_param), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_4_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_size), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_4_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_source), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_4_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_address), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_4_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_mask), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_4_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_data), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_4_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_corrupt), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_5_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_opcode), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_5_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_param), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_5_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_size), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_5_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_source), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_5_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_address), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_5_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_mask), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_5_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_data), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_5_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_corrupt), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_6_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_opcode), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_6_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_param), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_6_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_size), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_6_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_source), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_6_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_address), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_6_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_mask), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_6_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_data), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_6_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_corrupt), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_7_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_opcode), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_7_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_param), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_7_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_size), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_7_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_source), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_7_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_address), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_7_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_mask), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_7_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_data), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_mem_7_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_corrupt), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_ridx (_mbus_auto_bus_xing_in_a_ridx), .auto_bus_xing_in_a_widx (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_widx), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_safe_ridx_valid (_mbus_auto_bus_xing_in_a_safe_ridx_valid), .auto_bus_xing_in_a_safe_widx_valid (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_safe_widx_valid), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_safe_source_reset_n (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_safe_source_reset_n), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_a_safe_sink_reset_n (_mbus_auto_bus_xing_in_a_safe_sink_reset_n), .auto_bus_xing_in_d_mem_0_opcode (_mbus_auto_bus_xing_in_d_mem_0_opcode), .auto_bus_xing_in_d_mem_0_param (_mbus_auto_bus_xing_in_d_mem_0_param), .auto_bus_xing_in_d_mem_0_size (_mbus_auto_bus_xing_in_d_mem_0_size), .auto_bus_xing_in_d_mem_0_source (_mbus_auto_bus_xing_in_d_mem_0_source), .auto_bus_xing_in_d_mem_0_sink (_mbus_auto_bus_xing_in_d_mem_0_sink), .auto_bus_xing_in_d_mem_0_denied (_mbus_auto_bus_xing_in_d_mem_0_denied), .auto_bus_xing_in_d_mem_0_data (_mbus_auto_bus_xing_in_d_mem_0_data), .auto_bus_xing_in_d_mem_0_corrupt (_mbus_auto_bus_xing_in_d_mem_0_corrupt), .auto_bus_xing_in_d_mem_1_opcode (_mbus_auto_bus_xing_in_d_mem_1_opcode), .auto_bus_xing_in_d_mem_1_param (_mbus_auto_bus_xing_in_d_mem_1_param), .auto_bus_xing_in_d_mem_1_size (_mbus_auto_bus_xing_in_d_mem_1_size), .auto_bus_xing_in_d_mem_1_source (_mbus_auto_bus_xing_in_d_mem_1_source), .auto_bus_xing_in_d_mem_1_sink (_mbus_auto_bus_xing_in_d_mem_1_sink), .auto_bus_xing_in_d_mem_1_denied (_mbus_auto_bus_xing_in_d_mem_1_denied), .auto_bus_xing_in_d_mem_1_data (_mbus_auto_bus_xing_in_d_mem_1_data), .auto_bus_xing_in_d_mem_1_corrupt (_mbus_auto_bus_xing_in_d_mem_1_corrupt), .auto_bus_xing_in_d_mem_2_opcode (_mbus_auto_bus_xing_in_d_mem_2_opcode), .auto_bus_xing_in_d_mem_2_param (_mbus_auto_bus_xing_in_d_mem_2_param), .auto_bus_xing_in_d_mem_2_size (_mbus_auto_bus_xing_in_d_mem_2_size), .auto_bus_xing_in_d_mem_2_source (_mbus_auto_bus_xing_in_d_mem_2_source), .auto_bus_xing_in_d_mem_2_sink (_mbus_auto_bus_xing_in_d_mem_2_sink), .auto_bus_xing_in_d_mem_2_denied (_mbus_auto_bus_xing_in_d_mem_2_denied), .auto_bus_xing_in_d_mem_2_data (_mbus_auto_bus_xing_in_d_mem_2_data), .auto_bus_xing_in_d_mem_2_corrupt (_mbus_auto_bus_xing_in_d_mem_2_corrupt), .auto_bus_xing_in_d_mem_3_opcode (_mbus_auto_bus_xing_in_d_mem_3_opcode), .auto_bus_xing_in_d_mem_3_param (_mbus_auto_bus_xing_in_d_mem_3_param), .auto_bus_xing_in_d_mem_3_size (_mbus_auto_bus_xing_in_d_mem_3_size), .auto_bus_xing_in_d_mem_3_source (_mbus_auto_bus_xing_in_d_mem_3_source), .auto_bus_xing_in_d_mem_3_sink (_mbus_auto_bus_xing_in_d_mem_3_sink), .auto_bus_xing_in_d_mem_3_denied (_mbus_auto_bus_xing_in_d_mem_3_denied), .auto_bus_xing_in_d_mem_3_data (_mbus_auto_bus_xing_in_d_mem_3_data), .auto_bus_xing_in_d_mem_3_corrupt (_mbus_auto_bus_xing_in_d_mem_3_corrupt), .auto_bus_xing_in_d_mem_4_opcode (_mbus_auto_bus_xing_in_d_mem_4_opcode), .auto_bus_xing_in_d_mem_4_param (_mbus_auto_bus_xing_in_d_mem_4_param), .auto_bus_xing_in_d_mem_4_size (_mbus_auto_bus_xing_in_d_mem_4_size), .auto_bus_xing_in_d_mem_4_source (_mbus_auto_bus_xing_in_d_mem_4_source), .auto_bus_xing_in_d_mem_4_sink (_mbus_auto_bus_xing_in_d_mem_4_sink), .auto_bus_xing_in_d_mem_4_denied (_mbus_auto_bus_xing_in_d_mem_4_denied), .auto_bus_xing_in_d_mem_4_data (_mbus_auto_bus_xing_in_d_mem_4_data), .auto_bus_xing_in_d_mem_4_corrupt (_mbus_auto_bus_xing_in_d_mem_4_corrupt), .auto_bus_xing_in_d_mem_5_opcode (_mbus_auto_bus_xing_in_d_mem_5_opcode), .auto_bus_xing_in_d_mem_5_param (_mbus_auto_bus_xing_in_d_mem_5_param), .auto_bus_xing_in_d_mem_5_size (_mbus_auto_bus_xing_in_d_mem_5_size), .auto_bus_xing_in_d_mem_5_source (_mbus_auto_bus_xing_in_d_mem_5_source), .auto_bus_xing_in_d_mem_5_sink (_mbus_auto_bus_xing_in_d_mem_5_sink), .auto_bus_xing_in_d_mem_5_denied (_mbus_auto_bus_xing_in_d_mem_5_denied), .auto_bus_xing_in_d_mem_5_data (_mbus_auto_bus_xing_in_d_mem_5_data), .auto_bus_xing_in_d_mem_5_corrupt (_mbus_auto_bus_xing_in_d_mem_5_corrupt), .auto_bus_xing_in_d_mem_6_opcode (_mbus_auto_bus_xing_in_d_mem_6_opcode), .auto_bus_xing_in_d_mem_6_param (_mbus_auto_bus_xing_in_d_mem_6_param), .auto_bus_xing_in_d_mem_6_size (_mbus_auto_bus_xing_in_d_mem_6_size), .auto_bus_xing_in_d_mem_6_source (_mbus_auto_bus_xing_in_d_mem_6_source), .auto_bus_xing_in_d_mem_6_sink (_mbus_auto_bus_xing_in_d_mem_6_sink), .auto_bus_xing_in_d_mem_6_denied (_mbus_auto_bus_xing_in_d_mem_6_denied), .auto_bus_xing_in_d_mem_6_data (_mbus_auto_bus_xing_in_d_mem_6_data), .auto_bus_xing_in_d_mem_6_corrupt (_mbus_auto_bus_xing_in_d_mem_6_corrupt), .auto_bus_xing_in_d_mem_7_opcode (_mbus_auto_bus_xing_in_d_mem_7_opcode), .auto_bus_xing_in_d_mem_7_param (_mbus_auto_bus_xing_in_d_mem_7_param), .auto_bus_xing_in_d_mem_7_size (_mbus_auto_bus_xing_in_d_mem_7_size), .auto_bus_xing_in_d_mem_7_source (_mbus_auto_bus_xing_in_d_mem_7_source), .auto_bus_xing_in_d_mem_7_sink (_mbus_auto_bus_xing_in_d_mem_7_sink), .auto_bus_xing_in_d_mem_7_denied (_mbus_auto_bus_xing_in_d_mem_7_denied), .auto_bus_xing_in_d_mem_7_data (_mbus_auto_bus_xing_in_d_mem_7_data), .auto_bus_xing_in_d_mem_7_corrupt (_mbus_auto_bus_xing_in_d_mem_7_corrupt), .auto_bus_xing_in_d_ridx (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_d_ridx), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_d_widx (_mbus_auto_bus_xing_in_d_widx), .auto_bus_xing_in_d_safe_ridx_valid (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_d_safe_ridx_valid), // @[BankedCoherenceParams.scala:56:31] .auto_bus_xing_in_d_safe_widx_valid (_mbus_auto_bus_xing_in_d_safe_widx_valid), .auto_bus_xing_in_d_safe_source_reset_n (_mbus_auto_bus_xing_in_d_safe_source_reset_n), .auto_bus_xing_in_d_safe_sink_reset_n (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_d_safe_sink_reset_n) // @[BankedCoherenceParams.scala:56:31] ); // @[MemoryBus.scala:30:26] CoherenceManagerWrapper coh_wrapper ( // @[BankedCoherenceParams.scala:56:31] .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_opcode), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_param), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_size), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_source), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_address), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_mask), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_data), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_0_corrupt), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_opcode), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_param), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_size), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_source), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_address), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_mask), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_data), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_1_corrupt), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_opcode), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_param), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_size), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_source), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_address), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_mask), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_data), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_2_corrupt), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_opcode), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_param), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_size), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_source), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_address), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_mask), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_data), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_3_corrupt), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_opcode), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_param), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_size), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_source), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_address), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_mask), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_data), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_4_corrupt), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_opcode), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_param), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_size), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_source), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_address), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_mask), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_data), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_5_corrupt), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_opcode), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_param), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_size), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_source), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_address), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_mask), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_data), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_6_corrupt), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_opcode (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_opcode), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_param (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_param), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_size (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_size), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_source (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_source), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_address (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_address), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_mask (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_mask), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_data (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_data), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_corrupt (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_mem_7_corrupt), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_ridx (_mbus_auto_bus_xing_in_a_ridx), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_a_widx (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_widx), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_safe_ridx_valid (_mbus_auto_bus_xing_in_a_safe_ridx_valid), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_a_safe_widx_valid (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_safe_widx_valid), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_safe_source_reset_n (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_a_safe_source_reset_n), .auto_coupler_to_bus_named_mbus_bus_xing_out_a_safe_sink_reset_n (_mbus_auto_bus_xing_in_a_safe_sink_reset_n), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_0_opcode (_mbus_auto_bus_xing_in_d_mem_0_opcode), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_0_param (_mbus_auto_bus_xing_in_d_mem_0_param), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_0_size (_mbus_auto_bus_xing_in_d_mem_0_size), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_0_source (_mbus_auto_bus_xing_in_d_mem_0_source), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_0_sink (_mbus_auto_bus_xing_in_d_mem_0_sink), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_0_denied (_mbus_auto_bus_xing_in_d_mem_0_denied), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_0_data (_mbus_auto_bus_xing_in_d_mem_0_data), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_0_corrupt (_mbus_auto_bus_xing_in_d_mem_0_corrupt), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_1_opcode (_mbus_auto_bus_xing_in_d_mem_1_opcode), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_1_param (_mbus_auto_bus_xing_in_d_mem_1_param), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_1_size (_mbus_auto_bus_xing_in_d_mem_1_size), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_1_source (_mbus_auto_bus_xing_in_d_mem_1_source), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_1_sink (_mbus_auto_bus_xing_in_d_mem_1_sink), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_1_denied (_mbus_auto_bus_xing_in_d_mem_1_denied), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_1_data (_mbus_auto_bus_xing_in_d_mem_1_data), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_1_corrupt (_mbus_auto_bus_xing_in_d_mem_1_corrupt), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_2_opcode (_mbus_auto_bus_xing_in_d_mem_2_opcode), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_2_param (_mbus_auto_bus_xing_in_d_mem_2_param), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_2_size (_mbus_auto_bus_xing_in_d_mem_2_size), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_2_source (_mbus_auto_bus_xing_in_d_mem_2_source), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_2_sink (_mbus_auto_bus_xing_in_d_mem_2_sink), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_2_denied (_mbus_auto_bus_xing_in_d_mem_2_denied), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_2_data (_mbus_auto_bus_xing_in_d_mem_2_data), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_2_corrupt (_mbus_auto_bus_xing_in_d_mem_2_corrupt), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_3_opcode (_mbus_auto_bus_xing_in_d_mem_3_opcode), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_3_param (_mbus_auto_bus_xing_in_d_mem_3_param), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_3_size (_mbus_auto_bus_xing_in_d_mem_3_size), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_3_source (_mbus_auto_bus_xing_in_d_mem_3_source), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_3_sink (_mbus_auto_bus_xing_in_d_mem_3_sink), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_3_denied (_mbus_auto_bus_xing_in_d_mem_3_denied), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_3_data (_mbus_auto_bus_xing_in_d_mem_3_data), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_3_corrupt (_mbus_auto_bus_xing_in_d_mem_3_corrupt), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_4_opcode (_mbus_auto_bus_xing_in_d_mem_4_opcode), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_4_param (_mbus_auto_bus_xing_in_d_mem_4_param), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_4_size (_mbus_auto_bus_xing_in_d_mem_4_size), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_4_source (_mbus_auto_bus_xing_in_d_mem_4_source), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_4_sink (_mbus_auto_bus_xing_in_d_mem_4_sink), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_4_denied (_mbus_auto_bus_xing_in_d_mem_4_denied), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_4_data (_mbus_auto_bus_xing_in_d_mem_4_data), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_4_corrupt (_mbus_auto_bus_xing_in_d_mem_4_corrupt), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_5_opcode (_mbus_auto_bus_xing_in_d_mem_5_opcode), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_5_param (_mbus_auto_bus_xing_in_d_mem_5_param), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_5_size (_mbus_auto_bus_xing_in_d_mem_5_size), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_5_source (_mbus_auto_bus_xing_in_d_mem_5_source), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_5_sink (_mbus_auto_bus_xing_in_d_mem_5_sink), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_5_denied (_mbus_auto_bus_xing_in_d_mem_5_denied), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_5_data (_mbus_auto_bus_xing_in_d_mem_5_data), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_5_corrupt (_mbus_auto_bus_xing_in_d_mem_5_corrupt), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_6_opcode (_mbus_auto_bus_xing_in_d_mem_6_opcode), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_6_param (_mbus_auto_bus_xing_in_d_mem_6_param), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_6_size (_mbus_auto_bus_xing_in_d_mem_6_size), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_6_source (_mbus_auto_bus_xing_in_d_mem_6_source), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_6_sink (_mbus_auto_bus_xing_in_d_mem_6_sink), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_6_denied (_mbus_auto_bus_xing_in_d_mem_6_denied), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_6_data (_mbus_auto_bus_xing_in_d_mem_6_data), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_6_corrupt (_mbus_auto_bus_xing_in_d_mem_6_corrupt), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_7_opcode (_mbus_auto_bus_xing_in_d_mem_7_opcode), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_7_param (_mbus_auto_bus_xing_in_d_mem_7_param), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_7_size (_mbus_auto_bus_xing_in_d_mem_7_size), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_7_source (_mbus_auto_bus_xing_in_d_mem_7_source), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_7_sink (_mbus_auto_bus_xing_in_d_mem_7_sink), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_7_denied (_mbus_auto_bus_xing_in_d_mem_7_denied), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_7_data (_mbus_auto_bus_xing_in_d_mem_7_data), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_mem_7_corrupt (_mbus_auto_bus_xing_in_d_mem_7_corrupt), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_ridx (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_d_ridx), .auto_coupler_to_bus_named_mbus_bus_xing_out_d_widx (_mbus_auto_bus_xing_in_d_widx), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_safe_ridx_valid (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_d_safe_ridx_valid), .auto_coupler_to_bus_named_mbus_bus_xing_out_d_safe_widx_valid (_mbus_auto_bus_xing_in_d_safe_widx_valid), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_safe_source_reset_n (_mbus_auto_bus_xing_in_d_safe_source_reset_n), // @[MemoryBus.scala:30:26] .auto_coupler_to_bus_named_mbus_bus_xing_out_d_safe_sink_reset_n (_coh_wrapper_auto_coupler_to_bus_named_mbus_bus_xing_out_d_safe_sink_reset_n), .auto_coherent_jbar_anon_in_a_ready (_coh_wrapper_auto_coherent_jbar_anon_in_a_ready), .auto_coherent_jbar_anon_in_a_valid (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_valid), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_a_bits_opcode (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_opcode), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_a_bits_param (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_param), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_a_bits_size (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_size), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_a_bits_source (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_source), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_a_bits_address (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_address), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_a_bits_mask (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_mask), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_a_bits_data (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_data), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_a_bits_corrupt (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_corrupt), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_b_ready (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_b_ready), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_b_valid (_coh_wrapper_auto_coherent_jbar_anon_in_b_valid), .auto_coherent_jbar_anon_in_b_bits_param (_coh_wrapper_auto_coherent_jbar_anon_in_b_bits_param), .auto_coherent_jbar_anon_in_b_bits_address (_coh_wrapper_auto_coherent_jbar_anon_in_b_bits_address), .auto_coherent_jbar_anon_in_c_ready (_coh_wrapper_auto_coherent_jbar_anon_in_c_ready), .auto_coherent_jbar_anon_in_c_valid (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_valid), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_c_bits_opcode (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_opcode), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_c_bits_param (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_param), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_c_bits_size (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_size), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_c_bits_source (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_source), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_c_bits_address (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_address), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_c_bits_data (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_data), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_c_bits_corrupt (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_corrupt), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_d_ready (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_d_ready), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_d_valid (_coh_wrapper_auto_coherent_jbar_anon_in_d_valid), .auto_coherent_jbar_anon_in_d_bits_opcode (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_opcode), .auto_coherent_jbar_anon_in_d_bits_param (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_param), .auto_coherent_jbar_anon_in_d_bits_size (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_size), .auto_coherent_jbar_anon_in_d_bits_source (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_source), .auto_coherent_jbar_anon_in_d_bits_sink (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_sink), .auto_coherent_jbar_anon_in_d_bits_denied (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_denied), .auto_coherent_jbar_anon_in_d_bits_data (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_data), .auto_coherent_jbar_anon_in_d_bits_corrupt (_coh_wrapper_auto_coherent_jbar_anon_in_d_bits_corrupt), .auto_coherent_jbar_anon_in_e_valid (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_e_valid), // @[SystemBus.scala:31:26] .auto_coherent_jbar_anon_in_e_bits_sink (_sbus_auto_coupler_to_bus_named_coh_widget_anon_out_e_bits_sink), // @[SystemBus.scala:31:26] .auto_l2_ctrls_ctrl_in_a_ready (_coh_wrapper_auto_l2_ctrls_ctrl_in_a_ready), .auto_l2_ctrls_ctrl_in_a_valid (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_valid), // @[PeripheryBus.scala:37:26] .auto_l2_ctrls_ctrl_in_a_bits_opcode (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_opcode), // @[PeripheryBus.scala:37:26] .auto_l2_ctrls_ctrl_in_a_bits_param (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_param), // @[PeripheryBus.scala:37:26] .auto_l2_ctrls_ctrl_in_a_bits_size (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_size), // @[PeripheryBus.scala:37:26] .auto_l2_ctrls_ctrl_in_a_bits_source (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_source), // @[PeripheryBus.scala:37:26] .auto_l2_ctrls_ctrl_in_a_bits_address (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_address), // @[PeripheryBus.scala:37:26] .auto_l2_ctrls_ctrl_in_a_bits_mask (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_mask), // @[PeripheryBus.scala:37:26] .auto_l2_ctrls_ctrl_in_a_bits_data (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_data), // @[PeripheryBus.scala:37:26] .auto_l2_ctrls_ctrl_in_a_bits_corrupt (_cbus_auto_coupler_to_l2_ctrl_buffer_out_a_bits_corrupt), // @[PeripheryBus.scala:37:26] .auto_l2_ctrls_ctrl_in_d_ready (_cbus_auto_coupler_to_l2_ctrl_buffer_out_d_ready), // @[PeripheryBus.scala:37:26] .auto_l2_ctrls_ctrl_in_d_valid (_coh_wrapper_auto_l2_ctrls_ctrl_in_d_valid), .auto_l2_ctrls_ctrl_in_d_bits_opcode (_coh_wrapper_auto_l2_ctrls_ctrl_in_d_bits_opcode), .auto_l2_ctrls_ctrl_in_d_bits_size (_coh_wrapper_auto_l2_ctrls_ctrl_in_d_bits_size), .auto_l2_ctrls_ctrl_in_d_bits_source (_coh_wrapper_auto_l2_ctrls_ctrl_in_d_bits_source), .auto_l2_ctrls_ctrl_in_d_bits_data (_coh_wrapper_auto_l2_ctrls_ctrl_in_d_bits_data), .auto_coh_clock_groups_in_member_coh_0_clock (_sbus_auto_sbus_clock_groups_out_member_coh_0_clock), // @[SystemBus.scala:31:26] .auto_coh_clock_groups_in_member_coh_0_reset (_sbus_auto_sbus_clock_groups_out_member_coh_0_reset) // @[SystemBus.scala:31:26] ); // @[BankedCoherenceParams.scala:56:31] TilePRCIDomain tile_prci_domain ( // @[HasTiles.scala:163:38] .auto_intsink_out_1_0 (_tile_prci_domain_auto_intsink_out_1_0), .auto_intsink_in_sync_0 (debugNodesOut_sync_0), // @[MixedNode.scala:542:17] .auto_element_reset_domain_rockettile_trace_source_out_insns_0_valid (nexus_auto_in_insns_0_valid), .auto_element_reset_domain_rockettile_trace_source_out_insns_0_iaddr (nexus_auto_in_insns_0_iaddr), .auto_element_reset_domain_rockettile_trace_source_out_insns_0_insn (nexus_auto_in_insns_0_insn), .auto_element_reset_domain_rockettile_trace_source_out_insns_0_priv (nexus_auto_in_insns_0_priv), .auto_element_reset_domain_rockettile_trace_source_out_insns_0_exception (nexus_auto_in_insns_0_exception), .auto_element_reset_domain_rockettile_trace_source_out_insns_0_interrupt (nexus_auto_in_insns_0_interrupt), .auto_element_reset_domain_rockettile_trace_source_out_insns_0_cause (nexus_auto_in_insns_0_cause), .auto_element_reset_domain_rockettile_trace_source_out_insns_0_tval (nexus_auto_in_insns_0_tval), .auto_element_reset_domain_rockettile_trace_source_out_time (nexus_auto_in_time), .auto_element_reset_domain_rockettile_hartid_in (_tileHartIdNexusNode_auto_out), // @[HasTiles.scala:75:39] .auto_int_in_clock_xing_in_2_sync_0 (_plic_domain_auto_int_in_clock_xing_out_1_sync_0), // @[BusWrapper.scala:89:28] .auto_int_in_clock_xing_in_1_sync_0 (_plic_domain_auto_int_in_clock_xing_out_0_sync_0), // @[BusWrapper.scala:89:28] .auto_int_in_clock_xing_in_0_sync_0 (_clint_domain_auto_int_in_clock_xing_out_sync_0), // @[BusWrapper.scala:89:28] .auto_int_in_clock_xing_in_0_sync_1 (_clint_domain_auto_int_in_clock_xing_out_sync_1), // @[BusWrapper.scala:89:28] .auto_tl_master_clock_xing_out_a_mem_0_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_opcode), .auto_tl_master_clock_xing_out_a_mem_0_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_param), .auto_tl_master_clock_xing_out_a_mem_0_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_size), .auto_tl_master_clock_xing_out_a_mem_0_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_source), .auto_tl_master_clock_xing_out_a_mem_0_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_address), .auto_tl_master_clock_xing_out_a_mem_0_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_mask), .auto_tl_master_clock_xing_out_a_mem_0_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_0_data), .auto_tl_master_clock_xing_out_a_mem_1_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_opcode), .auto_tl_master_clock_xing_out_a_mem_1_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_param), .auto_tl_master_clock_xing_out_a_mem_1_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_size), .auto_tl_master_clock_xing_out_a_mem_1_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_source), .auto_tl_master_clock_xing_out_a_mem_1_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_address), .auto_tl_master_clock_xing_out_a_mem_1_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_mask), .auto_tl_master_clock_xing_out_a_mem_1_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_1_data), .auto_tl_master_clock_xing_out_a_mem_2_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_opcode), .auto_tl_master_clock_xing_out_a_mem_2_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_param), .auto_tl_master_clock_xing_out_a_mem_2_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_size), .auto_tl_master_clock_xing_out_a_mem_2_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_source), .auto_tl_master_clock_xing_out_a_mem_2_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_address), .auto_tl_master_clock_xing_out_a_mem_2_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_mask), .auto_tl_master_clock_xing_out_a_mem_2_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_2_data), .auto_tl_master_clock_xing_out_a_mem_3_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_opcode), .auto_tl_master_clock_xing_out_a_mem_3_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_param), .auto_tl_master_clock_xing_out_a_mem_3_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_size), .auto_tl_master_clock_xing_out_a_mem_3_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_source), .auto_tl_master_clock_xing_out_a_mem_3_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_address), .auto_tl_master_clock_xing_out_a_mem_3_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_mask), .auto_tl_master_clock_xing_out_a_mem_3_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_3_data), .auto_tl_master_clock_xing_out_a_mem_4_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_opcode), .auto_tl_master_clock_xing_out_a_mem_4_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_param), .auto_tl_master_clock_xing_out_a_mem_4_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_size), .auto_tl_master_clock_xing_out_a_mem_4_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_source), .auto_tl_master_clock_xing_out_a_mem_4_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_address), .auto_tl_master_clock_xing_out_a_mem_4_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_mask), .auto_tl_master_clock_xing_out_a_mem_4_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_4_data), .auto_tl_master_clock_xing_out_a_mem_5_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_opcode), .auto_tl_master_clock_xing_out_a_mem_5_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_param), .auto_tl_master_clock_xing_out_a_mem_5_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_size), .auto_tl_master_clock_xing_out_a_mem_5_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_source), .auto_tl_master_clock_xing_out_a_mem_5_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_address), .auto_tl_master_clock_xing_out_a_mem_5_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_mask), .auto_tl_master_clock_xing_out_a_mem_5_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_5_data), .auto_tl_master_clock_xing_out_a_mem_6_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_opcode), .auto_tl_master_clock_xing_out_a_mem_6_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_param), .auto_tl_master_clock_xing_out_a_mem_6_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_size), .auto_tl_master_clock_xing_out_a_mem_6_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_source), .auto_tl_master_clock_xing_out_a_mem_6_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_address), .auto_tl_master_clock_xing_out_a_mem_6_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_mask), .auto_tl_master_clock_xing_out_a_mem_6_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_6_data), .auto_tl_master_clock_xing_out_a_mem_7_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_opcode), .auto_tl_master_clock_xing_out_a_mem_7_param (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_param), .auto_tl_master_clock_xing_out_a_mem_7_size (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_size), .auto_tl_master_clock_xing_out_a_mem_7_source (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_source), .auto_tl_master_clock_xing_out_a_mem_7_address (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_address), .auto_tl_master_clock_xing_out_a_mem_7_mask (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_mask), .auto_tl_master_clock_xing_out_a_mem_7_data (_tile_prci_domain_auto_tl_master_clock_xing_out_a_mem_7_data), .auto_tl_master_clock_xing_out_a_ridx (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_a_ridx), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_a_widx (_tile_prci_domain_auto_tl_master_clock_xing_out_a_widx), .auto_tl_master_clock_xing_out_a_safe_ridx_valid (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_a_safe_ridx_valid), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_a_safe_widx_valid (_tile_prci_domain_auto_tl_master_clock_xing_out_a_safe_widx_valid), .auto_tl_master_clock_xing_out_a_safe_source_reset_n (_tile_prci_domain_auto_tl_master_clock_xing_out_a_safe_source_reset_n), .auto_tl_master_clock_xing_out_a_safe_sink_reset_n (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_a_safe_sink_reset_n), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_0_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_0_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_0_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_0_address), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_1_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_1_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_1_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_1_address), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_2_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_2_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_2_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_2_address), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_3_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_3_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_3_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_3_address), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_4_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_4_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_4_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_4_address), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_5_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_5_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_5_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_5_address), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_6_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_6_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_6_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_6_address), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_7_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_7_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_mem_7_address (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_mem_7_address), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_ridx (_tile_prci_domain_auto_tl_master_clock_xing_out_b_ridx), .auto_tl_master_clock_xing_out_b_widx (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_widx), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_safe_ridx_valid (_tile_prci_domain_auto_tl_master_clock_xing_out_b_safe_ridx_valid), .auto_tl_master_clock_xing_out_b_safe_widx_valid (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_safe_widx_valid), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_safe_source_reset_n (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_b_safe_source_reset_n), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_b_safe_sink_reset_n (_tile_prci_domain_auto_tl_master_clock_xing_out_b_safe_sink_reset_n), .auto_tl_master_clock_xing_out_c_mem_0_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_opcode), .auto_tl_master_clock_xing_out_c_mem_0_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_param), .auto_tl_master_clock_xing_out_c_mem_0_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_size), .auto_tl_master_clock_xing_out_c_mem_0_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_source), .auto_tl_master_clock_xing_out_c_mem_0_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_address), .auto_tl_master_clock_xing_out_c_mem_0_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_0_data), .auto_tl_master_clock_xing_out_c_mem_1_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_opcode), .auto_tl_master_clock_xing_out_c_mem_1_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_param), .auto_tl_master_clock_xing_out_c_mem_1_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_size), .auto_tl_master_clock_xing_out_c_mem_1_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_source), .auto_tl_master_clock_xing_out_c_mem_1_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_address), .auto_tl_master_clock_xing_out_c_mem_1_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_1_data), .auto_tl_master_clock_xing_out_c_mem_2_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_opcode), .auto_tl_master_clock_xing_out_c_mem_2_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_param), .auto_tl_master_clock_xing_out_c_mem_2_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_size), .auto_tl_master_clock_xing_out_c_mem_2_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_source), .auto_tl_master_clock_xing_out_c_mem_2_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_address), .auto_tl_master_clock_xing_out_c_mem_2_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_2_data), .auto_tl_master_clock_xing_out_c_mem_3_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_opcode), .auto_tl_master_clock_xing_out_c_mem_3_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_param), .auto_tl_master_clock_xing_out_c_mem_3_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_size), .auto_tl_master_clock_xing_out_c_mem_3_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_source), .auto_tl_master_clock_xing_out_c_mem_3_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_address), .auto_tl_master_clock_xing_out_c_mem_3_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_3_data), .auto_tl_master_clock_xing_out_c_mem_4_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_opcode), .auto_tl_master_clock_xing_out_c_mem_4_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_param), .auto_tl_master_clock_xing_out_c_mem_4_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_size), .auto_tl_master_clock_xing_out_c_mem_4_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_source), .auto_tl_master_clock_xing_out_c_mem_4_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_address), .auto_tl_master_clock_xing_out_c_mem_4_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_4_data), .auto_tl_master_clock_xing_out_c_mem_5_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_opcode), .auto_tl_master_clock_xing_out_c_mem_5_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_param), .auto_tl_master_clock_xing_out_c_mem_5_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_size), .auto_tl_master_clock_xing_out_c_mem_5_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_source), .auto_tl_master_clock_xing_out_c_mem_5_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_address), .auto_tl_master_clock_xing_out_c_mem_5_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_5_data), .auto_tl_master_clock_xing_out_c_mem_6_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_opcode), .auto_tl_master_clock_xing_out_c_mem_6_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_param), .auto_tl_master_clock_xing_out_c_mem_6_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_size), .auto_tl_master_clock_xing_out_c_mem_6_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_source), .auto_tl_master_clock_xing_out_c_mem_6_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_address), .auto_tl_master_clock_xing_out_c_mem_6_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_6_data), .auto_tl_master_clock_xing_out_c_mem_7_opcode (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_opcode), .auto_tl_master_clock_xing_out_c_mem_7_param (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_param), .auto_tl_master_clock_xing_out_c_mem_7_size (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_size), .auto_tl_master_clock_xing_out_c_mem_7_source (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_source), .auto_tl_master_clock_xing_out_c_mem_7_address (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_address), .auto_tl_master_clock_xing_out_c_mem_7_data (_tile_prci_domain_auto_tl_master_clock_xing_out_c_mem_7_data), .auto_tl_master_clock_xing_out_c_ridx (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_c_ridx), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_c_widx (_tile_prci_domain_auto_tl_master_clock_xing_out_c_widx), .auto_tl_master_clock_xing_out_c_safe_ridx_valid (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_c_safe_ridx_valid), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_c_safe_widx_valid (_tile_prci_domain_auto_tl_master_clock_xing_out_c_safe_widx_valid), .auto_tl_master_clock_xing_out_c_safe_source_reset_n (_tile_prci_domain_auto_tl_master_clock_xing_out_c_safe_source_reset_n), .auto_tl_master_clock_xing_out_c_safe_sink_reset_n (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_c_safe_sink_reset_n), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_0_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_opcode), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_0_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_0_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_size), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_0_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_source), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_0_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_sink), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_0_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_denied), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_0_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_data), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_0_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_0_corrupt), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_1_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_opcode), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_1_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_1_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_size), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_1_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_source), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_1_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_sink), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_1_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_denied), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_1_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_data), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_1_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_1_corrupt), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_2_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_opcode), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_2_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_2_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_size), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_2_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_source), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_2_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_sink), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_2_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_denied), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_2_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_data), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_2_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_2_corrupt), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_3_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_opcode), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_3_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_3_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_size), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_3_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_source), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_3_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_sink), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_3_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_denied), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_3_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_data), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_3_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_3_corrupt), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_4_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_opcode), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_4_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_4_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_size), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_4_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_source), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_4_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_sink), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_4_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_denied), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_4_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_data), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_4_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_4_corrupt), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_5_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_opcode), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_5_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_5_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_size), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_5_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_source), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_5_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_sink), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_5_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_denied), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_5_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_data), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_5_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_5_corrupt), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_6_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_opcode), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_6_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_6_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_size), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_6_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_source), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_6_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_sink), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_6_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_denied), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_6_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_data), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_6_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_6_corrupt), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_7_opcode (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_opcode), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_7_param (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_param), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_7_size (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_size), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_7_source (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_source), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_7_sink (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_sink), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_7_denied (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_denied), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_7_data (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_data), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_mem_7_corrupt (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_mem_7_corrupt), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_ridx (_tile_prci_domain_auto_tl_master_clock_xing_out_d_ridx), .auto_tl_master_clock_xing_out_d_widx (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_widx), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_safe_ridx_valid (_tile_prci_domain_auto_tl_master_clock_xing_out_d_safe_ridx_valid), .auto_tl_master_clock_xing_out_d_safe_widx_valid (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_safe_widx_valid), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_safe_source_reset_n (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_d_safe_source_reset_n), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_d_safe_sink_reset_n (_tile_prci_domain_auto_tl_master_clock_xing_out_d_safe_sink_reset_n), .auto_tl_master_clock_xing_out_e_mem_0_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_0_sink), .auto_tl_master_clock_xing_out_e_mem_1_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_1_sink), .auto_tl_master_clock_xing_out_e_mem_2_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_2_sink), .auto_tl_master_clock_xing_out_e_mem_3_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_3_sink), .auto_tl_master_clock_xing_out_e_mem_4_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_4_sink), .auto_tl_master_clock_xing_out_e_mem_5_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_5_sink), .auto_tl_master_clock_xing_out_e_mem_6_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_6_sink), .auto_tl_master_clock_xing_out_e_mem_7_sink (_tile_prci_domain_auto_tl_master_clock_xing_out_e_mem_7_sink), .auto_tl_master_clock_xing_out_e_ridx (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_e_ridx), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_e_widx (_tile_prci_domain_auto_tl_master_clock_xing_out_e_widx), .auto_tl_master_clock_xing_out_e_safe_ridx_valid (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_e_safe_ridx_valid), // @[SystemBus.scala:31:26] .auto_tl_master_clock_xing_out_e_safe_widx_valid (_tile_prci_domain_auto_tl_master_clock_xing_out_e_safe_widx_valid), .auto_tl_master_clock_xing_out_e_safe_source_reset_n (_tile_prci_domain_auto_tl_master_clock_xing_out_e_safe_source_reset_n), .auto_tl_master_clock_xing_out_e_safe_sink_reset_n (_sbus_auto_coupler_from_rockettile_tl_master_clock_xing_in_e_safe_sink_reset_n), // @[SystemBus.scala:31:26] .auto_tap_clock_in_clock (tileClockGroup_auto_out_clock), // @[ClockGroup.scala:24:9] .auto_tap_clock_in_reset (tileClockGroup_auto_out_reset) // @[ClockGroup.scala:24:9] ); // @[HasTiles.scala:163:38] IntXbar_i1_o1_1 xbar (); // @[Xbar.scala:52:26] IntXbar_i1_o1_2 xbar_1 ( // @[Xbar.scala:52:26] .auto_anon_in_0 (_tile_prci_domain_auto_intsink_out_1_0), // @[HasTiles.scala:163:38] .auto_anon_out_0 (tileWFISinkNodeIn_0) ); // @[Xbar.scala:52:26] IntXbar_i1_o1_3 xbar_2 (); // @[Xbar.scala:52:26] BundleBridgeNexus_UInt1_1 tileHartIdNexusNode ( // @[HasTiles.scala:75:39] .auto_out (_tileHartIdNexusNode_auto_out) ); // @[HasTiles.scala:75:39] CLINTClockSinkDomain clint_domain ( // @[BusWrapper.scala:89:28] .auto_clint_in_a_ready (_clint_domain_auto_clint_in_a_ready), .auto_clint_in_a_valid (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_valid), // @[PeripheryBus.scala:37:26] .auto_clint_in_a_bits_opcode (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_opcode), // @[PeripheryBus.scala:37:26] .auto_clint_in_a_bits_param (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_param), // @[PeripheryBus.scala:37:26] .auto_clint_in_a_bits_size (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_size), // @[PeripheryBus.scala:37:26] .auto_clint_in_a_bits_source (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_source), // @[PeripheryBus.scala:37:26] .auto_clint_in_a_bits_address (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_address), // @[PeripheryBus.scala:37:26] .auto_clint_in_a_bits_mask (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_mask), // @[PeripheryBus.scala:37:26] .auto_clint_in_a_bits_data (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_data), // @[PeripheryBus.scala:37:26] .auto_clint_in_a_bits_corrupt (_cbus_auto_coupler_to_clint_fragmenter_anon_out_a_bits_corrupt), // @[PeripheryBus.scala:37:26] .auto_clint_in_d_ready (_cbus_auto_coupler_to_clint_fragmenter_anon_out_d_ready), // @[PeripheryBus.scala:37:26] .auto_clint_in_d_valid (_clint_domain_auto_clint_in_d_valid), .auto_clint_in_d_bits_opcode (_clint_domain_auto_clint_in_d_bits_opcode), .auto_clint_in_d_bits_size (_clint_domain_auto_clint_in_d_bits_size), .auto_clint_in_d_bits_source (_clint_domain_auto_clint_in_d_bits_source), .auto_clint_in_d_bits_data (_clint_domain_auto_clint_in_d_bits_data), .auto_int_in_clock_xing_out_sync_0 (_clint_domain_auto_int_in_clock_xing_out_sync_0), .auto_int_in_clock_xing_out_sync_1 (_clint_domain_auto_int_in_clock_xing_out_sync_1), .auto_clock_in_clock (_cbus_auto_fixedClockNode_anon_out_0_clock), // @[PeripheryBus.scala:37:26] .auto_clock_in_reset (_cbus_auto_fixedClockNode_anon_out_0_reset), // @[PeripheryBus.scala:37:26] .tick (int_rtc_tick), // @[Counter.scala:117:24] .clock (_clint_domain_clock), .reset (_clint_domain_reset) ); // @[BusWrapper.scala:89:28] PLICClockSinkDomain plic_domain ( // @[BusWrapper.scala:89:28] .auto_plic_int_in_0 (ibus_auto_int_bus_anon_out_0), // @[ClockDomain.scala:14:9] .auto_plic_in_a_ready (_plic_domain_auto_plic_in_a_ready), .auto_plic_in_a_valid (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_valid), // @[PeripheryBus.scala:37:26] .auto_plic_in_a_bits_opcode (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_opcode), // @[PeripheryBus.scala:37:26] .auto_plic_in_a_bits_param (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_param), // @[PeripheryBus.scala:37:26] .auto_plic_in_a_bits_size (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_size), // @[PeripheryBus.scala:37:26] .auto_plic_in_a_bits_source (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_source), // @[PeripheryBus.scala:37:26] .auto_plic_in_a_bits_address (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_address), // @[PeripheryBus.scala:37:26] .auto_plic_in_a_bits_mask (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_mask), // @[PeripheryBus.scala:37:26] .auto_plic_in_a_bits_data (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_data), // @[PeripheryBus.scala:37:26] .auto_plic_in_a_bits_corrupt (_cbus_auto_coupler_to_plic_fragmenter_anon_out_a_bits_corrupt), // @[PeripheryBus.scala:37:26] .auto_plic_in_d_ready (_cbus_auto_coupler_to_plic_fragmenter_anon_out_d_ready), // @[PeripheryBus.scala:37:26] .auto_plic_in_d_valid (_plic_domain_auto_plic_in_d_valid), .auto_plic_in_d_bits_opcode (_plic_domain_auto_plic_in_d_bits_opcode), .auto_plic_in_d_bits_size (_plic_domain_auto_plic_in_d_bits_size), .auto_plic_in_d_bits_source (_plic_domain_auto_plic_in_d_bits_source), .auto_plic_in_d_bits_data (_plic_domain_auto_plic_in_d_bits_data), .auto_int_in_clock_xing_out_1_sync_0 (_plic_domain_auto_int_in_clock_xing_out_1_sync_0), .auto_int_in_clock_xing_out_0_sync_0 (_plic_domain_auto_int_in_clock_xing_out_0_sync_0), .auto_clock_in_clock (_cbus_auto_fixedClockNode_anon_out_1_clock), // @[PeripheryBus.scala:37:26] .auto_clock_in_reset (_cbus_auto_fixedClockNode_anon_out_1_reset) // @[PeripheryBus.scala:37:26] ); // @[BusWrapper.scala:89:28] TLDebugModule tlDM ( // @[Periphery.scala:88:26] .auto_dmInner_dmInner_sb2tlOpt_out_a_ready (_fbus_auto_coupler_from_debug_sb_widget_anon_in_a_ready), // @[FrontBus.scala:23:26] .auto_dmInner_dmInner_sb2tlOpt_out_a_valid (_tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_valid), .auto_dmInner_dmInner_sb2tlOpt_out_a_bits_opcode (_tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_bits_opcode), .auto_dmInner_dmInner_sb2tlOpt_out_a_bits_size (_tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_bits_size), .auto_dmInner_dmInner_sb2tlOpt_out_a_bits_address (_tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_bits_address), .auto_dmInner_dmInner_sb2tlOpt_out_a_bits_data (_tlDM_auto_dmInner_dmInner_sb2tlOpt_out_a_bits_data), .auto_dmInner_dmInner_sb2tlOpt_out_d_ready (_tlDM_auto_dmInner_dmInner_sb2tlOpt_out_d_ready), .auto_dmInner_dmInner_sb2tlOpt_out_d_valid (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_valid), // @[FrontBus.scala:23:26] .auto_dmInner_dmInner_sb2tlOpt_out_d_bits_opcode (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_opcode), // @[FrontBus.scala:23:26] .auto_dmInner_dmInner_sb2tlOpt_out_d_bits_param (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_param), // @[FrontBus.scala:23:26] .auto_dmInner_dmInner_sb2tlOpt_out_d_bits_size (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_size), // @[FrontBus.scala:23:26] .auto_dmInner_dmInner_sb2tlOpt_out_d_bits_sink (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_sink), // @[FrontBus.scala:23:26] .auto_dmInner_dmInner_sb2tlOpt_out_d_bits_denied (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_denied), // @[FrontBus.scala:23:26] .auto_dmInner_dmInner_sb2tlOpt_out_d_bits_data (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_data), // @[FrontBus.scala:23:26] .auto_dmInner_dmInner_sb2tlOpt_out_d_bits_corrupt (_fbus_auto_coupler_from_debug_sb_widget_anon_in_d_bits_corrupt), // @[FrontBus.scala:23:26] .auto_dmInner_dmInner_tl_in_a_ready (_tlDM_auto_dmInner_dmInner_tl_in_a_ready), .auto_dmInner_dmInner_tl_in_a_valid (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_valid), // @[PeripheryBus.scala:37:26] .auto_dmInner_dmInner_tl_in_a_bits_opcode (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_opcode), // @[PeripheryBus.scala:37:26] .auto_dmInner_dmInner_tl_in_a_bits_param (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_param), // @[PeripheryBus.scala:37:26] .auto_dmInner_dmInner_tl_in_a_bits_size (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_size), // @[PeripheryBus.scala:37:26] .auto_dmInner_dmInner_tl_in_a_bits_source (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_source), // @[PeripheryBus.scala:37:26] .auto_dmInner_dmInner_tl_in_a_bits_address (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_address), // @[PeripheryBus.scala:37:26] .auto_dmInner_dmInner_tl_in_a_bits_mask (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_mask), // @[PeripheryBus.scala:37:26] .auto_dmInner_dmInner_tl_in_a_bits_data (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_data), // @[PeripheryBus.scala:37:26] .auto_dmInner_dmInner_tl_in_a_bits_corrupt (_cbus_auto_coupler_to_debug_fragmenter_anon_out_a_bits_corrupt), // @[PeripheryBus.scala:37:26] .auto_dmInner_dmInner_tl_in_d_ready (_cbus_auto_coupler_to_debug_fragmenter_anon_out_d_ready), // @[PeripheryBus.scala:37:26] .auto_dmInner_dmInner_tl_in_d_valid (_tlDM_auto_dmInner_dmInner_tl_in_d_valid), .auto_dmInner_dmInner_tl_in_d_bits_opcode (_tlDM_auto_dmInner_dmInner_tl_in_d_bits_opcode), .auto_dmInner_dmInner_tl_in_d_bits_size (_tlDM_auto_dmInner_dmInner_tl_in_d_bits_size), .auto_dmInner_dmInner_tl_in_d_bits_source (_tlDM_auto_dmInner_dmInner_tl_in_d_bits_source), .auto_dmInner_dmInner_tl_in_d_bits_data (_tlDM_auto_dmInner_dmInner_tl_in_d_bits_data), .auto_dmOuter_int_out_sync_0 (debugNodesIn_sync_0), .io_debug_clock (debug_clock_0), // @[DigitalTop.scala:47:7] .io_debug_reset (debug_reset_0), // @[DigitalTop.scala:47:7] .io_tl_clock (domainIn_clock), // @[MixedNode.scala:551:17] .io_tl_reset (domainIn_reset), // @[MixedNode.scala:551:17] .io_ctrl_ndreset (debug_ndreset), .io_ctrl_dmactive (debug_dmactive_0), .io_ctrl_dmactiveAck (debug_dmactiveAck_0), // @[DigitalTop.scala:47:7] .io_dmi_dmi_req_ready (_tlDM_io_dmi_dmi_req_ready), .io_dmi_dmi_req_valid (_dtm_io_dmi_req_valid), // @[Periphery.scala:166:21] .io_dmi_dmi_req_bits_addr (_dtm_io_dmi_req_bits_addr), // @[Periphery.scala:166:21] .io_dmi_dmi_req_bits_data (_dtm_io_dmi_req_bits_data), // @[Periphery.scala:166:21] .io_dmi_dmi_req_bits_op (_dtm_io_dmi_req_bits_op), // @[Periphery.scala:166:21] .io_dmi_dmi_resp_ready (_dtm_io_dmi_resp_ready), // @[Periphery.scala:166:21] .io_dmi_dmi_resp_valid (_tlDM_io_dmi_dmi_resp_valid), .io_dmi_dmi_resp_bits_data (_tlDM_io_dmi_dmi_resp_bits_data), .io_dmi_dmi_resp_bits_resp (_tlDM_io_dmi_dmi_resp_bits_resp), .io_dmi_dmiClock (debug_systemjtag_jtag_TCK_0), // @[DigitalTop.scala:47:7] .io_dmi_dmiReset (debug_systemjtag_reset_0), // @[DigitalTop.scala:47:7] .io_hartIsInReset_0 (resetctrl_hartIsInReset_0_0) // @[DigitalTop.scala:47:7] ); // @[Periphery.scala:88:26] DebugCustomXbar debugCustomXbarOpt (); // @[Periphery.scala:80:75] BootROMClockSinkDomain bootrom_domain ( // @[BusWrapper.scala:89:28] .auto_bootrom_in_a_ready (_bootrom_domain_auto_bootrom_in_a_ready), .auto_bootrom_in_a_valid (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_valid), // @[PeripheryBus.scala:37:26] .auto_bootrom_in_a_bits_opcode (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_opcode), // @[PeripheryBus.scala:37:26] .auto_bootrom_in_a_bits_param (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_param), // @[PeripheryBus.scala:37:26] .auto_bootrom_in_a_bits_size (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_size), // @[PeripheryBus.scala:37:26] .auto_bootrom_in_a_bits_source (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_source), // @[PeripheryBus.scala:37:26] .auto_bootrom_in_a_bits_address (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_address), // @[PeripheryBus.scala:37:26] .auto_bootrom_in_a_bits_mask (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_mask), // @[PeripheryBus.scala:37:26] .auto_bootrom_in_a_bits_data (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_data), // @[PeripheryBus.scala:37:26] .auto_bootrom_in_a_bits_corrupt (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_a_bits_corrupt), // @[PeripheryBus.scala:37:26] .auto_bootrom_in_d_ready (_cbus_auto_coupler_to_bootrom_fragmenter_anon_out_d_ready), // @[PeripheryBus.scala:37:26] .auto_bootrom_in_d_valid (_bootrom_domain_auto_bootrom_in_d_valid), .auto_bootrom_in_d_bits_size (_bootrom_domain_auto_bootrom_in_d_bits_size), .auto_bootrom_in_d_bits_source (_bootrom_domain_auto_bootrom_in_d_bits_source), .auto_bootrom_in_d_bits_data (_bootrom_domain_auto_bootrom_in_d_bits_data), .auto_clock_in_clock (_cbus_auto_fixedClockNode_anon_out_3_clock), // @[PeripheryBus.scala:37:26] .auto_clock_in_reset (_cbus_auto_fixedClockNode_anon_out_3_reset) // @[PeripheryBus.scala:37:26] ); // @[BusWrapper.scala:89:28] ScratchpadBank bank ( // @[Scratchpad.scala:65:28] .auto_xbar_anon_in_a_ready (_bank_auto_xbar_anon_in_a_ready), .auto_xbar_anon_in_a_valid (_mbus_auto_buffer_out_a_valid), // @[MemoryBus.scala:30:26] .auto_xbar_anon_in_a_bits_opcode (_mbus_auto_buffer_out_a_bits_opcode), // @[MemoryBus.scala:30:26] .auto_xbar_anon_in_a_bits_param (_mbus_auto_buffer_out_a_bits_param), // @[MemoryBus.scala:30:26] .auto_xbar_anon_in_a_bits_size (_mbus_auto_buffer_out_a_bits_size), // @[MemoryBus.scala:30:26] .auto_xbar_anon_in_a_bits_source (_mbus_auto_buffer_out_a_bits_source), // @[MemoryBus.scala:30:26] .auto_xbar_anon_in_a_bits_address (_mbus_auto_buffer_out_a_bits_address), // @[MemoryBus.scala:30:26] .auto_xbar_anon_in_a_bits_mask (_mbus_auto_buffer_out_a_bits_mask), // @[MemoryBus.scala:30:26] .auto_xbar_anon_in_a_bits_data (_mbus_auto_buffer_out_a_bits_data), // @[MemoryBus.scala:30:26] .auto_xbar_anon_in_a_bits_corrupt (_mbus_auto_buffer_out_a_bits_corrupt), // @[MemoryBus.scala:30:26] .auto_xbar_anon_in_d_ready (_mbus_auto_buffer_out_d_ready), // @[MemoryBus.scala:30:26] .auto_xbar_anon_in_d_valid (_bank_auto_xbar_anon_in_d_valid), .auto_xbar_anon_in_d_bits_opcode (_bank_auto_xbar_anon_in_d_bits_opcode), .auto_xbar_anon_in_d_bits_param (_bank_auto_xbar_anon_in_d_bits_param), .auto_xbar_anon_in_d_bits_size (_bank_auto_xbar_anon_in_d_bits_size), .auto_xbar_anon_in_d_bits_source (_bank_auto_xbar_anon_in_d_bits_source), .auto_xbar_anon_in_d_bits_sink (_bank_auto_xbar_anon_in_d_bits_sink), .auto_xbar_anon_in_d_bits_denied (_bank_auto_xbar_anon_in_d_bits_denied), .auto_xbar_anon_in_d_bits_data (_bank_auto_xbar_anon_in_d_bits_data), .auto_xbar_anon_in_d_bits_corrupt (_bank_auto_xbar_anon_in_d_bits_corrupt), .auto_clock_in_clock (_mbus_auto_fixedClockNode_anon_out_0_clock), // @[MemoryBus.scala:30:26] .auto_clock_in_reset (_mbus_auto_fixedClockNode_anon_out_0_reset) // @[MemoryBus.scala:30:26] ); // @[Scratchpad.scala:65:28] SerialTL0ClockSinkDomain serial_tl_domain ( // @[PeripheryTLSerial.scala:116:38] .auto_serdesser_client_out_a_ready (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_a_ready), // @[FrontBus.scala:23:26] .auto_serdesser_client_out_a_valid (_serial_tl_domain_auto_serdesser_client_out_a_valid), .auto_serdesser_client_out_a_bits_opcode (_serial_tl_domain_auto_serdesser_client_out_a_bits_opcode), .auto_serdesser_client_out_a_bits_param (_serial_tl_domain_auto_serdesser_client_out_a_bits_param), .auto_serdesser_client_out_a_bits_size (_serial_tl_domain_auto_serdesser_client_out_a_bits_size), .auto_serdesser_client_out_a_bits_source (_serial_tl_domain_auto_serdesser_client_out_a_bits_source), .auto_serdesser_client_out_a_bits_address (_serial_tl_domain_auto_serdesser_client_out_a_bits_address), .auto_serdesser_client_out_a_bits_mask (_serial_tl_domain_auto_serdesser_client_out_a_bits_mask), .auto_serdesser_client_out_a_bits_data (_serial_tl_domain_auto_serdesser_client_out_a_bits_data), .auto_serdesser_client_out_a_bits_corrupt (_serial_tl_domain_auto_serdesser_client_out_a_bits_corrupt), .auto_serdesser_client_out_d_ready (_serial_tl_domain_auto_serdesser_client_out_d_ready), .auto_serdesser_client_out_d_valid (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_valid), // @[FrontBus.scala:23:26] .auto_serdesser_client_out_d_bits_opcode (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_opcode), // @[FrontBus.scala:23:26] .auto_serdesser_client_out_d_bits_param (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_param), // @[FrontBus.scala:23:26] .auto_serdesser_client_out_d_bits_size (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_size), // @[FrontBus.scala:23:26] .auto_serdesser_client_out_d_bits_source (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_source), // @[FrontBus.scala:23:26] .auto_serdesser_client_out_d_bits_sink (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_sink), // @[FrontBus.scala:23:26] .auto_serdesser_client_out_d_bits_denied (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_denied), // @[FrontBus.scala:23:26] .auto_serdesser_client_out_d_bits_data (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_data), // @[FrontBus.scala:23:26] .auto_serdesser_client_out_d_bits_corrupt (_fbus_auto_coupler_from_port_named_serial_tl_0_in_buffer_in_d_bits_corrupt), // @[FrontBus.scala:23:26] .auto_clock_in_clock (_fbus_auto_fixedClockNode_anon_out_clock), // @[FrontBus.scala:23:26] .auto_clock_in_reset (_fbus_auto_fixedClockNode_anon_out_reset), // @[FrontBus.scala:23:26] .serial_tl_0_in_ready (serial_tl_0_in_ready_0), .serial_tl_0_in_valid (serial_tl_0_in_valid_0), // @[DigitalTop.scala:47:7] .serial_tl_0_in_bits_phit (serial_tl_0_in_bits_phit_0), // @[DigitalTop.scala:47:7] .serial_tl_0_out_ready (serial_tl_0_out_ready_0), // @[DigitalTop.scala:47:7] .serial_tl_0_out_valid (serial_tl_0_out_valid_0), .serial_tl_0_out_bits_phit (serial_tl_0_out_bits_phit_0), .serial_tl_0_clock_in (serial_tl_0_clock_in_0), // @[DigitalTop.scala:47:7] .serial_tl_0_debug_ser_busy (_serial_tl_domain_serial_tl_0_debug_ser_busy), .serial_tl_0_debug_des_busy (_serial_tl_domain_serial_tl_0_debug_des_busy) ); // @[PeripheryTLSerial.scala:116:38] TLUARTClockSinkDomain uartClockDomainWrapper ( // @[UART.scala:270:44] .auto_uart_0_int_xing_out_sync_0 (intXingIn_sync_0), .auto_uart_0_control_xing_in_a_ready (_uartClockDomainWrapper_auto_uart_0_control_xing_in_a_ready), .auto_uart_0_control_xing_in_a_valid (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_valid), // @[PeripheryBus.scala:37:26] .auto_uart_0_control_xing_in_a_bits_opcode (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_opcode), // @[PeripheryBus.scala:37:26] .auto_uart_0_control_xing_in_a_bits_param (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_param), // @[PeripheryBus.scala:37:26] .auto_uart_0_control_xing_in_a_bits_size (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_size), // @[PeripheryBus.scala:37:26] .auto_uart_0_control_xing_in_a_bits_source (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_source), // @[PeripheryBus.scala:37:26] .auto_uart_0_control_xing_in_a_bits_address (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_address), // @[PeripheryBus.scala:37:26] .auto_uart_0_control_xing_in_a_bits_mask (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_mask), // @[PeripheryBus.scala:37:26] .auto_uart_0_control_xing_in_a_bits_data (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_data), // @[PeripheryBus.scala:37:26] .auto_uart_0_control_xing_in_a_bits_corrupt (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_a_bits_corrupt), // @[PeripheryBus.scala:37:26] .auto_uart_0_control_xing_in_d_ready (_pbus_auto_coupler_to_device_named_uart_0_control_xing_out_d_ready), // @[PeripheryBus.scala:37:26] .auto_uart_0_control_xing_in_d_valid (_uartClockDomainWrapper_auto_uart_0_control_xing_in_d_valid), .auto_uart_0_control_xing_in_d_bits_opcode (_uartClockDomainWrapper_auto_uart_0_control_xing_in_d_bits_opcode), .auto_uart_0_control_xing_in_d_bits_size (_uartClockDomainWrapper_auto_uart_0_control_xing_in_d_bits_size), .auto_uart_0_control_xing_in_d_bits_source (_uartClockDomainWrapper_auto_uart_0_control_xing_in_d_bits_source), .auto_uart_0_control_xing_in_d_bits_data (_uartClockDomainWrapper_auto_uart_0_control_xing_in_d_bits_data), .auto_uart_0_io_out_txd (ioNodeIn_txd), .auto_uart_0_io_out_rxd (ioNodeIn_rxd), // @[MixedNode.scala:551:17] .auto_clock_in_clock (_pbus_auto_fixedClockNode_anon_out_clock), // @[PeripheryBus.scala:37:26] .auto_clock_in_reset (_pbus_auto_fixedClockNode_anon_out_reset) // @[PeripheryBus.scala:37:26] ); // @[UART.scala:270:44] IntSyncSyncCrossingSink_n1x1_3 intsink ( // @[Crossing.scala:109:29] .auto_in_sync_0 (intXingOut_sync_0), // @[MixedNode.scala:542:17] .auto_out_0 (ibus_auto_int_bus_anon_in_0) ); // @[Crossing.scala:109:29] ChipyardPRCICtrlClockSinkDomain chipyard_prcictrl_domain ( // @[BusWrapper.scala:89:28] .auto_reset_setter_clock_in_member_allClocks_mbus_0_clock (auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_mbus_0_clock_0), // @[DigitalTop.scala:47:7] .auto_reset_setter_clock_in_member_allClocks_mbus_0_reset (auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_mbus_0_reset_0), // @[DigitalTop.scala:47:7] .auto_reset_setter_clock_in_member_allClocks_tileClockGroup_rockettile_0_clock (auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_tileClockGroup_rockettile_0_clock_0), // @[DigitalTop.scala:47:7] .auto_reset_setter_clock_in_member_allClocks_tileClockGroup_rockettile_0_reset (auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_tileClockGroup_rockettile_0_reset_0), // @[DigitalTop.scala:47:7] .auto_reset_setter_clock_in_member_allClocks_periphery_clock (auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_periphery_clock_0), // @[DigitalTop.scala:47:7] .auto_reset_setter_clock_in_member_allClocks_periphery_reset (auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_periphery_reset_0), // @[DigitalTop.scala:47:7] .auto_reset_setter_clock_in_member_allClocks_uncore_clock (auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_uncore_clock_0), // @[DigitalTop.scala:47:7] .auto_reset_setter_clock_in_member_allClocks_uncore_reset (auto_chipyard_prcictrl_domain_reset_setter_clock_in_member_allClocks_uncore_reset_0), // @[DigitalTop.scala:47:7] .auto_resetSynchronizer_out_member_allClocks_mbus_0_clock (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_mbus_0_clock), .auto_resetSynchronizer_out_member_allClocks_mbus_0_reset (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_mbus_0_reset), .auto_resetSynchronizer_out_member_allClocks_tileClockGroup_rockettile_0_clock (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_tileClockGroup_rockettile_0_clock), .auto_resetSynchronizer_out_member_allClocks_tileClockGroup_rockettile_0_reset (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_tileClockGroup_rockettile_0_reset), .auto_resetSynchronizer_out_member_allClocks_periphery_clock (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_periphery_clock), .auto_resetSynchronizer_out_member_allClocks_periphery_reset (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_periphery_reset), .auto_resetSynchronizer_out_member_allClocks_uncore_clock (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_uncore_clock), .auto_resetSynchronizer_out_member_allClocks_uncore_reset (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_uncore_reset), .auto_xbar_anon_in_a_ready (_chipyard_prcictrl_domain_auto_xbar_anon_in_a_ready), .auto_xbar_anon_in_a_valid (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_valid), // @[PeripheryBus.scala:37:26] .auto_xbar_anon_in_a_bits_opcode (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_opcode), // @[PeripheryBus.scala:37:26] .auto_xbar_anon_in_a_bits_param (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_param), // @[PeripheryBus.scala:37:26] .auto_xbar_anon_in_a_bits_size (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_size), // @[PeripheryBus.scala:37:26] .auto_xbar_anon_in_a_bits_source (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_source), // @[PeripheryBus.scala:37:26] .auto_xbar_anon_in_a_bits_address (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_address), // @[PeripheryBus.scala:37:26] .auto_xbar_anon_in_a_bits_mask (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_mask), // @[PeripheryBus.scala:37:26] .auto_xbar_anon_in_a_bits_data (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_data), // @[PeripheryBus.scala:37:26] .auto_xbar_anon_in_a_bits_corrupt (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_a_bits_corrupt), // @[PeripheryBus.scala:37:26] .auto_xbar_anon_in_d_ready (_cbus_auto_coupler_to_prci_ctrl_fixer_anon_out_d_ready), // @[PeripheryBus.scala:37:26] .auto_xbar_anon_in_d_valid (_chipyard_prcictrl_domain_auto_xbar_anon_in_d_valid), .auto_xbar_anon_in_d_bits_opcode (_chipyard_prcictrl_domain_auto_xbar_anon_in_d_bits_opcode), .auto_xbar_anon_in_d_bits_size (_chipyard_prcictrl_domain_auto_xbar_anon_in_d_bits_size), .auto_xbar_anon_in_d_bits_source (_chipyard_prcictrl_domain_auto_xbar_anon_in_d_bits_source), .auto_xbar_anon_in_d_bits_data (_chipyard_prcictrl_domain_auto_xbar_anon_in_d_bits_data), .auto_clock_in_clock (_cbus_auto_fixedClockNode_anon_out_4_clock), // @[PeripheryBus.scala:37:26] .auto_clock_in_reset (_cbus_auto_fixedClockNode_anon_out_4_reset) // @[PeripheryBus.scala:37:26] ); // @[BusWrapper.scala:89:28] ClockGroupAggregator_allClocks aggregator ( // @[HasChipyardPRCI.scala:51:30] .auto_in_member_allClocks_clockTapNode_clock_tap_clock (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_clockTapNode_clock_tap_clock), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_clockTapNode_clock_tap_reset (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_clockTapNode_clock_tap_reset), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_cbus_0_clock (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_cbus_0_clock), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_cbus_0_reset (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_cbus_0_reset), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_mbus_0_clock (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_mbus_0_clock), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_mbus_0_reset (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_mbus_0_reset), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_fbus_0_clock (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_fbus_0_clock), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_fbus_0_reset (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_fbus_0_reset), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_pbus_0_clock (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_pbus_0_clock), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_pbus_0_reset (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_pbus_0_reset), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_tileClockGroup_rockettile_0_clock (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_tileClockGroup_rockettile_0_clock), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_tileClockGroup_rockettile_0_reset (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_tileClockGroup_rockettile_0_reset), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_sbus_1_clock (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_sbus_1_clock), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_sbus_1_reset (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_sbus_1_reset), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_sbus_0_clock (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_sbus_0_clock), // @[ClockGroupNamePrefixer.scala:32:25] .auto_in_member_allClocks_sbus_0_reset (frequencySpecifier_auto_frequency_specifier_out_member_allClocks_sbus_0_reset), // @[ClockGroupNamePrefixer.scala:32:25] .auto_out_6_member_clockTapNode_clockTapNode_clock_tap_clock (clockNamePrefixer_auto_clock_name_prefixer_in_6_member_clockTapNode_clockTapNode_clock_tap_clock), .auto_out_6_member_clockTapNode_clockTapNode_clock_tap_reset (clockNamePrefixer_auto_clock_name_prefixer_in_6_member_clockTapNode_clockTapNode_clock_tap_reset), .auto_out_5_member_cbus_cbus_0_clock (clockNamePrefixer_auto_clock_name_prefixer_in_5_member_cbus_cbus_0_clock), .auto_out_5_member_cbus_cbus_0_reset (clockNamePrefixer_auto_clock_name_prefixer_in_5_member_cbus_cbus_0_reset), .auto_out_4_member_mbus_mbus_0_clock (clockNamePrefixer_auto_clock_name_prefixer_in_4_member_mbus_mbus_0_clock), .auto_out_4_member_mbus_mbus_0_reset (clockNamePrefixer_auto_clock_name_prefixer_in_4_member_mbus_mbus_0_reset), .auto_out_3_member_fbus_fbus_0_clock (clockNamePrefixer_auto_clock_name_prefixer_in_3_member_fbus_fbus_0_clock), .auto_out_3_member_fbus_fbus_0_reset (clockNamePrefixer_auto_clock_name_prefixer_in_3_member_fbus_fbus_0_reset), .auto_out_2_member_pbus_pbus_0_clock (clockNamePrefixer_auto_clock_name_prefixer_in_2_member_pbus_pbus_0_clock), .auto_out_2_member_pbus_pbus_0_reset (clockNamePrefixer_auto_clock_name_prefixer_in_2_member_pbus_pbus_0_reset), .auto_out_1_member_tileClockGroup_tileClockGroup_rockettile_0_clock (clockNamePrefixer_auto_clock_name_prefixer_in_1_member_tileClockGroup_tileClockGroup_rockettile_0_clock), .auto_out_1_member_tileClockGroup_tileClockGroup_rockettile_0_reset (clockNamePrefixer_auto_clock_name_prefixer_in_1_member_tileClockGroup_tileClockGroup_rockettile_0_reset), .auto_out_0_member_sbus_sbus_1_clock (clockNamePrefixer_auto_clock_name_prefixer_in_0_member_sbus_sbus_1_clock), .auto_out_0_member_sbus_sbus_1_reset (clockNamePrefixer_auto_clock_name_prefixer_in_0_member_sbus_sbus_1_reset), .auto_out_0_member_sbus_sbus_0_clock (clockNamePrefixer_auto_clock_name_prefixer_in_0_member_sbus_sbus_0_clock), .auto_out_0_member_sbus_sbus_0_reset (clockNamePrefixer_auto_clock_name_prefixer_in_0_member_sbus_sbus_0_reset) ); // @[HasChipyardPRCI.scala:51:30] ClockGroupCombiner clockGroupCombiner ( // @[ClockGroupCombiner.scala:19:15] .auto_clock_group_combiner_in_member_allClocks_mbus_0_clock (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_mbus_0_clock), // @[BusWrapper.scala:89:28] .auto_clock_group_combiner_in_member_allClocks_mbus_0_reset (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_mbus_0_reset), // @[BusWrapper.scala:89:28] .auto_clock_group_combiner_in_member_allClocks_tileClockGroup_rockettile_0_clock (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_tileClockGroup_rockettile_0_clock), // @[BusWrapper.scala:89:28] .auto_clock_group_combiner_in_member_allClocks_tileClockGroup_rockettile_0_reset (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_tileClockGroup_rockettile_0_reset), // @[BusWrapper.scala:89:28] .auto_clock_group_combiner_in_member_allClocks_periphery_clock (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_periphery_clock), // @[BusWrapper.scala:89:28] .auto_clock_group_combiner_in_member_allClocks_periphery_reset (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_periphery_reset), // @[BusWrapper.scala:89:28] .auto_clock_group_combiner_in_member_allClocks_uncore_clock (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_uncore_clock), // @[BusWrapper.scala:89:28] .auto_clock_group_combiner_in_member_allClocks_uncore_reset (_chipyard_prcictrl_domain_auto_resetSynchronizer_out_member_allClocks_uncore_reset), // @[BusWrapper.scala:89:28] .auto_clock_group_combiner_out_member_allClocks_clockTapNode_clock_tap_clock (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_clockTapNode_clock_tap_clock), .auto_clock_group_combiner_out_member_allClocks_clockTapNode_clock_tap_reset (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_clockTapNode_clock_tap_reset), .auto_clock_group_combiner_out_member_allClocks_cbus_0_clock (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_cbus_0_clock), .auto_clock_group_combiner_out_member_allClocks_cbus_0_reset (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_cbus_0_reset), .auto_clock_group_combiner_out_member_allClocks_mbus_0_clock (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_mbus_0_clock), .auto_clock_group_combiner_out_member_allClocks_mbus_0_reset (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_mbus_0_reset), .auto_clock_group_combiner_out_member_allClocks_fbus_0_clock (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_fbus_0_clock), .auto_clock_group_combiner_out_member_allClocks_fbus_0_reset (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_fbus_0_reset), .auto_clock_group_combiner_out_member_allClocks_pbus_0_clock (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_pbus_0_clock), .auto_clock_group_combiner_out_member_allClocks_pbus_0_reset (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_pbus_0_reset), .auto_clock_group_combiner_out_member_allClocks_tileClockGroup_rockettile_0_clock (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_tileClockGroup_rockettile_0_clock), .auto_clock_group_combiner_out_member_allClocks_tileClockGroup_rockettile_0_reset (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_tileClockGroup_rockettile_0_reset), .auto_clock_group_combiner_out_member_allClocks_sbus_1_clock (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_sbus_1_clock), .auto_clock_group_combiner_out_member_allClocks_sbus_1_reset (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_sbus_1_reset), .auto_clock_group_combiner_out_member_allClocks_sbus_0_clock (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_sbus_0_clock), .auto_clock_group_combiner_out_member_allClocks_sbus_0_reset (frequencySpecifier_auto_frequency_specifier_in_member_allClocks_sbus_0_reset) ); // @[ClockGroupCombiner.scala:19:15] ClockSinkDomain_1 globalNoCDomain ( // @[GlobalNoC.scala:45:40] .auto_clock_in_clock (_sbus_auto_fixedClockNode_anon_out_1_clock), // @[SystemBus.scala:31:26] .auto_clock_in_reset (_sbus_auto_fixedClockNode_anon_out_1_reset) // @[SystemBus.scala:31:26] ); // @[GlobalNoC.scala:45:40] BundleBridgeNexus_NoOutput_8 reRoCCManagerIdNexusNode (); // @[Integration.scala:34:44] DebugTransportModuleJTAG dtm ( // @[Periphery.scala:166:21] .io_jtag_clock (debug_systemjtag_jtag_TCK_0), // @[DigitalTop.scala:47:7] .io_jtag_reset (debug_systemjtag_reset_0), // @[DigitalTop.scala:47:7] .io_dmi_req_ready (_tlDM_io_dmi_dmi_req_ready), // @[Periphery.scala:88:26] .io_dmi_req_valid (_dtm_io_dmi_req_valid), .io_dmi_req_bits_addr (_dtm_io_dmi_req_bits_addr), .io_dmi_req_bits_data (_dtm_io_dmi_req_bits_data), .io_dmi_req_bits_op (_dtm_io_dmi_req_bits_op), .io_dmi_resp_ready (_dtm_io_dmi_resp_ready), .io_dmi_resp_valid (_tlDM_io_dmi_dmi_resp_valid), // @[Periphery.scala:88:26] .io_dmi_resp_bits_data (_tlDM_io_dmi_dmi_resp_bits_data), // @[Periphery.scala:88:26] .io_dmi_resp_bits_resp (_tlDM_io_dmi_dmi_resp_bits_resp), // @[Periphery.scala:88:26] .io_jtag_TCK (debug_systemjtag_jtag_TCK_0), // @[DigitalTop.scala:47:7] .io_jtag_TMS (debug_systemjtag_jtag_TMS_0), // @[DigitalTop.scala:47:7] .io_jtag_TDI (debug_systemjtag_jtag_TDI_0), // @[DigitalTop.scala:47:7] .io_jtag_TDO_data (debug_systemjtag_jtag_TDO_data_0), .io_jtag_TDO_driven (debug_systemjtag_jtag_TDO_driven), .rf_reset (debug_systemjtag_reset_0) // @[DigitalTop.scala:47:7] ); // @[Periphery.scala:166:21] assign auto_mbus_fixedClockNode_anon_out_clock = auto_mbus_fixedClockNode_anon_out_clock_0; // @[DigitalTop.scala:47:7] assign auto_mbus_fixedClockNode_anon_out_reset = auto_mbus_fixedClockNode_anon_out_reset_0; // @[DigitalTop.scala:47:7] assign auto_cbus_fixedClockNode_anon_out_clock = auto_cbus_fixedClockNode_anon_out_clock_0; // @[DigitalTop.scala:47:7] assign auto_cbus_fixedClockNode_anon_out_reset = auto_cbus_fixedClockNode_anon_out_reset_0; // @[DigitalTop.scala:47:7] assign debug_systemjtag_jtag_TDO_data = debug_systemjtag_jtag_TDO_data_0; // @[DigitalTop.scala:47:7] assign debug_dmactive = debug_dmactive_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_aw_valid = mem_axi4_0_aw_valid_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_aw_bits_id = mem_axi4_0_aw_bits_id_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_aw_bits_addr = mem_axi4_0_aw_bits_addr_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_aw_bits_len = mem_axi4_0_aw_bits_len_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_aw_bits_size = mem_axi4_0_aw_bits_size_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_aw_bits_burst = mem_axi4_0_aw_bits_burst_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_aw_bits_lock = mem_axi4_0_aw_bits_lock_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_aw_bits_cache = mem_axi4_0_aw_bits_cache_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_aw_bits_prot = mem_axi4_0_aw_bits_prot_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_aw_bits_qos = mem_axi4_0_aw_bits_qos_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_w_valid = mem_axi4_0_w_valid_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_w_bits_data = mem_axi4_0_w_bits_data_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_w_bits_strb = mem_axi4_0_w_bits_strb_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_w_bits_last = mem_axi4_0_w_bits_last_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_b_ready = mem_axi4_0_b_ready_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_ar_valid = mem_axi4_0_ar_valid_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_ar_bits_id = mem_axi4_0_ar_bits_id_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_ar_bits_addr = mem_axi4_0_ar_bits_addr_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_ar_bits_len = mem_axi4_0_ar_bits_len_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_ar_bits_size = mem_axi4_0_ar_bits_size_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_ar_bits_burst = mem_axi4_0_ar_bits_burst_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_ar_bits_lock = mem_axi4_0_ar_bits_lock_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_ar_bits_cache = mem_axi4_0_ar_bits_cache_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_ar_bits_prot = mem_axi4_0_ar_bits_prot_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_ar_bits_qos = mem_axi4_0_ar_bits_qos_0; // @[DigitalTop.scala:47:7] assign mem_axi4_0_r_ready = mem_axi4_0_r_ready_0; // @[DigitalTop.scala:47:7] assign serial_tl_0_in_ready = serial_tl_0_in_ready_0; // @[DigitalTop.scala:47:7] assign serial_tl_0_out_valid = serial_tl_0_out_valid_0; // @[DigitalTop.scala:47:7] assign serial_tl_0_out_bits_phit = serial_tl_0_out_bits_phit_0; // @[DigitalTop.scala:47:7] assign uart_0_txd = uart_0_txd_0; // @[DigitalTop.scala:47:7] assign clock_tap = clockTapIn_clock; // @[MixedNode.scala:551:17] endmodule
Generate the Verilog code corresponding to the following Chisel files. File primitives.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object lowMask { def apply(in: UInt, topBound: BigInt, bottomBound: BigInt): UInt = { require(topBound != bottomBound) val numInVals = BigInt(1)<<in.getWidth if (topBound < bottomBound) { lowMask(~in, numInVals - 1 - topBound, numInVals - 1 - bottomBound) } else if (numInVals > 64 /* Empirical */) { // For simulation performance, we should avoid generating // exteremely wide shifters, so we divide and conquer. // Empirically, this does not impact synthesis QoR. val mid = numInVals / 2 val msb = in(in.getWidth - 1) val lsbs = in(in.getWidth - 2, 0) if (mid < topBound) { if (mid <= bottomBound) { Mux(msb, lowMask(lsbs, topBound - mid, bottomBound - mid), 0.U ) } else { Mux(msb, lowMask(lsbs, topBound - mid, 0) ## ((BigInt(1)<<(mid - bottomBound).toInt) - 1).U, lowMask(lsbs, mid, bottomBound) ) } } else { ~Mux(msb, 0.U, ~lowMask(lsbs, topBound, bottomBound)) } } else { val shift = (BigInt(-1)<<numInVals.toInt).S>>in Reverse( shift( (numInVals - 1 - bottomBound).toInt, (numInVals - topBound).toInt ) ) } } } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object countLeadingZeros { def apply(in: UInt): UInt = PriorityEncoder(in.asBools.reverse) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object orReduceBy2 { def apply(in: UInt): UInt = { val reducedWidth = (in.getWidth + 1)>>1 val reducedVec = Wire(Vec(reducedWidth, Bool())) for (ix <- 0 until reducedWidth - 1) { reducedVec(ix) := in(ix * 2 + 1, ix * 2).orR } reducedVec(reducedWidth - 1) := in(in.getWidth - 1, (reducedWidth - 1) * 2).orR reducedVec.asUInt } } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object orReduceBy4 { def apply(in: UInt): UInt = { val reducedWidth = (in.getWidth + 3)>>2 val reducedVec = Wire(Vec(reducedWidth, Bool())) for (ix <- 0 until reducedWidth - 1) { reducedVec(ix) := in(ix * 4 + 3, ix * 4).orR } reducedVec(reducedWidth - 1) := in(in.getWidth - 1, (reducedWidth - 1) * 4).orR reducedVec.asUInt } } File MulAddRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ import consts._ //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFN_interIo(expWidth: Int, sigWidth: Int) extends Bundle { //*** ENCODE SOME OF THESE CASES IN FEWER BITS?: val isSigNaNAny = Bool() val isNaNAOrB = Bool() val isInfA = Bool() val isZeroA = Bool() val isInfB = Bool() val isZeroB = Bool() val signProd = Bool() val isNaNC = Bool() val isInfC = Bool() val isZeroC = Bool() val sExpSum = SInt((expWidth + 2).W) val doSubMags = Bool() val CIsDominant = Bool() val CDom_CAlignDist = UInt(log2Ceil(sigWidth + 1).W) val highAlignedSigC = UInt((sigWidth + 2).W) val bit0AlignedSigC = UInt(1.W) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFNToRaw_preMul(expWidth: Int, sigWidth: Int) extends RawModule { override def desiredName = s"MulAddRecFNToRaw_preMul_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val op = Input(Bits(2.W)) val a = Input(Bits((expWidth + sigWidth + 1).W)) val b = Input(Bits((expWidth + sigWidth + 1).W)) val c = Input(Bits((expWidth + sigWidth + 1).W)) val mulAddA = Output(UInt(sigWidth.W)) val mulAddB = Output(UInt(sigWidth.W)) val mulAddC = Output(UInt((sigWidth * 2).W)) val toPostMul = Output(new MulAddRecFN_interIo(expWidth, sigWidth)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ //*** POSSIBLE TO REDUCE THIS BY 1 OR 2 BITS? (CURRENTLY 2 BITS BETWEEN //*** UNSHIFTED C AND PRODUCT): val sigSumWidth = sigWidth * 3 + 3 //------------------------------------------------------------------------ //------------------------------------------------------------------------ val rawA = rawFloatFromRecFN(expWidth, sigWidth, io.a) val rawB = rawFloatFromRecFN(expWidth, sigWidth, io.b) val rawC = rawFloatFromRecFN(expWidth, sigWidth, io.c) val signProd = rawA.sign ^ rawB.sign ^ io.op(1) //*** REVIEW THE BIAS FOR 'sExpAlignedProd': val sExpAlignedProd = rawA.sExp +& rawB.sExp + (-(BigInt(1)<<expWidth) + sigWidth + 3).S val doSubMags = signProd ^ rawC.sign ^ io.op(0) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sNatCAlignDist = sExpAlignedProd - rawC.sExp val posNatCAlignDist = sNatCAlignDist(expWidth + 1, 0) val isMinCAlign = rawA.isZero || rawB.isZero || (sNatCAlignDist < 0.S) val CIsDominant = ! rawC.isZero && (isMinCAlign || (posNatCAlignDist <= sigWidth.U)) val CAlignDist = Mux(isMinCAlign, 0.U, Mux(posNatCAlignDist < (sigSumWidth - 1).U, posNatCAlignDist(log2Ceil(sigSumWidth) - 1, 0), (sigSumWidth - 1).U ) ) val mainAlignedSigC = (Mux(doSubMags, ~rawC.sig, rawC.sig) ## Fill(sigSumWidth - sigWidth + 2, doSubMags)).asSInt>>CAlignDist val reduced4CExtra = (orReduceBy4(rawC.sig<<((sigSumWidth - sigWidth - 1) & 3)) & lowMask( CAlignDist>>2, //*** NOT NEEDED?: // (sigSumWidth + 2)>>2, (sigSumWidth - 1)>>2, (sigSumWidth - sigWidth - 1)>>2 ) ).orR val alignedSigC = Cat(mainAlignedSigC>>3, Mux(doSubMags, mainAlignedSigC(2, 0).andR && ! reduced4CExtra, mainAlignedSigC(2, 0).orR || reduced4CExtra ) ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ io.mulAddA := rawA.sig io.mulAddB := rawB.sig io.mulAddC := alignedSigC(sigWidth * 2, 1) io.toPostMul.isSigNaNAny := isSigNaNRawFloat(rawA) || isSigNaNRawFloat(rawB) || isSigNaNRawFloat(rawC) io.toPostMul.isNaNAOrB := rawA.isNaN || rawB.isNaN io.toPostMul.isInfA := rawA.isInf io.toPostMul.isZeroA := rawA.isZero io.toPostMul.isInfB := rawB.isInf io.toPostMul.isZeroB := rawB.isZero io.toPostMul.signProd := signProd io.toPostMul.isNaNC := rawC.isNaN io.toPostMul.isInfC := rawC.isInf io.toPostMul.isZeroC := rawC.isZero io.toPostMul.sExpSum := Mux(CIsDominant, rawC.sExp, sExpAlignedProd - sigWidth.S) io.toPostMul.doSubMags := doSubMags io.toPostMul.CIsDominant := CIsDominant io.toPostMul.CDom_CAlignDist := CAlignDist(log2Ceil(sigWidth + 1) - 1, 0) io.toPostMul.highAlignedSigC := alignedSigC(sigSumWidth - 1, sigWidth * 2 + 1) io.toPostMul.bit0AlignedSigC := alignedSigC(0) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFNToRaw_postMul(expWidth: Int, sigWidth: Int) extends RawModule { override def desiredName = s"MulAddRecFNToRaw_postMul_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val fromPreMul = Input(new MulAddRecFN_interIo(expWidth, sigWidth)) val mulAddResult = Input(UInt((sigWidth * 2 + 1).W)) val roundingMode = Input(UInt(3.W)) val invalidExc = Output(Bool()) val rawOut = Output(new RawFloat(expWidth, sigWidth + 2)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sigSumWidth = sigWidth * 3 + 3 //------------------------------------------------------------------------ //------------------------------------------------------------------------ val roundingMode_min = (io.roundingMode === round_min) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val opSignC = io.fromPreMul.signProd ^ io.fromPreMul.doSubMags val sigSum = Cat(Mux(io.mulAddResult(sigWidth * 2), io.fromPreMul.highAlignedSigC + 1.U, io.fromPreMul.highAlignedSigC ), io.mulAddResult(sigWidth * 2 - 1, 0), io.fromPreMul.bit0AlignedSigC ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val CDom_sign = opSignC val CDom_sExp = io.fromPreMul.sExpSum - io.fromPreMul.doSubMags.zext val CDom_absSigSum = Mux(io.fromPreMul.doSubMags, ~sigSum(sigSumWidth - 1, sigWidth + 1), 0.U(1.W) ## //*** IF GAP IS REDUCED TO 1 BIT, MUST REDUCE THIS COMPONENT TO 1 BIT TOO: io.fromPreMul.highAlignedSigC(sigWidth + 1, sigWidth) ## sigSum(sigSumWidth - 3, sigWidth + 2) ) val CDom_absSigSumExtra = Mux(io.fromPreMul.doSubMags, (~sigSum(sigWidth, 1)).orR, sigSum(sigWidth + 1, 1).orR ) val CDom_mainSig = (CDom_absSigSum<<io.fromPreMul.CDom_CAlignDist)( sigWidth * 2 + 1, sigWidth - 3) val CDom_reduced4SigExtra = (orReduceBy4(CDom_absSigSum(sigWidth - 1, 0)<<(~sigWidth & 3)) & lowMask(io.fromPreMul.CDom_CAlignDist>>2, 0, sigWidth>>2)).orR val CDom_sig = Cat(CDom_mainSig>>3, CDom_mainSig(2, 0).orR || CDom_reduced4SigExtra || CDom_absSigSumExtra ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val notCDom_signSigSum = sigSum(sigWidth * 2 + 3) val notCDom_absSigSum = Mux(notCDom_signSigSum, ~sigSum(sigWidth * 2 + 2, 0), sigSum(sigWidth * 2 + 2, 0) + io.fromPreMul.doSubMags ) val notCDom_reduced2AbsSigSum = orReduceBy2(notCDom_absSigSum) val notCDom_normDistReduced2 = countLeadingZeros(notCDom_reduced2AbsSigSum) val notCDom_nearNormDist = notCDom_normDistReduced2<<1 val notCDom_sExp = io.fromPreMul.sExpSum - notCDom_nearNormDist.asUInt.zext val notCDom_mainSig = (notCDom_absSigSum<<notCDom_nearNormDist)( sigWidth * 2 + 3, sigWidth - 1) val notCDom_reduced4SigExtra = (orReduceBy2( notCDom_reduced2AbsSigSum(sigWidth>>1, 0)<<((sigWidth>>1) & 1)) & lowMask(notCDom_normDistReduced2>>1, 0, (sigWidth + 2)>>2) ).orR val notCDom_sig = Cat(notCDom_mainSig>>3, notCDom_mainSig(2, 0).orR || notCDom_reduced4SigExtra ) val notCDom_completeCancellation = (notCDom_sig(sigWidth + 2, sigWidth + 1) === 0.U) val notCDom_sign = Mux(notCDom_completeCancellation, roundingMode_min, io.fromPreMul.signProd ^ notCDom_signSigSum ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val notNaN_isInfProd = io.fromPreMul.isInfA || io.fromPreMul.isInfB val notNaN_isInfOut = notNaN_isInfProd || io.fromPreMul.isInfC val notNaN_addZeros = (io.fromPreMul.isZeroA || io.fromPreMul.isZeroB) && io.fromPreMul.isZeroC io.invalidExc := io.fromPreMul.isSigNaNAny || (io.fromPreMul.isInfA && io.fromPreMul.isZeroB) || (io.fromPreMul.isZeroA && io.fromPreMul.isInfB) || (! io.fromPreMul.isNaNAOrB && (io.fromPreMul.isInfA || io.fromPreMul.isInfB) && io.fromPreMul.isInfC && io.fromPreMul.doSubMags) io.rawOut.isNaN := io.fromPreMul.isNaNAOrB || io.fromPreMul.isNaNC io.rawOut.isInf := notNaN_isInfOut //*** IMPROVE?: io.rawOut.isZero := notNaN_addZeros || (! io.fromPreMul.CIsDominant && notCDom_completeCancellation) io.rawOut.sign := (notNaN_isInfProd && io.fromPreMul.signProd) || (io.fromPreMul.isInfC && opSignC) || (notNaN_addZeros && ! roundingMode_min && io.fromPreMul.signProd && opSignC) || (notNaN_addZeros && roundingMode_min && (io.fromPreMul.signProd || opSignC)) || (! notNaN_isInfOut && ! notNaN_addZeros && Mux(io.fromPreMul.CIsDominant, CDom_sign, notCDom_sign)) io.rawOut.sExp := Mux(io.fromPreMul.CIsDominant, CDom_sExp, notCDom_sExp) io.rawOut.sig := Mux(io.fromPreMul.CIsDominant, CDom_sig, notCDom_sig) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFN(expWidth: Int, sigWidth: Int) extends RawModule { override def desiredName = s"MulAddRecFN_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val op = Input(Bits(2.W)) val a = Input(Bits((expWidth + sigWidth + 1).W)) val b = Input(Bits((expWidth + sigWidth + 1).W)) val c = Input(Bits((expWidth + sigWidth + 1).W)) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((expWidth + sigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val mulAddRecFNToRaw_preMul = Module(new MulAddRecFNToRaw_preMul(expWidth, sigWidth)) val mulAddRecFNToRaw_postMul = Module(new MulAddRecFNToRaw_postMul(expWidth, sigWidth)) mulAddRecFNToRaw_preMul.io.op := io.op mulAddRecFNToRaw_preMul.io.a := io.a mulAddRecFNToRaw_preMul.io.b := io.b mulAddRecFNToRaw_preMul.io.c := io.c val mulAddResult = (mulAddRecFNToRaw_preMul.io.mulAddA * mulAddRecFNToRaw_preMul.io.mulAddB) +& mulAddRecFNToRaw_preMul.io.mulAddC mulAddRecFNToRaw_postMul.io.fromPreMul := mulAddRecFNToRaw_preMul.io.toPostMul mulAddRecFNToRaw_postMul.io.mulAddResult := mulAddResult mulAddRecFNToRaw_postMul.io.roundingMode := io.roundingMode //------------------------------------------------------------------------ //------------------------------------------------------------------------ val roundRawFNToRecFN = Module(new RoundRawFNToRecFN(expWidth, sigWidth, 0)) roundRawFNToRecFN.io.invalidExc := mulAddRecFNToRaw_postMul.io.invalidExc roundRawFNToRecFN.io.infiniteExc := false.B roundRawFNToRecFN.io.in := mulAddRecFNToRaw_postMul.io.rawOut roundRawFNToRecFN.io.roundingMode := io.roundingMode roundRawFNToRecFN.io.detectTininess := io.detectTininess io.out := roundRawFNToRecFN.io.out io.exceptionFlags := roundRawFNToRecFN.io.exceptionFlags } File rawFloatFromRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ /*---------------------------------------------------------------------------- | In the result, no more than one of 'isNaN', 'isInf', and 'isZero' will be | set. *----------------------------------------------------------------------------*/ object rawFloatFromRecFN { def apply(expWidth: Int, sigWidth: Int, in: Bits): RawFloat = { val exp = in(expWidth + sigWidth - 1, sigWidth - 1) val isZero = exp(expWidth, expWidth - 2) === 0.U val isSpecial = exp(expWidth, expWidth - 1) === 3.U val out = Wire(new RawFloat(expWidth, sigWidth)) out.isNaN := isSpecial && exp(expWidth - 2) out.isInf := isSpecial && ! exp(expWidth - 2) out.isZero := isZero out.sign := in(expWidth + sigWidth) out.sExp := exp.zext out.sig := 0.U(1.W) ## ! isZero ## in(sigWidth - 2, 0) out } }
module MulAddRecFNToRaw_preMul_e8_s24_71( // @[MulAddRecFN.scala:71:7] input [32:0] io_a, // @[MulAddRecFN.scala:74:16] input [32:0] io_b, // @[MulAddRecFN.scala:74:16] input [32:0] io_c, // @[MulAddRecFN.scala:74:16] output [23:0] io_mulAddA, // @[MulAddRecFN.scala:74:16] output [23:0] io_mulAddB, // @[MulAddRecFN.scala:74:16] output [47:0] io_mulAddC, // @[MulAddRecFN.scala:74:16] output io_toPostMul_isSigNaNAny, // @[MulAddRecFN.scala:74:16] output io_toPostMul_isNaNAOrB, // @[MulAddRecFN.scala:74:16] output io_toPostMul_isInfA, // @[MulAddRecFN.scala:74:16] output io_toPostMul_isZeroA, // @[MulAddRecFN.scala:74:16] output io_toPostMul_isInfB, // @[MulAddRecFN.scala:74:16] output io_toPostMul_isZeroB, // @[MulAddRecFN.scala:74:16] output io_toPostMul_signProd, // @[MulAddRecFN.scala:74:16] output io_toPostMul_isNaNC, // @[MulAddRecFN.scala:74:16] output io_toPostMul_isInfC, // @[MulAddRecFN.scala:74:16] output io_toPostMul_isZeroC, // @[MulAddRecFN.scala:74:16] output [9:0] io_toPostMul_sExpSum, // @[MulAddRecFN.scala:74:16] output io_toPostMul_doSubMags, // @[MulAddRecFN.scala:74:16] output io_toPostMul_CIsDominant, // @[MulAddRecFN.scala:74:16] output [4:0] io_toPostMul_CDom_CAlignDist, // @[MulAddRecFN.scala:74:16] output [25:0] io_toPostMul_highAlignedSigC, // @[MulAddRecFN.scala:74:16] output io_toPostMul_bit0AlignedSigC // @[MulAddRecFN.scala:74:16] ); wire [32:0] io_a_0 = io_a; // @[MulAddRecFN.scala:71:7] wire [32:0] io_b_0 = io_b; // @[MulAddRecFN.scala:71:7] wire [32:0] io_c_0 = io_c; // @[MulAddRecFN.scala:71:7] wire _signProd_T_1 = 1'h0; // @[MulAddRecFN.scala:97:49] wire _doSubMags_T_1 = 1'h0; // @[MulAddRecFN.scala:102:49] wire [1:0] io_op = 2'h0; // @[MulAddRecFN.scala:71:7, :74:16] wire [47:0] _io_mulAddC_T; // @[MulAddRecFN.scala:143:30] wire _io_toPostMul_isSigNaNAny_T_10; // @[MulAddRecFN.scala:146:58] wire _io_toPostMul_isNaNAOrB_T; // @[MulAddRecFN.scala:148:42] wire rawA_isInf; // @[rawFloatFromRecFN.scala:55:23] wire rawA_isZero; // @[rawFloatFromRecFN.scala:55:23] wire rawB_isInf; // @[rawFloatFromRecFN.scala:55:23] wire rawB_isZero; // @[rawFloatFromRecFN.scala:55:23] wire signProd; // @[MulAddRecFN.scala:97:42] wire rawC_isNaN; // @[rawFloatFromRecFN.scala:55:23] wire rawC_isInf; // @[rawFloatFromRecFN.scala:55:23] wire rawC_isZero; // @[rawFloatFromRecFN.scala:55:23] wire doSubMags; // @[MulAddRecFN.scala:102:42] wire CIsDominant; // @[MulAddRecFN.scala:110:23] wire [4:0] _io_toPostMul_CDom_CAlignDist_T; // @[MulAddRecFN.scala:161:47] wire [25:0] _io_toPostMul_highAlignedSigC_T; // @[MulAddRecFN.scala:163:20] wire _io_toPostMul_bit0AlignedSigC_T; // @[MulAddRecFN.scala:164:48] wire io_toPostMul_isSigNaNAny_0; // @[MulAddRecFN.scala:71:7] wire io_toPostMul_isNaNAOrB_0; // @[MulAddRecFN.scala:71:7] wire io_toPostMul_isInfA_0; // @[MulAddRecFN.scala:71:7] wire io_toPostMul_isZeroA_0; // @[MulAddRecFN.scala:71:7] wire io_toPostMul_isInfB_0; // @[MulAddRecFN.scala:71:7] wire io_toPostMul_isZeroB_0; // @[MulAddRecFN.scala:71:7] wire io_toPostMul_signProd_0; // @[MulAddRecFN.scala:71:7] wire io_toPostMul_isNaNC_0; // @[MulAddRecFN.scala:71:7] wire io_toPostMul_isInfC_0; // @[MulAddRecFN.scala:71:7] wire io_toPostMul_isZeroC_0; // @[MulAddRecFN.scala:71:7] wire [9:0] io_toPostMul_sExpSum_0; // @[MulAddRecFN.scala:71:7] wire io_toPostMul_doSubMags_0; // @[MulAddRecFN.scala:71:7] wire io_toPostMul_CIsDominant_0; // @[MulAddRecFN.scala:71:7] wire [4:0] io_toPostMul_CDom_CAlignDist_0; // @[MulAddRecFN.scala:71:7] wire [25:0] io_toPostMul_highAlignedSigC_0; // @[MulAddRecFN.scala:71:7] wire io_toPostMul_bit0AlignedSigC_0; // @[MulAddRecFN.scala:71:7] wire [23:0] io_mulAddA_0; // @[MulAddRecFN.scala:71:7] wire [23:0] io_mulAddB_0; // @[MulAddRecFN.scala:71:7] wire [47:0] io_mulAddC_0; // @[MulAddRecFN.scala:71:7] wire [8:0] rawA_exp = io_a_0[31:23]; // @[rawFloatFromRecFN.scala:51:21] wire [2:0] _rawA_isZero_T = rawA_exp[8:6]; // @[rawFloatFromRecFN.scala:51:21, :52:28] wire rawA_isZero_0 = _rawA_isZero_T == 3'h0; // @[rawFloatFromRecFN.scala:52:{28,53}] assign rawA_isZero = rawA_isZero_0; // @[rawFloatFromRecFN.scala:52:53, :55:23] wire [1:0] _rawA_isSpecial_T = rawA_exp[8:7]; // @[rawFloatFromRecFN.scala:51:21, :53:28] wire rawA_isSpecial = &_rawA_isSpecial_T; // @[rawFloatFromRecFN.scala:53:{28,53}] wire _rawA_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:56:33] wire _rawA_out_isInf_T_2; // @[rawFloatFromRecFN.scala:57:33] assign io_toPostMul_isInfA_0 = rawA_isInf; // @[rawFloatFromRecFN.scala:55:23] assign io_toPostMul_isZeroA_0 = rawA_isZero; // @[rawFloatFromRecFN.scala:55:23] wire _rawA_out_sign_T; // @[rawFloatFromRecFN.scala:59:25] wire [9:0] _rawA_out_sExp_T; // @[rawFloatFromRecFN.scala:60:27] wire [24:0] _rawA_out_sig_T_3; // @[rawFloatFromRecFN.scala:61:44] wire rawA_isNaN; // @[rawFloatFromRecFN.scala:55:23] wire rawA_sign; // @[rawFloatFromRecFN.scala:55:23] wire [9:0] rawA_sExp; // @[rawFloatFromRecFN.scala:55:23] wire [24:0] rawA_sig; // @[rawFloatFromRecFN.scala:55:23] wire _rawA_out_isNaN_T = rawA_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41] wire _rawA_out_isInf_T = rawA_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41, :57:41] assign _rawA_out_isNaN_T_1 = rawA_isSpecial & _rawA_out_isNaN_T; // @[rawFloatFromRecFN.scala:53:53, :56:{33,41}] assign rawA_isNaN = _rawA_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:55:23, :56:33] wire _rawA_out_isInf_T_1 = ~_rawA_out_isInf_T; // @[rawFloatFromRecFN.scala:57:{36,41}] assign _rawA_out_isInf_T_2 = rawA_isSpecial & _rawA_out_isInf_T_1; // @[rawFloatFromRecFN.scala:53:53, :57:{33,36}] assign rawA_isInf = _rawA_out_isInf_T_2; // @[rawFloatFromRecFN.scala:55:23, :57:33] assign _rawA_out_sign_T = io_a_0[32]; // @[rawFloatFromRecFN.scala:59:25] assign rawA_sign = _rawA_out_sign_T; // @[rawFloatFromRecFN.scala:55:23, :59:25] assign _rawA_out_sExp_T = {1'h0, rawA_exp}; // @[rawFloatFromRecFN.scala:51:21, :60:27] assign rawA_sExp = _rawA_out_sExp_T; // @[rawFloatFromRecFN.scala:55:23, :60:27] wire _rawA_out_sig_T = ~rawA_isZero_0; // @[rawFloatFromRecFN.scala:52:53, :61:35] wire [1:0] _rawA_out_sig_T_1 = {1'h0, _rawA_out_sig_T}; // @[rawFloatFromRecFN.scala:61:{32,35}] wire [22:0] _rawA_out_sig_T_2 = io_a_0[22:0]; // @[rawFloatFromRecFN.scala:61:49] assign _rawA_out_sig_T_3 = {_rawA_out_sig_T_1, _rawA_out_sig_T_2}; // @[rawFloatFromRecFN.scala:61:{32,44,49}] assign rawA_sig = _rawA_out_sig_T_3; // @[rawFloatFromRecFN.scala:55:23, :61:44] wire [8:0] rawB_exp = io_b_0[31:23]; // @[rawFloatFromRecFN.scala:51:21] wire [2:0] _rawB_isZero_T = rawB_exp[8:6]; // @[rawFloatFromRecFN.scala:51:21, :52:28] wire rawB_isZero_0 = _rawB_isZero_T == 3'h0; // @[rawFloatFromRecFN.scala:52:{28,53}] assign rawB_isZero = rawB_isZero_0; // @[rawFloatFromRecFN.scala:52:53, :55:23] wire [1:0] _rawB_isSpecial_T = rawB_exp[8:7]; // @[rawFloatFromRecFN.scala:51:21, :53:28] wire rawB_isSpecial = &_rawB_isSpecial_T; // @[rawFloatFromRecFN.scala:53:{28,53}] wire _rawB_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:56:33] wire _rawB_out_isInf_T_2; // @[rawFloatFromRecFN.scala:57:33] assign io_toPostMul_isInfB_0 = rawB_isInf; // @[rawFloatFromRecFN.scala:55:23] assign io_toPostMul_isZeroB_0 = rawB_isZero; // @[rawFloatFromRecFN.scala:55:23] wire _rawB_out_sign_T; // @[rawFloatFromRecFN.scala:59:25] wire [9:0] _rawB_out_sExp_T; // @[rawFloatFromRecFN.scala:60:27] wire [24:0] _rawB_out_sig_T_3; // @[rawFloatFromRecFN.scala:61:44] wire rawB_isNaN; // @[rawFloatFromRecFN.scala:55:23] wire rawB_sign; // @[rawFloatFromRecFN.scala:55:23] wire [9:0] rawB_sExp; // @[rawFloatFromRecFN.scala:55:23] wire [24:0] rawB_sig; // @[rawFloatFromRecFN.scala:55:23] wire _rawB_out_isNaN_T = rawB_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41] wire _rawB_out_isInf_T = rawB_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41, :57:41] assign _rawB_out_isNaN_T_1 = rawB_isSpecial & _rawB_out_isNaN_T; // @[rawFloatFromRecFN.scala:53:53, :56:{33,41}] assign rawB_isNaN = _rawB_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:55:23, :56:33] wire _rawB_out_isInf_T_1 = ~_rawB_out_isInf_T; // @[rawFloatFromRecFN.scala:57:{36,41}] assign _rawB_out_isInf_T_2 = rawB_isSpecial & _rawB_out_isInf_T_1; // @[rawFloatFromRecFN.scala:53:53, :57:{33,36}] assign rawB_isInf = _rawB_out_isInf_T_2; // @[rawFloatFromRecFN.scala:55:23, :57:33] assign _rawB_out_sign_T = io_b_0[32]; // @[rawFloatFromRecFN.scala:59:25] assign rawB_sign = _rawB_out_sign_T; // @[rawFloatFromRecFN.scala:55:23, :59:25] assign _rawB_out_sExp_T = {1'h0, rawB_exp}; // @[rawFloatFromRecFN.scala:51:21, :60:27] assign rawB_sExp = _rawB_out_sExp_T; // @[rawFloatFromRecFN.scala:55:23, :60:27] wire _rawB_out_sig_T = ~rawB_isZero_0; // @[rawFloatFromRecFN.scala:52:53, :61:35] wire [1:0] _rawB_out_sig_T_1 = {1'h0, _rawB_out_sig_T}; // @[rawFloatFromRecFN.scala:61:{32,35}] wire [22:0] _rawB_out_sig_T_2 = io_b_0[22:0]; // @[rawFloatFromRecFN.scala:61:49] assign _rawB_out_sig_T_3 = {_rawB_out_sig_T_1, _rawB_out_sig_T_2}; // @[rawFloatFromRecFN.scala:61:{32,44,49}] assign rawB_sig = _rawB_out_sig_T_3; // @[rawFloatFromRecFN.scala:55:23, :61:44] wire [8:0] rawC_exp = io_c_0[31:23]; // @[rawFloatFromRecFN.scala:51:21] wire [2:0] _rawC_isZero_T = rawC_exp[8:6]; // @[rawFloatFromRecFN.scala:51:21, :52:28] wire rawC_isZero_0 = _rawC_isZero_T == 3'h0; // @[rawFloatFromRecFN.scala:52:{28,53}] assign rawC_isZero = rawC_isZero_0; // @[rawFloatFromRecFN.scala:52:53, :55:23] wire [1:0] _rawC_isSpecial_T = rawC_exp[8:7]; // @[rawFloatFromRecFN.scala:51:21, :53:28] wire rawC_isSpecial = &_rawC_isSpecial_T; // @[rawFloatFromRecFN.scala:53:{28,53}] wire _rawC_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:56:33] assign io_toPostMul_isNaNC_0 = rawC_isNaN; // @[rawFloatFromRecFN.scala:55:23] wire _rawC_out_isInf_T_2; // @[rawFloatFromRecFN.scala:57:33] assign io_toPostMul_isInfC_0 = rawC_isInf; // @[rawFloatFromRecFN.scala:55:23] assign io_toPostMul_isZeroC_0 = rawC_isZero; // @[rawFloatFromRecFN.scala:55:23] wire _rawC_out_sign_T; // @[rawFloatFromRecFN.scala:59:25] wire [9:0] _rawC_out_sExp_T; // @[rawFloatFromRecFN.scala:60:27] wire [24:0] _rawC_out_sig_T_3; // @[rawFloatFromRecFN.scala:61:44] wire rawC_sign; // @[rawFloatFromRecFN.scala:55:23] wire [9:0] rawC_sExp; // @[rawFloatFromRecFN.scala:55:23] wire [24:0] rawC_sig; // @[rawFloatFromRecFN.scala:55:23] wire _rawC_out_isNaN_T = rawC_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41] wire _rawC_out_isInf_T = rawC_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41, :57:41] assign _rawC_out_isNaN_T_1 = rawC_isSpecial & _rawC_out_isNaN_T; // @[rawFloatFromRecFN.scala:53:53, :56:{33,41}] assign rawC_isNaN = _rawC_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:55:23, :56:33] wire _rawC_out_isInf_T_1 = ~_rawC_out_isInf_T; // @[rawFloatFromRecFN.scala:57:{36,41}] assign _rawC_out_isInf_T_2 = rawC_isSpecial & _rawC_out_isInf_T_1; // @[rawFloatFromRecFN.scala:53:53, :57:{33,36}] assign rawC_isInf = _rawC_out_isInf_T_2; // @[rawFloatFromRecFN.scala:55:23, :57:33] assign _rawC_out_sign_T = io_c_0[32]; // @[rawFloatFromRecFN.scala:59:25] assign rawC_sign = _rawC_out_sign_T; // @[rawFloatFromRecFN.scala:55:23, :59:25] assign _rawC_out_sExp_T = {1'h0, rawC_exp}; // @[rawFloatFromRecFN.scala:51:21, :60:27] assign rawC_sExp = _rawC_out_sExp_T; // @[rawFloatFromRecFN.scala:55:23, :60:27] wire _rawC_out_sig_T = ~rawC_isZero_0; // @[rawFloatFromRecFN.scala:52:53, :61:35] wire [1:0] _rawC_out_sig_T_1 = {1'h0, _rawC_out_sig_T}; // @[rawFloatFromRecFN.scala:61:{32,35}] wire [22:0] _rawC_out_sig_T_2 = io_c_0[22:0]; // @[rawFloatFromRecFN.scala:61:49] assign _rawC_out_sig_T_3 = {_rawC_out_sig_T_1, _rawC_out_sig_T_2}; // @[rawFloatFromRecFN.scala:61:{32,44,49}] assign rawC_sig = _rawC_out_sig_T_3; // @[rawFloatFromRecFN.scala:55:23, :61:44] wire _signProd_T = rawA_sign ^ rawB_sign; // @[rawFloatFromRecFN.scala:55:23] assign signProd = _signProd_T; // @[MulAddRecFN.scala:97:{30,42}] assign io_toPostMul_signProd_0 = signProd; // @[MulAddRecFN.scala:71:7, :97:42] wire [10:0] _sExpAlignedProd_T = {rawA_sExp[9], rawA_sExp} + {rawB_sExp[9], rawB_sExp}; // @[rawFloatFromRecFN.scala:55:23] wire [11:0] _sExpAlignedProd_T_1 = {_sExpAlignedProd_T[10], _sExpAlignedProd_T} - 12'hE5; // @[MulAddRecFN.scala:100:{19,32}] wire [10:0] _sExpAlignedProd_T_2 = _sExpAlignedProd_T_1[10:0]; // @[MulAddRecFN.scala:100:32] wire [10:0] sExpAlignedProd = _sExpAlignedProd_T_2; // @[MulAddRecFN.scala:100:32] wire _doSubMags_T = signProd ^ rawC_sign; // @[rawFloatFromRecFN.scala:55:23] assign doSubMags = _doSubMags_T; // @[MulAddRecFN.scala:102:{30,42}] assign io_toPostMul_doSubMags_0 = doSubMags; // @[MulAddRecFN.scala:71:7, :102:42] wire [11:0] _GEN = {sExpAlignedProd[10], sExpAlignedProd}; // @[MulAddRecFN.scala:100:32, :106:42] wire [11:0] _sNatCAlignDist_T = _GEN - {{2{rawC_sExp[9]}}, rawC_sExp}; // @[rawFloatFromRecFN.scala:55:23] wire [10:0] _sNatCAlignDist_T_1 = _sNatCAlignDist_T[10:0]; // @[MulAddRecFN.scala:106:42] wire [10:0] sNatCAlignDist = _sNatCAlignDist_T_1; // @[MulAddRecFN.scala:106:42] wire [9:0] posNatCAlignDist = sNatCAlignDist[9:0]; // @[MulAddRecFN.scala:106:42, :107:42] wire _isMinCAlign_T = rawA_isZero | rawB_isZero; // @[rawFloatFromRecFN.scala:55:23] wire _isMinCAlign_T_1 = $signed(sNatCAlignDist) < 11'sh0; // @[MulAddRecFN.scala:106:42, :108:69] wire isMinCAlign = _isMinCAlign_T | _isMinCAlign_T_1; // @[MulAddRecFN.scala:108:{35,50,69}] wire _CIsDominant_T = ~rawC_isZero; // @[rawFloatFromRecFN.scala:55:23] wire _CIsDominant_T_1 = posNatCAlignDist < 10'h19; // @[MulAddRecFN.scala:107:42, :110:60] wire _CIsDominant_T_2 = isMinCAlign | _CIsDominant_T_1; // @[MulAddRecFN.scala:108:50, :110:{39,60}] assign CIsDominant = _CIsDominant_T & _CIsDominant_T_2; // @[MulAddRecFN.scala:110:{9,23,39}] assign io_toPostMul_CIsDominant_0 = CIsDominant; // @[MulAddRecFN.scala:71:7, :110:23] wire _CAlignDist_T = posNatCAlignDist < 10'h4A; // @[MulAddRecFN.scala:107:42, :114:34] wire [6:0] _CAlignDist_T_1 = posNatCAlignDist[6:0]; // @[MulAddRecFN.scala:107:42, :115:33] wire [6:0] _CAlignDist_T_2 = _CAlignDist_T ? _CAlignDist_T_1 : 7'h4A; // @[MulAddRecFN.scala:114:{16,34}, :115:33] wire [6:0] CAlignDist = isMinCAlign ? 7'h0 : _CAlignDist_T_2; // @[MulAddRecFN.scala:108:50, :112:12, :114:16] wire [24:0] _mainAlignedSigC_T = ~rawC_sig; // @[rawFloatFromRecFN.scala:55:23] wire [24:0] _mainAlignedSigC_T_1 = doSubMags ? _mainAlignedSigC_T : rawC_sig; // @[rawFloatFromRecFN.scala:55:23] wire [52:0] _mainAlignedSigC_T_2 = {53{doSubMags}}; // @[MulAddRecFN.scala:102:42, :120:53] wire [77:0] _mainAlignedSigC_T_3 = {_mainAlignedSigC_T_1, _mainAlignedSigC_T_2}; // @[MulAddRecFN.scala:120:{13,46,53}] wire [77:0] _mainAlignedSigC_T_4 = _mainAlignedSigC_T_3; // @[MulAddRecFN.scala:120:{46,94}] wire [77:0] mainAlignedSigC = $signed($signed(_mainAlignedSigC_T_4) >>> CAlignDist); // @[MulAddRecFN.scala:112:12, :120:{94,100}] wire [26:0] _reduced4CExtra_T = {rawC_sig, 2'h0}; // @[rawFloatFromRecFN.scala:55:23] wire _reduced4CExtra_reducedVec_0_T_1; // @[primitives.scala:120:54] wire _reduced4CExtra_reducedVec_1_T_1; // @[primitives.scala:120:54] wire _reduced4CExtra_reducedVec_2_T_1; // @[primitives.scala:120:54] wire _reduced4CExtra_reducedVec_3_T_1; // @[primitives.scala:120:54] wire _reduced4CExtra_reducedVec_4_T_1; // @[primitives.scala:120:54] wire _reduced4CExtra_reducedVec_5_T_1; // @[primitives.scala:120:54] wire _reduced4CExtra_reducedVec_6_T_1; // @[primitives.scala:123:57] wire reduced4CExtra_reducedVec_0; // @[primitives.scala:118:30] wire reduced4CExtra_reducedVec_1; // @[primitives.scala:118:30] wire reduced4CExtra_reducedVec_2; // @[primitives.scala:118:30] wire reduced4CExtra_reducedVec_3; // @[primitives.scala:118:30] wire reduced4CExtra_reducedVec_4; // @[primitives.scala:118:30] wire reduced4CExtra_reducedVec_5; // @[primitives.scala:118:30] wire reduced4CExtra_reducedVec_6; // @[primitives.scala:118:30] wire [3:0] _reduced4CExtra_reducedVec_0_T = _reduced4CExtra_T[3:0]; // @[primitives.scala:120:33] assign _reduced4CExtra_reducedVec_0_T_1 = |_reduced4CExtra_reducedVec_0_T; // @[primitives.scala:120:{33,54}] assign reduced4CExtra_reducedVec_0 = _reduced4CExtra_reducedVec_0_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _reduced4CExtra_reducedVec_1_T = _reduced4CExtra_T[7:4]; // @[primitives.scala:120:33] assign _reduced4CExtra_reducedVec_1_T_1 = |_reduced4CExtra_reducedVec_1_T; // @[primitives.scala:120:{33,54}] assign reduced4CExtra_reducedVec_1 = _reduced4CExtra_reducedVec_1_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _reduced4CExtra_reducedVec_2_T = _reduced4CExtra_T[11:8]; // @[primitives.scala:120:33] assign _reduced4CExtra_reducedVec_2_T_1 = |_reduced4CExtra_reducedVec_2_T; // @[primitives.scala:120:{33,54}] assign reduced4CExtra_reducedVec_2 = _reduced4CExtra_reducedVec_2_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _reduced4CExtra_reducedVec_3_T = _reduced4CExtra_T[15:12]; // @[primitives.scala:120:33] assign _reduced4CExtra_reducedVec_3_T_1 = |_reduced4CExtra_reducedVec_3_T; // @[primitives.scala:120:{33,54}] assign reduced4CExtra_reducedVec_3 = _reduced4CExtra_reducedVec_3_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _reduced4CExtra_reducedVec_4_T = _reduced4CExtra_T[19:16]; // @[primitives.scala:120:33] assign _reduced4CExtra_reducedVec_4_T_1 = |_reduced4CExtra_reducedVec_4_T; // @[primitives.scala:120:{33,54}] assign reduced4CExtra_reducedVec_4 = _reduced4CExtra_reducedVec_4_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _reduced4CExtra_reducedVec_5_T = _reduced4CExtra_T[23:20]; // @[primitives.scala:120:33] assign _reduced4CExtra_reducedVec_5_T_1 = |_reduced4CExtra_reducedVec_5_T; // @[primitives.scala:120:{33,54}] assign reduced4CExtra_reducedVec_5 = _reduced4CExtra_reducedVec_5_T_1; // @[primitives.scala:118:30, :120:54] wire [2:0] _reduced4CExtra_reducedVec_6_T = _reduced4CExtra_T[26:24]; // @[primitives.scala:123:15] assign _reduced4CExtra_reducedVec_6_T_1 = |_reduced4CExtra_reducedVec_6_T; // @[primitives.scala:123:{15,57}] assign reduced4CExtra_reducedVec_6 = _reduced4CExtra_reducedVec_6_T_1; // @[primitives.scala:118:30, :123:57] wire [1:0] reduced4CExtra_lo_hi = {reduced4CExtra_reducedVec_2, reduced4CExtra_reducedVec_1}; // @[primitives.scala:118:30, :124:20] wire [2:0] reduced4CExtra_lo = {reduced4CExtra_lo_hi, reduced4CExtra_reducedVec_0}; // @[primitives.scala:118:30, :124:20] wire [1:0] reduced4CExtra_hi_lo = {reduced4CExtra_reducedVec_4, reduced4CExtra_reducedVec_3}; // @[primitives.scala:118:30, :124:20] wire [1:0] reduced4CExtra_hi_hi = {reduced4CExtra_reducedVec_6, reduced4CExtra_reducedVec_5}; // @[primitives.scala:118:30, :124:20] wire [3:0] reduced4CExtra_hi = {reduced4CExtra_hi_hi, reduced4CExtra_hi_lo}; // @[primitives.scala:124:20] wire [6:0] _reduced4CExtra_T_1 = {reduced4CExtra_hi, reduced4CExtra_lo}; // @[primitives.scala:124:20] wire [4:0] _reduced4CExtra_T_2 = CAlignDist[6:2]; // @[MulAddRecFN.scala:112:12, :124:28] wire [32:0] reduced4CExtra_shift = $signed(33'sh100000000 >>> _reduced4CExtra_T_2); // @[primitives.scala:76:56] wire [5:0] _reduced4CExtra_T_3 = reduced4CExtra_shift[19:14]; // @[primitives.scala:76:56, :78:22] wire [3:0] _reduced4CExtra_T_4 = _reduced4CExtra_T_3[3:0]; // @[primitives.scala:77:20, :78:22] wire [1:0] _reduced4CExtra_T_5 = _reduced4CExtra_T_4[1:0]; // @[primitives.scala:77:20] wire _reduced4CExtra_T_6 = _reduced4CExtra_T_5[0]; // @[primitives.scala:77:20] wire _reduced4CExtra_T_7 = _reduced4CExtra_T_5[1]; // @[primitives.scala:77:20] wire [1:0] _reduced4CExtra_T_8 = {_reduced4CExtra_T_6, _reduced4CExtra_T_7}; // @[primitives.scala:77:20] wire [1:0] _reduced4CExtra_T_9 = _reduced4CExtra_T_4[3:2]; // @[primitives.scala:77:20] wire _reduced4CExtra_T_10 = _reduced4CExtra_T_9[0]; // @[primitives.scala:77:20] wire _reduced4CExtra_T_11 = _reduced4CExtra_T_9[1]; // @[primitives.scala:77:20] wire [1:0] _reduced4CExtra_T_12 = {_reduced4CExtra_T_10, _reduced4CExtra_T_11}; // @[primitives.scala:77:20] wire [3:0] _reduced4CExtra_T_13 = {_reduced4CExtra_T_8, _reduced4CExtra_T_12}; // @[primitives.scala:77:20] wire [1:0] _reduced4CExtra_T_14 = _reduced4CExtra_T_3[5:4]; // @[primitives.scala:77:20, :78:22] wire _reduced4CExtra_T_15 = _reduced4CExtra_T_14[0]; // @[primitives.scala:77:20] wire _reduced4CExtra_T_16 = _reduced4CExtra_T_14[1]; // @[primitives.scala:77:20] wire [1:0] _reduced4CExtra_T_17 = {_reduced4CExtra_T_15, _reduced4CExtra_T_16}; // @[primitives.scala:77:20] wire [5:0] _reduced4CExtra_T_18 = {_reduced4CExtra_T_13, _reduced4CExtra_T_17}; // @[primitives.scala:77:20] wire [6:0] _reduced4CExtra_T_19 = {1'h0, _reduced4CExtra_T_1[5:0] & _reduced4CExtra_T_18}; // @[primitives.scala:77:20, :124:20] wire reduced4CExtra = |_reduced4CExtra_T_19; // @[MulAddRecFN.scala:122:68, :130:11] wire [74:0] _alignedSigC_T = mainAlignedSigC[77:3]; // @[MulAddRecFN.scala:120:100, :132:28] wire [74:0] alignedSigC_hi = _alignedSigC_T; // @[MulAddRecFN.scala:132:{12,28}] wire [2:0] _alignedSigC_T_1 = mainAlignedSigC[2:0]; // @[MulAddRecFN.scala:120:100, :134:32] wire [2:0] _alignedSigC_T_5 = mainAlignedSigC[2:0]; // @[MulAddRecFN.scala:120:100, :134:32, :135:32] wire _alignedSigC_T_2 = &_alignedSigC_T_1; // @[MulAddRecFN.scala:134:{32,39}] wire _alignedSigC_T_3 = ~reduced4CExtra; // @[MulAddRecFN.scala:130:11, :134:47] wire _alignedSigC_T_4 = _alignedSigC_T_2 & _alignedSigC_T_3; // @[MulAddRecFN.scala:134:{39,44,47}] wire _alignedSigC_T_6 = |_alignedSigC_T_5; // @[MulAddRecFN.scala:135:{32,39}] wire _alignedSigC_T_7 = _alignedSigC_T_6 | reduced4CExtra; // @[MulAddRecFN.scala:130:11, :135:{39,44}] wire _alignedSigC_T_8 = doSubMags ? _alignedSigC_T_4 : _alignedSigC_T_7; // @[MulAddRecFN.scala:102:42, :133:16, :134:44, :135:44] wire [75:0] alignedSigC = {alignedSigC_hi, _alignedSigC_T_8}; // @[MulAddRecFN.scala:132:12, :133:16] assign io_mulAddA_0 = rawA_sig[23:0]; // @[rawFloatFromRecFN.scala:55:23] assign io_mulAddB_0 = rawB_sig[23:0]; // @[rawFloatFromRecFN.scala:55:23] assign _io_mulAddC_T = alignedSigC[48:1]; // @[MulAddRecFN.scala:132:12, :143:30] assign io_mulAddC_0 = _io_mulAddC_T; // @[MulAddRecFN.scala:71:7, :143:30] wire _io_toPostMul_isSigNaNAny_T = rawA_sig[22]; // @[rawFloatFromRecFN.scala:55:23] wire _io_toPostMul_isSigNaNAny_T_1 = ~_io_toPostMul_isSigNaNAny_T; // @[common.scala:82:{49,56}] wire _io_toPostMul_isSigNaNAny_T_2 = rawA_isNaN & _io_toPostMul_isSigNaNAny_T_1; // @[rawFloatFromRecFN.scala:55:23] wire _io_toPostMul_isSigNaNAny_T_3 = rawB_sig[22]; // @[rawFloatFromRecFN.scala:55:23] wire _io_toPostMul_isSigNaNAny_T_4 = ~_io_toPostMul_isSigNaNAny_T_3; // @[common.scala:82:{49,56}] wire _io_toPostMul_isSigNaNAny_T_5 = rawB_isNaN & _io_toPostMul_isSigNaNAny_T_4; // @[rawFloatFromRecFN.scala:55:23] wire _io_toPostMul_isSigNaNAny_T_6 = _io_toPostMul_isSigNaNAny_T_2 | _io_toPostMul_isSigNaNAny_T_5; // @[common.scala:82:46] wire _io_toPostMul_isSigNaNAny_T_7 = rawC_sig[22]; // @[rawFloatFromRecFN.scala:55:23] wire _io_toPostMul_isSigNaNAny_T_8 = ~_io_toPostMul_isSigNaNAny_T_7; // @[common.scala:82:{49,56}] wire _io_toPostMul_isSigNaNAny_T_9 = rawC_isNaN & _io_toPostMul_isSigNaNAny_T_8; // @[rawFloatFromRecFN.scala:55:23] assign _io_toPostMul_isSigNaNAny_T_10 = _io_toPostMul_isSigNaNAny_T_6 | _io_toPostMul_isSigNaNAny_T_9; // @[common.scala:82:46] assign io_toPostMul_isSigNaNAny_0 = _io_toPostMul_isSigNaNAny_T_10; // @[MulAddRecFN.scala:71:7, :146:58] assign _io_toPostMul_isNaNAOrB_T = rawA_isNaN | rawB_isNaN; // @[rawFloatFromRecFN.scala:55:23] assign io_toPostMul_isNaNAOrB_0 = _io_toPostMul_isNaNAOrB_T; // @[MulAddRecFN.scala:71:7, :148:42] wire [11:0] _io_toPostMul_sExpSum_T = _GEN - 12'h18; // @[MulAddRecFN.scala:106:42, :158:53] wire [10:0] _io_toPostMul_sExpSum_T_1 = _io_toPostMul_sExpSum_T[10:0]; // @[MulAddRecFN.scala:158:53] wire [10:0] _io_toPostMul_sExpSum_T_2 = _io_toPostMul_sExpSum_T_1; // @[MulAddRecFN.scala:158:53] wire [10:0] _io_toPostMul_sExpSum_T_3 = CIsDominant ? {rawC_sExp[9], rawC_sExp} : _io_toPostMul_sExpSum_T_2; // @[rawFloatFromRecFN.scala:55:23] assign io_toPostMul_sExpSum_0 = _io_toPostMul_sExpSum_T_3[9:0]; // @[MulAddRecFN.scala:71:7, :157:28, :158:12] assign _io_toPostMul_CDom_CAlignDist_T = CAlignDist[4:0]; // @[MulAddRecFN.scala:112:12, :161:47] assign io_toPostMul_CDom_CAlignDist_0 = _io_toPostMul_CDom_CAlignDist_T; // @[MulAddRecFN.scala:71:7, :161:47] assign _io_toPostMul_highAlignedSigC_T = alignedSigC[74:49]; // @[MulAddRecFN.scala:132:12, :163:20] assign io_toPostMul_highAlignedSigC_0 = _io_toPostMul_highAlignedSigC_T; // @[MulAddRecFN.scala:71:7, :163:20] assign _io_toPostMul_bit0AlignedSigC_T = alignedSigC[0]; // @[MulAddRecFN.scala:132:12, :164:48] assign io_toPostMul_bit0AlignedSigC_0 = _io_toPostMul_bit0AlignedSigC_T; // @[MulAddRecFN.scala:71:7, :164:48] assign io_mulAddA = io_mulAddA_0; // @[MulAddRecFN.scala:71:7] assign io_mulAddB = io_mulAddB_0; // @[MulAddRecFN.scala:71:7] assign io_mulAddC = io_mulAddC_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_isSigNaNAny = io_toPostMul_isSigNaNAny_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_isNaNAOrB = io_toPostMul_isNaNAOrB_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_isInfA = io_toPostMul_isInfA_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_isZeroA = io_toPostMul_isZeroA_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_isInfB = io_toPostMul_isInfB_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_isZeroB = io_toPostMul_isZeroB_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_signProd = io_toPostMul_signProd_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_isNaNC = io_toPostMul_isNaNC_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_isInfC = io_toPostMul_isInfC_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_isZeroC = io_toPostMul_isZeroC_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_sExpSum = io_toPostMul_sExpSum_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_doSubMags = io_toPostMul_doSubMags_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_CIsDominant = io_toPostMul_CIsDominant_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_CDom_CAlignDist = io_toPostMul_CDom_CAlignDist_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_highAlignedSigC = io_toPostMul_highAlignedSigC_0; // @[MulAddRecFN.scala:71:7] assign io_toPostMul_bit0AlignedSigC = io_toPostMul_bit0AlignedSigC_0; // @[MulAddRecFN.scala:71:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Nodes.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.util.{AsyncQueueParams,RationalDirection} case object TLMonitorBuilder extends Field[TLMonitorArgs => TLMonitorBase](args => new TLMonitor(args)) object TLImp extends NodeImp[TLMasterPortParameters, TLSlavePortParameters, TLEdgeOut, TLEdgeIn, TLBundle] { def edgeO(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeOut(pd, pu, p, sourceInfo) def edgeI(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeIn (pd, pu, p, sourceInfo) def bundleO(eo: TLEdgeOut) = TLBundle(eo.bundle) def bundleI(ei: TLEdgeIn) = TLBundle(ei.bundle) def render(ei: TLEdgeIn) = RenderedEdge(colour = "#000000" /* black */, label = (ei.manager.beatBytes * 8).toString) override def monitor(bundle: TLBundle, edge: TLEdgeIn): Unit = { val monitor = Module(edge.params(TLMonitorBuilder)(TLMonitorArgs(edge))) monitor.io.in := bundle } override def mixO(pd: TLMasterPortParameters, node: OutwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLMasterPortParameters = pd.v1copy(clients = pd.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) }) override def mixI(pu: TLSlavePortParameters, node: InwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLSlavePortParameters = pu.v1copy(managers = pu.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) }) } trait TLFormatNode extends FormatNode[TLEdgeIn, TLEdgeOut] case class TLClientNode(portParams: Seq[TLMasterPortParameters])(implicit valName: ValName) extends SourceNode(TLImp)(portParams) with TLFormatNode case class TLManagerNode(portParams: Seq[TLSlavePortParameters])(implicit valName: ValName) extends SinkNode(TLImp)(portParams) with TLFormatNode case class TLAdapterNode( clientFn: TLMasterPortParameters => TLMasterPortParameters = { s => s }, managerFn: TLSlavePortParameters => TLSlavePortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLJunctionNode( clientFn: Seq[TLMasterPortParameters] => Seq[TLMasterPortParameters], managerFn: Seq[TLSlavePortParameters] => Seq[TLSlavePortParameters])( implicit valName: ValName) extends JunctionNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLIdentityNode()(implicit valName: ValName) extends IdentityNode(TLImp)() with TLFormatNode object TLNameNode { def apply(name: ValName) = TLIdentityNode()(name) def apply(name: Option[String]): TLIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLIdentityNode = apply(Some(name)) } case class TLEphemeralNode()(implicit valName: ValName) extends EphemeralNode(TLImp)() object TLTempNode { def apply(): TLEphemeralNode = TLEphemeralNode()(ValName("temp")) } case class TLNexusNode( clientFn: Seq[TLMasterPortParameters] => TLMasterPortParameters, managerFn: Seq[TLSlavePortParameters] => TLSlavePortParameters)( implicit valName: ValName) extends NexusNode(TLImp)(clientFn, managerFn) with TLFormatNode abstract class TLCustomNode(implicit valName: ValName) extends CustomNode(TLImp) with TLFormatNode // Asynchronous crossings trait TLAsyncFormatNode extends FormatNode[TLAsyncEdgeParameters, TLAsyncEdgeParameters] object TLAsyncImp extends SimpleNodeImp[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncEdgeParameters, TLAsyncBundle] { def edge(pd: TLAsyncClientPortParameters, pu: TLAsyncManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLAsyncEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLAsyncEdgeParameters) = new TLAsyncBundle(e.bundle) def render(e: TLAsyncEdgeParameters) = RenderedEdge(colour = "#ff0000" /* red */, label = e.manager.async.depth.toString) override def mixO(pd: TLAsyncClientPortParameters, node: OutwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLAsyncManagerPortParameters, node: InwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLAsyncAdapterNode( clientFn: TLAsyncClientPortParameters => TLAsyncClientPortParameters = { s => s }, managerFn: TLAsyncManagerPortParameters => TLAsyncManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLAsyncImp)(clientFn, managerFn) with TLAsyncFormatNode case class TLAsyncIdentityNode()(implicit valName: ValName) extends IdentityNode(TLAsyncImp)() with TLAsyncFormatNode object TLAsyncNameNode { def apply(name: ValName) = TLAsyncIdentityNode()(name) def apply(name: Option[String]): TLAsyncIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLAsyncIdentityNode = apply(Some(name)) } case class TLAsyncSourceNode(sync: Option[Int])(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLAsyncImp)( dFn = { p => TLAsyncClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = p.base.minLatency + sync.getOrElse(p.async.sync)) }) with FormatNode[TLEdgeIn, TLAsyncEdgeParameters] // discard cycles in other clock domain case class TLAsyncSinkNode(async: AsyncQueueParams)(implicit valName: ValName) extends MixedAdapterNode(TLAsyncImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = p.base.minLatency + async.sync) }, uFn = { p => TLAsyncManagerPortParameters(async, p) }) with FormatNode[TLAsyncEdgeParameters, TLEdgeOut] // Rationally related crossings trait TLRationalFormatNode extends FormatNode[TLRationalEdgeParameters, TLRationalEdgeParameters] object TLRationalImp extends SimpleNodeImp[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalEdgeParameters, TLRationalBundle] { def edge(pd: TLRationalClientPortParameters, pu: TLRationalManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLRationalEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLRationalEdgeParameters) = new TLRationalBundle(e.bundle) def render(e: TLRationalEdgeParameters) = RenderedEdge(colour = "#00ff00" /* green */) override def mixO(pd: TLRationalClientPortParameters, node: OutwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLRationalManagerPortParameters, node: InwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLRationalAdapterNode( clientFn: TLRationalClientPortParameters => TLRationalClientPortParameters = { s => s }, managerFn: TLRationalManagerPortParameters => TLRationalManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLRationalImp)(clientFn, managerFn) with TLRationalFormatNode case class TLRationalIdentityNode()(implicit valName: ValName) extends IdentityNode(TLRationalImp)() with TLRationalFormatNode object TLRationalNameNode { def apply(name: ValName) = TLRationalIdentityNode()(name) def apply(name: Option[String]): TLRationalIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLRationalIdentityNode = apply(Some(name)) } case class TLRationalSourceNode()(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLRationalImp)( dFn = { p => TLRationalClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLRationalEdgeParameters] // discard cycles from other clock domain case class TLRationalSinkNode(direction: RationalDirection)(implicit valName: ValName) extends MixedAdapterNode(TLRationalImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLRationalManagerPortParameters(direction, p) }) with FormatNode[TLRationalEdgeParameters, TLEdgeOut] // Credited version of TileLink channels trait TLCreditedFormatNode extends FormatNode[TLCreditedEdgeParameters, TLCreditedEdgeParameters] object TLCreditedImp extends SimpleNodeImp[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedEdgeParameters, TLCreditedBundle] { def edge(pd: TLCreditedClientPortParameters, pu: TLCreditedManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLCreditedEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLCreditedEdgeParameters) = new TLCreditedBundle(e.bundle) def render(e: TLCreditedEdgeParameters) = RenderedEdge(colour = "#ffff00" /* yellow */, e.delay.toString) override def mixO(pd: TLCreditedClientPortParameters, node: OutwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLCreditedManagerPortParameters, node: InwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLCreditedAdapterNode( clientFn: TLCreditedClientPortParameters => TLCreditedClientPortParameters = { s => s }, managerFn: TLCreditedManagerPortParameters => TLCreditedManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLCreditedImp)(clientFn, managerFn) with TLCreditedFormatNode case class TLCreditedIdentityNode()(implicit valName: ValName) extends IdentityNode(TLCreditedImp)() with TLCreditedFormatNode object TLCreditedNameNode { def apply(name: ValName) = TLCreditedIdentityNode()(name) def apply(name: Option[String]): TLCreditedIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLCreditedIdentityNode = apply(Some(name)) } case class TLCreditedSourceNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLCreditedImp)( dFn = { p => TLCreditedClientPortParameters(delay, p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLCreditedEdgeParameters] // discard cycles from other clock domain case class TLCreditedSinkNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLCreditedImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLCreditedManagerPortParameters(delay, p) }) with FormatNode[TLCreditedEdgeParameters, TLEdgeOut] File AsyncQueue.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ case class AsyncQueueParams( depth: Int = 8, sync: Int = 3, safe: Boolean = true, // If safe is true, then effort is made to resynchronize the crossing indices when either side is reset. // This makes it safe/possible to reset one side of the crossing (but not the other) when the queue is empty. narrow: Boolean = false) // If narrow is true then the read mux is moved to the source side of the crossing. // This reduces the number of level shifters in the case where the clock crossing is also a voltage crossing, // at the expense of a combinational path from the sink to the source and back to the sink. { require (depth > 0 && isPow2(depth)) require (sync >= 2) val bits = log2Ceil(depth) val wires = if (narrow) 1 else depth } object AsyncQueueParams { // When there is only one entry, we don't need narrow. def singleton(sync: Int = 3, safe: Boolean = true) = AsyncQueueParams(1, sync, safe, false) } class AsyncBundleSafety extends Bundle { val ridx_valid = Input (Bool()) val widx_valid = Output(Bool()) val source_reset_n = Output(Bool()) val sink_reset_n = Input (Bool()) } class AsyncBundle[T <: Data](private val gen: T, val params: AsyncQueueParams = AsyncQueueParams()) extends Bundle { // Data-path synchronization val mem = Output(Vec(params.wires, gen)) val ridx = Input (UInt((params.bits+1).W)) val widx = Output(UInt((params.bits+1).W)) val index = params.narrow.option(Input(UInt(params.bits.W))) // Signals used to self-stabilize a safe AsyncQueue val safe = params.safe.option(new AsyncBundleSafety) } object GrayCounter { def apply(bits: Int, increment: Bool = true.B, clear: Bool = false.B, name: String = "binary"): UInt = { val incremented = Wire(UInt(bits.W)) val binary = RegNext(next=incremented, init=0.U).suggestName(name) incremented := Mux(clear, 0.U, binary + increment.asUInt) incremented ^ (incremented >> 1) } } class AsyncValidSync(sync: Int, desc: String) extends RawModule { val io = IO(new Bundle { val in = Input(Bool()) val out = Output(Bool()) }) val clock = IO(Input(Clock())) val reset = IO(Input(AsyncReset())) withClockAndReset(clock, reset){ io.out := AsyncResetSynchronizerShiftReg(io.in, sync, Some(desc)) } } class AsyncQueueSource[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSource_${gen.typeName}" val io = IO(new Bundle { // These come from the source domain val enq = Flipped(Decoupled(gen)) // These cross to the sink clock domain val async = new AsyncBundle(gen, params) }) val bits = params.bits val sink_ready = WireInit(true.B) val mem = Reg(Vec(params.depth, gen)) // This does NOT need to be reset at all. val widx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.enq.fire, !sink_ready, "widx_bin")) val ridx = AsyncResetSynchronizerShiftReg(io.async.ridx, params.sync, Some("ridx_gray")) val ready = sink_ready && widx =/= (ridx ^ (params.depth | params.depth >> 1).U) val index = if (bits == 0) 0.U else io.async.widx(bits-1, 0) ^ (io.async.widx(bits, bits) << (bits-1)) when (io.enq.fire) { mem(index) := io.enq.bits } val ready_reg = withReset(reset.asAsyncReset)(RegNext(next=ready, init=false.B).suggestName("ready_reg")) io.enq.ready := ready_reg && sink_ready val widx_reg = withReset(reset.asAsyncReset)(RegNext(next=widx, init=0.U).suggestName("widx_gray")) io.async.widx := widx_reg io.async.index match { case Some(index) => io.async.mem(0) := mem(index) case None => io.async.mem := mem } io.async.safe.foreach { sio => val source_valid_0 = Module(new AsyncValidSync(params.sync, "source_valid_0")) val source_valid_1 = Module(new AsyncValidSync(params.sync, "source_valid_1")) val sink_extend = Module(new AsyncValidSync(params.sync, "sink_extend")) val sink_valid = Module(new AsyncValidSync(params.sync, "sink_valid")) source_valid_0.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset source_valid_1.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_extend .reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_valid .reset := reset.asAsyncReset source_valid_0.clock := clock source_valid_1.clock := clock sink_extend .clock := clock sink_valid .clock := clock source_valid_0.io.in := true.B source_valid_1.io.in := source_valid_0.io.out sio.widx_valid := source_valid_1.io.out sink_extend.io.in := sio.ridx_valid sink_valid.io.in := sink_extend.io.out sink_ready := sink_valid.io.out sio.source_reset_n := !reset.asBool // Assert that if there is stuff in the queue, then reset cannot happen // Impossible to write because dequeue can occur on the receiving side, // then reset allowed to happen, but write side cannot know that dequeue // occurred. // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // assert (!(reset || !sio.sink_reset_n) || !io.enq.valid, "Enqueue while sink is reset and AsyncQueueSource is unprotected") // assert (!reset_rise || prev_idx_match.asBool, "Sink reset while AsyncQueueSource not empty") } } class AsyncQueueSink[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSink_${gen.typeName}" val io = IO(new Bundle { // These come from the sink domain val deq = Decoupled(gen) // These cross to the source clock domain val async = Flipped(new AsyncBundle(gen, params)) }) val bits = params.bits val source_ready = WireInit(true.B) val ridx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.deq.fire, !source_ready, "ridx_bin")) val widx = AsyncResetSynchronizerShiftReg(io.async.widx, params.sync, Some("widx_gray")) val valid = source_ready && ridx =/= widx // The mux is safe because timing analysis ensures ridx has reached the register // On an ASIC, changes to the unread location cannot affect the selected value // On an FPGA, only one input changes at a time => mem updates don't cause glitches // The register only latches when the selected valued is not being written val index = if (bits == 0) 0.U else ridx(bits-1, 0) ^ (ridx(bits, bits) << (bits-1)) io.async.index.foreach { _ := index } // This register does not NEED to be reset, as its contents will not // be considered unless the asynchronously reset deq valid register is set. // It is possible that bits latches when the source domain is reset / has power cut // This is safe, because isolation gates brought mem low before the zeroed widx reached us val deq_bits_nxt = io.async.mem(if (params.narrow) 0.U else index) io.deq.bits := ClockCrossingReg(deq_bits_nxt, en = valid, doInit = false, name = Some("deq_bits_reg")) val valid_reg = withReset(reset.asAsyncReset)(RegNext(next=valid, init=false.B).suggestName("valid_reg")) io.deq.valid := valid_reg && source_ready val ridx_reg = withReset(reset.asAsyncReset)(RegNext(next=ridx, init=0.U).suggestName("ridx_gray")) io.async.ridx := ridx_reg io.async.safe.foreach { sio => val sink_valid_0 = Module(new AsyncValidSync(params.sync, "sink_valid_0")) val sink_valid_1 = Module(new AsyncValidSync(params.sync, "sink_valid_1")) val source_extend = Module(new AsyncValidSync(params.sync, "source_extend")) val source_valid = Module(new AsyncValidSync(params.sync, "source_valid")) sink_valid_0 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset sink_valid_1 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_extend.reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_valid .reset := reset.asAsyncReset sink_valid_0 .clock := clock sink_valid_1 .clock := clock source_extend.clock := clock source_valid .clock := clock sink_valid_0.io.in := true.B sink_valid_1.io.in := sink_valid_0.io.out sio.ridx_valid := sink_valid_1.io.out source_extend.io.in := sio.widx_valid source_valid.io.in := source_extend.io.out source_ready := source_valid.io.out sio.sink_reset_n := !reset.asBool // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // // val reset_and_extend = !source_ready || !sio.source_reset_n || reset.asBool // val reset_and_extend_prev = RegNext(reset_and_extend, true.B) // val reset_rise = !reset_and_extend_prev && reset_and_extend // val prev_idx_match = AsyncResetReg(updateData=(io.async.widx===io.async.ridx), resetData=0) // assert (!reset_rise || prev_idx_match.asBool, "Source reset while AsyncQueueSink not empty") } } object FromAsyncBundle { // Sometimes it makes sense for the sink to have different sync than the source def apply[T <: Data](x: AsyncBundle[T]): DecoupledIO[T] = apply(x, x.params.sync) def apply[T <: Data](x: AsyncBundle[T], sync: Int): DecoupledIO[T] = { val sink = Module(new AsyncQueueSink(chiselTypeOf(x.mem(0)), x.params.copy(sync = sync))) sink.io.async <> x sink.io.deq } } object ToAsyncBundle { def apply[T <: Data](x: ReadyValidIO[T], params: AsyncQueueParams = AsyncQueueParams()): AsyncBundle[T] = { val source = Module(new AsyncQueueSource(chiselTypeOf(x.bits), params)) source.io.enq <> x source.io.async } } class AsyncQueue[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Crossing[T] { val io = IO(new CrossingIO(gen)) val source = withClockAndReset(io.enq_clock, io.enq_reset) { Module(new AsyncQueueSource(gen, params)) } val sink = withClockAndReset(io.deq_clock, io.deq_reset) { Module(new AsyncQueueSink (gen, params)) } source.io.enq <> io.enq io.deq <> sink.io.deq sink.io.async <> source.io.async } File AsyncCrossing.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.{AddressSet, NodeHandle} import freechips.rocketchip.prci.{AsynchronousCrossing} import freechips.rocketchip.subsystem.CrossingWrapper import freechips.rocketchip.util.{AsyncQueueParams, ToAsyncBundle, FromAsyncBundle, Pow2ClockDivider, property} class TLAsyncCrossingSource(sync: Option[Int])(implicit p: Parameters) extends LazyModule { def this(x: Int)(implicit p: Parameters) = this(Some(x)) def this()(implicit p: Parameters) = this(None) val node = TLAsyncSourceNode(sync) lazy val module = new Impl class Impl extends LazyModuleImp(this) { override def desiredName = (Seq("TLAsyncCrossingSource") ++ node.in.headOption.map(_._2.bundle.shortName)).mkString("_") (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => val bce = edgeIn.manager.anySupportAcquireB && edgeIn.client.anySupportProbe val psync = sync.getOrElse(edgeOut.manager.async.sync) val params = edgeOut.manager.async.copy(sync = psync) out.a <> ToAsyncBundle(in.a, params) in.d <> FromAsyncBundle(out.d, psync) property.cover(in.a, "TL_ASYNC_CROSSING_SOURCE_A", "MemorySystem;;TLAsyncCrossingSource Channel A") property.cover(in.d, "TL_ASYNC_CROSSING_SOURCE_D", "MemorySystem;;TLAsyncCrossingSource Channel D") if (bce) { in.b <> FromAsyncBundle(out.b, psync) out.c <> ToAsyncBundle(in.c, params) out.e <> ToAsyncBundle(in.e, params) property.cover(in.b, "TL_ASYNC_CROSSING_SOURCE_B", "MemorySystem;;TLAsyncCrossingSource Channel B") property.cover(in.c, "TL_ASYNC_CROSSING_SOURCE_C", "MemorySystem;;TLAsyncCrossingSource Channel C") property.cover(in.e, "TL_ASYNC_CROSSING_SOURCE_E", "MemorySystem;;TLAsyncCrossingSource Channel E") } else { in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ridx := 0.U out.c.widx := 0.U out.e.widx := 0.U } } } } class TLAsyncCrossingSink(params: AsyncQueueParams = AsyncQueueParams())(implicit p: Parameters) extends LazyModule { val node = TLAsyncSinkNode(params) lazy val module = new Impl class Impl extends LazyModuleImp(this) { override def desiredName = (Seq("TLAsyncCrossingSink") ++ node.out.headOption.map(_._2.bundle.shortName)).mkString("_") (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => val bce = edgeOut.manager.anySupportAcquireB && edgeOut.client.anySupportProbe out.a <> FromAsyncBundle(in.a, params.sync) in.d <> ToAsyncBundle(out.d, params) property.cover(out.a, "TL_ASYNC_CROSSING_SINK_A", "MemorySystem;;TLAsyncCrossingSink Channel A") property.cover(out.d, "TL_ASYNC_CROSSING_SINK_D", "MemorySystem;;TLAsyncCrossingSink Channel D") if (bce) { in.b <> ToAsyncBundle(out.b, params) out.c <> FromAsyncBundle(in.c, params.sync) out.e <> FromAsyncBundle(in.e, params.sync) property.cover(out.b, "TL_ASYNC_CROSSING_SINK_B", "MemorySystem;;TLAsyncCrossingSinkChannel B") property.cover(out.c, "TL_ASYNC_CROSSING_SINK_C", "MemorySystem;;TLAsyncCrossingSink Channel C") property.cover(out.e, "TL_ASYNC_CROSSING_SINK_E", "MemorySystem;;TLAsyncCrossingSink Channel E") } else { in.b.widx := 0.U in.c.ridx := 0.U in.e.ridx := 0.U out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } } } } object TLAsyncCrossingSource { def apply()(implicit p: Parameters): TLAsyncSourceNode = apply(None) def apply(sync: Int)(implicit p: Parameters): TLAsyncSourceNode = apply(Some(sync)) def apply(sync: Option[Int])(implicit p: Parameters): TLAsyncSourceNode = { val asource = LazyModule(new TLAsyncCrossingSource(sync)) asource.node } } object TLAsyncCrossingSink { def apply(params: AsyncQueueParams = AsyncQueueParams())(implicit p: Parameters) = { val asink = LazyModule(new TLAsyncCrossingSink(params)) asink.node } } @deprecated("TLAsyncCrossing is fragile. Use TLAsyncCrossingSource and TLAsyncCrossingSink", "rocket-chip 1.2") class TLAsyncCrossing(params: AsyncQueueParams = AsyncQueueParams())(implicit p: Parameters) extends LazyModule { val source = LazyModule(new TLAsyncCrossingSource()) val sink = LazyModule(new TLAsyncCrossingSink(params)) val node = NodeHandle(source.node, sink.node) sink.node := source.node lazy val module = new Impl class Impl extends LazyModuleImp(this) { val io = IO(new Bundle { val in_clock = Input(Clock()) val in_reset = Input(Bool()) val out_clock = Input(Clock()) val out_reset = Input(Bool()) }) source.module.clock := io.in_clock source.module.reset := io.in_reset sink.module.clock := io.out_clock sink.module.reset := io.out_reset } } // Synthesizable unit tests import freechips.rocketchip.unittest._ class TLRAMAsyncCrossing(txns: Int, params: AsynchronousCrossing = AsynchronousCrossing())(implicit p: Parameters) extends LazyModule { val model = LazyModule(new TLRAMModel("AsyncCrossing")) val fuzz = LazyModule(new TLFuzzer(txns)) val island = LazyModule(new CrossingWrapper(params)) val ram = island { LazyModule(new TLRAM(AddressSet(0x0, 0x3ff))) } island.crossTLIn(ram.node) := TLFragmenter(4, 256) := TLDelayer(0.1) := model.node := fuzz.node lazy val module = new Impl class Impl extends LazyModuleImp(this) with UnitTestModule { io.finished := fuzz.module.io.finished // Shove the RAM into another clock domain val clocks = Module(new Pow2ClockDivider(2)) island.module.clock := clocks.io.clock_out } } class TLRAMAsyncCrossingTest(txns: Int = 5000, timeout: Int = 500000)(implicit p: Parameters) extends UnitTest(timeout) { val dut_wide = Module(LazyModule(new TLRAMAsyncCrossing(txns)).module) val dut_narrow = Module(LazyModule(new TLRAMAsyncCrossing(txns, AsynchronousCrossing(safe = false, narrow = true))).module) io.finished := dut_wide.io.finished && dut_narrow.io.finished dut_wide.io.start := io.start dut_narrow.io.start := io.start } File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File MixedNode.scala: package org.chipsalliance.diplomacy.nodes import chisel3.{Data, DontCare, Wire} import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.{Field, Parameters} import org.chipsalliance.diplomacy.ValName import org.chipsalliance.diplomacy.sourceLine /** One side metadata of a [[Dangle]]. * * Describes one side of an edge going into or out of a [[BaseNode]]. * * @param serial * the global [[BaseNode.serial]] number of the [[BaseNode]] that this [[HalfEdge]] connects to. * @param index * the `index` in the [[BaseNode]]'s input or output port list that this [[HalfEdge]] belongs to. */ case class HalfEdge(serial: Int, index: Int) extends Ordered[HalfEdge] { import scala.math.Ordered.orderingToOrdered def compare(that: HalfEdge): Int = HalfEdge.unapply(this).compare(HalfEdge.unapply(that)) } /** [[Dangle]] captures the `IO` information of a [[LazyModule]] and which two [[BaseNode]]s the [[Edges]]/[[Bundle]] * connects. * * [[Dangle]]s are generated by [[BaseNode.instantiate]] using [[MixedNode.danglesOut]] and [[MixedNode.danglesIn]] , * [[LazyModuleImp.instantiate]] connects those that go to internal or explicit IO connections in a [[LazyModule]]. * * @param source * the source [[HalfEdge]] of this [[Dangle]], which captures the source [[BaseNode]] and the port `index` within * that [[BaseNode]]. * @param sink * sink [[HalfEdge]] of this [[Dangle]], which captures the sink [[BaseNode]] and the port `index` within that * [[BaseNode]]. * @param flipped * flip or not in [[AutoBundle.makeElements]]. If true this corresponds to `danglesOut`, if false it corresponds to * `danglesIn`. * @param dataOpt * actual [[Data]] for the hardware connection. Can be empty if this belongs to a cloned module */ case class Dangle(source: HalfEdge, sink: HalfEdge, flipped: Boolean, name: String, dataOpt: Option[Data]) { def data = dataOpt.get } /** [[Edges]] is a collection of parameters describing the functionality and connection for an interface, which is often * derived from the interconnection protocol and can inform the parameterization of the hardware bundles that actually * implement the protocol. */ case class Edges[EI, EO](in: Seq[EI], out: Seq[EO]) /** A field available in [[Parameters]] used to determine whether [[InwardNodeImp.monitor]] will be called. */ case object MonitorsEnabled extends Field[Boolean](true) /** When rendering the edge in a graphical format, flip the order in which the edges' source and sink are presented. * * For example, when rendering graphML, yEd by default tries to put the source node vertically above the sink node, but * [[RenderFlipped]] inverts this relationship. When a particular [[LazyModule]] contains both source nodes and sink * nodes, flipping the rendering of one node's edge will usual produce a more concise visual layout for the * [[LazyModule]]. */ case object RenderFlipped extends Field[Boolean](false) /** The sealed node class in the package, all node are derived from it. * * @param inner * Sink interface implementation. * @param outer * Source interface implementation. * @param valName * val name of this node. * @tparam DI * Downward-flowing parameters received on the inner side of the node. It is usually a brunch of parameters * describing the protocol parameters from a source. For an [[InwardNode]], it is determined by the connected * [[OutwardNode]]. Since it can be connected to multiple sources, this parameter is always a Seq of source port * parameters. * @tparam UI * Upward-flowing parameters generated by the inner side of the node. It is usually a brunch of parameters describing * the protocol parameters of a sink. For an [[InwardNode]], it is determined itself. * @tparam EI * Edge Parameters describing a connection on the inner side of the node. It is usually a brunch of transfers * specified for a sink according to protocol. * @tparam BI * Bundle type used when connecting to the inner side of the node. It is a hardware interface of this sink interface. * It should extends from [[chisel3.Data]], which represents the real hardware. * @tparam DO * Downward-flowing parameters generated on the outer side of the node. It is usually a brunch of parameters * describing the protocol parameters of a source. For an [[OutwardNode]], it is determined itself. * @tparam UO * Upward-flowing parameters received by the outer side of the node. It is usually a brunch of parameters describing * the protocol parameters from a sink. For an [[OutwardNode]], it is determined by the connected [[InwardNode]]. * Since it can be connected to multiple sinks, this parameter is always a Seq of sink port parameters. * @tparam EO * Edge Parameters describing a connection on the outer side of the node. It is usually a brunch of transfers * specified for a source according to protocol. * @tparam BO * Bundle type used when connecting to the outer side of the node. It is a hardware interface of this source * interface. It should extends from [[chisel3.Data]], which represents the real hardware. * * @note * Call Graph of [[MixedNode]] * - line `─`: source is process by a function and generate pass to others * - Arrow `β†’`: target of arrow is generated by source * * {{{ * (from the other node) * β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€[[InwardNode.uiParams]]─────────────┐ * ↓ β”‚ * (binding node when elaboration) [[OutwardNode.uoParams]]────────────────────────[[MixedNode.mapParamsU]]→──────────┐ β”‚ * [[InwardNode.accPI]] β”‚ β”‚ β”‚ * β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ ↓ β”‚ * ↓ β”‚ β”‚ β”‚ * (immobilize after elaboration) (inward port from [[OutwardNode]]) β”‚ ↓ β”‚ * [[InwardNode.iBindings]]──┐ [[MixedNode.iDirectPorts]]────────────────────→[[MixedNode.iPorts]] [[InwardNode.uiParams]] β”‚ * β”‚ β”‚ ↑ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[OutwardNode.doParams]] β”‚ β”‚ * β”‚ β”‚ β”‚ (from the other node) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ └────────┬─────────────── β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ (from the other node) β”‚ ↓ β”‚ * β”‚ └───[[OutwardNode.oPortMapping]] [[OutwardNode.oStar]] β”‚ [[MixedNode.edgesIn]]───┐ β”‚ * β”‚ ↑ ↑ β”‚ β”‚ ↓ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ [[MixedNode.in]] β”‚ * β”‚ β”‚ β”‚ β”‚ ↓ ↑ β”‚ * β”‚ (solve star connection) β”‚ β”‚ β”‚ [[MixedNode.bundleIn]]β”€β”€β”˜ β”‚ * β”œβ”€β”€β”€[[MixedNode.resolveStar]]→─┼────────────────────────────── └────────────────────────────────────┐ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.bundleOut]]─┐ β”‚ β”‚ * β”‚ β”‚ β”‚ ↑ ↓ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.out]] β”‚ β”‚ * β”‚ ↓ ↓ β”‚ ↑ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€[[InwardNode.iPortMapping]] [[InwardNode.iStar]] [[MixedNode.edgesOut]]β”€β”€β”˜ β”‚ β”‚ * β”‚ β”‚ (from the other node) ↑ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.outer.edgeO]] β”‚ β”‚ * β”‚ β”‚ β”‚ (based on protocol) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * (immobilize after elaboration)β”‚ ↓ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.oBindings]]β”€β”˜ [[MixedNode.oDirectPorts]]───→[[MixedNode.oPorts]] [[OutwardNode.doParams]] β”‚ β”‚ * ↑ (inward port from [[OutwardNode]]) β”‚ β”‚ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.accPO]] β”‚ ↓ β”‚ β”‚ β”‚ * (binding node when elaboration) β”‚ [[InwardNode.diParams]]─────→[[MixedNode.mapParamsD]]β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ β”‚ * β”‚ ↑ β”‚ β”‚ * β”‚ β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ * β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ * }}} */ abstract class MixedNode[DI, UI, EI, BI <: Data, DO, UO, EO, BO <: Data]( val inner: InwardNodeImp[DI, UI, EI, BI], val outer: OutwardNodeImp[DO, UO, EO, BO] )( implicit valName: ValName) extends BaseNode with NodeHandle[DI, UI, EI, BI, DO, UO, EO, BO] with InwardNode[DI, UI, BI] with OutwardNode[DO, UO, BO] { // Generate a [[NodeHandle]] with inward and outward node are both this node. val inward = this val outward = this /** Debug info of nodes binding. */ def bindingInfo: String = s"""$iBindingInfo |$oBindingInfo |""".stripMargin /** Debug info of ports connecting. */ def connectedPortsInfo: String = s"""${oPorts.size} outward ports connected: [${oPorts.map(_._2.name).mkString(",")}] |${iPorts.size} inward ports connected: [${iPorts.map(_._2.name).mkString(",")}] |""".stripMargin /** Debug info of parameters propagations. */ def parametersInfo: String = s"""${doParams.size} downstream outward parameters: [${doParams.mkString(",")}] |${uoParams.size} upstream outward parameters: [${uoParams.mkString(",")}] |${diParams.size} downstream inward parameters: [${diParams.mkString(",")}] |${uiParams.size} upstream inward parameters: [${uiParams.mkString(",")}] |""".stripMargin /** For a given node, converts [[OutwardNode.accPO]] and [[InwardNode.accPI]] to [[MixedNode.oPortMapping]] and * [[MixedNode.iPortMapping]]. * * Given counts of known inward and outward binding and inward and outward star bindings, return the resolved inward * stars and outward stars. * * This method will also validate the arguments and throw a runtime error if the values are unsuitable for this type * of node. * * @param iKnown * Number of known-size ([[BIND_ONCE]]) input bindings. * @param oKnown * Number of known-size ([[BIND_ONCE]]) output bindings. * @param iStar * Number of unknown size ([[BIND_STAR]]) input bindings. * @param oStar * Number of unknown size ([[BIND_STAR]]) output bindings. * @return * A Tuple of the resolved number of input and output connections. */ protected[diplomacy] def resolveStar(iKnown: Int, oKnown: Int, iStar: Int, oStar: Int): (Int, Int) /** Function to generate downward-flowing outward params from the downward-flowing input params and the current output * ports. * * @param n * The size of the output sequence to generate. * @param p * Sequence of downward-flowing input parameters of this node. * @return * A `n`-sized sequence of downward-flowing output edge parameters. */ protected[diplomacy] def mapParamsD(n: Int, p: Seq[DI]): Seq[DO] /** Function to generate upward-flowing input parameters from the upward-flowing output parameters [[uiParams]]. * * @param n * Size of the output sequence. * @param p * Upward-flowing output edge parameters. * @return * A n-sized sequence of upward-flowing input edge parameters. */ protected[diplomacy] def mapParamsU(n: Int, p: Seq[UO]): Seq[UI] /** @return * The sink cardinality of the node, the number of outputs bound with [[BIND_QUERY]] summed with inputs bound with * [[BIND_STAR]]. */ protected[diplomacy] lazy val sinkCard: Int = oBindings.count(_._3 == BIND_QUERY) + iBindings.count(_._3 == BIND_STAR) /** @return * The source cardinality of this node, the number of inputs bound with [[BIND_QUERY]] summed with the number of * output bindings bound with [[BIND_STAR]]. */ protected[diplomacy] lazy val sourceCard: Int = iBindings.count(_._3 == BIND_QUERY) + oBindings.count(_._3 == BIND_STAR) /** @return list of nodes involved in flex bindings with this node. */ protected[diplomacy] lazy val flexes: Seq[BaseNode] = oBindings.filter(_._3 == BIND_FLEX).map(_._2) ++ iBindings.filter(_._3 == BIND_FLEX).map(_._2) /** Resolves the flex to be either source or sink and returns the offset where the [[BIND_STAR]] operators begin * greedily taking up the remaining connections. * * @return * A value >= 0 if it is sink cardinality, a negative value for source cardinality. The magnitude of the return * value is not relevant. */ protected[diplomacy] lazy val flexOffset: Int = { /** Recursively performs a depth-first search of the [[flexes]], [[BaseNode]]s connected to this node with flex * operators. The algorithm bottoms out when we either get to a node we have already visited or when we get to a * connection that is not a flex and can set the direction for us. Otherwise, recurse by visiting the `flexes` of * each node in the current set and decide whether they should be added to the set or not. * * @return * the mapping of [[BaseNode]] indexed by their serial numbers. */ def DFS(v: BaseNode, visited: Map[Int, BaseNode]): Map[Int, BaseNode] = { if (visited.contains(v.serial) || !v.flexibleArityDirection) { visited } else { v.flexes.foldLeft(visited + (v.serial -> v))((sum, n) => DFS(n, sum)) } } /** Determine which [[BaseNode]] are involved in resolving the flex connections to/from this node. * * @example * {{{ * a :*=* b :*=* c * d :*=* b * e :*=* f * }}} * * `flexSet` for `a`, `b`, `c`, or `d` will be `Set(a, b, c, d)` `flexSet` for `e` or `f` will be `Set(e,f)` */ val flexSet = DFS(this, Map()).values /** The total number of :*= operators where we're on the left. */ val allSink = flexSet.map(_.sinkCard).sum /** The total number of :=* operators used when we're on the right. */ val allSource = flexSet.map(_.sourceCard).sum require( allSink == 0 || allSource == 0, s"The nodes ${flexSet.map(_.name)} which are inter-connected by :*=* have ${allSink} :*= operators and ${allSource} :=* operators connected to them, making it impossible to determine cardinality inference direction." ) allSink - allSource } /** @return A value >= 0 if it is sink cardinality, a negative value for source cardinality. */ protected[diplomacy] def edgeArityDirection(n: BaseNode): Int = { if (flexibleArityDirection) flexOffset else if (n.flexibleArityDirection) n.flexOffset else 0 } /** For a node which is connected between two nodes, select the one that will influence the direction of the flex * resolution. */ protected[diplomacy] def edgeAritySelect(n: BaseNode, l: => Int, r: => Int): Int = { val dir = edgeArityDirection(n) if (dir < 0) l else if (dir > 0) r else 1 } /** Ensure that the same node is not visited twice in resolving `:*=`, etc operators. */ private var starCycleGuard = false /** Resolve all the star operators into concrete indicies. As connections are being made, some may be "star" * connections which need to be resolved. In some way to determine how many actual edges they correspond to. We also * need to build up the ranges of edges which correspond to each binding operator, so that We can apply the correct * edge parameters and later build up correct bundle connections. * * [[oPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that oPort (binding * operator). [[iPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that iPort * (binding operator). [[oStar]]: `Int` the value to return for this node `N` for any `N :*= foo` or `N :*=* foo :*= * bar` [[iStar]]: `Int` the value to return for this node `N` for any `foo :=* N` or `bar :=* foo :*=* N` */ protected[diplomacy] lazy val ( oPortMapping: Seq[(Int, Int)], iPortMapping: Seq[(Int, Int)], oStar: Int, iStar: Int ) = { try { if (starCycleGuard) throw StarCycleException() starCycleGuard = true // For a given node N... // Number of foo :=* N // + Number of bar :=* foo :*=* N val oStars = oBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) < 0) } // Number of N :*= foo // + Number of N :*=* foo :*= bar val iStars = iBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) > 0) } // 1 for foo := N // + bar.iStar for bar :*= foo :*=* N // + foo.iStar for foo :*= N // + 0 for foo :=* N val oKnown = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, 0, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => 0 } }.sum // 1 for N := foo // + bar.oStar for N :*=* foo :=* bar // + foo.oStar for N :=* foo // + 0 for N :*= foo val iKnown = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, 0) case BIND_QUERY => n.oStar case BIND_STAR => 0 } }.sum // Resolve star depends on the node subclass to implement the algorithm for this. val (iStar, oStar) = resolveStar(iKnown, oKnown, iStars, oStars) // Cumulative list of resolved outward binding range starting points val oSum = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, oStar, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => oStar } }.scanLeft(0)(_ + _) // Cumulative list of resolved inward binding range starting points val iSum = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, iStar) case BIND_QUERY => n.oStar case BIND_STAR => iStar } }.scanLeft(0)(_ + _) // Create ranges for each binding based on the running sums and return // those along with resolved values for the star operations. (oSum.init.zip(oSum.tail), iSum.init.zip(iSum.tail), oStar, iStar) } catch { case c: StarCycleException => throw c.copy(loop = context +: c.loop) } } /** Sequence of inward ports. * * This should be called after all star bindings are resolved. * * Each element is: `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. * `n` Instance of inward node. `p` View of [[Parameters]] where this connection was made. `s` Source info where this * connection was made in the source code. */ protected[diplomacy] lazy val oDirectPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oBindings.flatMap { case (i, n, _, p, s) => // for each binding operator in this node, look at what it connects to val (start, end) = n.iPortMapping(i) (start until end).map { j => (j, n, p, s) } } /** Sequence of outward ports. * * This should be called after all star bindings are resolved. * * `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. `n` Instance of * outward node. `p` View of [[Parameters]] where this connection was made. `s` [[SourceInfo]] where this connection * was made in the source code. */ protected[diplomacy] lazy val iDirectPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iBindings.flatMap { case (i, n, _, p, s) => // query this port index range of this node in the other side of node. val (start, end) = n.oPortMapping(i) (start until end).map { j => (j, n, p, s) } } // Ephemeral nodes ( which have non-None iForward/oForward) have in_degree = out_degree // Thus, there must exist an Eulerian path and the below algorithms terminate @scala.annotation.tailrec private def oTrace( tuple: (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) ): (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.iForward(i) match { case None => (i, n, p, s) case Some((j, m)) => oTrace((j, m, p, s)) } } @scala.annotation.tailrec private def iTrace( tuple: (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) ): (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.oForward(i) match { case None => (i, n, p, s) case Some((j, m)) => iTrace((j, m, p, s)) } } /** Final output ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - Numeric index of this binding in the [[InwardNode]] on the other end. * - [[InwardNode]] on the other end of this binding. * - A view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val oPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oDirectPorts.map(oTrace) /** Final input ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - numeric index of this binding in [[OutwardNode]] on the other end. * - [[OutwardNode]] on the other end of this binding. * - a view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val iPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iDirectPorts.map(iTrace) private var oParamsCycleGuard = false protected[diplomacy] lazy val diParams: Seq[DI] = iPorts.map { case (i, n, _, _) => n.doParams(i) } protected[diplomacy] lazy val doParams: Seq[DO] = { try { if (oParamsCycleGuard) throw DownwardCycleException() oParamsCycleGuard = true val o = mapParamsD(oPorts.size, diParams) require( o.size == oPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of outward ports should equal the number of produced outward parameters. |$context |$connectedPortsInfo |Downstreamed inward parameters: [${diParams.mkString(",")}] |Produced outward parameters: [${o.mkString(",")}] |""".stripMargin ) o.map(outer.mixO(_, this)) } catch { case c: DownwardCycleException => throw c.copy(loop = context +: c.loop) } } private var iParamsCycleGuard = false protected[diplomacy] lazy val uoParams: Seq[UO] = oPorts.map { case (o, n, _, _) => n.uiParams(o) } protected[diplomacy] lazy val uiParams: Seq[UI] = { try { if (iParamsCycleGuard) throw UpwardCycleException() iParamsCycleGuard = true val i = mapParamsU(iPorts.size, uoParams) require( i.size == iPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of inward ports should equal the number of produced inward parameters. |$context |$connectedPortsInfo |Upstreamed outward parameters: [${uoParams.mkString(",")}] |Produced inward parameters: [${i.mkString(",")}] |""".stripMargin ) i.map(inner.mixI(_, this)) } catch { case c: UpwardCycleException => throw c.copy(loop = context +: c.loop) } } /** Outward edge parameters. */ protected[diplomacy] lazy val edgesOut: Seq[EO] = (oPorts.zip(doParams)).map { case ((i, n, p, s), o) => outer.edgeO(o, n.uiParams(i), p, s) } /** Inward edge parameters. */ protected[diplomacy] lazy val edgesIn: Seq[EI] = (iPorts.zip(uiParams)).map { case ((o, n, p, s), i) => inner.edgeI(n.doParams(o), i, p, s) } /** A tuple of the input edge parameters and output edge parameters for the edges bound to this node. * * If you need to access to the edges of a foreign Node, use this method (in/out create bundles). */ lazy val edges: Edges[EI, EO] = Edges(edgesIn, edgesOut) /** Create actual Wires corresponding to the Bundles parameterized by the outward edges of this node. */ protected[diplomacy] lazy val bundleOut: Seq[BO] = edgesOut.map { e => val x = Wire(outer.bundleO(e)).suggestName(s"${valName.value}Out") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } /** Create actual Wires corresponding to the Bundles parameterized by the inward edges of this node. */ protected[diplomacy] lazy val bundleIn: Seq[BI] = edgesIn.map { e => val x = Wire(inner.bundleI(e)).suggestName(s"${valName.value}In") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } private def emptyDanglesOut: Seq[Dangle] = oPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(serial, i), sink = HalfEdge(n.serial, j), flipped = false, name = wirePrefix + "out", dataOpt = None ) } private def emptyDanglesIn: Seq[Dangle] = iPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(n.serial, j), sink = HalfEdge(serial, i), flipped = true, name = wirePrefix + "in", dataOpt = None ) } /** Create the [[Dangle]]s which describe the connections from this node output to other nodes inputs. */ protected[diplomacy] def danglesOut: Seq[Dangle] = emptyDanglesOut.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleOut(i))) } /** Create the [[Dangle]]s which describe the connections from this node input from other nodes outputs. */ protected[diplomacy] def danglesIn: Seq[Dangle] = emptyDanglesIn.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleIn(i))) } private[diplomacy] var instantiated = false /** Gather Bundle and edge parameters of outward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def out: Seq[(BO, EO)] = { require( instantiated, s"$name.out should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleOut.zip(edgesOut) } /** Gather Bundle and edge parameters of inward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def in: Seq[(BI, EI)] = { require( instantiated, s"$name.in should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleIn.zip(edgesIn) } /** Actually instantiate this node during [[LazyModuleImp]] evaluation. Mark that it's safe to use the Bundle wires, * instantiate monitors on all input ports if appropriate, and return all the dangles of this node. */ protected[diplomacy] def instantiate(): Seq[Dangle] = { instantiated = true if (!circuitIdentity) { (iPorts.zip(in)).foreach { case ((_, _, p, _), (b, e)) => if (p(MonitorsEnabled)) inner.monitor(b, e) } } danglesOut ++ danglesIn } protected[diplomacy] def cloneDangles(): Seq[Dangle] = emptyDanglesOut ++ emptyDanglesIn /** Connects the outward part of a node with the inward part of this node. */ protected[diplomacy] def bind( h: OutwardNode[DI, UI, BI], binding: NodeBinding )( implicit p: Parameters, sourceInfo: SourceInfo ): Unit = { val x = this // x := y val y = h sourceLine(sourceInfo, " at ", "") val i = x.iPushed val o = y.oPushed y.oPush( i, x, binding match { case BIND_ONCE => BIND_ONCE case BIND_FLEX => BIND_FLEX case BIND_STAR => BIND_QUERY case BIND_QUERY => BIND_STAR } ) x.iPush(o, y, binding) } /* Metadata for printing the node graph. */ def inputs: Seq[(OutwardNode[DI, UI, BI], RenderedEdge)] = (iPorts.zip(edgesIn)).map { case ((_, n, p, _), e) => val re = inner.render(e) (n, re.copy(flipped = re.flipped != p(RenderFlipped))) } /** Metadata for printing the node graph */ def outputs: Seq[(InwardNode[DO, UO, BO], RenderedEdge)] = oPorts.map { case (i, n, _, _) => (n, n.inputs(i)._2) } }
module TLAsyncCrossingSource_a32d64s4k1z3u( // @[AsyncCrossing.scala:23:9] input clock, // @[AsyncCrossing.scala:23:9] input reset, // @[AsyncCrossing.scala:23:9] output auto_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input [3:0] auto_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_in_d_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output [3:0] auto_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output auto_in_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_in_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_in_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_in_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_0_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_0_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_0_size, // @[LazyModuleImp.scala:107:25] output [3:0] auto_out_a_mem_0_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_out_a_mem_0_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_out_a_mem_0_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_out_a_mem_0_data, // @[LazyModuleImp.scala:107:25] output auto_out_a_mem_0_corrupt, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_1_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_1_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_1_size, // @[LazyModuleImp.scala:107:25] output [3:0] auto_out_a_mem_1_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_out_a_mem_1_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_out_a_mem_1_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_out_a_mem_1_data, // @[LazyModuleImp.scala:107:25] output auto_out_a_mem_1_corrupt, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_2_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_2_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_2_size, // @[LazyModuleImp.scala:107:25] output [3:0] auto_out_a_mem_2_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_out_a_mem_2_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_out_a_mem_2_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_out_a_mem_2_data, // @[LazyModuleImp.scala:107:25] output auto_out_a_mem_2_corrupt, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_3_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_3_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_3_size, // @[LazyModuleImp.scala:107:25] output [3:0] auto_out_a_mem_3_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_out_a_mem_3_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_out_a_mem_3_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_out_a_mem_3_data, // @[LazyModuleImp.scala:107:25] output auto_out_a_mem_3_corrupt, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_4_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_4_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_4_size, // @[LazyModuleImp.scala:107:25] output [3:0] auto_out_a_mem_4_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_out_a_mem_4_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_out_a_mem_4_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_out_a_mem_4_data, // @[LazyModuleImp.scala:107:25] output auto_out_a_mem_4_corrupt, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_5_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_5_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_5_size, // @[LazyModuleImp.scala:107:25] output [3:0] auto_out_a_mem_5_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_out_a_mem_5_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_out_a_mem_5_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_out_a_mem_5_data, // @[LazyModuleImp.scala:107:25] output auto_out_a_mem_5_corrupt, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_6_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_6_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_6_size, // @[LazyModuleImp.scala:107:25] output [3:0] auto_out_a_mem_6_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_out_a_mem_6_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_out_a_mem_6_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_out_a_mem_6_data, // @[LazyModuleImp.scala:107:25] output auto_out_a_mem_6_corrupt, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_7_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_7_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_mem_7_size, // @[LazyModuleImp.scala:107:25] output [3:0] auto_out_a_mem_7_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_out_a_mem_7_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_out_a_mem_7_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_out_a_mem_7_data, // @[LazyModuleImp.scala:107:25] output auto_out_a_mem_7_corrupt, // @[LazyModuleImp.scala:107:25] input [3:0] auto_out_a_ridx, // @[LazyModuleImp.scala:107:25] output [3:0] auto_out_a_widx, // @[LazyModuleImp.scala:107:25] input auto_out_a_safe_ridx_valid, // @[LazyModuleImp.scala:107:25] output auto_out_a_safe_widx_valid, // @[LazyModuleImp.scala:107:25] output auto_out_a_safe_source_reset_n, // @[LazyModuleImp.scala:107:25] input auto_out_a_safe_sink_reset_n, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_0_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_out_d_mem_0_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_0_size, // @[LazyModuleImp.scala:107:25] input [3:0] auto_out_d_mem_0_source, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_0_sink, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_0_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_out_d_mem_0_data, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_0_corrupt, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_1_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_out_d_mem_1_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_1_size, // @[LazyModuleImp.scala:107:25] input [3:0] auto_out_d_mem_1_source, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_1_sink, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_1_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_out_d_mem_1_data, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_1_corrupt, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_2_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_out_d_mem_2_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_2_size, // @[LazyModuleImp.scala:107:25] input [3:0] auto_out_d_mem_2_source, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_2_sink, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_2_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_out_d_mem_2_data, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_2_corrupt, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_3_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_out_d_mem_3_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_3_size, // @[LazyModuleImp.scala:107:25] input [3:0] auto_out_d_mem_3_source, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_3_sink, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_3_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_out_d_mem_3_data, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_3_corrupt, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_4_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_out_d_mem_4_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_4_size, // @[LazyModuleImp.scala:107:25] input [3:0] auto_out_d_mem_4_source, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_4_sink, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_4_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_out_d_mem_4_data, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_4_corrupt, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_5_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_out_d_mem_5_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_5_size, // @[LazyModuleImp.scala:107:25] input [3:0] auto_out_d_mem_5_source, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_5_sink, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_5_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_out_d_mem_5_data, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_5_corrupt, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_6_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_out_d_mem_6_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_6_size, // @[LazyModuleImp.scala:107:25] input [3:0] auto_out_d_mem_6_source, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_6_sink, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_6_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_out_d_mem_6_data, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_6_corrupt, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_7_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_out_d_mem_7_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_mem_7_size, // @[LazyModuleImp.scala:107:25] input [3:0] auto_out_d_mem_7_source, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_7_sink, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_7_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_out_d_mem_7_data, // @[LazyModuleImp.scala:107:25] input auto_out_d_mem_7_corrupt, // @[LazyModuleImp.scala:107:25] output [3:0] auto_out_d_ridx, // @[LazyModuleImp.scala:107:25] input [3:0] auto_out_d_widx, // @[LazyModuleImp.scala:107:25] output auto_out_d_safe_ridx_valid, // @[LazyModuleImp.scala:107:25] input auto_out_d_safe_widx_valid, // @[LazyModuleImp.scala:107:25] input auto_out_d_safe_source_reset_n, // @[LazyModuleImp.scala:107:25] output auto_out_d_safe_sink_reset_n // @[LazyModuleImp.scala:107:25] ); wire auto_in_a_valid_0 = auto_in_a_valid; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_in_a_bits_opcode_0 = auto_in_a_bits_opcode; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_in_a_bits_param_0 = auto_in_a_bits_param; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_in_a_bits_size_0 = auto_in_a_bits_size; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_in_a_bits_source_0 = auto_in_a_bits_source; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_in_a_bits_address_0 = auto_in_a_bits_address; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_in_a_bits_mask_0 = auto_in_a_bits_mask; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_in_a_bits_data_0 = auto_in_a_bits_data; // @[AsyncCrossing.scala:23:9] wire auto_in_a_bits_corrupt_0 = auto_in_a_bits_corrupt; // @[AsyncCrossing.scala:23:9] wire auto_in_d_ready_0 = auto_in_d_ready; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_a_ridx_0 = auto_out_a_ridx; // @[AsyncCrossing.scala:23:9] wire auto_out_a_safe_ridx_valid_0 = auto_out_a_safe_ridx_valid; // @[AsyncCrossing.scala:23:9] wire auto_out_a_safe_sink_reset_n_0 = auto_out_a_safe_sink_reset_n; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_0_opcode_0 = auto_out_d_mem_0_opcode; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_d_mem_0_param_0 = auto_out_d_mem_0_param; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_0_size_0 = auto_out_d_mem_0_size; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_d_mem_0_source_0 = auto_out_d_mem_0_source; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_0_sink_0 = auto_out_d_mem_0_sink; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_0_denied_0 = auto_out_d_mem_0_denied; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_d_mem_0_data_0 = auto_out_d_mem_0_data; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_0_corrupt_0 = auto_out_d_mem_0_corrupt; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_1_opcode_0 = auto_out_d_mem_1_opcode; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_d_mem_1_param_0 = auto_out_d_mem_1_param; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_1_size_0 = auto_out_d_mem_1_size; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_d_mem_1_source_0 = auto_out_d_mem_1_source; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_1_sink_0 = auto_out_d_mem_1_sink; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_1_denied_0 = auto_out_d_mem_1_denied; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_d_mem_1_data_0 = auto_out_d_mem_1_data; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_1_corrupt_0 = auto_out_d_mem_1_corrupt; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_2_opcode_0 = auto_out_d_mem_2_opcode; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_d_mem_2_param_0 = auto_out_d_mem_2_param; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_2_size_0 = auto_out_d_mem_2_size; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_d_mem_2_source_0 = auto_out_d_mem_2_source; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_2_sink_0 = auto_out_d_mem_2_sink; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_2_denied_0 = auto_out_d_mem_2_denied; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_d_mem_2_data_0 = auto_out_d_mem_2_data; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_2_corrupt_0 = auto_out_d_mem_2_corrupt; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_3_opcode_0 = auto_out_d_mem_3_opcode; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_d_mem_3_param_0 = auto_out_d_mem_3_param; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_3_size_0 = auto_out_d_mem_3_size; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_d_mem_3_source_0 = auto_out_d_mem_3_source; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_3_sink_0 = auto_out_d_mem_3_sink; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_3_denied_0 = auto_out_d_mem_3_denied; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_d_mem_3_data_0 = auto_out_d_mem_3_data; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_3_corrupt_0 = auto_out_d_mem_3_corrupt; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_4_opcode_0 = auto_out_d_mem_4_opcode; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_d_mem_4_param_0 = auto_out_d_mem_4_param; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_4_size_0 = auto_out_d_mem_4_size; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_d_mem_4_source_0 = auto_out_d_mem_4_source; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_4_sink_0 = auto_out_d_mem_4_sink; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_4_denied_0 = auto_out_d_mem_4_denied; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_d_mem_4_data_0 = auto_out_d_mem_4_data; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_4_corrupt_0 = auto_out_d_mem_4_corrupt; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_5_opcode_0 = auto_out_d_mem_5_opcode; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_d_mem_5_param_0 = auto_out_d_mem_5_param; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_5_size_0 = auto_out_d_mem_5_size; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_d_mem_5_source_0 = auto_out_d_mem_5_source; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_5_sink_0 = auto_out_d_mem_5_sink; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_5_denied_0 = auto_out_d_mem_5_denied; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_d_mem_5_data_0 = auto_out_d_mem_5_data; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_5_corrupt_0 = auto_out_d_mem_5_corrupt; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_6_opcode_0 = auto_out_d_mem_6_opcode; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_d_mem_6_param_0 = auto_out_d_mem_6_param; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_6_size_0 = auto_out_d_mem_6_size; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_d_mem_6_source_0 = auto_out_d_mem_6_source; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_6_sink_0 = auto_out_d_mem_6_sink; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_6_denied_0 = auto_out_d_mem_6_denied; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_d_mem_6_data_0 = auto_out_d_mem_6_data; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_6_corrupt_0 = auto_out_d_mem_6_corrupt; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_7_opcode_0 = auto_out_d_mem_7_opcode; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_d_mem_7_param_0 = auto_out_d_mem_7_param; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_d_mem_7_size_0 = auto_out_d_mem_7_size; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_d_mem_7_source_0 = auto_out_d_mem_7_source; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_7_sink_0 = auto_out_d_mem_7_sink; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_7_denied_0 = auto_out_d_mem_7_denied; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_d_mem_7_data_0 = auto_out_d_mem_7_data; // @[AsyncCrossing.scala:23:9] wire auto_out_d_mem_7_corrupt_0 = auto_out_d_mem_7_corrupt; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_d_widx_0 = auto_out_d_widx; // @[AsyncCrossing.scala:23:9] wire auto_out_d_safe_widx_valid_0 = auto_out_d_safe_widx_valid; // @[AsyncCrossing.scala:23:9] wire auto_out_d_safe_source_reset_n_0 = auto_out_d_safe_source_reset_n; // @[AsyncCrossing.scala:23:9] wire auto_out_b_mem_0_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_b_mem_1_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_b_mem_2_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_b_mem_3_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_b_mem_4_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_b_mem_5_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_b_mem_6_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_b_mem_7_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_b_safe_ridx_valid = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_b_safe_widx_valid = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_b_safe_source_reset_n = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_b_safe_sink_reset_n = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_c_mem_0_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_c_mem_1_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_c_mem_2_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_c_mem_3_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_c_mem_4_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_c_mem_5_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_c_mem_6_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_c_mem_7_corrupt = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_c_safe_ridx_valid = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_c_safe_widx_valid = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_c_safe_source_reset_n = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_c_safe_sink_reset_n = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_e_mem_0_sink = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_e_mem_1_sink = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_e_mem_2_sink = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_e_mem_3_sink = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_e_mem_4_sink = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_e_mem_5_sink = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_e_mem_6_sink = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_e_mem_7_sink = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_e_safe_ridx_valid = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_e_safe_widx_valid = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_e_safe_source_reset_n = 1'h0; // @[AsyncCrossing.scala:23:9] wire auto_out_e_safe_sink_reset_n = 1'h0; // @[AsyncCrossing.scala:23:9] wire nodeOut_b_mem_0_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_b_mem_1_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_b_mem_2_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_b_mem_3_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_b_mem_4_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_b_mem_5_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_b_mem_6_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_b_mem_7_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_b_safe_ridx_valid = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_b_safe_widx_valid = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_b_safe_source_reset_n = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_b_safe_sink_reset_n = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_c_mem_0_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_c_mem_1_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_c_mem_2_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_c_mem_3_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_c_mem_4_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_c_mem_5_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_c_mem_6_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_c_mem_7_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_c_safe_ridx_valid = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_c_safe_widx_valid = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_c_safe_source_reset_n = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_c_safe_sink_reset_n = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_e_mem_0_sink = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_e_mem_1_sink = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_e_mem_2_sink = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_e_mem_3_sink = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_e_mem_4_sink = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_e_mem_5_sink = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_e_mem_6_sink = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_e_mem_7_sink = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_e_safe_ridx_valid = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_e_safe_widx_valid = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_e_safe_source_reset_n = 1'h0; // @[MixedNode.scala:542:17] wire nodeOut_e_safe_sink_reset_n = 1'h0; // @[MixedNode.scala:542:17] wire [63:0] auto_out_b_mem_0_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_b_mem_1_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_b_mem_2_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_b_mem_3_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_b_mem_4_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_b_mem_5_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_b_mem_6_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_b_mem_7_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_c_mem_0_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_c_mem_1_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_c_mem_2_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_c_mem_3_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_c_mem_4_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_c_mem_5_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_c_mem_6_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_c_mem_7_data = 64'h0; // @[AsyncCrossing.scala:23:9] wire [63:0] nodeOut_b_mem_0_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_b_mem_1_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_b_mem_2_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_b_mem_3_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_b_mem_4_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_b_mem_5_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_b_mem_6_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_b_mem_7_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_c_mem_0_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_c_mem_1_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_c_mem_2_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_c_mem_3_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_c_mem_4_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_c_mem_5_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_c_mem_6_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_c_mem_7_data = 64'h0; // @[MixedNode.scala:542:17] wire [7:0] auto_out_b_mem_0_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_b_mem_1_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_b_mem_2_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_b_mem_3_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_b_mem_4_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_b_mem_5_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_b_mem_6_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_b_mem_7_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] nodeOut_b_mem_0_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] nodeOut_b_mem_1_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] nodeOut_b_mem_2_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] nodeOut_b_mem_3_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] nodeOut_b_mem_4_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] nodeOut_b_mem_5_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] nodeOut_b_mem_6_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [7:0] nodeOut_b_mem_7_mask = 8'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_b_mem_0_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_b_mem_1_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_b_mem_2_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_b_mem_3_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_b_mem_4_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_b_mem_5_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_b_mem_6_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_b_mem_7_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_c_mem_0_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_c_mem_1_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_c_mem_2_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_c_mem_3_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_c_mem_4_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_c_mem_5_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_c_mem_6_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_c_mem_7_address = 32'h0; // @[AsyncCrossing.scala:23:9] wire [31:0] nodeOut_b_mem_0_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_b_mem_1_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_b_mem_2_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_b_mem_3_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_b_mem_4_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_b_mem_5_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_b_mem_6_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_b_mem_7_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_c_mem_0_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_c_mem_1_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_c_mem_2_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_c_mem_3_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_c_mem_4_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_c_mem_5_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_c_mem_6_address = 32'h0; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_c_mem_7_address = 32'h0; // @[MixedNode.scala:542:17] wire [3:0] auto_out_b_mem_0_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_b_mem_1_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_b_mem_2_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_b_mem_3_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_b_mem_4_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_b_mem_5_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_b_mem_6_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_b_mem_7_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_b_ridx = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_b_widx = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_c_mem_0_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_c_mem_1_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_c_mem_2_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_c_mem_3_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_c_mem_4_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_c_mem_5_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_c_mem_6_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_c_mem_7_source = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_c_ridx = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_c_widx = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_e_ridx = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_e_widx = 4'h0; // @[AsyncCrossing.scala:23:9] wire [3:0] nodeOut_b_mem_0_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_b_mem_1_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_b_mem_2_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_b_mem_3_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_b_mem_4_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_b_mem_5_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_b_mem_6_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_b_mem_7_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_b_ridx = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_b_widx = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_c_mem_0_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_c_mem_1_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_c_mem_2_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_c_mem_3_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_c_mem_4_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_c_mem_5_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_c_mem_6_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_c_mem_7_source = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_c_ridx = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_c_widx = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_e_ridx = 4'h0; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_e_widx = 4'h0; // @[MixedNode.scala:542:17] wire [1:0] auto_out_b_mem_0_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_b_mem_1_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_b_mem_2_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_b_mem_3_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_b_mem_4_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_b_mem_5_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_b_mem_6_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_out_b_mem_7_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_b_mem_0_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_b_mem_1_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_b_mem_2_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_b_mem_3_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_b_mem_4_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_b_mem_5_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_b_mem_6_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_b_mem_7_param = 2'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_0_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_0_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_1_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_1_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_2_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_2_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_3_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_3_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_4_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_4_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_5_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_5_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_6_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_6_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_7_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_b_mem_7_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_0_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_0_param = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_0_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_1_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_1_param = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_1_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_2_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_2_param = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_2_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_3_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_3_param = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_3_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_4_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_4_param = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_4_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_5_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_5_param = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_5_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_6_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_6_param = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_6_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_7_opcode = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_7_param = 3'h0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_c_mem_7_size = 3'h0; // @[AsyncCrossing.scala:23:9] wire nodeIn_a_ready; // @[MixedNode.scala:551:17] wire [2:0] nodeOut_b_mem_0_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_0_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_1_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_1_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_2_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_2_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_3_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_3_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_4_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_4_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_5_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_5_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_6_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_6_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_7_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_b_mem_7_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_0_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_0_param = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_0_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_1_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_1_param = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_1_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_2_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_2_param = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_2_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_3_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_3_param = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_3_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_4_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_4_param = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_4_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_5_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_5_param = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_5_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_6_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_6_param = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_6_size = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_7_opcode = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_7_param = 3'h0; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_c_mem_7_size = 3'h0; // @[MixedNode.scala:542:17] wire nodeIn_a_valid = auto_in_a_valid_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeIn_a_bits_opcode = auto_in_a_bits_opcode_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeIn_a_bits_param = auto_in_a_bits_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeIn_a_bits_size = auto_in_a_bits_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] nodeIn_a_bits_source = auto_in_a_bits_source_0; // @[AsyncCrossing.scala:23:9] wire [31:0] nodeIn_a_bits_address = auto_in_a_bits_address_0; // @[AsyncCrossing.scala:23:9] wire [7:0] nodeIn_a_bits_mask = auto_in_a_bits_mask_0; // @[AsyncCrossing.scala:23:9] wire [63:0] nodeIn_a_bits_data = auto_in_a_bits_data_0; // @[AsyncCrossing.scala:23:9] wire nodeIn_a_bits_corrupt = auto_in_a_bits_corrupt_0; // @[AsyncCrossing.scala:23:9] wire nodeIn_d_ready = auto_in_d_ready_0; // @[AsyncCrossing.scala:23:9] wire nodeIn_d_valid; // @[MixedNode.scala:551:17] wire [2:0] nodeIn_d_bits_opcode; // @[MixedNode.scala:551:17] wire [1:0] nodeIn_d_bits_param; // @[MixedNode.scala:551:17] wire [2:0] nodeIn_d_bits_size; // @[MixedNode.scala:551:17] wire [3:0] nodeIn_d_bits_source; // @[MixedNode.scala:551:17] wire nodeIn_d_bits_sink; // @[MixedNode.scala:551:17] wire nodeIn_d_bits_denied; // @[MixedNode.scala:551:17] wire [63:0] nodeIn_d_bits_data; // @[MixedNode.scala:551:17] wire nodeIn_d_bits_corrupt; // @[MixedNode.scala:551:17] wire [2:0] nodeOut_a_mem_0_opcode; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_0_param; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_0_size; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_a_mem_0_source; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_a_mem_0_address; // @[MixedNode.scala:542:17] wire [7:0] nodeOut_a_mem_0_mask; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_a_mem_0_data; // @[MixedNode.scala:542:17] wire nodeOut_a_mem_0_corrupt; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_1_opcode; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_1_param; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_1_size; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_a_mem_1_source; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_a_mem_1_address; // @[MixedNode.scala:542:17] wire [7:0] nodeOut_a_mem_1_mask; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_a_mem_1_data; // @[MixedNode.scala:542:17] wire nodeOut_a_mem_1_corrupt; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_2_opcode; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_2_param; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_2_size; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_a_mem_2_source; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_a_mem_2_address; // @[MixedNode.scala:542:17] wire [7:0] nodeOut_a_mem_2_mask; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_a_mem_2_data; // @[MixedNode.scala:542:17] wire nodeOut_a_mem_2_corrupt; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_3_opcode; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_3_param; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_3_size; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_a_mem_3_source; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_a_mem_3_address; // @[MixedNode.scala:542:17] wire [7:0] nodeOut_a_mem_3_mask; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_a_mem_3_data; // @[MixedNode.scala:542:17] wire nodeOut_a_mem_3_corrupt; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_4_opcode; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_4_param; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_4_size; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_a_mem_4_source; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_a_mem_4_address; // @[MixedNode.scala:542:17] wire [7:0] nodeOut_a_mem_4_mask; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_a_mem_4_data; // @[MixedNode.scala:542:17] wire nodeOut_a_mem_4_corrupt; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_5_opcode; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_5_param; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_5_size; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_a_mem_5_source; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_a_mem_5_address; // @[MixedNode.scala:542:17] wire [7:0] nodeOut_a_mem_5_mask; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_a_mem_5_data; // @[MixedNode.scala:542:17] wire nodeOut_a_mem_5_corrupt; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_6_opcode; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_6_param; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_6_size; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_a_mem_6_source; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_a_mem_6_address; // @[MixedNode.scala:542:17] wire [7:0] nodeOut_a_mem_6_mask; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_a_mem_6_data; // @[MixedNode.scala:542:17] wire nodeOut_a_mem_6_corrupt; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_7_opcode; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_7_param; // @[MixedNode.scala:542:17] wire [2:0] nodeOut_a_mem_7_size; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_a_mem_7_source; // @[MixedNode.scala:542:17] wire [31:0] nodeOut_a_mem_7_address; // @[MixedNode.scala:542:17] wire [7:0] nodeOut_a_mem_7_mask; // @[MixedNode.scala:542:17] wire [63:0] nodeOut_a_mem_7_data; // @[MixedNode.scala:542:17] wire nodeOut_a_mem_7_corrupt; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_a_ridx = auto_out_a_ridx_0; // @[AsyncCrossing.scala:23:9] wire [3:0] nodeOut_a_widx; // @[MixedNode.scala:542:17] wire nodeOut_a_safe_ridx_valid = auto_out_a_safe_ridx_valid_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_a_safe_widx_valid; // @[MixedNode.scala:542:17] wire nodeOut_a_safe_source_reset_n; // @[MixedNode.scala:542:17] wire nodeOut_a_safe_sink_reset_n = auto_out_a_safe_sink_reset_n_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_0_opcode = auto_out_d_mem_0_opcode_0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_d_mem_0_param = auto_out_d_mem_0_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_0_size = auto_out_d_mem_0_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] nodeOut_d_mem_0_source = auto_out_d_mem_0_source_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_0_sink = auto_out_d_mem_0_sink_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_0_denied = auto_out_d_mem_0_denied_0; // @[AsyncCrossing.scala:23:9] wire [63:0] nodeOut_d_mem_0_data = auto_out_d_mem_0_data_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_0_corrupt = auto_out_d_mem_0_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_1_opcode = auto_out_d_mem_1_opcode_0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_d_mem_1_param = auto_out_d_mem_1_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_1_size = auto_out_d_mem_1_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] nodeOut_d_mem_1_source = auto_out_d_mem_1_source_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_1_sink = auto_out_d_mem_1_sink_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_1_denied = auto_out_d_mem_1_denied_0; // @[AsyncCrossing.scala:23:9] wire [63:0] nodeOut_d_mem_1_data = auto_out_d_mem_1_data_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_1_corrupt = auto_out_d_mem_1_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_2_opcode = auto_out_d_mem_2_opcode_0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_d_mem_2_param = auto_out_d_mem_2_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_2_size = auto_out_d_mem_2_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] nodeOut_d_mem_2_source = auto_out_d_mem_2_source_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_2_sink = auto_out_d_mem_2_sink_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_2_denied = auto_out_d_mem_2_denied_0; // @[AsyncCrossing.scala:23:9] wire [63:0] nodeOut_d_mem_2_data = auto_out_d_mem_2_data_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_2_corrupt = auto_out_d_mem_2_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_3_opcode = auto_out_d_mem_3_opcode_0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_d_mem_3_param = auto_out_d_mem_3_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_3_size = auto_out_d_mem_3_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] nodeOut_d_mem_3_source = auto_out_d_mem_3_source_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_3_sink = auto_out_d_mem_3_sink_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_3_denied = auto_out_d_mem_3_denied_0; // @[AsyncCrossing.scala:23:9] wire [63:0] nodeOut_d_mem_3_data = auto_out_d_mem_3_data_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_3_corrupt = auto_out_d_mem_3_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_4_opcode = auto_out_d_mem_4_opcode_0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_d_mem_4_param = auto_out_d_mem_4_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_4_size = auto_out_d_mem_4_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] nodeOut_d_mem_4_source = auto_out_d_mem_4_source_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_4_sink = auto_out_d_mem_4_sink_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_4_denied = auto_out_d_mem_4_denied_0; // @[AsyncCrossing.scala:23:9] wire [63:0] nodeOut_d_mem_4_data = auto_out_d_mem_4_data_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_4_corrupt = auto_out_d_mem_4_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_5_opcode = auto_out_d_mem_5_opcode_0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_d_mem_5_param = auto_out_d_mem_5_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_5_size = auto_out_d_mem_5_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] nodeOut_d_mem_5_source = auto_out_d_mem_5_source_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_5_sink = auto_out_d_mem_5_sink_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_5_denied = auto_out_d_mem_5_denied_0; // @[AsyncCrossing.scala:23:9] wire [63:0] nodeOut_d_mem_5_data = auto_out_d_mem_5_data_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_5_corrupt = auto_out_d_mem_5_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_6_opcode = auto_out_d_mem_6_opcode_0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_d_mem_6_param = auto_out_d_mem_6_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_6_size = auto_out_d_mem_6_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] nodeOut_d_mem_6_source = auto_out_d_mem_6_source_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_6_sink = auto_out_d_mem_6_sink_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_6_denied = auto_out_d_mem_6_denied_0; // @[AsyncCrossing.scala:23:9] wire [63:0] nodeOut_d_mem_6_data = auto_out_d_mem_6_data_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_6_corrupt = auto_out_d_mem_6_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_7_opcode = auto_out_d_mem_7_opcode_0; // @[AsyncCrossing.scala:23:9] wire [1:0] nodeOut_d_mem_7_param = auto_out_d_mem_7_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] nodeOut_d_mem_7_size = auto_out_d_mem_7_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] nodeOut_d_mem_7_source = auto_out_d_mem_7_source_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_7_sink = auto_out_d_mem_7_sink_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_7_denied = auto_out_d_mem_7_denied_0; // @[AsyncCrossing.scala:23:9] wire [63:0] nodeOut_d_mem_7_data = auto_out_d_mem_7_data_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_mem_7_corrupt = auto_out_d_mem_7_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [3:0] nodeOut_d_ridx; // @[MixedNode.scala:542:17] wire [3:0] nodeOut_d_widx = auto_out_d_widx_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_safe_ridx_valid; // @[MixedNode.scala:542:17] wire nodeOut_d_safe_widx_valid = auto_out_d_safe_widx_valid_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_safe_source_reset_n = auto_out_d_safe_source_reset_n_0; // @[AsyncCrossing.scala:23:9] wire nodeOut_d_safe_sink_reset_n; // @[MixedNode.scala:542:17] wire auto_in_a_ready_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_in_d_bits_opcode_0; // @[AsyncCrossing.scala:23:9] wire [1:0] auto_in_d_bits_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_in_d_bits_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_in_d_bits_source_0; // @[AsyncCrossing.scala:23:9] wire auto_in_d_bits_sink_0; // @[AsyncCrossing.scala:23:9] wire auto_in_d_bits_denied_0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_in_d_bits_data_0; // @[AsyncCrossing.scala:23:9] wire auto_in_d_bits_corrupt_0; // @[AsyncCrossing.scala:23:9] wire auto_in_d_valid_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_0_opcode_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_0_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_0_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_a_mem_0_source_0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_a_mem_0_address_0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_a_mem_0_mask_0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_a_mem_0_data_0; // @[AsyncCrossing.scala:23:9] wire auto_out_a_mem_0_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_1_opcode_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_1_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_1_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_a_mem_1_source_0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_a_mem_1_address_0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_a_mem_1_mask_0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_a_mem_1_data_0; // @[AsyncCrossing.scala:23:9] wire auto_out_a_mem_1_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_2_opcode_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_2_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_2_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_a_mem_2_source_0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_a_mem_2_address_0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_a_mem_2_mask_0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_a_mem_2_data_0; // @[AsyncCrossing.scala:23:9] wire auto_out_a_mem_2_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_3_opcode_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_3_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_3_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_a_mem_3_source_0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_a_mem_3_address_0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_a_mem_3_mask_0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_a_mem_3_data_0; // @[AsyncCrossing.scala:23:9] wire auto_out_a_mem_3_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_4_opcode_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_4_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_4_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_a_mem_4_source_0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_a_mem_4_address_0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_a_mem_4_mask_0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_a_mem_4_data_0; // @[AsyncCrossing.scala:23:9] wire auto_out_a_mem_4_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_5_opcode_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_5_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_5_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_a_mem_5_source_0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_a_mem_5_address_0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_a_mem_5_mask_0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_a_mem_5_data_0; // @[AsyncCrossing.scala:23:9] wire auto_out_a_mem_5_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_6_opcode_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_6_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_6_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_a_mem_6_source_0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_a_mem_6_address_0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_a_mem_6_mask_0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_a_mem_6_data_0; // @[AsyncCrossing.scala:23:9] wire auto_out_a_mem_6_corrupt_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_7_opcode_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_7_param_0; // @[AsyncCrossing.scala:23:9] wire [2:0] auto_out_a_mem_7_size_0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_a_mem_7_source_0; // @[AsyncCrossing.scala:23:9] wire [31:0] auto_out_a_mem_7_address_0; // @[AsyncCrossing.scala:23:9] wire [7:0] auto_out_a_mem_7_mask_0; // @[AsyncCrossing.scala:23:9] wire [63:0] auto_out_a_mem_7_data_0; // @[AsyncCrossing.scala:23:9] wire auto_out_a_mem_7_corrupt_0; // @[AsyncCrossing.scala:23:9] wire auto_out_a_safe_widx_valid_0; // @[AsyncCrossing.scala:23:9] wire auto_out_a_safe_source_reset_n_0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_a_widx_0; // @[AsyncCrossing.scala:23:9] wire auto_out_d_safe_ridx_valid_0; // @[AsyncCrossing.scala:23:9] wire auto_out_d_safe_sink_reset_n_0; // @[AsyncCrossing.scala:23:9] wire [3:0] auto_out_d_ridx_0; // @[AsyncCrossing.scala:23:9] assign auto_in_a_ready_0 = nodeIn_a_ready; // @[AsyncCrossing.scala:23:9] assign auto_in_d_valid_0 = nodeIn_d_valid; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_opcode_0 = nodeIn_d_bits_opcode; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_param_0 = nodeIn_d_bits_param; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_size_0 = nodeIn_d_bits_size; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_source_0 = nodeIn_d_bits_source; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_sink_0 = nodeIn_d_bits_sink; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_denied_0 = nodeIn_d_bits_denied; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_data_0 = nodeIn_d_bits_data; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_corrupt_0 = nodeIn_d_bits_corrupt; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_opcode_0 = nodeOut_a_mem_0_opcode; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_param_0 = nodeOut_a_mem_0_param; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_size_0 = nodeOut_a_mem_0_size; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_source_0 = nodeOut_a_mem_0_source; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_address_0 = nodeOut_a_mem_0_address; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_mask_0 = nodeOut_a_mem_0_mask; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_data_0 = nodeOut_a_mem_0_data; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_corrupt_0 = nodeOut_a_mem_0_corrupt; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_opcode_0 = nodeOut_a_mem_1_opcode; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_param_0 = nodeOut_a_mem_1_param; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_size_0 = nodeOut_a_mem_1_size; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_source_0 = nodeOut_a_mem_1_source; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_address_0 = nodeOut_a_mem_1_address; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_mask_0 = nodeOut_a_mem_1_mask; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_data_0 = nodeOut_a_mem_1_data; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_corrupt_0 = nodeOut_a_mem_1_corrupt; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_opcode_0 = nodeOut_a_mem_2_opcode; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_param_0 = nodeOut_a_mem_2_param; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_size_0 = nodeOut_a_mem_2_size; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_source_0 = nodeOut_a_mem_2_source; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_address_0 = nodeOut_a_mem_2_address; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_mask_0 = nodeOut_a_mem_2_mask; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_data_0 = nodeOut_a_mem_2_data; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_corrupt_0 = nodeOut_a_mem_2_corrupt; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_opcode_0 = nodeOut_a_mem_3_opcode; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_param_0 = nodeOut_a_mem_3_param; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_size_0 = nodeOut_a_mem_3_size; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_source_0 = nodeOut_a_mem_3_source; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_address_0 = nodeOut_a_mem_3_address; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_mask_0 = nodeOut_a_mem_3_mask; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_data_0 = nodeOut_a_mem_3_data; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_corrupt_0 = nodeOut_a_mem_3_corrupt; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_opcode_0 = nodeOut_a_mem_4_opcode; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_param_0 = nodeOut_a_mem_4_param; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_size_0 = nodeOut_a_mem_4_size; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_source_0 = nodeOut_a_mem_4_source; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_address_0 = nodeOut_a_mem_4_address; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_mask_0 = nodeOut_a_mem_4_mask; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_data_0 = nodeOut_a_mem_4_data; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_corrupt_0 = nodeOut_a_mem_4_corrupt; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_opcode_0 = nodeOut_a_mem_5_opcode; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_param_0 = nodeOut_a_mem_5_param; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_size_0 = nodeOut_a_mem_5_size; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_source_0 = nodeOut_a_mem_5_source; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_address_0 = nodeOut_a_mem_5_address; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_mask_0 = nodeOut_a_mem_5_mask; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_data_0 = nodeOut_a_mem_5_data; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_corrupt_0 = nodeOut_a_mem_5_corrupt; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_opcode_0 = nodeOut_a_mem_6_opcode; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_param_0 = nodeOut_a_mem_6_param; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_size_0 = nodeOut_a_mem_6_size; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_source_0 = nodeOut_a_mem_6_source; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_address_0 = nodeOut_a_mem_6_address; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_mask_0 = nodeOut_a_mem_6_mask; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_data_0 = nodeOut_a_mem_6_data; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_corrupt_0 = nodeOut_a_mem_6_corrupt; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_opcode_0 = nodeOut_a_mem_7_opcode; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_param_0 = nodeOut_a_mem_7_param; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_size_0 = nodeOut_a_mem_7_size; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_source_0 = nodeOut_a_mem_7_source; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_address_0 = nodeOut_a_mem_7_address; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_mask_0 = nodeOut_a_mem_7_mask; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_data_0 = nodeOut_a_mem_7_data; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_corrupt_0 = nodeOut_a_mem_7_corrupt; // @[AsyncCrossing.scala:23:9] assign auto_out_a_widx_0 = nodeOut_a_widx; // @[AsyncCrossing.scala:23:9] assign auto_out_a_safe_widx_valid_0 = nodeOut_a_safe_widx_valid; // @[AsyncCrossing.scala:23:9] assign auto_out_a_safe_source_reset_n_0 = nodeOut_a_safe_source_reset_n; // @[AsyncCrossing.scala:23:9] assign auto_out_d_ridx_0 = nodeOut_d_ridx; // @[AsyncCrossing.scala:23:9] assign auto_out_d_safe_ridx_valid_0 = nodeOut_d_safe_ridx_valid; // @[AsyncCrossing.scala:23:9] assign auto_out_d_safe_sink_reset_n_0 = nodeOut_d_safe_sink_reset_n; // @[AsyncCrossing.scala:23:9] TLMonitor_38 monitor ( // @[Nodes.scala:27:25] .clock (clock), .reset (reset), .io_in_a_ready (nodeIn_a_ready), // @[MixedNode.scala:551:17] .io_in_a_valid (nodeIn_a_valid), // @[MixedNode.scala:551:17] .io_in_a_bits_opcode (nodeIn_a_bits_opcode), // @[MixedNode.scala:551:17] .io_in_a_bits_param (nodeIn_a_bits_param), // @[MixedNode.scala:551:17] .io_in_a_bits_size (nodeIn_a_bits_size), // @[MixedNode.scala:551:17] .io_in_a_bits_source (nodeIn_a_bits_source), // @[MixedNode.scala:551:17] .io_in_a_bits_address (nodeIn_a_bits_address), // @[MixedNode.scala:551:17] .io_in_a_bits_mask (nodeIn_a_bits_mask), // @[MixedNode.scala:551:17] .io_in_a_bits_data (nodeIn_a_bits_data), // @[MixedNode.scala:551:17] .io_in_a_bits_corrupt (nodeIn_a_bits_corrupt), // @[MixedNode.scala:551:17] .io_in_d_ready (nodeIn_d_ready), // @[MixedNode.scala:551:17] .io_in_d_valid (nodeIn_d_valid), // @[MixedNode.scala:551:17] .io_in_d_bits_opcode (nodeIn_d_bits_opcode), // @[MixedNode.scala:551:17] .io_in_d_bits_param (nodeIn_d_bits_param), // @[MixedNode.scala:551:17] .io_in_d_bits_size (nodeIn_d_bits_size), // @[MixedNode.scala:551:17] .io_in_d_bits_source (nodeIn_d_bits_source), // @[MixedNode.scala:551:17] .io_in_d_bits_sink (nodeIn_d_bits_sink), // @[MixedNode.scala:551:17] .io_in_d_bits_denied (nodeIn_d_bits_denied), // @[MixedNode.scala:551:17] .io_in_d_bits_data (nodeIn_d_bits_data), // @[MixedNode.scala:551:17] .io_in_d_bits_corrupt (nodeIn_d_bits_corrupt) // @[MixedNode.scala:551:17] ); // @[Nodes.scala:27:25] AsyncQueueSource_TLBundleA_a32d64s4k1z3u nodeOut_a_source ( // @[AsyncQueue.scala:220:24] .clock (clock), .reset (reset), .io_enq_ready (nodeIn_a_ready), .io_enq_valid (nodeIn_a_valid), // @[MixedNode.scala:551:17] .io_enq_bits_opcode (nodeIn_a_bits_opcode), // @[MixedNode.scala:551:17] .io_enq_bits_param (nodeIn_a_bits_param), // @[MixedNode.scala:551:17] .io_enq_bits_size (nodeIn_a_bits_size), // @[MixedNode.scala:551:17] .io_enq_bits_source (nodeIn_a_bits_source), // @[MixedNode.scala:551:17] .io_enq_bits_address (nodeIn_a_bits_address), // @[MixedNode.scala:551:17] .io_enq_bits_mask (nodeIn_a_bits_mask), // @[MixedNode.scala:551:17] .io_enq_bits_data (nodeIn_a_bits_data), // @[MixedNode.scala:551:17] .io_enq_bits_corrupt (nodeIn_a_bits_corrupt), // @[MixedNode.scala:551:17] .io_async_mem_0_opcode (nodeOut_a_mem_0_opcode), .io_async_mem_0_param (nodeOut_a_mem_0_param), .io_async_mem_0_size (nodeOut_a_mem_0_size), .io_async_mem_0_source (nodeOut_a_mem_0_source), .io_async_mem_0_address (nodeOut_a_mem_0_address), .io_async_mem_0_mask (nodeOut_a_mem_0_mask), .io_async_mem_0_data (nodeOut_a_mem_0_data), .io_async_mem_0_corrupt (nodeOut_a_mem_0_corrupt), .io_async_mem_1_opcode (nodeOut_a_mem_1_opcode), .io_async_mem_1_param (nodeOut_a_mem_1_param), .io_async_mem_1_size (nodeOut_a_mem_1_size), .io_async_mem_1_source (nodeOut_a_mem_1_source), .io_async_mem_1_address (nodeOut_a_mem_1_address), .io_async_mem_1_mask (nodeOut_a_mem_1_mask), .io_async_mem_1_data (nodeOut_a_mem_1_data), .io_async_mem_1_corrupt (nodeOut_a_mem_1_corrupt), .io_async_mem_2_opcode (nodeOut_a_mem_2_opcode), .io_async_mem_2_param (nodeOut_a_mem_2_param), .io_async_mem_2_size (nodeOut_a_mem_2_size), .io_async_mem_2_source (nodeOut_a_mem_2_source), .io_async_mem_2_address (nodeOut_a_mem_2_address), .io_async_mem_2_mask (nodeOut_a_mem_2_mask), .io_async_mem_2_data (nodeOut_a_mem_2_data), .io_async_mem_2_corrupt (nodeOut_a_mem_2_corrupt), .io_async_mem_3_opcode (nodeOut_a_mem_3_opcode), .io_async_mem_3_param (nodeOut_a_mem_3_param), .io_async_mem_3_size (nodeOut_a_mem_3_size), .io_async_mem_3_source (nodeOut_a_mem_3_source), .io_async_mem_3_address (nodeOut_a_mem_3_address), .io_async_mem_3_mask (nodeOut_a_mem_3_mask), .io_async_mem_3_data (nodeOut_a_mem_3_data), .io_async_mem_3_corrupt (nodeOut_a_mem_3_corrupt), .io_async_mem_4_opcode (nodeOut_a_mem_4_opcode), .io_async_mem_4_param (nodeOut_a_mem_4_param), .io_async_mem_4_size (nodeOut_a_mem_4_size), .io_async_mem_4_source (nodeOut_a_mem_4_source), .io_async_mem_4_address (nodeOut_a_mem_4_address), .io_async_mem_4_mask (nodeOut_a_mem_4_mask), .io_async_mem_4_data (nodeOut_a_mem_4_data), .io_async_mem_4_corrupt (nodeOut_a_mem_4_corrupt), .io_async_mem_5_opcode (nodeOut_a_mem_5_opcode), .io_async_mem_5_param (nodeOut_a_mem_5_param), .io_async_mem_5_size (nodeOut_a_mem_5_size), .io_async_mem_5_source (nodeOut_a_mem_5_source), .io_async_mem_5_address (nodeOut_a_mem_5_address), .io_async_mem_5_mask (nodeOut_a_mem_5_mask), .io_async_mem_5_data (nodeOut_a_mem_5_data), .io_async_mem_5_corrupt (nodeOut_a_mem_5_corrupt), .io_async_mem_6_opcode (nodeOut_a_mem_6_opcode), .io_async_mem_6_param (nodeOut_a_mem_6_param), .io_async_mem_6_size (nodeOut_a_mem_6_size), .io_async_mem_6_source (nodeOut_a_mem_6_source), .io_async_mem_6_address (nodeOut_a_mem_6_address), .io_async_mem_6_mask (nodeOut_a_mem_6_mask), .io_async_mem_6_data (nodeOut_a_mem_6_data), .io_async_mem_6_corrupt (nodeOut_a_mem_6_corrupt), .io_async_mem_7_opcode (nodeOut_a_mem_7_opcode), .io_async_mem_7_param (nodeOut_a_mem_7_param), .io_async_mem_7_size (nodeOut_a_mem_7_size), .io_async_mem_7_source (nodeOut_a_mem_7_source), .io_async_mem_7_address (nodeOut_a_mem_7_address), .io_async_mem_7_mask (nodeOut_a_mem_7_mask), .io_async_mem_7_data (nodeOut_a_mem_7_data), .io_async_mem_7_corrupt (nodeOut_a_mem_7_corrupt), .io_async_ridx (nodeOut_a_ridx), // @[MixedNode.scala:542:17] .io_async_widx (nodeOut_a_widx), .io_async_safe_ridx_valid (nodeOut_a_safe_ridx_valid), // @[MixedNode.scala:542:17] .io_async_safe_widx_valid (nodeOut_a_safe_widx_valid), .io_async_safe_source_reset_n (nodeOut_a_safe_source_reset_n), .io_async_safe_sink_reset_n (nodeOut_a_safe_sink_reset_n) // @[MixedNode.scala:542:17] ); // @[AsyncQueue.scala:220:24] AsyncQueueSink_TLBundleD_a32d64s4k1z3u nodeIn_d_sink ( // @[AsyncQueue.scala:211:22] .clock (clock), .reset (reset), .io_deq_ready (nodeIn_d_ready), // @[MixedNode.scala:551:17] .io_deq_valid (nodeIn_d_valid), .io_deq_bits_opcode (nodeIn_d_bits_opcode), .io_deq_bits_param (nodeIn_d_bits_param), .io_deq_bits_size (nodeIn_d_bits_size), .io_deq_bits_source (nodeIn_d_bits_source), .io_deq_bits_sink (nodeIn_d_bits_sink), .io_deq_bits_denied (nodeIn_d_bits_denied), .io_deq_bits_data (nodeIn_d_bits_data), .io_deq_bits_corrupt (nodeIn_d_bits_corrupt), .io_async_mem_0_opcode (nodeOut_d_mem_0_opcode), // @[MixedNode.scala:542:17] .io_async_mem_0_param (nodeOut_d_mem_0_param), // @[MixedNode.scala:542:17] .io_async_mem_0_size (nodeOut_d_mem_0_size), // @[MixedNode.scala:542:17] .io_async_mem_0_source (nodeOut_d_mem_0_source), // @[MixedNode.scala:542:17] .io_async_mem_0_sink (nodeOut_d_mem_0_sink), // @[MixedNode.scala:542:17] .io_async_mem_0_denied (nodeOut_d_mem_0_denied), // @[MixedNode.scala:542:17] .io_async_mem_0_data (nodeOut_d_mem_0_data), // @[MixedNode.scala:542:17] .io_async_mem_0_corrupt (nodeOut_d_mem_0_corrupt), // @[MixedNode.scala:542:17] .io_async_mem_1_opcode (nodeOut_d_mem_1_opcode), // @[MixedNode.scala:542:17] .io_async_mem_1_param (nodeOut_d_mem_1_param), // @[MixedNode.scala:542:17] .io_async_mem_1_size (nodeOut_d_mem_1_size), // @[MixedNode.scala:542:17] .io_async_mem_1_source (nodeOut_d_mem_1_source), // @[MixedNode.scala:542:17] .io_async_mem_1_sink (nodeOut_d_mem_1_sink), // @[MixedNode.scala:542:17] .io_async_mem_1_denied (nodeOut_d_mem_1_denied), // @[MixedNode.scala:542:17] .io_async_mem_1_data (nodeOut_d_mem_1_data), // @[MixedNode.scala:542:17] .io_async_mem_1_corrupt (nodeOut_d_mem_1_corrupt), // @[MixedNode.scala:542:17] .io_async_mem_2_opcode (nodeOut_d_mem_2_opcode), // @[MixedNode.scala:542:17] .io_async_mem_2_param (nodeOut_d_mem_2_param), // @[MixedNode.scala:542:17] .io_async_mem_2_size (nodeOut_d_mem_2_size), // @[MixedNode.scala:542:17] .io_async_mem_2_source (nodeOut_d_mem_2_source), // @[MixedNode.scala:542:17] .io_async_mem_2_sink (nodeOut_d_mem_2_sink), // @[MixedNode.scala:542:17] .io_async_mem_2_denied (nodeOut_d_mem_2_denied), // @[MixedNode.scala:542:17] .io_async_mem_2_data (nodeOut_d_mem_2_data), // @[MixedNode.scala:542:17] .io_async_mem_2_corrupt (nodeOut_d_mem_2_corrupt), // @[MixedNode.scala:542:17] .io_async_mem_3_opcode (nodeOut_d_mem_3_opcode), // @[MixedNode.scala:542:17] .io_async_mem_3_param (nodeOut_d_mem_3_param), // @[MixedNode.scala:542:17] .io_async_mem_3_size (nodeOut_d_mem_3_size), // @[MixedNode.scala:542:17] .io_async_mem_3_source (nodeOut_d_mem_3_source), // @[MixedNode.scala:542:17] .io_async_mem_3_sink (nodeOut_d_mem_3_sink), // @[MixedNode.scala:542:17] .io_async_mem_3_denied (nodeOut_d_mem_3_denied), // @[MixedNode.scala:542:17] .io_async_mem_3_data (nodeOut_d_mem_3_data), // @[MixedNode.scala:542:17] .io_async_mem_3_corrupt (nodeOut_d_mem_3_corrupt), // @[MixedNode.scala:542:17] .io_async_mem_4_opcode (nodeOut_d_mem_4_opcode), // @[MixedNode.scala:542:17] .io_async_mem_4_param (nodeOut_d_mem_4_param), // @[MixedNode.scala:542:17] .io_async_mem_4_size (nodeOut_d_mem_4_size), // @[MixedNode.scala:542:17] .io_async_mem_4_source (nodeOut_d_mem_4_source), // @[MixedNode.scala:542:17] .io_async_mem_4_sink (nodeOut_d_mem_4_sink), // @[MixedNode.scala:542:17] .io_async_mem_4_denied (nodeOut_d_mem_4_denied), // @[MixedNode.scala:542:17] .io_async_mem_4_data (nodeOut_d_mem_4_data), // @[MixedNode.scala:542:17] .io_async_mem_4_corrupt (nodeOut_d_mem_4_corrupt), // @[MixedNode.scala:542:17] .io_async_mem_5_opcode (nodeOut_d_mem_5_opcode), // @[MixedNode.scala:542:17] .io_async_mem_5_param (nodeOut_d_mem_5_param), // @[MixedNode.scala:542:17] .io_async_mem_5_size (nodeOut_d_mem_5_size), // @[MixedNode.scala:542:17] .io_async_mem_5_source (nodeOut_d_mem_5_source), // @[MixedNode.scala:542:17] .io_async_mem_5_sink (nodeOut_d_mem_5_sink), // @[MixedNode.scala:542:17] .io_async_mem_5_denied (nodeOut_d_mem_5_denied), // @[MixedNode.scala:542:17] .io_async_mem_5_data (nodeOut_d_mem_5_data), // @[MixedNode.scala:542:17] .io_async_mem_5_corrupt (nodeOut_d_mem_5_corrupt), // @[MixedNode.scala:542:17] .io_async_mem_6_opcode (nodeOut_d_mem_6_opcode), // @[MixedNode.scala:542:17] .io_async_mem_6_param (nodeOut_d_mem_6_param), // @[MixedNode.scala:542:17] .io_async_mem_6_size (nodeOut_d_mem_6_size), // @[MixedNode.scala:542:17] .io_async_mem_6_source (nodeOut_d_mem_6_source), // @[MixedNode.scala:542:17] .io_async_mem_6_sink (nodeOut_d_mem_6_sink), // @[MixedNode.scala:542:17] .io_async_mem_6_denied (nodeOut_d_mem_6_denied), // @[MixedNode.scala:542:17] .io_async_mem_6_data (nodeOut_d_mem_6_data), // @[MixedNode.scala:542:17] .io_async_mem_6_corrupt (nodeOut_d_mem_6_corrupt), // @[MixedNode.scala:542:17] .io_async_mem_7_opcode (nodeOut_d_mem_7_opcode), // @[MixedNode.scala:542:17] .io_async_mem_7_param (nodeOut_d_mem_7_param), // @[MixedNode.scala:542:17] .io_async_mem_7_size (nodeOut_d_mem_7_size), // @[MixedNode.scala:542:17] .io_async_mem_7_source (nodeOut_d_mem_7_source), // @[MixedNode.scala:542:17] .io_async_mem_7_sink (nodeOut_d_mem_7_sink), // @[MixedNode.scala:542:17] .io_async_mem_7_denied (nodeOut_d_mem_7_denied), // @[MixedNode.scala:542:17] .io_async_mem_7_data (nodeOut_d_mem_7_data), // @[MixedNode.scala:542:17] .io_async_mem_7_corrupt (nodeOut_d_mem_7_corrupt), // @[MixedNode.scala:542:17] .io_async_ridx (nodeOut_d_ridx), .io_async_widx (nodeOut_d_widx), // @[MixedNode.scala:542:17] .io_async_safe_ridx_valid (nodeOut_d_safe_ridx_valid), .io_async_safe_widx_valid (nodeOut_d_safe_widx_valid), // @[MixedNode.scala:542:17] .io_async_safe_source_reset_n (nodeOut_d_safe_source_reset_n), // @[MixedNode.scala:542:17] .io_async_safe_sink_reset_n (nodeOut_d_safe_sink_reset_n) ); // @[AsyncQueue.scala:211:22] assign auto_in_a_ready = auto_in_a_ready_0; // @[AsyncCrossing.scala:23:9] assign auto_in_d_valid = auto_in_d_valid_0; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_opcode = auto_in_d_bits_opcode_0; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_param = auto_in_d_bits_param_0; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_size = auto_in_d_bits_size_0; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_source = auto_in_d_bits_source_0; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_sink = auto_in_d_bits_sink_0; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_denied = auto_in_d_bits_denied_0; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_data = auto_in_d_bits_data_0; // @[AsyncCrossing.scala:23:9] assign auto_in_d_bits_corrupt = auto_in_d_bits_corrupt_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_opcode = auto_out_a_mem_0_opcode_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_param = auto_out_a_mem_0_param_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_size = auto_out_a_mem_0_size_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_source = auto_out_a_mem_0_source_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_address = auto_out_a_mem_0_address_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_mask = auto_out_a_mem_0_mask_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_data = auto_out_a_mem_0_data_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_0_corrupt = auto_out_a_mem_0_corrupt_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_opcode = auto_out_a_mem_1_opcode_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_param = auto_out_a_mem_1_param_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_size = auto_out_a_mem_1_size_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_source = auto_out_a_mem_1_source_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_address = auto_out_a_mem_1_address_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_mask = auto_out_a_mem_1_mask_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_data = auto_out_a_mem_1_data_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_1_corrupt = auto_out_a_mem_1_corrupt_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_opcode = auto_out_a_mem_2_opcode_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_param = auto_out_a_mem_2_param_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_size = auto_out_a_mem_2_size_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_source = auto_out_a_mem_2_source_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_address = auto_out_a_mem_2_address_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_mask = auto_out_a_mem_2_mask_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_data = auto_out_a_mem_2_data_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_2_corrupt = auto_out_a_mem_2_corrupt_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_opcode = auto_out_a_mem_3_opcode_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_param = auto_out_a_mem_3_param_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_size = auto_out_a_mem_3_size_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_source = auto_out_a_mem_3_source_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_address = auto_out_a_mem_3_address_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_mask = auto_out_a_mem_3_mask_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_data = auto_out_a_mem_3_data_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_3_corrupt = auto_out_a_mem_3_corrupt_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_opcode = auto_out_a_mem_4_opcode_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_param = auto_out_a_mem_4_param_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_size = auto_out_a_mem_4_size_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_source = auto_out_a_mem_4_source_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_address = auto_out_a_mem_4_address_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_mask = auto_out_a_mem_4_mask_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_data = auto_out_a_mem_4_data_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_4_corrupt = auto_out_a_mem_4_corrupt_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_opcode = auto_out_a_mem_5_opcode_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_param = auto_out_a_mem_5_param_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_size = auto_out_a_mem_5_size_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_source = auto_out_a_mem_5_source_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_address = auto_out_a_mem_5_address_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_mask = auto_out_a_mem_5_mask_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_data = auto_out_a_mem_5_data_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_5_corrupt = auto_out_a_mem_5_corrupt_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_opcode = auto_out_a_mem_6_opcode_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_param = auto_out_a_mem_6_param_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_size = auto_out_a_mem_6_size_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_source = auto_out_a_mem_6_source_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_address = auto_out_a_mem_6_address_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_mask = auto_out_a_mem_6_mask_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_data = auto_out_a_mem_6_data_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_6_corrupt = auto_out_a_mem_6_corrupt_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_opcode = auto_out_a_mem_7_opcode_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_param = auto_out_a_mem_7_param_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_size = auto_out_a_mem_7_size_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_source = auto_out_a_mem_7_source_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_address = auto_out_a_mem_7_address_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_mask = auto_out_a_mem_7_mask_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_data = auto_out_a_mem_7_data_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_mem_7_corrupt = auto_out_a_mem_7_corrupt_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_widx = auto_out_a_widx_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_safe_widx_valid = auto_out_a_safe_widx_valid_0; // @[AsyncCrossing.scala:23:9] assign auto_out_a_safe_source_reset_n = auto_out_a_safe_source_reset_n_0; // @[AsyncCrossing.scala:23:9] assign auto_out_d_ridx = auto_out_d_ridx_0; // @[AsyncCrossing.scala:23:9] assign auto_out_d_safe_ridx_valid = auto_out_d_safe_ridx_valid_0; // @[AsyncCrossing.scala:23:9] assign auto_out_d_safe_sink_reset_n = auto_out_d_safe_sink_reset_n_0; // @[AsyncCrossing.scala:23:9] endmodule
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File AsyncQueue.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ case class AsyncQueueParams( depth: Int = 8, sync: Int = 3, safe: Boolean = true, // If safe is true, then effort is made to resynchronize the crossing indices when either side is reset. // This makes it safe/possible to reset one side of the crossing (but not the other) when the queue is empty. narrow: Boolean = false) // If narrow is true then the read mux is moved to the source side of the crossing. // This reduces the number of level shifters in the case where the clock crossing is also a voltage crossing, // at the expense of a combinational path from the sink to the source and back to the sink. { require (depth > 0 && isPow2(depth)) require (sync >= 2) val bits = log2Ceil(depth) val wires = if (narrow) 1 else depth } object AsyncQueueParams { // When there is only one entry, we don't need narrow. def singleton(sync: Int = 3, safe: Boolean = true) = AsyncQueueParams(1, sync, safe, false) } class AsyncBundleSafety extends Bundle { val ridx_valid = Input (Bool()) val widx_valid = Output(Bool()) val source_reset_n = Output(Bool()) val sink_reset_n = Input (Bool()) } class AsyncBundle[T <: Data](private val gen: T, val params: AsyncQueueParams = AsyncQueueParams()) extends Bundle { // Data-path synchronization val mem = Output(Vec(params.wires, gen)) val ridx = Input (UInt((params.bits+1).W)) val widx = Output(UInt((params.bits+1).W)) val index = params.narrow.option(Input(UInt(params.bits.W))) // Signals used to self-stabilize a safe AsyncQueue val safe = params.safe.option(new AsyncBundleSafety) } object GrayCounter { def apply(bits: Int, increment: Bool = true.B, clear: Bool = false.B, name: String = "binary"): UInt = { val incremented = Wire(UInt(bits.W)) val binary = RegNext(next=incremented, init=0.U).suggestName(name) incremented := Mux(clear, 0.U, binary + increment.asUInt) incremented ^ (incremented >> 1) } } class AsyncValidSync(sync: Int, desc: String) extends RawModule { val io = IO(new Bundle { val in = Input(Bool()) val out = Output(Bool()) }) val clock = IO(Input(Clock())) val reset = IO(Input(AsyncReset())) withClockAndReset(clock, reset){ io.out := AsyncResetSynchronizerShiftReg(io.in, sync, Some(desc)) } } class AsyncQueueSource[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSource_${gen.typeName}" val io = IO(new Bundle { // These come from the source domain val enq = Flipped(Decoupled(gen)) // These cross to the sink clock domain val async = new AsyncBundle(gen, params) }) val bits = params.bits val sink_ready = WireInit(true.B) val mem = Reg(Vec(params.depth, gen)) // This does NOT need to be reset at all. val widx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.enq.fire, !sink_ready, "widx_bin")) val ridx = AsyncResetSynchronizerShiftReg(io.async.ridx, params.sync, Some("ridx_gray")) val ready = sink_ready && widx =/= (ridx ^ (params.depth | params.depth >> 1).U) val index = if (bits == 0) 0.U else io.async.widx(bits-1, 0) ^ (io.async.widx(bits, bits) << (bits-1)) when (io.enq.fire) { mem(index) := io.enq.bits } val ready_reg = withReset(reset.asAsyncReset)(RegNext(next=ready, init=false.B).suggestName("ready_reg")) io.enq.ready := ready_reg && sink_ready val widx_reg = withReset(reset.asAsyncReset)(RegNext(next=widx, init=0.U).suggestName("widx_gray")) io.async.widx := widx_reg io.async.index match { case Some(index) => io.async.mem(0) := mem(index) case None => io.async.mem := mem } io.async.safe.foreach { sio => val source_valid_0 = Module(new AsyncValidSync(params.sync, "source_valid_0")) val source_valid_1 = Module(new AsyncValidSync(params.sync, "source_valid_1")) val sink_extend = Module(new AsyncValidSync(params.sync, "sink_extend")) val sink_valid = Module(new AsyncValidSync(params.sync, "sink_valid")) source_valid_0.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset source_valid_1.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_extend .reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_valid .reset := reset.asAsyncReset source_valid_0.clock := clock source_valid_1.clock := clock sink_extend .clock := clock sink_valid .clock := clock source_valid_0.io.in := true.B source_valid_1.io.in := source_valid_0.io.out sio.widx_valid := source_valid_1.io.out sink_extend.io.in := sio.ridx_valid sink_valid.io.in := sink_extend.io.out sink_ready := sink_valid.io.out sio.source_reset_n := !reset.asBool // Assert that if there is stuff in the queue, then reset cannot happen // Impossible to write because dequeue can occur on the receiving side, // then reset allowed to happen, but write side cannot know that dequeue // occurred. // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // assert (!(reset || !sio.sink_reset_n) || !io.enq.valid, "Enqueue while sink is reset and AsyncQueueSource is unprotected") // assert (!reset_rise || prev_idx_match.asBool, "Sink reset while AsyncQueueSource not empty") } } class AsyncQueueSink[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSink_${gen.typeName}" val io = IO(new Bundle { // These come from the sink domain val deq = Decoupled(gen) // These cross to the source clock domain val async = Flipped(new AsyncBundle(gen, params)) }) val bits = params.bits val source_ready = WireInit(true.B) val ridx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.deq.fire, !source_ready, "ridx_bin")) val widx = AsyncResetSynchronizerShiftReg(io.async.widx, params.sync, Some("widx_gray")) val valid = source_ready && ridx =/= widx // The mux is safe because timing analysis ensures ridx has reached the register // On an ASIC, changes to the unread location cannot affect the selected value // On an FPGA, only one input changes at a time => mem updates don't cause glitches // The register only latches when the selected valued is not being written val index = if (bits == 0) 0.U else ridx(bits-1, 0) ^ (ridx(bits, bits) << (bits-1)) io.async.index.foreach { _ := index } // This register does not NEED to be reset, as its contents will not // be considered unless the asynchronously reset deq valid register is set. // It is possible that bits latches when the source domain is reset / has power cut // This is safe, because isolation gates brought mem low before the zeroed widx reached us val deq_bits_nxt = io.async.mem(if (params.narrow) 0.U else index) io.deq.bits := ClockCrossingReg(deq_bits_nxt, en = valid, doInit = false, name = Some("deq_bits_reg")) val valid_reg = withReset(reset.asAsyncReset)(RegNext(next=valid, init=false.B).suggestName("valid_reg")) io.deq.valid := valid_reg && source_ready val ridx_reg = withReset(reset.asAsyncReset)(RegNext(next=ridx, init=0.U).suggestName("ridx_gray")) io.async.ridx := ridx_reg io.async.safe.foreach { sio => val sink_valid_0 = Module(new AsyncValidSync(params.sync, "sink_valid_0")) val sink_valid_1 = Module(new AsyncValidSync(params.sync, "sink_valid_1")) val source_extend = Module(new AsyncValidSync(params.sync, "source_extend")) val source_valid = Module(new AsyncValidSync(params.sync, "source_valid")) sink_valid_0 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset sink_valid_1 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_extend.reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_valid .reset := reset.asAsyncReset sink_valid_0 .clock := clock sink_valid_1 .clock := clock source_extend.clock := clock source_valid .clock := clock sink_valid_0.io.in := true.B sink_valid_1.io.in := sink_valid_0.io.out sio.ridx_valid := sink_valid_1.io.out source_extend.io.in := sio.widx_valid source_valid.io.in := source_extend.io.out source_ready := source_valid.io.out sio.sink_reset_n := !reset.asBool // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // // val reset_and_extend = !source_ready || !sio.source_reset_n || reset.asBool // val reset_and_extend_prev = RegNext(reset_and_extend, true.B) // val reset_rise = !reset_and_extend_prev && reset_and_extend // val prev_idx_match = AsyncResetReg(updateData=(io.async.widx===io.async.ridx), resetData=0) // assert (!reset_rise || prev_idx_match.asBool, "Source reset while AsyncQueueSink not empty") } } object FromAsyncBundle { // Sometimes it makes sense for the sink to have different sync than the source def apply[T <: Data](x: AsyncBundle[T]): DecoupledIO[T] = apply(x, x.params.sync) def apply[T <: Data](x: AsyncBundle[T], sync: Int): DecoupledIO[T] = { val sink = Module(new AsyncQueueSink(chiselTypeOf(x.mem(0)), x.params.copy(sync = sync))) sink.io.async <> x sink.io.deq } } object ToAsyncBundle { def apply[T <: Data](x: ReadyValidIO[T], params: AsyncQueueParams = AsyncQueueParams()): AsyncBundle[T] = { val source = Module(new AsyncQueueSource(chiselTypeOf(x.bits), params)) source.io.enq <> x source.io.async } } class AsyncQueue[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Crossing[T] { val io = IO(new CrossingIO(gen)) val source = withClockAndReset(io.enq_clock, io.enq_reset) { Module(new AsyncQueueSource(gen, params)) } val sink = withClockAndReset(io.deq_clock, io.deq_reset) { Module(new AsyncQueueSink (gen, params)) } source.io.enq <> io.enq io.deq <> sink.io.deq sink.io.async <> source.io.async }
module AsyncQueueSource_Phit_1( // @[AsyncQueue.scala:70:7] input clock, // @[AsyncQueue.scala:70:7] input reset, // @[AsyncQueue.scala:70:7] output io_enq_ready, // @[AsyncQueue.scala:73:14] input io_enq_valid, // @[AsyncQueue.scala:73:14] input [31:0] io_enq_bits_phit, // @[AsyncQueue.scala:73:14] output [31:0] io_async_mem_0_phit, // @[AsyncQueue.scala:73:14] output [31:0] io_async_mem_1_phit, // @[AsyncQueue.scala:73:14] output [31:0] io_async_mem_2_phit, // @[AsyncQueue.scala:73:14] output [31:0] io_async_mem_3_phit, // @[AsyncQueue.scala:73:14] output [31:0] io_async_mem_4_phit, // @[AsyncQueue.scala:73:14] output [31:0] io_async_mem_5_phit, // @[AsyncQueue.scala:73:14] output [31:0] io_async_mem_6_phit, // @[AsyncQueue.scala:73:14] output [31:0] io_async_mem_7_phit, // @[AsyncQueue.scala:73:14] input [3:0] io_async_ridx, // @[AsyncQueue.scala:73:14] output [3:0] io_async_widx, // @[AsyncQueue.scala:73:14] input io_async_safe_ridx_valid, // @[AsyncQueue.scala:73:14] output io_async_safe_widx_valid, // @[AsyncQueue.scala:73:14] output io_async_safe_source_reset_n, // @[AsyncQueue.scala:73:14] input io_async_safe_sink_reset_n // @[AsyncQueue.scala:73:14] ); wire _sink_extend_io_out; // @[AsyncQueue.scala:105:30] wire _source_valid_0_io_out; // @[AsyncQueue.scala:102:32] wire io_enq_valid_0 = io_enq_valid; // @[AsyncQueue.scala:70:7] wire [31:0] io_enq_bits_phit_0 = io_enq_bits_phit; // @[AsyncQueue.scala:70:7] wire [3:0] io_async_ridx_0 = io_async_ridx; // @[AsyncQueue.scala:70:7] wire io_async_safe_ridx_valid_0 = io_async_safe_ridx_valid; // @[AsyncQueue.scala:70:7] wire io_async_safe_sink_reset_n_0 = io_async_safe_sink_reset_n; // @[AsyncQueue.scala:70:7] wire _widx_T = reset; // @[AsyncQueue.scala:83:30] wire _ready_reg_T = reset; // @[AsyncQueue.scala:90:35] wire _widx_reg_T = reset; // @[AsyncQueue.scala:93:34] wire _source_valid_0_reset_T = reset; // @[AsyncQueue.scala:107:36] wire _source_valid_1_reset_T = reset; // @[AsyncQueue.scala:108:36] wire _sink_extend_reset_T = reset; // @[AsyncQueue.scala:109:36] wire _sink_valid_reset_T = reset; // @[AsyncQueue.scala:110:35] wire _io_async_safe_source_reset_n_T = reset; // @[AsyncQueue.scala:123:34] wire _io_enq_ready_T; // @[AsyncQueue.scala:91:29] wire _io_async_safe_source_reset_n_T_1; // @[AsyncQueue.scala:123:27] wire io_enq_ready_0; // @[AsyncQueue.scala:70:7] wire [31:0] io_async_mem_0_phit_0; // @[AsyncQueue.scala:70:7] wire [31:0] io_async_mem_1_phit_0; // @[AsyncQueue.scala:70:7] wire [31:0] io_async_mem_2_phit_0; // @[AsyncQueue.scala:70:7] wire [31:0] io_async_mem_3_phit_0; // @[AsyncQueue.scala:70:7] wire [31:0] io_async_mem_4_phit_0; // @[AsyncQueue.scala:70:7] wire [31:0] io_async_mem_5_phit_0; // @[AsyncQueue.scala:70:7] wire [31:0] io_async_mem_6_phit_0; // @[AsyncQueue.scala:70:7] wire [31:0] io_async_mem_7_phit_0; // @[AsyncQueue.scala:70:7] wire io_async_safe_widx_valid_0; // @[AsyncQueue.scala:70:7] wire io_async_safe_source_reset_n_0; // @[AsyncQueue.scala:70:7] wire [3:0] io_async_widx_0; // @[AsyncQueue.scala:70:7] wire sink_ready; // @[AsyncQueue.scala:81:28] reg [31:0] mem_0_phit; // @[AsyncQueue.scala:82:16] assign io_async_mem_0_phit_0 = mem_0_phit; // @[AsyncQueue.scala:70:7, :82:16] reg [31:0] mem_1_phit; // @[AsyncQueue.scala:82:16] assign io_async_mem_1_phit_0 = mem_1_phit; // @[AsyncQueue.scala:70:7, :82:16] reg [31:0] mem_2_phit; // @[AsyncQueue.scala:82:16] assign io_async_mem_2_phit_0 = mem_2_phit; // @[AsyncQueue.scala:70:7, :82:16] reg [31:0] mem_3_phit; // @[AsyncQueue.scala:82:16] assign io_async_mem_3_phit_0 = mem_3_phit; // @[AsyncQueue.scala:70:7, :82:16] reg [31:0] mem_4_phit; // @[AsyncQueue.scala:82:16] assign io_async_mem_4_phit_0 = mem_4_phit; // @[AsyncQueue.scala:70:7, :82:16] reg [31:0] mem_5_phit; // @[AsyncQueue.scala:82:16] assign io_async_mem_5_phit_0 = mem_5_phit; // @[AsyncQueue.scala:70:7, :82:16] reg [31:0] mem_6_phit; // @[AsyncQueue.scala:82:16] assign io_async_mem_6_phit_0 = mem_6_phit; // @[AsyncQueue.scala:70:7, :82:16] reg [31:0] mem_7_phit; // @[AsyncQueue.scala:82:16] assign io_async_mem_7_phit_0 = mem_7_phit; // @[AsyncQueue.scala:70:7, :82:16] wire _widx_T_1 = io_enq_ready_0 & io_enq_valid_0; // @[Decoupled.scala:51:35] wire _widx_T_2 = ~sink_ready; // @[AsyncQueue.scala:81:28, :83:77] wire [3:0] _widx_incremented_T_2; // @[AsyncQueue.scala:53:23] wire [3:0] widx_incremented; // @[AsyncQueue.scala:51:27] reg [3:0] widx_widx_bin; // @[AsyncQueue.scala:52:25] wire [4:0] _widx_incremented_T = {1'h0, widx_widx_bin} + {4'h0, _widx_T_1}; // @[Decoupled.scala:51:35] wire [3:0] _widx_incremented_T_1 = _widx_incremented_T[3:0]; // @[AsyncQueue.scala:53:43] assign _widx_incremented_T_2 = _widx_T_2 ? 4'h0 : _widx_incremented_T_1; // @[AsyncQueue.scala:52:25, :53:{23,43}, :83:77] assign widx_incremented = _widx_incremented_T_2; // @[AsyncQueue.scala:51:27, :53:23] wire [2:0] _widx_T_3 = widx_incremented[3:1]; // @[AsyncQueue.scala:51:27, :54:32] wire [3:0] widx = {widx_incremented[3], widx_incremented[2:0] ^ _widx_T_3}; // @[AsyncQueue.scala:51:27, :54:{17,32}] wire [3:0] ridx; // @[ShiftReg.scala:48:24] wire [3:0] _ready_T = ridx ^ 4'hC; // @[ShiftReg.scala:48:24] wire _ready_T_1 = widx != _ready_T; // @[AsyncQueue.scala:54:17, :85:{34,44}] wire ready = sink_ready & _ready_T_1; // @[AsyncQueue.scala:81:28, :85:{26,34}] wire [2:0] _index_T = io_async_widx_0[2:0]; // @[AsyncQueue.scala:70:7, :87:52] wire _index_T_1 = io_async_widx_0[3]; // @[AsyncQueue.scala:70:7, :87:80] wire [2:0] _index_T_2 = {_index_T_1, 2'h0}; // @[AsyncQueue.scala:87:{80,93}] wire [2:0] index = _index_T ^ _index_T_2; // @[AsyncQueue.scala:87:{52,64,93}] reg ready_reg; // @[AsyncQueue.scala:90:56] assign _io_enq_ready_T = ready_reg & sink_ready; // @[AsyncQueue.scala:81:28, :90:56, :91:29] assign io_enq_ready_0 = _io_enq_ready_T; // @[AsyncQueue.scala:70:7, :91:29] reg [3:0] widx_gray; // @[AsyncQueue.scala:93:55] assign io_async_widx_0 = widx_gray; // @[AsyncQueue.scala:70:7, :93:55] wire _source_valid_0_reset_T_1 = ~io_async_safe_sink_reset_n_0; // @[AsyncQueue.scala:70:7, :107:46] wire _source_valid_0_reset_T_2 = _source_valid_0_reset_T | _source_valid_0_reset_T_1; // @[AsyncQueue.scala:107:{36,43,46}] wire _source_valid_0_reset_T_3 = _source_valid_0_reset_T_2; // @[AsyncQueue.scala:107:{43,65}] wire _source_valid_1_reset_T_1 = ~io_async_safe_sink_reset_n_0; // @[AsyncQueue.scala:70:7, :107:46, :108:46] wire _source_valid_1_reset_T_2 = _source_valid_1_reset_T | _source_valid_1_reset_T_1; // @[AsyncQueue.scala:108:{36,43,46}] wire _source_valid_1_reset_T_3 = _source_valid_1_reset_T_2; // @[AsyncQueue.scala:108:{43,65}] wire _sink_extend_reset_T_1 = ~io_async_safe_sink_reset_n_0; // @[AsyncQueue.scala:70:7, :107:46, :109:46] wire _sink_extend_reset_T_2 = _sink_extend_reset_T | _sink_extend_reset_T_1; // @[AsyncQueue.scala:109:{36,43,46}] wire _sink_extend_reset_T_3 = _sink_extend_reset_T_2; // @[AsyncQueue.scala:109:{43,65}] assign _io_async_safe_source_reset_n_T_1 = ~_io_async_safe_source_reset_n_T; // @[AsyncQueue.scala:123:{27,34}] assign io_async_safe_source_reset_n_0 = _io_async_safe_source_reset_n_T_1; // @[AsyncQueue.scala:70:7, :123:27] always @(posedge clock) begin // @[AsyncQueue.scala:70:7] if (_widx_T_1 & index == 3'h0) // @[Decoupled.scala:51:35] mem_0_phit <= io_enq_bits_phit_0; // @[AsyncQueue.scala:70:7, :82:16] if (_widx_T_1 & index == 3'h1) // @[Decoupled.scala:51:35] mem_1_phit <= io_enq_bits_phit_0; // @[AsyncQueue.scala:70:7, :82:16] if (_widx_T_1 & index == 3'h2) // @[Decoupled.scala:51:35] mem_2_phit <= io_enq_bits_phit_0; // @[AsyncQueue.scala:70:7, :82:16] if (_widx_T_1 & index == 3'h3) // @[Decoupled.scala:51:35] mem_3_phit <= io_enq_bits_phit_0; // @[AsyncQueue.scala:70:7, :82:16] if (_widx_T_1 & index == 3'h4) // @[Decoupled.scala:51:35] mem_4_phit <= io_enq_bits_phit_0; // @[AsyncQueue.scala:70:7, :82:16] if (_widx_T_1 & index == 3'h5) // @[Decoupled.scala:51:35] mem_5_phit <= io_enq_bits_phit_0; // @[AsyncQueue.scala:70:7, :82:16] if (_widx_T_1 & index == 3'h6) // @[Decoupled.scala:51:35] mem_6_phit <= io_enq_bits_phit_0; // @[AsyncQueue.scala:70:7, :82:16] if (_widx_T_1 & (&index)) // @[Decoupled.scala:51:35] mem_7_phit <= io_enq_bits_phit_0; // @[AsyncQueue.scala:70:7, :82:16] always @(posedge) always @(posedge clock or posedge _widx_T) begin // @[AsyncQueue.scala:70:7, :83:30] if (_widx_T) // @[AsyncQueue.scala:70:7, :83:30] widx_widx_bin <= 4'h0; // @[AsyncQueue.scala:52:25] else // @[AsyncQueue.scala:70:7] widx_widx_bin <= widx_incremented; // @[AsyncQueue.scala:51:27, :52:25] always @(posedge, posedge) always @(posedge clock or posedge _ready_reg_T) begin // @[AsyncQueue.scala:70:7, :90:35] if (_ready_reg_T) // @[AsyncQueue.scala:70:7, :90:35] ready_reg <= 1'h0; // @[AsyncQueue.scala:90:56] else // @[AsyncQueue.scala:70:7] ready_reg <= ready; // @[AsyncQueue.scala:85:26, :90:56] always @(posedge, posedge) always @(posedge clock or posedge _widx_reg_T) begin // @[AsyncQueue.scala:70:7, :93:34] if (_widx_reg_T) // @[AsyncQueue.scala:70:7, :93:34] widx_gray <= 4'h0; // @[AsyncQueue.scala:52:25, :93:55] else // @[AsyncQueue.scala:70:7] widx_gray <= widx; // @[AsyncQueue.scala:54:17, :93:55] always @(posedge, posedge)
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: package constellation.channel import chisel3._ import chisel3.util._ import freechips.rocketchip.diplomacy._ import org.chipsalliance.cde.config.{Parameters} import freechips.rocketchip.util._ import constellation.noc.{HasNoCParams} class NoCMonitor(val cParam: ChannelParams)(implicit val p: Parameters) extends Module with HasNoCParams { val io = IO(new Bundle { val in = Input(new Channel(cParam)) }) val in_flight = RegInit(VecInit(Seq.fill(cParam.nVirtualChannels) { false.B })) for (i <- 0 until cParam.srcSpeedup) { val flit = io.in.flit(i) when (flit.valid) { when (flit.bits.head) { in_flight(flit.bits.virt_channel_id) := true.B assert (!in_flight(flit.bits.virt_channel_id), "Flit head/tail sequencing is broken") } when (flit.bits.tail) { in_flight(flit.bits.virt_channel_id) := false.B } } val possibleFlows = cParam.possibleFlows when (flit.valid && flit.bits.head) { cParam match { case n: ChannelParams => n.virtualChannelParams.zipWithIndex.foreach { case (v,i) => assert(flit.bits.virt_channel_id =/= i.U || v.possibleFlows.toSeq.map(_.isFlow(flit.bits.flow)).orR) } case _ => assert(cParam.possibleFlows.toSeq.map(_.isFlow(flit.bits.flow)).orR) } } } } File Types.scala: package constellation.routing import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.{Parameters} import constellation.noc.{HasNoCParams} import constellation.channel.{Flit} /** A representation for 1 specific virtual channel in wormhole routing * * @param src the source node * @param vc ID for the virtual channel * @param dst the destination node * @param n_vc the number of virtual channels */ // BEGIN: ChannelRoutingInfo case class ChannelRoutingInfo( src: Int, dst: Int, vc: Int, n_vc: Int ) { // END: ChannelRoutingInfo require (src >= -1 && dst >= -1 && vc >= 0, s"Illegal $this") require (!(src == -1 && dst == -1), s"Illegal $this") require (vc < n_vc, s"Illegal $this") val isIngress = src == -1 val isEgress = dst == -1 } /** Represents the properties of a packet that are relevant for routing * ingressId and egressId uniquely identify a flow, but vnet and dst are used here * to simplify the implementation of routingrelations * * @param ingressId packet's source ingress point * @param egressId packet's destination egress point * @param vNet virtual subnetwork identifier * @param dst packet's destination node ID */ // BEGIN: FlowRoutingInfo case class FlowRoutingInfo( ingressId: Int, egressId: Int, vNetId: Int, ingressNode: Int, ingressNodeId: Int, egressNode: Int, egressNodeId: Int, fifo: Boolean ) { // END: FlowRoutingInfo def isFlow(f: FlowRoutingBundle): Bool = { (f.ingress_node === ingressNode.U && f.egress_node === egressNode.U && f.ingress_node_id === ingressNodeId.U && f.egress_node_id === egressNodeId.U) } def asLiteral(b: FlowRoutingBundle): BigInt = { Seq( (vNetId , b.vnet_id), (ingressNode , b.ingress_node), (ingressNodeId , b.ingress_node_id), (egressNode , b.egress_node), (egressNodeId , b.egress_node_id) ).foldLeft(0)((l, t) => { (l << t._2.getWidth) | t._1 }) } } class FlowRoutingBundle(implicit val p: Parameters) extends Bundle with HasNoCParams { // Instead of tracking ingress/egress ID, track the physical destination id and the offset at the destination // This simplifies the routing tables val vnet_id = UInt(log2Ceil(nVirtualNetworks).W) val ingress_node = UInt(log2Ceil(nNodes).W) val ingress_node_id = UInt(log2Ceil(maxIngressesAtNode).W) val egress_node = UInt(log2Ceil(nNodes).W) val egress_node_id = UInt(log2Ceil(maxEgressesAtNode).W) }
module NoCMonitor_15( // @[Monitor.scala:11:7] input clock, // @[Monitor.scala:11:7] input reset, // @[Monitor.scala:11:7] input io_in_flit_0_valid, // @[Monitor.scala:12:14] input io_in_flit_0_bits_head, // @[Monitor.scala:12:14] input io_in_flit_0_bits_tail, // @[Monitor.scala:12:14] input [3:0] io_in_flit_0_bits_flow_ingress_node, // @[Monitor.scala:12:14] input io_in_flit_0_bits_flow_ingress_node_id, // @[Monitor.scala:12:14] input [3:0] io_in_flit_0_bits_flow_egress_node, // @[Monitor.scala:12:14] input io_in_flit_0_bits_flow_egress_node_id, // @[Monitor.scala:12:14] input [1:0] io_in_flit_0_bits_virt_channel_id // @[Monitor.scala:12:14] ); reg in_flight_0; // @[Monitor.scala:16:26] reg in_flight_1; // @[Monitor.scala:16:26] reg in_flight_2; // @[Monitor.scala:16:26] reg in_flight_3; // @[Monitor.scala:16:26]
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File SynchronizerReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util.{RegEnable, Cat} /** These wrap behavioral * shift and next registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * * These are built up of *ResetSynchronizerPrimitiveShiftReg, * intended to be replaced by the integrator's metastable flops chains or replaced * at this level if they have a multi-bit wide synchronizer primitive. * The different types vary in their reset behavior: * NonSyncResetSynchronizerShiftReg -- Register array which does not have a reset pin * AsyncResetSynchronizerShiftReg -- Asynchronously reset register array, constructed from W instantiations of D deep * 1-bit-wide shift registers. * SyncResetSynchronizerShiftReg -- Synchronously reset register array, constructed similarly to AsyncResetSynchronizerShiftReg * * [Inferred]ResetSynchronizerShiftReg -- TBD reset type by chisel3 reset inference. * * ClockCrossingReg -- Not made up of SynchronizerPrimitiveShiftReg. This is for single-deep flops which cross * Clock Domains. */ object SynchronizerResetType extends Enumeration { val NonSync, Inferred, Sync, Async = Value } // Note: this should not be used directly. // Use the companion object to generate this with the correct reset type mixin. private class SynchronizerPrimitiveShiftReg( sync: Int, init: Boolean, resetType: SynchronizerResetType.Value) extends AbstractPipelineReg(1) { val initInt = if (init) 1 else 0 val initPostfix = resetType match { case SynchronizerResetType.NonSync => "" case _ => s"_i${initInt}" } override def desiredName = s"${resetType.toString}ResetSynchronizerPrimitiveShiftReg_d${sync}${initPostfix}" val chain = List.tabulate(sync) { i => val reg = if (resetType == SynchronizerResetType.NonSync) Reg(Bool()) else RegInit(init.B) reg.suggestName(s"sync_$i") } chain.last := io.d.asBool (chain.init zip chain.tail).foreach { case (sink, source) => sink := source } io.q := chain.head.asUInt } private object SynchronizerPrimitiveShiftReg { def apply (in: Bool, sync: Int, init: Boolean, resetType: SynchronizerResetType.Value): Bool = { val gen: () => SynchronizerPrimitiveShiftReg = resetType match { case SynchronizerResetType.NonSync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) case SynchronizerResetType.Async => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireAsyncReset case SynchronizerResetType.Sync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireSyncReset case SynchronizerResetType.Inferred => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) } AbstractPipelineReg(gen(), in) } } // Note: This module may end up with a non-AsyncReset type reset. // But the Primitives within will always have AsyncReset type. class AsyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"AsyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asAsyncReset){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Async) } } io.q := Cat(output.reverse) } object AsyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } // Note: This module may end up with a non-Bool type reset. // But the Primitives within will always have Bool reset type. @deprecated("SyncResetSynchronizerShiftReg is unecessary with Chisel3 inferred resets. Use ResetSynchronizerShiftReg which will use the inferred reset type.", "rocket-chip 1.2") class SyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asBool){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Sync) } } io.q := Cat(output.reverse) } object SyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class ResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"ResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Inferred) } io.q := Cat(output.reverse) } object ResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new ResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class SynchronizerShiftReg(w: Int = 1, sync: Int = 3) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SynchronizerShiftReg_w${w}_d${sync}" val output = Seq.tabulate(w) { i => SynchronizerPrimitiveShiftReg(io.d(i), sync, false, SynchronizerResetType.NonSync) } io.q := Cat(output.reverse) } object SynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SynchronizerShiftReg(in.getWidth, sync), in, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, None) def apply [T <: Data](in: T): T = apply (in, 3, None) } class ClockCrossingReg(w: Int = 1, doInit: Boolean) extends Module { override def desiredName = s"ClockCrossingReg_w${w}" val io = IO(new Bundle{ val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) val en = Input(Bool()) }) val cdc_reg = if (doInit) RegEnable(io.d, 0.U(w.W), io.en) else RegEnable(io.d, io.en) io.q := cdc_reg } object ClockCrossingReg { def apply [T <: Data](in: T, en: Bool, doInit: Boolean, name: Option[String] = None): T = { val cdc_reg = Module(new ClockCrossingReg(in.getWidth, doInit)) name.foreach{ cdc_reg.suggestName(_) } cdc_reg.io.d := in.asUInt cdc_reg.io.en := en cdc_reg.io.q.asTypeOf(in) } }
module AsyncResetSynchronizerShiftReg_w1_d3_i0_140( // @[SynchronizerReg.scala:80:7] input clock, // @[SynchronizerReg.scala:80:7] input reset, // @[SynchronizerReg.scala:80:7] input io_d, // @[ShiftReg.scala:36:14] output io_q // @[ShiftReg.scala:36:14] ); wire io_d_0 = io_d; // @[SynchronizerReg.scala:80:7] wire _output_T = reset; // @[SynchronizerReg.scala:86:21] wire _output_T_1 = io_d_0; // @[SynchronizerReg.scala:80:7, :87:41] wire output_0; // @[ShiftReg.scala:48:24] wire io_q_0; // @[SynchronizerReg.scala:80:7] assign io_q_0 = output_0; // @[SynchronizerReg.scala:80:7] AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_244 output_chain ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (_output_T), // @[SynchronizerReg.scala:86:21] .io_d (_output_T_1), // @[SynchronizerReg.scala:87:41] .io_q (output_0) ); // @[ShiftReg.scala:45:23] assign io_q = io_q_0; // @[SynchronizerReg.scala:80:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Switch.scala: package constellation.router import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.{Field, Parameters} import freechips.rocketchip.util._ import constellation.channel.{ChannelParams, IngressChannelParams, EgressChannelParams, Flit} class SwitchBundle(val outParams: Seq[ChannelParams], val egressParams: Seq[EgressChannelParams])(implicit val p: Parameters) extends Bundle with HasRouterOutputParams{ val flit = new Flit(allOutParams(0).payloadBits) val out_virt_channel = UInt(log2Up(allOutParams.map(_.nVirtualChannels).max).W) } class Switch( val routerParams: RouterParams, val inParams: Seq[ChannelParams], val outParams: Seq[ChannelParams], val ingressParams: Seq[IngressChannelParams], val egressParams: Seq[EgressChannelParams] )(implicit val p: Parameters) extends Module with HasRouterParams with HasRouterInputParams with HasRouterOutputParams { val io = IO(new Bundle { val in = MixedVec(allInParams.map { u => Vec(u.destSpeedup, Input(Valid(new SwitchBundle(outParams, egressParams)))) }) val out = MixedVec(allOutParams.map { u => Vec(u.srcSpeedup, Output(Valid(new Flit(u.payloadBits)))) }) val sel = MixedVec(allOutParams.map { o => Vec(o.srcSpeedup, MixedVec(allInParams.map { i => Vec(i.destSpeedup, Input(Bool())) })) }) }) val in_flat = Wire(Vec(allInParams.map(_.destSpeedup).reduce(_+_), Valid(new SwitchBundle(outParams, egressParams)))) var idx = 0 io.in.foreach(_.foreach { i => in_flat(idx) := i idx += 1 }) for (i <- 0 until nAllOutputs) { for (j <- 0 until allOutParams(i).srcSpeedup) { val sel_flat = io.sel(i)(j).asUInt assert(PopCount(sel_flat) <= 1.U) io.out(i)(j).valid := Mux1H(sel_flat, in_flat.map(_.valid)) && sel_flat =/= 0.U io.out(i)(j).bits := Mux1H(sel_flat, in_flat.map(_.bits.flit)) io.out(i)(j).bits.virt_channel_id := Mux1H(sel_flat, in_flat.map(_.bits.out_virt_channel)) } } }
module Switch_17( // @[Switch.scala:16:7] input clock, // @[Switch.scala:16:7] input reset, // @[Switch.scala:16:7] input io_in_3_0_valid, // @[Switch.scala:27:14] input io_in_3_0_bits_flit_head, // @[Switch.scala:27:14] input io_in_3_0_bits_flit_tail, // @[Switch.scala:27:14] input [36:0] io_in_3_0_bits_flit_payload, // @[Switch.scala:27:14] input io_in_3_0_bits_flit_flow_vnet_id, // @[Switch.scala:27:14] input [3:0] io_in_3_0_bits_flit_flow_ingress_node, // @[Switch.scala:27:14] input [1:0] io_in_3_0_bits_flit_flow_ingress_node_id, // @[Switch.scala:27:14] input [3:0] io_in_3_0_bits_flit_flow_egress_node, // @[Switch.scala:27:14] input [1:0] io_in_3_0_bits_flit_flow_egress_node_id, // @[Switch.scala:27:14] input io_in_3_0_bits_out_virt_channel, // @[Switch.scala:27:14] input io_in_2_0_valid, // @[Switch.scala:27:14] input io_in_2_0_bits_flit_head, // @[Switch.scala:27:14] input io_in_2_0_bits_flit_tail, // @[Switch.scala:27:14] input [36:0] io_in_2_0_bits_flit_payload, // @[Switch.scala:27:14] input io_in_2_0_bits_flit_flow_vnet_id, // @[Switch.scala:27:14] input [3:0] io_in_2_0_bits_flit_flow_ingress_node, // @[Switch.scala:27:14] input [1:0] io_in_2_0_bits_flit_flow_ingress_node_id, // @[Switch.scala:27:14] input [3:0] io_in_2_0_bits_flit_flow_egress_node, // @[Switch.scala:27:14] input [1:0] io_in_2_0_bits_flit_flow_egress_node_id, // @[Switch.scala:27:14] input io_in_2_0_bits_out_virt_channel, // @[Switch.scala:27:14] input io_in_1_0_valid, // @[Switch.scala:27:14] input io_in_1_0_bits_flit_head, // @[Switch.scala:27:14] input io_in_1_0_bits_flit_tail, // @[Switch.scala:27:14] input [36:0] io_in_1_0_bits_flit_payload, // @[Switch.scala:27:14] input io_in_1_0_bits_flit_flow_vnet_id, // @[Switch.scala:27:14] input [3:0] io_in_1_0_bits_flit_flow_ingress_node, // @[Switch.scala:27:14] input [1:0] io_in_1_0_bits_flit_flow_ingress_node_id, // @[Switch.scala:27:14] input [3:0] io_in_1_0_bits_flit_flow_egress_node, // @[Switch.scala:27:14] input [1:0] io_in_1_0_bits_flit_flow_egress_node_id, // @[Switch.scala:27:14] input io_in_1_0_bits_out_virt_channel, // @[Switch.scala:27:14] input io_in_0_0_valid, // @[Switch.scala:27:14] input io_in_0_0_bits_flit_head, // @[Switch.scala:27:14] input io_in_0_0_bits_flit_tail, // @[Switch.scala:27:14] input [36:0] io_in_0_0_bits_flit_payload, // @[Switch.scala:27:14] input io_in_0_0_bits_flit_flow_vnet_id, // @[Switch.scala:27:14] input [3:0] io_in_0_0_bits_flit_flow_ingress_node, // @[Switch.scala:27:14] input [1:0] io_in_0_0_bits_flit_flow_ingress_node_id, // @[Switch.scala:27:14] input [3:0] io_in_0_0_bits_flit_flow_egress_node, // @[Switch.scala:27:14] input [1:0] io_in_0_0_bits_flit_flow_egress_node_id, // @[Switch.scala:27:14] input io_in_0_0_bits_out_virt_channel, // @[Switch.scala:27:14] output io_out_2_0_valid, // @[Switch.scala:27:14] output io_out_2_0_bits_head, // @[Switch.scala:27:14] output io_out_2_0_bits_tail, // @[Switch.scala:27:14] output [36:0] io_out_2_0_bits_payload, // @[Switch.scala:27:14] output [3:0] io_out_2_0_bits_flow_ingress_node, // @[Switch.scala:27:14] output [1:0] io_out_2_0_bits_flow_ingress_node_id, // @[Switch.scala:27:14] output io_out_1_0_valid, // @[Switch.scala:27:14] output io_out_1_0_bits_head, // @[Switch.scala:27:14] output io_out_1_0_bits_tail, // @[Switch.scala:27:14] output [36:0] io_out_1_0_bits_payload, // @[Switch.scala:27:14] output io_out_1_0_bits_flow_vnet_id, // @[Switch.scala:27:14] output [3:0] io_out_1_0_bits_flow_ingress_node, // @[Switch.scala:27:14] output [1:0] io_out_1_0_bits_flow_ingress_node_id, // @[Switch.scala:27:14] output [3:0] io_out_1_0_bits_flow_egress_node, // @[Switch.scala:27:14] output [1:0] io_out_1_0_bits_flow_egress_node_id, // @[Switch.scala:27:14] output io_out_1_0_bits_virt_channel_id, // @[Switch.scala:27:14] output io_out_0_0_valid, // @[Switch.scala:27:14] output io_out_0_0_bits_head, // @[Switch.scala:27:14] output io_out_0_0_bits_tail, // @[Switch.scala:27:14] output [36:0] io_out_0_0_bits_payload, // @[Switch.scala:27:14] output io_out_0_0_bits_flow_vnet_id, // @[Switch.scala:27:14] output [3:0] io_out_0_0_bits_flow_ingress_node, // @[Switch.scala:27:14] output [1:0] io_out_0_0_bits_flow_ingress_node_id, // @[Switch.scala:27:14] output [3:0] io_out_0_0_bits_flow_egress_node, // @[Switch.scala:27:14] output [1:0] io_out_0_0_bits_flow_egress_node_id, // @[Switch.scala:27:14] output io_out_0_0_bits_virt_channel_id, // @[Switch.scala:27:14] input io_sel_2_0_3_0, // @[Switch.scala:27:14] input io_sel_2_0_2_0, // @[Switch.scala:27:14] input io_sel_2_0_1_0, // @[Switch.scala:27:14] input io_sel_2_0_0_0, // @[Switch.scala:27:14] input io_sel_1_0_3_0, // @[Switch.scala:27:14] input io_sel_1_0_2_0, // @[Switch.scala:27:14] input io_sel_1_0_1_0, // @[Switch.scala:27:14] input io_sel_1_0_0_0, // @[Switch.scala:27:14] input io_sel_0_0_3_0, // @[Switch.scala:27:14] input io_sel_0_0_2_0, // @[Switch.scala:27:14] input io_sel_0_0_1_0, // @[Switch.scala:27:14] input io_sel_0_0_0_0 // @[Switch.scala:27:14] );
Generate the Verilog code corresponding to the following Chisel files. File regfile.scala: //****************************************************************************** // Copyright (c) 2013 - 2018, The Regents of the University of California (Regents). // All Rights Reserved. See LICENSE and LICENSE.SiFive for license details. //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ // Register File (Abstract class and Synthesizable RegFile) //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ package boom.v4.exu import scala.collection.mutable.ArrayBuffer import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.Parameters import boom.v4.common._ import boom.v4.util._ abstract class RegisterFile[T <: Data]( dType: T, numRegisters: Int, numReadPorts: Int, numWritePorts: Int) (implicit p: Parameters) extends BoomModule { val io = IO(new BoomBundle { val arb_read_reqs = Vec(numReadPorts, Flipped(Decoupled(UInt(log2Ceil(numRegisters).W)))) val rrd_read_resps = Vec(numReadPorts, Output(dType)) val write_ports = Vec(numWritePorts, Flipped(Valid(new Bundle { val addr = Output(UInt(maxPregSz.W)) val data = Output(dType) }))) }) // ensure there is only 1 writer per register (unless to preg0) if (numWritePorts > 1) { for (i <- 0 until (numWritePorts - 1)) { for (j <- (i + 1) until numWritePorts) { assert(!io.write_ports(i).valid || !io.write_ports(j).valid || (io.write_ports(i).bits.addr =/= io.write_ports(j).bits.addr), "[regfile] too many writers a register") } } } } class BankedRF[T <: Data]( dType: T, numBanks: Int, numLogicalReadPortsPerBank: Int, numRegisters: Int, numLogicalReadPorts: Int, numPhysicalReadPorts: Int, numWritePorts: Int, bankedWritePortArray: Seq[Option[Int]], typeStr: String )(implicit p: Parameters) extends RegisterFile(dType, numRegisters, numLogicalReadPorts, numWritePorts) { require(isPow2(numBanks)) require(numRegisters % numBanks == 0) require(bankedWritePortArray.length == numWritePorts) val numDedicatedWritePorts = bankedWritePortArray.flatten.length val writePortsPerBank = if (numDedicatedWritePorts == 0) { numWritePorts } else { numWritePorts - numDedicatedWritePorts + 1 } def bankIdx(i: UInt): UInt = i(log2Ceil(numBanks)-1,0) val rfs = (0 until numBanks) map { w => Module(new PartiallyPortedRF( dType, numRegisters / numBanks, numLogicalReadPortsPerBank, numPhysicalReadPorts, writePortsPerBank, typeStr + s" Bank ${w}" )) } if (numBanks == 1) { require(numLogicalReadPortsPerBank == numLogicalReadPorts) io <> rfs(0).io } else { val widxs = Array.fill(numBanks)(0) for (i <- 0 until numWritePorts) { if (bankedWritePortArray(i) != None) { val bank = bankedWritePortArray(i).get val widx = widxs(bank) rfs(bank).io.write_ports(widx).valid := io.write_ports(i).valid rfs(bank).io.write_ports(widx).bits.addr := io.write_ports(i).bits.addr >> log2Ceil(numBanks) rfs(bank).io.write_ports(widx).bits.data := io.write_ports(i).bits.data assert(!io.write_ports(i).valid || bankIdx(io.write_ports(i).bits.addr) === bank.U) widxs(bank) = widx + 1 } else { for (w <- 0 until numBanks) { val widx = widxs(w) rfs(w).io.write_ports(widx).valid := io.write_ports(i).valid && bankIdx(io.write_ports(i).bits.addr) === w.U rfs(w).io.write_ports(widx).bits.addr := io.write_ports(i).bits.addr >> log2Ceil(numBanks) rfs(w).io.write_ports(widx).bits.data := io.write_ports(i).bits.data widxs(w) = widx + 1 } } } require(widxs.forall(_ == writePortsPerBank), widxs.mkString(",")) if (numLogicalReadPortsPerBank == numLogicalReadPorts) { for (i <- 0 until numLogicalReadPorts) { val bidx = bankIdx(io.arb_read_reqs(i).bits) for (w <- 0 until numBanks) { rfs(w).io.arb_read_reqs(i).valid := io.arb_read_reqs(i).valid && bankIdx(io.arb_read_reqs(i).bits) === w.U rfs(w).io.arb_read_reqs(i).bits := io.arb_read_reqs(i).bits >> log2Ceil(numBanks) } val arb_data_sel = UIntToOH(bidx) val rrd_data_sel = RegNext(arb_data_sel) io.arb_read_reqs(i).ready := Mux1H(arb_data_sel, rfs.map(_.io.arb_read_reqs(i).ready)) io.rrd_read_resps(i) := Mux1H(rrd_data_sel, rfs.map(_.io.rrd_read_resps(i))) } } } override def toString: String = rfs.map(_.toString).mkString } class PartiallyPortedRF[T <: Data]( dType: T, numRegisters: Int, numLogicalReadPorts: Int, numPhysicalReadPorts: Int, numWritePorts: Int, typeStr: String )(implicit p: Parameters) extends RegisterFile(dType, numRegisters, numLogicalReadPorts, numWritePorts) { val rf = Module(new FullyPortedRF( dType = dType, numRegisters = numRegisters, numReadPorts = numPhysicalReadPorts, numWritePorts = numWritePorts, typeStr = "Partially Ported " + typeStr, )) rf.io.write_ports := io.write_ports val port_issued = Array.fill(numPhysicalReadPorts) { false.B } val port_addrs = Array.fill(numPhysicalReadPorts) { 0.U(log2Ceil(numRegisters).W) } val data_sels = Wire(Vec(numLogicalReadPorts , UInt(numPhysicalReadPorts.W))) data_sels := DontCare for (i <- 0 until numLogicalReadPorts) { var read_issued = false.B for (j <- 0 until numPhysicalReadPorts) { val issue_read = WireInit(false.B) val use_port = WireInit(false.B) when (!read_issued && !port_issued(j) && io.arb_read_reqs(i).valid) { issue_read := true.B use_port := true.B data_sels(i) := UIntToOH(j.U) } val was_port_issued_yet = port_issued(j) port_issued(j) = use_port || port_issued(j) port_addrs(j) = port_addrs(j) | Mux(was_port_issued_yet || !use_port, 0.U, io.arb_read_reqs(i).bits) read_issued = issue_read || read_issued } io.arb_read_reqs(i).ready := PopCount(io.arb_read_reqs.take(i).map(_.valid)) < numPhysicalReadPorts.U assert(!(io.arb_read_reqs(i).fire && !read_issued)) } for (j <- 0 until numPhysicalReadPorts) { rf.io.arb_read_reqs(j).valid := port_issued(j) rf.io.arb_read_reqs(j).bits := port_addrs(j) assert(rf.io.arb_read_reqs(j).ready) } val rrd_data_sels = RegNext(data_sels) for (i <- 0 until numLogicalReadPorts) { io.rrd_read_resps(i) := Mux1H(rrd_data_sels(i).asBools, rf.io.rrd_read_resps) } override def toString: String = rf.toString } class FullyPortedRF[T <: Data]( dType: T, numRegisters: Int, numReadPorts: Int, numWritePorts: Int, typeStr: String, )(implicit p: Parameters) extends RegisterFile(dType, numRegisters, numReadPorts, numWritePorts) { val rf_cost = (numReadPorts + numWritePorts) * (numReadPorts + 2*numWritePorts) override def toString: String = BoomCoreStringPrefix( "==" + typeStr + " Regfile==", "Num RF Read Ports : " + numReadPorts, "Num RF Write Ports : " + numWritePorts, "RF Cost (R+W)*(R+2W) : " + rf_cost) io.arb_read_reqs.map(p => p.ready := true.B) val regfile = Mem(numRegisters, dType) (0 until numReadPorts) map {p => io.rrd_read_resps(p) := regfile(RegNext(io.arb_read_reqs(p).bits)) } io.write_ports map { p => when (p.valid) { regfile(p.bits.addr) := p.bits.data }} }
module BankedRF( // @[regfile.scala:54:7] input clock, // @[regfile.scala:54:7] input reset, // @[regfile.scala:54:7] input io_arb_read_reqs_0_valid, // @[regfile.scala:31:14] input [6:0] io_arb_read_reqs_0_bits, // @[regfile.scala:31:14] input io_arb_read_reqs_1_valid, // @[regfile.scala:31:14] input [6:0] io_arb_read_reqs_1_bits, // @[regfile.scala:31:14] output io_arb_read_reqs_2_ready, // @[regfile.scala:31:14] input io_arb_read_reqs_2_valid, // @[regfile.scala:31:14] input [6:0] io_arb_read_reqs_2_bits, // @[regfile.scala:31:14] output [64:0] io_rrd_read_resps_0, // @[regfile.scala:31:14] output [64:0] io_rrd_read_resps_1, // @[regfile.scala:31:14] output [64:0] io_rrd_read_resps_2, // @[regfile.scala:31:14] input io_write_ports_0_valid, // @[regfile.scala:31:14] input [6:0] io_write_ports_0_bits_addr, // @[regfile.scala:31:14] input [64:0] io_write_ports_0_bits_data, // @[regfile.scala:31:14] input io_write_ports_1_valid, // @[regfile.scala:31:14] input [6:0] io_write_ports_1_bits_addr, // @[regfile.scala:31:14] input [64:0] io_write_ports_1_bits_data // @[regfile.scala:31:14] ); wire io_arb_read_reqs_0_valid_0 = io_arb_read_reqs_0_valid; // @[regfile.scala:54:7] wire [6:0] io_arb_read_reqs_0_bits_0 = io_arb_read_reqs_0_bits; // @[regfile.scala:54:7] wire io_arb_read_reqs_1_valid_0 = io_arb_read_reqs_1_valid; // @[regfile.scala:54:7] wire [6:0] io_arb_read_reqs_1_bits_0 = io_arb_read_reqs_1_bits; // @[regfile.scala:54:7] wire io_arb_read_reqs_2_valid_0 = io_arb_read_reqs_2_valid; // @[regfile.scala:54:7] wire [6:0] io_arb_read_reqs_2_bits_0 = io_arb_read_reqs_2_bits; // @[regfile.scala:54:7] wire io_write_ports_0_valid_0 = io_write_ports_0_valid; // @[regfile.scala:54:7] wire [6:0] io_write_ports_0_bits_addr_0 = io_write_ports_0_bits_addr; // @[regfile.scala:54:7] wire [64:0] io_write_ports_0_bits_data_0 = io_write_ports_0_bits_data; // @[regfile.scala:54:7] wire io_write_ports_1_valid_0 = io_write_ports_1_valid; // @[regfile.scala:54:7] wire [6:0] io_write_ports_1_bits_addr_0 = io_write_ports_1_bits_addr; // @[regfile.scala:54:7] wire [64:0] io_write_ports_1_bits_data_0 = io_write_ports_1_bits_data; // @[regfile.scala:54:7] wire io_arb_read_reqs_0_ready = 1'h1; // @[regfile.scala:54:7] wire io_arb_read_reqs_1_ready = 1'h1; // @[regfile.scala:54:7] wire io_arb_read_reqs_2_ready_0; // @[regfile.scala:54:7] wire [64:0] io_rrd_read_resps_0_0; // @[regfile.scala:54:7] wire [64:0] io_rrd_read_resps_1_0; // @[regfile.scala:54:7] wire [64:0] io_rrd_read_resps_2_0; // @[regfile.scala:54:7]
Generate the Verilog code corresponding to the following Chisel files. File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag }
module OptimizationBarrier_EntryData_62( // @[package.scala:267:30] input clock, // @[package.scala:267:30] input reset, // @[package.scala:267:30] input [19:0] io_x_ppn, // @[package.scala:268:18] input io_x_u, // @[package.scala:268:18] input io_x_g, // @[package.scala:268:18] input io_x_ae, // @[package.scala:268:18] input io_x_sw, // @[package.scala:268:18] input io_x_sx, // @[package.scala:268:18] input io_x_sr, // @[package.scala:268:18] input io_x_pw, // @[package.scala:268:18] input io_x_px, // @[package.scala:268:18] input io_x_pr, // @[package.scala:268:18] input io_x_pal, // @[package.scala:268:18] input io_x_paa, // @[package.scala:268:18] input io_x_eff, // @[package.scala:268:18] input io_x_c, // @[package.scala:268:18] input io_x_fragmented_superpage, // @[package.scala:268:18] output [19:0] io_y_ppn, // @[package.scala:268:18] output io_y_u, // @[package.scala:268:18] output io_y_g, // @[package.scala:268:18] output io_y_ae, // @[package.scala:268:18] output io_y_sw, // @[package.scala:268:18] output io_y_sx, // @[package.scala:268:18] output io_y_sr, // @[package.scala:268:18] output io_y_pw, // @[package.scala:268:18] output io_y_px, // @[package.scala:268:18] output io_y_pr, // @[package.scala:268:18] output io_y_pal, // @[package.scala:268:18] output io_y_paa, // @[package.scala:268:18] output io_y_eff, // @[package.scala:268:18] output io_y_c, // @[package.scala:268:18] output io_y_fragmented_superpage // @[package.scala:268:18] ); wire [19:0] io_x_ppn_0 = io_x_ppn; // @[package.scala:267:30] wire io_x_u_0 = io_x_u; // @[package.scala:267:30] wire io_x_g_0 = io_x_g; // @[package.scala:267:30] wire io_x_ae_0 = io_x_ae; // @[package.scala:267:30] wire io_x_sw_0 = io_x_sw; // @[package.scala:267:30] wire io_x_sx_0 = io_x_sx; // @[package.scala:267:30] wire io_x_sr_0 = io_x_sr; // @[package.scala:267:30] wire io_x_pw_0 = io_x_pw; // @[package.scala:267:30] wire io_x_px_0 = io_x_px; // @[package.scala:267:30] wire io_x_pr_0 = io_x_pr; // @[package.scala:267:30] wire io_x_pal_0 = io_x_pal; // @[package.scala:267:30] wire io_x_paa_0 = io_x_paa; // @[package.scala:267:30] wire io_x_eff_0 = io_x_eff; // @[package.scala:267:30] wire io_x_c_0 = io_x_c; // @[package.scala:267:30] wire io_x_fragmented_superpage_0 = io_x_fragmented_superpage; // @[package.scala:267:30] wire [19:0] io_y_ppn_0 = io_x_ppn_0; // @[package.scala:267:30] wire io_y_u_0 = io_x_u_0; // @[package.scala:267:30] wire io_y_g_0 = io_x_g_0; // @[package.scala:267:30] wire io_y_ae_0 = io_x_ae_0; // @[package.scala:267:30] wire io_y_sw_0 = io_x_sw_0; // @[package.scala:267:30] wire io_y_sx_0 = io_x_sx_0; // @[package.scala:267:30] wire io_y_sr_0 = io_x_sr_0; // @[package.scala:267:30] wire io_y_pw_0 = io_x_pw_0; // @[package.scala:267:30] wire io_y_px_0 = io_x_px_0; // @[package.scala:267:30] wire io_y_pr_0 = io_x_pr_0; // @[package.scala:267:30] wire io_y_pal_0 = io_x_pal_0; // @[package.scala:267:30] wire io_y_paa_0 = io_x_paa_0; // @[package.scala:267:30] wire io_y_eff_0 = io_x_eff_0; // @[package.scala:267:30] wire io_y_c_0 = io_x_c_0; // @[package.scala:267:30] wire io_y_fragmented_superpage_0 = io_x_fragmented_superpage_0; // @[package.scala:267:30] assign io_y_ppn = io_y_ppn_0; // @[package.scala:267:30] assign io_y_u = io_y_u_0; // @[package.scala:267:30] assign io_y_g = io_y_g_0; // @[package.scala:267:30] assign io_y_ae = io_y_ae_0; // @[package.scala:267:30] assign io_y_sw = io_y_sw_0; // @[package.scala:267:30] assign io_y_sx = io_y_sx_0; // @[package.scala:267:30] assign io_y_sr = io_y_sr_0; // @[package.scala:267:30] assign io_y_pw = io_y_pw_0; // @[package.scala:267:30] assign io_y_px = io_y_px_0; // @[package.scala:267:30] assign io_y_pr = io_y_pr_0; // @[package.scala:267:30] assign io_y_pal = io_y_pal_0; // @[package.scala:267:30] assign io_y_paa = io_y_paa_0; // @[package.scala:267:30] assign io_y_eff = io_y_eff_0; // @[package.scala:267:30] assign io_y_c = io_y_c_0; // @[package.scala:267:30] assign io_y_fragmented_superpage = io_y_fragmented_superpage_0; // @[package.scala:267:30] endmodule
Generate the Verilog code corresponding to the following Chisel files. File RoundAnyRawFNToRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util.Fill import consts._ //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class RoundAnyRawFNToRecFN( inExpWidth: Int, inSigWidth: Int, outExpWidth: Int, outSigWidth: Int, options: Int ) extends RawModule { override def desiredName = s"RoundAnyRawFNToRecFN_ie${inExpWidth}_is${inSigWidth}_oe${outExpWidth}_os${outSigWidth}" val io = IO(new Bundle { val invalidExc = Input(Bool()) // overrides 'infiniteExc' and 'in' val infiniteExc = Input(Bool()) // overrides 'in' except for 'in.sign' val in = Input(new RawFloat(inExpWidth, inSigWidth)) // (allowed exponent range has limits) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((outExpWidth + outSigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sigMSBitAlwaysZero = ((options & flRoundOpt_sigMSBitAlwaysZero) != 0) val effectiveInSigWidth = if (sigMSBitAlwaysZero) inSigWidth else inSigWidth + 1 val neverUnderflows = ((options & (flRoundOpt_neverUnderflows | flRoundOpt_subnormsAlwaysExact) ) != 0) || (inExpWidth < outExpWidth) val neverOverflows = ((options & flRoundOpt_neverOverflows) != 0) || (inExpWidth < outExpWidth) val outNaNExp = BigInt(7)<<(outExpWidth - 2) val outInfExp = BigInt(6)<<(outExpWidth - 2) val outMaxFiniteExp = outInfExp - 1 val outMinNormExp = (BigInt(1)<<(outExpWidth - 1)) + 2 val outMinNonzeroExp = outMinNormExp - outSigWidth + 1 //------------------------------------------------------------------------ //------------------------------------------------------------------------ val roundingMode_near_even = (io.roundingMode === round_near_even) val roundingMode_minMag = (io.roundingMode === round_minMag) val roundingMode_min = (io.roundingMode === round_min) val roundingMode_max = (io.roundingMode === round_max) val roundingMode_near_maxMag = (io.roundingMode === round_near_maxMag) val roundingMode_odd = (io.roundingMode === round_odd) val roundMagUp = (roundingMode_min && io.in.sign) || (roundingMode_max && ! io.in.sign) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sAdjustedExp = if (inExpWidth < outExpWidth) (io.in.sExp +& ((BigInt(1)<<outExpWidth) - (BigInt(1)<<inExpWidth)).S )(outExpWidth, 0).zext else if (inExpWidth == outExpWidth) io.in.sExp else io.in.sExp +& ((BigInt(1)<<outExpWidth) - (BigInt(1)<<inExpWidth)).S val adjustedSig = if (inSigWidth <= outSigWidth + 2) io.in.sig<<(outSigWidth - inSigWidth + 2) else (io.in.sig(inSigWidth, inSigWidth - outSigWidth - 1) ## io.in.sig(inSigWidth - outSigWidth - 2, 0).orR ) val doShiftSigDown1 = if (sigMSBitAlwaysZero) false.B else adjustedSig(outSigWidth + 2) val common_expOut = Wire(UInt((outExpWidth + 1).W)) val common_fractOut = Wire(UInt((outSigWidth - 1).W)) val common_overflow = Wire(Bool()) val common_totalUnderflow = Wire(Bool()) val common_underflow = Wire(Bool()) val common_inexact = Wire(Bool()) if ( neverOverflows && neverUnderflows && (effectiveInSigWidth <= outSigWidth) ) { //-------------------------------------------------------------------- //-------------------------------------------------------------------- common_expOut := sAdjustedExp(outExpWidth, 0) + doShiftSigDown1 common_fractOut := Mux(doShiftSigDown1, adjustedSig(outSigWidth + 1, 3), adjustedSig(outSigWidth, 2) ) common_overflow := false.B common_totalUnderflow := false.B common_underflow := false.B common_inexact := false.B } else { //-------------------------------------------------------------------- //-------------------------------------------------------------------- val roundMask = if (neverUnderflows) 0.U(outSigWidth.W) ## doShiftSigDown1 ## 3.U(2.W) else (lowMask( sAdjustedExp(outExpWidth, 0), outMinNormExp - outSigWidth - 1, outMinNormExp ) | doShiftSigDown1) ## 3.U(2.W) val shiftedRoundMask = 0.U(1.W) ## roundMask>>1 val roundPosMask = ~shiftedRoundMask & roundMask val roundPosBit = (adjustedSig & roundPosMask).orR val anyRoundExtra = (adjustedSig & shiftedRoundMask).orR val anyRound = roundPosBit || anyRoundExtra val roundIncr = ((roundingMode_near_even || roundingMode_near_maxMag) && roundPosBit) || (roundMagUp && anyRound) val roundedSig: Bits = Mux(roundIncr, (((adjustedSig | roundMask)>>2) +& 1.U) & ~Mux(roundingMode_near_even && roundPosBit && ! anyRoundExtra, roundMask>>1, 0.U((outSigWidth + 2).W) ), (adjustedSig & ~roundMask)>>2 | Mux(roundingMode_odd && anyRound, roundPosMask>>1, 0.U) ) //*** IF SIG WIDTH IS VERY NARROW, NEED TO ACCOUNT FOR ROUND-EVEN ZEROING //*** M.S. BIT OF SUBNORMAL SIG? val sRoundedExp = sAdjustedExp +& (roundedSig>>outSigWidth).asUInt.zext common_expOut := sRoundedExp(outExpWidth, 0) common_fractOut := Mux(doShiftSigDown1, roundedSig(outSigWidth - 1, 1), roundedSig(outSigWidth - 2, 0) ) common_overflow := (if (neverOverflows) false.B else //*** REWRITE BASED ON BEFORE-ROUNDING EXPONENT?: (sRoundedExp>>(outExpWidth - 1) >= 3.S)) common_totalUnderflow := (if (neverUnderflows) false.B else //*** WOULD BE GOOD ENOUGH TO USE EXPONENT BEFORE ROUNDING?: (sRoundedExp < outMinNonzeroExp.S)) val unboundedRange_roundPosBit = Mux(doShiftSigDown1, adjustedSig(2), adjustedSig(1)) val unboundedRange_anyRound = (doShiftSigDown1 && adjustedSig(2)) || adjustedSig(1, 0).orR val unboundedRange_roundIncr = ((roundingMode_near_even || roundingMode_near_maxMag) && unboundedRange_roundPosBit) || (roundMagUp && unboundedRange_anyRound) val roundCarry = Mux(doShiftSigDown1, roundedSig(outSigWidth + 1), roundedSig(outSigWidth) ) common_underflow := (if (neverUnderflows) false.B else common_totalUnderflow || //*** IF SIG WIDTH IS VERY NARROW, NEED TO ACCOUNT FOR ROUND-EVEN ZEROING //*** M.S. BIT OF SUBNORMAL SIG? (anyRound && ((sAdjustedExp>>outExpWidth) <= 0.S) && Mux(doShiftSigDown1, roundMask(3), roundMask(2)) && ! ((io.detectTininess === tininess_afterRounding) && ! Mux(doShiftSigDown1, roundMask(4), roundMask(3) ) && roundCarry && roundPosBit && unboundedRange_roundIncr))) common_inexact := common_totalUnderflow || anyRound } //------------------------------------------------------------------------ //------------------------------------------------------------------------ val isNaNOut = io.invalidExc || io.in.isNaN val notNaN_isSpecialInfOut = io.infiniteExc || io.in.isInf val commonCase = ! isNaNOut && ! notNaN_isSpecialInfOut && ! io.in.isZero val overflow = commonCase && common_overflow val underflow = commonCase && common_underflow val inexact = overflow || (commonCase && common_inexact) val overflow_roundMagUp = roundingMode_near_even || roundingMode_near_maxMag || roundMagUp val pegMinNonzeroMagOut = commonCase && common_totalUnderflow && (roundMagUp || roundingMode_odd) val pegMaxFiniteMagOut = overflow && ! overflow_roundMagUp val notNaN_isInfOut = notNaN_isSpecialInfOut || (overflow && overflow_roundMagUp) val signOut = Mux(isNaNOut, false.B, io.in.sign) val expOut = (common_expOut & ~Mux(io.in.isZero || common_totalUnderflow, (BigInt(7)<<(outExpWidth - 2)).U((outExpWidth + 1).W), 0.U ) & ~Mux(pegMinNonzeroMagOut, ~outMinNonzeroExp.U((outExpWidth + 1).W), 0.U ) & ~Mux(pegMaxFiniteMagOut, (BigInt(1)<<(outExpWidth - 1)).U((outExpWidth + 1).W), 0.U ) & ~Mux(notNaN_isInfOut, (BigInt(1)<<(outExpWidth - 2)).U((outExpWidth + 1).W), 0.U )) | Mux(pegMinNonzeroMagOut, outMinNonzeroExp.U((outExpWidth + 1).W), 0.U ) | Mux(pegMaxFiniteMagOut, outMaxFiniteExp.U((outExpWidth + 1).W), 0.U ) | Mux(notNaN_isInfOut, outInfExp.U((outExpWidth + 1).W), 0.U) | Mux(isNaNOut, outNaNExp.U((outExpWidth + 1).W), 0.U) val fractOut = Mux(isNaNOut || io.in.isZero || common_totalUnderflow, Mux(isNaNOut, (BigInt(1)<<(outSigWidth - 2)).U, 0.U), common_fractOut ) | Fill(outSigWidth - 1, pegMaxFiniteMagOut) io.out := signOut ## expOut ## fractOut io.exceptionFlags := io.invalidExc ## io.infiniteExc ## overflow ## underflow ## inexact } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class RoundRawFNToRecFN(expWidth: Int, sigWidth: Int, options: Int) extends RawModule { override def desiredName = s"RoundRawFNToRecFN_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val invalidExc = Input(Bool()) // overrides 'infiniteExc' and 'in' val infiniteExc = Input(Bool()) // overrides 'in' except for 'in.sign' val in = Input(new RawFloat(expWidth, sigWidth + 2)) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((expWidth + sigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) val roundAnyRawFNToRecFN = Module( new RoundAnyRawFNToRecFN( expWidth, sigWidth + 2, expWidth, sigWidth, options)) roundAnyRawFNToRecFN.io.invalidExc := io.invalidExc roundAnyRawFNToRecFN.io.infiniteExc := io.infiniteExc roundAnyRawFNToRecFN.io.in := io.in roundAnyRawFNToRecFN.io.roundingMode := io.roundingMode roundAnyRawFNToRecFN.io.detectTininess := io.detectTininess io.out := roundAnyRawFNToRecFN.io.out io.exceptionFlags := roundAnyRawFNToRecFN.io.exceptionFlags }
module RoundRawFNToRecFN_e8_s24_75( // @[RoundAnyRawFNToRecFN.scala:295:5] input io_invalidExc, // @[RoundAnyRawFNToRecFN.scala:299:16] input io_in_isNaN, // @[RoundAnyRawFNToRecFN.scala:299:16] input io_in_isInf, // @[RoundAnyRawFNToRecFN.scala:299:16] input io_in_isZero, // @[RoundAnyRawFNToRecFN.scala:299:16] input io_in_sign, // @[RoundAnyRawFNToRecFN.scala:299:16] input [9:0] io_in_sExp, // @[RoundAnyRawFNToRecFN.scala:299:16] input [26:0] io_in_sig, // @[RoundAnyRawFNToRecFN.scala:299:16] output [32:0] io_out, // @[RoundAnyRawFNToRecFN.scala:299:16] output [4:0] io_exceptionFlags // @[RoundAnyRawFNToRecFN.scala:299:16] ); wire io_invalidExc_0 = io_invalidExc; // @[RoundAnyRawFNToRecFN.scala:295:5] wire io_in_isNaN_0 = io_in_isNaN; // @[RoundAnyRawFNToRecFN.scala:295:5] wire io_in_isInf_0 = io_in_isInf; // @[RoundAnyRawFNToRecFN.scala:295:5] wire io_in_isZero_0 = io_in_isZero; // @[RoundAnyRawFNToRecFN.scala:295:5] wire io_in_sign_0 = io_in_sign; // @[RoundAnyRawFNToRecFN.scala:295:5] wire [9:0] io_in_sExp_0 = io_in_sExp; // @[RoundAnyRawFNToRecFN.scala:295:5] wire [26:0] io_in_sig_0 = io_in_sig; // @[RoundAnyRawFNToRecFN.scala:295:5] wire io_detectTininess = 1'h1; // @[RoundAnyRawFNToRecFN.scala:295:5, :299:16, :310:15] wire [2:0] io_roundingMode = 3'h0; // @[RoundAnyRawFNToRecFN.scala:295:5, :299:16, :310:15] wire io_infiniteExc = 1'h0; // @[RoundAnyRawFNToRecFN.scala:295:5, :299:16, :310:15] wire [32:0] io_out_0; // @[RoundAnyRawFNToRecFN.scala:295:5] wire [4:0] io_exceptionFlags_0; // @[RoundAnyRawFNToRecFN.scala:295:5] RoundAnyRawFNToRecFN_ie8_is26_oe8_os24_75 roundAnyRawFNToRecFN ( // @[RoundAnyRawFNToRecFN.scala:310:15] .io_invalidExc (io_invalidExc_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_in_isNaN (io_in_isNaN_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_in_isInf (io_in_isInf_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_in_isZero (io_in_isZero_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_in_sign (io_in_sign_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_in_sExp (io_in_sExp_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_in_sig (io_in_sig_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_out (io_out_0), .io_exceptionFlags (io_exceptionFlags_0) ); // @[RoundAnyRawFNToRecFN.scala:310:15] assign io_out = io_out_0; // @[RoundAnyRawFNToRecFN.scala:295:5] assign io_exceptionFlags = io_exceptionFlags_0; // @[RoundAnyRawFNToRecFN.scala:295:5] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceLine import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import freechips.rocketchip.diplomacy.EnableMonitors import freechips.rocketchip.formal.{MonitorDirection, IfThen, Property, PropertyClass, TestplanTestType, TLMonitorStrictMode} import freechips.rocketchip.util.PlusArg case class TLMonitorArgs(edge: TLEdge) abstract class TLMonitorBase(args: TLMonitorArgs) extends Module { val io = IO(new Bundle { val in = Input(new TLBundle(args.edge.bundle)) }) def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit legalize(io.in, args.edge, reset) } object TLMonitor { def apply(enable: Boolean, node: TLNode)(implicit p: Parameters): TLNode = { if (enable) { EnableMonitors { implicit p => node := TLEphemeralNode()(ValName("monitor")) } } else { node } } } class TLMonitor(args: TLMonitorArgs, monitorDir: MonitorDirection = MonitorDirection.Monitor) extends TLMonitorBase(args) { require (args.edge.params(TLMonitorStrictMode) || (! args.edge.params(TestplanTestType).formal)) val cover_prop_class = PropertyClass.Default //Like assert but can flip to being an assumption for formal verification def monAssert(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir, cond, message, PropertyClass.Default) } def assume(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir.flip, cond, message, PropertyClass.Default) } def extra = { args.edge.sourceInfo match { case SourceLine(filename, line, col) => s" (connected at $filename:$line:$col)" case _ => "" } } def visible(address: UInt, source: UInt, edge: TLEdge) = edge.client.clients.map { c => !c.sourceId.contains(source) || c.visibility.map(_.contains(address)).reduce(_ || _) }.reduce(_ && _) def legalizeFormatA(bundle: TLBundleA, edge: TLEdge): Unit = { //switch this flag to turn on diplomacy in error messages def diplomacyInfo = if (true) "" else "\nThe diplomacy information for the edge is as follows:\n" + edge.formatEdge + "\n" monAssert (TLMessages.isA(bundle.opcode), "'A' channel has invalid opcode" + extra) // Reuse these subexpressions to save some firrtl lines val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) monAssert (visible(edge.address(bundle), bundle.source, edge), "'A' channel carries an address illegal for the specified bank visibility") //The monitor doesn’t check for acquire T vs acquire B, it assumes that acquire B implies acquire T and only checks for acquire B //TODO: check for acquireT? when (bundle.opcode === TLMessages.AcquireBlock) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquireBlock carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquireBlock smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquireBlock address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquireBlock carries invalid grow param" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquireBlock contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquireBlock is corrupt" + extra) } when (bundle.opcode === TLMessages.AcquirePerm) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquirePerm carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquirePerm smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquirePerm address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquirePerm carries invalid grow param" + extra) monAssert (bundle.param =/= TLPermissions.NtoB, "'A' channel AcquirePerm requests NtoB" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquirePerm contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquirePerm is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.emitsGet(bundle.source, bundle.size), "'A' channel carries Get type which master claims it can't emit" + diplomacyInfo + extra) monAssert (edge.slave.supportsGetSafe(edge.address(bundle), bundle.size, None), "'A' channel carries Get type which slave claims it can't support" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel Get carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.emitsPutFull(bundle.source, bundle.size) && edge.slave.supportsPutFullSafe(edge.address(bundle), bundle.size), "'A' channel carries PutFull type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel PutFull carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.emitsPutPartial(bundle.source, bundle.size) && edge.slave.supportsPutPartialSafe(edge.address(bundle), bundle.size), "'A' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel PutPartial carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'A' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.emitsArithmetic(bundle.source, bundle.size) && edge.slave.supportsArithmeticSafe(edge.address(bundle), bundle.size), "'A' channel carries Arithmetic type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Arithmetic carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'A' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.emitsLogical(bundle.source, bundle.size) && edge.slave.supportsLogicalSafe(edge.address(bundle), bundle.size), "'A' channel carries Logical type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Logical carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'A' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.emitsHint(bundle.source, bundle.size) && edge.slave.supportsHintSafe(edge.address(bundle), bundle.size), "'A' channel carries Hint type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Hint carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Hint address not aligned to size" + extra) monAssert (TLHints.isHints(bundle.param), "'A' channel Hint carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Hint is corrupt" + extra) } } def legalizeFormatB(bundle: TLBundleB, edge: TLEdge): Unit = { monAssert (TLMessages.isB(bundle.opcode), "'B' channel has invalid opcode" + extra) monAssert (visible(edge.address(bundle), bundle.source, edge), "'B' channel carries an address illegal for the specified bank visibility") // Reuse these subexpressions to save some firrtl lines val address_ok = edge.manager.containsSafe(edge.address(bundle)) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) val legal_source = Mux1H(edge.client.find(bundle.source), edge.client.clients.map(c => c.sourceId.start.U)) === bundle.source when (bundle.opcode === TLMessages.Probe) { assume (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'B' channel carries Probe type which is unexpected using diplomatic parameters" + extra) assume (address_ok, "'B' channel Probe carries unmanaged address" + extra) assume (legal_source, "'B' channel Probe carries source that is not first source" + extra) assume (is_aligned, "'B' channel Probe address not aligned to size" + extra) assume (TLPermissions.isCap(bundle.param), "'B' channel Probe carries invalid cap param" + extra) assume (bundle.mask === mask, "'B' channel Probe contains invalid mask" + extra) assume (!bundle.corrupt, "'B' channel Probe is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.supportsGet(edge.source(bundle), bundle.size) && edge.slave.emitsGetSafe(edge.address(bundle), bundle.size), "'B' channel carries Get type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel Get carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Get carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.supportsPutFull(edge.source(bundle), bundle.size) && edge.slave.emitsPutFullSafe(edge.address(bundle), bundle.size), "'B' channel carries PutFull type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutFull carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutFull carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.supportsPutPartial(edge.source(bundle), bundle.size) && edge.slave.emitsPutPartialSafe(edge.address(bundle), bundle.size), "'B' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutPartial carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutPartial carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'B' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.supportsArithmetic(edge.source(bundle), bundle.size) && edge.slave.emitsArithmeticSafe(edge.address(bundle), bundle.size), "'B' channel carries Arithmetic type unsupported by master" + extra) monAssert (address_ok, "'B' channel Arithmetic carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Arithmetic carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'B' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.supportsLogical(edge.source(bundle), bundle.size) && edge.slave.emitsLogicalSafe(edge.address(bundle), bundle.size), "'B' channel carries Logical type unsupported by client" + extra) monAssert (address_ok, "'B' channel Logical carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Logical carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'B' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.supportsHint(edge.source(bundle), bundle.size) && edge.slave.emitsHintSafe(edge.address(bundle), bundle.size), "'B' channel carries Hint type unsupported by client" + extra) monAssert (address_ok, "'B' channel Hint carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Hint carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Hint address not aligned to size" + extra) monAssert (bundle.mask === mask, "'B' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Hint is corrupt" + extra) } } def legalizeFormatC(bundle: TLBundleC, edge: TLEdge): Unit = { monAssert (TLMessages.isC(bundle.opcode), "'C' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val address_ok = edge.manager.containsSafe(edge.address(bundle)) monAssert (visible(edge.address(bundle), bundle.source, edge), "'C' channel carries an address illegal for the specified bank visibility") when (bundle.opcode === TLMessages.ProbeAck) { monAssert (address_ok, "'C' channel ProbeAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAck carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAck smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAck address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAck carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel ProbeAck is corrupt" + extra) } when (bundle.opcode === TLMessages.ProbeAckData) { monAssert (address_ok, "'C' channel ProbeAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAckData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAckData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAckData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAckData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.Release) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries Release type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel Release carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel Release smaller than a beat" + extra) monAssert (is_aligned, "'C' channel Release address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel Release carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel Release is corrupt" + extra) } when (bundle.opcode === TLMessages.ReleaseData) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries ReleaseData type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel ReleaseData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ReleaseData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ReleaseData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ReleaseData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.AccessAck) { monAssert (address_ok, "'C' channel AccessAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel AccessAck is corrupt" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { monAssert (address_ok, "'C' channel AccessAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAckData carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAckData address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAckData carries invalid param" + extra) } when (bundle.opcode === TLMessages.HintAck) { monAssert (address_ok, "'C' channel HintAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel HintAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel HintAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel HintAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel HintAck is corrupt" + extra) } } def legalizeFormatD(bundle: TLBundleD, edge: TLEdge): Unit = { assume (TLMessages.isD(bundle.opcode), "'D' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val sink_ok = bundle.sink < edge.manager.endSinkId.U val deny_put_ok = edge.manager.mayDenyPut.B val deny_get_ok = edge.manager.mayDenyGet.B when (bundle.opcode === TLMessages.ReleaseAck) { assume (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel ReleaseAck smaller than a beat" + extra) assume (bundle.param === 0.U, "'D' channel ReleaseeAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel ReleaseAck is corrupt" + extra) assume (!bundle.denied, "'D' channel ReleaseAck is denied" + extra) } when (bundle.opcode === TLMessages.Grant) { assume (source_ok, "'D' channel Grant carries invalid source ID" + extra) assume (sink_ok, "'D' channel Grant carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel Grant smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel Grant carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel Grant carries toN param" + extra) assume (!bundle.corrupt, "'D' channel Grant is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel Grant is denied" + extra) } when (bundle.opcode === TLMessages.GrantData) { assume (source_ok, "'D' channel GrantData carries invalid source ID" + extra) assume (sink_ok, "'D' channel GrantData carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel GrantData smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel GrantData carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel GrantData carries toN param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel GrantData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel GrantData is denied" + extra) } when (bundle.opcode === TLMessages.AccessAck) { assume (source_ok, "'D' channel AccessAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel AccessAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel AccessAck is denied" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { assume (source_ok, "'D' channel AccessAckData carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAckData carries invalid param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel AccessAckData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel AccessAckData is denied" + extra) } when (bundle.opcode === TLMessages.HintAck) { assume (source_ok, "'D' channel HintAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel HintAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel HintAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel HintAck is denied" + extra) } } def legalizeFormatE(bundle: TLBundleE, edge: TLEdge): Unit = { val sink_ok = bundle.sink < edge.manager.endSinkId.U monAssert (sink_ok, "'E' channels carries invalid sink ID" + extra) } def legalizeFormat(bundle: TLBundle, edge: TLEdge) = { when (bundle.a.valid) { legalizeFormatA(bundle.a.bits, edge) } when (bundle.d.valid) { legalizeFormatD(bundle.d.bits, edge) } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { when (bundle.b.valid) { legalizeFormatB(bundle.b.bits, edge) } when (bundle.c.valid) { legalizeFormatC(bundle.c.bits, edge) } when (bundle.e.valid) { legalizeFormatE(bundle.e.bits, edge) } } else { monAssert (!bundle.b.valid, "'B' channel valid and not TL-C" + extra) monAssert (!bundle.c.valid, "'C' channel valid and not TL-C" + extra) monAssert (!bundle.e.valid, "'E' channel valid and not TL-C" + extra) } } def legalizeMultibeatA(a: DecoupledIO[TLBundleA], edge: TLEdge): Unit = { val a_first = edge.first(a.bits, a.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (a.valid && !a_first) { monAssert (a.bits.opcode === opcode, "'A' channel opcode changed within multibeat operation" + extra) monAssert (a.bits.param === param, "'A' channel param changed within multibeat operation" + extra) monAssert (a.bits.size === size, "'A' channel size changed within multibeat operation" + extra) monAssert (a.bits.source === source, "'A' channel source changed within multibeat operation" + extra) monAssert (a.bits.address=== address,"'A' channel address changed with multibeat operation" + extra) } when (a.fire && a_first) { opcode := a.bits.opcode param := a.bits.param size := a.bits.size source := a.bits.source address := a.bits.address } } def legalizeMultibeatB(b: DecoupledIO[TLBundleB], edge: TLEdge): Unit = { val b_first = edge.first(b.bits, b.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (b.valid && !b_first) { monAssert (b.bits.opcode === opcode, "'B' channel opcode changed within multibeat operation" + extra) monAssert (b.bits.param === param, "'B' channel param changed within multibeat operation" + extra) monAssert (b.bits.size === size, "'B' channel size changed within multibeat operation" + extra) monAssert (b.bits.source === source, "'B' channel source changed within multibeat operation" + extra) monAssert (b.bits.address=== address,"'B' channel addresss changed with multibeat operation" + extra) } when (b.fire && b_first) { opcode := b.bits.opcode param := b.bits.param size := b.bits.size source := b.bits.source address := b.bits.address } } def legalizeADSourceFormal(bundle: TLBundle, edge: TLEdge): Unit = { // Symbolic variable val sym_source = Wire(UInt(edge.client.endSourceId.W)) // TODO: Connect sym_source to a fixed value for simulation and to a // free wire in formal sym_source := 0.U // Type casting Int to UInt val maxSourceId = Wire(UInt(edge.client.endSourceId.W)) maxSourceId := edge.client.endSourceId.U // Delayed verison of sym_source val sym_source_d = Reg(UInt(edge.client.endSourceId.W)) sym_source_d := sym_source // These will be constraints for FV setup Property( MonitorDirection.Monitor, (sym_source === sym_source_d), "sym_source should remain stable", PropertyClass.Default) Property( MonitorDirection.Monitor, (sym_source <= maxSourceId), "sym_source should take legal value", PropertyClass.Default) val my_resp_pend = RegInit(false.B) val my_opcode = Reg(UInt()) val my_size = Reg(UInt()) val a_first = bundle.a.valid && edge.first(bundle.a.bits, bundle.a.fire) val d_first = bundle.d.valid && edge.first(bundle.d.bits, bundle.d.fire) val my_a_first_beat = a_first && (bundle.a.bits.source === sym_source) val my_d_first_beat = d_first && (bundle.d.bits.source === sym_source) val my_clr_resp_pend = (bundle.d.fire && my_d_first_beat) val my_set_resp_pend = (bundle.a.fire && my_a_first_beat && !my_clr_resp_pend) when (my_set_resp_pend) { my_resp_pend := true.B } .elsewhen (my_clr_resp_pend) { my_resp_pend := false.B } when (my_a_first_beat) { my_opcode := bundle.a.bits.opcode my_size := bundle.a.bits.size } val my_resp_size = Mux(my_a_first_beat, bundle.a.bits.size, my_size) val my_resp_opcode = Mux(my_a_first_beat, bundle.a.bits.opcode, my_opcode) val my_resp_opcode_legal = Wire(Bool()) when ((my_resp_opcode === TLMessages.Get) || (my_resp_opcode === TLMessages.ArithmeticData) || (my_resp_opcode === TLMessages.LogicalData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAckData) } .elsewhen ((my_resp_opcode === TLMessages.PutFullData) || (my_resp_opcode === TLMessages.PutPartialData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAck) } .otherwise { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.HintAck) } monAssert (IfThen(my_resp_pend, !my_a_first_beat), "Request message should not be sent with a source ID, for which a response message" + "is already pending (not received until current cycle) for a prior request message" + "with the same source ID" + extra) assume (IfThen(my_clr_resp_pend, (my_set_resp_pend || my_resp_pend)), "Response message should be accepted with a source ID only if a request message with the" + "same source ID has been accepted or is being accepted in the current cycle" + extra) assume (IfThen(my_d_first_beat, (my_a_first_beat || my_resp_pend)), "Response message should be sent with a source ID only if a request message with the" + "same source ID has been accepted or is being sent in the current cycle" + extra) assume (IfThen(my_d_first_beat, (bundle.d.bits.size === my_resp_size)), "If d_valid is 1, then d_size should be same as a_size of the corresponding request" + "message" + extra) assume (IfThen(my_d_first_beat, my_resp_opcode_legal), "If d_valid is 1, then d_opcode should correspond with a_opcode of the corresponding" + "request message" + extra) } def legalizeMultibeatC(c: DecoupledIO[TLBundleC], edge: TLEdge): Unit = { val c_first = edge.first(c.bits, c.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (c.valid && !c_first) { monAssert (c.bits.opcode === opcode, "'C' channel opcode changed within multibeat operation" + extra) monAssert (c.bits.param === param, "'C' channel param changed within multibeat operation" + extra) monAssert (c.bits.size === size, "'C' channel size changed within multibeat operation" + extra) monAssert (c.bits.source === source, "'C' channel source changed within multibeat operation" + extra) monAssert (c.bits.address=== address,"'C' channel address changed with multibeat operation" + extra) } when (c.fire && c_first) { opcode := c.bits.opcode param := c.bits.param size := c.bits.size source := c.bits.source address := c.bits.address } } def legalizeMultibeatD(d: DecoupledIO[TLBundleD], edge: TLEdge): Unit = { val d_first = edge.first(d.bits, d.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val sink = Reg(UInt()) val denied = Reg(Bool()) when (d.valid && !d_first) { assume (d.bits.opcode === opcode, "'D' channel opcode changed within multibeat operation" + extra) assume (d.bits.param === param, "'D' channel param changed within multibeat operation" + extra) assume (d.bits.size === size, "'D' channel size changed within multibeat operation" + extra) assume (d.bits.source === source, "'D' channel source changed within multibeat operation" + extra) assume (d.bits.sink === sink, "'D' channel sink changed with multibeat operation" + extra) assume (d.bits.denied === denied, "'D' channel denied changed with multibeat operation" + extra) } when (d.fire && d_first) { opcode := d.bits.opcode param := d.bits.param size := d.bits.size source := d.bits.source sink := d.bits.sink denied := d.bits.denied } } def legalizeMultibeat(bundle: TLBundle, edge: TLEdge): Unit = { legalizeMultibeatA(bundle.a, edge) legalizeMultibeatD(bundle.d, edge) if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { legalizeMultibeatB(bundle.b, edge) legalizeMultibeatC(bundle.c, edge) } } //This is left in for almond which doesn't adhere to the tilelink protocol @deprecated("Use legalizeADSource instead if possible","") def legalizeADSourceOld(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.client.endSourceId.W)) val a_first = edge.first(bundle.a.bits, bundle.a.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val a_set = WireInit(0.U(edge.client.endSourceId.W)) when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) assert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) assume((a_set | inflight)(bundle.d.bits.source), "'D' channel acknowledged for nothing inflight" + extra) } if (edge.manager.minLatency > 0) { assume(a_set =/= d_clr || !a_set.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") assert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeADSource(bundle: TLBundle, edge: TLEdge): Unit = { val a_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val a_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_a_opcode_bus_size = log2Ceil(a_opcode_bus_size) val log_a_size_bus_size = log2Ceil(a_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) // size up to avoid width error inflight.suggestName("inflight") val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) inflight_opcodes.suggestName("inflight_opcodes") val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) inflight_sizes.suggestName("inflight_sizes") val a_first = edge.first(bundle.a.bits, bundle.a.fire) a_first.suggestName("a_first") val d_first = edge.first(bundle.d.bits, bundle.d.fire) d_first.suggestName("d_first") val a_set = WireInit(0.U(edge.client.endSourceId.W)) val a_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) a_set.suggestName("a_set") a_set_wo_ready.suggestName("a_set_wo_ready") val a_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) a_opcodes_set.suggestName("a_opcodes_set") val a_sizes_set = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) a_sizes_set.suggestName("a_sizes_set") val a_opcode_lookup = WireInit(0.U((a_opcode_bus_size - 1).W)) a_opcode_lookup.suggestName("a_opcode_lookup") a_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_a_opcode_bus_size.U) & size_to_numfullbits(1.U << log_a_opcode_bus_size.U)) >> 1.U val a_size_lookup = WireInit(0.U((1 << log_a_size_bus_size).W)) a_size_lookup.suggestName("a_size_lookup") a_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_a_size_bus_size.U) & size_to_numfullbits(1.U << log_a_size_bus_size.U)) >> 1.U val responseMap = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.Grant, TLMessages.Grant)) val responseMapSecondOption = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.GrantData, TLMessages.Grant)) val a_opcodes_set_interm = WireInit(0.U(a_opcode_bus_size.W)) a_opcodes_set_interm.suggestName("a_opcodes_set_interm") val a_sizes_set_interm = WireInit(0.U(a_size_bus_size.W)) a_sizes_set_interm.suggestName("a_sizes_set_interm") when (bundle.a.valid && a_first && edge.isRequest(bundle.a.bits)) { a_set_wo_ready := UIntToOH(bundle.a.bits.source) } when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) a_opcodes_set_interm := (bundle.a.bits.opcode << 1.U) | 1.U a_sizes_set_interm := (bundle.a.bits.size << 1.U) | 1.U a_opcodes_set := (a_opcodes_set_interm) << (bundle.a.bits.source << log_a_opcode_bus_size.U) a_sizes_set := (a_sizes_set_interm) << (bundle.a.bits.source << log_a_size_bus_size.U) monAssert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) d_opcodes_clr.suggestName("d_opcodes_clr") val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_a_opcode_bus_size.U) << (bundle.d.bits.source << log_a_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_a_size_bus_size.U) << (bundle.d.bits.source << log_a_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { val same_cycle_resp = bundle.a.valid && a_first && edge.isRequest(bundle.a.bits) && (bundle.a.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.opcode === responseMap(bundle.a.bits.opcode)) || (bundle.d.bits.opcode === responseMapSecondOption(bundle.a.bits.opcode)), "'D' channel contains improper opcode response" + extra) assume((bundle.a.bits.size === bundle.d.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.opcode === responseMap(a_opcode_lookup)) || (bundle.d.bits.opcode === responseMapSecondOption(a_opcode_lookup)), "'D' channel contains improper opcode response" + extra) assume((bundle.d.bits.size === a_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && a_first && bundle.a.valid && (bundle.a.bits.source === bundle.d.bits.source) && !d_release_ack) { assume((!bundle.d.ready) || bundle.a.ready, "ready check") } if (edge.manager.minLatency > 0) { assume(a_set_wo_ready =/= d_clr_wo_ready || !a_set_wo_ready.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr inflight_opcodes := (inflight_opcodes | a_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | a_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeCDSource(bundle: TLBundle, edge: TLEdge): Unit = { val c_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val c_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_c_opcode_bus_size = log2Ceil(c_opcode_bus_size) val log_c_size_bus_size = log2Ceil(c_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) inflight.suggestName("inflight") inflight_opcodes.suggestName("inflight_opcodes") inflight_sizes.suggestName("inflight_sizes") val c_first = edge.first(bundle.c.bits, bundle.c.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) c_first.suggestName("c_first") d_first.suggestName("d_first") val c_set = WireInit(0.U(edge.client.endSourceId.W)) val c_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val c_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val c_sizes_set = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) c_set.suggestName("c_set") c_set_wo_ready.suggestName("c_set_wo_ready") c_opcodes_set.suggestName("c_opcodes_set") c_sizes_set.suggestName("c_sizes_set") val c_opcode_lookup = WireInit(0.U((1 << log_c_opcode_bus_size).W)) val c_size_lookup = WireInit(0.U((1 << log_c_size_bus_size).W)) c_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_c_opcode_bus_size.U) & size_to_numfullbits(1.U << log_c_opcode_bus_size.U)) >> 1.U c_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_c_size_bus_size.U) & size_to_numfullbits(1.U << log_c_size_bus_size.U)) >> 1.U c_opcode_lookup.suggestName("c_opcode_lookup") c_size_lookup.suggestName("c_size_lookup") val c_opcodes_set_interm = WireInit(0.U(c_opcode_bus_size.W)) val c_sizes_set_interm = WireInit(0.U(c_size_bus_size.W)) c_opcodes_set_interm.suggestName("c_opcodes_set_interm") c_sizes_set_interm.suggestName("c_sizes_set_interm") when (bundle.c.valid && c_first && edge.isRequest(bundle.c.bits)) { c_set_wo_ready := UIntToOH(bundle.c.bits.source) } when (bundle.c.fire && c_first && edge.isRequest(bundle.c.bits)) { c_set := UIntToOH(bundle.c.bits.source) c_opcodes_set_interm := (bundle.c.bits.opcode << 1.U) | 1.U c_sizes_set_interm := (bundle.c.bits.size << 1.U) | 1.U c_opcodes_set := (c_opcodes_set_interm) << (bundle.c.bits.source << log_c_opcode_bus_size.U) c_sizes_set := (c_sizes_set_interm) << (bundle.c.bits.source << log_c_size_bus_size.U) monAssert(!inflight(bundle.c.bits.source), "'C' channel re-used a source ID" + extra) } val c_probe_ack = bundle.c.bits.opcode === TLMessages.ProbeAck || bundle.c.bits.opcode === TLMessages.ProbeAckData val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") d_opcodes_clr.suggestName("d_opcodes_clr") d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_c_opcode_bus_size.U) << (bundle.d.bits.source << log_c_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_c_size_bus_size.U) << (bundle.d.bits.source << log_c_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { val same_cycle_resp = bundle.c.valid && c_first && edge.isRequest(bundle.c.bits) && (bundle.c.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.size === bundle.c.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.size === c_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && c_first && bundle.c.valid && (bundle.c.bits.source === bundle.d.bits.source) && d_release_ack && !c_probe_ack) { assume((!bundle.d.ready) || bundle.c.ready, "ready check") } if (edge.manager.minLatency > 0) { when (c_set_wo_ready.orR) { assume(c_set_wo_ready =/= d_clr_wo_ready, s"'C' and 'D' concurrent, despite minlatency > 0" + extra) } } inflight := (inflight | c_set) & ~d_clr inflight_opcodes := (inflight_opcodes | c_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | c_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.c.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeDESink(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.manager.endSinkId.W)) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val e_first = true.B val d_set = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.d.fire && d_first && edge.isRequest(bundle.d.bits)) { d_set := UIntToOH(bundle.d.bits.sink) assume(!inflight(bundle.d.bits.sink), "'D' channel re-used a sink ID" + extra) } val e_clr = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.e.fire && e_first && edge.isResponse(bundle.e.bits)) { e_clr := UIntToOH(bundle.e.bits.sink) monAssert((d_set | inflight)(bundle.e.bits.sink), "'E' channel acknowledged for nothing inflight" + extra) } // edge.client.minLatency applies to BC, not DE inflight := (inflight | d_set) & ~e_clr } def legalizeUnique(bundle: TLBundle, edge: TLEdge): Unit = { val sourceBits = log2Ceil(edge.client.endSourceId) val tooBig = 14 // >16kB worth of flight information gets to be too much if (sourceBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with source bits (${sourceBits}) > ${tooBig}; A=>D transaction flight will not be checked") } else { if (args.edge.params(TestplanTestType).simulation) { if (args.edge.params(TLMonitorStrictMode)) { legalizeADSource(bundle, edge) legalizeCDSource(bundle, edge) } else { legalizeADSourceOld(bundle, edge) } } if (args.edge.params(TestplanTestType).formal) { legalizeADSourceFormal(bundle, edge) } } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { // legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize... val sinkBits = log2Ceil(edge.manager.endSinkId) if (sinkBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with sink bits (${sinkBits}) > ${tooBig}; D=>E transaction flight will not be checked") } else { legalizeDESink(bundle, edge) } } } def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit = { legalizeFormat (bundle, edge) legalizeMultibeat (bundle, edge) legalizeUnique (bundle, edge) } } File Misc.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import scala.math._ class ParameterizedBundle(implicit p: Parameters) extends Bundle trait Clocked extends Bundle { val clock = Clock() val reset = Bool() } object DecoupledHelper { def apply(rvs: Bool*) = new DecoupledHelper(rvs) } class DecoupledHelper(val rvs: Seq[Bool]) { def fire(exclude: Bool, includes: Bool*) = { require(rvs.contains(exclude), "Excluded Bool not present in DecoupledHelper! Note that DecoupledHelper uses referential equality for exclusion! If you don't want to exclude anything, use fire()!") (rvs.filter(_ ne exclude) ++ includes).reduce(_ && _) } def fire() = { rvs.reduce(_ && _) } } object MuxT { def apply[T <: Data, U <: Data](cond: Bool, con: (T, U), alt: (T, U)): (T, U) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2)) def apply[T <: Data, U <: Data, W <: Data](cond: Bool, con: (T, U, W), alt: (T, U, W)): (T, U, W) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3)) def apply[T <: Data, U <: Data, W <: Data, X <: Data](cond: Bool, con: (T, U, W, X), alt: (T, U, W, X)): (T, U, W, X) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3), Mux(cond, con._4, alt._4)) } /** Creates a cascade of n MuxTs to search for a key value. */ object MuxTLookup { def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } } object ValidMux { def apply[T <: Data](v1: ValidIO[T], v2: ValidIO[T]*): ValidIO[T] = { apply(v1 +: v2.toSeq) } def apply[T <: Data](valids: Seq[ValidIO[T]]): ValidIO[T] = { val out = Wire(Valid(valids.head.bits.cloneType)) out.valid := valids.map(_.valid).reduce(_ || _) out.bits := MuxCase(valids.head.bits, valids.map(v => (v.valid -> v.bits))) out } } object Str { def apply(s: String): UInt = { var i = BigInt(0) require(s.forall(validChar _)) for (c <- s) i = (i << 8) | c i.U((s.length*8).W) } def apply(x: Char): UInt = { require(validChar(x)) x.U(8.W) } def apply(x: UInt): UInt = apply(x, 10) def apply(x: UInt, radix: Int): UInt = { val rad = radix.U val w = x.getWidth require(w > 0) var q = x var s = digit(q % rad) for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad s = Cat(Mux((radix == 10).B && q === 0.U, Str(' '), digit(q % rad)), s) } s } def apply(x: SInt): UInt = apply(x, 10) def apply(x: SInt, radix: Int): UInt = { val neg = x < 0.S val abs = x.abs.asUInt if (radix != 10) { Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix)) } else { val rad = radix.U val w = abs.getWidth require(w > 0) var q = abs var s = digit(q % rad) var needSign = neg for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad val placeSpace = q === 0.U val space = Mux(needSign, Str('-'), Str(' ')) needSign = needSign && !placeSpace s = Cat(Mux(placeSpace, space, digit(q % rad)), s) } Cat(Mux(needSign, Str('-'), Str(' ')), s) } } private def digit(d: UInt): UInt = Mux(d < 10.U, Str('0')+d, Str(('a'-10).toChar)+d)(7,0) private def validChar(x: Char) = x == (x & 0xFF) } object Split { def apply(x: UInt, n0: Int) = { val w = x.getWidth (x.extract(w-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n2: Int, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n2), x.extract(n2-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } } object Random { def apply(mod: Int, random: UInt): UInt = { if (isPow2(mod)) random.extract(log2Ceil(mod)-1,0) else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod)) } def apply(mod: Int): UInt = apply(mod, randomizer) def oneHot(mod: Int, random: UInt): UInt = { if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0)) else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).asUInt } def oneHot(mod: Int): UInt = oneHot(mod, randomizer) private def randomizer = LFSR(16) private def partition(value: UInt, slices: Int) = Seq.tabulate(slices)(i => value < (((i + 1) << value.getWidth) / slices).U) } object Majority { def apply(in: Set[Bool]): Bool = { val n = (in.size >> 1) + 1 val clauses = in.subsets(n).map(_.reduce(_ && _)) clauses.reduce(_ || _) } def apply(in: Seq[Bool]): Bool = apply(in.toSet) def apply(in: UInt): Bool = apply(in.asBools.toSet) } object PopCountAtLeast { private def two(x: UInt): (Bool, Bool) = x.getWidth match { case 1 => (x.asBool, false.B) case n => val half = x.getWidth / 2 val (leftOne, leftTwo) = two(x(half - 1, 0)) val (rightOne, rightTwo) = two(x(x.getWidth - 1, half)) (leftOne || rightOne, leftTwo || rightTwo || (leftOne && rightOne)) } def apply(x: UInt, n: Int): Bool = n match { case 0 => true.B case 1 => x.orR case 2 => two(x)._2 case 3 => PopCount(x) >= n.U } } // This gets used everywhere, so make the smallest circuit possible ... // Given an address and size, create a mask of beatBytes size // eg: (0x3, 0, 4) => 0001, (0x3, 1, 4) => 0011, (0x3, 2, 4) => 1111 // groupBy applies an interleaved OR reduction; groupBy=2 take 0010 => 01 object MaskGen { def apply(addr_lo: UInt, lgSize: UInt, beatBytes: Int, groupBy: Int = 1): UInt = { require (groupBy >= 1 && beatBytes >= groupBy) require (isPow2(beatBytes) && isPow2(groupBy)) val lgBytes = log2Ceil(beatBytes) val sizeOH = UIntToOH(lgSize | 0.U(log2Up(beatBytes).W), log2Up(beatBytes)) | (groupBy*2 - 1).U def helper(i: Int): Seq[(Bool, Bool)] = { if (i == 0) { Seq((lgSize >= lgBytes.asUInt, true.B)) } else { val sub = helper(i-1) val size = sizeOH(lgBytes - i) val bit = addr_lo(lgBytes - i) val nbit = !bit Seq.tabulate (1 << i) { j => val (sub_acc, sub_eq) = sub(j/2) val eq = sub_eq && (if (j % 2 == 1) bit else nbit) val acc = sub_acc || (size && eq) (acc, eq) } } } if (groupBy == beatBytes) 1.U else Cat(helper(lgBytes-log2Ceil(groupBy)).map(_._1).reverse) } } File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Bundles.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import freechips.rocketchip.util._ import scala.collection.immutable.ListMap import chisel3.util.Decoupled import chisel3.util.DecoupledIO import chisel3.reflect.DataMirror abstract class TLBundleBase(val params: TLBundleParameters) extends Bundle // common combos in lazy policy: // Put + Acquire // Release + AccessAck object TLMessages { // A B C D E def PutFullData = 0.U // . . => AccessAck def PutPartialData = 1.U // . . => AccessAck def ArithmeticData = 2.U // . . => AccessAckData def LogicalData = 3.U // . . => AccessAckData def Get = 4.U // . . => AccessAckData def Hint = 5.U // . . => HintAck def AcquireBlock = 6.U // . => Grant[Data] def AcquirePerm = 7.U // . => Grant[Data] def Probe = 6.U // . => ProbeAck[Data] def AccessAck = 0.U // . . def AccessAckData = 1.U // . . def HintAck = 2.U // . . def ProbeAck = 4.U // . def ProbeAckData = 5.U // . def Release = 6.U // . => ReleaseAck def ReleaseData = 7.U // . => ReleaseAck def Grant = 4.U // . => GrantAck def GrantData = 5.U // . => GrantAck def ReleaseAck = 6.U // . def GrantAck = 0.U // . def isA(x: UInt) = x <= AcquirePerm def isB(x: UInt) = x <= Probe def isC(x: UInt) = x <= ReleaseData def isD(x: UInt) = x <= ReleaseAck def adResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, Grant, Grant) def bcResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, ProbeAck, ProbeAck) def a = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("AcquireBlock",TLPermissions.PermMsgGrow), ("AcquirePerm",TLPermissions.PermMsgGrow)) def b = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("Probe",TLPermissions.PermMsgCap)) def c = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("ProbeAck",TLPermissions.PermMsgReport), ("ProbeAckData",TLPermissions.PermMsgReport), ("Release",TLPermissions.PermMsgReport), ("ReleaseData",TLPermissions.PermMsgReport)) def d = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("Grant",TLPermissions.PermMsgCap), ("GrantData",TLPermissions.PermMsgCap), ("ReleaseAck",TLPermissions.PermMsgReserved)) } /** * The three primary TileLink permissions are: * (T)runk: the agent is (or is on inwards path to) the global point of serialization. * (B)ranch: the agent is on an outwards path to * (N)one: * These permissions are permuted by transfer operations in various ways. * Operations can cap permissions, request for them to be grown or shrunk, * or for a report on their current status. */ object TLPermissions { val aWidth = 2 val bdWidth = 2 val cWidth = 3 // Cap types (Grant = new permissions, Probe = permisions <= target) def toT = 0.U(bdWidth.W) def toB = 1.U(bdWidth.W) def toN = 2.U(bdWidth.W) def isCap(x: UInt) = x <= toN // Grow types (Acquire = permissions >= target) def NtoB = 0.U(aWidth.W) def NtoT = 1.U(aWidth.W) def BtoT = 2.U(aWidth.W) def isGrow(x: UInt) = x <= BtoT // Shrink types (ProbeAck, Release) def TtoB = 0.U(cWidth.W) def TtoN = 1.U(cWidth.W) def BtoN = 2.U(cWidth.W) def isShrink(x: UInt) = x <= BtoN // Report types (ProbeAck, Release) def TtoT = 3.U(cWidth.W) def BtoB = 4.U(cWidth.W) def NtoN = 5.U(cWidth.W) def isReport(x: UInt) = x <= NtoN def PermMsgGrow:Seq[String] = Seq("Grow NtoB", "Grow NtoT", "Grow BtoT") def PermMsgCap:Seq[String] = Seq("Cap toT", "Cap toB", "Cap toN") def PermMsgReport:Seq[String] = Seq("Shrink TtoB", "Shrink TtoN", "Shrink BtoN", "Report TotT", "Report BtoB", "Report NtoN") def PermMsgReserved:Seq[String] = Seq("Reserved") } object TLAtomics { val width = 3 // Arithmetic types def MIN = 0.U(width.W) def MAX = 1.U(width.W) def MINU = 2.U(width.W) def MAXU = 3.U(width.W) def ADD = 4.U(width.W) def isArithmetic(x: UInt) = x <= ADD // Logical types def XOR = 0.U(width.W) def OR = 1.U(width.W) def AND = 2.U(width.W) def SWAP = 3.U(width.W) def isLogical(x: UInt) = x <= SWAP def ArithMsg:Seq[String] = Seq("MIN", "MAX", "MINU", "MAXU", "ADD") def LogicMsg:Seq[String] = Seq("XOR", "OR", "AND", "SWAP") } object TLHints { val width = 1 def PREFETCH_READ = 0.U(width.W) def PREFETCH_WRITE = 1.U(width.W) def isHints(x: UInt) = x <= PREFETCH_WRITE def HintsMsg:Seq[String] = Seq("PrefetchRead", "PrefetchWrite") } sealed trait TLChannel extends TLBundleBase { val channelName: String } sealed trait TLDataChannel extends TLChannel sealed trait TLAddrChannel extends TLDataChannel final class TLBundleA(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleA_${params.shortName}" val channelName = "'A' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(List(TLAtomics.width, TLPermissions.aWidth, TLHints.width).max.W) // amo_opcode || grow perms || hint val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleB(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleB_${params.shortName}" val channelName = "'B' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val address = UInt(params.addressBits.W) // from // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleC(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleC_${params.shortName}" val channelName = "'C' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.cWidth.W) // shrink or report perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleD(params: TLBundleParameters) extends TLBundleBase(params) with TLDataChannel { override def typeName = s"TLBundleD_${params.shortName}" val channelName = "'D' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val sink = UInt(params.sinkBits.W) // from val denied = Bool() // implies corrupt iff *Data val user = BundleMap(params.responseFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleE(params: TLBundleParameters) extends TLBundleBase(params) with TLChannel { override def typeName = s"TLBundleE_${params.shortName}" val channelName = "'E' channel" val sink = UInt(params.sinkBits.W) // to } class TLBundle(val params: TLBundleParameters) extends Record { // Emulate a Bundle with elements abcde or ad depending on params.hasBCE private val optA = Some (Decoupled(new TLBundleA(params))) private val optB = params.hasBCE.option(Flipped(Decoupled(new TLBundleB(params)))) private val optC = params.hasBCE.option(Decoupled(new TLBundleC(params))) private val optD = Some (Flipped(Decoupled(new TLBundleD(params)))) private val optE = params.hasBCE.option(Decoupled(new TLBundleE(params))) def a: DecoupledIO[TLBundleA] = optA.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleA(params))))) def b: DecoupledIO[TLBundleB] = optB.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleB(params))))) def c: DecoupledIO[TLBundleC] = optC.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleC(params))))) def d: DecoupledIO[TLBundleD] = optD.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleD(params))))) def e: DecoupledIO[TLBundleE] = optE.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleE(params))))) val elements = if (params.hasBCE) ListMap("e" -> e, "d" -> d, "c" -> c, "b" -> b, "a" -> a) else ListMap("d" -> d, "a" -> a) def tieoff(): Unit = { DataMirror.specifiedDirectionOf(a.ready) match { case SpecifiedDirection.Input => a.ready := false.B c.ready := false.B e.ready := false.B b.valid := false.B d.valid := false.B case SpecifiedDirection.Output => a.valid := false.B c.valid := false.B e.valid := false.B b.ready := false.B d.ready := false.B case _ => } } } object TLBundle { def apply(params: TLBundleParameters) = new TLBundle(params) } class TLAsyncBundleBase(val params: TLAsyncBundleParameters) extends Bundle class TLAsyncBundle(params: TLAsyncBundleParameters) extends TLAsyncBundleBase(params) { val a = new AsyncBundle(new TLBundleA(params.base), params.async) val b = Flipped(new AsyncBundle(new TLBundleB(params.base), params.async)) val c = new AsyncBundle(new TLBundleC(params.base), params.async) val d = Flipped(new AsyncBundle(new TLBundleD(params.base), params.async)) val e = new AsyncBundle(new TLBundleE(params.base), params.async) } class TLRationalBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = RationalIO(new TLBundleA(params)) val b = Flipped(RationalIO(new TLBundleB(params))) val c = RationalIO(new TLBundleC(params)) val d = Flipped(RationalIO(new TLBundleD(params))) val e = RationalIO(new TLBundleE(params)) } class TLCreditedBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = CreditedIO(new TLBundleA(params)) val b = Flipped(CreditedIO(new TLBundleB(params))) val c = CreditedIO(new TLBundleC(params)) val d = Flipped(CreditedIO(new TLBundleD(params))) val e = CreditedIO(new TLBundleE(params)) } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.diplomacy.{ AddressDecoder, AddressSet, BufferParams, DirectedBuffers, IdMap, IdMapEntry, IdRange, RegionType, TransferSizes } import freechips.rocketchip.resources.{Resource, ResourceAddress, ResourcePermissions} import freechips.rocketchip.util.{ AsyncQueueParams, BundleField, BundleFieldBase, BundleKeyBase, CreditedDelay, groupByIntoSeq, RationalDirection, SimpleProduct } import scala.math.max //These transfer sizes describe requests issued from masters on the A channel that will be responded by slaves on the D channel case class TLMasterToSlaveTransferSizes( // Supports both Acquire+Release of the following two sizes: acquireT: TransferSizes = TransferSizes.none, acquireB: TransferSizes = TransferSizes.none, arithmetic: TransferSizes = TransferSizes.none, logical: TransferSizes = TransferSizes.none, get: TransferSizes = TransferSizes.none, putFull: TransferSizes = TransferSizes.none, putPartial: TransferSizes = TransferSizes.none, hint: TransferSizes = TransferSizes.none) extends TLCommonTransferSizes { def intersect(rhs: TLMasterToSlaveTransferSizes) = TLMasterToSlaveTransferSizes( acquireT = acquireT .intersect(rhs.acquireT), acquireB = acquireB .intersect(rhs.acquireB), arithmetic = arithmetic.intersect(rhs.arithmetic), logical = logical .intersect(rhs.logical), get = get .intersect(rhs.get), putFull = putFull .intersect(rhs.putFull), putPartial = putPartial.intersect(rhs.putPartial), hint = hint .intersect(rhs.hint)) def mincover(rhs: TLMasterToSlaveTransferSizes) = TLMasterToSlaveTransferSizes( acquireT = acquireT .mincover(rhs.acquireT), acquireB = acquireB .mincover(rhs.acquireB), arithmetic = arithmetic.mincover(rhs.arithmetic), logical = logical .mincover(rhs.logical), get = get .mincover(rhs.get), putFull = putFull .mincover(rhs.putFull), putPartial = putPartial.mincover(rhs.putPartial), hint = hint .mincover(rhs.hint)) // Reduce rendering to a simple yes/no per field override def toString = { def str(x: TransferSizes, flag: String) = if (x.none) "" else flag def flags = Vector( str(acquireT, "T"), str(acquireB, "B"), str(arithmetic, "A"), str(logical, "L"), str(get, "G"), str(putFull, "F"), str(putPartial, "P"), str(hint, "H")) flags.mkString } // Prints out the actual information in a user readable way def infoString = { s"""acquireT = ${acquireT} |acquireB = ${acquireB} |arithmetic = ${arithmetic} |logical = ${logical} |get = ${get} |putFull = ${putFull} |putPartial = ${putPartial} |hint = ${hint} | |""".stripMargin } } object TLMasterToSlaveTransferSizes { def unknownEmits = TLMasterToSlaveTransferSizes( acquireT = TransferSizes(1, 4096), acquireB = TransferSizes(1, 4096), arithmetic = TransferSizes(1, 4096), logical = TransferSizes(1, 4096), get = TransferSizes(1, 4096), putFull = TransferSizes(1, 4096), putPartial = TransferSizes(1, 4096), hint = TransferSizes(1, 4096)) def unknownSupports = TLMasterToSlaveTransferSizes() } //These transfer sizes describe requests issued from slaves on the B channel that will be responded by masters on the C channel case class TLSlaveToMasterTransferSizes( probe: TransferSizes = TransferSizes.none, arithmetic: TransferSizes = TransferSizes.none, logical: TransferSizes = TransferSizes.none, get: TransferSizes = TransferSizes.none, putFull: TransferSizes = TransferSizes.none, putPartial: TransferSizes = TransferSizes.none, hint: TransferSizes = TransferSizes.none ) extends TLCommonTransferSizes { def intersect(rhs: TLSlaveToMasterTransferSizes) = TLSlaveToMasterTransferSizes( probe = probe .intersect(rhs.probe), arithmetic = arithmetic.intersect(rhs.arithmetic), logical = logical .intersect(rhs.logical), get = get .intersect(rhs.get), putFull = putFull .intersect(rhs.putFull), putPartial = putPartial.intersect(rhs.putPartial), hint = hint .intersect(rhs.hint) ) def mincover(rhs: TLSlaveToMasterTransferSizes) = TLSlaveToMasterTransferSizes( probe = probe .mincover(rhs.probe), arithmetic = arithmetic.mincover(rhs.arithmetic), logical = logical .mincover(rhs.logical), get = get .mincover(rhs.get), putFull = putFull .mincover(rhs.putFull), putPartial = putPartial.mincover(rhs.putPartial), hint = hint .mincover(rhs.hint) ) // Reduce rendering to a simple yes/no per field override def toString = { def str(x: TransferSizes, flag: String) = if (x.none) "" else flag def flags = Vector( str(probe, "P"), str(arithmetic, "A"), str(logical, "L"), str(get, "G"), str(putFull, "F"), str(putPartial, "P"), str(hint, "H")) flags.mkString } // Prints out the actual information in a user readable way def infoString = { s"""probe = ${probe} |arithmetic = ${arithmetic} |logical = ${logical} |get = ${get} |putFull = ${putFull} |putPartial = ${putPartial} |hint = ${hint} | |""".stripMargin } } object TLSlaveToMasterTransferSizes { def unknownEmits = TLSlaveToMasterTransferSizes( arithmetic = TransferSizes(1, 4096), logical = TransferSizes(1, 4096), get = TransferSizes(1, 4096), putFull = TransferSizes(1, 4096), putPartial = TransferSizes(1, 4096), hint = TransferSizes(1, 4096), probe = TransferSizes(1, 4096)) def unknownSupports = TLSlaveToMasterTransferSizes() } trait TLCommonTransferSizes { def arithmetic: TransferSizes def logical: TransferSizes def get: TransferSizes def putFull: TransferSizes def putPartial: TransferSizes def hint: TransferSizes } class TLSlaveParameters private( val nodePath: Seq[BaseNode], val resources: Seq[Resource], setName: Option[String], val address: Seq[AddressSet], val regionType: RegionType.T, val executable: Boolean, val fifoId: Option[Int], val supports: TLMasterToSlaveTransferSizes, val emits: TLSlaveToMasterTransferSizes, // By default, slaves are forbidden from issuing 'denied' responses (it prevents Fragmentation) val alwaysGrantsT: Boolean, // typically only true for CacheCork'd read-write devices; dual: neverReleaseData // If fifoId=Some, all accesses sent to the same fifoId are executed and ACK'd in FIFO order // Note: you can only rely on this FIFO behaviour if your TLMasterParameters include requestFifo val mayDenyGet: Boolean, // applies to: AccessAckData, GrantData val mayDenyPut: Boolean) // applies to: AccessAck, Grant, HintAck // ReleaseAck may NEVER be denied extends SimpleProduct { def sortedAddress = address.sorted override def canEqual(that: Any): Boolean = that.isInstanceOf[TLSlaveParameters] override def productPrefix = "TLSlaveParameters" // We intentionally omit nodePath for equality testing / formatting def productArity: Int = 11 def productElement(n: Int): Any = n match { case 0 => name case 1 => address case 2 => resources case 3 => regionType case 4 => executable case 5 => fifoId case 6 => supports case 7 => emits case 8 => alwaysGrantsT case 9 => mayDenyGet case 10 => mayDenyPut case _ => throw new IndexOutOfBoundsException(n.toString) } def supportsAcquireT: TransferSizes = supports.acquireT def supportsAcquireB: TransferSizes = supports.acquireB def supportsArithmetic: TransferSizes = supports.arithmetic def supportsLogical: TransferSizes = supports.logical def supportsGet: TransferSizes = supports.get def supportsPutFull: TransferSizes = supports.putFull def supportsPutPartial: TransferSizes = supports.putPartial def supportsHint: TransferSizes = supports.hint require (!address.isEmpty, "Address cannot be empty") address.foreach { a => require (a.finite, "Address must be finite") } address.combinations(2).foreach { case Seq(x,y) => require (!x.overlaps(y), s"$x and $y overlap.") } require (supportsPutFull.contains(supportsPutPartial), s"PutFull($supportsPutFull) < PutPartial($supportsPutPartial)") require (supportsPutFull.contains(supportsArithmetic), s"PutFull($supportsPutFull) < Arithmetic($supportsArithmetic)") require (supportsPutFull.contains(supportsLogical), s"PutFull($supportsPutFull) < Logical($supportsLogical)") require (supportsGet.contains(supportsArithmetic), s"Get($supportsGet) < Arithmetic($supportsArithmetic)") require (supportsGet.contains(supportsLogical), s"Get($supportsGet) < Logical($supportsLogical)") require (supportsAcquireB.contains(supportsAcquireT), s"AcquireB($supportsAcquireB) < AcquireT($supportsAcquireT)") require (!alwaysGrantsT || supportsAcquireT, s"Must supportAcquireT if promising to always grantT") // Make sure that the regionType agrees with the capabilities require (!supportsAcquireB || regionType >= RegionType.UNCACHED) // acquire -> uncached, tracked, cached require (regionType <= RegionType.UNCACHED || supportsAcquireB) // tracked, cached -> acquire require (regionType != RegionType.UNCACHED || supportsGet) // uncached -> supportsGet val name = setName.orElse(nodePath.lastOption.map(_.lazyModule.name)).getOrElse("disconnected") val maxTransfer = List( // Largest supported transfer of all types supportsAcquireT.max, supportsAcquireB.max, supportsArithmetic.max, supportsLogical.max, supportsGet.max, supportsPutFull.max, supportsPutPartial.max).max val maxAddress = address.map(_.max).max val minAlignment = address.map(_.alignment).min // The device had better not support a transfer larger than its alignment require (minAlignment >= maxTransfer, s"Bad $address: minAlignment ($minAlignment) must be >= maxTransfer ($maxTransfer)") def toResource: ResourceAddress = { ResourceAddress(address, ResourcePermissions( r = supportsAcquireB || supportsGet, w = supportsAcquireT || supportsPutFull, x = executable, c = supportsAcquireB, a = supportsArithmetic && supportsLogical)) } def findTreeViolation() = nodePath.find { case _: MixedAdapterNode[_, _, _, _, _, _, _, _] => false case _: SinkNode[_, _, _, _, _] => false case node => node.inputs.size != 1 } def isTree = findTreeViolation() == None def infoString = { s"""Slave Name = ${name} |Slave Address = ${address} |supports = ${supports.infoString} | |""".stripMargin } def v1copy( address: Seq[AddressSet] = address, resources: Seq[Resource] = resources, regionType: RegionType.T = regionType, executable: Boolean = executable, nodePath: Seq[BaseNode] = nodePath, supportsAcquireT: TransferSizes = supports.acquireT, supportsAcquireB: TransferSizes = supports.acquireB, supportsArithmetic: TransferSizes = supports.arithmetic, supportsLogical: TransferSizes = supports.logical, supportsGet: TransferSizes = supports.get, supportsPutFull: TransferSizes = supports.putFull, supportsPutPartial: TransferSizes = supports.putPartial, supportsHint: TransferSizes = supports.hint, mayDenyGet: Boolean = mayDenyGet, mayDenyPut: Boolean = mayDenyPut, alwaysGrantsT: Boolean = alwaysGrantsT, fifoId: Option[Int] = fifoId) = { new TLSlaveParameters( setName = setName, address = address, resources = resources, regionType = regionType, executable = executable, nodePath = nodePath, supports = TLMasterToSlaveTransferSizes( acquireT = supportsAcquireT, acquireB = supportsAcquireB, arithmetic = supportsArithmetic, logical = supportsLogical, get = supportsGet, putFull = supportsPutFull, putPartial = supportsPutPartial, hint = supportsHint), emits = emits, mayDenyGet = mayDenyGet, mayDenyPut = mayDenyPut, alwaysGrantsT = alwaysGrantsT, fifoId = fifoId) } def v2copy( nodePath: Seq[BaseNode] = nodePath, resources: Seq[Resource] = resources, name: Option[String] = setName, address: Seq[AddressSet] = address, regionType: RegionType.T = regionType, executable: Boolean = executable, fifoId: Option[Int] = fifoId, supports: TLMasterToSlaveTransferSizes = supports, emits: TLSlaveToMasterTransferSizes = emits, alwaysGrantsT: Boolean = alwaysGrantsT, mayDenyGet: Boolean = mayDenyGet, mayDenyPut: Boolean = mayDenyPut) = { new TLSlaveParameters( nodePath = nodePath, resources = resources, setName = name, address = address, regionType = regionType, executable = executable, fifoId = fifoId, supports = supports, emits = emits, alwaysGrantsT = alwaysGrantsT, mayDenyGet = mayDenyGet, mayDenyPut = mayDenyPut) } @deprecated("Use v1copy instead of copy","") def copy( address: Seq[AddressSet] = address, resources: Seq[Resource] = resources, regionType: RegionType.T = regionType, executable: Boolean = executable, nodePath: Seq[BaseNode] = nodePath, supportsAcquireT: TransferSizes = supports.acquireT, supportsAcquireB: TransferSizes = supports.acquireB, supportsArithmetic: TransferSizes = supports.arithmetic, supportsLogical: TransferSizes = supports.logical, supportsGet: TransferSizes = supports.get, supportsPutFull: TransferSizes = supports.putFull, supportsPutPartial: TransferSizes = supports.putPartial, supportsHint: TransferSizes = supports.hint, mayDenyGet: Boolean = mayDenyGet, mayDenyPut: Boolean = mayDenyPut, alwaysGrantsT: Boolean = alwaysGrantsT, fifoId: Option[Int] = fifoId) = { v1copy( address = address, resources = resources, regionType = regionType, executable = executable, nodePath = nodePath, supportsAcquireT = supportsAcquireT, supportsAcquireB = supportsAcquireB, supportsArithmetic = supportsArithmetic, supportsLogical = supportsLogical, supportsGet = supportsGet, supportsPutFull = supportsPutFull, supportsPutPartial = supportsPutPartial, supportsHint = supportsHint, mayDenyGet = mayDenyGet, mayDenyPut = mayDenyPut, alwaysGrantsT = alwaysGrantsT, fifoId = fifoId) } } object TLSlaveParameters { def v1( address: Seq[AddressSet], resources: Seq[Resource] = Seq(), regionType: RegionType.T = RegionType.GET_EFFECTS, executable: Boolean = false, nodePath: Seq[BaseNode] = Seq(), supportsAcquireT: TransferSizes = TransferSizes.none, supportsAcquireB: TransferSizes = TransferSizes.none, supportsArithmetic: TransferSizes = TransferSizes.none, supportsLogical: TransferSizes = TransferSizes.none, supportsGet: TransferSizes = TransferSizes.none, supportsPutFull: TransferSizes = TransferSizes.none, supportsPutPartial: TransferSizes = TransferSizes.none, supportsHint: TransferSizes = TransferSizes.none, mayDenyGet: Boolean = false, mayDenyPut: Boolean = false, alwaysGrantsT: Boolean = false, fifoId: Option[Int] = None) = { new TLSlaveParameters( setName = None, address = address, resources = resources, regionType = regionType, executable = executable, nodePath = nodePath, supports = TLMasterToSlaveTransferSizes( acquireT = supportsAcquireT, acquireB = supportsAcquireB, arithmetic = supportsArithmetic, logical = supportsLogical, get = supportsGet, putFull = supportsPutFull, putPartial = supportsPutPartial, hint = supportsHint), emits = TLSlaveToMasterTransferSizes.unknownEmits, mayDenyGet = mayDenyGet, mayDenyPut = mayDenyPut, alwaysGrantsT = alwaysGrantsT, fifoId = fifoId) } def v2( address: Seq[AddressSet], nodePath: Seq[BaseNode] = Seq(), resources: Seq[Resource] = Seq(), name: Option[String] = None, regionType: RegionType.T = RegionType.GET_EFFECTS, executable: Boolean = false, fifoId: Option[Int] = None, supports: TLMasterToSlaveTransferSizes = TLMasterToSlaveTransferSizes.unknownSupports, emits: TLSlaveToMasterTransferSizes = TLSlaveToMasterTransferSizes.unknownEmits, alwaysGrantsT: Boolean = false, mayDenyGet: Boolean = false, mayDenyPut: Boolean = false) = { new TLSlaveParameters( nodePath = nodePath, resources = resources, setName = name, address = address, regionType = regionType, executable = executable, fifoId = fifoId, supports = supports, emits = emits, alwaysGrantsT = alwaysGrantsT, mayDenyGet = mayDenyGet, mayDenyPut = mayDenyPut) } } object TLManagerParameters { @deprecated("Use TLSlaveParameters.v1 instead of TLManagerParameters","") def apply( address: Seq[AddressSet], resources: Seq[Resource] = Seq(), regionType: RegionType.T = RegionType.GET_EFFECTS, executable: Boolean = false, nodePath: Seq[BaseNode] = Seq(), supportsAcquireT: TransferSizes = TransferSizes.none, supportsAcquireB: TransferSizes = TransferSizes.none, supportsArithmetic: TransferSizes = TransferSizes.none, supportsLogical: TransferSizes = TransferSizes.none, supportsGet: TransferSizes = TransferSizes.none, supportsPutFull: TransferSizes = TransferSizes.none, supportsPutPartial: TransferSizes = TransferSizes.none, supportsHint: TransferSizes = TransferSizes.none, mayDenyGet: Boolean = false, mayDenyPut: Boolean = false, alwaysGrantsT: Boolean = false, fifoId: Option[Int] = None) = TLSlaveParameters.v1( address, resources, regionType, executable, nodePath, supportsAcquireT, supportsAcquireB, supportsArithmetic, supportsLogical, supportsGet, supportsPutFull, supportsPutPartial, supportsHint, mayDenyGet, mayDenyPut, alwaysGrantsT, fifoId, ) } case class TLChannelBeatBytes(a: Option[Int], b: Option[Int], c: Option[Int], d: Option[Int]) { def members = Seq(a, b, c, d) members.collect { case Some(beatBytes) => require (isPow2(beatBytes), "Data channel width must be a power of 2") } } object TLChannelBeatBytes{ def apply(beatBytes: Int): TLChannelBeatBytes = TLChannelBeatBytes( Some(beatBytes), Some(beatBytes), Some(beatBytes), Some(beatBytes)) def apply(): TLChannelBeatBytes = TLChannelBeatBytes( None, None, None, None) } class TLSlavePortParameters private( val slaves: Seq[TLSlaveParameters], val channelBytes: TLChannelBeatBytes, val endSinkId: Int, val minLatency: Int, val responseFields: Seq[BundleFieldBase], val requestKeys: Seq[BundleKeyBase]) extends SimpleProduct { def sortedSlaves = slaves.sortBy(_.sortedAddress.head) override def canEqual(that: Any): Boolean = that.isInstanceOf[TLSlavePortParameters] override def productPrefix = "TLSlavePortParameters" def productArity: Int = 6 def productElement(n: Int): Any = n match { case 0 => slaves case 1 => channelBytes case 2 => endSinkId case 3 => minLatency case 4 => responseFields case 5 => requestKeys case _ => throw new IndexOutOfBoundsException(n.toString) } require (!slaves.isEmpty, "Slave ports must have slaves") require (endSinkId >= 0, "Sink ids cannot be negative") require (minLatency >= 0, "Minimum required latency cannot be negative") // Using this API implies you cannot handle mixed-width busses def beatBytes = { channelBytes.members.foreach { width => require (width.isDefined && width == channelBytes.a) } channelBytes.a.get } // TODO this should be deprecated def managers = slaves def requireFifo(policy: TLFIFOFixer.Policy = TLFIFOFixer.allFIFO) = { val relevant = slaves.filter(m => policy(m)) relevant.foreach { m => require(m.fifoId == relevant.head.fifoId, s"${m.name} had fifoId ${m.fifoId}, which was not homogeneous (${slaves.map(s => (s.name, s.fifoId))}) ") } } // Bounds on required sizes def maxAddress = slaves.map(_.maxAddress).max def maxTransfer = slaves.map(_.maxTransfer).max def mayDenyGet = slaves.exists(_.mayDenyGet) def mayDenyPut = slaves.exists(_.mayDenyPut) // Diplomatically determined operation sizes emitted by all outward Slaves // as opposed to emits* which generate circuitry to check which specific addresses val allEmitClaims = slaves.map(_.emits).reduce( _ intersect _) // Operation Emitted by at least one outward Slaves // as opposed to emits* which generate circuitry to check which specific addresses val anyEmitClaims = slaves.map(_.emits).reduce(_ mincover _) // Diplomatically determined operation sizes supported by all outward Slaves // as opposed to supports* which generate circuitry to check which specific addresses val allSupportClaims = slaves.map(_.supports).reduce( _ intersect _) val allSupportAcquireT = allSupportClaims.acquireT val allSupportAcquireB = allSupportClaims.acquireB val allSupportArithmetic = allSupportClaims.arithmetic val allSupportLogical = allSupportClaims.logical val allSupportGet = allSupportClaims.get val allSupportPutFull = allSupportClaims.putFull val allSupportPutPartial = allSupportClaims.putPartial val allSupportHint = allSupportClaims.hint // Operation supported by at least one outward Slaves // as opposed to supports* which generate circuitry to check which specific addresses val anySupportClaims = slaves.map(_.supports).reduce(_ mincover _) val anySupportAcquireT = !anySupportClaims.acquireT.none val anySupportAcquireB = !anySupportClaims.acquireB.none val anySupportArithmetic = !anySupportClaims.arithmetic.none val anySupportLogical = !anySupportClaims.logical.none val anySupportGet = !anySupportClaims.get.none val anySupportPutFull = !anySupportClaims.putFull.none val anySupportPutPartial = !anySupportClaims.putPartial.none val anySupportHint = !anySupportClaims.hint.none // Supporting Acquire means being routable for GrantAck require ((endSinkId == 0) == !anySupportAcquireB) // These return Option[TLSlaveParameters] for your convenience def find(address: BigInt) = slaves.find(_.address.exists(_.contains(address))) // The safe version will check the entire address def findSafe(address: UInt) = VecInit(sortedSlaves.map(_.address.map(_.contains(address)).reduce(_ || _))) // The fast version assumes the address is valid (you probably want fastProperty instead of this function) def findFast(address: UInt) = { val routingMask = AddressDecoder(slaves.map(_.address)) VecInit(sortedSlaves.map(_.address.map(_.widen(~routingMask)).distinct.map(_.contains(address)).reduce(_ || _))) } // Compute the simplest AddressSets that decide a key def fastPropertyGroup[K](p: TLSlaveParameters => K): Seq[(K, Seq[AddressSet])] = { val groups = groupByIntoSeq(sortedSlaves.map(m => (p(m), m.address)))( _._1).map { case (k, vs) => k -> vs.flatMap(_._2) } val reductionMask = AddressDecoder(groups.map(_._2)) groups.map { case (k, seq) => k -> AddressSet.unify(seq.map(_.widen(~reductionMask)).distinct) } } // Select a property def fastProperty[K, D <: Data](address: UInt, p: TLSlaveParameters => K, d: K => D): D = Mux1H(fastPropertyGroup(p).map { case (v, a) => (a.map(_.contains(address)).reduce(_||_), d(v)) }) // Note: returns the actual fifoId + 1 or 0 if None def findFifoIdFast(address: UInt) = fastProperty(address, _.fifoId.map(_+1).getOrElse(0), (i:Int) => i.U) def hasFifoIdFast(address: UInt) = fastProperty(address, _.fifoId.isDefined, (b:Boolean) => b.B) // Does this Port manage this ID/address? def containsSafe(address: UInt) = findSafe(address).reduce(_ || _) private def addressHelper( // setting safe to false indicates that all addresses are expected to be legal, which might reduce circuit complexity safe: Boolean, // member filters out the sizes being checked based on the opcode being emitted or supported member: TLSlaveParameters => TransferSizes, address: UInt, lgSize: UInt, // range provides a limit on the sizes that are expected to be evaluated, which might reduce circuit complexity range: Option[TransferSizes]): Bool = { // trim reduces circuit complexity by intersecting checked sizes with the range argument def trim(x: TransferSizes) = range.map(_.intersect(x)).getOrElse(x) // groupBy returns an unordered map, convert back to Seq and sort the result for determinism // groupByIntoSeq is turning slaves into trimmed membership sizes // We are grouping all the slaves by their transfer size where // if they support the trimmed size then // member is the type of transfer that you are looking for (What you are trying to filter on) // When you consider membership, you are trimming the sizes to only the ones that you care about // you are filtering the slaves based on both whether they support a particular opcode and the size // Grouping the slaves based on the actual transfer size range they support // intersecting the range and checking their membership // FOR SUPPORTCASES instead of returning the list of slaves, // you are returning a map from transfer size to the set of // address sets that are supported for that transfer size // find all the slaves that support a certain type of operation and then group their addresses by the supported size // for every size there could be multiple address ranges // safety is a trade off between checking between all possible addresses vs only the addresses // that are known to have supported sizes // the trade off is 'checking all addresses is a more expensive circuit but will always give you // the right answer even if you give it an illegal address' // the not safe version is a cheaper circuit but if you give it an illegal address then it might produce the wrong answer // fast presumes address legality // This groupByIntoSeq deterministically groups all address sets for which a given `member` transfer size applies. // In the resulting Map of cases, the keys are transfer sizes and the values are all address sets which emit or support that size. val supportCases = groupByIntoSeq(slaves)(m => trim(member(m))).map { case (k: TransferSizes, vs: Seq[TLSlaveParameters]) => k -> vs.flatMap(_.address) } // safe produces a circuit that compares against all possible addresses, // whereas fast presumes that the address is legal but uses an efficient address decoder val mask = if (safe) ~BigInt(0) else AddressDecoder(supportCases.map(_._2)) // Simplified creates the most concise possible representation of each cases' address sets based on the mask. val simplified = supportCases.map { case (k, seq) => k -> AddressSet.unify(seq.map(_.widen(~mask)).distinct) } simplified.map { case (s, a) => // s is a size, you are checking for this size either the size of the operation is in s // We return an or-reduction of all the cases, checking whether any contains both the dynamic size and dynamic address on the wire. ((Some(s) == range).B || s.containsLg(lgSize)) && a.map(_.contains(address)).reduce(_||_) }.foldLeft(false.B)(_||_) } def supportsAcquireTSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.acquireT, address, lgSize, range) def supportsAcquireBSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.acquireB, address, lgSize, range) def supportsArithmeticSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.arithmetic, address, lgSize, range) def supportsLogicalSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.logical, address, lgSize, range) def supportsGetSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.get, address, lgSize, range) def supportsPutFullSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.putFull, address, lgSize, range) def supportsPutPartialSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.putPartial, address, lgSize, range) def supportsHintSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.hint, address, lgSize, range) def supportsAcquireTFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.acquireT, address, lgSize, range) def supportsAcquireBFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.acquireB, address, lgSize, range) def supportsArithmeticFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.arithmetic, address, lgSize, range) def supportsLogicalFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.logical, address, lgSize, range) def supportsGetFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.get, address, lgSize, range) def supportsPutFullFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.putFull, address, lgSize, range) def supportsPutPartialFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.putPartial, address, lgSize, range) def supportsHintFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.hint, address, lgSize, range) def emitsProbeSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.probe, address, lgSize, range) def emitsArithmeticSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.arithmetic, address, lgSize, range) def emitsLogicalSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.logical, address, lgSize, range) def emitsGetSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.get, address, lgSize, range) def emitsPutFullSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.putFull, address, lgSize, range) def emitsPutPartialSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.putPartial, address, lgSize, range) def emitsHintSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.hint, address, lgSize, range) def findTreeViolation() = slaves.flatMap(_.findTreeViolation()).headOption def isTree = !slaves.exists(!_.isTree) def infoString = "Slave Port Beatbytes = " + beatBytes + "\n" + "Slave Port MinLatency = " + minLatency + "\n\n" + slaves.map(_.infoString).mkString def v1copy( managers: Seq[TLSlaveParameters] = slaves, beatBytes: Int = -1, endSinkId: Int = endSinkId, minLatency: Int = minLatency, responseFields: Seq[BundleFieldBase] = responseFields, requestKeys: Seq[BundleKeyBase] = requestKeys) = { new TLSlavePortParameters( slaves = managers, channelBytes = if (beatBytes != -1) TLChannelBeatBytes(beatBytes) else channelBytes, endSinkId = endSinkId, minLatency = minLatency, responseFields = responseFields, requestKeys = requestKeys) } def v2copy( slaves: Seq[TLSlaveParameters] = slaves, channelBytes: TLChannelBeatBytes = channelBytes, endSinkId: Int = endSinkId, minLatency: Int = minLatency, responseFields: Seq[BundleFieldBase] = responseFields, requestKeys: Seq[BundleKeyBase] = requestKeys) = { new TLSlavePortParameters( slaves = slaves, channelBytes = channelBytes, endSinkId = endSinkId, minLatency = minLatency, responseFields = responseFields, requestKeys = requestKeys) } @deprecated("Use v1copy instead of copy","") def copy( managers: Seq[TLSlaveParameters] = slaves, beatBytes: Int = -1, endSinkId: Int = endSinkId, minLatency: Int = minLatency, responseFields: Seq[BundleFieldBase] = responseFields, requestKeys: Seq[BundleKeyBase] = requestKeys) = { v1copy( managers, beatBytes, endSinkId, minLatency, responseFields, requestKeys) } } object TLSlavePortParameters { def v1( managers: Seq[TLSlaveParameters], beatBytes: Int, endSinkId: Int = 0, minLatency: Int = 0, responseFields: Seq[BundleFieldBase] = Nil, requestKeys: Seq[BundleKeyBase] = Nil) = { new TLSlavePortParameters( slaves = managers, channelBytes = TLChannelBeatBytes(beatBytes), endSinkId = endSinkId, minLatency = minLatency, responseFields = responseFields, requestKeys = requestKeys) } } object TLManagerPortParameters { @deprecated("Use TLSlavePortParameters.v1 instead of TLManagerPortParameters","") def apply( managers: Seq[TLSlaveParameters], beatBytes: Int, endSinkId: Int = 0, minLatency: Int = 0, responseFields: Seq[BundleFieldBase] = Nil, requestKeys: Seq[BundleKeyBase] = Nil) = { TLSlavePortParameters.v1( managers, beatBytes, endSinkId, minLatency, responseFields, requestKeys) } } class TLMasterParameters private( val nodePath: Seq[BaseNode], val resources: Seq[Resource], val name: String, val visibility: Seq[AddressSet], val unusedRegionTypes: Set[RegionType.T], val executesOnly: Boolean, val requestFifo: Boolean, // only a request, not a requirement. applies to A, not C. val supports: TLSlaveToMasterTransferSizes, val emits: TLMasterToSlaveTransferSizes, val neverReleasesData: Boolean, val sourceId: IdRange) extends SimpleProduct { override def canEqual(that: Any): Boolean = that.isInstanceOf[TLMasterParameters] override def productPrefix = "TLMasterParameters" // We intentionally omit nodePath for equality testing / formatting def productArity: Int = 10 def productElement(n: Int): Any = n match { case 0 => name case 1 => sourceId case 2 => resources case 3 => visibility case 4 => unusedRegionTypes case 5 => executesOnly case 6 => requestFifo case 7 => supports case 8 => emits case 9 => neverReleasesData case _ => throw new IndexOutOfBoundsException(n.toString) } require (!sourceId.isEmpty) require (!visibility.isEmpty) require (supports.putFull.contains(supports.putPartial)) // We only support these operations if we support Probe (ie: we're a cache) require (supports.probe.contains(supports.arithmetic)) require (supports.probe.contains(supports.logical)) require (supports.probe.contains(supports.get)) require (supports.probe.contains(supports.putFull)) require (supports.probe.contains(supports.putPartial)) require (supports.probe.contains(supports.hint)) visibility.combinations(2).foreach { case Seq(x,y) => require (!x.overlaps(y), s"$x and $y overlap.") } val maxTransfer = List( supports.probe.max, supports.arithmetic.max, supports.logical.max, supports.get.max, supports.putFull.max, supports.putPartial.max).max def infoString = { s"""Master Name = ${name} |visibility = ${visibility} |emits = ${emits.infoString} |sourceId = ${sourceId} | |""".stripMargin } def v1copy( name: String = name, sourceId: IdRange = sourceId, nodePath: Seq[BaseNode] = nodePath, requestFifo: Boolean = requestFifo, visibility: Seq[AddressSet] = visibility, supportsProbe: TransferSizes = supports.probe, supportsArithmetic: TransferSizes = supports.arithmetic, supportsLogical: TransferSizes = supports.logical, supportsGet: TransferSizes = supports.get, supportsPutFull: TransferSizes = supports.putFull, supportsPutPartial: TransferSizes = supports.putPartial, supportsHint: TransferSizes = supports.hint) = { new TLMasterParameters( nodePath = nodePath, resources = this.resources, name = name, visibility = visibility, unusedRegionTypes = this.unusedRegionTypes, executesOnly = this.executesOnly, requestFifo = requestFifo, supports = TLSlaveToMasterTransferSizes( probe = supportsProbe, arithmetic = supportsArithmetic, logical = supportsLogical, get = supportsGet, putFull = supportsPutFull, putPartial = supportsPutPartial, hint = supportsHint), emits = this.emits, neverReleasesData = this.neverReleasesData, sourceId = sourceId) } def v2copy( nodePath: Seq[BaseNode] = nodePath, resources: Seq[Resource] = resources, name: String = name, visibility: Seq[AddressSet] = visibility, unusedRegionTypes: Set[RegionType.T] = unusedRegionTypes, executesOnly: Boolean = executesOnly, requestFifo: Boolean = requestFifo, supports: TLSlaveToMasterTransferSizes = supports, emits: TLMasterToSlaveTransferSizes = emits, neverReleasesData: Boolean = neverReleasesData, sourceId: IdRange = sourceId) = { new TLMasterParameters( nodePath = nodePath, resources = resources, name = name, visibility = visibility, unusedRegionTypes = unusedRegionTypes, executesOnly = executesOnly, requestFifo = requestFifo, supports = supports, emits = emits, neverReleasesData = neverReleasesData, sourceId = sourceId) } @deprecated("Use v1copy instead of copy","") def copy( name: String = name, sourceId: IdRange = sourceId, nodePath: Seq[BaseNode] = nodePath, requestFifo: Boolean = requestFifo, visibility: Seq[AddressSet] = visibility, supportsProbe: TransferSizes = supports.probe, supportsArithmetic: TransferSizes = supports.arithmetic, supportsLogical: TransferSizes = supports.logical, supportsGet: TransferSizes = supports.get, supportsPutFull: TransferSizes = supports.putFull, supportsPutPartial: TransferSizes = supports.putPartial, supportsHint: TransferSizes = supports.hint) = { v1copy( name = name, sourceId = sourceId, nodePath = nodePath, requestFifo = requestFifo, visibility = visibility, supportsProbe = supportsProbe, supportsArithmetic = supportsArithmetic, supportsLogical = supportsLogical, supportsGet = supportsGet, supportsPutFull = supportsPutFull, supportsPutPartial = supportsPutPartial, supportsHint = supportsHint) } } object TLMasterParameters { def v1( name: String, sourceId: IdRange = IdRange(0,1), nodePath: Seq[BaseNode] = Seq(), requestFifo: Boolean = false, visibility: Seq[AddressSet] = Seq(AddressSet(0, ~0)), supportsProbe: TransferSizes = TransferSizes.none, supportsArithmetic: TransferSizes = TransferSizes.none, supportsLogical: TransferSizes = TransferSizes.none, supportsGet: TransferSizes = TransferSizes.none, supportsPutFull: TransferSizes = TransferSizes.none, supportsPutPartial: TransferSizes = TransferSizes.none, supportsHint: TransferSizes = TransferSizes.none) = { new TLMasterParameters( nodePath = nodePath, resources = Nil, name = name, visibility = visibility, unusedRegionTypes = Set(), executesOnly = false, requestFifo = requestFifo, supports = TLSlaveToMasterTransferSizes( probe = supportsProbe, arithmetic = supportsArithmetic, logical = supportsLogical, get = supportsGet, putFull = supportsPutFull, putPartial = supportsPutPartial, hint = supportsHint), emits = TLMasterToSlaveTransferSizes.unknownEmits, neverReleasesData = false, sourceId = sourceId) } def v2( nodePath: Seq[BaseNode] = Seq(), resources: Seq[Resource] = Nil, name: String, visibility: Seq[AddressSet] = Seq(AddressSet(0, ~0)), unusedRegionTypes: Set[RegionType.T] = Set(), executesOnly: Boolean = false, requestFifo: Boolean = false, supports: TLSlaveToMasterTransferSizes = TLSlaveToMasterTransferSizes.unknownSupports, emits: TLMasterToSlaveTransferSizes = TLMasterToSlaveTransferSizes.unknownEmits, neverReleasesData: Boolean = false, sourceId: IdRange = IdRange(0,1)) = { new TLMasterParameters( nodePath = nodePath, resources = resources, name = name, visibility = visibility, unusedRegionTypes = unusedRegionTypes, executesOnly = executesOnly, requestFifo = requestFifo, supports = supports, emits = emits, neverReleasesData = neverReleasesData, sourceId = sourceId) } } object TLClientParameters { @deprecated("Use TLMasterParameters.v1 instead of TLClientParameters","") def apply( name: String, sourceId: IdRange = IdRange(0,1), nodePath: Seq[BaseNode] = Seq(), requestFifo: Boolean = false, visibility: Seq[AddressSet] = Seq(AddressSet.everything), supportsProbe: TransferSizes = TransferSizes.none, supportsArithmetic: TransferSizes = TransferSizes.none, supportsLogical: TransferSizes = TransferSizes.none, supportsGet: TransferSizes = TransferSizes.none, supportsPutFull: TransferSizes = TransferSizes.none, supportsPutPartial: TransferSizes = TransferSizes.none, supportsHint: TransferSizes = TransferSizes.none) = { TLMasterParameters.v1( name = name, sourceId = sourceId, nodePath = nodePath, requestFifo = requestFifo, visibility = visibility, supportsProbe = supportsProbe, supportsArithmetic = supportsArithmetic, supportsLogical = supportsLogical, supportsGet = supportsGet, supportsPutFull = supportsPutFull, supportsPutPartial = supportsPutPartial, supportsHint = supportsHint) } } class TLMasterPortParameters private( val masters: Seq[TLMasterParameters], val channelBytes: TLChannelBeatBytes, val minLatency: Int, val echoFields: Seq[BundleFieldBase], val requestFields: Seq[BundleFieldBase], val responseKeys: Seq[BundleKeyBase]) extends SimpleProduct { override def canEqual(that: Any): Boolean = that.isInstanceOf[TLMasterPortParameters] override def productPrefix = "TLMasterPortParameters" def productArity: Int = 6 def productElement(n: Int): Any = n match { case 0 => masters case 1 => channelBytes case 2 => minLatency case 3 => echoFields case 4 => requestFields case 5 => responseKeys case _ => throw new IndexOutOfBoundsException(n.toString) } require (!masters.isEmpty) require (minLatency >= 0) def clients = masters // Require disjoint ranges for Ids IdRange.overlaps(masters.map(_.sourceId)).foreach { case (x, y) => require (!x.overlaps(y), s"TLClientParameters.sourceId ${x} overlaps ${y}") } // Bounds on required sizes def endSourceId = masters.map(_.sourceId.end).max def maxTransfer = masters.map(_.maxTransfer).max // The unused sources < endSourceId def unusedSources: Seq[Int] = { val usedSources = masters.map(_.sourceId).sortBy(_.start) ((Seq(0) ++ usedSources.map(_.end)) zip usedSources.map(_.start)) flatMap { case (end, start) => end until start } } // Diplomatically determined operation sizes emitted by all inward Masters // as opposed to emits* which generate circuitry to check which specific addresses val allEmitClaims = masters.map(_.emits).reduce( _ intersect _) // Diplomatically determined operation sizes Emitted by at least one inward Masters // as opposed to emits* which generate circuitry to check which specific addresses val anyEmitClaims = masters.map(_.emits).reduce(_ mincover _) // Diplomatically determined operation sizes supported by all inward Masters // as opposed to supports* which generate circuitry to check which specific addresses val allSupportProbe = masters.map(_.supports.probe) .reduce(_ intersect _) val allSupportArithmetic = masters.map(_.supports.arithmetic).reduce(_ intersect _) val allSupportLogical = masters.map(_.supports.logical) .reduce(_ intersect _) val allSupportGet = masters.map(_.supports.get) .reduce(_ intersect _) val allSupportPutFull = masters.map(_.supports.putFull) .reduce(_ intersect _) val allSupportPutPartial = masters.map(_.supports.putPartial).reduce(_ intersect _) val allSupportHint = masters.map(_.supports.hint) .reduce(_ intersect _) // Diplomatically determined operation sizes supported by at least one master // as opposed to supports* which generate circuitry to check which specific addresses val anySupportProbe = masters.map(!_.supports.probe.none) .reduce(_ || _) val anySupportArithmetic = masters.map(!_.supports.arithmetic.none).reduce(_ || _) val anySupportLogical = masters.map(!_.supports.logical.none) .reduce(_ || _) val anySupportGet = masters.map(!_.supports.get.none) .reduce(_ || _) val anySupportPutFull = masters.map(!_.supports.putFull.none) .reduce(_ || _) val anySupportPutPartial = masters.map(!_.supports.putPartial.none).reduce(_ || _) val anySupportHint = masters.map(!_.supports.hint.none) .reduce(_ || _) // These return Option[TLMasterParameters] for your convenience def find(id: Int) = masters.find(_.sourceId.contains(id)) // Synthesizable lookup methods def find(id: UInt) = VecInit(masters.map(_.sourceId.contains(id))) def contains(id: UInt) = find(id).reduce(_ || _) def requestFifo(id: UInt) = Mux1H(find(id), masters.map(c => c.requestFifo.B)) // Available during RTL runtime, checks to see if (id, size) is supported by the master's (client's) diplomatic parameters private def sourceIdHelper(member: TLMasterParameters => TransferSizes)(id: UInt, lgSize: UInt) = { val allSame = masters.map(member(_) == member(masters(0))).reduce(_ && _) // this if statement is a coarse generalization of the groupBy in the sourceIdHelper2 version; // the case where there is only one group. if (allSame) member(masters(0)).containsLg(lgSize) else { // Find the master associated with ID and returns whether that particular master is able to receive transaction of lgSize Mux1H(find(id), masters.map(member(_).containsLg(lgSize))) } } // Check for support of a given operation at a specific id val supportsProbe = sourceIdHelper(_.supports.probe) _ val supportsArithmetic = sourceIdHelper(_.supports.arithmetic) _ val supportsLogical = sourceIdHelper(_.supports.logical) _ val supportsGet = sourceIdHelper(_.supports.get) _ val supportsPutFull = sourceIdHelper(_.supports.putFull) _ val supportsPutPartial = sourceIdHelper(_.supports.putPartial) _ val supportsHint = sourceIdHelper(_.supports.hint) _ // TODO: Merge sourceIdHelper2 with sourceIdHelper private def sourceIdHelper2( member: TLMasterParameters => TransferSizes, sourceId: UInt, lgSize: UInt): Bool = { // Because sourceIds are uniquely owned by each master, we use them to group the // cases that have to be checked. val emitCases = groupByIntoSeq(masters)(m => member(m)).map { case (k, vs) => k -> vs.map(_.sourceId) } emitCases.map { case (s, a) => (s.containsLg(lgSize)) && a.map(_.contains(sourceId)).reduce(_||_) }.foldLeft(false.B)(_||_) } // Check for emit of a given operation at a specific id def emitsAcquireT (sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.acquireT, sourceId, lgSize) def emitsAcquireB (sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.acquireB, sourceId, lgSize) def emitsArithmetic(sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.arithmetic, sourceId, lgSize) def emitsLogical (sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.logical, sourceId, lgSize) def emitsGet (sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.get, sourceId, lgSize) def emitsPutFull (sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.putFull, sourceId, lgSize) def emitsPutPartial(sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.putPartial, sourceId, lgSize) def emitsHint (sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.hint, sourceId, lgSize) def infoString = masters.map(_.infoString).mkString def v1copy( clients: Seq[TLMasterParameters] = masters, minLatency: Int = minLatency, echoFields: Seq[BundleFieldBase] = echoFields, requestFields: Seq[BundleFieldBase] = requestFields, responseKeys: Seq[BundleKeyBase] = responseKeys) = { new TLMasterPortParameters( masters = clients, channelBytes = channelBytes, minLatency = minLatency, echoFields = echoFields, requestFields = requestFields, responseKeys = responseKeys) } def v2copy( masters: Seq[TLMasterParameters] = masters, channelBytes: TLChannelBeatBytes = channelBytes, minLatency: Int = minLatency, echoFields: Seq[BundleFieldBase] = echoFields, requestFields: Seq[BundleFieldBase] = requestFields, responseKeys: Seq[BundleKeyBase] = responseKeys) = { new TLMasterPortParameters( masters = masters, channelBytes = channelBytes, minLatency = minLatency, echoFields = echoFields, requestFields = requestFields, responseKeys = responseKeys) } @deprecated("Use v1copy instead of copy","") def copy( clients: Seq[TLMasterParameters] = masters, minLatency: Int = minLatency, echoFields: Seq[BundleFieldBase] = echoFields, requestFields: Seq[BundleFieldBase] = requestFields, responseKeys: Seq[BundleKeyBase] = responseKeys) = { v1copy( clients, minLatency, echoFields, requestFields, responseKeys) } } object TLClientPortParameters { @deprecated("Use TLMasterPortParameters.v1 instead of TLClientPortParameters","") def apply( clients: Seq[TLMasterParameters], minLatency: Int = 0, echoFields: Seq[BundleFieldBase] = Nil, requestFields: Seq[BundleFieldBase] = Nil, responseKeys: Seq[BundleKeyBase] = Nil) = { TLMasterPortParameters.v1( clients, minLatency, echoFields, requestFields, responseKeys) } } object TLMasterPortParameters { def v1( clients: Seq[TLMasterParameters], minLatency: Int = 0, echoFields: Seq[BundleFieldBase] = Nil, requestFields: Seq[BundleFieldBase] = Nil, responseKeys: Seq[BundleKeyBase] = Nil) = { new TLMasterPortParameters( masters = clients, channelBytes = TLChannelBeatBytes(), minLatency = minLatency, echoFields = echoFields, requestFields = requestFields, responseKeys = responseKeys) } def v2( masters: Seq[TLMasterParameters], channelBytes: TLChannelBeatBytes = TLChannelBeatBytes(), minLatency: Int = 0, echoFields: Seq[BundleFieldBase] = Nil, requestFields: Seq[BundleFieldBase] = Nil, responseKeys: Seq[BundleKeyBase] = Nil) = { new TLMasterPortParameters( masters = masters, channelBytes = channelBytes, minLatency = minLatency, echoFields = echoFields, requestFields = requestFields, responseKeys = responseKeys) } } case class TLBundleParameters( addressBits: Int, dataBits: Int, sourceBits: Int, sinkBits: Int, sizeBits: Int, echoFields: Seq[BundleFieldBase], requestFields: Seq[BundleFieldBase], responseFields: Seq[BundleFieldBase], hasBCE: Boolean) { // Chisel has issues with 0-width wires require (addressBits >= 1) require (dataBits >= 8) require (sourceBits >= 1) require (sinkBits >= 1) require (sizeBits >= 1) require (isPow2(dataBits)) echoFields.foreach { f => require (f.key.isControl, s"${f} is not a legal echo field") } val addrLoBits = log2Up(dataBits/8) // Used to uniquify bus IP names def shortName = s"a${addressBits}d${dataBits}s${sourceBits}k${sinkBits}z${sizeBits}" + (if (hasBCE) "c" else "u") def union(x: TLBundleParameters) = TLBundleParameters( max(addressBits, x.addressBits), max(dataBits, x.dataBits), max(sourceBits, x.sourceBits), max(sinkBits, x.sinkBits), max(sizeBits, x.sizeBits), echoFields = BundleField.union(echoFields ++ x.echoFields), requestFields = BundleField.union(requestFields ++ x.requestFields), responseFields = BundleField.union(responseFields ++ x.responseFields), hasBCE || x.hasBCE) } object TLBundleParameters { val emptyBundleParams = TLBundleParameters( addressBits = 1, dataBits = 8, sourceBits = 1, sinkBits = 1, sizeBits = 1, echoFields = Nil, requestFields = Nil, responseFields = Nil, hasBCE = false) def union(x: Seq[TLBundleParameters]) = x.foldLeft(emptyBundleParams)((x,y) => x.union(y)) def apply(master: TLMasterPortParameters, slave: TLSlavePortParameters) = new TLBundleParameters( addressBits = log2Up(slave.maxAddress + 1), dataBits = slave.beatBytes * 8, sourceBits = log2Up(master.endSourceId), sinkBits = log2Up(slave.endSinkId), sizeBits = log2Up(log2Ceil(max(master.maxTransfer, slave.maxTransfer))+1), echoFields = master.echoFields, requestFields = BundleField.accept(master.requestFields, slave.requestKeys), responseFields = BundleField.accept(slave.responseFields, master.responseKeys), hasBCE = master.anySupportProbe && slave.anySupportAcquireB) } case class TLEdgeParameters( master: TLMasterPortParameters, slave: TLSlavePortParameters, params: Parameters, sourceInfo: SourceInfo) extends FormatEdge { // legacy names: def manager = slave def client = master val maxTransfer = max(master.maxTransfer, slave.maxTransfer) val maxLgSize = log2Ceil(maxTransfer) // Sanity check the link... require (maxTransfer >= slave.beatBytes, s"Link's max transfer (${maxTransfer}) < ${slave.slaves.map(_.name)}'s beatBytes (${slave.beatBytes})") def diplomaticClaimsMasterToSlave = master.anyEmitClaims.intersect(slave.anySupportClaims) val bundle = TLBundleParameters(master, slave) def formatEdge = master.infoString + "\n" + slave.infoString } case class TLCreditedDelay( a: CreditedDelay, b: CreditedDelay, c: CreditedDelay, d: CreditedDelay, e: CreditedDelay) { def + (that: TLCreditedDelay): TLCreditedDelay = TLCreditedDelay( a = a + that.a, b = b + that.b, c = c + that.c, d = d + that.d, e = e + that.e) override def toString = s"(${a}, ${b}, ${c}, ${d}, ${e})" } object TLCreditedDelay { def apply(delay: CreditedDelay): TLCreditedDelay = apply(delay, delay.flip, delay, delay.flip, delay) } case class TLCreditedManagerPortParameters(delay: TLCreditedDelay, base: TLSlavePortParameters) {def infoString = base.infoString} case class TLCreditedClientPortParameters(delay: TLCreditedDelay, base: TLMasterPortParameters) {def infoString = base.infoString} case class TLCreditedEdgeParameters(client: TLCreditedClientPortParameters, manager: TLCreditedManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends FormatEdge { val delay = client.delay + manager.delay val bundle = TLBundleParameters(client.base, manager.base) def formatEdge = client.infoString + "\n" + manager.infoString } case class TLAsyncManagerPortParameters(async: AsyncQueueParams, base: TLSlavePortParameters) {def infoString = base.infoString} case class TLAsyncClientPortParameters(base: TLMasterPortParameters) {def infoString = base.infoString} case class TLAsyncBundleParameters(async: AsyncQueueParams, base: TLBundleParameters) case class TLAsyncEdgeParameters(client: TLAsyncClientPortParameters, manager: TLAsyncManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends FormatEdge { val bundle = TLAsyncBundleParameters(manager.async, TLBundleParameters(client.base, manager.base)) def formatEdge = client.infoString + "\n" + manager.infoString } case class TLRationalManagerPortParameters(direction: RationalDirection, base: TLSlavePortParameters) {def infoString = base.infoString} case class TLRationalClientPortParameters(base: TLMasterPortParameters) {def infoString = base.infoString} case class TLRationalEdgeParameters(client: TLRationalClientPortParameters, manager: TLRationalManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends FormatEdge { val bundle = TLBundleParameters(client.base, manager.base) def formatEdge = client.infoString + "\n" + manager.infoString } // To be unified, devices must agree on all of these terms case class ManagerUnificationKey( resources: Seq[Resource], regionType: RegionType.T, executable: Boolean, supportsAcquireT: TransferSizes, supportsAcquireB: TransferSizes, supportsArithmetic: TransferSizes, supportsLogical: TransferSizes, supportsGet: TransferSizes, supportsPutFull: TransferSizes, supportsPutPartial: TransferSizes, supportsHint: TransferSizes) object ManagerUnificationKey { def apply(x: TLSlaveParameters): ManagerUnificationKey = ManagerUnificationKey( resources = x.resources, regionType = x.regionType, executable = x.executable, supportsAcquireT = x.supportsAcquireT, supportsAcquireB = x.supportsAcquireB, supportsArithmetic = x.supportsArithmetic, supportsLogical = x.supportsLogical, supportsGet = x.supportsGet, supportsPutFull = x.supportsPutFull, supportsPutPartial = x.supportsPutPartial, supportsHint = x.supportsHint) } object ManagerUnification { def apply(slaves: Seq[TLSlaveParameters]): List[TLSlaveParameters] = { slaves.groupBy(ManagerUnificationKey.apply).values.map { seq => val agree = seq.forall(_.fifoId == seq.head.fifoId) seq(0).v1copy( address = AddressSet.unify(seq.flatMap(_.address)), fifoId = if (agree) seq(0).fifoId else None) }.toList } } case class TLBufferParams( a: BufferParams = BufferParams.none, b: BufferParams = BufferParams.none, c: BufferParams = BufferParams.none, d: BufferParams = BufferParams.none, e: BufferParams = BufferParams.none ) extends DirectedBuffers[TLBufferParams] { def copyIn(x: BufferParams) = this.copy(b = x, d = x) def copyOut(x: BufferParams) = this.copy(a = x, c = x, e = x) def copyInOut(x: BufferParams) = this.copyIn(x).copyOut(x) } /** Pretty printing of TL source id maps */ class TLSourceIdMap(tl: TLMasterPortParameters) extends IdMap[TLSourceIdMapEntry] { private val tlDigits = String.valueOf(tl.endSourceId-1).length() protected val fmt = s"\t[%${tlDigits}d, %${tlDigits}d) %s%s%s" private val sorted = tl.masters.sortBy(_.sourceId) val mapping: Seq[TLSourceIdMapEntry] = sorted.map { case c => TLSourceIdMapEntry(c.sourceId, c.name, c.supports.probe, c.requestFifo) } } case class TLSourceIdMapEntry(tlId: IdRange, name: String, isCache: Boolean, requestFifo: Boolean) extends IdMapEntry { val from = tlId val to = tlId val maxTransactionsInFlight = Some(tlId.size) } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module TLMonitor_87( // @[Monitor.scala:36:7] input clock, // @[Monitor.scala:36:7] input reset, // @[Monitor.scala:36:7] input io_in_a_ready, // @[Monitor.scala:20:14] input io_in_a_valid, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_opcode, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_param, // @[Monitor.scala:20:14] input [3:0] io_in_a_bits_size, // @[Monitor.scala:20:14] input [4:0] io_in_a_bits_source, // @[Monitor.scala:20:14] input [31:0] io_in_a_bits_address, // @[Monitor.scala:20:14] input [7:0] io_in_a_bits_mask, // @[Monitor.scala:20:14] input [63:0] io_in_a_bits_data, // @[Monitor.scala:20:14] input io_in_a_bits_corrupt, // @[Monitor.scala:20:14] input io_in_d_ready, // @[Monitor.scala:20:14] input io_in_d_valid, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_opcode, // @[Monitor.scala:20:14] input [1:0] io_in_d_bits_param, // @[Monitor.scala:20:14] input [3:0] io_in_d_bits_size, // @[Monitor.scala:20:14] input [4:0] io_in_d_bits_source, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_sink, // @[Monitor.scala:20:14] input io_in_d_bits_denied, // @[Monitor.scala:20:14] input [63:0] io_in_d_bits_data, // @[Monitor.scala:20:14] input io_in_d_bits_corrupt // @[Monitor.scala:20:14] ); wire [31:0] _plusarg_reader_1_out; // @[PlusArg.scala:80:11] wire [31:0] _plusarg_reader_out; // @[PlusArg.scala:80:11] wire io_in_a_ready_0 = io_in_a_ready; // @[Monitor.scala:36:7] wire io_in_a_valid_0 = io_in_a_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_opcode_0 = io_in_a_bits_opcode; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_param_0 = io_in_a_bits_param; // @[Monitor.scala:36:7] wire [3:0] io_in_a_bits_size_0 = io_in_a_bits_size; // @[Monitor.scala:36:7] wire [4:0] io_in_a_bits_source_0 = io_in_a_bits_source; // @[Monitor.scala:36:7] wire [31:0] io_in_a_bits_address_0 = io_in_a_bits_address; // @[Monitor.scala:36:7] wire [7:0] io_in_a_bits_mask_0 = io_in_a_bits_mask; // @[Monitor.scala:36:7] wire [63:0] io_in_a_bits_data_0 = io_in_a_bits_data; // @[Monitor.scala:36:7] wire io_in_a_bits_corrupt_0 = io_in_a_bits_corrupt; // @[Monitor.scala:36:7] wire io_in_d_ready_0 = io_in_d_ready; // @[Monitor.scala:36:7] wire io_in_d_valid_0 = io_in_d_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_opcode_0 = io_in_d_bits_opcode; // @[Monitor.scala:36:7] wire [1:0] io_in_d_bits_param_0 = io_in_d_bits_param; // @[Monitor.scala:36:7] wire [3:0] io_in_d_bits_size_0 = io_in_d_bits_size; // @[Monitor.scala:36:7] wire [4:0] io_in_d_bits_source_0 = io_in_d_bits_source; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_sink_0 = io_in_d_bits_sink; // @[Monitor.scala:36:7] wire io_in_d_bits_denied_0 = io_in_d_bits_denied; // @[Monitor.scala:36:7] wire [63:0] io_in_d_bits_data_0 = io_in_d_bits_data; // @[Monitor.scala:36:7] wire io_in_d_bits_corrupt_0 = io_in_d_bits_corrupt; // @[Monitor.scala:36:7] wire _source_ok_T = 1'h0; // @[Parameters.scala:54:10] wire _source_ok_T_6 = 1'h0; // @[Parameters.scala:54:10] wire _c_first_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_T = 1'h0; // @[Decoupled.scala:51:35] wire c_first_beats1_opdata = 1'h0; // @[Edges.scala:102:36] wire _c_first_last_T = 1'h0; // @[Edges.scala:232:25] wire c_first_done = 1'h0; // @[Edges.scala:233:22] wire _c_set_wo_ready_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T = 1'h0; // @[Monitor.scala:772:47] wire _c_probe_ack_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T_1 = 1'h0; // @[Monitor.scala:772:95] wire c_probe_ack = 1'h0; // @[Monitor.scala:772:71] wire _same_cycle_resp_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_3 = 1'h0; // @[Monitor.scala:795:44] wire _same_cycle_resp_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_4 = 1'h0; // @[Edges.scala:68:36] wire _same_cycle_resp_T_5 = 1'h0; // @[Edges.scala:68:51] wire _same_cycle_resp_T_6 = 1'h0; // @[Edges.scala:68:40] wire _same_cycle_resp_T_7 = 1'h0; // @[Monitor.scala:795:55] wire _same_cycle_resp_WIRE_4_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_5_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire same_cycle_resp_1 = 1'h0; // @[Monitor.scala:795:88] wire [8:0] c_first_beats1_decode = 9'h0; // @[Edges.scala:220:59] wire [8:0] c_first_beats1 = 9'h0; // @[Edges.scala:221:14] wire [8:0] _c_first_count_T = 9'h0; // @[Edges.scala:234:27] wire [8:0] c_first_count = 9'h0; // @[Edges.scala:234:25] wire [8:0] _c_first_counter_T = 9'h0; // @[Edges.scala:236:21] wire _source_ok_T_1 = 1'h1; // @[Parameters.scala:54:32] wire _source_ok_T_2 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_3 = 1'h1; // @[Parameters.scala:54:67] wire _source_ok_T_4 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_5 = 1'h1; // @[Parameters.scala:56:48] wire _source_ok_WIRE_0 = 1'h1; // @[Parameters.scala:1138:31] wire _source_ok_T_7 = 1'h1; // @[Parameters.scala:54:32] wire _source_ok_T_8 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_9 = 1'h1; // @[Parameters.scala:54:67] wire _source_ok_T_10 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_11 = 1'h1; // @[Parameters.scala:56:48] wire _source_ok_WIRE_1_0 = 1'h1; // @[Parameters.scala:1138:31] wire sink_ok = 1'h1; // @[Monitor.scala:309:31] wire c_first = 1'h1; // @[Edges.scala:231:25] wire _c_first_last_T_1 = 1'h1; // @[Edges.scala:232:43] wire c_first_last = 1'h1; // @[Edges.scala:232:33] wire [8:0] c_first_counter1 = 9'h1FF; // @[Edges.scala:230:28] wire [9:0] _c_first_counter1_T = 10'h3FF; // @[Edges.scala:230:28] wire [63:0] _c_first_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_first_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_wo_ready_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_wo_ready_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_4_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_5_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [31:0] _c_first_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_first_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_first_WIRE_2_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_first_WIRE_3_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] c_set = 32'h0; // @[Monitor.scala:738:34] wire [31:0] c_set_wo_ready = 32'h0; // @[Monitor.scala:739:34] wire [31:0] _c_set_wo_ready_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_set_wo_ready_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_set_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_set_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_opcodes_set_interm_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_opcodes_set_interm_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_sizes_set_interm_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_sizes_set_interm_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_opcodes_set_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_opcodes_set_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_sizes_set_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_sizes_set_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_probe_ack_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_probe_ack_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_probe_ack_WIRE_2_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_probe_ack_WIRE_3_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _same_cycle_resp_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _same_cycle_resp_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _same_cycle_resp_WIRE_2_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _same_cycle_resp_WIRE_3_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _same_cycle_resp_WIRE_4_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _same_cycle_resp_WIRE_5_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [4:0] _c_first_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_first_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_first_WIRE_2_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_first_WIRE_3_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] c_sizes_set_interm = 5'h0; // @[Monitor.scala:755:40] wire [4:0] _c_set_wo_ready_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_set_wo_ready_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_set_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_set_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_opcodes_set_interm_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_opcodes_set_interm_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_sizes_set_interm_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_sizes_set_interm_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_sizes_set_interm_T = 5'h0; // @[Monitor.scala:766:51] wire [4:0] _c_opcodes_set_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_opcodes_set_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_sizes_set_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_sizes_set_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_probe_ack_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_probe_ack_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_probe_ack_WIRE_2_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_probe_ack_WIRE_3_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _same_cycle_resp_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _same_cycle_resp_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _same_cycle_resp_WIRE_2_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _same_cycle_resp_WIRE_3_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _same_cycle_resp_WIRE_4_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _same_cycle_resp_WIRE_5_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [3:0] _c_first_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_first_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_first_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_first_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] c_opcodes_set_interm = 4'h0; // @[Monitor.scala:754:40] wire [3:0] _c_set_wo_ready_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_set_wo_ready_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_interm_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_opcodes_set_interm_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_interm_T = 4'h0; // @[Monitor.scala:765:53] wire [3:0] _c_sizes_set_interm_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_sizes_set_interm_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_opcodes_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_sizes_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_sizes_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_probe_ack_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_probe_ack_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_probe_ack_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_probe_ack_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_4_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_5_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [2:0] responseMap_0 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMap_1 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_0 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_1 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] _c_first_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_4_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_4_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_5_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_5_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [15:0] _a_size_lookup_T_5 = 16'hFF; // @[Monitor.scala:612:57] wire [15:0] _d_sizes_clr_T_3 = 16'hFF; // @[Monitor.scala:612:57] wire [15:0] _c_size_lookup_T_5 = 16'hFF; // @[Monitor.scala:724:57] wire [15:0] _d_sizes_clr_T_9 = 16'hFF; // @[Monitor.scala:724:57] wire [16:0] _a_size_lookup_T_4 = 17'hFF; // @[Monitor.scala:612:57] wire [16:0] _d_sizes_clr_T_2 = 17'hFF; // @[Monitor.scala:612:57] wire [16:0] _c_size_lookup_T_4 = 17'hFF; // @[Monitor.scala:724:57] wire [16:0] _d_sizes_clr_T_8 = 17'hFF; // @[Monitor.scala:724:57] wire [15:0] _a_size_lookup_T_3 = 16'h100; // @[Monitor.scala:612:51] wire [15:0] _d_sizes_clr_T_1 = 16'h100; // @[Monitor.scala:612:51] wire [15:0] _c_size_lookup_T_3 = 16'h100; // @[Monitor.scala:724:51] wire [15:0] _d_sizes_clr_T_7 = 16'h100; // @[Monitor.scala:724:51] wire [15:0] _a_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_opcodes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _c_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_opcodes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [16:0] _a_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_opcodes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _c_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_opcodes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [15:0] _a_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_opcodes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _c_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_opcodes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [259:0] _c_sizes_set_T_1 = 260'h0; // @[Monitor.scala:768:52] wire [7:0] _c_opcodes_set_T = 8'h0; // @[Monitor.scala:767:79] wire [7:0] _c_sizes_set_T = 8'h0; // @[Monitor.scala:768:77] wire [258:0] _c_opcodes_set_T_1 = 259'h0; // @[Monitor.scala:767:54] wire [4:0] _c_sizes_set_interm_T_1 = 5'h1; // @[Monitor.scala:766:59] wire [3:0] _c_opcodes_set_interm_T_1 = 4'h1; // @[Monitor.scala:765:61] wire [31:0] _c_set_wo_ready_T = 32'h1; // @[OneHot.scala:58:35] wire [31:0] _c_set_T = 32'h1; // @[OneHot.scala:58:35] wire [255:0] c_sizes_set = 256'h0; // @[Monitor.scala:741:34] wire [127:0] c_opcodes_set = 128'h0; // @[Monitor.scala:740:34] wire [11:0] _c_first_beats1_decode_T_2 = 12'h0; // @[package.scala:243:46] wire [11:0] _c_first_beats1_decode_T_1 = 12'hFFF; // @[package.scala:243:76] wire [26:0] _c_first_beats1_decode_T = 27'hFFF; // @[package.scala:243:71] wire [2:0] responseMap_6 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMap_7 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_7 = 3'h4; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_6 = 3'h5; // @[Monitor.scala:644:42] wire [2:0] responseMap_5 = 3'h2; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_5 = 3'h2; // @[Monitor.scala:644:42] wire [2:0] responseMap_2 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_3 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_4 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_2 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_3 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_4 = 3'h1; // @[Monitor.scala:644:42] wire [3:0] _a_size_lookup_T_2 = 4'h8; // @[Monitor.scala:641:117] wire [3:0] _d_sizes_clr_T = 4'h8; // @[Monitor.scala:681:48] wire [3:0] _c_size_lookup_T_2 = 4'h8; // @[Monitor.scala:750:119] wire [3:0] _d_sizes_clr_T_6 = 4'h8; // @[Monitor.scala:791:48] wire [3:0] _a_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:637:123] wire [3:0] _d_opcodes_clr_T = 4'h4; // @[Monitor.scala:680:48] wire [3:0] _c_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:749:123] wire [3:0] _d_opcodes_clr_T_6 = 4'h4; // @[Monitor.scala:790:48] wire [3:0] _mask_sizeOH_T = io_in_a_bits_size_0; // @[Misc.scala:202:34] wire [4:0] _source_ok_uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_4 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_5 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_6 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_7 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_8 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _source_ok_uncommonBits_T_1 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] source_ok_uncommonBits = _source_ok_uncommonBits_T; // @[Parameters.scala:52:{29,56}] wire [26:0] _GEN = 27'hFFF << io_in_a_bits_size_0; // @[package.scala:243:71] wire [26:0] _is_aligned_mask_T; // @[package.scala:243:71] assign _is_aligned_mask_T = _GEN; // @[package.scala:243:71] wire [26:0] _a_first_beats1_decode_T; // @[package.scala:243:71] assign _a_first_beats1_decode_T = _GEN; // @[package.scala:243:71] wire [26:0] _a_first_beats1_decode_T_3; // @[package.scala:243:71] assign _a_first_beats1_decode_T_3 = _GEN; // @[package.scala:243:71] wire [11:0] _is_aligned_mask_T_1 = _is_aligned_mask_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] is_aligned_mask = ~_is_aligned_mask_T_1; // @[package.scala:243:{46,76}] wire [31:0] _is_aligned_T = {20'h0, io_in_a_bits_address_0[11:0] & is_aligned_mask}; // @[package.scala:243:46] wire is_aligned = _is_aligned_T == 32'h0; // @[Edges.scala:21:{16,24}] wire [1:0] mask_sizeOH_shiftAmount = _mask_sizeOH_T[1:0]; // @[OneHot.scala:64:49] wire [3:0] _mask_sizeOH_T_1 = 4'h1 << mask_sizeOH_shiftAmount; // @[OneHot.scala:64:49, :65:12] wire [2:0] _mask_sizeOH_T_2 = _mask_sizeOH_T_1[2:0]; // @[OneHot.scala:65:{12,27}] wire [2:0] mask_sizeOH = {_mask_sizeOH_T_2[2:1], 1'h1}; // @[OneHot.scala:65:27] wire mask_sub_sub_sub_0_1 = io_in_a_bits_size_0 > 4'h2; // @[Misc.scala:206:21] wire mask_sub_sub_size = mask_sizeOH[2]; // @[Misc.scala:202:81, :209:26] wire mask_sub_sub_bit = io_in_a_bits_address_0[2]; // @[Misc.scala:210:26] wire mask_sub_sub_1_2 = mask_sub_sub_bit; // @[Misc.scala:210:26, :214:27] wire mask_sub_sub_nbit = ~mask_sub_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_sub_0_2 = mask_sub_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_sub_acc_T = mask_sub_sub_size & mask_sub_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_0_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T; // @[Misc.scala:206:21, :215:{29,38}] wire _mask_sub_sub_acc_T_1 = mask_sub_sub_size & mask_sub_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_1_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T_1; // @[Misc.scala:206:21, :215:{29,38}] wire mask_sub_size = mask_sizeOH[1]; // @[Misc.scala:202:81, :209:26] wire mask_sub_bit = io_in_a_bits_address_0[1]; // @[Misc.scala:210:26] wire mask_sub_nbit = ~mask_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_0_2 = mask_sub_sub_0_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T = mask_sub_size & mask_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_0_1 = mask_sub_sub_0_1 | _mask_sub_acc_T; // @[Misc.scala:215:{29,38}] wire mask_sub_1_2 = mask_sub_sub_0_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_1 = mask_sub_size & mask_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_1_1 = mask_sub_sub_0_1 | _mask_sub_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_sub_2_2 = mask_sub_sub_1_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T_2 = mask_sub_size & mask_sub_2_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_2_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_sub_3_2 = mask_sub_sub_1_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_3 = mask_sub_size & mask_sub_3_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_3_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_size = mask_sizeOH[0]; // @[Misc.scala:202:81, :209:26] wire mask_bit = io_in_a_bits_address_0[0]; // @[Misc.scala:210:26] wire mask_nbit = ~mask_bit; // @[Misc.scala:210:26, :211:20] wire mask_eq = mask_sub_0_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T = mask_size & mask_eq; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc = mask_sub_0_1 | _mask_acc_T; // @[Misc.scala:215:{29,38}] wire mask_eq_1 = mask_sub_0_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_1 = mask_size & mask_eq_1; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_1 = mask_sub_0_1 | _mask_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_eq_2 = mask_sub_1_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_2 = mask_size & mask_eq_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_2 = mask_sub_1_1 | _mask_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_eq_3 = mask_sub_1_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_3 = mask_size & mask_eq_3; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_3 = mask_sub_1_1 | _mask_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_eq_4 = mask_sub_2_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_4 = mask_size & mask_eq_4; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_4 = mask_sub_2_1 | _mask_acc_T_4; // @[Misc.scala:215:{29,38}] wire mask_eq_5 = mask_sub_2_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_5 = mask_size & mask_eq_5; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_5 = mask_sub_2_1 | _mask_acc_T_5; // @[Misc.scala:215:{29,38}] wire mask_eq_6 = mask_sub_3_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_6 = mask_size & mask_eq_6; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_6 = mask_sub_3_1 | _mask_acc_T_6; // @[Misc.scala:215:{29,38}] wire mask_eq_7 = mask_sub_3_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_7 = mask_size & mask_eq_7; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_7 = mask_sub_3_1 | _mask_acc_T_7; // @[Misc.scala:215:{29,38}] wire [1:0] mask_lo_lo = {mask_acc_1, mask_acc}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_lo_hi = {mask_acc_3, mask_acc_2}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_lo = {mask_lo_hi, mask_lo_lo}; // @[Misc.scala:222:10] wire [1:0] mask_hi_lo = {mask_acc_5, mask_acc_4}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_hi_hi = {mask_acc_7, mask_acc_6}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_hi = {mask_hi_hi, mask_hi_lo}; // @[Misc.scala:222:10] wire [7:0] mask = {mask_hi, mask_lo}; // @[Misc.scala:222:10] wire [4:0] uncommonBits = _uncommonBits_T; // @[Parameters.scala:52:{29,56}] wire [4:0] uncommonBits_1 = _uncommonBits_T_1; // @[Parameters.scala:52:{29,56}] wire [4:0] uncommonBits_2 = _uncommonBits_T_2; // @[Parameters.scala:52:{29,56}] wire [4:0] uncommonBits_3 = _uncommonBits_T_3; // @[Parameters.scala:52:{29,56}] wire [4:0] uncommonBits_4 = _uncommonBits_T_4; // @[Parameters.scala:52:{29,56}] wire [4:0] uncommonBits_5 = _uncommonBits_T_5; // @[Parameters.scala:52:{29,56}] wire [4:0] uncommonBits_6 = _uncommonBits_T_6; // @[Parameters.scala:52:{29,56}] wire [4:0] uncommonBits_7 = _uncommonBits_T_7; // @[Parameters.scala:52:{29,56}] wire [4:0] uncommonBits_8 = _uncommonBits_T_8; // @[Parameters.scala:52:{29,56}] wire [4:0] source_ok_uncommonBits_1 = _source_ok_uncommonBits_T_1; // @[Parameters.scala:52:{29,56}] wire _T_1257 = io_in_a_ready_0 & io_in_a_valid_0; // @[Decoupled.scala:51:35] wire _a_first_T; // @[Decoupled.scala:51:35] assign _a_first_T = _T_1257; // @[Decoupled.scala:51:35] wire _a_first_T_1; // @[Decoupled.scala:51:35] assign _a_first_T_1 = _T_1257; // @[Decoupled.scala:51:35] wire [11:0] _a_first_beats1_decode_T_1 = _a_first_beats1_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _a_first_beats1_decode_T_2 = ~_a_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] a_first_beats1_decode = _a_first_beats1_decode_T_2[11:3]; // @[package.scala:243:46] wire _a_first_beats1_opdata_T = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire _a_first_beats1_opdata_T_1 = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire a_first_beats1_opdata = ~_a_first_beats1_opdata_T; // @[Edges.scala:92:{28,37}] wire [8:0] a_first_beats1 = a_first_beats1_opdata ? a_first_beats1_decode : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] a_first_counter; // @[Edges.scala:229:27] wire [9:0] _a_first_counter1_T = {1'h0, a_first_counter} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] a_first_counter1 = _a_first_counter1_T[8:0]; // @[Edges.scala:230:28] wire a_first = a_first_counter == 9'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T = a_first_counter == 9'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_1 = a_first_beats1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last = _a_first_last_T | _a_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire a_first_done = a_first_last & _a_first_T; // @[Decoupled.scala:51:35] wire [8:0] _a_first_count_T = ~a_first_counter1; // @[Edges.scala:230:28, :234:27] wire [8:0] a_first_count = a_first_beats1 & _a_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _a_first_counter_T = a_first ? a_first_beats1 : a_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode; // @[Monitor.scala:387:22] reg [2:0] param; // @[Monitor.scala:388:22] reg [3:0] size; // @[Monitor.scala:389:22] reg [4:0] source; // @[Monitor.scala:390:22] reg [31:0] address; // @[Monitor.scala:391:22] wire _T_1330 = io_in_d_ready_0 & io_in_d_valid_0; // @[Decoupled.scala:51:35] wire _d_first_T; // @[Decoupled.scala:51:35] assign _d_first_T = _T_1330; // @[Decoupled.scala:51:35] wire _d_first_T_1; // @[Decoupled.scala:51:35] assign _d_first_T_1 = _T_1330; // @[Decoupled.scala:51:35] wire _d_first_T_2; // @[Decoupled.scala:51:35] assign _d_first_T_2 = _T_1330; // @[Decoupled.scala:51:35] wire [26:0] _GEN_0 = 27'hFFF << io_in_d_bits_size_0; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T; // @[package.scala:243:71] assign _d_first_beats1_decode_T = _GEN_0; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T_3; // @[package.scala:243:71] assign _d_first_beats1_decode_T_3 = _GEN_0; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T_6; // @[package.scala:243:71] assign _d_first_beats1_decode_T_6 = _GEN_0; // @[package.scala:243:71] wire [11:0] _d_first_beats1_decode_T_1 = _d_first_beats1_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_2 = ~_d_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode = _d_first_beats1_decode_T_2[11:3]; // @[package.scala:243:46] wire d_first_beats1_opdata = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_1 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_2 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire [8:0] d_first_beats1 = d_first_beats1_opdata ? d_first_beats1_decode : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T = {1'h0, d_first_counter} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1 = _d_first_counter1_T[8:0]; // @[Edges.scala:230:28] wire d_first = d_first_counter == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T = d_first_counter == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_1 = d_first_beats1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last = _d_first_last_T | _d_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire d_first_done = d_first_last & _d_first_T; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T = ~d_first_counter1; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count = d_first_beats1 & _d_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T = d_first ? d_first_beats1 : d_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode_1; // @[Monitor.scala:538:22] reg [1:0] param_1; // @[Monitor.scala:539:22] reg [3:0] size_1; // @[Monitor.scala:540:22] reg [4:0] source_1; // @[Monitor.scala:541:22] reg [2:0] sink; // @[Monitor.scala:542:22] reg denied; // @[Monitor.scala:543:22] reg [31:0] inflight; // @[Monitor.scala:614:27] reg [127:0] inflight_opcodes; // @[Monitor.scala:616:35] reg [255:0] inflight_sizes; // @[Monitor.scala:618:33] wire [11:0] _a_first_beats1_decode_T_4 = _a_first_beats1_decode_T_3[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _a_first_beats1_decode_T_5 = ~_a_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [8:0] a_first_beats1_decode_1 = _a_first_beats1_decode_T_5[11:3]; // @[package.scala:243:46] wire a_first_beats1_opdata_1 = ~_a_first_beats1_opdata_T_1; // @[Edges.scala:92:{28,37}] wire [8:0] a_first_beats1_1 = a_first_beats1_opdata_1 ? a_first_beats1_decode_1 : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] a_first_counter_1; // @[Edges.scala:229:27] wire [9:0] _a_first_counter1_T_1 = {1'h0, a_first_counter_1} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] a_first_counter1_1 = _a_first_counter1_T_1[8:0]; // @[Edges.scala:230:28] wire a_first_1 = a_first_counter_1 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T_2 = a_first_counter_1 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_3 = a_first_beats1_1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last_1 = _a_first_last_T_2 | _a_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire a_first_done_1 = a_first_last_1 & _a_first_T_1; // @[Decoupled.scala:51:35] wire [8:0] _a_first_count_T_1 = ~a_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [8:0] a_first_count_1 = a_first_beats1_1 & _a_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _a_first_counter_T_1 = a_first_1 ? a_first_beats1_1 : a_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [11:0] _d_first_beats1_decode_T_4 = _d_first_beats1_decode_T_3[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_5 = ~_d_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode_1 = _d_first_beats1_decode_T_5[11:3]; // @[package.scala:243:46] wire [8:0] d_first_beats1_1 = d_first_beats1_opdata_1 ? d_first_beats1_decode_1 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter_1; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T_1 = {1'h0, d_first_counter_1} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1_1 = _d_first_counter1_T_1[8:0]; // @[Edges.scala:230:28] wire d_first_1 = d_first_counter_1 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_2 = d_first_counter_1 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_3 = d_first_beats1_1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_1 = _d_first_last_T_2 | _d_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire d_first_done_1 = d_first_last_1 & _d_first_T_1; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T_1 = ~d_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count_1 = d_first_beats1_1 & _d_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T_1 = d_first_1 ? d_first_beats1_1 : d_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [31:0] a_set; // @[Monitor.scala:626:34] wire [31:0] a_set_wo_ready; // @[Monitor.scala:627:34] wire [127:0] a_opcodes_set; // @[Monitor.scala:630:33] wire [255:0] a_sizes_set; // @[Monitor.scala:632:31] wire [2:0] a_opcode_lookup; // @[Monitor.scala:635:35] wire [7:0] _GEN_1 = {1'h0, io_in_d_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :637:69] wire [7:0] _a_opcode_lookup_T; // @[Monitor.scala:637:69] assign _a_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69] wire [7:0] _d_opcodes_clr_T_4; // @[Monitor.scala:680:101] assign _d_opcodes_clr_T_4 = _GEN_1; // @[Monitor.scala:637:69, :680:101] wire [7:0] _c_opcode_lookup_T; // @[Monitor.scala:749:69] assign _c_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :749:69] wire [7:0] _d_opcodes_clr_T_10; // @[Monitor.scala:790:101] assign _d_opcodes_clr_T_10 = _GEN_1; // @[Monitor.scala:637:69, :790:101] wire [127:0] _a_opcode_lookup_T_1 = inflight_opcodes >> _a_opcode_lookup_T; // @[Monitor.scala:616:35, :637:{44,69}] wire [127:0] _a_opcode_lookup_T_6 = {124'h0, _a_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:637:{44,97}] wire [127:0] _a_opcode_lookup_T_7 = {1'h0, _a_opcode_lookup_T_6[127:1]}; // @[Monitor.scala:637:{97,152}] assign a_opcode_lookup = _a_opcode_lookup_T_7[2:0]; // @[Monitor.scala:635:35, :637:{21,152}] wire [7:0] a_size_lookup; // @[Monitor.scala:639:33] wire [7:0] _GEN_2 = {io_in_d_bits_source_0, 3'h0}; // @[Monitor.scala:36:7, :641:65] wire [7:0] _a_size_lookup_T; // @[Monitor.scala:641:65] assign _a_size_lookup_T = _GEN_2; // @[Monitor.scala:641:65] wire [7:0] _d_sizes_clr_T_4; // @[Monitor.scala:681:99] assign _d_sizes_clr_T_4 = _GEN_2; // @[Monitor.scala:641:65, :681:99] wire [7:0] _c_size_lookup_T; // @[Monitor.scala:750:67] assign _c_size_lookup_T = _GEN_2; // @[Monitor.scala:641:65, :750:67] wire [7:0] _d_sizes_clr_T_10; // @[Monitor.scala:791:99] assign _d_sizes_clr_T_10 = _GEN_2; // @[Monitor.scala:641:65, :791:99] wire [255:0] _a_size_lookup_T_1 = inflight_sizes >> _a_size_lookup_T; // @[Monitor.scala:618:33, :641:{40,65}] wire [255:0] _a_size_lookup_T_6 = {248'h0, _a_size_lookup_T_1[7:0]}; // @[Monitor.scala:641:{40,91}] wire [255:0] _a_size_lookup_T_7 = {1'h0, _a_size_lookup_T_6[255:1]}; // @[Monitor.scala:641:{91,144}] assign a_size_lookup = _a_size_lookup_T_7[7:0]; // @[Monitor.scala:639:33, :641:{19,144}] wire [3:0] a_opcodes_set_interm; // @[Monitor.scala:646:40] wire [4:0] a_sizes_set_interm; // @[Monitor.scala:648:38] wire _same_cycle_resp_T = io_in_a_valid_0 & a_first_1; // @[Monitor.scala:36:7, :651:26, :684:44] wire [31:0] _GEN_3 = {27'h0, io_in_a_bits_source_0}; // @[OneHot.scala:58:35] wire [31:0] _GEN_4 = 32'h1 << _GEN_3; // @[OneHot.scala:58:35] wire [31:0] _a_set_wo_ready_T; // @[OneHot.scala:58:35] assign _a_set_wo_ready_T = _GEN_4; // @[OneHot.scala:58:35] wire [31:0] _a_set_T; // @[OneHot.scala:58:35] assign _a_set_T = _GEN_4; // @[OneHot.scala:58:35] assign a_set_wo_ready = _same_cycle_resp_T ? _a_set_wo_ready_T : 32'h0; // @[OneHot.scala:58:35] wire _T_1183 = _T_1257 & a_first_1; // @[Decoupled.scala:51:35] assign a_set = _T_1183 ? _a_set_T : 32'h0; // @[OneHot.scala:58:35] wire [3:0] _a_opcodes_set_interm_T = {io_in_a_bits_opcode_0, 1'h0}; // @[Monitor.scala:36:7, :657:53] wire [3:0] _a_opcodes_set_interm_T_1 = {_a_opcodes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:657:{53,61}] assign a_opcodes_set_interm = _T_1183 ? _a_opcodes_set_interm_T_1 : 4'h0; // @[Monitor.scala:646:40, :655:{25,70}, :657:{28,61}] wire [4:0] _a_sizes_set_interm_T = {io_in_a_bits_size_0, 1'h0}; // @[Monitor.scala:36:7, :658:51] wire [4:0] _a_sizes_set_interm_T_1 = {_a_sizes_set_interm_T[4:1], 1'h1}; // @[Monitor.scala:658:{51,59}] assign a_sizes_set_interm = _T_1183 ? _a_sizes_set_interm_T_1 : 5'h0; // @[Monitor.scala:648:38, :655:{25,70}, :658:{28,59}] wire [7:0] _a_opcodes_set_T = {1'h0, io_in_a_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :659:79] wire [258:0] _a_opcodes_set_T_1 = {255'h0, a_opcodes_set_interm} << _a_opcodes_set_T; // @[Monitor.scala:646:40, :659:{54,79}] assign a_opcodes_set = _T_1183 ? _a_opcodes_set_T_1[127:0] : 128'h0; // @[Monitor.scala:630:33, :655:{25,70}, :659:{28,54}] wire [7:0] _a_sizes_set_T = {io_in_a_bits_source_0, 3'h0}; // @[Monitor.scala:36:7, :660:77] wire [259:0] _a_sizes_set_T_1 = {255'h0, a_sizes_set_interm} << _a_sizes_set_T; // @[Monitor.scala:648:38, :659:54, :660:{52,77}] assign a_sizes_set = _T_1183 ? _a_sizes_set_T_1[255:0] : 256'h0; // @[Monitor.scala:632:31, :655:{25,70}, :660:{28,52}] wire [31:0] d_clr; // @[Monitor.scala:664:34] wire [31:0] d_clr_wo_ready; // @[Monitor.scala:665:34] wire [127:0] d_opcodes_clr; // @[Monitor.scala:668:33] wire [255:0] d_sizes_clr; // @[Monitor.scala:670:31] wire _GEN_5 = io_in_d_bits_opcode_0 == 3'h6; // @[Monitor.scala:36:7, :673:46] wire d_release_ack; // @[Monitor.scala:673:46] assign d_release_ack = _GEN_5; // @[Monitor.scala:673:46] wire d_release_ack_1; // @[Monitor.scala:783:46] assign d_release_ack_1 = _GEN_5; // @[Monitor.scala:673:46, :783:46] wire _T_1229 = io_in_d_valid_0 & d_first_1; // @[Monitor.scala:36:7, :674:26] wire [31:0] _GEN_6 = {27'h0, io_in_d_bits_source_0}; // @[OneHot.scala:58:35] wire [31:0] _GEN_7 = 32'h1 << _GEN_6; // @[OneHot.scala:58:35] wire [31:0] _d_clr_wo_ready_T; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T = _GEN_7; // @[OneHot.scala:58:35] wire [31:0] _d_clr_T; // @[OneHot.scala:58:35] assign _d_clr_T = _GEN_7; // @[OneHot.scala:58:35] wire [31:0] _d_clr_wo_ready_T_1; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T_1 = _GEN_7; // @[OneHot.scala:58:35] wire [31:0] _d_clr_T_1; // @[OneHot.scala:58:35] assign _d_clr_T_1 = _GEN_7; // @[OneHot.scala:58:35] assign d_clr_wo_ready = _T_1229 & ~d_release_ack ? _d_clr_wo_ready_T : 32'h0; // @[OneHot.scala:58:35] wire _T_1198 = _T_1330 & d_first_1 & ~d_release_ack; // @[Decoupled.scala:51:35] assign d_clr = _T_1198 ? _d_clr_T : 32'h0; // @[OneHot.scala:58:35] wire [270:0] _d_opcodes_clr_T_5 = 271'hF << _d_opcodes_clr_T_4; // @[Monitor.scala:680:{76,101}] assign d_opcodes_clr = _T_1198 ? _d_opcodes_clr_T_5[127:0] : 128'h0; // @[Monitor.scala:668:33, :678:{25,70,89}, :680:{21,76}] wire [270:0] _d_sizes_clr_T_5 = 271'hFF << _d_sizes_clr_T_4; // @[Monitor.scala:681:{74,99}] assign d_sizes_clr = _T_1198 ? _d_sizes_clr_T_5[255:0] : 256'h0; // @[Monitor.scala:670:31, :678:{25,70,89}, :681:{21,74}] wire _same_cycle_resp_T_1 = _same_cycle_resp_T; // @[Monitor.scala:684:{44,55}] wire _same_cycle_resp_T_2 = io_in_a_bits_source_0 == io_in_d_bits_source_0; // @[Monitor.scala:36:7, :684:113] wire same_cycle_resp = _same_cycle_resp_T_1 & _same_cycle_resp_T_2; // @[Monitor.scala:684:{55,88,113}] wire [31:0] _inflight_T = inflight | a_set; // @[Monitor.scala:614:27, :626:34, :705:27] wire [31:0] _inflight_T_1 = ~d_clr; // @[Monitor.scala:664:34, :705:38] wire [31:0] _inflight_T_2 = _inflight_T & _inflight_T_1; // @[Monitor.scala:705:{27,36,38}] wire [127:0] _inflight_opcodes_T = inflight_opcodes | a_opcodes_set; // @[Monitor.scala:616:35, :630:33, :706:43] wire [127:0] _inflight_opcodes_T_1 = ~d_opcodes_clr; // @[Monitor.scala:668:33, :706:62] wire [127:0] _inflight_opcodes_T_2 = _inflight_opcodes_T & _inflight_opcodes_T_1; // @[Monitor.scala:706:{43,60,62}] wire [255:0] _inflight_sizes_T = inflight_sizes | a_sizes_set; // @[Monitor.scala:618:33, :632:31, :707:39] wire [255:0] _inflight_sizes_T_1 = ~d_sizes_clr; // @[Monitor.scala:670:31, :707:56] wire [255:0] _inflight_sizes_T_2 = _inflight_sizes_T & _inflight_sizes_T_1; // @[Monitor.scala:707:{39,54,56}] reg [31:0] watchdog; // @[Monitor.scala:709:27] wire [32:0] _watchdog_T = {1'h0, watchdog} + 33'h1; // @[Monitor.scala:709:27, :714:26] wire [31:0] _watchdog_T_1 = _watchdog_T[31:0]; // @[Monitor.scala:714:26] reg [31:0] inflight_1; // @[Monitor.scala:726:35] wire [31:0] _inflight_T_3 = inflight_1; // @[Monitor.scala:726:35, :814:35] reg [127:0] inflight_opcodes_1; // @[Monitor.scala:727:35] wire [127:0] _inflight_opcodes_T_3 = inflight_opcodes_1; // @[Monitor.scala:727:35, :815:43] reg [255:0] inflight_sizes_1; // @[Monitor.scala:728:35] wire [255:0] _inflight_sizes_T_3 = inflight_sizes_1; // @[Monitor.scala:728:35, :816:41] wire [11:0] _d_first_beats1_decode_T_7 = _d_first_beats1_decode_T_6[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_8 = ~_d_first_beats1_decode_T_7; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode_2 = _d_first_beats1_decode_T_8[11:3]; // @[package.scala:243:46] wire [8:0] d_first_beats1_2 = d_first_beats1_opdata_2 ? d_first_beats1_decode_2 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter_2; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T_2 = {1'h0, d_first_counter_2} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1_2 = _d_first_counter1_T_2[8:0]; // @[Edges.scala:230:28] wire d_first_2 = d_first_counter_2 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_4 = d_first_counter_2 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_5 = d_first_beats1_2 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_2 = _d_first_last_T_4 | _d_first_last_T_5; // @[Edges.scala:232:{25,33,43}] wire d_first_done_2 = d_first_last_2 & _d_first_T_2; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T_2 = ~d_first_counter1_2; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count_2 = d_first_beats1_2 & _d_first_count_T_2; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T_2 = d_first_2 ? d_first_beats1_2 : d_first_counter1_2; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [3:0] c_opcode_lookup; // @[Monitor.scala:747:35] wire [7:0] c_size_lookup; // @[Monitor.scala:748:35] wire [127:0] _c_opcode_lookup_T_1 = inflight_opcodes_1 >> _c_opcode_lookup_T; // @[Monitor.scala:727:35, :749:{44,69}] wire [127:0] _c_opcode_lookup_T_6 = {124'h0, _c_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:749:{44,97}] wire [127:0] _c_opcode_lookup_T_7 = {1'h0, _c_opcode_lookup_T_6[127:1]}; // @[Monitor.scala:749:{97,152}] assign c_opcode_lookup = _c_opcode_lookup_T_7[3:0]; // @[Monitor.scala:747:35, :749:{21,152}] wire [255:0] _c_size_lookup_T_1 = inflight_sizes_1 >> _c_size_lookup_T; // @[Monitor.scala:728:35, :750:{42,67}] wire [255:0] _c_size_lookup_T_6 = {248'h0, _c_size_lookup_T_1[7:0]}; // @[Monitor.scala:750:{42,93}] wire [255:0] _c_size_lookup_T_7 = {1'h0, _c_size_lookup_T_6[255:1]}; // @[Monitor.scala:750:{93,146}] assign c_size_lookup = _c_size_lookup_T_7[7:0]; // @[Monitor.scala:748:35, :750:{21,146}] wire [31:0] d_clr_1; // @[Monitor.scala:774:34] wire [31:0] d_clr_wo_ready_1; // @[Monitor.scala:775:34] wire [127:0] d_opcodes_clr_1; // @[Monitor.scala:776:34] wire [255:0] d_sizes_clr_1; // @[Monitor.scala:777:34] wire _T_1301 = io_in_d_valid_0 & d_first_2; // @[Monitor.scala:36:7, :784:26] assign d_clr_wo_ready_1 = _T_1301 & d_release_ack_1 ? _d_clr_wo_ready_T_1 : 32'h0; // @[OneHot.scala:58:35] wire _T_1283 = _T_1330 & d_first_2 & d_release_ack_1; // @[Decoupled.scala:51:35] assign d_clr_1 = _T_1283 ? _d_clr_T_1 : 32'h0; // @[OneHot.scala:58:35] wire [270:0] _d_opcodes_clr_T_11 = 271'hF << _d_opcodes_clr_T_10; // @[Monitor.scala:790:{76,101}] assign d_opcodes_clr_1 = _T_1283 ? _d_opcodes_clr_T_11[127:0] : 128'h0; // @[Monitor.scala:776:34, :788:{25,70,88}, :790:{21,76}] wire [270:0] _d_sizes_clr_T_11 = 271'hFF << _d_sizes_clr_T_10; // @[Monitor.scala:791:{74,99}] assign d_sizes_clr_1 = _T_1283 ? _d_sizes_clr_T_11[255:0] : 256'h0; // @[Monitor.scala:777:34, :788:{25,70,88}, :791:{21,74}] wire _same_cycle_resp_T_8 = io_in_d_bits_source_0 == 5'h0; // @[Monitor.scala:36:7, :795:113] wire [31:0] _inflight_T_4 = ~d_clr_1; // @[Monitor.scala:774:34, :814:46] wire [31:0] _inflight_T_5 = _inflight_T_3 & _inflight_T_4; // @[Monitor.scala:814:{35,44,46}] wire [127:0] _inflight_opcodes_T_4 = ~d_opcodes_clr_1; // @[Monitor.scala:776:34, :815:62] wire [127:0] _inflight_opcodes_T_5 = _inflight_opcodes_T_3 & _inflight_opcodes_T_4; // @[Monitor.scala:815:{43,60,62}] wire [255:0] _inflight_sizes_T_4 = ~d_sizes_clr_1; // @[Monitor.scala:777:34, :816:58] wire [255:0] _inflight_sizes_T_5 = _inflight_sizes_T_3 & _inflight_sizes_T_4; // @[Monitor.scala:816:{41,56,58}] reg [31:0] watchdog_1; // @[Monitor.scala:818:27]
Generate the Verilog code corresponding to the following Chisel files. File Misc.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import scala.math._ class ParameterizedBundle(implicit p: Parameters) extends Bundle trait Clocked extends Bundle { val clock = Clock() val reset = Bool() } object DecoupledHelper { def apply(rvs: Bool*) = new DecoupledHelper(rvs) } class DecoupledHelper(val rvs: Seq[Bool]) { def fire(exclude: Bool, includes: Bool*) = { require(rvs.contains(exclude), "Excluded Bool not present in DecoupledHelper! Note that DecoupledHelper uses referential equality for exclusion! If you don't want to exclude anything, use fire()!") (rvs.filter(_ ne exclude) ++ includes).reduce(_ && _) } def fire() = { rvs.reduce(_ && _) } } object MuxT { def apply[T <: Data, U <: Data](cond: Bool, con: (T, U), alt: (T, U)): (T, U) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2)) def apply[T <: Data, U <: Data, W <: Data](cond: Bool, con: (T, U, W), alt: (T, U, W)): (T, U, W) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3)) def apply[T <: Data, U <: Data, W <: Data, X <: Data](cond: Bool, con: (T, U, W, X), alt: (T, U, W, X)): (T, U, W, X) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3), Mux(cond, con._4, alt._4)) } /** Creates a cascade of n MuxTs to search for a key value. */ object MuxTLookup { def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } } object ValidMux { def apply[T <: Data](v1: ValidIO[T], v2: ValidIO[T]*): ValidIO[T] = { apply(v1 +: v2.toSeq) } def apply[T <: Data](valids: Seq[ValidIO[T]]): ValidIO[T] = { val out = Wire(Valid(valids.head.bits.cloneType)) out.valid := valids.map(_.valid).reduce(_ || _) out.bits := MuxCase(valids.head.bits, valids.map(v => (v.valid -> v.bits))) out } } object Str { def apply(s: String): UInt = { var i = BigInt(0) require(s.forall(validChar _)) for (c <- s) i = (i << 8) | c i.U((s.length*8).W) } def apply(x: Char): UInt = { require(validChar(x)) x.U(8.W) } def apply(x: UInt): UInt = apply(x, 10) def apply(x: UInt, radix: Int): UInt = { val rad = radix.U val w = x.getWidth require(w > 0) var q = x var s = digit(q % rad) for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad s = Cat(Mux((radix == 10).B && q === 0.U, Str(' '), digit(q % rad)), s) } s } def apply(x: SInt): UInt = apply(x, 10) def apply(x: SInt, radix: Int): UInt = { val neg = x < 0.S val abs = x.abs.asUInt if (radix != 10) { Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix)) } else { val rad = radix.U val w = abs.getWidth require(w > 0) var q = abs var s = digit(q % rad) var needSign = neg for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad val placeSpace = q === 0.U val space = Mux(needSign, Str('-'), Str(' ')) needSign = needSign && !placeSpace s = Cat(Mux(placeSpace, space, digit(q % rad)), s) } Cat(Mux(needSign, Str('-'), Str(' ')), s) } } private def digit(d: UInt): UInt = Mux(d < 10.U, Str('0')+d, Str(('a'-10).toChar)+d)(7,0) private def validChar(x: Char) = x == (x & 0xFF) } object Split { def apply(x: UInt, n0: Int) = { val w = x.getWidth (x.extract(w-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n2: Int, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n2), x.extract(n2-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } } object Random { def apply(mod: Int, random: UInt): UInt = { if (isPow2(mod)) random.extract(log2Ceil(mod)-1,0) else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod)) } def apply(mod: Int): UInt = apply(mod, randomizer) def oneHot(mod: Int, random: UInt): UInt = { if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0)) else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).asUInt } def oneHot(mod: Int): UInt = oneHot(mod, randomizer) private def randomizer = LFSR(16) private def partition(value: UInt, slices: Int) = Seq.tabulate(slices)(i => value < (((i + 1) << value.getWidth) / slices).U) } object Majority { def apply(in: Set[Bool]): Bool = { val n = (in.size >> 1) + 1 val clauses = in.subsets(n).map(_.reduce(_ && _)) clauses.reduce(_ || _) } def apply(in: Seq[Bool]): Bool = apply(in.toSet) def apply(in: UInt): Bool = apply(in.asBools.toSet) } object PopCountAtLeast { private def two(x: UInt): (Bool, Bool) = x.getWidth match { case 1 => (x.asBool, false.B) case n => val half = x.getWidth / 2 val (leftOne, leftTwo) = two(x(half - 1, 0)) val (rightOne, rightTwo) = two(x(x.getWidth - 1, half)) (leftOne || rightOne, leftTwo || rightTwo || (leftOne && rightOne)) } def apply(x: UInt, n: Int): Bool = n match { case 0 => true.B case 1 => x.orR case 2 => two(x)._2 case 3 => PopCount(x) >= n.U } } // This gets used everywhere, so make the smallest circuit possible ... // Given an address and size, create a mask of beatBytes size // eg: (0x3, 0, 4) => 0001, (0x3, 1, 4) => 0011, (0x3, 2, 4) => 1111 // groupBy applies an interleaved OR reduction; groupBy=2 take 0010 => 01 object MaskGen { def apply(addr_lo: UInt, lgSize: UInt, beatBytes: Int, groupBy: Int = 1): UInt = { require (groupBy >= 1 && beatBytes >= groupBy) require (isPow2(beatBytes) && isPow2(groupBy)) val lgBytes = log2Ceil(beatBytes) val sizeOH = UIntToOH(lgSize | 0.U(log2Up(beatBytes).W), log2Up(beatBytes)) | (groupBy*2 - 1).U def helper(i: Int): Seq[(Bool, Bool)] = { if (i == 0) { Seq((lgSize >= lgBytes.asUInt, true.B)) } else { val sub = helper(i-1) val size = sizeOH(lgBytes - i) val bit = addr_lo(lgBytes - i) val nbit = !bit Seq.tabulate (1 << i) { j => val (sub_acc, sub_eq) = sub(j/2) val eq = sub_eq && (if (j % 2 == 1) bit else nbit) val acc = sub_acc || (size && eq) (acc, eq) } } } if (groupBy == beatBytes) 1.U else Cat(helper(lgBytes-log2Ceil(groupBy)).map(_._1).reverse) } } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Metadata.scala: // See LICENSE.SiFive for license details. // See LICENSE.Berkeley for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import freechips.rocketchip.rocket.constants.MemoryOpConstants import freechips.rocketchip.util._ object ClientStates { val width = 2 def Nothing = 0.U(width.W) def Branch = 1.U(width.W) def Trunk = 2.U(width.W) def Dirty = 3.U(width.W) def hasReadPermission(state: UInt): Bool = state > Nothing def hasWritePermission(state: UInt): Bool = state > Branch } object MemoryOpCategories extends MemoryOpConstants { def wr = Cat(true.B, true.B) // Op actually writes def wi = Cat(false.B, true.B) // Future op will write def rd = Cat(false.B, false.B) // Op only reads def categorize(cmd: UInt): UInt = { val cat = Cat(isWrite(cmd), isWriteIntent(cmd)) //assert(cat.isOneOf(wr,wi,rd), "Could not categorize command.") cat } } /** Stores the client-side coherence information, * such as permissions on the data and whether the data is dirty. * Its API can be used to make TileLink messages in response to * memory operations, cache control oeprations, or Probe messages. */ class ClientMetadata extends Bundle { /** Actual state information stored in this bundle */ val state = UInt(ClientStates.width.W) /** Metadata equality */ def ===(rhs: UInt): Bool = state === rhs def ===(rhs: ClientMetadata): Bool = state === rhs.state def =/=(rhs: ClientMetadata): Bool = !this.===(rhs) /** Is the block's data present in this cache */ def isValid(dummy: Int = 0): Bool = state > ClientStates.Nothing /** Determine whether this cmd misses, and the new state (on hit) or param to be sent (on miss) */ private def growStarter(cmd: UInt): (Bool, UInt) = { import MemoryOpCategories._ import TLPermissions._ import ClientStates._ val c = categorize(cmd) MuxTLookup(Cat(c, state), (false.B, 0.U), Seq( //(effect, am now) -> (was a hit, next) Cat(rd, Dirty) -> (true.B, Dirty), Cat(rd, Trunk) -> (true.B, Trunk), Cat(rd, Branch) -> (true.B, Branch), Cat(wi, Dirty) -> (true.B, Dirty), Cat(wi, Trunk) -> (true.B, Trunk), Cat(wr, Dirty) -> (true.B, Dirty), Cat(wr, Trunk) -> (true.B, Dirty), //(effect, am now) -> (was a miss, param) Cat(rd, Nothing) -> (false.B, NtoB), Cat(wi, Branch) -> (false.B, BtoT), Cat(wi, Nothing) -> (false.B, NtoT), Cat(wr, Branch) -> (false.B, BtoT), Cat(wr, Nothing) -> (false.B, NtoT))) } /** Determine what state to go to after miss based on Grant param * For now, doesn't depend on state (which may have been Probed). */ private def growFinisher(cmd: UInt, param: UInt): UInt = { import MemoryOpCategories._ import TLPermissions._ import ClientStates._ val c = categorize(cmd) //assert(c === rd || param === toT, "Client was expecting trunk permissions.") MuxLookup(Cat(c, param), Nothing)(Seq( //(effect param) -> (next) Cat(rd, toB) -> Branch, Cat(rd, toT) -> Trunk, Cat(wi, toT) -> Trunk, Cat(wr, toT) -> Dirty)) } /** Does this cache have permissions on this block sufficient to perform op, * and what to do next (Acquire message param or updated metadata). */ def onAccess(cmd: UInt): (Bool, UInt, ClientMetadata) = { val r = growStarter(cmd) (r._1, r._2, ClientMetadata(r._2)) } /** Does a secondary miss on the block require another Acquire message */ def onSecondaryAccess(first_cmd: UInt, second_cmd: UInt): (Bool, Bool, UInt, ClientMetadata, UInt) = { import MemoryOpCategories._ val r1 = growStarter(first_cmd) val r2 = growStarter(second_cmd) val needs_second_acq = isWriteIntent(second_cmd) && !isWriteIntent(first_cmd) val hit_again = r1._1 && r2._1 val dirties = categorize(second_cmd) === wr val biggest_grow_param = Mux(dirties, r2._2, r1._2) val dirtiest_state = ClientMetadata(biggest_grow_param) val dirtiest_cmd = Mux(dirties, second_cmd, first_cmd) (needs_second_acq, hit_again, biggest_grow_param, dirtiest_state, dirtiest_cmd) } /** Metadata change on a returned Grant */ def onGrant(cmd: UInt, param: UInt): ClientMetadata = ClientMetadata(growFinisher(cmd, param)) /** Determine what state to go to based on Probe param */ private def shrinkHelper(param: UInt): (Bool, UInt, UInt) = { import ClientStates._ import TLPermissions._ MuxTLookup(Cat(param, state), (false.B, 0.U, 0.U), Seq( //(wanted, am now) -> (hasDirtyData resp, next) Cat(toT, Dirty) -> (true.B, TtoT, Trunk), Cat(toT, Trunk) -> (false.B, TtoT, Trunk), Cat(toT, Branch) -> (false.B, BtoB, Branch), Cat(toT, Nothing) -> (false.B, NtoN, Nothing), Cat(toB, Dirty) -> (true.B, TtoB, Branch), Cat(toB, Trunk) -> (false.B, TtoB, Branch), // Policy: Don't notify on clean downgrade Cat(toB, Branch) -> (false.B, BtoB, Branch), Cat(toB, Nothing) -> (false.B, NtoN, Nothing), Cat(toN, Dirty) -> (true.B, TtoN, Nothing), Cat(toN, Trunk) -> (false.B, TtoN, Nothing), // Policy: Don't notify on clean downgrade Cat(toN, Branch) -> (false.B, BtoN, Nothing), // Policy: Don't notify on clean downgrade Cat(toN, Nothing) -> (false.B, NtoN, Nothing))) } /** Translate cache control cmds into Probe param */ private def cmdToPermCap(cmd: UInt): UInt = { import MemoryOpCategories._ import TLPermissions._ MuxLookup(cmd, toN)(Seq( M_FLUSH -> toN, M_PRODUCE -> toB, M_CLEAN -> toT)) } def onCacheControl(cmd: UInt): (Bool, UInt, ClientMetadata) = { val r = shrinkHelper(cmdToPermCap(cmd)) (r._1, r._2, ClientMetadata(r._3)) } def onProbe(param: UInt): (Bool, UInt, ClientMetadata) = { val r = shrinkHelper(param) (r._1, r._2, ClientMetadata(r._3)) } } /** Factories for ClientMetadata, including on reset */ object ClientMetadata { def apply(perm: UInt) = { val meta = Wire(new ClientMetadata) meta.state := perm meta } def onReset = ClientMetadata(ClientStates.Nothing) def maximum = ClientMetadata(ClientStates.Dirty) } File Consts.scala: // See LICENSE.Berkeley for license details. package freechips.rocketchip.rocket.constants import chisel3._ import chisel3.util._ import freechips.rocketchip.util._ trait ScalarOpConstants { val SZ_BR = 3 def BR_X = BitPat("b???") def BR_EQ = 0.U(3.W) def BR_NE = 1.U(3.W) def BR_J = 2.U(3.W) def BR_N = 3.U(3.W) def BR_LT = 4.U(3.W) def BR_GE = 5.U(3.W) def BR_LTU = 6.U(3.W) def BR_GEU = 7.U(3.W) def A1_X = BitPat("b??") def A1_ZERO = 0.U(2.W) def A1_RS1 = 1.U(2.W) def A1_PC = 2.U(2.W) def A1_RS1SHL = 3.U(2.W) def IMM_X = BitPat("b???") def IMM_S = 0.U(3.W) def IMM_SB = 1.U(3.W) def IMM_U = 2.U(3.W) def IMM_UJ = 3.U(3.W) def IMM_I = 4.U(3.W) def IMM_Z = 5.U(3.W) def A2_X = BitPat("b???") def A2_ZERO = 0.U(3.W) def A2_SIZE = 1.U(3.W) def A2_RS2 = 2.U(3.W) def A2_IMM = 3.U(3.W) def A2_RS2OH = 4.U(3.W) def A2_IMMOH = 5.U(3.W) def X = BitPat("b?") def N = BitPat("b0") def Y = BitPat("b1") val SZ_DW = 1 def DW_X = X def DW_32 = false.B def DW_64 = true.B def DW_XPR = DW_64 } trait MemoryOpConstants { val NUM_XA_OPS = 9 val M_SZ = 5 def M_X = BitPat("b?????"); def M_XRD = "b00000".U; // int load def M_XWR = "b00001".U; // int store def M_PFR = "b00010".U; // prefetch with intent to read def M_PFW = "b00011".U; // prefetch with intent to write def M_XA_SWAP = "b00100".U def M_FLUSH_ALL = "b00101".U // flush all lines def M_XLR = "b00110".U def M_XSC = "b00111".U def M_XA_ADD = "b01000".U def M_XA_XOR = "b01001".U def M_XA_OR = "b01010".U def M_XA_AND = "b01011".U def M_XA_MIN = "b01100".U def M_XA_MAX = "b01101".U def M_XA_MINU = "b01110".U def M_XA_MAXU = "b01111".U def M_FLUSH = "b10000".U // write back dirty data and cede R/W permissions def M_PWR = "b10001".U // partial (masked) store def M_PRODUCE = "b10010".U // write back dirty data and cede W permissions def M_CLEAN = "b10011".U // write back dirty data and retain R/W permissions def M_SFENCE = "b10100".U // SFENCE.VMA def M_HFENCEV = "b10101".U // HFENCE.VVMA def M_HFENCEG = "b10110".U // HFENCE.GVMA def M_WOK = "b10111".U // check write permissions but don't perform a write def M_HLVX = "b10000".U // HLVX instruction def isAMOLogical(cmd: UInt) = cmd.isOneOf(M_XA_SWAP, M_XA_XOR, M_XA_OR, M_XA_AND) def isAMOArithmetic(cmd: UInt) = cmd.isOneOf(M_XA_ADD, M_XA_MIN, M_XA_MAX, M_XA_MINU, M_XA_MAXU) def isAMO(cmd: UInt) = isAMOLogical(cmd) || isAMOArithmetic(cmd) def isPrefetch(cmd: UInt) = cmd === M_PFR || cmd === M_PFW def isRead(cmd: UInt) = cmd.isOneOf(M_XRD, M_HLVX, M_XLR, M_XSC) || isAMO(cmd) def isWrite(cmd: UInt) = cmd === M_XWR || cmd === M_PWR || cmd === M_XSC || isAMO(cmd) def isWriteIntent(cmd: UInt) = isWrite(cmd) || cmd === M_PFW || cmd === M_XLR } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.diplomacy import chisel3._ import chisel3.util.{DecoupledIO, Queue, ReadyValidIO, isPow2, log2Ceil, log2Floor} import freechips.rocketchip.util.ShiftQueue /** Options for describing the attributes of memory regions */ object RegionType { // Define the 'more relaxed than' ordering val cases = Seq(CACHED, TRACKED, UNCACHED, IDEMPOTENT, VOLATILE, PUT_EFFECTS, GET_EFFECTS) sealed trait T extends Ordered[T] { def compare(that: T): Int = cases.indexOf(that) compare cases.indexOf(this) } case object CACHED extends T // an intermediate agent may have cached a copy of the region for you case object TRACKED extends T // the region may have been cached by another master, but coherence is being provided case object UNCACHED extends T // the region has not been cached yet, but should be cached when possible case object IDEMPOTENT extends T // gets return most recently put content, but content should not be cached case object VOLATILE extends T // content may change without a put, but puts and gets have no side effects case object PUT_EFFECTS extends T // puts produce side effects and so must not be combined/delayed case object GET_EFFECTS extends T // gets produce side effects and so must not be issued speculatively } // A non-empty half-open range; [start, end) case class IdRange(start: Int, end: Int) extends Ordered[IdRange] { require (start >= 0, s"Ids cannot be negative, but got: $start.") require (start <= end, "Id ranges cannot be negative.") def compare(x: IdRange) = { val primary = (this.start - x.start).signum val secondary = (x.end - this.end).signum if (primary != 0) primary else secondary } def overlaps(x: IdRange) = start < x.end && x.start < end def contains(x: IdRange) = start <= x.start && x.end <= end def contains(x: Int) = start <= x && x < end def contains(x: UInt) = if (size == 0) { false.B } else if (size == 1) { // simple comparison x === start.U } else { // find index of largest different bit val largestDeltaBit = log2Floor(start ^ (end-1)) val smallestCommonBit = largestDeltaBit + 1 // may not exist in x val uncommonMask = (1 << smallestCommonBit) - 1 val uncommonBits = (x | 0.U(smallestCommonBit.W))(largestDeltaBit, 0) // the prefix must match exactly (note: may shift ALL bits away) (x >> smallestCommonBit) === (start >> smallestCommonBit).U && // firrtl constant prop range analysis can eliminate these two: (start & uncommonMask).U <= uncommonBits && uncommonBits <= ((end-1) & uncommonMask).U } def shift(x: Int) = IdRange(start+x, end+x) def size = end - start def isEmpty = end == start def range = start until end } object IdRange { def overlaps(s: Seq[IdRange]) = if (s.isEmpty) None else { val ranges = s.sorted (ranges.tail zip ranges.init) find { case (a, b) => a overlaps b } } } // An potentially empty inclusive range of 2-powers [min, max] (in bytes) case class TransferSizes(min: Int, max: Int) { def this(x: Int) = this(x, x) require (min <= max, s"Min transfer $min > max transfer $max") require (min >= 0 && max >= 0, s"TransferSizes must be positive, got: ($min, $max)") require (max == 0 || isPow2(max), s"TransferSizes must be a power of 2, got: $max") require (min == 0 || isPow2(min), s"TransferSizes must be a power of 2, got: $min") require (max == 0 || min != 0, s"TransferSize 0 is forbidden unless (0,0), got: ($min, $max)") def none = min == 0 def contains(x: Int) = isPow2(x) && min <= x && x <= max def containsLg(x: Int) = contains(1 << x) def containsLg(x: UInt) = if (none) false.B else if (min == max) { log2Ceil(min).U === x } else { log2Ceil(min).U <= x && x <= log2Ceil(max).U } def contains(x: TransferSizes) = x.none || (min <= x.min && x.max <= max) def intersect(x: TransferSizes) = if (x.max < min || max < x.min) TransferSizes.none else TransferSizes(scala.math.max(min, x.min), scala.math.min(max, x.max)) // Not a union, because the result may contain sizes contained by neither term // NOT TO BE CONFUSED WITH COVERPOINTS def mincover(x: TransferSizes) = { if (none) { x } else if (x.none) { this } else { TransferSizes(scala.math.min(min, x.min), scala.math.max(max, x.max)) } } override def toString() = "TransferSizes[%d, %d]".format(min, max) } object TransferSizes { def apply(x: Int) = new TransferSizes(x) val none = new TransferSizes(0) def mincover(seq: Seq[TransferSizes]) = seq.foldLeft(none)(_ mincover _) def intersect(seq: Seq[TransferSizes]) = seq.reduce(_ intersect _) implicit def asBool(x: TransferSizes) = !x.none } // AddressSets specify the address space managed by the manager // Base is the base address, and mask are the bits consumed by the manager // e.g: base=0x200, mask=0xff describes a device managing 0x200-0x2ff // e.g: base=0x1000, mask=0xf0f decribes a device managing 0x1000-0x100f, 0x1100-0x110f, ... case class AddressSet(base: BigInt, mask: BigInt) extends Ordered[AddressSet] { // Forbid misaligned base address (and empty sets) require ((base & mask) == 0, s"Mis-aligned AddressSets are forbidden, got: ${this.toString}") require (base >= 0, s"AddressSet negative base is ambiguous: $base") // TL2 address widths are not fixed => negative is ambiguous // We do allow negative mask (=> ignore all high bits) def contains(x: BigInt) = ((x ^ base) & ~mask) == 0 def contains(x: UInt) = ((x ^ base.U).zext & (~mask).S) === 0.S // turn x into an address contained in this set def legalize(x: UInt): UInt = base.U | (mask.U & x) // overlap iff bitwise: both care (~mask0 & ~mask1) => both equal (base0=base1) def overlaps(x: AddressSet) = (~(mask | x.mask) & (base ^ x.base)) == 0 // contains iff bitwise: x.mask => mask && contains(x.base) def contains(x: AddressSet) = ((x.mask | (base ^ x.base)) & ~mask) == 0 // The number of bytes to which the manager must be aligned def alignment = ((mask + 1) & ~mask) // Is this a contiguous memory range def contiguous = alignment == mask+1 def finite = mask >= 0 def max = { require (finite, "Max cannot be calculated on infinite mask"); base | mask } // Widen the match function to ignore all bits in imask def widen(imask: BigInt) = AddressSet(base & ~imask, mask | imask) // Return an AddressSet that only contains the addresses both sets contain def intersect(x: AddressSet): Option[AddressSet] = { if (!overlaps(x)) { None } else { val r_mask = mask & x.mask val r_base = base | x.base Some(AddressSet(r_base, r_mask)) } } def subtract(x: AddressSet): Seq[AddressSet] = { intersect(x) match { case None => Seq(this) case Some(remove) => AddressSet.enumerateBits(mask & ~remove.mask).map { bit => val nmask = (mask & (bit-1)) | remove.mask val nbase = (remove.base ^ bit) & ~nmask AddressSet(nbase, nmask) } } } // AddressSets have one natural Ordering (the containment order, if contiguous) def compare(x: AddressSet) = { val primary = (this.base - x.base).signum // smallest address first val secondary = (x.mask - this.mask).signum // largest mask first if (primary != 0) primary else secondary } // We always want to see things in hex override def toString() = { if (mask >= 0) { "AddressSet(0x%x, 0x%x)".format(base, mask) } else { "AddressSet(0x%x, ~0x%x)".format(base, ~mask) } } def toRanges = { require (finite, "Ranges cannot be calculated on infinite mask") val size = alignment val fragments = mask & ~(size-1) val bits = bitIndexes(fragments) (BigInt(0) until (BigInt(1) << bits.size)).map { i => val off = bitIndexes(i).foldLeft(base) { case (a, b) => a.setBit(bits(b)) } AddressRange(off, size) } } } object AddressSet { val everything = AddressSet(0, -1) def misaligned(base: BigInt, size: BigInt, tail: Seq[AddressSet] = Seq()): Seq[AddressSet] = { if (size == 0) tail.reverse else { val maxBaseAlignment = base & (-base) // 0 for infinite (LSB) val maxSizeAlignment = BigInt(1) << log2Floor(size) // MSB of size val step = if (maxBaseAlignment == 0 || maxBaseAlignment > maxSizeAlignment) maxSizeAlignment else maxBaseAlignment misaligned(base+step, size-step, AddressSet(base, step-1) +: tail) } } def unify(seq: Seq[AddressSet], bit: BigInt): Seq[AddressSet] = { // Pair terms up by ignoring 'bit' seq.distinct.groupBy(x => x.copy(base = x.base & ~bit)).map { case (key, seq) => if (seq.size == 1) { seq.head // singleton -> unaffected } else { key.copy(mask = key.mask | bit) // pair - widen mask by bit } }.toList } def unify(seq: Seq[AddressSet]): Seq[AddressSet] = { val bits = seq.map(_.base).foldLeft(BigInt(0))(_ | _) AddressSet.enumerateBits(bits).foldLeft(seq) { case (acc, bit) => unify(acc, bit) }.sorted } def enumerateMask(mask: BigInt): Seq[BigInt] = { def helper(id: BigInt, tail: Seq[BigInt]): Seq[BigInt] = if (id == mask) (id +: tail).reverse else helper(((~mask | id) + 1) & mask, id +: tail) helper(0, Nil) } def enumerateBits(mask: BigInt): Seq[BigInt] = { def helper(x: BigInt): Seq[BigInt] = { if (x == 0) { Nil } else { val bit = x & (-x) bit +: helper(x & ~bit) } } helper(mask) } } case class BufferParams(depth: Int, flow: Boolean, pipe: Boolean) { require (depth >= 0, "Buffer depth must be >= 0") def isDefined = depth > 0 def latency = if (isDefined && !flow) 1 else 0 def apply[T <: Data](x: DecoupledIO[T]) = if (isDefined) Queue(x, depth, flow=flow, pipe=pipe) else x def irrevocable[T <: Data](x: ReadyValidIO[T]) = if (isDefined) Queue.irrevocable(x, depth, flow=flow, pipe=pipe) else x def sq[T <: Data](x: DecoupledIO[T]) = if (!isDefined) x else { val sq = Module(new ShiftQueue(x.bits, depth, flow=flow, pipe=pipe)) sq.io.enq <> x sq.io.deq } override def toString() = "BufferParams:%d%s%s".format(depth, if (flow) "F" else "", if (pipe) "P" else "") } object BufferParams { implicit def apply(depth: Int): BufferParams = BufferParams(depth, false, false) val default = BufferParams(2) val none = BufferParams(0) val flow = BufferParams(1, true, false) val pipe = BufferParams(1, false, true) } case class TriStateValue(value: Boolean, set: Boolean) { def update(orig: Boolean) = if (set) value else orig } object TriStateValue { implicit def apply(value: Boolean): TriStateValue = TriStateValue(value, true) def unset = TriStateValue(false, false) } trait DirectedBuffers[T] { def copyIn(x: BufferParams): T def copyOut(x: BufferParams): T def copyInOut(x: BufferParams): T } trait IdMapEntry { def name: String def from: IdRange def to: IdRange def isCache: Boolean def requestFifo: Boolean def maxTransactionsInFlight: Option[Int] def pretty(fmt: String) = if (from ne to) { // if the subclass uses the same reference for both from and to, assume its format string has an arity of 5 fmt.format(to.start, to.end, from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } else { fmt.format(from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } } abstract class IdMap[T <: IdMapEntry] { protected val fmt: String val mapping: Seq[T] def pretty: String = mapping.map(_.pretty(fmt)).mkString(",\n") } File mshrs.scala: //****************************************************************************** // Ported from Rocket-Chip // See LICENSE.Berkeley and LICENSE.SiFive in Rocket-Chip for license details. //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ package boom.v3.lsu import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.diplomacy._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.tile._ import freechips.rocketchip.util._ import freechips.rocketchip.rocket._ import boom.v3.common._ import boom.v3.exu.BrUpdateInfo import boom.v3.util.{IsKilledByBranch, GetNewBrMask, BranchKillableQueue, IsOlder, UpdateBrMask, AgePriorityEncoder, WrapInc} class BoomDCacheReqInternal(implicit p: Parameters) extends BoomDCacheReq()(p) with HasL1HellaCacheParameters { // miss info val tag_match = Bool() val old_meta = new L1Metadata val way_en = UInt(nWays.W) // Used in the MSHRs val sdq_id = UInt(log2Ceil(cfg.nSDQ).W) } class BoomMSHR(implicit edge: TLEdgeOut, p: Parameters) extends BoomModule()(p) with HasL1HellaCacheParameters { val io = IO(new Bundle { val id = Input(UInt()) val req_pri_val = Input(Bool()) val req_pri_rdy = Output(Bool()) val req_sec_val = Input(Bool()) val req_sec_rdy = Output(Bool()) val clear_prefetch = Input(Bool()) val brupdate = Input(new BrUpdateInfo) val exception = Input(Bool()) val rob_pnr_idx = Input(UInt(robAddrSz.W)) val rob_head_idx = Input(UInt(robAddrSz.W)) val req = Input(new BoomDCacheReqInternal) val req_is_probe = Input(Bool()) val idx = Output(Valid(UInt())) val way = Output(Valid(UInt())) val tag = Output(Valid(UInt())) val mem_acquire = Decoupled(new TLBundleA(edge.bundle)) val mem_grant = Flipped(Decoupled(new TLBundleD(edge.bundle))) val mem_finish = Decoupled(new TLBundleE(edge.bundle)) val prober_state = Input(Valid(UInt(coreMaxAddrBits.W))) val refill = Decoupled(new L1DataWriteReq) val meta_write = Decoupled(new L1MetaWriteReq) val meta_read = Decoupled(new L1MetaReadReq) val meta_resp = Input(Valid(new L1Metadata)) val wb_req = Decoupled(new WritebackReq(edge.bundle)) // To inform the prefetcher when we are commiting the fetch of this line val commit_val = Output(Bool()) val commit_addr = Output(UInt(coreMaxAddrBits.W)) val commit_coh = Output(new ClientMetadata) // Reading from the line buffer val lb_read = Decoupled(new LineBufferReadReq) val lb_resp = Input(UInt(encRowBits.W)) val lb_write = Decoupled(new LineBufferWriteReq) // Replays go through the cache pipeline again val replay = Decoupled(new BoomDCacheReqInternal) // Resp go straight out to the core val resp = Decoupled(new BoomDCacheResp) // Writeback unit tells us when it is done processing our wb val wb_resp = Input(Bool()) val probe_rdy = Output(Bool()) }) // TODO: Optimize this. We don't want to mess with cache during speculation // s_refill_req : Make a request for a new cache line // s_refill_resp : Store the refill response into our buffer // s_drain_rpq_loads : Drain out loads from the rpq // : If miss was misspeculated, go to s_invalid // s_wb_req : Write back the evicted cache line // s_wb_resp : Finish writing back the evicted cache line // s_meta_write_req : Write the metadata for new cache lne // s_meta_write_resp : val s_invalid :: s_refill_req :: s_refill_resp :: s_drain_rpq_loads :: s_meta_read :: s_meta_resp_1 :: s_meta_resp_2 :: s_meta_clear :: s_wb_meta_read :: s_wb_req :: s_wb_resp :: s_commit_line :: s_drain_rpq :: s_meta_write_req :: s_mem_finish_1 :: s_mem_finish_2 :: s_prefetched :: s_prefetch :: Nil = Enum(18) val state = RegInit(s_invalid) val req = Reg(new BoomDCacheReqInternal) val req_idx = req.addr(untagBits-1, blockOffBits) val req_tag = req.addr >> untagBits val req_block_addr = (req.addr >> blockOffBits) << blockOffBits val req_needs_wb = RegInit(false.B) val new_coh = RegInit(ClientMetadata.onReset) val (_, shrink_param, coh_on_clear) = req.old_meta.coh.onCacheControl(M_FLUSH) val grow_param = new_coh.onAccess(req.uop.mem_cmd)._2 val coh_on_grant = new_coh.onGrant(req.uop.mem_cmd, io.mem_grant.bits.param) // We only accept secondary misses if the original request had sufficient permissions val (cmd_requires_second_acquire, is_hit_again, _, dirtier_coh, dirtier_cmd) = new_coh.onSecondaryAccess(req.uop.mem_cmd, io.req.uop.mem_cmd) val (_, _, refill_done, refill_address_inc) = edge.addr_inc(io.mem_grant) val sec_rdy = (!cmd_requires_second_acquire && !io.req_is_probe && !state.isOneOf(s_invalid, s_meta_write_req, s_mem_finish_1, s_mem_finish_2))// Always accept secondary misses val rpq = Module(new BranchKillableQueue(new BoomDCacheReqInternal, cfg.nRPQ, u => u.uses_ldq, false)) rpq.io.brupdate := io.brupdate rpq.io.flush := io.exception assert(!(state === s_invalid && !rpq.io.empty)) rpq.io.enq.valid := ((io.req_pri_val && io.req_pri_rdy) || (io.req_sec_val && io.req_sec_rdy)) && !isPrefetch(io.req.uop.mem_cmd) rpq.io.enq.bits := io.req rpq.io.deq.ready := false.B val grantack = Reg(Valid(new TLBundleE(edge.bundle))) val refill_ctr = Reg(UInt(log2Ceil(cacheDataBeats).W)) val commit_line = Reg(Bool()) val grant_had_data = Reg(Bool()) val finish_to_prefetch = Reg(Bool()) // Block probes if a tag write we started is still in the pipeline val meta_hazard = RegInit(0.U(2.W)) when (meta_hazard =/= 0.U) { meta_hazard := meta_hazard + 1.U } when (io.meta_write.fire) { meta_hazard := 1.U } io.probe_rdy := (meta_hazard === 0.U && (state.isOneOf(s_invalid, s_refill_req, s_refill_resp, s_drain_rpq_loads) || (state === s_meta_read && grantack.valid))) io.idx.valid := state =/= s_invalid io.tag.valid := state =/= s_invalid io.way.valid := !state.isOneOf(s_invalid, s_prefetch) io.idx.bits := req_idx io.tag.bits := req_tag io.way.bits := req.way_en io.meta_write.valid := false.B io.meta_write.bits := DontCare io.req_pri_rdy := false.B io.req_sec_rdy := sec_rdy && rpq.io.enq.ready io.mem_acquire.valid := false.B io.mem_acquire.bits := DontCare io.refill.valid := false.B io.refill.bits := DontCare io.replay.valid := false.B io.replay.bits := DontCare io.wb_req.valid := false.B io.wb_req.bits := DontCare io.resp.valid := false.B io.resp.bits := DontCare io.commit_val := false.B io.commit_addr := req.addr io.commit_coh := coh_on_grant io.meta_read.valid := false.B io.meta_read.bits := DontCare io.mem_finish.valid := false.B io.mem_finish.bits := DontCare io.lb_write.valid := false.B io.lb_write.bits := DontCare io.lb_read.valid := false.B io.lb_read.bits := DontCare io.mem_grant.ready := false.B when (io.req_sec_val && io.req_sec_rdy) { req.uop.mem_cmd := dirtier_cmd when (is_hit_again) { new_coh := dirtier_coh } } def handle_pri_req(old_state: UInt): UInt = { val new_state = WireInit(old_state) grantack.valid := false.B refill_ctr := 0.U assert(rpq.io.enq.ready) req := io.req val old_coh = io.req.old_meta.coh req_needs_wb := old_coh.onCacheControl(M_FLUSH)._1 // does the line we are evicting need to be written back when (io.req.tag_match) { val (is_hit, _, coh_on_hit) = old_coh.onAccess(io.req.uop.mem_cmd) when (is_hit) { // set dirty bit assert(isWrite(io.req.uop.mem_cmd)) new_coh := coh_on_hit new_state := s_drain_rpq } .otherwise { // upgrade permissions new_coh := old_coh new_state := s_refill_req } } .otherwise { // refill and writeback if necessary new_coh := ClientMetadata.onReset new_state := s_refill_req } new_state } when (state === s_invalid) { io.req_pri_rdy := true.B grant_had_data := false.B when (io.req_pri_val && io.req_pri_rdy) { state := handle_pri_req(state) } } .elsewhen (state === s_refill_req) { io.mem_acquire.valid := true.B // TODO: Use AcquirePerm if just doing permissions acquire io.mem_acquire.bits := edge.AcquireBlock( fromSource = io.id, toAddress = Cat(req_tag, req_idx) << blockOffBits, lgSize = lgCacheBlockBytes.U, growPermissions = grow_param)._2 when (io.mem_acquire.fire) { state := s_refill_resp } } .elsewhen (state === s_refill_resp) { when (edge.hasData(io.mem_grant.bits)) { io.mem_grant.ready := io.lb_write.ready io.lb_write.valid := io.mem_grant.valid io.lb_write.bits.id := io.id io.lb_write.bits.offset := refill_address_inc >> rowOffBits io.lb_write.bits.data := io.mem_grant.bits.data } .otherwise { io.mem_grant.ready := true.B } when (io.mem_grant.fire) { grant_had_data := edge.hasData(io.mem_grant.bits) } when (refill_done) { grantack.valid := edge.isRequest(io.mem_grant.bits) grantack.bits := edge.GrantAck(io.mem_grant.bits) state := Mux(grant_had_data, s_drain_rpq_loads, s_drain_rpq) assert(!(!grant_had_data && req_needs_wb)) commit_line := false.B new_coh := coh_on_grant } } .elsewhen (state === s_drain_rpq_loads) { val drain_load = (isRead(rpq.io.deq.bits.uop.mem_cmd) && !isWrite(rpq.io.deq.bits.uop.mem_cmd) && (rpq.io.deq.bits.uop.mem_cmd =/= M_XLR)) // LR should go through replay // drain all loads for now val rp_addr = Cat(req_tag, req_idx, rpq.io.deq.bits.addr(blockOffBits-1,0)) val word_idx = if (rowWords == 1) 0.U else rp_addr(log2Up(rowWords*coreDataBytes)-1, log2Up(wordBytes)) val data = io.lb_resp val data_word = data >> Cat(word_idx, 0.U(log2Up(coreDataBits).W)) val loadgen = new LoadGen(rpq.io.deq.bits.uop.mem_size, rpq.io.deq.bits.uop.mem_signed, Cat(req_tag, req_idx, rpq.io.deq.bits.addr(blockOffBits-1,0)), data_word, false.B, wordBytes) rpq.io.deq.ready := io.resp.ready && io.lb_read.ready && drain_load io.lb_read.valid := rpq.io.deq.valid && drain_load io.lb_read.bits.id := io.id io.lb_read.bits.offset := rpq.io.deq.bits.addr >> rowOffBits io.resp.valid := rpq.io.deq.valid && io.lb_read.fire && drain_load io.resp.bits.uop := rpq.io.deq.bits.uop io.resp.bits.data := loadgen.data io.resp.bits.is_hella := rpq.io.deq.bits.is_hella when (rpq.io.deq.fire) { commit_line := true.B } .elsewhen (rpq.io.empty && !commit_line) { when (!rpq.io.enq.fire) { state := s_mem_finish_1 finish_to_prefetch := enablePrefetching.B } } .elsewhen (rpq.io.empty || (rpq.io.deq.valid && !drain_load)) { // io.commit_val is for the prefetcher. it tells the prefetcher that this line was correctly acquired // The prefetcher should consider fetching the next line io.commit_val := true.B state := s_meta_read } } .elsewhen (state === s_meta_read) { io.meta_read.valid := !io.prober_state.valid || !grantack.valid || (io.prober_state.bits(untagBits-1,blockOffBits) =/= req_idx) io.meta_read.bits.idx := req_idx io.meta_read.bits.tag := req_tag io.meta_read.bits.way_en := req.way_en when (io.meta_read.fire) { state := s_meta_resp_1 } } .elsewhen (state === s_meta_resp_1) { state := s_meta_resp_2 } .elsewhen (state === s_meta_resp_2) { val needs_wb = io.meta_resp.bits.coh.onCacheControl(M_FLUSH)._1 state := Mux(!io.meta_resp.valid, s_meta_read, // Prober could have nack'd this read Mux(needs_wb, s_meta_clear, s_commit_line)) } .elsewhen (state === s_meta_clear) { io.meta_write.valid := true.B io.meta_write.bits.idx := req_idx io.meta_write.bits.data.coh := coh_on_clear io.meta_write.bits.data.tag := req_tag io.meta_write.bits.way_en := req.way_en when (io.meta_write.fire) { state := s_wb_req } } .elsewhen (state === s_wb_req) { io.wb_req.valid := true.B io.wb_req.bits.tag := req.old_meta.tag io.wb_req.bits.idx := req_idx io.wb_req.bits.param := shrink_param io.wb_req.bits.way_en := req.way_en io.wb_req.bits.source := io.id io.wb_req.bits.voluntary := true.B when (io.wb_req.fire) { state := s_wb_resp } } .elsewhen (state === s_wb_resp) { when (io.wb_resp) { state := s_commit_line } } .elsewhen (state === s_commit_line) { io.lb_read.valid := true.B io.lb_read.bits.id := io.id io.lb_read.bits.offset := refill_ctr io.refill.valid := io.lb_read.fire io.refill.bits.addr := req_block_addr | (refill_ctr << rowOffBits) io.refill.bits.way_en := req.way_en io.refill.bits.wmask := ~(0.U(rowWords.W)) io.refill.bits.data := io.lb_resp when (io.refill.fire) { refill_ctr := refill_ctr + 1.U when (refill_ctr === (cacheDataBeats - 1).U) { state := s_drain_rpq } } } .elsewhen (state === s_drain_rpq) { io.replay <> rpq.io.deq io.replay.bits.way_en := req.way_en io.replay.bits.addr := Cat(req_tag, req_idx, rpq.io.deq.bits.addr(blockOffBits-1,0)) when (io.replay.fire && isWrite(rpq.io.deq.bits.uop.mem_cmd)) { // Set dirty bit val (is_hit, _, coh_on_hit) = new_coh.onAccess(rpq.io.deq.bits.uop.mem_cmd) assert(is_hit, "We still don't have permissions for this store") new_coh := coh_on_hit } when (rpq.io.empty && !rpq.io.enq.valid) { state := s_meta_write_req } } .elsewhen (state === s_meta_write_req) { io.meta_write.valid := true.B io.meta_write.bits.idx := req_idx io.meta_write.bits.data.coh := new_coh io.meta_write.bits.data.tag := req_tag io.meta_write.bits.way_en := req.way_en when (io.meta_write.fire) { state := s_mem_finish_1 finish_to_prefetch := false.B } } .elsewhen (state === s_mem_finish_1) { io.mem_finish.valid := grantack.valid io.mem_finish.bits := grantack.bits when (io.mem_finish.fire || !grantack.valid) { grantack.valid := false.B state := s_mem_finish_2 } } .elsewhen (state === s_mem_finish_2) { state := Mux(finish_to_prefetch, s_prefetch, s_invalid) } .elsewhen (state === s_prefetch) { io.req_pri_rdy := true.B when ((io.req_sec_val && !io.req_sec_rdy) || io.clear_prefetch) { state := s_invalid } .elsewhen (io.req_sec_val && io.req_sec_rdy) { val (is_hit, _, coh_on_hit) = new_coh.onAccess(io.req.uop.mem_cmd) when (is_hit) { // Proceed with refill new_coh := coh_on_hit state := s_meta_read } .otherwise { // Reacquire this line new_coh := ClientMetadata.onReset state := s_refill_req } } .elsewhen (io.req_pri_val && io.req_pri_rdy) { grant_had_data := false.B state := handle_pri_req(state) } } } class BoomIOMSHR(id: Int)(implicit edge: TLEdgeOut, p: Parameters) extends BoomModule()(p) with HasL1HellaCacheParameters { val io = IO(new Bundle { val req = Flipped(Decoupled(new BoomDCacheReq)) val resp = Decoupled(new BoomDCacheResp) val mem_access = Decoupled(new TLBundleA(edge.bundle)) val mem_ack = Flipped(Valid(new TLBundleD(edge.bundle))) // We don't need brupdate in here because uncacheable operations are guaranteed non-speculative }) def beatOffset(addr: UInt) = addr.extract(beatOffBits-1, wordOffBits) def wordFromBeat(addr: UInt, dat: UInt) = { val shift = Cat(beatOffset(addr), 0.U((wordOffBits+log2Ceil(wordBytes)).W)) (dat >> shift)(wordBits-1, 0) } val req = Reg(new BoomDCacheReq) val grant_word = Reg(UInt(wordBits.W)) val s_idle :: s_mem_access :: s_mem_ack :: s_resp :: Nil = Enum(4) val state = RegInit(s_idle) io.req.ready := state === s_idle val loadgen = new LoadGen(req.uop.mem_size, req.uop.mem_signed, req.addr, grant_word, false.B, wordBytes) val a_source = id.U val a_address = req.addr val a_size = req.uop.mem_size val a_data = Fill(beatWords, req.data) val get = edge.Get(a_source, a_address, a_size)._2 val put = edge.Put(a_source, a_address, a_size, a_data)._2 val atomics = if (edge.manager.anySupportLogical) { MuxLookup(req.uop.mem_cmd, (0.U).asTypeOf(new TLBundleA(edge.bundle)))(Array( M_XA_SWAP -> edge.Logical(a_source, a_address, a_size, a_data, TLAtomics.SWAP)._2, M_XA_XOR -> edge.Logical(a_source, a_address, a_size, a_data, TLAtomics.XOR) ._2, M_XA_OR -> edge.Logical(a_source, a_address, a_size, a_data, TLAtomics.OR) ._2, M_XA_AND -> edge.Logical(a_source, a_address, a_size, a_data, TLAtomics.AND) ._2, M_XA_ADD -> edge.Arithmetic(a_source, a_address, a_size, a_data, TLAtomics.ADD)._2, M_XA_MIN -> edge.Arithmetic(a_source, a_address, a_size, a_data, TLAtomics.MIN)._2, M_XA_MAX -> edge.Arithmetic(a_source, a_address, a_size, a_data, TLAtomics.MAX)._2, M_XA_MINU -> edge.Arithmetic(a_source, a_address, a_size, a_data, TLAtomics.MINU)._2, M_XA_MAXU -> edge.Arithmetic(a_source, a_address, a_size, a_data, TLAtomics.MAXU)._2)) } else { // If no managers support atomics, assert fail if processor asks for them assert(state === s_idle || !isAMO(req.uop.mem_cmd)) (0.U).asTypeOf(new TLBundleA(edge.bundle)) } assert(state === s_idle || req.uop.mem_cmd =/= M_XSC) io.mem_access.valid := state === s_mem_access io.mem_access.bits := Mux(isAMO(req.uop.mem_cmd), atomics, Mux(isRead(req.uop.mem_cmd), get, put)) val send_resp = isRead(req.uop.mem_cmd) io.resp.valid := (state === s_resp) && send_resp io.resp.bits.is_hella := req.is_hella io.resp.bits.uop := req.uop io.resp.bits.data := loadgen.data when (io.req.fire) { req := io.req.bits state := s_mem_access } when (io.mem_access.fire) { state := s_mem_ack } when (state === s_mem_ack && io.mem_ack.valid) { state := s_resp when (isRead(req.uop.mem_cmd)) { grant_word := wordFromBeat(req.addr, io.mem_ack.bits.data) } } when (state === s_resp) { when (!send_resp || io.resp.fire) { state := s_idle } } } class LineBufferReadReq(implicit p: Parameters) extends BoomBundle()(p) with HasL1HellaCacheParameters { val id = UInt(log2Ceil(nLBEntries).W) val offset = UInt(log2Ceil(cacheDataBeats).W) def lb_addr = Cat(id, offset) } class LineBufferWriteReq(implicit p: Parameters) extends LineBufferReadReq()(p) { val data = UInt(encRowBits.W) } class LineBufferMetaWriteReq(implicit p: Parameters) extends BoomBundle()(p) { val id = UInt(log2Ceil(nLBEntries).W) val coh = new ClientMetadata val addr = UInt(coreMaxAddrBits.W) } class LineBufferMeta(implicit p: Parameters) extends BoomBundle()(p) with HasL1HellaCacheParameters { val coh = new ClientMetadata val addr = UInt(coreMaxAddrBits.W) } class BoomMSHRFile(implicit edge: TLEdgeOut, p: Parameters) extends BoomModule()(p) with HasL1HellaCacheParameters { val io = IO(new Bundle { val req = Flipped(Vec(memWidth, Decoupled(new BoomDCacheReqInternal))) // Req from s2 of DCache pipe val req_is_probe = Input(Vec(memWidth, Bool())) val resp = Decoupled(new BoomDCacheResp) val secondary_miss = Output(Vec(memWidth, Bool())) val block_hit = Output(Vec(memWidth, Bool())) val brupdate = Input(new BrUpdateInfo) val exception = Input(Bool()) val rob_pnr_idx = Input(UInt(robAddrSz.W)) val rob_head_idx = Input(UInt(robAddrSz.W)) val mem_acquire = Decoupled(new TLBundleA(edge.bundle)) val mem_grant = Flipped(Decoupled(new TLBundleD(edge.bundle))) val mem_finish = Decoupled(new TLBundleE(edge.bundle)) val refill = Decoupled(new L1DataWriteReq) val meta_write = Decoupled(new L1MetaWriteReq) val meta_read = Decoupled(new L1MetaReadReq) val meta_resp = Input(Valid(new L1Metadata)) val replay = Decoupled(new BoomDCacheReqInternal) val prefetch = Decoupled(new BoomDCacheReq) val wb_req = Decoupled(new WritebackReq(edge.bundle)) val prober_state = Input(Valid(UInt(coreMaxAddrBits.W))) val clear_all = Input(Bool()) // Clears all uncommitted MSHRs to prepare for fence val wb_resp = Input(Bool()) val fence_rdy = Output(Bool()) val probe_rdy = Output(Bool()) }) val req_idx = OHToUInt(io.req.map(_.valid)) val req = io.req(req_idx) val req_is_probe = io.req_is_probe(0) for (w <- 0 until memWidth) io.req(w).ready := false.B val prefetcher: DataPrefetcher = if (enablePrefetching) Module(new NLPrefetcher) else Module(new NullPrefetcher) io.prefetch <> prefetcher.io.prefetch val cacheable = edge.manager.supportsAcquireBFast(req.bits.addr, lgCacheBlockBytes.U) // -------------------- // The MSHR SDQ val sdq_val = RegInit(0.U(cfg.nSDQ.W)) val sdq_alloc_id = PriorityEncoder(~sdq_val(cfg.nSDQ-1,0)) val sdq_rdy = !sdq_val.andR val sdq_enq = req.fire && cacheable && isWrite(req.bits.uop.mem_cmd) val sdq = Mem(cfg.nSDQ, UInt(coreDataBits.W)) when (sdq_enq) { sdq(sdq_alloc_id) := req.bits.data } // -------------------- // The LineBuffer Data // Holds refilling lines, prefetched lines val lb = Mem(nLBEntries * cacheDataBeats, UInt(encRowBits.W)) val lb_read_arb = Module(new Arbiter(new LineBufferReadReq, cfg.nMSHRs)) val lb_write_arb = Module(new Arbiter(new LineBufferWriteReq, cfg.nMSHRs)) lb_read_arb.io.out.ready := false.B lb_write_arb.io.out.ready := true.B val lb_read_data = WireInit(0.U(encRowBits.W)) when (lb_write_arb.io.out.fire) { lb.write(lb_write_arb.io.out.bits.lb_addr, lb_write_arb.io.out.bits.data) } .otherwise { lb_read_arb.io.out.ready := true.B when (lb_read_arb.io.out.fire) { lb_read_data := lb.read(lb_read_arb.io.out.bits.lb_addr) } } def widthMap[T <: Data](f: Int => T) = VecInit((0 until memWidth).map(f)) val idx_matches = Wire(Vec(memWidth, Vec(cfg.nMSHRs, Bool()))) val tag_matches = Wire(Vec(memWidth, Vec(cfg.nMSHRs, Bool()))) val way_matches = Wire(Vec(memWidth, Vec(cfg.nMSHRs, Bool()))) val tag_match = widthMap(w => Mux1H(idx_matches(w), tag_matches(w))) val idx_match = widthMap(w => idx_matches(w).reduce(_||_)) val way_match = widthMap(w => Mux1H(idx_matches(w), way_matches(w))) val wb_tag_list = Wire(Vec(cfg.nMSHRs, UInt(tagBits.W))) val meta_write_arb = Module(new Arbiter(new L1MetaWriteReq , cfg.nMSHRs)) val meta_read_arb = Module(new Arbiter(new L1MetaReadReq , cfg.nMSHRs)) val wb_req_arb = Module(new Arbiter(new WritebackReq(edge.bundle), cfg.nMSHRs)) val replay_arb = Module(new Arbiter(new BoomDCacheReqInternal , cfg.nMSHRs)) val resp_arb = Module(new Arbiter(new BoomDCacheResp , cfg.nMSHRs + nIOMSHRs)) val refill_arb = Module(new Arbiter(new L1DataWriteReq , cfg.nMSHRs)) val commit_vals = Wire(Vec(cfg.nMSHRs, Bool())) val commit_addrs = Wire(Vec(cfg.nMSHRs, UInt(coreMaxAddrBits.W))) val commit_cohs = Wire(Vec(cfg.nMSHRs, new ClientMetadata)) var sec_rdy = false.B io.fence_rdy := true.B io.probe_rdy := true.B io.mem_grant.ready := false.B val mshr_alloc_idx = Wire(UInt()) val pri_rdy = WireInit(false.B) val pri_val = req.valid && sdq_rdy && cacheable && !idx_match(req_idx) val mshrs = (0 until cfg.nMSHRs) map { i => val mshr = Module(new BoomMSHR) mshr.io.id := i.U(log2Ceil(cfg.nMSHRs).W) for (w <- 0 until memWidth) { idx_matches(w)(i) := mshr.io.idx.valid && mshr.io.idx.bits === io.req(w).bits.addr(untagBits-1,blockOffBits) tag_matches(w)(i) := mshr.io.tag.valid && mshr.io.tag.bits === io.req(w).bits.addr >> untagBits way_matches(w)(i) := mshr.io.way.valid && mshr.io.way.bits === io.req(w).bits.way_en } wb_tag_list(i) := mshr.io.wb_req.bits.tag mshr.io.req_pri_val := (i.U === mshr_alloc_idx) && pri_val when (i.U === mshr_alloc_idx) { pri_rdy := mshr.io.req_pri_rdy } mshr.io.req_sec_val := req.valid && sdq_rdy && tag_match(req_idx) && idx_matches(req_idx)(i) && cacheable mshr.io.req := req.bits mshr.io.req_is_probe := req_is_probe mshr.io.req.sdq_id := sdq_alloc_id // Clear because of a FENCE, a request to the same idx as a prefetched line, // a probe to that prefetched line, all mshrs are in use mshr.io.clear_prefetch := ((io.clear_all && !req.valid)|| (req.valid && idx_matches(req_idx)(i) && cacheable && !tag_match(req_idx)) || (req_is_probe && idx_matches(req_idx)(i))) mshr.io.brupdate := io.brupdate mshr.io.exception := io.exception mshr.io.rob_pnr_idx := io.rob_pnr_idx mshr.io.rob_head_idx := io.rob_head_idx mshr.io.prober_state := io.prober_state mshr.io.wb_resp := io.wb_resp meta_write_arb.io.in(i) <> mshr.io.meta_write meta_read_arb.io.in(i) <> mshr.io.meta_read mshr.io.meta_resp := io.meta_resp wb_req_arb.io.in(i) <> mshr.io.wb_req replay_arb.io.in(i) <> mshr.io.replay refill_arb.io.in(i) <> mshr.io.refill lb_read_arb.io.in(i) <> mshr.io.lb_read mshr.io.lb_resp := lb_read_data lb_write_arb.io.in(i) <> mshr.io.lb_write commit_vals(i) := mshr.io.commit_val commit_addrs(i) := mshr.io.commit_addr commit_cohs(i) := mshr.io.commit_coh mshr.io.mem_grant.valid := false.B mshr.io.mem_grant.bits := DontCare when (io.mem_grant.bits.source === i.U) { mshr.io.mem_grant <> io.mem_grant } sec_rdy = sec_rdy || (mshr.io.req_sec_rdy && mshr.io.req_sec_val) resp_arb.io.in(i) <> mshr.io.resp when (!mshr.io.req_pri_rdy) { io.fence_rdy := false.B } for (w <- 0 until memWidth) { when (!mshr.io.probe_rdy && idx_matches(w)(i) && io.req_is_probe(w)) { io.probe_rdy := false.B } } mshr } // Try to round-robin the MSHRs val mshr_head = RegInit(0.U(log2Ceil(cfg.nMSHRs).W)) mshr_alloc_idx := RegNext(AgePriorityEncoder(mshrs.map(m=>m.io.req_pri_rdy), mshr_head)) when (pri_rdy && pri_val) { mshr_head := WrapInc(mshr_head, cfg.nMSHRs) } io.meta_write <> meta_write_arb.io.out io.meta_read <> meta_read_arb.io.out io.wb_req <> wb_req_arb.io.out val mmio_alloc_arb = Module(new Arbiter(Bool(), nIOMSHRs)) var mmio_rdy = false.B val mmios = (0 until nIOMSHRs) map { i => val id = cfg.nMSHRs + 1 + i // +1 for wb unit val mshr = Module(new BoomIOMSHR(id)) mmio_alloc_arb.io.in(i).valid := mshr.io.req.ready mmio_alloc_arb.io.in(i).bits := DontCare mshr.io.req.valid := mmio_alloc_arb.io.in(i).ready mshr.io.req.bits := req.bits mmio_rdy = mmio_rdy || mshr.io.req.ready mshr.io.mem_ack.bits := io.mem_grant.bits mshr.io.mem_ack.valid := io.mem_grant.valid && io.mem_grant.bits.source === id.U when (io.mem_grant.bits.source === id.U) { io.mem_grant.ready := true.B } resp_arb.io.in(cfg.nMSHRs + i) <> mshr.io.resp when (!mshr.io.req.ready) { io.fence_rdy := false.B } mshr } mmio_alloc_arb.io.out.ready := req.valid && !cacheable TLArbiter.lowestFromSeq(edge, io.mem_acquire, mshrs.map(_.io.mem_acquire) ++ mmios.map(_.io.mem_access)) TLArbiter.lowestFromSeq(edge, io.mem_finish, mshrs.map(_.io.mem_finish)) val respq = Module(new BranchKillableQueue(new BoomDCacheResp, 4, u => u.uses_ldq, flow = false)) respq.io.brupdate := io.brupdate respq.io.flush := io.exception respq.io.enq <> resp_arb.io.out io.resp <> respq.io.deq for (w <- 0 until memWidth) { io.req(w).ready := (w.U === req_idx) && Mux(!cacheable, mmio_rdy, sdq_rdy && Mux(idx_match(w), tag_match(w) && sec_rdy, pri_rdy)) io.secondary_miss(w) := idx_match(w) && way_match(w) && !tag_match(w) io.block_hit(w) := idx_match(w) && tag_match(w) } io.refill <> refill_arb.io.out val free_sdq = io.replay.fire && isWrite(io.replay.bits.uop.mem_cmd) io.replay <> replay_arb.io.out io.replay.bits.data := sdq(replay_arb.io.out.bits.sdq_id) when (io.replay.valid || sdq_enq) { sdq_val := sdq_val & ~(UIntToOH(replay_arb.io.out.bits.sdq_id) & Fill(cfg.nSDQ, free_sdq)) | PriorityEncoderOH(~sdq_val(cfg.nSDQ-1,0)) & Fill(cfg.nSDQ, sdq_enq) } prefetcher.io.mshr_avail := RegNext(pri_rdy) prefetcher.io.req_val := RegNext(commit_vals.reduce(_||_)) prefetcher.io.req_addr := RegNext(Mux1H(commit_vals, commit_addrs)) prefetcher.io.req_coh := RegNext(Mux1H(commit_vals, commit_cohs)) } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } } File AMOALU.scala: // See LICENSE.SiFive for license details. // See LICENSE.Berkeley for license details. package freechips.rocketchip.rocket import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.Parameters class StoreGen(typ: UInt, addr: UInt, dat: UInt, maxSize: Int) { val size = Wire(UInt(log2Up(log2Up(maxSize)+1).W)) size := typ val dat_padded = dat.pad(maxSize*8) def misaligned: Bool = (addr & ((1.U << size) - 1.U)(log2Up(maxSize)-1,0)).orR def mask = { var res = 1.U for (i <- 0 until log2Up(maxSize)) { val upper = Mux(addr(i), res, 0.U) | Mux(size >= (i+1).U, ((BigInt(1) << (1 << i))-1).U, 0.U) val lower = Mux(addr(i), 0.U, res) res = Cat(upper, lower) } res } protected def genData(i: Int): UInt = if (i >= log2Up(maxSize)) dat_padded else Mux(size === i.U, Fill(1 << (log2Up(maxSize)-i), dat_padded((8 << i)-1,0)), genData(i+1)) def data = genData(0) def wordData = genData(2) } class LoadGen(typ: UInt, signed: Bool, addr: UInt, dat: UInt, zero: Bool, maxSize: Int) { private val size = new StoreGen(typ, addr, dat, maxSize).size private def genData(logMinSize: Int): UInt = { var res = dat for (i <- log2Up(maxSize)-1 to logMinSize by -1) { val pos = 8 << i val shifted = Mux(addr(i), res(2*pos-1,pos), res(pos-1,0)) val doZero = (i == 0).B && zero val zeroed = Mux(doZero, 0.U, shifted) res = Cat(Mux(size === i.U || doZero, Fill(8*maxSize-pos, signed && zeroed(pos-1)), res(8*maxSize-1,pos)), zeroed) } res } def wordData = genData(2) def data = genData(0) } class AMOALU(operandBits: Int)(implicit p: Parameters) extends Module { val minXLen = 32 val widths = (0 to log2Ceil(operandBits / minXLen)).map(minXLen << _) val io = IO(new Bundle { val mask = Input(UInt((operandBits / 8).W)) val cmd = Input(UInt(M_SZ.W)) val lhs = Input(UInt(operandBits.W)) val rhs = Input(UInt(operandBits.W)) val out = Output(UInt(operandBits.W)) val out_unmasked = Output(UInt(operandBits.W)) }) val max = io.cmd === M_XA_MAX || io.cmd === M_XA_MAXU val min = io.cmd === M_XA_MIN || io.cmd === M_XA_MINU val add = io.cmd === M_XA_ADD val logic_and = io.cmd === M_XA_OR || io.cmd === M_XA_AND val logic_xor = io.cmd === M_XA_XOR || io.cmd === M_XA_OR val adder_out = { // partition the carry chain to support sub-xLen addition val mask = ~(0.U(operandBits.W) +: widths.init.map(w => !io.mask(w/8-1) << (w-1))).reduce(_|_) (io.lhs & mask) + (io.rhs & mask) } val less = { // break up the comparator so the lower parts will be CSE'd def isLessUnsigned(x: UInt, y: UInt, n: Int): Bool = { if (n == minXLen) x(n-1, 0) < y(n-1, 0) else x(n-1, n/2) < y(n-1, n/2) || x(n-1, n/2) === y(n-1, n/2) && isLessUnsigned(x, y, n/2) } def isLess(x: UInt, y: UInt, n: Int): Bool = { val signed = { val mask = M_XA_MIN ^ M_XA_MINU (io.cmd & mask) === (M_XA_MIN & mask) } Mux(x(n-1) === y(n-1), isLessUnsigned(x, y, n), Mux(signed, x(n-1), y(n-1))) } PriorityMux(widths.reverse.map(w => (io.mask(w/8/2), isLess(io.lhs, io.rhs, w)))) } val minmax = Mux(Mux(less, min, max), io.lhs, io.rhs) val logic = Mux(logic_and, io.lhs & io.rhs, 0.U) | Mux(logic_xor, io.lhs ^ io.rhs, 0.U) val out = Mux(add, adder_out, Mux(logic_and || logic_xor, logic, minmax)) val wmask = FillInterleaved(8, io.mask) io.out := wmask & out | ~wmask & io.lhs io.out_unmasked := out }
module BoomMSHR_1( // @[mshrs.scala:36:7] input clock, // @[mshrs.scala:36:7] input reset, // @[mshrs.scala:36:7] input io_req_pri_val, // @[mshrs.scala:39:14] output io_req_pri_rdy, // @[mshrs.scala:39:14] input io_req_sec_val, // @[mshrs.scala:39:14] output io_req_sec_rdy, // @[mshrs.scala:39:14] input io_clear_prefetch, // @[mshrs.scala:39:14] input [15:0] io_brupdate_b1_resolve_mask, // @[mshrs.scala:39:14] input [15:0] io_brupdate_b1_mispredict_mask, // @[mshrs.scala:39:14] input [6:0] io_brupdate_b2_uop_uopc, // @[mshrs.scala:39:14] input [31:0] io_brupdate_b2_uop_inst, // @[mshrs.scala:39:14] input [31:0] io_brupdate_b2_uop_debug_inst, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_is_rvc, // @[mshrs.scala:39:14] input [39:0] io_brupdate_b2_uop_debug_pc, // @[mshrs.scala:39:14] input [2:0] io_brupdate_b2_uop_iq_type, // @[mshrs.scala:39:14] input [9:0] io_brupdate_b2_uop_fu_code, // @[mshrs.scala:39:14] input [3:0] io_brupdate_b2_uop_ctrl_br_type, // @[mshrs.scala:39:14] input [1:0] io_brupdate_b2_uop_ctrl_op1_sel, // @[mshrs.scala:39:14] input [2:0] io_brupdate_b2_uop_ctrl_op2_sel, // @[mshrs.scala:39:14] input [2:0] io_brupdate_b2_uop_ctrl_imm_sel, // @[mshrs.scala:39:14] input [4:0] io_brupdate_b2_uop_ctrl_op_fcn, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_ctrl_fcn_dw, // @[mshrs.scala:39:14] input [2:0] io_brupdate_b2_uop_ctrl_csr_cmd, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_ctrl_is_load, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_ctrl_is_sta, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_ctrl_is_std, // @[mshrs.scala:39:14] input [1:0] io_brupdate_b2_uop_iw_state, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_iw_p1_poisoned, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_iw_p2_poisoned, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_is_br, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_is_jalr, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_is_jal, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_is_sfb, // @[mshrs.scala:39:14] input [15:0] io_brupdate_b2_uop_br_mask, // @[mshrs.scala:39:14] input [3:0] io_brupdate_b2_uop_br_tag, // @[mshrs.scala:39:14] input [4:0] io_brupdate_b2_uop_ftq_idx, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_edge_inst, // @[mshrs.scala:39:14] input [5:0] io_brupdate_b2_uop_pc_lob, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_taken, // @[mshrs.scala:39:14] input [19:0] io_brupdate_b2_uop_imm_packed, // @[mshrs.scala:39:14] input [11:0] io_brupdate_b2_uop_csr_addr, // @[mshrs.scala:39:14] input [6:0] io_brupdate_b2_uop_rob_idx, // @[mshrs.scala:39:14] input [4:0] io_brupdate_b2_uop_ldq_idx, // @[mshrs.scala:39:14] input [4:0] io_brupdate_b2_uop_stq_idx, // @[mshrs.scala:39:14] input [1:0] io_brupdate_b2_uop_rxq_idx, // @[mshrs.scala:39:14] input [6:0] io_brupdate_b2_uop_pdst, // @[mshrs.scala:39:14] input [6:0] io_brupdate_b2_uop_prs1, // @[mshrs.scala:39:14] input [6:0] io_brupdate_b2_uop_prs2, // @[mshrs.scala:39:14] input [6:0] io_brupdate_b2_uop_prs3, // @[mshrs.scala:39:14] input [4:0] io_brupdate_b2_uop_ppred, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_prs1_busy, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_prs2_busy, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_prs3_busy, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_ppred_busy, // @[mshrs.scala:39:14] input [6:0] io_brupdate_b2_uop_stale_pdst, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_exception, // @[mshrs.scala:39:14] input [63:0] io_brupdate_b2_uop_exc_cause, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_bypassable, // @[mshrs.scala:39:14] input [4:0] io_brupdate_b2_uop_mem_cmd, // @[mshrs.scala:39:14] input [1:0] io_brupdate_b2_uop_mem_size, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_mem_signed, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_is_fence, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_is_fencei, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_is_amo, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_uses_ldq, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_uses_stq, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_is_sys_pc2epc, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_is_unique, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_flush_on_commit, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_ldst_is_rs1, // @[mshrs.scala:39:14] input [5:0] io_brupdate_b2_uop_ldst, // @[mshrs.scala:39:14] input [5:0] io_brupdate_b2_uop_lrs1, // @[mshrs.scala:39:14] input [5:0] io_brupdate_b2_uop_lrs2, // @[mshrs.scala:39:14] input [5:0] io_brupdate_b2_uop_lrs3, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_ldst_val, // @[mshrs.scala:39:14] input [1:0] io_brupdate_b2_uop_dst_rtype, // @[mshrs.scala:39:14] input [1:0] io_brupdate_b2_uop_lrs1_rtype, // @[mshrs.scala:39:14] input [1:0] io_brupdate_b2_uop_lrs2_rtype, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_frs3_en, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_fp_val, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_fp_single, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_xcpt_pf_if, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_xcpt_ae_if, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_xcpt_ma_if, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_bp_debug_if, // @[mshrs.scala:39:14] input io_brupdate_b2_uop_bp_xcpt_if, // @[mshrs.scala:39:14] input [1:0] io_brupdate_b2_uop_debug_fsrc, // @[mshrs.scala:39:14] input [1:0] io_brupdate_b2_uop_debug_tsrc, // @[mshrs.scala:39:14] input io_brupdate_b2_valid, // @[mshrs.scala:39:14] input io_brupdate_b2_mispredict, // @[mshrs.scala:39:14] input io_brupdate_b2_taken, // @[mshrs.scala:39:14] input [2:0] io_brupdate_b2_cfi_type, // @[mshrs.scala:39:14] input [1:0] io_brupdate_b2_pc_sel, // @[mshrs.scala:39:14] input [39:0] io_brupdate_b2_jalr_target, // @[mshrs.scala:39:14] input [20:0] io_brupdate_b2_target_offset, // @[mshrs.scala:39:14] input io_exception, // @[mshrs.scala:39:14] input [6:0] io_rob_pnr_idx, // @[mshrs.scala:39:14] input [6:0] io_rob_head_idx, // @[mshrs.scala:39:14] input [6:0] io_req_uop_uopc, // @[mshrs.scala:39:14] input [31:0] io_req_uop_inst, // @[mshrs.scala:39:14] input [31:0] io_req_uop_debug_inst, // @[mshrs.scala:39:14] input io_req_uop_is_rvc, // @[mshrs.scala:39:14] input [39:0] io_req_uop_debug_pc, // @[mshrs.scala:39:14] input [2:0] io_req_uop_iq_type, // @[mshrs.scala:39:14] input [9:0] io_req_uop_fu_code, // @[mshrs.scala:39:14] input [3:0] io_req_uop_ctrl_br_type, // @[mshrs.scala:39:14] input [1:0] io_req_uop_ctrl_op1_sel, // @[mshrs.scala:39:14] input [2:0] io_req_uop_ctrl_op2_sel, // @[mshrs.scala:39:14] input [2:0] io_req_uop_ctrl_imm_sel, // @[mshrs.scala:39:14] input [4:0] io_req_uop_ctrl_op_fcn, // @[mshrs.scala:39:14] input io_req_uop_ctrl_fcn_dw, // @[mshrs.scala:39:14] input [2:0] io_req_uop_ctrl_csr_cmd, // @[mshrs.scala:39:14] input io_req_uop_ctrl_is_load, // @[mshrs.scala:39:14] input io_req_uop_ctrl_is_sta, // @[mshrs.scala:39:14] input io_req_uop_ctrl_is_std, // @[mshrs.scala:39:14] input [1:0] io_req_uop_iw_state, // @[mshrs.scala:39:14] input io_req_uop_iw_p1_poisoned, // @[mshrs.scala:39:14] input io_req_uop_iw_p2_poisoned, // @[mshrs.scala:39:14] input io_req_uop_is_br, // @[mshrs.scala:39:14] input io_req_uop_is_jalr, // @[mshrs.scala:39:14] input io_req_uop_is_jal, // @[mshrs.scala:39:14] input io_req_uop_is_sfb, // @[mshrs.scala:39:14] input [15:0] io_req_uop_br_mask, // @[mshrs.scala:39:14] input [3:0] io_req_uop_br_tag, // @[mshrs.scala:39:14] input [4:0] io_req_uop_ftq_idx, // @[mshrs.scala:39:14] input io_req_uop_edge_inst, // @[mshrs.scala:39:14] input [5:0] io_req_uop_pc_lob, // @[mshrs.scala:39:14] input io_req_uop_taken, // @[mshrs.scala:39:14] input [19:0] io_req_uop_imm_packed, // @[mshrs.scala:39:14] input [11:0] io_req_uop_csr_addr, // @[mshrs.scala:39:14] input [6:0] io_req_uop_rob_idx, // @[mshrs.scala:39:14] input [4:0] io_req_uop_ldq_idx, // @[mshrs.scala:39:14] input [4:0] io_req_uop_stq_idx, // @[mshrs.scala:39:14] input [1:0] io_req_uop_rxq_idx, // @[mshrs.scala:39:14] input [6:0] io_req_uop_pdst, // @[mshrs.scala:39:14] input [6:0] io_req_uop_prs1, // @[mshrs.scala:39:14] input [6:0] io_req_uop_prs2, // @[mshrs.scala:39:14] input [6:0] io_req_uop_prs3, // @[mshrs.scala:39:14] input [4:0] io_req_uop_ppred, // @[mshrs.scala:39:14] input io_req_uop_prs1_busy, // @[mshrs.scala:39:14] input io_req_uop_prs2_busy, // @[mshrs.scala:39:14] input io_req_uop_prs3_busy, // @[mshrs.scala:39:14] input io_req_uop_ppred_busy, // @[mshrs.scala:39:14] input [6:0] io_req_uop_stale_pdst, // @[mshrs.scala:39:14] input io_req_uop_exception, // @[mshrs.scala:39:14] input [63:0] io_req_uop_exc_cause, // @[mshrs.scala:39:14] input io_req_uop_bypassable, // @[mshrs.scala:39:14] input [4:0] io_req_uop_mem_cmd, // @[mshrs.scala:39:14] input [1:0] io_req_uop_mem_size, // @[mshrs.scala:39:14] input io_req_uop_mem_signed, // @[mshrs.scala:39:14] input io_req_uop_is_fence, // @[mshrs.scala:39:14] input io_req_uop_is_fencei, // @[mshrs.scala:39:14] input io_req_uop_is_amo, // @[mshrs.scala:39:14] input io_req_uop_uses_ldq, // @[mshrs.scala:39:14] input io_req_uop_uses_stq, // @[mshrs.scala:39:14] input io_req_uop_is_sys_pc2epc, // @[mshrs.scala:39:14] input io_req_uop_is_unique, // @[mshrs.scala:39:14] input io_req_uop_flush_on_commit, // @[mshrs.scala:39:14] input io_req_uop_ldst_is_rs1, // @[mshrs.scala:39:14] input [5:0] io_req_uop_ldst, // @[mshrs.scala:39:14] input [5:0] io_req_uop_lrs1, // @[mshrs.scala:39:14] input [5:0] io_req_uop_lrs2, // @[mshrs.scala:39:14] input [5:0] io_req_uop_lrs3, // @[mshrs.scala:39:14] input io_req_uop_ldst_val, // @[mshrs.scala:39:14] input [1:0] io_req_uop_dst_rtype, // @[mshrs.scala:39:14] input [1:0] io_req_uop_lrs1_rtype, // @[mshrs.scala:39:14] input [1:0] io_req_uop_lrs2_rtype, // @[mshrs.scala:39:14] input io_req_uop_frs3_en, // @[mshrs.scala:39:14] input io_req_uop_fp_val, // @[mshrs.scala:39:14] input io_req_uop_fp_single, // @[mshrs.scala:39:14] input io_req_uop_xcpt_pf_if, // @[mshrs.scala:39:14] input io_req_uop_xcpt_ae_if, // @[mshrs.scala:39:14] input io_req_uop_xcpt_ma_if, // @[mshrs.scala:39:14] input io_req_uop_bp_debug_if, // @[mshrs.scala:39:14] input io_req_uop_bp_xcpt_if, // @[mshrs.scala:39:14] input [1:0] io_req_uop_debug_fsrc, // @[mshrs.scala:39:14] input [1:0] io_req_uop_debug_tsrc, // @[mshrs.scala:39:14] input [39:0] io_req_addr, // @[mshrs.scala:39:14] input [63:0] io_req_data, // @[mshrs.scala:39:14] input io_req_is_hella, // @[mshrs.scala:39:14] input io_req_tag_match, // @[mshrs.scala:39:14] input [1:0] io_req_old_meta_coh_state, // @[mshrs.scala:39:14] input [19:0] io_req_old_meta_tag, // @[mshrs.scala:39:14] input [7:0] io_req_way_en, // @[mshrs.scala:39:14] input [4:0] io_req_sdq_id, // @[mshrs.scala:39:14] input io_req_is_probe, // @[mshrs.scala:39:14] output io_idx_valid, // @[mshrs.scala:39:14] output [5:0] io_idx_bits, // @[mshrs.scala:39:14] output io_way_valid, // @[mshrs.scala:39:14] output [7:0] io_way_bits, // @[mshrs.scala:39:14] output io_tag_valid, // @[mshrs.scala:39:14] output [27:0] io_tag_bits, // @[mshrs.scala:39:14] input io_mem_acquire_ready, // @[mshrs.scala:39:14] output io_mem_acquire_valid, // @[mshrs.scala:39:14] output [2:0] io_mem_acquire_bits_param, // @[mshrs.scala:39:14] output [31:0] io_mem_acquire_bits_address, // @[mshrs.scala:39:14] output io_mem_grant_ready, // @[mshrs.scala:39:14] input io_mem_grant_valid, // @[mshrs.scala:39:14] input [2:0] io_mem_grant_bits_opcode, // @[mshrs.scala:39:14] input [1:0] io_mem_grant_bits_param, // @[mshrs.scala:39:14] input [3:0] io_mem_grant_bits_size, // @[mshrs.scala:39:14] input [2:0] io_mem_grant_bits_source, // @[mshrs.scala:39:14] input [3:0] io_mem_grant_bits_sink, // @[mshrs.scala:39:14] input io_mem_grant_bits_denied, // @[mshrs.scala:39:14] input [127:0] io_mem_grant_bits_data, // @[mshrs.scala:39:14] input io_mem_grant_bits_corrupt, // @[mshrs.scala:39:14] input io_mem_finish_ready, // @[mshrs.scala:39:14] output io_mem_finish_valid, // @[mshrs.scala:39:14] output [3:0] io_mem_finish_bits_sink, // @[mshrs.scala:39:14] input io_prober_state_valid, // @[mshrs.scala:39:14] input [39:0] io_prober_state_bits, // @[mshrs.scala:39:14] input io_refill_ready, // @[mshrs.scala:39:14] output io_refill_valid, // @[mshrs.scala:39:14] output [7:0] io_refill_bits_way_en, // @[mshrs.scala:39:14] output [11:0] io_refill_bits_addr, // @[mshrs.scala:39:14] output [127:0] io_refill_bits_data, // @[mshrs.scala:39:14] input io_meta_write_ready, // @[mshrs.scala:39:14] output io_meta_write_valid, // @[mshrs.scala:39:14] output [5:0] io_meta_write_bits_idx, // @[mshrs.scala:39:14] output [7:0] io_meta_write_bits_way_en, // @[mshrs.scala:39:14] output [1:0] io_meta_write_bits_data_coh_state, // @[mshrs.scala:39:14] output [19:0] io_meta_write_bits_data_tag, // @[mshrs.scala:39:14] input io_meta_read_ready, // @[mshrs.scala:39:14] output io_meta_read_valid, // @[mshrs.scala:39:14] output [5:0] io_meta_read_bits_idx, // @[mshrs.scala:39:14] output [7:0] io_meta_read_bits_way_en, // @[mshrs.scala:39:14] output [19:0] io_meta_read_bits_tag, // @[mshrs.scala:39:14] input io_meta_resp_valid, // @[mshrs.scala:39:14] input [1:0] io_meta_resp_bits_coh_state, // @[mshrs.scala:39:14] input [19:0] io_meta_resp_bits_tag, // @[mshrs.scala:39:14] input io_wb_req_ready, // @[mshrs.scala:39:14] output io_wb_req_valid, // @[mshrs.scala:39:14] output [19:0] io_wb_req_bits_tag, // @[mshrs.scala:39:14] output [5:0] io_wb_req_bits_idx, // @[mshrs.scala:39:14] output [2:0] io_wb_req_bits_param, // @[mshrs.scala:39:14] output [7:0] io_wb_req_bits_way_en, // @[mshrs.scala:39:14] output io_commit_val, // @[mshrs.scala:39:14] output [39:0] io_commit_addr, // @[mshrs.scala:39:14] output [1:0] io_commit_coh_state, // @[mshrs.scala:39:14] input io_lb_read_ready, // @[mshrs.scala:39:14] output io_lb_read_valid, // @[mshrs.scala:39:14] output [1:0] io_lb_read_bits_offset, // @[mshrs.scala:39:14] input [127:0] io_lb_resp, // @[mshrs.scala:39:14] input io_lb_write_ready, // @[mshrs.scala:39:14] output io_lb_write_valid, // @[mshrs.scala:39:14] output [1:0] io_lb_write_bits_offset, // @[mshrs.scala:39:14] output [127:0] io_lb_write_bits_data, // @[mshrs.scala:39:14] input io_replay_ready, // @[mshrs.scala:39:14] output io_replay_valid, // @[mshrs.scala:39:14] output [6:0] io_replay_bits_uop_uopc, // @[mshrs.scala:39:14] output [31:0] io_replay_bits_uop_inst, // @[mshrs.scala:39:14] output [31:0] io_replay_bits_uop_debug_inst, // @[mshrs.scala:39:14] output io_replay_bits_uop_is_rvc, // @[mshrs.scala:39:14] output [39:0] io_replay_bits_uop_debug_pc, // @[mshrs.scala:39:14] output [2:0] io_replay_bits_uop_iq_type, // @[mshrs.scala:39:14] output [9:0] io_replay_bits_uop_fu_code, // @[mshrs.scala:39:14] output [3:0] io_replay_bits_uop_ctrl_br_type, // @[mshrs.scala:39:14] output [1:0] io_replay_bits_uop_ctrl_op1_sel, // @[mshrs.scala:39:14] output [2:0] io_replay_bits_uop_ctrl_op2_sel, // @[mshrs.scala:39:14] output [2:0] io_replay_bits_uop_ctrl_imm_sel, // @[mshrs.scala:39:14] output [4:0] io_replay_bits_uop_ctrl_op_fcn, // @[mshrs.scala:39:14] output io_replay_bits_uop_ctrl_fcn_dw, // @[mshrs.scala:39:14] output [2:0] io_replay_bits_uop_ctrl_csr_cmd, // @[mshrs.scala:39:14] output io_replay_bits_uop_ctrl_is_load, // @[mshrs.scala:39:14] output io_replay_bits_uop_ctrl_is_sta, // @[mshrs.scala:39:14] output io_replay_bits_uop_ctrl_is_std, // @[mshrs.scala:39:14] output [1:0] io_replay_bits_uop_iw_state, // @[mshrs.scala:39:14] output io_replay_bits_uop_iw_p1_poisoned, // @[mshrs.scala:39:14] output io_replay_bits_uop_iw_p2_poisoned, // @[mshrs.scala:39:14] output io_replay_bits_uop_is_br, // @[mshrs.scala:39:14] output io_replay_bits_uop_is_jalr, // @[mshrs.scala:39:14] output io_replay_bits_uop_is_jal, // @[mshrs.scala:39:14] output io_replay_bits_uop_is_sfb, // @[mshrs.scala:39:14] output [15:0] io_replay_bits_uop_br_mask, // @[mshrs.scala:39:14] output [3:0] io_replay_bits_uop_br_tag, // @[mshrs.scala:39:14] output [4:0] io_replay_bits_uop_ftq_idx, // @[mshrs.scala:39:14] output io_replay_bits_uop_edge_inst, // @[mshrs.scala:39:14] output [5:0] io_replay_bits_uop_pc_lob, // @[mshrs.scala:39:14] output io_replay_bits_uop_taken, // @[mshrs.scala:39:14] output [19:0] io_replay_bits_uop_imm_packed, // @[mshrs.scala:39:14] output [11:0] io_replay_bits_uop_csr_addr, // @[mshrs.scala:39:14] output [6:0] io_replay_bits_uop_rob_idx, // @[mshrs.scala:39:14] output [4:0] io_replay_bits_uop_ldq_idx, // @[mshrs.scala:39:14] output [4:0] io_replay_bits_uop_stq_idx, // @[mshrs.scala:39:14] output [1:0] io_replay_bits_uop_rxq_idx, // @[mshrs.scala:39:14] output [6:0] io_replay_bits_uop_pdst, // @[mshrs.scala:39:14] output [6:0] io_replay_bits_uop_prs1, // @[mshrs.scala:39:14] output [6:0] io_replay_bits_uop_prs2, // @[mshrs.scala:39:14] output [6:0] io_replay_bits_uop_prs3, // @[mshrs.scala:39:14] output [4:0] io_replay_bits_uop_ppred, // @[mshrs.scala:39:14] output io_replay_bits_uop_prs1_busy, // @[mshrs.scala:39:14] output io_replay_bits_uop_prs2_busy, // @[mshrs.scala:39:14] output io_replay_bits_uop_prs3_busy, // @[mshrs.scala:39:14] output io_replay_bits_uop_ppred_busy, // @[mshrs.scala:39:14] output [6:0] io_replay_bits_uop_stale_pdst, // @[mshrs.scala:39:14] output io_replay_bits_uop_exception, // @[mshrs.scala:39:14] output [63:0] io_replay_bits_uop_exc_cause, // @[mshrs.scala:39:14] output io_replay_bits_uop_bypassable, // @[mshrs.scala:39:14] output [4:0] io_replay_bits_uop_mem_cmd, // @[mshrs.scala:39:14] output [1:0] io_replay_bits_uop_mem_size, // @[mshrs.scala:39:14] output io_replay_bits_uop_mem_signed, // @[mshrs.scala:39:14] output io_replay_bits_uop_is_fence, // @[mshrs.scala:39:14] output io_replay_bits_uop_is_fencei, // @[mshrs.scala:39:14] output io_replay_bits_uop_is_amo, // @[mshrs.scala:39:14] output io_replay_bits_uop_uses_ldq, // @[mshrs.scala:39:14] output io_replay_bits_uop_uses_stq, // @[mshrs.scala:39:14] output io_replay_bits_uop_is_sys_pc2epc, // @[mshrs.scala:39:14] output io_replay_bits_uop_is_unique, // @[mshrs.scala:39:14] output io_replay_bits_uop_flush_on_commit, // @[mshrs.scala:39:14] output io_replay_bits_uop_ldst_is_rs1, // @[mshrs.scala:39:14] output [5:0] io_replay_bits_uop_ldst, // @[mshrs.scala:39:14] output [5:0] io_replay_bits_uop_lrs1, // @[mshrs.scala:39:14] output [5:0] io_replay_bits_uop_lrs2, // @[mshrs.scala:39:14] output [5:0] io_replay_bits_uop_lrs3, // @[mshrs.scala:39:14] output io_replay_bits_uop_ldst_val, // @[mshrs.scala:39:14] output [1:0] io_replay_bits_uop_dst_rtype, // @[mshrs.scala:39:14] output [1:0] io_replay_bits_uop_lrs1_rtype, // @[mshrs.scala:39:14] output [1:0] io_replay_bits_uop_lrs2_rtype, // @[mshrs.scala:39:14] output io_replay_bits_uop_frs3_en, // @[mshrs.scala:39:14] output io_replay_bits_uop_fp_val, // @[mshrs.scala:39:14] output io_replay_bits_uop_fp_single, // @[mshrs.scala:39:14] output io_replay_bits_uop_xcpt_pf_if, // @[mshrs.scala:39:14] output io_replay_bits_uop_xcpt_ae_if, // @[mshrs.scala:39:14] output io_replay_bits_uop_xcpt_ma_if, // @[mshrs.scala:39:14] output io_replay_bits_uop_bp_debug_if, // @[mshrs.scala:39:14] output io_replay_bits_uop_bp_xcpt_if, // @[mshrs.scala:39:14] output [1:0] io_replay_bits_uop_debug_fsrc, // @[mshrs.scala:39:14] output [1:0] io_replay_bits_uop_debug_tsrc, // @[mshrs.scala:39:14] output [39:0] io_replay_bits_addr, // @[mshrs.scala:39:14] output [63:0] io_replay_bits_data, // @[mshrs.scala:39:14] output io_replay_bits_is_hella, // @[mshrs.scala:39:14] output io_replay_bits_tag_match, // @[mshrs.scala:39:14] output [1:0] io_replay_bits_old_meta_coh_state, // @[mshrs.scala:39:14] output [19:0] io_replay_bits_old_meta_tag, // @[mshrs.scala:39:14] output [7:0] io_replay_bits_way_en, // @[mshrs.scala:39:14] output [4:0] io_replay_bits_sdq_id, // @[mshrs.scala:39:14] input io_resp_ready, // @[mshrs.scala:39:14] output io_resp_valid, // @[mshrs.scala:39:14] output [6:0] io_resp_bits_uop_uopc, // @[mshrs.scala:39:14] output [31:0] io_resp_bits_uop_inst, // @[mshrs.scala:39:14] output [31:0] io_resp_bits_uop_debug_inst, // @[mshrs.scala:39:14] output io_resp_bits_uop_is_rvc, // @[mshrs.scala:39:14] output [39:0] io_resp_bits_uop_debug_pc, // @[mshrs.scala:39:14] output [2:0] io_resp_bits_uop_iq_type, // @[mshrs.scala:39:14] output [9:0] io_resp_bits_uop_fu_code, // @[mshrs.scala:39:14] output [3:0] io_resp_bits_uop_ctrl_br_type, // @[mshrs.scala:39:14] output [1:0] io_resp_bits_uop_ctrl_op1_sel, // @[mshrs.scala:39:14] output [2:0] io_resp_bits_uop_ctrl_op2_sel, // @[mshrs.scala:39:14] output [2:0] io_resp_bits_uop_ctrl_imm_sel, // @[mshrs.scala:39:14] output [4:0] io_resp_bits_uop_ctrl_op_fcn, // @[mshrs.scala:39:14] output io_resp_bits_uop_ctrl_fcn_dw, // @[mshrs.scala:39:14] output [2:0] io_resp_bits_uop_ctrl_csr_cmd, // @[mshrs.scala:39:14] output io_resp_bits_uop_ctrl_is_load, // @[mshrs.scala:39:14] output io_resp_bits_uop_ctrl_is_sta, // @[mshrs.scala:39:14] output io_resp_bits_uop_ctrl_is_std, // @[mshrs.scala:39:14] output [1:0] io_resp_bits_uop_iw_state, // @[mshrs.scala:39:14] output io_resp_bits_uop_iw_p1_poisoned, // @[mshrs.scala:39:14] output io_resp_bits_uop_iw_p2_poisoned, // @[mshrs.scala:39:14] output io_resp_bits_uop_is_br, // @[mshrs.scala:39:14] output io_resp_bits_uop_is_jalr, // @[mshrs.scala:39:14] output io_resp_bits_uop_is_jal, // @[mshrs.scala:39:14] output io_resp_bits_uop_is_sfb, // @[mshrs.scala:39:14] output [15:0] io_resp_bits_uop_br_mask, // @[mshrs.scala:39:14] output [3:0] io_resp_bits_uop_br_tag, // @[mshrs.scala:39:14] output [4:0] io_resp_bits_uop_ftq_idx, // @[mshrs.scala:39:14] output io_resp_bits_uop_edge_inst, // @[mshrs.scala:39:14] output [5:0] io_resp_bits_uop_pc_lob, // @[mshrs.scala:39:14] output io_resp_bits_uop_taken, // @[mshrs.scala:39:14] output [19:0] io_resp_bits_uop_imm_packed, // @[mshrs.scala:39:14] output [11:0] io_resp_bits_uop_csr_addr, // @[mshrs.scala:39:14] output [6:0] io_resp_bits_uop_rob_idx, // @[mshrs.scala:39:14] output [4:0] io_resp_bits_uop_ldq_idx, // @[mshrs.scala:39:14] output [4:0] io_resp_bits_uop_stq_idx, // @[mshrs.scala:39:14] output [1:0] io_resp_bits_uop_rxq_idx, // @[mshrs.scala:39:14] output [6:0] io_resp_bits_uop_pdst, // @[mshrs.scala:39:14] output [6:0] io_resp_bits_uop_prs1, // @[mshrs.scala:39:14] output [6:0] io_resp_bits_uop_prs2, // @[mshrs.scala:39:14] output [6:0] io_resp_bits_uop_prs3, // @[mshrs.scala:39:14] output [4:0] io_resp_bits_uop_ppred, // @[mshrs.scala:39:14] output io_resp_bits_uop_prs1_busy, // @[mshrs.scala:39:14] output io_resp_bits_uop_prs2_busy, // @[mshrs.scala:39:14] output io_resp_bits_uop_prs3_busy, // @[mshrs.scala:39:14] output io_resp_bits_uop_ppred_busy, // @[mshrs.scala:39:14] output [6:0] io_resp_bits_uop_stale_pdst, // @[mshrs.scala:39:14] output io_resp_bits_uop_exception, // @[mshrs.scala:39:14] output [63:0] io_resp_bits_uop_exc_cause, // @[mshrs.scala:39:14] output io_resp_bits_uop_bypassable, // @[mshrs.scala:39:14] output [4:0] io_resp_bits_uop_mem_cmd, // @[mshrs.scala:39:14] output [1:0] io_resp_bits_uop_mem_size, // @[mshrs.scala:39:14] output io_resp_bits_uop_mem_signed, // @[mshrs.scala:39:14] output io_resp_bits_uop_is_fence, // @[mshrs.scala:39:14] output io_resp_bits_uop_is_fencei, // @[mshrs.scala:39:14] output io_resp_bits_uop_is_amo, // @[mshrs.scala:39:14] output io_resp_bits_uop_uses_ldq, // @[mshrs.scala:39:14] output io_resp_bits_uop_uses_stq, // @[mshrs.scala:39:14] output io_resp_bits_uop_is_sys_pc2epc, // @[mshrs.scala:39:14] output io_resp_bits_uop_is_unique, // @[mshrs.scala:39:14] output io_resp_bits_uop_flush_on_commit, // @[mshrs.scala:39:14] output io_resp_bits_uop_ldst_is_rs1, // @[mshrs.scala:39:14] output [5:0] io_resp_bits_uop_ldst, // @[mshrs.scala:39:14] output [5:0] io_resp_bits_uop_lrs1, // @[mshrs.scala:39:14] output [5:0] io_resp_bits_uop_lrs2, // @[mshrs.scala:39:14] output [5:0] io_resp_bits_uop_lrs3, // @[mshrs.scala:39:14] output io_resp_bits_uop_ldst_val, // @[mshrs.scala:39:14] output [1:0] io_resp_bits_uop_dst_rtype, // @[mshrs.scala:39:14] output [1:0] io_resp_bits_uop_lrs1_rtype, // @[mshrs.scala:39:14] output [1:0] io_resp_bits_uop_lrs2_rtype, // @[mshrs.scala:39:14] output io_resp_bits_uop_frs3_en, // @[mshrs.scala:39:14] output io_resp_bits_uop_fp_val, // @[mshrs.scala:39:14] output io_resp_bits_uop_fp_single, // @[mshrs.scala:39:14] output io_resp_bits_uop_xcpt_pf_if, // @[mshrs.scala:39:14] output io_resp_bits_uop_xcpt_ae_if, // @[mshrs.scala:39:14] output io_resp_bits_uop_xcpt_ma_if, // @[mshrs.scala:39:14] output io_resp_bits_uop_bp_debug_if, // @[mshrs.scala:39:14] output io_resp_bits_uop_bp_xcpt_if, // @[mshrs.scala:39:14] output [1:0] io_resp_bits_uop_debug_fsrc, // @[mshrs.scala:39:14] output [1:0] io_resp_bits_uop_debug_tsrc, // @[mshrs.scala:39:14] output [63:0] io_resp_bits_data, // @[mshrs.scala:39:14] output io_resp_bits_is_hella, // @[mshrs.scala:39:14] input io_wb_resp, // @[mshrs.scala:39:14] output io_probe_rdy // @[mshrs.scala:39:14] ); wire rpq_io_deq_ready; // @[mshrs.scala:135:20, :215:30, :222:40, :233:41, :256:45] wire _rpq_io_enq_ready; // @[mshrs.scala:128:19] wire _rpq_io_deq_valid; // @[mshrs.scala:128:19] wire [6:0] _rpq_io_deq_bits_uop_uopc; // @[mshrs.scala:128:19] wire [31:0] _rpq_io_deq_bits_uop_inst; // @[mshrs.scala:128:19] wire [31:0] _rpq_io_deq_bits_uop_debug_inst; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_is_rvc; // @[mshrs.scala:128:19] wire [39:0] _rpq_io_deq_bits_uop_debug_pc; // @[mshrs.scala:128:19] wire [2:0] _rpq_io_deq_bits_uop_iq_type; // @[mshrs.scala:128:19] wire [9:0] _rpq_io_deq_bits_uop_fu_code; // @[mshrs.scala:128:19] wire [3:0] _rpq_io_deq_bits_uop_ctrl_br_type; // @[mshrs.scala:128:19] wire [1:0] _rpq_io_deq_bits_uop_ctrl_op1_sel; // @[mshrs.scala:128:19] wire [2:0] _rpq_io_deq_bits_uop_ctrl_op2_sel; // @[mshrs.scala:128:19] wire [2:0] _rpq_io_deq_bits_uop_ctrl_imm_sel; // @[mshrs.scala:128:19] wire [4:0] _rpq_io_deq_bits_uop_ctrl_op_fcn; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_ctrl_fcn_dw; // @[mshrs.scala:128:19] wire [2:0] _rpq_io_deq_bits_uop_ctrl_csr_cmd; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_ctrl_is_load; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_ctrl_is_sta; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_ctrl_is_std; // @[mshrs.scala:128:19] wire [1:0] _rpq_io_deq_bits_uop_iw_state; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_iw_p1_poisoned; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_iw_p2_poisoned; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_is_br; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_is_jalr; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_is_jal; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_is_sfb; // @[mshrs.scala:128:19] wire [15:0] _rpq_io_deq_bits_uop_br_mask; // @[mshrs.scala:128:19] wire [3:0] _rpq_io_deq_bits_uop_br_tag; // @[mshrs.scala:128:19] wire [4:0] _rpq_io_deq_bits_uop_ftq_idx; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_edge_inst; // @[mshrs.scala:128:19] wire [5:0] _rpq_io_deq_bits_uop_pc_lob; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_taken; // @[mshrs.scala:128:19] wire [19:0] _rpq_io_deq_bits_uop_imm_packed; // @[mshrs.scala:128:19] wire [11:0] _rpq_io_deq_bits_uop_csr_addr; // @[mshrs.scala:128:19] wire [6:0] _rpq_io_deq_bits_uop_rob_idx; // @[mshrs.scala:128:19] wire [4:0] _rpq_io_deq_bits_uop_ldq_idx; // @[mshrs.scala:128:19] wire [4:0] _rpq_io_deq_bits_uop_stq_idx; // @[mshrs.scala:128:19] wire [1:0] _rpq_io_deq_bits_uop_rxq_idx; // @[mshrs.scala:128:19] wire [6:0] _rpq_io_deq_bits_uop_pdst; // @[mshrs.scala:128:19] wire [6:0] _rpq_io_deq_bits_uop_prs1; // @[mshrs.scala:128:19] wire [6:0] _rpq_io_deq_bits_uop_prs2; // @[mshrs.scala:128:19] wire [6:0] _rpq_io_deq_bits_uop_prs3; // @[mshrs.scala:128:19] wire [4:0] _rpq_io_deq_bits_uop_ppred; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_prs1_busy; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_prs2_busy; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_prs3_busy; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_ppred_busy; // @[mshrs.scala:128:19] wire [6:0] _rpq_io_deq_bits_uop_stale_pdst; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_exception; // @[mshrs.scala:128:19] wire [63:0] _rpq_io_deq_bits_uop_exc_cause; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_bypassable; // @[mshrs.scala:128:19] wire [4:0] _rpq_io_deq_bits_uop_mem_cmd; // @[mshrs.scala:128:19] wire [1:0] _rpq_io_deq_bits_uop_mem_size; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_mem_signed; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_is_fence; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_is_fencei; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_is_amo; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_uses_ldq; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_uses_stq; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_is_sys_pc2epc; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_is_unique; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_flush_on_commit; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_ldst_is_rs1; // @[mshrs.scala:128:19] wire [5:0] _rpq_io_deq_bits_uop_ldst; // @[mshrs.scala:128:19] wire [5:0] _rpq_io_deq_bits_uop_lrs1; // @[mshrs.scala:128:19] wire [5:0] _rpq_io_deq_bits_uop_lrs2; // @[mshrs.scala:128:19] wire [5:0] _rpq_io_deq_bits_uop_lrs3; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_ldst_val; // @[mshrs.scala:128:19] wire [1:0] _rpq_io_deq_bits_uop_dst_rtype; // @[mshrs.scala:128:19] wire [1:0] _rpq_io_deq_bits_uop_lrs1_rtype; // @[mshrs.scala:128:19] wire [1:0] _rpq_io_deq_bits_uop_lrs2_rtype; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_frs3_en; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_fp_val; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_fp_single; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_xcpt_pf_if; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_xcpt_ae_if; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_xcpt_ma_if; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_bp_debug_if; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_uop_bp_xcpt_if; // @[mshrs.scala:128:19] wire [1:0] _rpq_io_deq_bits_uop_debug_fsrc; // @[mshrs.scala:128:19] wire [1:0] _rpq_io_deq_bits_uop_debug_tsrc; // @[mshrs.scala:128:19] wire [39:0] _rpq_io_deq_bits_addr; // @[mshrs.scala:128:19] wire _rpq_io_deq_bits_is_hella; // @[mshrs.scala:128:19] wire _rpq_io_empty; // @[mshrs.scala:128:19] wire io_req_pri_val_0 = io_req_pri_val; // @[mshrs.scala:36:7] wire io_req_sec_val_0 = io_req_sec_val; // @[mshrs.scala:36:7] wire io_clear_prefetch_0 = io_clear_prefetch; // @[mshrs.scala:36:7] wire [15:0] io_brupdate_b1_resolve_mask_0 = io_brupdate_b1_resolve_mask; // @[mshrs.scala:36:7] wire [15:0] io_brupdate_b1_mispredict_mask_0 = io_brupdate_b1_mispredict_mask; // @[mshrs.scala:36:7] wire [6:0] io_brupdate_b2_uop_uopc_0 = io_brupdate_b2_uop_uopc; // @[mshrs.scala:36:7] wire [31:0] io_brupdate_b2_uop_inst_0 = io_brupdate_b2_uop_inst; // @[mshrs.scala:36:7] wire [31:0] io_brupdate_b2_uop_debug_inst_0 = io_brupdate_b2_uop_debug_inst; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_is_rvc_0 = io_brupdate_b2_uop_is_rvc; // @[mshrs.scala:36:7] wire [39:0] io_brupdate_b2_uop_debug_pc_0 = io_brupdate_b2_uop_debug_pc; // @[mshrs.scala:36:7] wire [2:0] io_brupdate_b2_uop_iq_type_0 = io_brupdate_b2_uop_iq_type; // @[mshrs.scala:36:7] wire [9:0] io_brupdate_b2_uop_fu_code_0 = io_brupdate_b2_uop_fu_code; // @[mshrs.scala:36:7] wire [3:0] io_brupdate_b2_uop_ctrl_br_type_0 = io_brupdate_b2_uop_ctrl_br_type; // @[mshrs.scala:36:7] wire [1:0] io_brupdate_b2_uop_ctrl_op1_sel_0 = io_brupdate_b2_uop_ctrl_op1_sel; // @[mshrs.scala:36:7] wire [2:0] io_brupdate_b2_uop_ctrl_op2_sel_0 = io_brupdate_b2_uop_ctrl_op2_sel; // @[mshrs.scala:36:7] wire [2:0] io_brupdate_b2_uop_ctrl_imm_sel_0 = io_brupdate_b2_uop_ctrl_imm_sel; // @[mshrs.scala:36:7] wire [4:0] io_brupdate_b2_uop_ctrl_op_fcn_0 = io_brupdate_b2_uop_ctrl_op_fcn; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_ctrl_fcn_dw_0 = io_brupdate_b2_uop_ctrl_fcn_dw; // @[mshrs.scala:36:7] wire [2:0] io_brupdate_b2_uop_ctrl_csr_cmd_0 = io_brupdate_b2_uop_ctrl_csr_cmd; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_ctrl_is_load_0 = io_brupdate_b2_uop_ctrl_is_load; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_ctrl_is_sta_0 = io_brupdate_b2_uop_ctrl_is_sta; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_ctrl_is_std_0 = io_brupdate_b2_uop_ctrl_is_std; // @[mshrs.scala:36:7] wire [1:0] io_brupdate_b2_uop_iw_state_0 = io_brupdate_b2_uop_iw_state; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_iw_p1_poisoned_0 = io_brupdate_b2_uop_iw_p1_poisoned; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_iw_p2_poisoned_0 = io_brupdate_b2_uop_iw_p2_poisoned; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_is_br_0 = io_brupdate_b2_uop_is_br; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_is_jalr_0 = io_brupdate_b2_uop_is_jalr; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_is_jal_0 = io_brupdate_b2_uop_is_jal; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_is_sfb_0 = io_brupdate_b2_uop_is_sfb; // @[mshrs.scala:36:7] wire [15:0] io_brupdate_b2_uop_br_mask_0 = io_brupdate_b2_uop_br_mask; // @[mshrs.scala:36:7] wire [3:0] io_brupdate_b2_uop_br_tag_0 = io_brupdate_b2_uop_br_tag; // @[mshrs.scala:36:7] wire [4:0] io_brupdate_b2_uop_ftq_idx_0 = io_brupdate_b2_uop_ftq_idx; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_edge_inst_0 = io_brupdate_b2_uop_edge_inst; // @[mshrs.scala:36:7] wire [5:0] io_brupdate_b2_uop_pc_lob_0 = io_brupdate_b2_uop_pc_lob; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_taken_0 = io_brupdate_b2_uop_taken; // @[mshrs.scala:36:7] wire [19:0] io_brupdate_b2_uop_imm_packed_0 = io_brupdate_b2_uop_imm_packed; // @[mshrs.scala:36:7] wire [11:0] io_brupdate_b2_uop_csr_addr_0 = io_brupdate_b2_uop_csr_addr; // @[mshrs.scala:36:7] wire [6:0] io_brupdate_b2_uop_rob_idx_0 = io_brupdate_b2_uop_rob_idx; // @[mshrs.scala:36:7] wire [4:0] io_brupdate_b2_uop_ldq_idx_0 = io_brupdate_b2_uop_ldq_idx; // @[mshrs.scala:36:7] wire [4:0] io_brupdate_b2_uop_stq_idx_0 = io_brupdate_b2_uop_stq_idx; // @[mshrs.scala:36:7] wire [1:0] io_brupdate_b2_uop_rxq_idx_0 = io_brupdate_b2_uop_rxq_idx; // @[mshrs.scala:36:7] wire [6:0] io_brupdate_b2_uop_pdst_0 = io_brupdate_b2_uop_pdst; // @[mshrs.scala:36:7] wire [6:0] io_brupdate_b2_uop_prs1_0 = io_brupdate_b2_uop_prs1; // @[mshrs.scala:36:7] wire [6:0] io_brupdate_b2_uop_prs2_0 = io_brupdate_b2_uop_prs2; // @[mshrs.scala:36:7] wire [6:0] io_brupdate_b2_uop_prs3_0 = io_brupdate_b2_uop_prs3; // @[mshrs.scala:36:7] wire [4:0] io_brupdate_b2_uop_ppred_0 = io_brupdate_b2_uop_ppred; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_prs1_busy_0 = io_brupdate_b2_uop_prs1_busy; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_prs2_busy_0 = io_brupdate_b2_uop_prs2_busy; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_prs3_busy_0 = io_brupdate_b2_uop_prs3_busy; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_ppred_busy_0 = io_brupdate_b2_uop_ppred_busy; // @[mshrs.scala:36:7] wire [6:0] io_brupdate_b2_uop_stale_pdst_0 = io_brupdate_b2_uop_stale_pdst; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_exception_0 = io_brupdate_b2_uop_exception; // @[mshrs.scala:36:7] wire [63:0] io_brupdate_b2_uop_exc_cause_0 = io_brupdate_b2_uop_exc_cause; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_bypassable_0 = io_brupdate_b2_uop_bypassable; // @[mshrs.scala:36:7] wire [4:0] io_brupdate_b2_uop_mem_cmd_0 = io_brupdate_b2_uop_mem_cmd; // @[mshrs.scala:36:7] wire [1:0] io_brupdate_b2_uop_mem_size_0 = io_brupdate_b2_uop_mem_size; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_mem_signed_0 = io_brupdate_b2_uop_mem_signed; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_is_fence_0 = io_brupdate_b2_uop_is_fence; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_is_fencei_0 = io_brupdate_b2_uop_is_fencei; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_is_amo_0 = io_brupdate_b2_uop_is_amo; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_uses_ldq_0 = io_brupdate_b2_uop_uses_ldq; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_uses_stq_0 = io_brupdate_b2_uop_uses_stq; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_is_sys_pc2epc_0 = io_brupdate_b2_uop_is_sys_pc2epc; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_is_unique_0 = io_brupdate_b2_uop_is_unique; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_flush_on_commit_0 = io_brupdate_b2_uop_flush_on_commit; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_ldst_is_rs1_0 = io_brupdate_b2_uop_ldst_is_rs1; // @[mshrs.scala:36:7] wire [5:0] io_brupdate_b2_uop_ldst_0 = io_brupdate_b2_uop_ldst; // @[mshrs.scala:36:7] wire [5:0] io_brupdate_b2_uop_lrs1_0 = io_brupdate_b2_uop_lrs1; // @[mshrs.scala:36:7] wire [5:0] io_brupdate_b2_uop_lrs2_0 = io_brupdate_b2_uop_lrs2; // @[mshrs.scala:36:7] wire [5:0] io_brupdate_b2_uop_lrs3_0 = io_brupdate_b2_uop_lrs3; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_ldst_val_0 = io_brupdate_b2_uop_ldst_val; // @[mshrs.scala:36:7] wire [1:0] io_brupdate_b2_uop_dst_rtype_0 = io_brupdate_b2_uop_dst_rtype; // @[mshrs.scala:36:7] wire [1:0] io_brupdate_b2_uop_lrs1_rtype_0 = io_brupdate_b2_uop_lrs1_rtype; // @[mshrs.scala:36:7] wire [1:0] io_brupdate_b2_uop_lrs2_rtype_0 = io_brupdate_b2_uop_lrs2_rtype; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_frs3_en_0 = io_brupdate_b2_uop_frs3_en; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_fp_val_0 = io_brupdate_b2_uop_fp_val; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_fp_single_0 = io_brupdate_b2_uop_fp_single; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_xcpt_pf_if_0 = io_brupdate_b2_uop_xcpt_pf_if; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_xcpt_ae_if_0 = io_brupdate_b2_uop_xcpt_ae_if; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_xcpt_ma_if_0 = io_brupdate_b2_uop_xcpt_ma_if; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_bp_debug_if_0 = io_brupdate_b2_uop_bp_debug_if; // @[mshrs.scala:36:7] wire io_brupdate_b2_uop_bp_xcpt_if_0 = io_brupdate_b2_uop_bp_xcpt_if; // @[mshrs.scala:36:7] wire [1:0] io_brupdate_b2_uop_debug_fsrc_0 = io_brupdate_b2_uop_debug_fsrc; // @[mshrs.scala:36:7] wire [1:0] io_brupdate_b2_uop_debug_tsrc_0 = io_brupdate_b2_uop_debug_tsrc; // @[mshrs.scala:36:7] wire io_brupdate_b2_valid_0 = io_brupdate_b2_valid; // @[mshrs.scala:36:7] wire io_brupdate_b2_mispredict_0 = io_brupdate_b2_mispredict; // @[mshrs.scala:36:7] wire io_brupdate_b2_taken_0 = io_brupdate_b2_taken; // @[mshrs.scala:36:7] wire [2:0] io_brupdate_b2_cfi_type_0 = io_brupdate_b2_cfi_type; // @[mshrs.scala:36:7] wire [1:0] io_brupdate_b2_pc_sel_0 = io_brupdate_b2_pc_sel; // @[mshrs.scala:36:7] wire [39:0] io_brupdate_b2_jalr_target_0 = io_brupdate_b2_jalr_target; // @[mshrs.scala:36:7] wire [20:0] io_brupdate_b2_target_offset_0 = io_brupdate_b2_target_offset; // @[mshrs.scala:36:7] wire io_exception_0 = io_exception; // @[mshrs.scala:36:7] wire [6:0] io_rob_pnr_idx_0 = io_rob_pnr_idx; // @[mshrs.scala:36:7] wire [6:0] io_rob_head_idx_0 = io_rob_head_idx; // @[mshrs.scala:36:7] wire [6:0] io_req_uop_uopc_0 = io_req_uop_uopc; // @[mshrs.scala:36:7] wire [31:0] io_req_uop_inst_0 = io_req_uop_inst; // @[mshrs.scala:36:7] wire [31:0] io_req_uop_debug_inst_0 = io_req_uop_debug_inst; // @[mshrs.scala:36:7] wire io_req_uop_is_rvc_0 = io_req_uop_is_rvc; // @[mshrs.scala:36:7] wire [39:0] io_req_uop_debug_pc_0 = io_req_uop_debug_pc; // @[mshrs.scala:36:7] wire [2:0] io_req_uop_iq_type_0 = io_req_uop_iq_type; // @[mshrs.scala:36:7] wire [9:0] io_req_uop_fu_code_0 = io_req_uop_fu_code; // @[mshrs.scala:36:7] wire [3:0] io_req_uop_ctrl_br_type_0 = io_req_uop_ctrl_br_type; // @[mshrs.scala:36:7] wire [1:0] io_req_uop_ctrl_op1_sel_0 = io_req_uop_ctrl_op1_sel; // @[mshrs.scala:36:7] wire [2:0] io_req_uop_ctrl_op2_sel_0 = io_req_uop_ctrl_op2_sel; // @[mshrs.scala:36:7] wire [2:0] io_req_uop_ctrl_imm_sel_0 = io_req_uop_ctrl_imm_sel; // @[mshrs.scala:36:7] wire [4:0] io_req_uop_ctrl_op_fcn_0 = io_req_uop_ctrl_op_fcn; // @[mshrs.scala:36:7] wire io_req_uop_ctrl_fcn_dw_0 = io_req_uop_ctrl_fcn_dw; // @[mshrs.scala:36:7] wire [2:0] io_req_uop_ctrl_csr_cmd_0 = io_req_uop_ctrl_csr_cmd; // @[mshrs.scala:36:7] wire io_req_uop_ctrl_is_load_0 = io_req_uop_ctrl_is_load; // @[mshrs.scala:36:7] wire io_req_uop_ctrl_is_sta_0 = io_req_uop_ctrl_is_sta; // @[mshrs.scala:36:7] wire io_req_uop_ctrl_is_std_0 = io_req_uop_ctrl_is_std; // @[mshrs.scala:36:7] wire [1:0] io_req_uop_iw_state_0 = io_req_uop_iw_state; // @[mshrs.scala:36:7] wire io_req_uop_iw_p1_poisoned_0 = io_req_uop_iw_p1_poisoned; // @[mshrs.scala:36:7] wire io_req_uop_iw_p2_poisoned_0 = io_req_uop_iw_p2_poisoned; // @[mshrs.scala:36:7] wire io_req_uop_is_br_0 = io_req_uop_is_br; // @[mshrs.scala:36:7] wire io_req_uop_is_jalr_0 = io_req_uop_is_jalr; // @[mshrs.scala:36:7] wire io_req_uop_is_jal_0 = io_req_uop_is_jal; // @[mshrs.scala:36:7] wire io_req_uop_is_sfb_0 = io_req_uop_is_sfb; // @[mshrs.scala:36:7] wire [15:0] io_req_uop_br_mask_0 = io_req_uop_br_mask; // @[mshrs.scala:36:7] wire [3:0] io_req_uop_br_tag_0 = io_req_uop_br_tag; // @[mshrs.scala:36:7] wire [4:0] io_req_uop_ftq_idx_0 = io_req_uop_ftq_idx; // @[mshrs.scala:36:7] wire io_req_uop_edge_inst_0 = io_req_uop_edge_inst; // @[mshrs.scala:36:7] wire [5:0] io_req_uop_pc_lob_0 = io_req_uop_pc_lob; // @[mshrs.scala:36:7] wire io_req_uop_taken_0 = io_req_uop_taken; // @[mshrs.scala:36:7] wire [19:0] io_req_uop_imm_packed_0 = io_req_uop_imm_packed; // @[mshrs.scala:36:7] wire [11:0] io_req_uop_csr_addr_0 = io_req_uop_csr_addr; // @[mshrs.scala:36:7] wire [6:0] io_req_uop_rob_idx_0 = io_req_uop_rob_idx; // @[mshrs.scala:36:7] wire [4:0] io_req_uop_ldq_idx_0 = io_req_uop_ldq_idx; // @[mshrs.scala:36:7] wire [4:0] io_req_uop_stq_idx_0 = io_req_uop_stq_idx; // @[mshrs.scala:36:7] wire [1:0] io_req_uop_rxq_idx_0 = io_req_uop_rxq_idx; // @[mshrs.scala:36:7] wire [6:0] io_req_uop_pdst_0 = io_req_uop_pdst; // @[mshrs.scala:36:7] wire [6:0] io_req_uop_prs1_0 = io_req_uop_prs1; // @[mshrs.scala:36:7] wire [6:0] io_req_uop_prs2_0 = io_req_uop_prs2; // @[mshrs.scala:36:7] wire [6:0] io_req_uop_prs3_0 = io_req_uop_prs3; // @[mshrs.scala:36:7] wire [4:0] io_req_uop_ppred_0 = io_req_uop_ppred; // @[mshrs.scala:36:7] wire io_req_uop_prs1_busy_0 = io_req_uop_prs1_busy; // @[mshrs.scala:36:7] wire io_req_uop_prs2_busy_0 = io_req_uop_prs2_busy; // @[mshrs.scala:36:7] wire io_req_uop_prs3_busy_0 = io_req_uop_prs3_busy; // @[mshrs.scala:36:7] wire io_req_uop_ppred_busy_0 = io_req_uop_ppred_busy; // @[mshrs.scala:36:7] wire [6:0] io_req_uop_stale_pdst_0 = io_req_uop_stale_pdst; // @[mshrs.scala:36:7] wire io_req_uop_exception_0 = io_req_uop_exception; // @[mshrs.scala:36:7] wire [63:0] io_req_uop_exc_cause_0 = io_req_uop_exc_cause; // @[mshrs.scala:36:7] wire io_req_uop_bypassable_0 = io_req_uop_bypassable; // @[mshrs.scala:36:7] wire [4:0] io_req_uop_mem_cmd_0 = io_req_uop_mem_cmd; // @[mshrs.scala:36:7] wire [1:0] io_req_uop_mem_size_0 = io_req_uop_mem_size; // @[mshrs.scala:36:7] wire io_req_uop_mem_signed_0 = io_req_uop_mem_signed; // @[mshrs.scala:36:7] wire io_req_uop_is_fence_0 = io_req_uop_is_fence; // @[mshrs.scala:36:7] wire io_req_uop_is_fencei_0 = io_req_uop_is_fencei; // @[mshrs.scala:36:7] wire io_req_uop_is_amo_0 = io_req_uop_is_amo; // @[mshrs.scala:36:7] wire io_req_uop_uses_ldq_0 = io_req_uop_uses_ldq; // @[mshrs.scala:36:7] wire io_req_uop_uses_stq_0 = io_req_uop_uses_stq; // @[mshrs.scala:36:7] wire io_req_uop_is_sys_pc2epc_0 = io_req_uop_is_sys_pc2epc; // @[mshrs.scala:36:7] wire io_req_uop_is_unique_0 = io_req_uop_is_unique; // @[mshrs.scala:36:7] wire io_req_uop_flush_on_commit_0 = io_req_uop_flush_on_commit; // @[mshrs.scala:36:7] wire io_req_uop_ldst_is_rs1_0 = io_req_uop_ldst_is_rs1; // @[mshrs.scala:36:7] wire [5:0] io_req_uop_ldst_0 = io_req_uop_ldst; // @[mshrs.scala:36:7] wire [5:0] io_req_uop_lrs1_0 = io_req_uop_lrs1; // @[mshrs.scala:36:7] wire [5:0] io_req_uop_lrs2_0 = io_req_uop_lrs2; // @[mshrs.scala:36:7] wire [5:0] io_req_uop_lrs3_0 = io_req_uop_lrs3; // @[mshrs.scala:36:7] wire io_req_uop_ldst_val_0 = io_req_uop_ldst_val; // @[mshrs.scala:36:7] wire [1:0] io_req_uop_dst_rtype_0 = io_req_uop_dst_rtype; // @[mshrs.scala:36:7] wire [1:0] io_req_uop_lrs1_rtype_0 = io_req_uop_lrs1_rtype; // @[mshrs.scala:36:7] wire [1:0] io_req_uop_lrs2_rtype_0 = io_req_uop_lrs2_rtype; // @[mshrs.scala:36:7] wire io_req_uop_frs3_en_0 = io_req_uop_frs3_en; // @[mshrs.scala:36:7] wire io_req_uop_fp_val_0 = io_req_uop_fp_val; // @[mshrs.scala:36:7] wire io_req_uop_fp_single_0 = io_req_uop_fp_single; // @[mshrs.scala:36:7] wire io_req_uop_xcpt_pf_if_0 = io_req_uop_xcpt_pf_if; // @[mshrs.scala:36:7] wire io_req_uop_xcpt_ae_if_0 = io_req_uop_xcpt_ae_if; // @[mshrs.scala:36:7] wire io_req_uop_xcpt_ma_if_0 = io_req_uop_xcpt_ma_if; // @[mshrs.scala:36:7] wire io_req_uop_bp_debug_if_0 = io_req_uop_bp_debug_if; // @[mshrs.scala:36:7] wire io_req_uop_bp_xcpt_if_0 = io_req_uop_bp_xcpt_if; // @[mshrs.scala:36:7] wire [1:0] io_req_uop_debug_fsrc_0 = io_req_uop_debug_fsrc; // @[mshrs.scala:36:7] wire [1:0] io_req_uop_debug_tsrc_0 = io_req_uop_debug_tsrc; // @[mshrs.scala:36:7] wire [39:0] io_req_addr_0 = io_req_addr; // @[mshrs.scala:36:7] wire [63:0] io_req_data_0 = io_req_data; // @[mshrs.scala:36:7] wire io_req_is_hella_0 = io_req_is_hella; // @[mshrs.scala:36:7] wire io_req_tag_match_0 = io_req_tag_match; // @[mshrs.scala:36:7] wire [1:0] io_req_old_meta_coh_state_0 = io_req_old_meta_coh_state; // @[mshrs.scala:36:7] wire [19:0] io_req_old_meta_tag_0 = io_req_old_meta_tag; // @[mshrs.scala:36:7] wire [7:0] io_req_way_en_0 = io_req_way_en; // @[mshrs.scala:36:7] wire [4:0] io_req_sdq_id_0 = io_req_sdq_id; // @[mshrs.scala:36:7] wire io_req_is_probe_0 = io_req_is_probe; // @[mshrs.scala:36:7] wire io_mem_acquire_ready_0 = io_mem_acquire_ready; // @[mshrs.scala:36:7] wire io_mem_grant_valid_0 = io_mem_grant_valid; // @[mshrs.scala:36:7] wire [2:0] io_mem_grant_bits_opcode_0 = io_mem_grant_bits_opcode; // @[mshrs.scala:36:7] wire [1:0] io_mem_grant_bits_param_0 = io_mem_grant_bits_param; // @[mshrs.scala:36:7] wire [3:0] io_mem_grant_bits_size_0 = io_mem_grant_bits_size; // @[mshrs.scala:36:7] wire [2:0] io_mem_grant_bits_source_0 = io_mem_grant_bits_source; // @[mshrs.scala:36:7] wire [3:0] io_mem_grant_bits_sink_0 = io_mem_grant_bits_sink; // @[mshrs.scala:36:7] wire io_mem_grant_bits_denied_0 = io_mem_grant_bits_denied; // @[mshrs.scala:36:7] wire [127:0] io_mem_grant_bits_data_0 = io_mem_grant_bits_data; // @[mshrs.scala:36:7] wire io_mem_grant_bits_corrupt_0 = io_mem_grant_bits_corrupt; // @[mshrs.scala:36:7] wire io_mem_finish_ready_0 = io_mem_finish_ready; // @[mshrs.scala:36:7] wire io_prober_state_valid_0 = io_prober_state_valid; // @[mshrs.scala:36:7] wire [39:0] io_prober_state_bits_0 = io_prober_state_bits; // @[mshrs.scala:36:7] wire io_refill_ready_0 = io_refill_ready; // @[mshrs.scala:36:7] wire io_meta_write_ready_0 = io_meta_write_ready; // @[mshrs.scala:36:7] wire io_meta_read_ready_0 = io_meta_read_ready; // @[mshrs.scala:36:7] wire io_meta_resp_valid_0 = io_meta_resp_valid; // @[mshrs.scala:36:7] wire [1:0] io_meta_resp_bits_coh_state_0 = io_meta_resp_bits_coh_state; // @[mshrs.scala:36:7] wire [19:0] io_meta_resp_bits_tag_0 = io_meta_resp_bits_tag; // @[mshrs.scala:36:7] wire io_wb_req_ready_0 = io_wb_req_ready; // @[mshrs.scala:36:7] wire io_lb_read_ready_0 = io_lb_read_ready; // @[mshrs.scala:36:7] wire [127:0] io_lb_resp_0 = io_lb_resp; // @[mshrs.scala:36:7] wire io_lb_write_ready_0 = io_lb_write_ready; // @[mshrs.scala:36:7] wire io_replay_ready_0 = io_replay_ready; // @[mshrs.scala:36:7] wire io_resp_ready_0 = io_resp_ready; // @[mshrs.scala:36:7] wire io_wb_resp_0 = io_wb_resp; // @[mshrs.scala:36:7] wire _state_T = reset; // @[mshrs.scala:194:11] wire _state_T_26 = reset; // @[mshrs.scala:201:15] wire _state_T_34 = reset; // @[mshrs.scala:194:11] wire _state_T_60 = reset; // @[mshrs.scala:201:15] wire [1:0] io_id = 2'h1; // @[mshrs.scala:36:7] wire [1:0] io_lb_read_bits_id = 2'h1; // @[mshrs.scala:36:7] wire [1:0] io_lb_write_bits_id = 2'h1; // @[mshrs.scala:36:7] wire [1:0] _grow_param_r_T_7 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _grow_param_r_T_9 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _grow_param_r_T_17 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _grow_param_r_T_19 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _coh_on_grant_T_5 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r1_T_7 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r1_T_9 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r1_T_17 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r1_T_19 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r2_T_7 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r2_T_9 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r2_T_17 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r2_T_19 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _state_r_T_7 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _state_r_T_9 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _state_r_T_17 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _state_r_T_19 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r_T_71 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r_T_73 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r_T_81 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r_T_83 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r_T_130 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r_T_132 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r_T_140 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _r_T_142 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _state_r_T_66 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _state_r_T_68 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _state_r_T_76 = 2'h1; // @[Metadata.scala:25:15] wire [1:0] _state_r_T_78 = 2'h1; // @[Metadata.scala:25:15] wire [2:0] io_mem_acquire_bits_opcode = 3'h6; // @[mshrs.scala:36:7] wire [2:0] io_mem_acquire_bits_a_opcode = 3'h6; // @[Edges.scala:346:17] wire [3:0] io_mem_acquire_bits_size = 4'h6; // @[mshrs.scala:36:7] wire [3:0] _r_T_12 = 4'h6; // @[Metadata.scala:127:10] wire [3:0] _grow_param_r_T_10 = 4'h6; // @[Metadata.scala:64:10] wire [3:0] _r1_T_10 = 4'h6; // @[Metadata.scala:64:10] wire [3:0] _r2_T_10 = 4'h6; // @[Metadata.scala:64:10] wire [3:0] _state_req_needs_wb_r_T_12 = 4'h6; // @[Metadata.scala:127:10] wire [3:0] _state_r_T_10 = 4'h6; // @[Metadata.scala:64:10] wire [3:0] io_mem_acquire_bits_a_size = 4'h6; // @[Edges.scala:346:17] wire [3:0] _io_mem_acquire_bits_a_mask_sizeOH_T = 4'h6; // @[Misc.scala:202:34] wire [3:0] _needs_wb_r_T_12 = 4'h6; // @[Metadata.scala:127:10] wire [3:0] _r_T_74 = 4'h6; // @[Metadata.scala:64:10] wire [3:0] _r_T_133 = 4'h6; // @[Metadata.scala:64:10] wire [3:0] _state_req_needs_wb_r_T_76 = 4'h6; // @[Metadata.scala:127:10] wire [3:0] _state_r_T_69 = 4'h6; // @[Metadata.scala:64:10] wire [2:0] io_mem_acquire_bits_source = 3'h1; // @[mshrs.scala:36:7] wire [2:0] io_wb_req_bits_source = 3'h1; // @[mshrs.scala:36:7] wire [2:0] io_mem_acquire_bits_a_source = 3'h1; // @[Edges.scala:346:17] wire [15:0] io_mem_acquire_bits_mask = 16'hFFFF; // @[mshrs.scala:36:7] wire [15:0] io_mem_acquire_bits_a_mask = 16'hFFFF; // @[Edges.scala:346:17] wire [15:0] _io_mem_acquire_bits_a_mask_T = 16'hFFFF; // @[Misc.scala:222:10] wire [127:0] io_mem_acquire_bits_data = 128'h0; // @[mshrs.scala:36:7] wire [127:0] io_mem_acquire_bits_a_data = 128'h0; // @[Edges.scala:346:17] wire io_mem_acquire_bits_corrupt = 1'h0; // @[mshrs.scala:36:7] wire _r_T_2 = 1'h0; // @[Metadata.scala:140:24] wire _r_T_4 = 1'h0; // @[Metadata.scala:140:24] wire _r_T_20 = 1'h0; // @[Misc.scala:38:9] wire _r_T_24 = 1'h0; // @[Misc.scala:38:9] wire _r_T_28 = 1'h0; // @[Misc.scala:38:9] wire _grow_param_r_T_26 = 1'h0; // @[Misc.scala:35:9] wire _grow_param_r_T_29 = 1'h0; // @[Misc.scala:35:9] wire _grow_param_r_T_32 = 1'h0; // @[Misc.scala:35:9] wire _grow_param_r_T_35 = 1'h0; // @[Misc.scala:35:9] wire _grow_param_r_T_38 = 1'h0; // @[Misc.scala:35:9] wire _r1_T_26 = 1'h0; // @[Misc.scala:35:9] wire _r1_T_29 = 1'h0; // @[Misc.scala:35:9] wire _r1_T_32 = 1'h0; // @[Misc.scala:35:9] wire _r1_T_35 = 1'h0; // @[Misc.scala:35:9] wire _r1_T_38 = 1'h0; // @[Misc.scala:35:9] wire _r2_T_26 = 1'h0; // @[Misc.scala:35:9] wire _r2_T_29 = 1'h0; // @[Misc.scala:35:9] wire _r2_T_32 = 1'h0; // @[Misc.scala:35:9] wire _r2_T_35 = 1'h0; // @[Misc.scala:35:9] wire _r2_T_38 = 1'h0; // @[Misc.scala:35:9] wire _state_req_needs_wb_r_T_2 = 1'h0; // @[Metadata.scala:140:24] wire _state_req_needs_wb_r_T_4 = 1'h0; // @[Metadata.scala:140:24] wire _state_req_needs_wb_r_T_20 = 1'h0; // @[Misc.scala:38:9] wire _state_req_needs_wb_r_T_24 = 1'h0; // @[Misc.scala:38:9] wire _state_req_needs_wb_r_T_28 = 1'h0; // @[Misc.scala:38:9] wire _state_r_T_26 = 1'h0; // @[Misc.scala:35:9] wire _state_r_T_29 = 1'h0; // @[Misc.scala:35:9] wire _state_r_T_32 = 1'h0; // @[Misc.scala:35:9] wire _state_r_T_35 = 1'h0; // @[Misc.scala:35:9] wire _state_r_T_38 = 1'h0; // @[Misc.scala:35:9] wire _io_mem_acquire_bits_legal_T = 1'h0; // @[Parameters.scala:684:29] wire _io_mem_acquire_bits_legal_T_18 = 1'h0; // @[Parameters.scala:684:54] wire _io_mem_acquire_bits_legal_T_33 = 1'h0; // @[Parameters.scala:686:26] wire io_mem_acquire_bits_a_corrupt = 1'h0; // @[Edges.scala:346:17] wire io_mem_acquire_bits_a_mask_sub_sub_sub_size = 1'h0; // @[Misc.scala:209:26] wire _io_mem_acquire_bits_a_mask_sub_sub_sub_acc_T = 1'h0; // @[Misc.scala:215:38] wire _io_mem_acquire_bits_a_mask_sub_sub_sub_acc_T_1 = 1'h0; // @[Misc.scala:215:38] wire io_mem_acquire_bits_a_mask_sub_size = 1'h0; // @[Misc.scala:209:26] wire _io_mem_acquire_bits_a_mask_sub_acc_T = 1'h0; // @[Misc.scala:215:38] wire _io_mem_acquire_bits_a_mask_sub_acc_T_1 = 1'h0; // @[Misc.scala:215:38] wire _io_mem_acquire_bits_a_mask_sub_acc_T_2 = 1'h0; // @[Misc.scala:215:38] wire _io_mem_acquire_bits_a_mask_sub_acc_T_3 = 1'h0; // @[Misc.scala:215:38] wire _io_mem_acquire_bits_a_mask_sub_acc_T_4 = 1'h0; // @[Misc.scala:215:38] wire _io_mem_acquire_bits_a_mask_sub_acc_T_5 = 1'h0; // @[Misc.scala:215:38] wire _io_mem_acquire_bits_a_mask_sub_acc_T_6 = 1'h0; // @[Misc.scala:215:38] wire _io_mem_acquire_bits_a_mask_sub_acc_T_7 = 1'h0; // @[Misc.scala:215:38] wire io_resp_bits_data_doZero = 1'h0; // @[AMOALU.scala:43:31] wire io_resp_bits_data_doZero_1 = 1'h0; // @[AMOALU.scala:43:31] wire io_resp_bits_data_doZero_2 = 1'h0; // @[AMOALU.scala:43:31] wire _needs_wb_r_T_2 = 1'h0; // @[Metadata.scala:140:24] wire _needs_wb_r_T_4 = 1'h0; // @[Metadata.scala:140:24] wire _needs_wb_r_T_20 = 1'h0; // @[Misc.scala:38:9] wire _needs_wb_r_T_24 = 1'h0; // @[Misc.scala:38:9] wire _needs_wb_r_T_28 = 1'h0; // @[Misc.scala:38:9] wire _r_T_90 = 1'h0; // @[Misc.scala:35:9] wire _r_T_93 = 1'h0; // @[Misc.scala:35:9] wire _r_T_96 = 1'h0; // @[Misc.scala:35:9] wire _r_T_99 = 1'h0; // @[Misc.scala:35:9] wire _r_T_102 = 1'h0; // @[Misc.scala:35:9] wire _r_T_149 = 1'h0; // @[Misc.scala:35:9] wire _r_T_152 = 1'h0; // @[Misc.scala:35:9] wire _r_T_155 = 1'h0; // @[Misc.scala:35:9] wire _r_T_158 = 1'h0; // @[Misc.scala:35:9] wire _r_T_161 = 1'h0; // @[Misc.scala:35:9] wire _state_req_needs_wb_r_T_66 = 1'h0; // @[Metadata.scala:140:24] wire _state_req_needs_wb_r_T_68 = 1'h0; // @[Metadata.scala:140:24] wire _state_req_needs_wb_r_T_84 = 1'h0; // @[Misc.scala:38:9] wire _state_req_needs_wb_r_T_88 = 1'h0; // @[Misc.scala:38:9] wire _state_req_needs_wb_r_T_92 = 1'h0; // @[Misc.scala:38:9] wire _state_r_T_85 = 1'h0; // @[Misc.scala:35:9] wire _state_r_T_88 = 1'h0; // @[Misc.scala:35:9] wire _state_r_T_91 = 1'h0; // @[Misc.scala:35:9] wire _state_r_T_94 = 1'h0; // @[Misc.scala:35:9] wire _state_r_T_97 = 1'h0; // @[Misc.scala:35:9] wire [1:0] io_refill_bits_wmask = 2'h3; // @[mshrs.scala:36:7] wire [1:0] _grow_param_r_T_11 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _grow_param_r_T_13 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _grow_param_r_T_21 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _grow_param_r_T_23 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _coh_on_grant_T_7 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r1_T_11 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r1_T_13 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r1_T_21 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r1_T_23 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r2_T_11 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r2_T_13 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r2_T_21 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r2_T_23 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _dirties_T = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _state_r_T_11 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _state_r_T_13 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _state_r_T_21 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _state_r_T_23 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] io_mem_acquire_bits_a_mask_lo_lo_lo = 2'h3; // @[Misc.scala:222:10] wire [1:0] io_mem_acquire_bits_a_mask_lo_lo_hi = 2'h3; // @[Misc.scala:222:10] wire [1:0] io_mem_acquire_bits_a_mask_lo_hi_lo = 2'h3; // @[Misc.scala:222:10] wire [1:0] io_mem_acquire_bits_a_mask_lo_hi_hi = 2'h3; // @[Misc.scala:222:10] wire [1:0] io_mem_acquire_bits_a_mask_hi_lo_lo = 2'h3; // @[Misc.scala:222:10] wire [1:0] io_mem_acquire_bits_a_mask_hi_lo_hi = 2'h3; // @[Misc.scala:222:10] wire [1:0] io_mem_acquire_bits_a_mask_hi_hi_lo = 2'h3; // @[Misc.scala:222:10] wire [1:0] io_mem_acquire_bits_a_mask_hi_hi_hi = 2'h3; // @[Misc.scala:222:10] wire [1:0] _io_refill_bits_wmask_T = 2'h3; // @[mshrs.scala:342:30] wire [1:0] _r_T_75 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r_T_77 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r_T_85 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r_T_87 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r_T_134 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r_T_136 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r_T_144 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _r_T_146 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _state_r_T_70 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _state_r_T_72 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _state_r_T_80 = 2'h3; // @[Metadata.scala:24:15] wire [1:0] _state_r_T_82 = 2'h3; // @[Metadata.scala:24:15] wire [19:0] io_meta_write_bits_tag = 20'h0; // @[mshrs.scala:36:7] wire io_wb_req_bits_voluntary = 1'h1; // @[mshrs.scala:36:7] wire _r_T = 1'h1; // @[Metadata.scala:140:24] wire _state_req_needs_wb_r_T = 1'h1; // @[Metadata.scala:140:24] wire _io_mem_acquire_bits_legal_T_19 = 1'h1; // @[Parameters.scala:91:44] wire _io_mem_acquire_bits_legal_T_20 = 1'h1; // @[Parameters.scala:684:29] wire io_mem_acquire_bits_a_mask_sub_sub_sub_sub_0_1 = 1'h1; // @[Misc.scala:206:21] wire io_mem_acquire_bits_a_mask_sub_sub_sub_0_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_sub_sub_sub_1_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_sub_sub_size = 1'h1; // @[Misc.scala:209:26] wire io_mem_acquire_bits_a_mask_sub_sub_0_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_sub_sub_1_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_sub_sub_2_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_sub_sub_3_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_sub_0_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_sub_1_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_sub_2_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_sub_3_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_sub_4_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_sub_5_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_sub_6_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_sub_7_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_size = 1'h1; // @[Misc.scala:209:26] wire io_mem_acquire_bits_a_mask_acc = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_1 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_2 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_3 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_4 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_5 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_6 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_7 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_8 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_9 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_10 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_11 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_12 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_13 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_14 = 1'h1; // @[Misc.scala:215:29] wire io_mem_acquire_bits_a_mask_acc_15 = 1'h1; // @[Misc.scala:215:29] wire _needs_wb_r_T = 1'h1; // @[Metadata.scala:140:24] wire _state_req_needs_wb_r_T_64 = 1'h1; // @[Metadata.scala:140:24] wire [1:0] new_coh_meta_state = 2'h0; // @[Metadata.scala:160:20] wire [1:0] _r_T_22 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _r_T_26 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _r_T_30 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _r_T_34 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _r_T_38 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _grow_param_r_T_1 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _grow_param_r_T_3 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _grow_param_r_T_5 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _grow_param_r_T_15 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _coh_on_grant_T_1 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _coh_on_grant_T_3 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r1_T_1 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r1_T_3 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r1_T_5 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r1_T_15 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r2_T_1 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r2_T_3 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r2_T_5 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r2_T_15 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _state_req_needs_wb_r_T_22 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _state_req_needs_wb_r_T_26 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _state_req_needs_wb_r_T_30 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _state_req_needs_wb_r_T_34 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _state_req_needs_wb_r_T_38 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _state_r_T_1 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _state_r_T_3 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _state_r_T_5 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _state_r_T_15 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] state_new_coh_meta_state = 2'h0; // @[Metadata.scala:160:20] wire [1:0] _needs_wb_r_T_22 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _needs_wb_r_T_26 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _needs_wb_r_T_30 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _needs_wb_r_T_34 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _needs_wb_r_T_38 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _r_T_65 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r_T_67 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r_T_69 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r_T_79 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r_T_124 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r_T_126 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r_T_128 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _r_T_138 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] new_coh_meta_1_state = 2'h0; // @[Metadata.scala:160:20] wire [1:0] _state_req_needs_wb_r_T_86 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _state_req_needs_wb_r_T_90 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _state_req_needs_wb_r_T_94 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _state_req_needs_wb_r_T_98 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _state_req_needs_wb_r_T_102 = 2'h0; // @[Misc.scala:38:63] wire [1:0] _state_r_T_60 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _state_r_T_62 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _state_r_T_64 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] _state_r_T_74 = 2'h0; // @[Metadata.scala:26:15] wire [1:0] state_new_coh_meta_1_state = 2'h0; // @[Metadata.scala:160:20] wire [3:0] _grow_param_r_T_24 = 4'hC; // @[Metadata.scala:72:10] wire [3:0] _coh_on_grant_T_8 = 4'hC; // @[Metadata.scala:89:10] wire [3:0] _r1_T_24 = 4'hC; // @[Metadata.scala:72:10] wire [3:0] _r2_T_24 = 4'hC; // @[Metadata.scala:72:10] wire [3:0] _state_r_T_24 = 4'hC; // @[Metadata.scala:72:10] wire [3:0] _r_T_88 = 4'hC; // @[Metadata.scala:72:10] wire [3:0] _r_T_147 = 4'hC; // @[Metadata.scala:72:10] wire [3:0] _state_r_T_83 = 4'hC; // @[Metadata.scala:72:10] wire [3:0] _grow_param_r_T_22 = 4'hD; // @[Metadata.scala:71:10] wire [3:0] _r1_T_22 = 4'hD; // @[Metadata.scala:71:10] wire [3:0] _r2_T_22 = 4'hD; // @[Metadata.scala:71:10] wire [3:0] _state_r_T_22 = 4'hD; // @[Metadata.scala:71:10] wire [3:0] _r_T_86 = 4'hD; // @[Metadata.scala:71:10] wire [3:0] _r_T_145 = 4'hD; // @[Metadata.scala:71:10] wire [3:0] _state_r_T_81 = 4'hD; // @[Metadata.scala:71:10] wire [3:0] _r_T_14 = 4'h4; // @[Metadata.scala:129:10] wire [3:0] _grow_param_r_T_20 = 4'h4; // @[Metadata.scala:70:10] wire [3:0] _coh_on_grant_T_6 = 4'h4; // @[Metadata.scala:88:10] wire [3:0] _r1_T_20 = 4'h4; // @[Metadata.scala:70:10] wire [3:0] _r2_T_20 = 4'h4; // @[Metadata.scala:70:10] wire [3:0] _state_req_needs_wb_r_T_14 = 4'h4; // @[Metadata.scala:129:10] wire [3:0] _state_r_T_20 = 4'h4; // @[Metadata.scala:70:10] wire [3:0] _io_mem_acquire_bits_a_mask_sizeOH_T_1 = 4'h4; // @[OneHot.scala:65:12] wire [3:0] _io_mem_acquire_bits_a_mask_sizeOH_T_2 = 4'h4; // @[OneHot.scala:65:27] wire [3:0] _needs_wb_r_T_14 = 4'h4; // @[Metadata.scala:129:10] wire [3:0] _r_T_84 = 4'h4; // @[Metadata.scala:70:10] wire [3:0] _r_T_143 = 4'h4; // @[Metadata.scala:70:10] wire [3:0] _state_req_needs_wb_r_T_78 = 4'h4; // @[Metadata.scala:129:10] wire [3:0] _state_r_T_79 = 4'h4; // @[Metadata.scala:70:10] wire [3:0] _r_T_13 = 4'h5; // @[Metadata.scala:128:10] wire [3:0] _grow_param_r_T_18 = 4'h5; // @[Metadata.scala:69:10] wire [3:0] _r1_T_18 = 4'h5; // @[Metadata.scala:69:10] wire [3:0] _r2_T_18 = 4'h5; // @[Metadata.scala:69:10] wire [3:0] _state_req_needs_wb_r_T_13 = 4'h5; // @[Metadata.scala:128:10] wire [3:0] _state_r_T_18 = 4'h5; // @[Metadata.scala:69:10] wire [3:0] io_mem_acquire_bits_a_mask_sizeOH = 4'h5; // @[Misc.scala:202:81] wire [3:0] _needs_wb_r_T_13 = 4'h5; // @[Metadata.scala:128:10] wire [3:0] _r_T_82 = 4'h5; // @[Metadata.scala:69:10] wire [3:0] _r_T_141 = 4'h5; // @[Metadata.scala:69:10] wire [3:0] _state_req_needs_wb_r_T_77 = 4'h5; // @[Metadata.scala:128:10] wire [3:0] _state_r_T_77 = 4'h5; // @[Metadata.scala:69:10] wire [3:0] _r_T_10 = 4'h0; // @[Metadata.scala:125:10] wire [3:0] _grow_param_r_T_16 = 4'h0; // @[Metadata.scala:68:10] wire [3:0] _coh_on_grant_T_4 = 4'h0; // @[Metadata.scala:87:10] wire [3:0] _r1_T_16 = 4'h0; // @[Metadata.scala:68:10] wire [3:0] _r2_T_16 = 4'h0; // @[Metadata.scala:68:10] wire [3:0] _state_req_needs_wb_r_T_10 = 4'h0; // @[Metadata.scala:125:10] wire [3:0] _state_r_T_16 = 4'h0; // @[Metadata.scala:68:10] wire [3:0] _needs_wb_r_T_10 = 4'h0; // @[Metadata.scala:125:10] wire [3:0] _r_T_80 = 4'h0; // @[Metadata.scala:68:10] wire [3:0] _r_T_139 = 4'h0; // @[Metadata.scala:68:10] wire [3:0] _state_req_needs_wb_r_T_74 = 4'h0; // @[Metadata.scala:125:10] wire [3:0] _state_r_T_75 = 4'h0; // @[Metadata.scala:68:10] wire [3:0] _grow_param_r_T_14 = 4'hE; // @[Metadata.scala:66:10] wire [3:0] _r1_T_14 = 4'hE; // @[Metadata.scala:66:10] wire [3:0] _r2_T_14 = 4'hE; // @[Metadata.scala:66:10] wire [3:0] _state_r_T_14 = 4'hE; // @[Metadata.scala:66:10] wire [3:0] _r_T_78 = 4'hE; // @[Metadata.scala:66:10] wire [3:0] _r_T_137 = 4'hE; // @[Metadata.scala:66:10] wire [3:0] _state_r_T_73 = 4'hE; // @[Metadata.scala:66:10] wire [3:0] _grow_param_r_T_12 = 4'hF; // @[Metadata.scala:65:10] wire [3:0] _r1_T_12 = 4'hF; // @[Metadata.scala:65:10] wire [3:0] _r2_T_12 = 4'hF; // @[Metadata.scala:65:10] wire [3:0] _state_r_T_12 = 4'hF; // @[Metadata.scala:65:10] wire [3:0] io_mem_acquire_bits_a_mask_lo_lo = 4'hF; // @[Misc.scala:222:10] wire [3:0] io_mem_acquire_bits_a_mask_lo_hi = 4'hF; // @[Misc.scala:222:10] wire [3:0] io_mem_acquire_bits_a_mask_hi_lo = 4'hF; // @[Misc.scala:222:10] wire [3:0] io_mem_acquire_bits_a_mask_hi_hi = 4'hF; // @[Misc.scala:222:10] wire [3:0] _r_T_76 = 4'hF; // @[Metadata.scala:65:10] wire [3:0] _r_T_135 = 4'hF; // @[Metadata.scala:65:10] wire [3:0] _state_r_T_71 = 4'hF; // @[Metadata.scala:65:10] wire [3:0] _r_T_11 = 4'h7; // @[Metadata.scala:126:10] wire [3:0] _grow_param_r_T_8 = 4'h7; // @[Metadata.scala:63:10] wire [3:0] _r1_T_8 = 4'h7; // @[Metadata.scala:63:10] wire [3:0] _r2_T_8 = 4'h7; // @[Metadata.scala:63:10] wire [3:0] _state_req_needs_wb_r_T_11 = 4'h7; // @[Metadata.scala:126:10] wire [3:0] _state_r_T_8 = 4'h7; // @[Metadata.scala:63:10] wire [3:0] _needs_wb_r_T_11 = 4'h7; // @[Metadata.scala:126:10] wire [3:0] _r_T_72 = 4'h7; // @[Metadata.scala:63:10] wire [3:0] _r_T_131 = 4'h7; // @[Metadata.scala:63:10] wire [3:0] _state_req_needs_wb_r_T_75 = 4'h7; // @[Metadata.scala:126:10] wire [3:0] _state_r_T_67 = 4'h7; // @[Metadata.scala:63:10] wire [3:0] _r_T_9 = 4'h1; // @[Metadata.scala:124:10] wire [3:0] _grow_param_r_T_6 = 4'h1; // @[Metadata.scala:62:10] wire [3:0] _coh_on_grant_T_2 = 4'h1; // @[Metadata.scala:86:10] wire [3:0] _r1_T_6 = 4'h1; // @[Metadata.scala:62:10] wire [3:0] _r2_T_6 = 4'h1; // @[Metadata.scala:62:10] wire [3:0] _state_req_needs_wb_r_T_9 = 4'h1; // @[Metadata.scala:124:10] wire [3:0] _state_r_T_6 = 4'h1; // @[Metadata.scala:62:10] wire [3:0] _needs_wb_r_T_9 = 4'h1; // @[Metadata.scala:124:10] wire [3:0] _r_T_70 = 4'h1; // @[Metadata.scala:62:10] wire [3:0] _r_T_129 = 4'h1; // @[Metadata.scala:62:10] wire [3:0] _state_req_needs_wb_r_T_73 = 4'h1; // @[Metadata.scala:124:10] wire [3:0] _state_r_T_65 = 4'h1; // @[Metadata.scala:62:10] wire [3:0] _r_T_8 = 4'h2; // @[Metadata.scala:123:10] wire [3:0] _grow_param_r_T_4 = 4'h2; // @[Metadata.scala:61:10] wire [3:0] _r1_T_4 = 4'h2; // @[Metadata.scala:61:10] wire [3:0] _r2_T_4 = 4'h2; // @[Metadata.scala:61:10] wire [3:0] _state_req_needs_wb_r_T_8 = 4'h2; // @[Metadata.scala:123:10] wire [3:0] _state_r_T_4 = 4'h2; // @[Metadata.scala:61:10] wire [3:0] _needs_wb_r_T_8 = 4'h2; // @[Metadata.scala:123:10] wire [3:0] _r_T_68 = 4'h2; // @[Metadata.scala:61:10] wire [3:0] _r_T_127 = 4'h2; // @[Metadata.scala:61:10] wire [3:0] _state_req_needs_wb_r_T_72 = 4'h2; // @[Metadata.scala:123:10] wire [3:0] _state_r_T_63 = 4'h2; // @[Metadata.scala:61:10] wire [3:0] _r_T_7 = 4'h3; // @[Metadata.scala:122:10] wire [3:0] _grow_param_r_T_2 = 4'h3; // @[Metadata.scala:60:10] wire [3:0] _r1_T_2 = 4'h3; // @[Metadata.scala:60:10] wire [3:0] _r2_T_2 = 4'h3; // @[Metadata.scala:60:10] wire [3:0] _state_req_needs_wb_r_T_7 = 4'h3; // @[Metadata.scala:122:10] wire [3:0] _state_r_T_2 = 4'h3; // @[Metadata.scala:60:10] wire [3:0] _needs_wb_r_T_7 = 4'h3; // @[Metadata.scala:122:10] wire [3:0] _r_T_66 = 4'h3; // @[Metadata.scala:60:10] wire [3:0] _r_T_125 = 4'h3; // @[Metadata.scala:60:10] wire [3:0] _state_req_needs_wb_r_T_71 = 4'h3; // @[Metadata.scala:122:10] wire [3:0] _state_r_T_61 = 4'h3; // @[Metadata.scala:60:10] wire [3:0] _r_T_18 = 4'h8; // @[Metadata.scala:133:10] wire [3:0] _state_req_needs_wb_r_T_18 = 4'h8; // @[Metadata.scala:133:10] wire [3:0] _needs_wb_r_T_18 = 4'h8; // @[Metadata.scala:133:10] wire [3:0] _state_req_needs_wb_r_T_82 = 4'h8; // @[Metadata.scala:133:10] wire [3:0] _r_T_17 = 4'h9; // @[Metadata.scala:132:10] wire [3:0] _state_req_needs_wb_r_T_17 = 4'h9; // @[Metadata.scala:132:10] wire [3:0] _needs_wb_r_T_17 = 4'h9; // @[Metadata.scala:132:10] wire [3:0] _state_req_needs_wb_r_T_81 = 4'h9; // @[Metadata.scala:132:10] wire [3:0] _r_T_16 = 4'hA; // @[Metadata.scala:131:10] wire [3:0] _state_req_needs_wb_r_T_16 = 4'hA; // @[Metadata.scala:131:10] wire [3:0] _needs_wb_r_T_16 = 4'hA; // @[Metadata.scala:131:10] wire [3:0] _state_req_needs_wb_r_T_80 = 4'hA; // @[Metadata.scala:131:10] wire [3:0] _r_T_15 = 4'hB; // @[Metadata.scala:130:10] wire [3:0] _state_req_needs_wb_r_T_15 = 4'hB; // @[Metadata.scala:130:10] wire [3:0] _needs_wb_r_T_15 = 4'hB; // @[Metadata.scala:130:10] wire [3:0] _state_req_needs_wb_r_T_79 = 4'hB; // @[Metadata.scala:130:10] wire [1:0] _r_T_1 = 2'h2; // @[Metadata.scala:140:24] wire [1:0] _r_T_3 = 2'h2; // @[Metadata.scala:140:24] wire [1:0] _r_T_5 = 2'h2; // @[Metadata.scala:140:24] wire [1:0] _state_req_needs_wb_r_T_1 = 2'h2; // @[Metadata.scala:140:24] wire [1:0] _state_req_needs_wb_r_T_3 = 2'h2; // @[Metadata.scala:140:24] wire [1:0] _state_req_needs_wb_r_T_5 = 2'h2; // @[Metadata.scala:140:24] wire [1:0] io_mem_acquire_bits_a_mask_sizeOH_shiftAmount = 2'h2; // @[OneHot.scala:64:49] wire [1:0] _needs_wb_r_T_1 = 2'h2; // @[Metadata.scala:140:24] wire [1:0] _needs_wb_r_T_3 = 2'h2; // @[Metadata.scala:140:24] wire [1:0] _needs_wb_r_T_5 = 2'h2; // @[Metadata.scala:140:24] wire [1:0] _state_req_needs_wb_r_T_65 = 2'h2; // @[Metadata.scala:140:24] wire [1:0] _state_req_needs_wb_r_T_67 = 2'h2; // @[Metadata.scala:140:24] wire [1:0] _state_req_needs_wb_r_T_69 = 2'h2; // @[Metadata.scala:140:24] wire [7:0] io_mem_acquire_bits_a_mask_lo = 8'hFF; // @[Misc.scala:222:10] wire [7:0] io_mem_acquire_bits_a_mask_hi = 8'hFF; // @[Misc.scala:222:10] wire _io_req_sec_rdy_T; // @[mshrs.scala:159:37] wire _io_idx_valid_T; // @[mshrs.scala:149:25] wire [5:0] req_idx; // @[mshrs.scala:110:25] wire _io_way_valid_T_3; // @[mshrs.scala:151:19] wire _io_tag_valid_T; // @[mshrs.scala:150:25] wire [27:0] req_tag; // @[mshrs.scala:111:26] wire [2:0] io_mem_acquire_bits_a_param; // @[Edges.scala:346:17] wire [31:0] io_mem_acquire_bits_a_address; // @[Edges.scala:346:17] wire [3:0] grantack_bits_e_sink = io_mem_grant_bits_sink_0; // @[Edges.scala:451:17] wire [127:0] io_lb_write_bits_data_0 = io_mem_grant_bits_data_0; // @[mshrs.scala:36:7] wire [2:0] shrink_param; // @[Misc.scala:38:36] wire [1:0] coh_on_grant_state; // @[Metadata.scala:160:20] wire [127:0] io_refill_bits_data_0 = io_lb_resp_0; // @[mshrs.scala:36:7] wire [39:0] _io_replay_bits_addr_T_1; // @[mshrs.scala:353:31] wire [63:0] _io_resp_bits_data_T_23; // @[AMOALU.scala:45:16] wire _io_probe_rdy_T_11; // @[mshrs.scala:148:42] wire io_idx_valid_0; // @[mshrs.scala:36:7] wire [5:0] io_idx_bits_0; // @[mshrs.scala:36:7] wire io_way_valid_0; // @[mshrs.scala:36:7] wire [7:0] io_way_bits_0; // @[mshrs.scala:36:7] wire io_tag_valid_0; // @[mshrs.scala:36:7] wire [27:0] io_tag_bits_0; // @[mshrs.scala:36:7] wire [2:0] io_mem_acquire_bits_param_0; // @[mshrs.scala:36:7] wire [31:0] io_mem_acquire_bits_address_0; // @[mshrs.scala:36:7] wire io_mem_acquire_valid_0; // @[mshrs.scala:36:7] wire io_mem_grant_ready_0; // @[mshrs.scala:36:7] wire [3:0] io_mem_finish_bits_sink_0; // @[mshrs.scala:36:7] wire io_mem_finish_valid_0; // @[mshrs.scala:36:7] wire [7:0] io_refill_bits_way_en_0; // @[mshrs.scala:36:7] wire [11:0] io_refill_bits_addr_0; // @[mshrs.scala:36:7] wire io_refill_valid_0; // @[mshrs.scala:36:7] wire [1:0] io_meta_write_bits_data_coh_state_0; // @[mshrs.scala:36:7] wire [19:0] io_meta_write_bits_data_tag_0; // @[mshrs.scala:36:7] wire [5:0] io_meta_write_bits_idx_0; // @[mshrs.scala:36:7] wire [7:0] io_meta_write_bits_way_en_0; // @[mshrs.scala:36:7] wire io_meta_write_valid_0; // @[mshrs.scala:36:7] wire [5:0] io_meta_read_bits_idx_0; // @[mshrs.scala:36:7] wire [7:0] io_meta_read_bits_way_en_0; // @[mshrs.scala:36:7] wire [19:0] io_meta_read_bits_tag_0; // @[mshrs.scala:36:7] wire io_meta_read_valid_0; // @[mshrs.scala:36:7] wire [19:0] io_wb_req_bits_tag_0; // @[mshrs.scala:36:7] wire [5:0] io_wb_req_bits_idx_0; // @[mshrs.scala:36:7] wire [2:0] io_wb_req_bits_param_0; // @[mshrs.scala:36:7] wire [7:0] io_wb_req_bits_way_en_0; // @[mshrs.scala:36:7] wire io_wb_req_valid_0; // @[mshrs.scala:36:7] wire [1:0] io_commit_coh_state_0; // @[mshrs.scala:36:7] wire [1:0] io_lb_read_bits_offset_0; // @[mshrs.scala:36:7] wire io_lb_read_valid_0; // @[mshrs.scala:36:7] wire [1:0] io_lb_write_bits_offset_0; // @[mshrs.scala:36:7] wire io_lb_write_valid_0; // @[mshrs.scala:36:7] wire [3:0] io_replay_bits_uop_ctrl_br_type_0; // @[mshrs.scala:36:7] wire [1:0] io_replay_bits_uop_ctrl_op1_sel_0; // @[mshrs.scala:36:7] wire [2:0] io_replay_bits_uop_ctrl_op2_sel_0; // @[mshrs.scala:36:7] wire [2:0] io_replay_bits_uop_ctrl_imm_sel_0; // @[mshrs.scala:36:7] wire [4:0] io_replay_bits_uop_ctrl_op_fcn_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_ctrl_fcn_dw_0; // @[mshrs.scala:36:7] wire [2:0] io_replay_bits_uop_ctrl_csr_cmd_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_ctrl_is_load_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_ctrl_is_sta_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_ctrl_is_std_0; // @[mshrs.scala:36:7] wire [6:0] io_replay_bits_uop_uopc_0; // @[mshrs.scala:36:7] wire [31:0] io_replay_bits_uop_inst_0; // @[mshrs.scala:36:7] wire [31:0] io_replay_bits_uop_debug_inst_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_is_rvc_0; // @[mshrs.scala:36:7] wire [39:0] io_replay_bits_uop_debug_pc_0; // @[mshrs.scala:36:7] wire [2:0] io_replay_bits_uop_iq_type_0; // @[mshrs.scala:36:7] wire [9:0] io_replay_bits_uop_fu_code_0; // @[mshrs.scala:36:7] wire [1:0] io_replay_bits_uop_iw_state_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_iw_p1_poisoned_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_iw_p2_poisoned_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_is_br_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_is_jalr_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_is_jal_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_is_sfb_0; // @[mshrs.scala:36:7] wire [15:0] io_replay_bits_uop_br_mask_0; // @[mshrs.scala:36:7] wire [3:0] io_replay_bits_uop_br_tag_0; // @[mshrs.scala:36:7] wire [4:0] io_replay_bits_uop_ftq_idx_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_edge_inst_0; // @[mshrs.scala:36:7] wire [5:0] io_replay_bits_uop_pc_lob_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_taken_0; // @[mshrs.scala:36:7] wire [19:0] io_replay_bits_uop_imm_packed_0; // @[mshrs.scala:36:7] wire [11:0] io_replay_bits_uop_csr_addr_0; // @[mshrs.scala:36:7] wire [6:0] io_replay_bits_uop_rob_idx_0; // @[mshrs.scala:36:7] wire [4:0] io_replay_bits_uop_ldq_idx_0; // @[mshrs.scala:36:7] wire [4:0] io_replay_bits_uop_stq_idx_0; // @[mshrs.scala:36:7] wire [1:0] io_replay_bits_uop_rxq_idx_0; // @[mshrs.scala:36:7] wire [6:0] io_replay_bits_uop_pdst_0; // @[mshrs.scala:36:7] wire [6:0] io_replay_bits_uop_prs1_0; // @[mshrs.scala:36:7] wire [6:0] io_replay_bits_uop_prs2_0; // @[mshrs.scala:36:7] wire [6:0] io_replay_bits_uop_prs3_0; // @[mshrs.scala:36:7] wire [4:0] io_replay_bits_uop_ppred_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_prs1_busy_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_prs2_busy_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_prs3_busy_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_ppred_busy_0; // @[mshrs.scala:36:7] wire [6:0] io_replay_bits_uop_stale_pdst_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_exception_0; // @[mshrs.scala:36:7] wire [63:0] io_replay_bits_uop_exc_cause_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_bypassable_0; // @[mshrs.scala:36:7] wire [4:0] io_replay_bits_uop_mem_cmd_0; // @[mshrs.scala:36:7] wire [1:0] io_replay_bits_uop_mem_size_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_mem_signed_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_is_fence_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_is_fencei_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_is_amo_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_uses_ldq_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_uses_stq_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_is_sys_pc2epc_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_is_unique_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_flush_on_commit_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_ldst_is_rs1_0; // @[mshrs.scala:36:7] wire [5:0] io_replay_bits_uop_ldst_0; // @[mshrs.scala:36:7] wire [5:0] io_replay_bits_uop_lrs1_0; // @[mshrs.scala:36:7] wire [5:0] io_replay_bits_uop_lrs2_0; // @[mshrs.scala:36:7] wire [5:0] io_replay_bits_uop_lrs3_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_ldst_val_0; // @[mshrs.scala:36:7] wire [1:0] io_replay_bits_uop_dst_rtype_0; // @[mshrs.scala:36:7] wire [1:0] io_replay_bits_uop_lrs1_rtype_0; // @[mshrs.scala:36:7] wire [1:0] io_replay_bits_uop_lrs2_rtype_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_frs3_en_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_fp_val_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_fp_single_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_xcpt_pf_if_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_xcpt_ae_if_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_xcpt_ma_if_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_bp_debug_if_0; // @[mshrs.scala:36:7] wire io_replay_bits_uop_bp_xcpt_if_0; // @[mshrs.scala:36:7] wire [1:0] io_replay_bits_uop_debug_fsrc_0; // @[mshrs.scala:36:7] wire [1:0] io_replay_bits_uop_debug_tsrc_0; // @[mshrs.scala:36:7] wire [1:0] io_replay_bits_old_meta_coh_state_0; // @[mshrs.scala:36:7] wire [19:0] io_replay_bits_old_meta_tag_0; // @[mshrs.scala:36:7] wire [39:0] io_replay_bits_addr_0; // @[mshrs.scala:36:7] wire [63:0] io_replay_bits_data_0; // @[mshrs.scala:36:7] wire io_replay_bits_is_hella_0; // @[mshrs.scala:36:7] wire io_replay_bits_tag_match_0; // @[mshrs.scala:36:7] wire [7:0] io_replay_bits_way_en_0; // @[mshrs.scala:36:7] wire [4:0] io_replay_bits_sdq_id_0; // @[mshrs.scala:36:7] wire io_replay_valid_0; // @[mshrs.scala:36:7] wire [3:0] io_resp_bits_uop_ctrl_br_type_0; // @[mshrs.scala:36:7] wire [1:0] io_resp_bits_uop_ctrl_op1_sel_0; // @[mshrs.scala:36:7] wire [2:0] io_resp_bits_uop_ctrl_op2_sel_0; // @[mshrs.scala:36:7] wire [2:0] io_resp_bits_uop_ctrl_imm_sel_0; // @[mshrs.scala:36:7] wire [4:0] io_resp_bits_uop_ctrl_op_fcn_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_ctrl_fcn_dw_0; // @[mshrs.scala:36:7] wire [2:0] io_resp_bits_uop_ctrl_csr_cmd_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_ctrl_is_load_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_ctrl_is_sta_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_ctrl_is_std_0; // @[mshrs.scala:36:7] wire [6:0] io_resp_bits_uop_uopc_0; // @[mshrs.scala:36:7] wire [31:0] io_resp_bits_uop_inst_0; // @[mshrs.scala:36:7] wire [31:0] io_resp_bits_uop_debug_inst_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_is_rvc_0; // @[mshrs.scala:36:7] wire [39:0] io_resp_bits_uop_debug_pc_0; // @[mshrs.scala:36:7] wire [2:0] io_resp_bits_uop_iq_type_0; // @[mshrs.scala:36:7] wire [9:0] io_resp_bits_uop_fu_code_0; // @[mshrs.scala:36:7] wire [1:0] io_resp_bits_uop_iw_state_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_iw_p1_poisoned_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_iw_p2_poisoned_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_is_br_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_is_jalr_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_is_jal_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_is_sfb_0; // @[mshrs.scala:36:7] wire [15:0] io_resp_bits_uop_br_mask_0; // @[mshrs.scala:36:7] wire [3:0] io_resp_bits_uop_br_tag_0; // @[mshrs.scala:36:7] wire [4:0] io_resp_bits_uop_ftq_idx_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_edge_inst_0; // @[mshrs.scala:36:7] wire [5:0] io_resp_bits_uop_pc_lob_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_taken_0; // @[mshrs.scala:36:7] wire [19:0] io_resp_bits_uop_imm_packed_0; // @[mshrs.scala:36:7] wire [11:0] io_resp_bits_uop_csr_addr_0; // @[mshrs.scala:36:7] wire [6:0] io_resp_bits_uop_rob_idx_0; // @[mshrs.scala:36:7] wire [4:0] io_resp_bits_uop_ldq_idx_0; // @[mshrs.scala:36:7] wire [4:0] io_resp_bits_uop_stq_idx_0; // @[mshrs.scala:36:7] wire [1:0] io_resp_bits_uop_rxq_idx_0; // @[mshrs.scala:36:7] wire [6:0] io_resp_bits_uop_pdst_0; // @[mshrs.scala:36:7] wire [6:0] io_resp_bits_uop_prs1_0; // @[mshrs.scala:36:7] wire [6:0] io_resp_bits_uop_prs2_0; // @[mshrs.scala:36:7] wire [6:0] io_resp_bits_uop_prs3_0; // @[mshrs.scala:36:7] wire [4:0] io_resp_bits_uop_ppred_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_prs1_busy_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_prs2_busy_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_prs3_busy_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_ppred_busy_0; // @[mshrs.scala:36:7] wire [6:0] io_resp_bits_uop_stale_pdst_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_exception_0; // @[mshrs.scala:36:7] wire [63:0] io_resp_bits_uop_exc_cause_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_bypassable_0; // @[mshrs.scala:36:7] wire [4:0] io_resp_bits_uop_mem_cmd_0; // @[mshrs.scala:36:7] wire [1:0] io_resp_bits_uop_mem_size_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_mem_signed_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_is_fence_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_is_fencei_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_is_amo_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_uses_ldq_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_uses_stq_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_is_sys_pc2epc_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_is_unique_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_flush_on_commit_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_ldst_is_rs1_0; // @[mshrs.scala:36:7] wire [5:0] io_resp_bits_uop_ldst_0; // @[mshrs.scala:36:7] wire [5:0] io_resp_bits_uop_lrs1_0; // @[mshrs.scala:36:7] wire [5:0] io_resp_bits_uop_lrs2_0; // @[mshrs.scala:36:7] wire [5:0] io_resp_bits_uop_lrs3_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_ldst_val_0; // @[mshrs.scala:36:7] wire [1:0] io_resp_bits_uop_dst_rtype_0; // @[mshrs.scala:36:7] wire [1:0] io_resp_bits_uop_lrs1_rtype_0; // @[mshrs.scala:36:7] wire [1:0] io_resp_bits_uop_lrs2_rtype_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_frs3_en_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_fp_val_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_fp_single_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_xcpt_pf_if_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_xcpt_ae_if_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_xcpt_ma_if_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_bp_debug_if_0; // @[mshrs.scala:36:7] wire io_resp_bits_uop_bp_xcpt_if_0; // @[mshrs.scala:36:7] wire [1:0] io_resp_bits_uop_debug_fsrc_0; // @[mshrs.scala:36:7] wire [1:0] io_resp_bits_uop_debug_tsrc_0; // @[mshrs.scala:36:7] wire [63:0] io_resp_bits_data_0; // @[mshrs.scala:36:7] wire io_resp_bits_is_hella_0; // @[mshrs.scala:36:7] wire io_resp_valid_0; // @[mshrs.scala:36:7] wire io_req_pri_rdy_0; // @[mshrs.scala:36:7] wire io_req_sec_rdy_0; // @[mshrs.scala:36:7] wire io_commit_val_0; // @[mshrs.scala:36:7] wire [39:0] io_commit_addr_0; // @[mshrs.scala:36:7] wire io_probe_rdy_0; // @[mshrs.scala:36:7] reg [4:0] state; // @[mshrs.scala:107:22] reg [6:0] req_uop_uopc; // @[mshrs.scala:109:20] reg [31:0] req_uop_inst; // @[mshrs.scala:109:20] reg [31:0] req_uop_debug_inst; // @[mshrs.scala:109:20] reg req_uop_is_rvc; // @[mshrs.scala:109:20] reg [39:0] req_uop_debug_pc; // @[mshrs.scala:109:20] reg [2:0] req_uop_iq_type; // @[mshrs.scala:109:20] reg [9:0] req_uop_fu_code; // @[mshrs.scala:109:20] reg [3:0] req_uop_ctrl_br_type; // @[mshrs.scala:109:20] reg [1:0] req_uop_ctrl_op1_sel; // @[mshrs.scala:109:20] reg [2:0] req_uop_ctrl_op2_sel; // @[mshrs.scala:109:20] reg [2:0] req_uop_ctrl_imm_sel; // @[mshrs.scala:109:20] reg [4:0] req_uop_ctrl_op_fcn; // @[mshrs.scala:109:20] reg req_uop_ctrl_fcn_dw; // @[mshrs.scala:109:20] reg [2:0] req_uop_ctrl_csr_cmd; // @[mshrs.scala:109:20] reg req_uop_ctrl_is_load; // @[mshrs.scala:109:20] reg req_uop_ctrl_is_sta; // @[mshrs.scala:109:20] reg req_uop_ctrl_is_std; // @[mshrs.scala:109:20] reg [1:0] req_uop_iw_state; // @[mshrs.scala:109:20] reg req_uop_iw_p1_poisoned; // @[mshrs.scala:109:20] reg req_uop_iw_p2_poisoned; // @[mshrs.scala:109:20] reg req_uop_is_br; // @[mshrs.scala:109:20] reg req_uop_is_jalr; // @[mshrs.scala:109:20] reg req_uop_is_jal; // @[mshrs.scala:109:20] reg req_uop_is_sfb; // @[mshrs.scala:109:20] reg [15:0] req_uop_br_mask; // @[mshrs.scala:109:20] reg [3:0] req_uop_br_tag; // @[mshrs.scala:109:20] reg [4:0] req_uop_ftq_idx; // @[mshrs.scala:109:20] reg req_uop_edge_inst; // @[mshrs.scala:109:20] reg [5:0] req_uop_pc_lob; // @[mshrs.scala:109:20] reg req_uop_taken; // @[mshrs.scala:109:20] reg [19:0] req_uop_imm_packed; // @[mshrs.scala:109:20] reg [11:0] req_uop_csr_addr; // @[mshrs.scala:109:20] reg [6:0] req_uop_rob_idx; // @[mshrs.scala:109:20] reg [4:0] req_uop_ldq_idx; // @[mshrs.scala:109:20] reg [4:0] req_uop_stq_idx; // @[mshrs.scala:109:20] reg [1:0] req_uop_rxq_idx; // @[mshrs.scala:109:20] reg [6:0] req_uop_pdst; // @[mshrs.scala:109:20] reg [6:0] req_uop_prs1; // @[mshrs.scala:109:20] reg [6:0] req_uop_prs2; // @[mshrs.scala:109:20] reg [6:0] req_uop_prs3; // @[mshrs.scala:109:20] reg [4:0] req_uop_ppred; // @[mshrs.scala:109:20] reg req_uop_prs1_busy; // @[mshrs.scala:109:20] reg req_uop_prs2_busy; // @[mshrs.scala:109:20] reg req_uop_prs3_busy; // @[mshrs.scala:109:20] reg req_uop_ppred_busy; // @[mshrs.scala:109:20] reg [6:0] req_uop_stale_pdst; // @[mshrs.scala:109:20] reg req_uop_exception; // @[mshrs.scala:109:20] reg [63:0] req_uop_exc_cause; // @[mshrs.scala:109:20] reg req_uop_bypassable; // @[mshrs.scala:109:20] reg [4:0] req_uop_mem_cmd; // @[mshrs.scala:109:20] reg [1:0] req_uop_mem_size; // @[mshrs.scala:109:20] reg req_uop_mem_signed; // @[mshrs.scala:109:20] reg req_uop_is_fence; // @[mshrs.scala:109:20] reg req_uop_is_fencei; // @[mshrs.scala:109:20] reg req_uop_is_amo; // @[mshrs.scala:109:20] reg req_uop_uses_ldq; // @[mshrs.scala:109:20] reg req_uop_uses_stq; // @[mshrs.scala:109:20] reg req_uop_is_sys_pc2epc; // @[mshrs.scala:109:20] reg req_uop_is_unique; // @[mshrs.scala:109:20] reg req_uop_flush_on_commit; // @[mshrs.scala:109:20] reg req_uop_ldst_is_rs1; // @[mshrs.scala:109:20] reg [5:0] req_uop_ldst; // @[mshrs.scala:109:20] reg [5:0] req_uop_lrs1; // @[mshrs.scala:109:20] reg [5:0] req_uop_lrs2; // @[mshrs.scala:109:20] reg [5:0] req_uop_lrs3; // @[mshrs.scala:109:20] reg req_uop_ldst_val; // @[mshrs.scala:109:20] reg [1:0] req_uop_dst_rtype; // @[mshrs.scala:109:20] reg [1:0] req_uop_lrs1_rtype; // @[mshrs.scala:109:20] reg [1:0] req_uop_lrs2_rtype; // @[mshrs.scala:109:20] reg req_uop_frs3_en; // @[mshrs.scala:109:20] reg req_uop_fp_val; // @[mshrs.scala:109:20] reg req_uop_fp_single; // @[mshrs.scala:109:20] reg req_uop_xcpt_pf_if; // @[mshrs.scala:109:20] reg req_uop_xcpt_ae_if; // @[mshrs.scala:109:20] reg req_uop_xcpt_ma_if; // @[mshrs.scala:109:20] reg req_uop_bp_debug_if; // @[mshrs.scala:109:20] reg req_uop_bp_xcpt_if; // @[mshrs.scala:109:20] reg [1:0] req_uop_debug_fsrc; // @[mshrs.scala:109:20] reg [1:0] req_uop_debug_tsrc; // @[mshrs.scala:109:20] reg [39:0] req_addr; // @[mshrs.scala:109:20] assign io_commit_addr_0 = req_addr; // @[mshrs.scala:36:7, :109:20] reg [63:0] req_data; // @[mshrs.scala:109:20] reg req_is_hella; // @[mshrs.scala:109:20] reg req_tag_match; // @[mshrs.scala:109:20] reg [1:0] req_old_meta_coh_state; // @[mshrs.scala:109:20] reg [19:0] req_old_meta_tag; // @[mshrs.scala:109:20] assign io_wb_req_bits_tag_0 = req_old_meta_tag; // @[mshrs.scala:36:7, :109:20] reg [7:0] req_way_en; // @[mshrs.scala:109:20] assign io_way_bits_0 = req_way_en; // @[mshrs.scala:36:7, :109:20] assign io_refill_bits_way_en_0 = req_way_en; // @[mshrs.scala:36:7, :109:20] assign io_meta_write_bits_way_en_0 = req_way_en; // @[mshrs.scala:36:7, :109:20] assign io_meta_read_bits_way_en_0 = req_way_en; // @[mshrs.scala:36:7, :109:20] assign io_wb_req_bits_way_en_0 = req_way_en; // @[mshrs.scala:36:7, :109:20] assign io_replay_bits_way_en_0 = req_way_en; // @[mshrs.scala:36:7, :109:20] reg [4:0] req_sdq_id; // @[mshrs.scala:109:20] assign req_idx = req_addr[11:6]; // @[mshrs.scala:109:20, :110:25] assign io_idx_bits_0 = req_idx; // @[mshrs.scala:36:7, :110:25] assign io_meta_write_bits_idx_0 = req_idx; // @[mshrs.scala:36:7, :110:25] assign io_meta_read_bits_idx_0 = req_idx; // @[mshrs.scala:36:7, :110:25] assign io_wb_req_bits_idx_0 = req_idx; // @[mshrs.scala:36:7, :110:25] assign req_tag = req_addr[39:12]; // @[mshrs.scala:109:20, :111:26] assign io_tag_bits_0 = req_tag; // @[mshrs.scala:36:7, :111:26] wire [33:0] _req_block_addr_T = req_addr[39:6]; // @[mshrs.scala:109:20, :112:34] wire [39:0] req_block_addr = {_req_block_addr_T, 6'h0}; // @[mshrs.scala:112:{34,51}] reg req_needs_wb; // @[mshrs.scala:113:29] reg [1:0] new_coh_state; // @[mshrs.scala:115:24] wire [3:0] _r_T_6 = {2'h2, req_old_meta_coh_state}; // @[Metadata.scala:120:19] wire _r_T_19 = _r_T_6 == 4'h8; // @[Misc.scala:56:20] wire [2:0] _r_T_21 = _r_T_19 ? 3'h5 : 3'h0; // @[Misc.scala:38:36, :56:20] wire _r_T_23 = _r_T_6 == 4'h9; // @[Misc.scala:56:20] wire [2:0] _r_T_25 = _r_T_23 ? 3'h2 : _r_T_21; // @[Misc.scala:38:36, :56:20] wire _r_T_27 = _r_T_6 == 4'hA; // @[Misc.scala:56:20] wire [2:0] _r_T_29 = _r_T_27 ? 3'h1 : _r_T_25; // @[Misc.scala:38:36, :56:20] wire _r_T_31 = _r_T_6 == 4'hB; // @[Misc.scala:56:20] wire _r_T_32 = _r_T_31; // @[Misc.scala:38:9, :56:20] wire [2:0] _r_T_33 = _r_T_31 ? 3'h1 : _r_T_29; // @[Misc.scala:38:36, :56:20] wire _r_T_35 = _r_T_6 == 4'h4; // @[Misc.scala:56:20] wire _r_T_36 = ~_r_T_35 & _r_T_32; // @[Misc.scala:38:9, :56:20] wire [2:0] _r_T_37 = _r_T_35 ? 3'h5 : _r_T_33; // @[Misc.scala:38:36, :56:20] wire _r_T_39 = _r_T_6 == 4'h5; // @[Misc.scala:56:20] wire _r_T_40 = ~_r_T_39 & _r_T_36; // @[Misc.scala:38:9, :56:20] wire [2:0] _r_T_41 = _r_T_39 ? 3'h4 : _r_T_37; // @[Misc.scala:38:36, :56:20] wire [1:0] _r_T_42 = {1'h0, _r_T_39}; // @[Misc.scala:38:63, :56:20] wire _r_T_43 = _r_T_6 == 4'h6; // @[Misc.scala:56:20] wire _r_T_44 = ~_r_T_43 & _r_T_40; // @[Misc.scala:38:9, :56:20] wire [2:0] _r_T_45 = _r_T_43 ? 3'h0 : _r_T_41; // @[Misc.scala:38:36, :56:20] wire [1:0] _r_T_46 = _r_T_43 ? 2'h1 : _r_T_42; // @[Misc.scala:38:63, :56:20] wire _r_T_47 = _r_T_6 == 4'h7; // @[Misc.scala:56:20] wire _r_T_48 = _r_T_47 | _r_T_44; // @[Misc.scala:38:9, :56:20] wire [2:0] _r_T_49 = _r_T_47 ? 3'h0 : _r_T_45; // @[Misc.scala:38:36, :56:20] wire [1:0] _r_T_50 = _r_T_47 ? 2'h1 : _r_T_46; // @[Misc.scala:38:63, :56:20] wire _r_T_51 = _r_T_6 == 4'h0; // @[Misc.scala:56:20] wire _r_T_52 = ~_r_T_51 & _r_T_48; // @[Misc.scala:38:9, :56:20] wire [2:0] _r_T_53 = _r_T_51 ? 3'h5 : _r_T_49; // @[Misc.scala:38:36, :56:20] wire [1:0] _r_T_54 = _r_T_51 ? 2'h0 : _r_T_50; // @[Misc.scala:38:63, :56:20] wire _r_T_55 = _r_T_6 == 4'h1; // @[Misc.scala:56:20] wire _r_T_56 = ~_r_T_55 & _r_T_52; // @[Misc.scala:38:9, :56:20] wire [2:0] _r_T_57 = _r_T_55 ? 3'h4 : _r_T_53; // @[Misc.scala:38:36, :56:20] wire [1:0] _r_T_58 = _r_T_55 ? 2'h1 : _r_T_54; // @[Misc.scala:38:63, :56:20] wire _r_T_59 = _r_T_6 == 4'h2; // @[Misc.scala:56:20] wire _r_T_60 = ~_r_T_59 & _r_T_56; // @[Misc.scala:38:9, :56:20] wire [2:0] _r_T_61 = _r_T_59 ? 3'h3 : _r_T_57; // @[Misc.scala:38:36, :56:20] wire [1:0] _r_T_62 = _r_T_59 ? 2'h2 : _r_T_58; // @[Misc.scala:38:63, :56:20] wire _r_T_63 = _r_T_6 == 4'h3; // @[Misc.scala:56:20] wire r_1 = _r_T_63 | _r_T_60; // @[Misc.scala:38:9, :56:20] assign shrink_param = _r_T_63 ? 3'h3 : _r_T_61; // @[Misc.scala:38:36, :56:20] assign io_wb_req_bits_param_0 = shrink_param; // @[Misc.scala:38:36] wire [1:0] r_3 = _r_T_63 ? 2'h2 : _r_T_62; // @[Misc.scala:38:63, :56:20] wire [1:0] coh_on_clear_state = r_3; // @[Misc.scala:38:63] wire _GEN = req_uop_mem_cmd == 5'h1; // @[Consts.scala:90:32] wire _grow_param_r_c_cat_T; // @[Consts.scala:90:32] assign _grow_param_r_c_cat_T = _GEN; // @[Consts.scala:90:32] wire _grow_param_r_c_cat_T_23; // @[Consts.scala:90:32] assign _grow_param_r_c_cat_T_23 = _GEN; // @[Consts.scala:90:32] wire _coh_on_grant_c_cat_T; // @[Consts.scala:90:32] assign _coh_on_grant_c_cat_T = _GEN; // @[Consts.scala:90:32] wire _coh_on_grant_c_cat_T_23; // @[Consts.scala:90:32] assign _coh_on_grant_c_cat_T_23 = _GEN; // @[Consts.scala:90:32] wire _r1_c_cat_T; // @[Consts.scala:90:32] assign _r1_c_cat_T = _GEN; // @[Consts.scala:90:32] wire _r1_c_cat_T_23; // @[Consts.scala:90:32] assign _r1_c_cat_T_23 = _GEN; // @[Consts.scala:90:32] wire _needs_second_acq_T_27; // @[Consts.scala:90:32] assign _needs_second_acq_T_27 = _GEN; // @[Consts.scala:90:32] wire _GEN_0 = req_uop_mem_cmd == 5'h11; // @[Consts.scala:90:49] wire _grow_param_r_c_cat_T_1; // @[Consts.scala:90:49] assign _grow_param_r_c_cat_T_1 = _GEN_0; // @[Consts.scala:90:49] wire _grow_param_r_c_cat_T_24; // @[Consts.scala:90:49] assign _grow_param_r_c_cat_T_24 = _GEN_0; // @[Consts.scala:90:49] wire _coh_on_grant_c_cat_T_1; // @[Consts.scala:90:49] assign _coh_on_grant_c_cat_T_1 = _GEN_0; // @[Consts.scala:90:49] wire _coh_on_grant_c_cat_T_24; // @[Consts.scala:90:49] assign _coh_on_grant_c_cat_T_24 = _GEN_0; // @[Consts.scala:90:49] wire _r1_c_cat_T_1; // @[Consts.scala:90:49] assign _r1_c_cat_T_1 = _GEN_0; // @[Consts.scala:90:49] wire _r1_c_cat_T_24; // @[Consts.scala:90:49] assign _r1_c_cat_T_24 = _GEN_0; // @[Consts.scala:90:49] wire _needs_second_acq_T_28; // @[Consts.scala:90:49] assign _needs_second_acq_T_28 = _GEN_0; // @[Consts.scala:90:49] wire _grow_param_r_c_cat_T_2 = _grow_param_r_c_cat_T | _grow_param_r_c_cat_T_1; // @[Consts.scala:90:{32,42,49}] wire _GEN_1 = req_uop_mem_cmd == 5'h7; // @[Consts.scala:90:66] wire _grow_param_r_c_cat_T_3; // @[Consts.scala:90:66] assign _grow_param_r_c_cat_T_3 = _GEN_1; // @[Consts.scala:90:66] wire _grow_param_r_c_cat_T_26; // @[Consts.scala:90:66] assign _grow_param_r_c_cat_T_26 = _GEN_1; // @[Consts.scala:90:66] wire _coh_on_grant_c_cat_T_3; // @[Consts.scala:90:66] assign _coh_on_grant_c_cat_T_3 = _GEN_1; // @[Consts.scala:90:66] wire _coh_on_grant_c_cat_T_26; // @[Consts.scala:90:66] assign _coh_on_grant_c_cat_T_26 = _GEN_1; // @[Consts.scala:90:66] wire _r1_c_cat_T_3; // @[Consts.scala:90:66] assign _r1_c_cat_T_3 = _GEN_1; // @[Consts.scala:90:66] wire _r1_c_cat_T_26; // @[Consts.scala:90:66] assign _r1_c_cat_T_26 = _GEN_1; // @[Consts.scala:90:66] wire _needs_second_acq_T_30; // @[Consts.scala:90:66] assign _needs_second_acq_T_30 = _GEN_1; // @[Consts.scala:90:66] wire _grow_param_r_c_cat_T_4 = _grow_param_r_c_cat_T_2 | _grow_param_r_c_cat_T_3; // @[Consts.scala:90:{42,59,66}] wire _GEN_2 = req_uop_mem_cmd == 5'h4; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_5; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_5 = _GEN_2; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_28; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_28 = _GEN_2; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_5; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_5 = _GEN_2; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_28; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_28 = _GEN_2; // @[package.scala:16:47] wire _r1_c_cat_T_5; // @[package.scala:16:47] assign _r1_c_cat_T_5 = _GEN_2; // @[package.scala:16:47] wire _r1_c_cat_T_28; // @[package.scala:16:47] assign _r1_c_cat_T_28 = _GEN_2; // @[package.scala:16:47] wire _needs_second_acq_T_32; // @[package.scala:16:47] assign _needs_second_acq_T_32 = _GEN_2; // @[package.scala:16:47] wire _GEN_3 = req_uop_mem_cmd == 5'h9; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_6; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_6 = _GEN_3; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_29; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_29 = _GEN_3; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_6; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_6 = _GEN_3; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_29; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_29 = _GEN_3; // @[package.scala:16:47] wire _r1_c_cat_T_6; // @[package.scala:16:47] assign _r1_c_cat_T_6 = _GEN_3; // @[package.scala:16:47] wire _r1_c_cat_T_29; // @[package.scala:16:47] assign _r1_c_cat_T_29 = _GEN_3; // @[package.scala:16:47] wire _needs_second_acq_T_33; // @[package.scala:16:47] assign _needs_second_acq_T_33 = _GEN_3; // @[package.scala:16:47] wire _GEN_4 = req_uop_mem_cmd == 5'hA; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_7; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_7 = _GEN_4; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_30; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_30 = _GEN_4; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_7; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_7 = _GEN_4; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_30; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_30 = _GEN_4; // @[package.scala:16:47] wire _r1_c_cat_T_7; // @[package.scala:16:47] assign _r1_c_cat_T_7 = _GEN_4; // @[package.scala:16:47] wire _r1_c_cat_T_30; // @[package.scala:16:47] assign _r1_c_cat_T_30 = _GEN_4; // @[package.scala:16:47] wire _needs_second_acq_T_34; // @[package.scala:16:47] assign _needs_second_acq_T_34 = _GEN_4; // @[package.scala:16:47] wire _GEN_5 = req_uop_mem_cmd == 5'hB; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_8; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_8 = _GEN_5; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_31; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_31 = _GEN_5; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_8; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_8 = _GEN_5; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_31; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_31 = _GEN_5; // @[package.scala:16:47] wire _r1_c_cat_T_8; // @[package.scala:16:47] assign _r1_c_cat_T_8 = _GEN_5; // @[package.scala:16:47] wire _r1_c_cat_T_31; // @[package.scala:16:47] assign _r1_c_cat_T_31 = _GEN_5; // @[package.scala:16:47] wire _needs_second_acq_T_35; // @[package.scala:16:47] assign _needs_second_acq_T_35 = _GEN_5; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_9 = _grow_param_r_c_cat_T_5 | _grow_param_r_c_cat_T_6; // @[package.scala:16:47, :81:59] wire _grow_param_r_c_cat_T_10 = _grow_param_r_c_cat_T_9 | _grow_param_r_c_cat_T_7; // @[package.scala:16:47, :81:59] wire _grow_param_r_c_cat_T_11 = _grow_param_r_c_cat_T_10 | _grow_param_r_c_cat_T_8; // @[package.scala:16:47, :81:59] wire _GEN_6 = req_uop_mem_cmd == 5'h8; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_12; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_12 = _GEN_6; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_35; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_35 = _GEN_6; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_12; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_12 = _GEN_6; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_35; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_35 = _GEN_6; // @[package.scala:16:47] wire _r1_c_cat_T_12; // @[package.scala:16:47] assign _r1_c_cat_T_12 = _GEN_6; // @[package.scala:16:47] wire _r1_c_cat_T_35; // @[package.scala:16:47] assign _r1_c_cat_T_35 = _GEN_6; // @[package.scala:16:47] wire _needs_second_acq_T_39; // @[package.scala:16:47] assign _needs_second_acq_T_39 = _GEN_6; // @[package.scala:16:47] wire _GEN_7 = req_uop_mem_cmd == 5'hC; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_13; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_13 = _GEN_7; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_36; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_36 = _GEN_7; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_13; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_13 = _GEN_7; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_36; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_36 = _GEN_7; // @[package.scala:16:47] wire _r1_c_cat_T_13; // @[package.scala:16:47] assign _r1_c_cat_T_13 = _GEN_7; // @[package.scala:16:47] wire _r1_c_cat_T_36; // @[package.scala:16:47] assign _r1_c_cat_T_36 = _GEN_7; // @[package.scala:16:47] wire _needs_second_acq_T_40; // @[package.scala:16:47] assign _needs_second_acq_T_40 = _GEN_7; // @[package.scala:16:47] wire _GEN_8 = req_uop_mem_cmd == 5'hD; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_14; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_14 = _GEN_8; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_37; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_37 = _GEN_8; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_14; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_14 = _GEN_8; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_37; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_37 = _GEN_8; // @[package.scala:16:47] wire _r1_c_cat_T_14; // @[package.scala:16:47] assign _r1_c_cat_T_14 = _GEN_8; // @[package.scala:16:47] wire _r1_c_cat_T_37; // @[package.scala:16:47] assign _r1_c_cat_T_37 = _GEN_8; // @[package.scala:16:47] wire _needs_second_acq_T_41; // @[package.scala:16:47] assign _needs_second_acq_T_41 = _GEN_8; // @[package.scala:16:47] wire _GEN_9 = req_uop_mem_cmd == 5'hE; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_15; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_15 = _GEN_9; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_38; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_38 = _GEN_9; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_15; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_15 = _GEN_9; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_38; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_38 = _GEN_9; // @[package.scala:16:47] wire _r1_c_cat_T_15; // @[package.scala:16:47] assign _r1_c_cat_T_15 = _GEN_9; // @[package.scala:16:47] wire _r1_c_cat_T_38; // @[package.scala:16:47] assign _r1_c_cat_T_38 = _GEN_9; // @[package.scala:16:47] wire _needs_second_acq_T_42; // @[package.scala:16:47] assign _needs_second_acq_T_42 = _GEN_9; // @[package.scala:16:47] wire _GEN_10 = req_uop_mem_cmd == 5'hF; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_16; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_16 = _GEN_10; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_39; // @[package.scala:16:47] assign _grow_param_r_c_cat_T_39 = _GEN_10; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_16; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_16 = _GEN_10; // @[package.scala:16:47] wire _coh_on_grant_c_cat_T_39; // @[package.scala:16:47] assign _coh_on_grant_c_cat_T_39 = _GEN_10; // @[package.scala:16:47] wire _r1_c_cat_T_16; // @[package.scala:16:47] assign _r1_c_cat_T_16 = _GEN_10; // @[package.scala:16:47] wire _r1_c_cat_T_39; // @[package.scala:16:47] assign _r1_c_cat_T_39 = _GEN_10; // @[package.scala:16:47] wire _needs_second_acq_T_43; // @[package.scala:16:47] assign _needs_second_acq_T_43 = _GEN_10; // @[package.scala:16:47] wire _grow_param_r_c_cat_T_17 = _grow_param_r_c_cat_T_12 | _grow_param_r_c_cat_T_13; // @[package.scala:16:47, :81:59] wire _grow_param_r_c_cat_T_18 = _grow_param_r_c_cat_T_17 | _grow_param_r_c_cat_T_14; // @[package.scala:16:47, :81:59] wire _grow_param_r_c_cat_T_19 = _grow_param_r_c_cat_T_18 | _grow_param_r_c_cat_T_15; // @[package.scala:16:47, :81:59] wire _grow_param_r_c_cat_T_20 = _grow_param_r_c_cat_T_19 | _grow_param_r_c_cat_T_16; // @[package.scala:16:47, :81:59] wire _grow_param_r_c_cat_T_21 = _grow_param_r_c_cat_T_11 | _grow_param_r_c_cat_T_20; // @[package.scala:81:59] wire _grow_param_r_c_cat_T_22 = _grow_param_r_c_cat_T_4 | _grow_param_r_c_cat_T_21; // @[Consts.scala:87:44, :90:{59,76}] wire _grow_param_r_c_cat_T_25 = _grow_param_r_c_cat_T_23 | _grow_param_r_c_cat_T_24; // @[Consts.scala:90:{32,42,49}] wire _grow_param_r_c_cat_T_27 = _grow_param_r_c_cat_T_25 | _grow_param_r_c_cat_T_26; // @[Consts.scala:90:{42,59,66}] wire _grow_param_r_c_cat_T_32 = _grow_param_r_c_cat_T_28 | _grow_param_r_c_cat_T_29; // @[package.scala:16:47, :81:59] wire _grow_param_r_c_cat_T_33 = _grow_param_r_c_cat_T_32 | _grow_param_r_c_cat_T_30; // @[package.scala:16:47, :81:59] wire _grow_param_r_c_cat_T_34 = _grow_param_r_c_cat_T_33 | _grow_param_r_c_cat_T_31; // @[package.scala:16:47, :81:59] wire _grow_param_r_c_cat_T_40 = _grow_param_r_c_cat_T_35 | _grow_param_r_c_cat_T_36; // @[package.scala:16:47, :81:59] wire _grow_param_r_c_cat_T_41 = _grow_param_r_c_cat_T_40 | _grow_param_r_c_cat_T_37; // @[package.scala:16:47, :81:59] wire _grow_param_r_c_cat_T_42 = _grow_param_r_c_cat_T_41 | _grow_param_r_c_cat_T_38; // @[package.scala:16:47, :81:59] wire _grow_param_r_c_cat_T_43 = _grow_param_r_c_cat_T_42 | _grow_param_r_c_cat_T_39; // @[package.scala:16:47, :81:59] wire _grow_param_r_c_cat_T_44 = _grow_param_r_c_cat_T_34 | _grow_param_r_c_cat_T_43; // @[package.scala:81:59] wire _grow_param_r_c_cat_T_45 = _grow_param_r_c_cat_T_27 | _grow_param_r_c_cat_T_44; // @[Consts.scala:87:44, :90:{59,76}] wire _GEN_11 = req_uop_mem_cmd == 5'h3; // @[Consts.scala:91:54] wire _grow_param_r_c_cat_T_46; // @[Consts.scala:91:54] assign _grow_param_r_c_cat_T_46 = _GEN_11; // @[Consts.scala:91:54] wire _coh_on_grant_c_cat_T_46; // @[Consts.scala:91:54] assign _coh_on_grant_c_cat_T_46 = _GEN_11; // @[Consts.scala:91:54] wire _r1_c_cat_T_46; // @[Consts.scala:91:54] assign _r1_c_cat_T_46 = _GEN_11; // @[Consts.scala:91:54] wire _needs_second_acq_T_50; // @[Consts.scala:91:54] assign _needs_second_acq_T_50 = _GEN_11; // @[Consts.scala:91:54] wire _grow_param_r_c_cat_T_47 = _grow_param_r_c_cat_T_45 | _grow_param_r_c_cat_T_46; // @[Consts.scala:90:76, :91:{47,54}] wire _GEN_12 = req_uop_mem_cmd == 5'h6; // @[Consts.scala:91:71] wire _grow_param_r_c_cat_T_48; // @[Consts.scala:91:71] assign _grow_param_r_c_cat_T_48 = _GEN_12; // @[Consts.scala:91:71] wire _coh_on_grant_c_cat_T_48; // @[Consts.scala:91:71] assign _coh_on_grant_c_cat_T_48 = _GEN_12; // @[Consts.scala:91:71] wire _r1_c_cat_T_48; // @[Consts.scala:91:71] assign _r1_c_cat_T_48 = _GEN_12; // @[Consts.scala:91:71] wire _needs_second_acq_T_52; // @[Consts.scala:91:71] assign _needs_second_acq_T_52 = _GEN_12; // @[Consts.scala:91:71] wire _grow_param_r_c_cat_T_49 = _grow_param_r_c_cat_T_47 | _grow_param_r_c_cat_T_48; // @[Consts.scala:91:{47,64,71}] wire [1:0] grow_param_r_c = {_grow_param_r_c_cat_T_22, _grow_param_r_c_cat_T_49}; // @[Metadata.scala:29:18] wire [3:0] _grow_param_r_T = {grow_param_r_c, new_coh_state}; // @[Metadata.scala:29:18, :58:19] wire _grow_param_r_T_25 = _grow_param_r_T == 4'hC; // @[Misc.scala:49:20] wire [1:0] _grow_param_r_T_27 = {1'h0, _grow_param_r_T_25}; // @[Misc.scala:35:36, :49:20] wire _grow_param_r_T_28 = _grow_param_r_T == 4'hD; // @[Misc.scala:49:20] wire [1:0] _grow_param_r_T_30 = _grow_param_r_T_28 ? 2'h2 : _grow_param_r_T_27; // @[Misc.scala:35:36, :49:20] wire _grow_param_r_T_31 = _grow_param_r_T == 4'h4; // @[Misc.scala:49:20] wire [1:0] _grow_param_r_T_33 = _grow_param_r_T_31 ? 2'h1 : _grow_param_r_T_30; // @[Misc.scala:35:36, :49:20] wire _grow_param_r_T_34 = _grow_param_r_T == 4'h5; // @[Misc.scala:49:20] wire [1:0] _grow_param_r_T_36 = _grow_param_r_T_34 ? 2'h2 : _grow_param_r_T_33; // @[Misc.scala:35:36, :49:20] wire _grow_param_r_T_37 = _grow_param_r_T == 4'h0; // @[Misc.scala:49:20] wire [1:0] _grow_param_r_T_39 = _grow_param_r_T_37 ? 2'h0 : _grow_param_r_T_36; // @[Misc.scala:35:36, :49:20] wire _grow_param_r_T_40 = _grow_param_r_T == 4'hE; // @[Misc.scala:49:20] wire _grow_param_r_T_41 = _grow_param_r_T_40; // @[Misc.scala:35:9, :49:20] wire [1:0] _grow_param_r_T_42 = _grow_param_r_T_40 ? 2'h3 : _grow_param_r_T_39; // @[Misc.scala:35:36, :49:20] wire _grow_param_r_T_43 = &_grow_param_r_T; // @[Misc.scala:49:20] wire _grow_param_r_T_44 = _grow_param_r_T_43 | _grow_param_r_T_41; // @[Misc.scala:35:9, :49:20] wire [1:0] _grow_param_r_T_45 = _grow_param_r_T_43 ? 2'h3 : _grow_param_r_T_42; // @[Misc.scala:35:36, :49:20] wire _grow_param_r_T_46 = _grow_param_r_T == 4'h6; // @[Misc.scala:49:20] wire _grow_param_r_T_47 = _grow_param_r_T_46 | _grow_param_r_T_44; // @[Misc.scala:35:9, :49:20] wire [1:0] _grow_param_r_T_48 = _grow_param_r_T_46 ? 2'h2 : _grow_param_r_T_45; // @[Misc.scala:35:36, :49:20] wire _grow_param_r_T_49 = _grow_param_r_T == 4'h7; // @[Misc.scala:49:20] wire _grow_param_r_T_50 = _grow_param_r_T_49 | _grow_param_r_T_47; // @[Misc.scala:35:9, :49:20] wire [1:0] _grow_param_r_T_51 = _grow_param_r_T_49 ? 2'h3 : _grow_param_r_T_48; // @[Misc.scala:35:36, :49:20] wire _grow_param_r_T_52 = _grow_param_r_T == 4'h1; // @[Misc.scala:49:20] wire _grow_param_r_T_53 = _grow_param_r_T_52 | _grow_param_r_T_50; // @[Misc.scala:35:9, :49:20] wire [1:0] _grow_param_r_T_54 = _grow_param_r_T_52 ? 2'h1 : _grow_param_r_T_51; // @[Misc.scala:35:36, :49:20] wire _grow_param_r_T_55 = _grow_param_r_T == 4'h2; // @[Misc.scala:49:20] wire _grow_param_r_T_56 = _grow_param_r_T_55 | _grow_param_r_T_53; // @[Misc.scala:35:9, :49:20] wire [1:0] _grow_param_r_T_57 = _grow_param_r_T_55 ? 2'h2 : _grow_param_r_T_54; // @[Misc.scala:35:36, :49:20] wire _grow_param_r_T_58 = _grow_param_r_T == 4'h3; // @[Misc.scala:49:20] wire grow_param_r_1 = _grow_param_r_T_58 | _grow_param_r_T_56; // @[Misc.scala:35:9, :49:20] wire [1:0] grow_param = _grow_param_r_T_58 ? 2'h3 : _grow_param_r_T_57; // @[Misc.scala:35:36, :49:20] wire [1:0] grow_param_meta_state = grow_param; // @[Misc.scala:35:36] wire _coh_on_grant_c_cat_T_2 = _coh_on_grant_c_cat_T | _coh_on_grant_c_cat_T_1; // @[Consts.scala:90:{32,42,49}] wire _coh_on_grant_c_cat_T_4 = _coh_on_grant_c_cat_T_2 | _coh_on_grant_c_cat_T_3; // @[Consts.scala:90:{42,59,66}] wire _coh_on_grant_c_cat_T_9 = _coh_on_grant_c_cat_T_5 | _coh_on_grant_c_cat_T_6; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_10 = _coh_on_grant_c_cat_T_9 | _coh_on_grant_c_cat_T_7; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_11 = _coh_on_grant_c_cat_T_10 | _coh_on_grant_c_cat_T_8; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_17 = _coh_on_grant_c_cat_T_12 | _coh_on_grant_c_cat_T_13; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_18 = _coh_on_grant_c_cat_T_17 | _coh_on_grant_c_cat_T_14; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_19 = _coh_on_grant_c_cat_T_18 | _coh_on_grant_c_cat_T_15; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_20 = _coh_on_grant_c_cat_T_19 | _coh_on_grant_c_cat_T_16; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_21 = _coh_on_grant_c_cat_T_11 | _coh_on_grant_c_cat_T_20; // @[package.scala:81:59] wire _coh_on_grant_c_cat_T_22 = _coh_on_grant_c_cat_T_4 | _coh_on_grant_c_cat_T_21; // @[Consts.scala:87:44, :90:{59,76}] wire _coh_on_grant_c_cat_T_25 = _coh_on_grant_c_cat_T_23 | _coh_on_grant_c_cat_T_24; // @[Consts.scala:90:{32,42,49}] wire _coh_on_grant_c_cat_T_27 = _coh_on_grant_c_cat_T_25 | _coh_on_grant_c_cat_T_26; // @[Consts.scala:90:{42,59,66}] wire _coh_on_grant_c_cat_T_32 = _coh_on_grant_c_cat_T_28 | _coh_on_grant_c_cat_T_29; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_33 = _coh_on_grant_c_cat_T_32 | _coh_on_grant_c_cat_T_30; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_34 = _coh_on_grant_c_cat_T_33 | _coh_on_grant_c_cat_T_31; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_40 = _coh_on_grant_c_cat_T_35 | _coh_on_grant_c_cat_T_36; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_41 = _coh_on_grant_c_cat_T_40 | _coh_on_grant_c_cat_T_37; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_42 = _coh_on_grant_c_cat_T_41 | _coh_on_grant_c_cat_T_38; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_43 = _coh_on_grant_c_cat_T_42 | _coh_on_grant_c_cat_T_39; // @[package.scala:16:47, :81:59] wire _coh_on_grant_c_cat_T_44 = _coh_on_grant_c_cat_T_34 | _coh_on_grant_c_cat_T_43; // @[package.scala:81:59] wire _coh_on_grant_c_cat_T_45 = _coh_on_grant_c_cat_T_27 | _coh_on_grant_c_cat_T_44; // @[Consts.scala:87:44, :90:{59,76}] wire _coh_on_grant_c_cat_T_47 = _coh_on_grant_c_cat_T_45 | _coh_on_grant_c_cat_T_46; // @[Consts.scala:90:76, :91:{47,54}] wire _coh_on_grant_c_cat_T_49 = _coh_on_grant_c_cat_T_47 | _coh_on_grant_c_cat_T_48; // @[Consts.scala:91:{47,64,71}] wire [1:0] coh_on_grant_c = {_coh_on_grant_c_cat_T_22, _coh_on_grant_c_cat_T_49}; // @[Metadata.scala:29:18] wire [3:0] _coh_on_grant_T = {coh_on_grant_c, io_mem_grant_bits_param_0}; // @[Metadata.scala:29:18, :84:18] wire _coh_on_grant_T_9 = _coh_on_grant_T == 4'h1; // @[Metadata.scala:84:{18,38}] wire [1:0] _coh_on_grant_T_10 = {1'h0, _coh_on_grant_T_9}; // @[Metadata.scala:84:38] wire _coh_on_grant_T_11 = _coh_on_grant_T == 4'h0; // @[Metadata.scala:84:{18,38}] wire [1:0] _coh_on_grant_T_12 = _coh_on_grant_T_11 ? 2'h2 : _coh_on_grant_T_10; // @[Metadata.scala:84:38] wire _coh_on_grant_T_13 = _coh_on_grant_T == 4'h4; // @[Metadata.scala:84:{18,38}] wire [1:0] _coh_on_grant_T_14 = _coh_on_grant_T_13 ? 2'h2 : _coh_on_grant_T_12; // @[Metadata.scala:84:38] wire _coh_on_grant_T_15 = _coh_on_grant_T == 4'hC; // @[Metadata.scala:84:{18,38}] wire [1:0] _coh_on_grant_T_16 = _coh_on_grant_T_15 ? 2'h3 : _coh_on_grant_T_14; // @[Metadata.scala:84:38] assign coh_on_grant_state = _coh_on_grant_T_16; // @[Metadata.scala:84:38, :160:20] assign io_commit_coh_state_0 = coh_on_grant_state; // @[Metadata.scala:160:20] wire _r1_c_cat_T_2 = _r1_c_cat_T | _r1_c_cat_T_1; // @[Consts.scala:90:{32,42,49}] wire _r1_c_cat_T_4 = _r1_c_cat_T_2 | _r1_c_cat_T_3; // @[Consts.scala:90:{42,59,66}] wire _r1_c_cat_T_9 = _r1_c_cat_T_5 | _r1_c_cat_T_6; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_10 = _r1_c_cat_T_9 | _r1_c_cat_T_7; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_11 = _r1_c_cat_T_10 | _r1_c_cat_T_8; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_17 = _r1_c_cat_T_12 | _r1_c_cat_T_13; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_18 = _r1_c_cat_T_17 | _r1_c_cat_T_14; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_19 = _r1_c_cat_T_18 | _r1_c_cat_T_15; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_20 = _r1_c_cat_T_19 | _r1_c_cat_T_16; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_21 = _r1_c_cat_T_11 | _r1_c_cat_T_20; // @[package.scala:81:59] wire _r1_c_cat_T_22 = _r1_c_cat_T_4 | _r1_c_cat_T_21; // @[Consts.scala:87:44, :90:{59,76}] wire _r1_c_cat_T_25 = _r1_c_cat_T_23 | _r1_c_cat_T_24; // @[Consts.scala:90:{32,42,49}] wire _r1_c_cat_T_27 = _r1_c_cat_T_25 | _r1_c_cat_T_26; // @[Consts.scala:90:{42,59,66}] wire _r1_c_cat_T_32 = _r1_c_cat_T_28 | _r1_c_cat_T_29; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_33 = _r1_c_cat_T_32 | _r1_c_cat_T_30; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_34 = _r1_c_cat_T_33 | _r1_c_cat_T_31; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_40 = _r1_c_cat_T_35 | _r1_c_cat_T_36; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_41 = _r1_c_cat_T_40 | _r1_c_cat_T_37; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_42 = _r1_c_cat_T_41 | _r1_c_cat_T_38; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_43 = _r1_c_cat_T_42 | _r1_c_cat_T_39; // @[package.scala:16:47, :81:59] wire _r1_c_cat_T_44 = _r1_c_cat_T_34 | _r1_c_cat_T_43; // @[package.scala:81:59] wire _r1_c_cat_T_45 = _r1_c_cat_T_27 | _r1_c_cat_T_44; // @[Consts.scala:87:44, :90:{59,76}] wire _r1_c_cat_T_47 = _r1_c_cat_T_45 | _r1_c_cat_T_46; // @[Consts.scala:90:76, :91:{47,54}] wire _r1_c_cat_T_49 = _r1_c_cat_T_47 | _r1_c_cat_T_48; // @[Consts.scala:91:{47,64,71}] wire [1:0] r1_c = {_r1_c_cat_T_22, _r1_c_cat_T_49}; // @[Metadata.scala:29:18] wire [3:0] _r1_T = {r1_c, new_coh_state}; // @[Metadata.scala:29:18, :58:19] wire _r1_T_25 = _r1_T == 4'hC; // @[Misc.scala:49:20] wire [1:0] _r1_T_27 = {1'h0, _r1_T_25}; // @[Misc.scala:35:36, :49:20] wire _r1_T_28 = _r1_T == 4'hD; // @[Misc.scala:49:20] wire [1:0] _r1_T_30 = _r1_T_28 ? 2'h2 : _r1_T_27; // @[Misc.scala:35:36, :49:20] wire _r1_T_31 = _r1_T == 4'h4; // @[Misc.scala:49:20] wire [1:0] _r1_T_33 = _r1_T_31 ? 2'h1 : _r1_T_30; // @[Misc.scala:35:36, :49:20] wire _r1_T_34 = _r1_T == 4'h5; // @[Misc.scala:49:20] wire [1:0] _r1_T_36 = _r1_T_34 ? 2'h2 : _r1_T_33; // @[Misc.scala:35:36, :49:20] wire _r1_T_37 = _r1_T == 4'h0; // @[Misc.scala:49:20] wire [1:0] _r1_T_39 = _r1_T_37 ? 2'h0 : _r1_T_36; // @[Misc.scala:35:36, :49:20] wire _r1_T_40 = _r1_T == 4'hE; // @[Misc.scala:49:20] wire _r1_T_41 = _r1_T_40; // @[Misc.scala:35:9, :49:20] wire [1:0] _r1_T_42 = _r1_T_40 ? 2'h3 : _r1_T_39; // @[Misc.scala:35:36, :49:20] wire _r1_T_43 = &_r1_T; // @[Misc.scala:49:20] wire _r1_T_44 = _r1_T_43 | _r1_T_41; // @[Misc.scala:35:9, :49:20] wire [1:0] _r1_T_45 = _r1_T_43 ? 2'h3 : _r1_T_42; // @[Misc.scala:35:36, :49:20] wire _r1_T_46 = _r1_T == 4'h6; // @[Misc.scala:49:20] wire _r1_T_47 = _r1_T_46 | _r1_T_44; // @[Misc.scala:35:9, :49:20] wire [1:0] _r1_T_48 = _r1_T_46 ? 2'h2 : _r1_T_45; // @[Misc.scala:35:36, :49:20] wire _r1_T_49 = _r1_T == 4'h7; // @[Misc.scala:49:20] wire _r1_T_50 = _r1_T_49 | _r1_T_47; // @[Misc.scala:35:9, :49:20] wire [1:0] _r1_T_51 = _r1_T_49 ? 2'h3 : _r1_T_48; // @[Misc.scala:35:36, :49:20] wire _r1_T_52 = _r1_T == 4'h1; // @[Misc.scala:49:20] wire _r1_T_53 = _r1_T_52 | _r1_T_50; // @[Misc.scala:35:9, :49:20] wire [1:0] _r1_T_54 = _r1_T_52 ? 2'h1 : _r1_T_51; // @[Misc.scala:35:36, :49:20] wire _r1_T_55 = _r1_T == 4'h2; // @[Misc.scala:49:20] wire _r1_T_56 = _r1_T_55 | _r1_T_53; // @[Misc.scala:35:9, :49:20] wire [1:0] _r1_T_57 = _r1_T_55 ? 2'h2 : _r1_T_54; // @[Misc.scala:35:36, :49:20] wire _r1_T_58 = _r1_T == 4'h3; // @[Misc.scala:49:20] wire r1_1 = _r1_T_58 | _r1_T_56; // @[Misc.scala:35:9, :49:20] wire [1:0] r1_2 = _r1_T_58 ? 2'h3 : _r1_T_57; // @[Misc.scala:35:36, :49:20] wire _GEN_13 = io_req_uop_mem_cmd_0 == 5'h1; // @[Consts.scala:90:32] wire _r2_c_cat_T; // @[Consts.scala:90:32] assign _r2_c_cat_T = _GEN_13; // @[Consts.scala:90:32] wire _r2_c_cat_T_23; // @[Consts.scala:90:32] assign _r2_c_cat_T_23 = _GEN_13; // @[Consts.scala:90:32] wire _needs_second_acq_T; // @[Consts.scala:90:32] assign _needs_second_acq_T = _GEN_13; // @[Consts.scala:90:32] wire _dirties_cat_T; // @[Consts.scala:90:32] assign _dirties_cat_T = _GEN_13; // @[Consts.scala:90:32] wire _dirties_cat_T_23; // @[Consts.scala:90:32] assign _dirties_cat_T_23 = _GEN_13; // @[Consts.scala:90:32] wire _state_r_c_cat_T; // @[Consts.scala:90:32] assign _state_r_c_cat_T = _GEN_13; // @[Consts.scala:90:32] wire _state_r_c_cat_T_23; // @[Consts.scala:90:32] assign _state_r_c_cat_T_23 = _GEN_13; // @[Consts.scala:90:32] wire _state_T_3; // @[Consts.scala:90:32] assign _state_T_3 = _GEN_13; // @[Consts.scala:90:32] wire _r_c_cat_T_50; // @[Consts.scala:90:32] assign _r_c_cat_T_50 = _GEN_13; // @[Consts.scala:90:32] wire _r_c_cat_T_73; // @[Consts.scala:90:32] assign _r_c_cat_T_73 = _GEN_13; // @[Consts.scala:90:32] wire _state_r_c_cat_T_50; // @[Consts.scala:90:32] assign _state_r_c_cat_T_50 = _GEN_13; // @[Consts.scala:90:32] wire _state_r_c_cat_T_73; // @[Consts.scala:90:32] assign _state_r_c_cat_T_73 = _GEN_13; // @[Consts.scala:90:32] wire _state_T_37; // @[Consts.scala:90:32] assign _state_T_37 = _GEN_13; // @[Consts.scala:90:32] wire _GEN_14 = io_req_uop_mem_cmd_0 == 5'h11; // @[Consts.scala:90:49] wire _r2_c_cat_T_1; // @[Consts.scala:90:49] assign _r2_c_cat_T_1 = _GEN_14; // @[Consts.scala:90:49] wire _r2_c_cat_T_24; // @[Consts.scala:90:49] assign _r2_c_cat_T_24 = _GEN_14; // @[Consts.scala:90:49] wire _needs_second_acq_T_1; // @[Consts.scala:90:49] assign _needs_second_acq_T_1 = _GEN_14; // @[Consts.scala:90:49] wire _dirties_cat_T_1; // @[Consts.scala:90:49] assign _dirties_cat_T_1 = _GEN_14; // @[Consts.scala:90:49] wire _dirties_cat_T_24; // @[Consts.scala:90:49] assign _dirties_cat_T_24 = _GEN_14; // @[Consts.scala:90:49] wire _state_r_c_cat_T_1; // @[Consts.scala:90:49] assign _state_r_c_cat_T_1 = _GEN_14; // @[Consts.scala:90:49] wire _state_r_c_cat_T_24; // @[Consts.scala:90:49] assign _state_r_c_cat_T_24 = _GEN_14; // @[Consts.scala:90:49] wire _state_T_4; // @[Consts.scala:90:49] assign _state_T_4 = _GEN_14; // @[Consts.scala:90:49] wire _r_c_cat_T_51; // @[Consts.scala:90:49] assign _r_c_cat_T_51 = _GEN_14; // @[Consts.scala:90:49] wire _r_c_cat_T_74; // @[Consts.scala:90:49] assign _r_c_cat_T_74 = _GEN_14; // @[Consts.scala:90:49] wire _state_r_c_cat_T_51; // @[Consts.scala:90:49] assign _state_r_c_cat_T_51 = _GEN_14; // @[Consts.scala:90:49] wire _state_r_c_cat_T_74; // @[Consts.scala:90:49] assign _state_r_c_cat_T_74 = _GEN_14; // @[Consts.scala:90:49] wire _state_T_38; // @[Consts.scala:90:49] assign _state_T_38 = _GEN_14; // @[Consts.scala:90:49] wire _r2_c_cat_T_2 = _r2_c_cat_T | _r2_c_cat_T_1; // @[Consts.scala:90:{32,42,49}] wire _GEN_15 = io_req_uop_mem_cmd_0 == 5'h7; // @[Consts.scala:90:66] wire _r2_c_cat_T_3; // @[Consts.scala:90:66] assign _r2_c_cat_T_3 = _GEN_15; // @[Consts.scala:90:66] wire _r2_c_cat_T_26; // @[Consts.scala:90:66] assign _r2_c_cat_T_26 = _GEN_15; // @[Consts.scala:90:66] wire _needs_second_acq_T_3; // @[Consts.scala:90:66] assign _needs_second_acq_T_3 = _GEN_15; // @[Consts.scala:90:66] wire _dirties_cat_T_3; // @[Consts.scala:90:66] assign _dirties_cat_T_3 = _GEN_15; // @[Consts.scala:90:66] wire _dirties_cat_T_26; // @[Consts.scala:90:66] assign _dirties_cat_T_26 = _GEN_15; // @[Consts.scala:90:66] wire _state_r_c_cat_T_3; // @[Consts.scala:90:66] assign _state_r_c_cat_T_3 = _GEN_15; // @[Consts.scala:90:66] wire _state_r_c_cat_T_26; // @[Consts.scala:90:66] assign _state_r_c_cat_T_26 = _GEN_15; // @[Consts.scala:90:66] wire _state_T_6; // @[Consts.scala:90:66] assign _state_T_6 = _GEN_15; // @[Consts.scala:90:66] wire _r_c_cat_T_53; // @[Consts.scala:90:66] assign _r_c_cat_T_53 = _GEN_15; // @[Consts.scala:90:66] wire _r_c_cat_T_76; // @[Consts.scala:90:66] assign _r_c_cat_T_76 = _GEN_15; // @[Consts.scala:90:66] wire _state_r_c_cat_T_53; // @[Consts.scala:90:66] assign _state_r_c_cat_T_53 = _GEN_15; // @[Consts.scala:90:66] wire _state_r_c_cat_T_76; // @[Consts.scala:90:66] assign _state_r_c_cat_T_76 = _GEN_15; // @[Consts.scala:90:66] wire _state_T_40; // @[Consts.scala:90:66] assign _state_T_40 = _GEN_15; // @[Consts.scala:90:66] wire _r2_c_cat_T_4 = _r2_c_cat_T_2 | _r2_c_cat_T_3; // @[Consts.scala:90:{42,59,66}] wire _GEN_16 = io_req_uop_mem_cmd_0 == 5'h4; // @[package.scala:16:47] wire _r2_c_cat_T_5; // @[package.scala:16:47] assign _r2_c_cat_T_5 = _GEN_16; // @[package.scala:16:47] wire _r2_c_cat_T_28; // @[package.scala:16:47] assign _r2_c_cat_T_28 = _GEN_16; // @[package.scala:16:47] wire _needs_second_acq_T_5; // @[package.scala:16:47] assign _needs_second_acq_T_5 = _GEN_16; // @[package.scala:16:47] wire _dirties_cat_T_5; // @[package.scala:16:47] assign _dirties_cat_T_5 = _GEN_16; // @[package.scala:16:47] wire _dirties_cat_T_28; // @[package.scala:16:47] assign _dirties_cat_T_28 = _GEN_16; // @[package.scala:16:47] wire _state_r_c_cat_T_5; // @[package.scala:16:47] assign _state_r_c_cat_T_5 = _GEN_16; // @[package.scala:16:47] wire _state_r_c_cat_T_28; // @[package.scala:16:47] assign _state_r_c_cat_T_28 = _GEN_16; // @[package.scala:16:47] wire _state_T_8; // @[package.scala:16:47] assign _state_T_8 = _GEN_16; // @[package.scala:16:47] wire _r_c_cat_T_55; // @[package.scala:16:47] assign _r_c_cat_T_55 = _GEN_16; // @[package.scala:16:47] wire _r_c_cat_T_78; // @[package.scala:16:47] assign _r_c_cat_T_78 = _GEN_16; // @[package.scala:16:47] wire _state_r_c_cat_T_55; // @[package.scala:16:47] assign _state_r_c_cat_T_55 = _GEN_16; // @[package.scala:16:47] wire _state_r_c_cat_T_78; // @[package.scala:16:47] assign _state_r_c_cat_T_78 = _GEN_16; // @[package.scala:16:47] wire _state_T_42; // @[package.scala:16:47] assign _state_T_42 = _GEN_16; // @[package.scala:16:47] wire _GEN_17 = io_req_uop_mem_cmd_0 == 5'h9; // @[package.scala:16:47] wire _r2_c_cat_T_6; // @[package.scala:16:47] assign _r2_c_cat_T_6 = _GEN_17; // @[package.scala:16:47] wire _r2_c_cat_T_29; // @[package.scala:16:47] assign _r2_c_cat_T_29 = _GEN_17; // @[package.scala:16:47] wire _needs_second_acq_T_6; // @[package.scala:16:47] assign _needs_second_acq_T_6 = _GEN_17; // @[package.scala:16:47] wire _dirties_cat_T_6; // @[package.scala:16:47] assign _dirties_cat_T_6 = _GEN_17; // @[package.scala:16:47] wire _dirties_cat_T_29; // @[package.scala:16:47] assign _dirties_cat_T_29 = _GEN_17; // @[package.scala:16:47] wire _state_r_c_cat_T_6; // @[package.scala:16:47] assign _state_r_c_cat_T_6 = _GEN_17; // @[package.scala:16:47] wire _state_r_c_cat_T_29; // @[package.scala:16:47] assign _state_r_c_cat_T_29 = _GEN_17; // @[package.scala:16:47] wire _state_T_9; // @[package.scala:16:47] assign _state_T_9 = _GEN_17; // @[package.scala:16:47] wire _r_c_cat_T_56; // @[package.scala:16:47] assign _r_c_cat_T_56 = _GEN_17; // @[package.scala:16:47] wire _r_c_cat_T_79; // @[package.scala:16:47] assign _r_c_cat_T_79 = _GEN_17; // @[package.scala:16:47] wire _state_r_c_cat_T_56; // @[package.scala:16:47] assign _state_r_c_cat_T_56 = _GEN_17; // @[package.scala:16:47] wire _state_r_c_cat_T_79; // @[package.scala:16:47] assign _state_r_c_cat_T_79 = _GEN_17; // @[package.scala:16:47] wire _state_T_43; // @[package.scala:16:47] assign _state_T_43 = _GEN_17; // @[package.scala:16:47] wire _GEN_18 = io_req_uop_mem_cmd_0 == 5'hA; // @[package.scala:16:47] wire _r2_c_cat_T_7; // @[package.scala:16:47] assign _r2_c_cat_T_7 = _GEN_18; // @[package.scala:16:47] wire _r2_c_cat_T_30; // @[package.scala:16:47] assign _r2_c_cat_T_30 = _GEN_18; // @[package.scala:16:47] wire _needs_second_acq_T_7; // @[package.scala:16:47] assign _needs_second_acq_T_7 = _GEN_18; // @[package.scala:16:47] wire _dirties_cat_T_7; // @[package.scala:16:47] assign _dirties_cat_T_7 = _GEN_18; // @[package.scala:16:47] wire _dirties_cat_T_30; // @[package.scala:16:47] assign _dirties_cat_T_30 = _GEN_18; // @[package.scala:16:47] wire _state_r_c_cat_T_7; // @[package.scala:16:47] assign _state_r_c_cat_T_7 = _GEN_18; // @[package.scala:16:47] wire _state_r_c_cat_T_30; // @[package.scala:16:47] assign _state_r_c_cat_T_30 = _GEN_18; // @[package.scala:16:47] wire _state_T_10; // @[package.scala:16:47] assign _state_T_10 = _GEN_18; // @[package.scala:16:47] wire _r_c_cat_T_57; // @[package.scala:16:47] assign _r_c_cat_T_57 = _GEN_18; // @[package.scala:16:47] wire _r_c_cat_T_80; // @[package.scala:16:47] assign _r_c_cat_T_80 = _GEN_18; // @[package.scala:16:47] wire _state_r_c_cat_T_57; // @[package.scala:16:47] assign _state_r_c_cat_T_57 = _GEN_18; // @[package.scala:16:47] wire _state_r_c_cat_T_80; // @[package.scala:16:47] assign _state_r_c_cat_T_80 = _GEN_18; // @[package.scala:16:47] wire _state_T_44; // @[package.scala:16:47] assign _state_T_44 = _GEN_18; // @[package.scala:16:47] wire _GEN_19 = io_req_uop_mem_cmd_0 == 5'hB; // @[package.scala:16:47] wire _r2_c_cat_T_8; // @[package.scala:16:47] assign _r2_c_cat_T_8 = _GEN_19; // @[package.scala:16:47] wire _r2_c_cat_T_31; // @[package.scala:16:47] assign _r2_c_cat_T_31 = _GEN_19; // @[package.scala:16:47] wire _needs_second_acq_T_8; // @[package.scala:16:47] assign _needs_second_acq_T_8 = _GEN_19; // @[package.scala:16:47] wire _dirties_cat_T_8; // @[package.scala:16:47] assign _dirties_cat_T_8 = _GEN_19; // @[package.scala:16:47] wire _dirties_cat_T_31; // @[package.scala:16:47] assign _dirties_cat_T_31 = _GEN_19; // @[package.scala:16:47] wire _state_r_c_cat_T_8; // @[package.scala:16:47] assign _state_r_c_cat_T_8 = _GEN_19; // @[package.scala:16:47] wire _state_r_c_cat_T_31; // @[package.scala:16:47] assign _state_r_c_cat_T_31 = _GEN_19; // @[package.scala:16:47] wire _state_T_11; // @[package.scala:16:47] assign _state_T_11 = _GEN_19; // @[package.scala:16:47] wire _r_c_cat_T_58; // @[package.scala:16:47] assign _r_c_cat_T_58 = _GEN_19; // @[package.scala:16:47] wire _r_c_cat_T_81; // @[package.scala:16:47] assign _r_c_cat_T_81 = _GEN_19; // @[package.scala:16:47] wire _state_r_c_cat_T_58; // @[package.scala:16:47] assign _state_r_c_cat_T_58 = _GEN_19; // @[package.scala:16:47] wire _state_r_c_cat_T_81; // @[package.scala:16:47] assign _state_r_c_cat_T_81 = _GEN_19; // @[package.scala:16:47] wire _state_T_45; // @[package.scala:16:47] assign _state_T_45 = _GEN_19; // @[package.scala:16:47] wire _r2_c_cat_T_9 = _r2_c_cat_T_5 | _r2_c_cat_T_6; // @[package.scala:16:47, :81:59] wire _r2_c_cat_T_10 = _r2_c_cat_T_9 | _r2_c_cat_T_7; // @[package.scala:16:47, :81:59] wire _r2_c_cat_T_11 = _r2_c_cat_T_10 | _r2_c_cat_T_8; // @[package.scala:16:47, :81:59] wire _GEN_20 = io_req_uop_mem_cmd_0 == 5'h8; // @[package.scala:16:47] wire _r2_c_cat_T_12; // @[package.scala:16:47] assign _r2_c_cat_T_12 = _GEN_20; // @[package.scala:16:47] wire _r2_c_cat_T_35; // @[package.scala:16:47] assign _r2_c_cat_T_35 = _GEN_20; // @[package.scala:16:47] wire _needs_second_acq_T_12; // @[package.scala:16:47] assign _needs_second_acq_T_12 = _GEN_20; // @[package.scala:16:47] wire _dirties_cat_T_12; // @[package.scala:16:47] assign _dirties_cat_T_12 = _GEN_20; // @[package.scala:16:47] wire _dirties_cat_T_35; // @[package.scala:16:47] assign _dirties_cat_T_35 = _GEN_20; // @[package.scala:16:47] wire _state_r_c_cat_T_12; // @[package.scala:16:47] assign _state_r_c_cat_T_12 = _GEN_20; // @[package.scala:16:47] wire _state_r_c_cat_T_35; // @[package.scala:16:47] assign _state_r_c_cat_T_35 = _GEN_20; // @[package.scala:16:47] wire _state_T_15; // @[package.scala:16:47] assign _state_T_15 = _GEN_20; // @[package.scala:16:47] wire _r_c_cat_T_62; // @[package.scala:16:47] assign _r_c_cat_T_62 = _GEN_20; // @[package.scala:16:47] wire _r_c_cat_T_85; // @[package.scala:16:47] assign _r_c_cat_T_85 = _GEN_20; // @[package.scala:16:47] wire _state_r_c_cat_T_62; // @[package.scala:16:47] assign _state_r_c_cat_T_62 = _GEN_20; // @[package.scala:16:47] wire _state_r_c_cat_T_85; // @[package.scala:16:47] assign _state_r_c_cat_T_85 = _GEN_20; // @[package.scala:16:47] wire _state_T_49; // @[package.scala:16:47] assign _state_T_49 = _GEN_20; // @[package.scala:16:47] wire _GEN_21 = io_req_uop_mem_cmd_0 == 5'hC; // @[package.scala:16:47] wire _r2_c_cat_T_13; // @[package.scala:16:47] assign _r2_c_cat_T_13 = _GEN_21; // @[package.scala:16:47] wire _r2_c_cat_T_36; // @[package.scala:16:47] assign _r2_c_cat_T_36 = _GEN_21; // @[package.scala:16:47] wire _needs_second_acq_T_13; // @[package.scala:16:47] assign _needs_second_acq_T_13 = _GEN_21; // @[package.scala:16:47] wire _dirties_cat_T_13; // @[package.scala:16:47] assign _dirties_cat_T_13 = _GEN_21; // @[package.scala:16:47] wire _dirties_cat_T_36; // @[package.scala:16:47] assign _dirties_cat_T_36 = _GEN_21; // @[package.scala:16:47] wire _state_r_c_cat_T_13; // @[package.scala:16:47] assign _state_r_c_cat_T_13 = _GEN_21; // @[package.scala:16:47] wire _state_r_c_cat_T_36; // @[package.scala:16:47] assign _state_r_c_cat_T_36 = _GEN_21; // @[package.scala:16:47] wire _state_T_16; // @[package.scala:16:47] assign _state_T_16 = _GEN_21; // @[package.scala:16:47] wire _r_c_cat_T_63; // @[package.scala:16:47] assign _r_c_cat_T_63 = _GEN_21; // @[package.scala:16:47] wire _r_c_cat_T_86; // @[package.scala:16:47] assign _r_c_cat_T_86 = _GEN_21; // @[package.scala:16:47] wire _state_r_c_cat_T_63; // @[package.scala:16:47] assign _state_r_c_cat_T_63 = _GEN_21; // @[package.scala:16:47] wire _state_r_c_cat_T_86; // @[package.scala:16:47] assign _state_r_c_cat_T_86 = _GEN_21; // @[package.scala:16:47] wire _state_T_50; // @[package.scala:16:47] assign _state_T_50 = _GEN_21; // @[package.scala:16:47] wire _GEN_22 = io_req_uop_mem_cmd_0 == 5'hD; // @[package.scala:16:47] wire _r2_c_cat_T_14; // @[package.scala:16:47] assign _r2_c_cat_T_14 = _GEN_22; // @[package.scala:16:47] wire _r2_c_cat_T_37; // @[package.scala:16:47] assign _r2_c_cat_T_37 = _GEN_22; // @[package.scala:16:47] wire _needs_second_acq_T_14; // @[package.scala:16:47] assign _needs_second_acq_T_14 = _GEN_22; // @[package.scala:16:47] wire _dirties_cat_T_14; // @[package.scala:16:47] assign _dirties_cat_T_14 = _GEN_22; // @[package.scala:16:47] wire _dirties_cat_T_37; // @[package.scala:16:47] assign _dirties_cat_T_37 = _GEN_22; // @[package.scala:16:47] wire _state_r_c_cat_T_14; // @[package.scala:16:47] assign _state_r_c_cat_T_14 = _GEN_22; // @[package.scala:16:47] wire _state_r_c_cat_T_37; // @[package.scala:16:47] assign _state_r_c_cat_T_37 = _GEN_22; // @[package.scala:16:47] wire _state_T_17; // @[package.scala:16:47] assign _state_T_17 = _GEN_22; // @[package.scala:16:47] wire _r_c_cat_T_64; // @[package.scala:16:47] assign _r_c_cat_T_64 = _GEN_22; // @[package.scala:16:47] wire _r_c_cat_T_87; // @[package.scala:16:47] assign _r_c_cat_T_87 = _GEN_22; // @[package.scala:16:47] wire _state_r_c_cat_T_64; // @[package.scala:16:47] assign _state_r_c_cat_T_64 = _GEN_22; // @[package.scala:16:47] wire _state_r_c_cat_T_87; // @[package.scala:16:47] assign _state_r_c_cat_T_87 = _GEN_22; // @[package.scala:16:47] wire _state_T_51; // @[package.scala:16:47] assign _state_T_51 = _GEN_22; // @[package.scala:16:47] wire _GEN_23 = io_req_uop_mem_cmd_0 == 5'hE; // @[package.scala:16:47] wire _r2_c_cat_T_15; // @[package.scala:16:47] assign _r2_c_cat_T_15 = _GEN_23; // @[package.scala:16:47] wire _r2_c_cat_T_38; // @[package.scala:16:47] assign _r2_c_cat_T_38 = _GEN_23; // @[package.scala:16:47] wire _needs_second_acq_T_15; // @[package.scala:16:47] assign _needs_second_acq_T_15 = _GEN_23; // @[package.scala:16:47] wire _dirties_cat_T_15; // @[package.scala:16:47] assign _dirties_cat_T_15 = _GEN_23; // @[package.scala:16:47] wire _dirties_cat_T_38; // @[package.scala:16:47] assign _dirties_cat_T_38 = _GEN_23; // @[package.scala:16:47] wire _state_r_c_cat_T_15; // @[package.scala:16:47] assign _state_r_c_cat_T_15 = _GEN_23; // @[package.scala:16:47] wire _state_r_c_cat_T_38; // @[package.scala:16:47] assign _state_r_c_cat_T_38 = _GEN_23; // @[package.scala:16:47] wire _state_T_18; // @[package.scala:16:47] assign _state_T_18 = _GEN_23; // @[package.scala:16:47] wire _r_c_cat_T_65; // @[package.scala:16:47] assign _r_c_cat_T_65 = _GEN_23; // @[package.scala:16:47] wire _r_c_cat_T_88; // @[package.scala:16:47] assign _r_c_cat_T_88 = _GEN_23; // @[package.scala:16:47] wire _state_r_c_cat_T_65; // @[package.scala:16:47] assign _state_r_c_cat_T_65 = _GEN_23; // @[package.scala:16:47] wire _state_r_c_cat_T_88; // @[package.scala:16:47] assign _state_r_c_cat_T_88 = _GEN_23; // @[package.scala:16:47] wire _state_T_52; // @[package.scala:16:47] assign _state_T_52 = _GEN_23; // @[package.scala:16:47] wire _GEN_24 = io_req_uop_mem_cmd_0 == 5'hF; // @[package.scala:16:47] wire _r2_c_cat_T_16; // @[package.scala:16:47] assign _r2_c_cat_T_16 = _GEN_24; // @[package.scala:16:47] wire _r2_c_cat_T_39; // @[package.scala:16:47] assign _r2_c_cat_T_39 = _GEN_24; // @[package.scala:16:47] wire _needs_second_acq_T_16; // @[package.scala:16:47] assign _needs_second_acq_T_16 = _GEN_24; // @[package.scala:16:47] wire _dirties_cat_T_16; // @[package.scala:16:47] assign _dirties_cat_T_16 = _GEN_24; // @[package.scala:16:47] wire _dirties_cat_T_39; // @[package.scala:16:47] assign _dirties_cat_T_39 = _GEN_24; // @[package.scala:16:47] wire _state_r_c_cat_T_16; // @[package.scala:16:47] assign _state_r_c_cat_T_16 = _GEN_24; // @[package.scala:16:47] wire _state_r_c_cat_T_39; // @[package.scala:16:47] assign _state_r_c_cat_T_39 = _GEN_24; // @[package.scala:16:47] wire _state_T_19; // @[package.scala:16:47] assign _state_T_19 = _GEN_24; // @[package.scala:16:47] wire _r_c_cat_T_66; // @[package.scala:16:47] assign _r_c_cat_T_66 = _GEN_24; // @[package.scala:16:47] wire _r_c_cat_T_89; // @[package.scala:16:47] assign _r_c_cat_T_89 = _GEN_24; // @[package.scala:16:47] wire _state_r_c_cat_T_66; // @[package.scala:16:47] assign _state_r_c_cat_T_66 = _GEN_24; // @[package.scala:16:47] wire _state_r_c_cat_T_89; // @[package.scala:16:47] assign _state_r_c_cat_T_89 = _GEN_24; // @[package.scala:16:47] wire _state_T_53; // @[package.scala:16:47] assign _state_T_53 = _GEN_24; // @[package.scala:16:47] wire _r2_c_cat_T_17 = _r2_c_cat_T_12 | _r2_c_cat_T_13; // @[package.scala:16:47, :81:59] wire _r2_c_cat_T_18 = _r2_c_cat_T_17 | _r2_c_cat_T_14; // @[package.scala:16:47, :81:59] wire _r2_c_cat_T_19 = _r2_c_cat_T_18 | _r2_c_cat_T_15; // @[package.scala:16:47, :81:59] wire _r2_c_cat_T_20 = _r2_c_cat_T_19 | _r2_c_cat_T_16; // @[package.scala:16:47, :81:59] wire _r2_c_cat_T_21 = _r2_c_cat_T_11 | _r2_c_cat_T_20; // @[package.scala:81:59] wire _r2_c_cat_T_22 = _r2_c_cat_T_4 | _r2_c_cat_T_21; // @[Consts.scala:87:44, :90:{59,76}] wire _r2_c_cat_T_25 = _r2_c_cat_T_23 | _r2_c_cat_T_24; // @[Consts.scala:90:{32,42,49}] wire _r2_c_cat_T_27 = _r2_c_cat_T_25 | _r2_c_cat_T_26; // @[Consts.scala:90:{42,59,66}] wire _r2_c_cat_T_32 = _r2_c_cat_T_28 | _r2_c_cat_T_29; // @[package.scala:16:47, :81:59] wire _r2_c_cat_T_33 = _r2_c_cat_T_32 | _r2_c_cat_T_30; // @[package.scala:16:47, :81:59] wire _r2_c_cat_T_34 = _r2_c_cat_T_33 | _r2_c_cat_T_31; // @[package.scala:16:47, :81:59] wire _r2_c_cat_T_40 = _r2_c_cat_T_35 | _r2_c_cat_T_36; // @[package.scala:16:47, :81:59] wire _r2_c_cat_T_41 = _r2_c_cat_T_40 | _r2_c_cat_T_37; // @[package.scala:16:47, :81:59] wire _r2_c_cat_T_42 = _r2_c_cat_T_41 | _r2_c_cat_T_38; // @[package.scala:16:47, :81:59] wire _r2_c_cat_T_43 = _r2_c_cat_T_42 | _r2_c_cat_T_39; // @[package.scala:16:47, :81:59] wire _r2_c_cat_T_44 = _r2_c_cat_T_34 | _r2_c_cat_T_43; // @[package.scala:81:59] wire _r2_c_cat_T_45 = _r2_c_cat_T_27 | _r2_c_cat_T_44; // @[Consts.scala:87:44, :90:{59,76}] wire _GEN_25 = io_req_uop_mem_cmd_0 == 5'h3; // @[Consts.scala:91:54] wire _r2_c_cat_T_46; // @[Consts.scala:91:54] assign _r2_c_cat_T_46 = _GEN_25; // @[Consts.scala:91:54] wire _needs_second_acq_T_23; // @[Consts.scala:91:54] assign _needs_second_acq_T_23 = _GEN_25; // @[Consts.scala:91:54] wire _dirties_cat_T_46; // @[Consts.scala:91:54] assign _dirties_cat_T_46 = _GEN_25; // @[Consts.scala:91:54] wire _rpq_io_enq_valid_T_4; // @[Consts.scala:88:52] assign _rpq_io_enq_valid_T_4 = _GEN_25; // @[Consts.scala:88:52, :91:54] wire _state_r_c_cat_T_46; // @[Consts.scala:91:54] assign _state_r_c_cat_T_46 = _GEN_25; // @[Consts.scala:91:54] wire _r_c_cat_T_96; // @[Consts.scala:91:54] assign _r_c_cat_T_96 = _GEN_25; // @[Consts.scala:91:54] wire _state_r_c_cat_T_96; // @[Consts.scala:91:54] assign _state_r_c_cat_T_96 = _GEN_25; // @[Consts.scala:91:54] wire _r2_c_cat_T_47 = _r2_c_cat_T_45 | _r2_c_cat_T_46; // @[Consts.scala:90:76, :91:{47,54}] wire _GEN_26 = io_req_uop_mem_cmd_0 == 5'h6; // @[Consts.scala:91:71] wire _r2_c_cat_T_48; // @[Consts.scala:91:71] assign _r2_c_cat_T_48 = _GEN_26; // @[Consts.scala:91:71] wire _needs_second_acq_T_25; // @[Consts.scala:91:71] assign _needs_second_acq_T_25 = _GEN_26; // @[Consts.scala:91:71] wire _dirties_cat_T_48; // @[Consts.scala:91:71] assign _dirties_cat_T_48 = _GEN_26; // @[Consts.scala:91:71] wire _state_r_c_cat_T_48; // @[Consts.scala:91:71] assign _state_r_c_cat_T_48 = _GEN_26; // @[Consts.scala:91:71] wire _r_c_cat_T_98; // @[Consts.scala:91:71] assign _r_c_cat_T_98 = _GEN_26; // @[Consts.scala:91:71] wire _state_r_c_cat_T_98; // @[Consts.scala:91:71] assign _state_r_c_cat_T_98 = _GEN_26; // @[Consts.scala:91:71] wire _r2_c_cat_T_49 = _r2_c_cat_T_47 | _r2_c_cat_T_48; // @[Consts.scala:91:{47,64,71}] wire [1:0] r2_c = {_r2_c_cat_T_22, _r2_c_cat_T_49}; // @[Metadata.scala:29:18] wire [3:0] _r2_T = {r2_c, new_coh_state}; // @[Metadata.scala:29:18, :58:19] wire _r2_T_25 = _r2_T == 4'hC; // @[Misc.scala:49:20] wire [1:0] _r2_T_27 = {1'h0, _r2_T_25}; // @[Misc.scala:35:36, :49:20] wire _r2_T_28 = _r2_T == 4'hD; // @[Misc.scala:49:20] wire [1:0] _r2_T_30 = _r2_T_28 ? 2'h2 : _r2_T_27; // @[Misc.scala:35:36, :49:20] wire _r2_T_31 = _r2_T == 4'h4; // @[Misc.scala:49:20] wire [1:0] _r2_T_33 = _r2_T_31 ? 2'h1 : _r2_T_30; // @[Misc.scala:35:36, :49:20] wire _r2_T_34 = _r2_T == 4'h5; // @[Misc.scala:49:20] wire [1:0] _r2_T_36 = _r2_T_34 ? 2'h2 : _r2_T_33; // @[Misc.scala:35:36, :49:20] wire _r2_T_37 = _r2_T == 4'h0; // @[Misc.scala:49:20] wire [1:0] _r2_T_39 = _r2_T_37 ? 2'h0 : _r2_T_36; // @[Misc.scala:35:36, :49:20] wire _r2_T_40 = _r2_T == 4'hE; // @[Misc.scala:49:20] wire _r2_T_41 = _r2_T_40; // @[Misc.scala:35:9, :49:20] wire [1:0] _r2_T_42 = _r2_T_40 ? 2'h3 : _r2_T_39; // @[Misc.scala:35:36, :49:20] wire _r2_T_43 = &_r2_T; // @[Misc.scala:49:20] wire _r2_T_44 = _r2_T_43 | _r2_T_41; // @[Misc.scala:35:9, :49:20] wire [1:0] _r2_T_45 = _r2_T_43 ? 2'h3 : _r2_T_42; // @[Misc.scala:35:36, :49:20] wire _r2_T_46 = _r2_T == 4'h6; // @[Misc.scala:49:20] wire _r2_T_47 = _r2_T_46 | _r2_T_44; // @[Misc.scala:35:9, :49:20] wire [1:0] _r2_T_48 = _r2_T_46 ? 2'h2 : _r2_T_45; // @[Misc.scala:35:36, :49:20] wire _r2_T_49 = _r2_T == 4'h7; // @[Misc.scala:49:20] wire _r2_T_50 = _r2_T_49 | _r2_T_47; // @[Misc.scala:35:9, :49:20] wire [1:0] _r2_T_51 = _r2_T_49 ? 2'h3 : _r2_T_48; // @[Misc.scala:35:36, :49:20] wire _r2_T_52 = _r2_T == 4'h1; // @[Misc.scala:49:20] wire _r2_T_53 = _r2_T_52 | _r2_T_50; // @[Misc.scala:35:9, :49:20] wire [1:0] _r2_T_54 = _r2_T_52 ? 2'h1 : _r2_T_51; // @[Misc.scala:35:36, :49:20] wire _r2_T_55 = _r2_T == 4'h2; // @[Misc.scala:49:20] wire _r2_T_56 = _r2_T_55 | _r2_T_53; // @[Misc.scala:35:9, :49:20] wire [1:0] _r2_T_57 = _r2_T_55 ? 2'h2 : _r2_T_54; // @[Misc.scala:35:36, :49:20] wire _r2_T_58 = _r2_T == 4'h3; // @[Misc.scala:49:20] wire r2_1 = _r2_T_58 | _r2_T_56; // @[Misc.scala:35:9, :49:20] wire [1:0] r2_2 = _r2_T_58 ? 2'h3 : _r2_T_57; // @[Misc.scala:35:36, :49:20] wire _needs_second_acq_T_2 = _needs_second_acq_T | _needs_second_acq_T_1; // @[Consts.scala:90:{32,42,49}] wire _needs_second_acq_T_4 = _needs_second_acq_T_2 | _needs_second_acq_T_3; // @[Consts.scala:90:{42,59,66}] wire _needs_second_acq_T_9 = _needs_second_acq_T_5 | _needs_second_acq_T_6; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_10 = _needs_second_acq_T_9 | _needs_second_acq_T_7; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_11 = _needs_second_acq_T_10 | _needs_second_acq_T_8; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_17 = _needs_second_acq_T_12 | _needs_second_acq_T_13; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_18 = _needs_second_acq_T_17 | _needs_second_acq_T_14; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_19 = _needs_second_acq_T_18 | _needs_second_acq_T_15; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_20 = _needs_second_acq_T_19 | _needs_second_acq_T_16; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_21 = _needs_second_acq_T_11 | _needs_second_acq_T_20; // @[package.scala:81:59] wire _needs_second_acq_T_22 = _needs_second_acq_T_4 | _needs_second_acq_T_21; // @[Consts.scala:87:44, :90:{59,76}] wire _needs_second_acq_T_24 = _needs_second_acq_T_22 | _needs_second_acq_T_23; // @[Consts.scala:90:76, :91:{47,54}] wire _needs_second_acq_T_26 = _needs_second_acq_T_24 | _needs_second_acq_T_25; // @[Consts.scala:91:{47,64,71}] wire _needs_second_acq_T_29 = _needs_second_acq_T_27 | _needs_second_acq_T_28; // @[Consts.scala:90:{32,42,49}] wire _needs_second_acq_T_31 = _needs_second_acq_T_29 | _needs_second_acq_T_30; // @[Consts.scala:90:{42,59,66}] wire _needs_second_acq_T_36 = _needs_second_acq_T_32 | _needs_second_acq_T_33; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_37 = _needs_second_acq_T_36 | _needs_second_acq_T_34; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_38 = _needs_second_acq_T_37 | _needs_second_acq_T_35; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_44 = _needs_second_acq_T_39 | _needs_second_acq_T_40; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_45 = _needs_second_acq_T_44 | _needs_second_acq_T_41; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_46 = _needs_second_acq_T_45 | _needs_second_acq_T_42; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_47 = _needs_second_acq_T_46 | _needs_second_acq_T_43; // @[package.scala:16:47, :81:59] wire _needs_second_acq_T_48 = _needs_second_acq_T_38 | _needs_second_acq_T_47; // @[package.scala:81:59] wire _needs_second_acq_T_49 = _needs_second_acq_T_31 | _needs_second_acq_T_48; // @[Consts.scala:87:44, :90:{59,76}] wire _needs_second_acq_T_51 = _needs_second_acq_T_49 | _needs_second_acq_T_50; // @[Consts.scala:90:76, :91:{47,54}] wire _needs_second_acq_T_53 = _needs_second_acq_T_51 | _needs_second_acq_T_52; // @[Consts.scala:91:{47,64,71}] wire _needs_second_acq_T_54 = ~_needs_second_acq_T_53; // @[Metadata.scala:104:57] wire cmd_requires_second_acquire = _needs_second_acq_T_26 & _needs_second_acq_T_54; // @[Metadata.scala:104:{54,57}] wire is_hit_again = r1_1 & r2_1; // @[Misc.scala:35:9] wire _dirties_cat_T_2 = _dirties_cat_T | _dirties_cat_T_1; // @[Consts.scala:90:{32,42,49}] wire _dirties_cat_T_4 = _dirties_cat_T_2 | _dirties_cat_T_3; // @[Consts.scala:90:{42,59,66}] wire _dirties_cat_T_9 = _dirties_cat_T_5 | _dirties_cat_T_6; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_10 = _dirties_cat_T_9 | _dirties_cat_T_7; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_11 = _dirties_cat_T_10 | _dirties_cat_T_8; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_17 = _dirties_cat_T_12 | _dirties_cat_T_13; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_18 = _dirties_cat_T_17 | _dirties_cat_T_14; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_19 = _dirties_cat_T_18 | _dirties_cat_T_15; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_20 = _dirties_cat_T_19 | _dirties_cat_T_16; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_21 = _dirties_cat_T_11 | _dirties_cat_T_20; // @[package.scala:81:59] wire _dirties_cat_T_22 = _dirties_cat_T_4 | _dirties_cat_T_21; // @[Consts.scala:87:44, :90:{59,76}] wire _dirties_cat_T_25 = _dirties_cat_T_23 | _dirties_cat_T_24; // @[Consts.scala:90:{32,42,49}] wire _dirties_cat_T_27 = _dirties_cat_T_25 | _dirties_cat_T_26; // @[Consts.scala:90:{42,59,66}] wire _dirties_cat_T_32 = _dirties_cat_T_28 | _dirties_cat_T_29; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_33 = _dirties_cat_T_32 | _dirties_cat_T_30; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_34 = _dirties_cat_T_33 | _dirties_cat_T_31; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_40 = _dirties_cat_T_35 | _dirties_cat_T_36; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_41 = _dirties_cat_T_40 | _dirties_cat_T_37; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_42 = _dirties_cat_T_41 | _dirties_cat_T_38; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_43 = _dirties_cat_T_42 | _dirties_cat_T_39; // @[package.scala:16:47, :81:59] wire _dirties_cat_T_44 = _dirties_cat_T_34 | _dirties_cat_T_43; // @[package.scala:81:59] wire _dirties_cat_T_45 = _dirties_cat_T_27 | _dirties_cat_T_44; // @[Consts.scala:87:44, :90:{59,76}] wire _dirties_cat_T_47 = _dirties_cat_T_45 | _dirties_cat_T_46; // @[Consts.scala:90:76, :91:{47,54}] wire _dirties_cat_T_49 = _dirties_cat_T_47 | _dirties_cat_T_48; // @[Consts.scala:91:{47,64,71}] wire [1:0] dirties_cat = {_dirties_cat_T_22, _dirties_cat_T_49}; // @[Metadata.scala:29:18] wire dirties = &dirties_cat; // @[Metadata.scala:29:18, :106:42] wire [1:0] biggest_grow_param = dirties ? r2_2 : r1_2; // @[Misc.scala:35:36] wire [1:0] dirtier_coh_state = biggest_grow_param; // @[Metadata.scala:107:33, :160:20] wire [4:0] dirtier_cmd = dirties ? io_req_uop_mem_cmd_0 : req_uop_mem_cmd; // @[Metadata.scala:106:42, :109:27] wire _T_16 = io_mem_grant_ready_0 & io_mem_grant_valid_0; // @[Decoupled.scala:51:35] wire [26:0] _r_beats1_decode_T = 27'hFFF << io_mem_grant_bits_size_0; // @[package.scala:243:71] wire [11:0] _r_beats1_decode_T_1 = _r_beats1_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _r_beats1_decode_T_2 = ~_r_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [7:0] r_beats1_decode = _r_beats1_decode_T_2[11:4]; // @[package.scala:243:46] wire r_beats1_opdata = io_mem_grant_bits_opcode_0[0]; // @[Edges.scala:106:36] wire opdata = io_mem_grant_bits_opcode_0[0]; // @[Edges.scala:106:36] wire grant_had_data_opdata = io_mem_grant_bits_opcode_0[0]; // @[Edges.scala:106:36] wire [7:0] r_beats1 = r_beats1_opdata ? r_beats1_decode : 8'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [7:0] r_counter; // @[Edges.scala:229:27] wire [8:0] _r_counter1_T = {1'h0, r_counter} - 9'h1; // @[Edges.scala:229:27, :230:28] wire [7:0] r_counter1 = _r_counter1_T[7:0]; // @[Edges.scala:230:28] wire r_1_1 = r_counter == 8'h0; // @[Edges.scala:229:27, :231:25] wire _r_last_T = r_counter == 8'h1; // @[Edges.scala:229:27, :232:25] wire _r_last_T_1 = r_beats1 == 8'h0; // @[Edges.scala:221:14, :232:43] wire r_2 = _r_last_T | _r_last_T_1; // @[Edges.scala:232:{25,33,43}] wire refill_done = r_2 & _T_16; // @[Decoupled.scala:51:35] wire [7:0] _r_count_T = ~r_counter1; // @[Edges.scala:230:28, :234:27] wire [7:0] r_4 = r_beats1 & _r_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [7:0] _r_counter_T = r_1_1 ? r_beats1 : r_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [11:0] refill_address_inc = {r_4, 4'h0}; // @[Edges.scala:234:25, :269:29] wire _sec_rdy_T = ~cmd_requires_second_acquire; // @[Metadata.scala:104:54] wire _sec_rdy_T_1 = ~io_req_is_probe_0; // @[mshrs.scala:36:7, :125:50] wire _sec_rdy_T_2 = _sec_rdy_T & _sec_rdy_T_1; // @[mshrs.scala:125:{18,47,50}] wire _sec_rdy_T_3 = ~(|state); // @[package.scala:16:47] wire _sec_rdy_T_4 = state == 5'hD; // @[package.scala:16:47] wire _sec_rdy_T_5 = state == 5'hE; // @[package.scala:16:47] wire _sec_rdy_T_6 = state == 5'hF; // @[package.scala:16:47] wire _sec_rdy_T_7 = _sec_rdy_T_3 | _sec_rdy_T_4; // @[package.scala:16:47, :81:59] wire _sec_rdy_T_8 = _sec_rdy_T_7 | _sec_rdy_T_5; // @[package.scala:16:47, :81:59] wire _sec_rdy_T_9 = _sec_rdy_T_8 | _sec_rdy_T_6; // @[package.scala:16:47, :81:59] wire _sec_rdy_T_10 = ~_sec_rdy_T_9; // @[package.scala:81:59] wire sec_rdy = _sec_rdy_T_2 & _sec_rdy_T_10; // @[mshrs.scala:125:{47,67}, :126:18] wire _rpq_io_enq_valid_T = io_req_pri_val_0 & io_req_pri_rdy_0; // @[mshrs.scala:36:7, :133:40] wire _rpq_io_enq_valid_T_1 = io_req_sec_val_0 & io_req_sec_rdy_0; // @[mshrs.scala:36:7, :133:78] wire _rpq_io_enq_valid_T_2 = _rpq_io_enq_valid_T | _rpq_io_enq_valid_T_1; // @[mshrs.scala:133:{40,59,78}] wire _rpq_io_enq_valid_T_3 = io_req_uop_mem_cmd_0 == 5'h2; // @[Consts.scala:88:35] wire _rpq_io_enq_valid_T_5 = _rpq_io_enq_valid_T_3 | _rpq_io_enq_valid_T_4; // @[Consts.scala:88:{35,45,52}] wire _rpq_io_enq_valid_T_6 = ~_rpq_io_enq_valid_T_5; // @[Consts.scala:88:45] wire _rpq_io_enq_valid_T_7 = _rpq_io_enq_valid_T_2 & _rpq_io_enq_valid_T_6; // @[mshrs.scala:133:{59,98,101}] reg grantack_valid; // @[mshrs.scala:138:21] reg [3:0] grantack_bits_sink; // @[mshrs.scala:138:21] assign io_mem_finish_bits_sink_0 = grantack_bits_sink; // @[mshrs.scala:36:7, :138:21] reg [1:0] refill_ctr; // @[mshrs.scala:139:24] reg commit_line; // @[mshrs.scala:140:24] reg grant_had_data; // @[mshrs.scala:141:27] reg finish_to_prefetch; // @[mshrs.scala:142:31] reg [1:0] meta_hazard; // @[mshrs.scala:145:28] wire [2:0] _meta_hazard_T = {1'h0, meta_hazard} + 3'h1; // @[mshrs.scala:145:28, :146:59] wire [1:0] _meta_hazard_T_1 = _meta_hazard_T[1:0]; // @[mshrs.scala:146:59] wire _io_probe_rdy_T = meta_hazard == 2'h0; // @[mshrs.scala:145:28, :148:34] wire _io_probe_rdy_T_1 = ~(|state); // @[package.scala:16:47] wire _io_probe_rdy_T_2 = state == 5'h1; // @[package.scala:16:47] wire _io_probe_rdy_T_3 = state == 5'h2; // @[package.scala:16:47] wire _io_probe_rdy_T_4 = state == 5'h3; // @[package.scala:16:47] wire _io_probe_rdy_T_5 = _io_probe_rdy_T_1 | _io_probe_rdy_T_2; // @[package.scala:16:47, :81:59] wire _io_probe_rdy_T_6 = _io_probe_rdy_T_5 | _io_probe_rdy_T_3; // @[package.scala:16:47, :81:59] wire _io_probe_rdy_T_7 = _io_probe_rdy_T_6 | _io_probe_rdy_T_4; // @[package.scala:16:47, :81:59] wire _io_probe_rdy_T_8 = state == 5'h4; // @[mshrs.scala:107:22, :148:129] wire _io_probe_rdy_T_9 = _io_probe_rdy_T_8 & grantack_valid; // @[mshrs.scala:138:21, :148:{129,145}] wire _io_probe_rdy_T_10 = _io_probe_rdy_T_7 | _io_probe_rdy_T_9; // @[package.scala:81:59] assign _io_probe_rdy_T_11 = _io_probe_rdy_T & _io_probe_rdy_T_10; // @[mshrs.scala:148:{34,42,119}] assign io_probe_rdy_0 = _io_probe_rdy_T_11; // @[mshrs.scala:36:7, :148:42] assign _io_idx_valid_T = |state; // @[package.scala:16:47] assign io_idx_valid_0 = _io_idx_valid_T; // @[mshrs.scala:36:7, :149:25] assign _io_tag_valid_T = |state; // @[package.scala:16:47] assign io_tag_valid_0 = _io_tag_valid_T; // @[mshrs.scala:36:7, :150:25] wire _io_way_valid_T = ~(|state); // @[package.scala:16:47] wire _io_way_valid_T_1 = state == 5'h11; // @[package.scala:16:47] wire _io_way_valid_T_2 = _io_way_valid_T | _io_way_valid_T_1; // @[package.scala:16:47, :81:59] assign _io_way_valid_T_3 = ~_io_way_valid_T_2; // @[package.scala:81:59] assign io_way_valid_0 = _io_way_valid_T_3; // @[mshrs.scala:36:7, :151:19] assign _io_req_sec_rdy_T = sec_rdy & _rpq_io_enq_ready; // @[mshrs.scala:125:67, :128:19, :159:37] assign io_req_sec_rdy_0 = _io_req_sec_rdy_T; // @[mshrs.scala:36:7, :159:37] wire [4:0] state_new_state; // @[mshrs.scala:191:29] wire _state_T_1 = ~_state_T; // @[mshrs.scala:194:11] wire _state_T_2 = ~_rpq_io_enq_ready; // @[mshrs.scala:128:19, :194:11] wire [3:0] _GEN_27 = {2'h2, io_req_old_meta_coh_state_0}; // @[Metadata.scala:120:19] wire [3:0] _state_req_needs_wb_r_T_6; // @[Metadata.scala:120:19] assign _state_req_needs_wb_r_T_6 = _GEN_27; // @[Metadata.scala:120:19] wire [3:0] _state_req_needs_wb_r_T_70; // @[Metadata.scala:120:19] assign _state_req_needs_wb_r_T_70 = _GEN_27; // @[Metadata.scala:120:19] wire _state_req_needs_wb_r_T_19 = _state_req_needs_wb_r_T_6 == 4'h8; // @[Misc.scala:56:20] wire [2:0] _state_req_needs_wb_r_T_21 = _state_req_needs_wb_r_T_19 ? 3'h5 : 3'h0; // @[Misc.scala:38:36, :56:20] wire _state_req_needs_wb_r_T_23 = _state_req_needs_wb_r_T_6 == 4'h9; // @[Misc.scala:56:20] wire [2:0] _state_req_needs_wb_r_T_25 = _state_req_needs_wb_r_T_23 ? 3'h2 : _state_req_needs_wb_r_T_21; // @[Misc.scala:38:36, :56:20] wire _state_req_needs_wb_r_T_27 = _state_req_needs_wb_r_T_6 == 4'hA; // @[Misc.scala:56:20] wire [2:0] _state_req_needs_wb_r_T_29 = _state_req_needs_wb_r_T_27 ? 3'h1 : _state_req_needs_wb_r_T_25; // @[Misc.scala:38:36, :56:20] wire _state_req_needs_wb_r_T_31 = _state_req_needs_wb_r_T_6 == 4'hB; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_32 = _state_req_needs_wb_r_T_31; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_33 = _state_req_needs_wb_r_T_31 ? 3'h1 : _state_req_needs_wb_r_T_29; // @[Misc.scala:38:36, :56:20] wire _state_req_needs_wb_r_T_35 = _state_req_needs_wb_r_T_6 == 4'h4; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_36 = ~_state_req_needs_wb_r_T_35 & _state_req_needs_wb_r_T_32; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_37 = _state_req_needs_wb_r_T_35 ? 3'h5 : _state_req_needs_wb_r_T_33; // @[Misc.scala:38:36, :56:20] wire _state_req_needs_wb_r_T_39 = _state_req_needs_wb_r_T_6 == 4'h5; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_40 = ~_state_req_needs_wb_r_T_39 & _state_req_needs_wb_r_T_36; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_41 = _state_req_needs_wb_r_T_39 ? 3'h4 : _state_req_needs_wb_r_T_37; // @[Misc.scala:38:36, :56:20] wire [1:0] _state_req_needs_wb_r_T_42 = {1'h0, _state_req_needs_wb_r_T_39}; // @[Misc.scala:38:63, :56:20] wire _state_req_needs_wb_r_T_43 = _state_req_needs_wb_r_T_6 == 4'h6; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_44 = ~_state_req_needs_wb_r_T_43 & _state_req_needs_wb_r_T_40; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_45 = _state_req_needs_wb_r_T_43 ? 3'h0 : _state_req_needs_wb_r_T_41; // @[Misc.scala:38:36, :56:20] wire [1:0] _state_req_needs_wb_r_T_46 = _state_req_needs_wb_r_T_43 ? 2'h1 : _state_req_needs_wb_r_T_42; // @[Misc.scala:38:63, :56:20] wire _state_req_needs_wb_r_T_47 = _state_req_needs_wb_r_T_6 == 4'h7; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_48 = _state_req_needs_wb_r_T_47 | _state_req_needs_wb_r_T_44; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_49 = _state_req_needs_wb_r_T_47 ? 3'h0 : _state_req_needs_wb_r_T_45; // @[Misc.scala:38:36, :56:20] wire [1:0] _state_req_needs_wb_r_T_50 = _state_req_needs_wb_r_T_47 ? 2'h1 : _state_req_needs_wb_r_T_46; // @[Misc.scala:38:63, :56:20] wire _state_req_needs_wb_r_T_51 = _state_req_needs_wb_r_T_6 == 4'h0; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_52 = ~_state_req_needs_wb_r_T_51 & _state_req_needs_wb_r_T_48; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_53 = _state_req_needs_wb_r_T_51 ? 3'h5 : _state_req_needs_wb_r_T_49; // @[Misc.scala:38:36, :56:20] wire [1:0] _state_req_needs_wb_r_T_54 = _state_req_needs_wb_r_T_51 ? 2'h0 : _state_req_needs_wb_r_T_50; // @[Misc.scala:38:63, :56:20] wire _state_req_needs_wb_r_T_55 = _state_req_needs_wb_r_T_6 == 4'h1; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_56 = ~_state_req_needs_wb_r_T_55 & _state_req_needs_wb_r_T_52; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_57 = _state_req_needs_wb_r_T_55 ? 3'h4 : _state_req_needs_wb_r_T_53; // @[Misc.scala:38:36, :56:20] wire [1:0] _state_req_needs_wb_r_T_58 = _state_req_needs_wb_r_T_55 ? 2'h1 : _state_req_needs_wb_r_T_54; // @[Misc.scala:38:63, :56:20] wire _state_req_needs_wb_r_T_59 = _state_req_needs_wb_r_T_6 == 4'h2; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_60 = ~_state_req_needs_wb_r_T_59 & _state_req_needs_wb_r_T_56; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_61 = _state_req_needs_wb_r_T_59 ? 3'h3 : _state_req_needs_wb_r_T_57; // @[Misc.scala:38:36, :56:20] wire [1:0] _state_req_needs_wb_r_T_62 = _state_req_needs_wb_r_T_59 ? 2'h2 : _state_req_needs_wb_r_T_58; // @[Misc.scala:38:63, :56:20] wire _state_req_needs_wb_r_T_63 = _state_req_needs_wb_r_T_6 == 4'h3; // @[Misc.scala:56:20] wire state_req_needs_wb_r_1 = _state_req_needs_wb_r_T_63 | _state_req_needs_wb_r_T_60; // @[Misc.scala:38:9, :56:20] wire [2:0] state_req_needs_wb_r_2 = _state_req_needs_wb_r_T_63 ? 3'h3 : _state_req_needs_wb_r_T_61; // @[Misc.scala:38:36, :56:20] wire [1:0] state_req_needs_wb_r_3 = _state_req_needs_wb_r_T_63 ? 2'h2 : _state_req_needs_wb_r_T_62; // @[Misc.scala:38:63, :56:20] wire [1:0] state_req_needs_wb_meta_state = state_req_needs_wb_r_3; // @[Misc.scala:38:63] wire _state_r_c_cat_T_2 = _state_r_c_cat_T | _state_r_c_cat_T_1; // @[Consts.scala:90:{32,42,49}] wire _state_r_c_cat_T_4 = _state_r_c_cat_T_2 | _state_r_c_cat_T_3; // @[Consts.scala:90:{42,59,66}] wire _state_r_c_cat_T_9 = _state_r_c_cat_T_5 | _state_r_c_cat_T_6; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_10 = _state_r_c_cat_T_9 | _state_r_c_cat_T_7; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_11 = _state_r_c_cat_T_10 | _state_r_c_cat_T_8; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_17 = _state_r_c_cat_T_12 | _state_r_c_cat_T_13; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_18 = _state_r_c_cat_T_17 | _state_r_c_cat_T_14; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_19 = _state_r_c_cat_T_18 | _state_r_c_cat_T_15; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_20 = _state_r_c_cat_T_19 | _state_r_c_cat_T_16; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_21 = _state_r_c_cat_T_11 | _state_r_c_cat_T_20; // @[package.scala:81:59] wire _state_r_c_cat_T_22 = _state_r_c_cat_T_4 | _state_r_c_cat_T_21; // @[Consts.scala:87:44, :90:{59,76}] wire _state_r_c_cat_T_25 = _state_r_c_cat_T_23 | _state_r_c_cat_T_24; // @[Consts.scala:90:{32,42,49}] wire _state_r_c_cat_T_27 = _state_r_c_cat_T_25 | _state_r_c_cat_T_26; // @[Consts.scala:90:{42,59,66}] wire _state_r_c_cat_T_32 = _state_r_c_cat_T_28 | _state_r_c_cat_T_29; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_33 = _state_r_c_cat_T_32 | _state_r_c_cat_T_30; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_34 = _state_r_c_cat_T_33 | _state_r_c_cat_T_31; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_40 = _state_r_c_cat_T_35 | _state_r_c_cat_T_36; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_41 = _state_r_c_cat_T_40 | _state_r_c_cat_T_37; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_42 = _state_r_c_cat_T_41 | _state_r_c_cat_T_38; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_43 = _state_r_c_cat_T_42 | _state_r_c_cat_T_39; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_44 = _state_r_c_cat_T_34 | _state_r_c_cat_T_43; // @[package.scala:81:59] wire _state_r_c_cat_T_45 = _state_r_c_cat_T_27 | _state_r_c_cat_T_44; // @[Consts.scala:87:44, :90:{59,76}] wire _state_r_c_cat_T_47 = _state_r_c_cat_T_45 | _state_r_c_cat_T_46; // @[Consts.scala:90:76, :91:{47,54}] wire _state_r_c_cat_T_49 = _state_r_c_cat_T_47 | _state_r_c_cat_T_48; // @[Consts.scala:91:{47,64,71}] wire [1:0] state_r_c = {_state_r_c_cat_T_22, _state_r_c_cat_T_49}; // @[Metadata.scala:29:18] wire [3:0] _state_r_T = {state_r_c, io_req_old_meta_coh_state_0}; // @[Metadata.scala:29:18, :58:19] wire _state_r_T_25 = _state_r_T == 4'hC; // @[Misc.scala:49:20] wire [1:0] _state_r_T_27 = {1'h0, _state_r_T_25}; // @[Misc.scala:35:36, :49:20] wire _state_r_T_28 = _state_r_T == 4'hD; // @[Misc.scala:49:20] wire [1:0] _state_r_T_30 = _state_r_T_28 ? 2'h2 : _state_r_T_27; // @[Misc.scala:35:36, :49:20] wire _state_r_T_31 = _state_r_T == 4'h4; // @[Misc.scala:49:20] wire [1:0] _state_r_T_33 = _state_r_T_31 ? 2'h1 : _state_r_T_30; // @[Misc.scala:35:36, :49:20] wire _state_r_T_34 = _state_r_T == 4'h5; // @[Misc.scala:49:20] wire [1:0] _state_r_T_36 = _state_r_T_34 ? 2'h2 : _state_r_T_33; // @[Misc.scala:35:36, :49:20] wire _state_r_T_37 = _state_r_T == 4'h0; // @[Misc.scala:49:20] wire [1:0] _state_r_T_39 = _state_r_T_37 ? 2'h0 : _state_r_T_36; // @[Misc.scala:35:36, :49:20] wire _state_r_T_40 = _state_r_T == 4'hE; // @[Misc.scala:49:20] wire _state_r_T_41 = _state_r_T_40; // @[Misc.scala:35:9, :49:20] wire [1:0] _state_r_T_42 = _state_r_T_40 ? 2'h3 : _state_r_T_39; // @[Misc.scala:35:36, :49:20] wire _state_r_T_43 = &_state_r_T; // @[Misc.scala:49:20] wire _state_r_T_44 = _state_r_T_43 | _state_r_T_41; // @[Misc.scala:35:9, :49:20] wire [1:0] _state_r_T_45 = _state_r_T_43 ? 2'h3 : _state_r_T_42; // @[Misc.scala:35:36, :49:20] wire _state_r_T_46 = _state_r_T == 4'h6; // @[Misc.scala:49:20] wire _state_r_T_47 = _state_r_T_46 | _state_r_T_44; // @[Misc.scala:35:9, :49:20] wire [1:0] _state_r_T_48 = _state_r_T_46 ? 2'h2 : _state_r_T_45; // @[Misc.scala:35:36, :49:20] wire _state_r_T_49 = _state_r_T == 4'h7; // @[Misc.scala:49:20] wire _state_r_T_50 = _state_r_T_49 | _state_r_T_47; // @[Misc.scala:35:9, :49:20] wire [1:0] _state_r_T_51 = _state_r_T_49 ? 2'h3 : _state_r_T_48; // @[Misc.scala:35:36, :49:20] wire _state_r_T_52 = _state_r_T == 4'h1; // @[Misc.scala:49:20] wire _state_r_T_53 = _state_r_T_52 | _state_r_T_50; // @[Misc.scala:35:9, :49:20] wire [1:0] _state_r_T_54 = _state_r_T_52 ? 2'h1 : _state_r_T_51; // @[Misc.scala:35:36, :49:20] wire _state_r_T_55 = _state_r_T == 4'h2; // @[Misc.scala:49:20] wire _state_r_T_56 = _state_r_T_55 | _state_r_T_53; // @[Misc.scala:35:9, :49:20] wire [1:0] _state_r_T_57 = _state_r_T_55 ? 2'h2 : _state_r_T_54; // @[Misc.scala:35:36, :49:20] wire _state_r_T_58 = _state_r_T == 4'h3; // @[Misc.scala:49:20] wire state_is_hit = _state_r_T_58 | _state_r_T_56; // @[Misc.scala:35:9, :49:20] wire [1:0] state_r_2 = _state_r_T_58 ? 2'h3 : _state_r_T_57; // @[Misc.scala:35:36, :49:20] wire [1:0] state_coh_on_hit_state = state_r_2; // @[Misc.scala:35:36] wire _state_T_5 = _state_T_3 | _state_T_4; // @[Consts.scala:90:{32,42,49}] wire _state_T_7 = _state_T_5 | _state_T_6; // @[Consts.scala:90:{42,59,66}] wire _state_T_12 = _state_T_8 | _state_T_9; // @[package.scala:16:47, :81:59] wire _state_T_13 = _state_T_12 | _state_T_10; // @[package.scala:16:47, :81:59] wire _state_T_14 = _state_T_13 | _state_T_11; // @[package.scala:16:47, :81:59] wire _state_T_20 = _state_T_15 | _state_T_16; // @[package.scala:16:47, :81:59] wire _state_T_21 = _state_T_20 | _state_T_17; // @[package.scala:16:47, :81:59] wire _state_T_22 = _state_T_21 | _state_T_18; // @[package.scala:16:47, :81:59] wire _state_T_23 = _state_T_22 | _state_T_19; // @[package.scala:16:47, :81:59] wire _state_T_24 = _state_T_14 | _state_T_23; // @[package.scala:81:59] wire _state_T_25 = _state_T_7 | _state_T_24; // @[Consts.scala:87:44, :90:{59,76}] wire _state_T_27 = ~_state_T_26; // @[mshrs.scala:201:15] wire _state_T_28 = ~_state_T_25; // @[Consts.scala:90:76] assign state_new_state = io_req_tag_match_0 & state_is_hit ? 5'hC : 5'h1; // @[Misc.scala:35:9] assign io_mem_acquire_valid_0 = (|state) & _io_probe_rdy_T_2; // @[package.scala:16:47] wire [33:0] _GEN_28 = {req_tag, req_idx}; // @[mshrs.scala:110:25, :111:26, :227:28] wire [33:0] _io_mem_acquire_bits_T; // @[mshrs.scala:227:28] assign _io_mem_acquire_bits_T = _GEN_28; // @[mshrs.scala:227:28] wire [33:0] rp_addr_hi; // @[mshrs.scala:261:22] assign rp_addr_hi = _GEN_28; // @[mshrs.scala:227:28, :261:22] wire [33:0] hi; // @[mshrs.scala:266:10] assign hi = _GEN_28; // @[mshrs.scala:227:28, :266:10] wire [33:0] io_replay_bits_addr_hi; // @[mshrs.scala:353:31] assign io_replay_bits_addr_hi = _GEN_28; // @[mshrs.scala:227:28, :353:31] wire [39:0] _io_mem_acquire_bits_T_1 = {_io_mem_acquire_bits_T, 6'h0}; // @[mshrs.scala:227:{28,47}] wire [39:0] _io_mem_acquire_bits_legal_T_1 = _io_mem_acquire_bits_T_1; // @[Parameters.scala:137:31] wire [40:0] _io_mem_acquire_bits_legal_T_2 = {1'h0, _io_mem_acquire_bits_legal_T_1}; // @[Parameters.scala:137:{31,41}] wire [40:0] _io_mem_acquire_bits_legal_T_3 = _io_mem_acquire_bits_legal_T_2 & 41'h8C000000; // @[Parameters.scala:137:{41,46}] wire [40:0] _io_mem_acquire_bits_legal_T_4 = _io_mem_acquire_bits_legal_T_3; // @[Parameters.scala:137:46] wire _io_mem_acquire_bits_legal_T_5 = _io_mem_acquire_bits_legal_T_4 == 41'h0; // @[Parameters.scala:137:{46,59}] wire [39:0] _io_mem_acquire_bits_legal_T_6 = {_io_mem_acquire_bits_T_1[39:17], _io_mem_acquire_bits_T_1[16:0] ^ 17'h10000}; // @[Parameters.scala:137:31] wire [40:0] _io_mem_acquire_bits_legal_T_7 = {1'h0, _io_mem_acquire_bits_legal_T_6}; // @[Parameters.scala:137:{31,41}] wire [40:0] _io_mem_acquire_bits_legal_T_8 = _io_mem_acquire_bits_legal_T_7 & 41'h8C011000; // @[Parameters.scala:137:{41,46}] wire [40:0] _io_mem_acquire_bits_legal_T_9 = _io_mem_acquire_bits_legal_T_8; // @[Parameters.scala:137:46] wire _io_mem_acquire_bits_legal_T_10 = _io_mem_acquire_bits_legal_T_9 == 41'h0; // @[Parameters.scala:137:{46,59}] wire [39:0] _io_mem_acquire_bits_legal_T_11 = {_io_mem_acquire_bits_T_1[39:28], _io_mem_acquire_bits_T_1[27:0] ^ 28'hC000000}; // @[Parameters.scala:137:31] wire [40:0] _io_mem_acquire_bits_legal_T_12 = {1'h0, _io_mem_acquire_bits_legal_T_11}; // @[Parameters.scala:137:{31,41}] wire [40:0] _io_mem_acquire_bits_legal_T_13 = _io_mem_acquire_bits_legal_T_12 & 41'h8C000000; // @[Parameters.scala:137:{41,46}] wire [40:0] _io_mem_acquire_bits_legal_T_14 = _io_mem_acquire_bits_legal_T_13; // @[Parameters.scala:137:46] wire _io_mem_acquire_bits_legal_T_15 = _io_mem_acquire_bits_legal_T_14 == 41'h0; // @[Parameters.scala:137:{46,59}] wire _io_mem_acquire_bits_legal_T_16 = _io_mem_acquire_bits_legal_T_5 | _io_mem_acquire_bits_legal_T_10; // @[Parameters.scala:685:42] wire _io_mem_acquire_bits_legal_T_17 = _io_mem_acquire_bits_legal_T_16 | _io_mem_acquire_bits_legal_T_15; // @[Parameters.scala:685:42] wire [39:0] _io_mem_acquire_bits_legal_T_21 = {_io_mem_acquire_bits_T_1[39:28], _io_mem_acquire_bits_T_1[27:0] ^ 28'h8000000}; // @[Parameters.scala:137:31] wire [40:0] _io_mem_acquire_bits_legal_T_22 = {1'h0, _io_mem_acquire_bits_legal_T_21}; // @[Parameters.scala:137:{31,41}] wire [40:0] _io_mem_acquire_bits_legal_T_23 = _io_mem_acquire_bits_legal_T_22 & 41'h8C010000; // @[Parameters.scala:137:{41,46}] wire [40:0] _io_mem_acquire_bits_legal_T_24 = _io_mem_acquire_bits_legal_T_23; // @[Parameters.scala:137:46] wire _io_mem_acquire_bits_legal_T_25 = _io_mem_acquire_bits_legal_T_24 == 41'h0; // @[Parameters.scala:137:{46,59}] assign io_mem_acquire_bits_a_address = _io_mem_acquire_bits_T_1[31:0]; // @[Edges.scala:346:17] wire [39:0] _io_mem_acquire_bits_legal_T_26 = {_io_mem_acquire_bits_T_1[39:32], io_mem_acquire_bits_a_address ^ 32'h80000000}; // @[Edges.scala:346:17] wire [40:0] _io_mem_acquire_bits_legal_T_27 = {1'h0, _io_mem_acquire_bits_legal_T_26}; // @[Parameters.scala:137:{31,41}] wire [40:0] _io_mem_acquire_bits_legal_T_28 = _io_mem_acquire_bits_legal_T_27 & 41'h80000000; // @[Parameters.scala:137:{41,46}] wire [40:0] _io_mem_acquire_bits_legal_T_29 = _io_mem_acquire_bits_legal_T_28; // @[Parameters.scala:137:46] wire _io_mem_acquire_bits_legal_T_30 = _io_mem_acquire_bits_legal_T_29 == 41'h0; // @[Parameters.scala:137:{46,59}] wire _io_mem_acquire_bits_legal_T_31 = _io_mem_acquire_bits_legal_T_25 | _io_mem_acquire_bits_legal_T_30; // @[Parameters.scala:685:42] wire _io_mem_acquire_bits_legal_T_32 = _io_mem_acquire_bits_legal_T_31; // @[Parameters.scala:684:54, :685:42] wire io_mem_acquire_bits_legal = _io_mem_acquire_bits_legal_T_32; // @[Parameters.scala:684:54, :686:26] assign io_mem_acquire_bits_param_0 = io_mem_acquire_bits_a_param; // @[Edges.scala:346:17] assign io_mem_acquire_bits_address_0 = io_mem_acquire_bits_a_address; // @[Edges.scala:346:17] assign io_mem_acquire_bits_a_param = {1'h0, grow_param}; // @[Misc.scala:35:36] wire io_mem_acquire_bits_a_mask_sub_sub_sub_bit = _io_mem_acquire_bits_T_1[3]; // @[Misc.scala:210:26] wire io_mem_acquire_bits_a_mask_sub_sub_sub_1_2 = io_mem_acquire_bits_a_mask_sub_sub_sub_bit; // @[Misc.scala:210:26, :214:27] wire io_mem_acquire_bits_a_mask_sub_sub_sub_nbit = ~io_mem_acquire_bits_a_mask_sub_sub_sub_bit; // @[Misc.scala:210:26, :211:20] wire io_mem_acquire_bits_a_mask_sub_sub_sub_0_2 = io_mem_acquire_bits_a_mask_sub_sub_sub_nbit; // @[Misc.scala:211:20, :214:27] wire io_mem_acquire_bits_a_mask_sub_sub_bit = _io_mem_acquire_bits_T_1[2]; // @[Misc.scala:210:26] wire io_mem_acquire_bits_a_mask_sub_sub_nbit = ~io_mem_acquire_bits_a_mask_sub_sub_bit; // @[Misc.scala:210:26, :211:20] wire io_mem_acquire_bits_a_mask_sub_sub_0_2 = io_mem_acquire_bits_a_mask_sub_sub_sub_0_2 & io_mem_acquire_bits_a_mask_sub_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _io_mem_acquire_bits_a_mask_sub_sub_acc_T = io_mem_acquire_bits_a_mask_sub_sub_0_2; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_sub_sub_1_2 = io_mem_acquire_bits_a_mask_sub_sub_sub_0_2 & io_mem_acquire_bits_a_mask_sub_sub_bit; // @[Misc.scala:210:26, :214:27] wire _io_mem_acquire_bits_a_mask_sub_sub_acc_T_1 = io_mem_acquire_bits_a_mask_sub_sub_1_2; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_sub_sub_2_2 = io_mem_acquire_bits_a_mask_sub_sub_sub_1_2 & io_mem_acquire_bits_a_mask_sub_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _io_mem_acquire_bits_a_mask_sub_sub_acc_T_2 = io_mem_acquire_bits_a_mask_sub_sub_2_2; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_sub_sub_3_2 = io_mem_acquire_bits_a_mask_sub_sub_sub_1_2 & io_mem_acquire_bits_a_mask_sub_sub_bit; // @[Misc.scala:210:26, :214:27] wire _io_mem_acquire_bits_a_mask_sub_sub_acc_T_3 = io_mem_acquire_bits_a_mask_sub_sub_3_2; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_sub_bit = _io_mem_acquire_bits_T_1[1]; // @[Misc.scala:210:26] wire io_mem_acquire_bits_a_mask_sub_nbit = ~io_mem_acquire_bits_a_mask_sub_bit; // @[Misc.scala:210:26, :211:20] wire io_mem_acquire_bits_a_mask_sub_0_2 = io_mem_acquire_bits_a_mask_sub_sub_0_2 & io_mem_acquire_bits_a_mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire io_mem_acquire_bits_a_mask_sub_1_2 = io_mem_acquire_bits_a_mask_sub_sub_0_2 & io_mem_acquire_bits_a_mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire io_mem_acquire_bits_a_mask_sub_2_2 = io_mem_acquire_bits_a_mask_sub_sub_1_2 & io_mem_acquire_bits_a_mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire io_mem_acquire_bits_a_mask_sub_3_2 = io_mem_acquire_bits_a_mask_sub_sub_1_2 & io_mem_acquire_bits_a_mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire io_mem_acquire_bits_a_mask_sub_4_2 = io_mem_acquire_bits_a_mask_sub_sub_2_2 & io_mem_acquire_bits_a_mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire io_mem_acquire_bits_a_mask_sub_5_2 = io_mem_acquire_bits_a_mask_sub_sub_2_2 & io_mem_acquire_bits_a_mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire io_mem_acquire_bits_a_mask_sub_6_2 = io_mem_acquire_bits_a_mask_sub_sub_3_2 & io_mem_acquire_bits_a_mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire io_mem_acquire_bits_a_mask_sub_7_2 = io_mem_acquire_bits_a_mask_sub_sub_3_2 & io_mem_acquire_bits_a_mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire io_mem_acquire_bits_a_mask_bit = _io_mem_acquire_bits_T_1[0]; // @[Misc.scala:210:26] wire io_mem_acquire_bits_a_mask_nbit = ~io_mem_acquire_bits_a_mask_bit; // @[Misc.scala:210:26, :211:20] wire io_mem_acquire_bits_a_mask_eq = io_mem_acquire_bits_a_mask_sub_0_2 & io_mem_acquire_bits_a_mask_nbit; // @[Misc.scala:211:20, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T = io_mem_acquire_bits_a_mask_eq; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_1 = io_mem_acquire_bits_a_mask_sub_0_2 & io_mem_acquire_bits_a_mask_bit; // @[Misc.scala:210:26, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_1 = io_mem_acquire_bits_a_mask_eq_1; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_2 = io_mem_acquire_bits_a_mask_sub_1_2 & io_mem_acquire_bits_a_mask_nbit; // @[Misc.scala:211:20, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_2 = io_mem_acquire_bits_a_mask_eq_2; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_3 = io_mem_acquire_bits_a_mask_sub_1_2 & io_mem_acquire_bits_a_mask_bit; // @[Misc.scala:210:26, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_3 = io_mem_acquire_bits_a_mask_eq_3; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_4 = io_mem_acquire_bits_a_mask_sub_2_2 & io_mem_acquire_bits_a_mask_nbit; // @[Misc.scala:211:20, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_4 = io_mem_acquire_bits_a_mask_eq_4; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_5 = io_mem_acquire_bits_a_mask_sub_2_2 & io_mem_acquire_bits_a_mask_bit; // @[Misc.scala:210:26, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_5 = io_mem_acquire_bits_a_mask_eq_5; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_6 = io_mem_acquire_bits_a_mask_sub_3_2 & io_mem_acquire_bits_a_mask_nbit; // @[Misc.scala:211:20, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_6 = io_mem_acquire_bits_a_mask_eq_6; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_7 = io_mem_acquire_bits_a_mask_sub_3_2 & io_mem_acquire_bits_a_mask_bit; // @[Misc.scala:210:26, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_7 = io_mem_acquire_bits_a_mask_eq_7; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_8 = io_mem_acquire_bits_a_mask_sub_4_2 & io_mem_acquire_bits_a_mask_nbit; // @[Misc.scala:211:20, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_8 = io_mem_acquire_bits_a_mask_eq_8; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_9 = io_mem_acquire_bits_a_mask_sub_4_2 & io_mem_acquire_bits_a_mask_bit; // @[Misc.scala:210:26, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_9 = io_mem_acquire_bits_a_mask_eq_9; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_10 = io_mem_acquire_bits_a_mask_sub_5_2 & io_mem_acquire_bits_a_mask_nbit; // @[Misc.scala:211:20, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_10 = io_mem_acquire_bits_a_mask_eq_10; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_11 = io_mem_acquire_bits_a_mask_sub_5_2 & io_mem_acquire_bits_a_mask_bit; // @[Misc.scala:210:26, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_11 = io_mem_acquire_bits_a_mask_eq_11; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_12 = io_mem_acquire_bits_a_mask_sub_6_2 & io_mem_acquire_bits_a_mask_nbit; // @[Misc.scala:211:20, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_12 = io_mem_acquire_bits_a_mask_eq_12; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_13 = io_mem_acquire_bits_a_mask_sub_6_2 & io_mem_acquire_bits_a_mask_bit; // @[Misc.scala:210:26, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_13 = io_mem_acquire_bits_a_mask_eq_13; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_14 = io_mem_acquire_bits_a_mask_sub_7_2 & io_mem_acquire_bits_a_mask_nbit; // @[Misc.scala:211:20, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_14 = io_mem_acquire_bits_a_mask_eq_14; // @[Misc.scala:214:27, :215:38] wire io_mem_acquire_bits_a_mask_eq_15 = io_mem_acquire_bits_a_mask_sub_7_2 & io_mem_acquire_bits_a_mask_bit; // @[Misc.scala:210:26, :214:27] wire _io_mem_acquire_bits_a_mask_acc_T_15 = io_mem_acquire_bits_a_mask_eq_15; // @[Misc.scala:214:27, :215:38] wire _GEN_29 = ~(|state) | _io_probe_rdy_T_2; // @[package.scala:16:47] assign io_lb_write_valid_0 = ~_GEN_29 & _io_probe_rdy_T_3 & opdata & io_mem_grant_valid_0; // @[package.scala:16:47] wire [7:0] _io_lb_write_bits_offset_T = refill_address_inc[11:4]; // @[Edges.scala:269:29] assign io_lb_write_bits_offset_0 = _io_lb_write_bits_offset_T[1:0]; // @[mshrs.scala:36:7, :238:{31,53}] assign io_mem_grant_ready_0 = ~_GEN_29 & _io_probe_rdy_T_3 & (~opdata | io_lb_write_ready_0); // @[package.scala:16:47] wire _grantack_valid_T = io_mem_grant_bits_opcode_0[2]; // @[Edges.scala:71:36] wire _grantack_valid_T_1 = io_mem_grant_bits_opcode_0[1]; // @[Edges.scala:71:52] wire _grantack_valid_T_2 = ~_grantack_valid_T_1; // @[Edges.scala:71:{43,52}] wire _grantack_valid_T_3 = _grantack_valid_T & _grantack_valid_T_2; // @[Edges.scala:71:{36,40,43}] wire [4:0] _state_T_29 = grant_had_data ? 5'h3 : 5'hC; // @[mshrs.scala:141:27, :250:19] wire _drain_load_T = _rpq_io_deq_bits_uop_mem_cmd == 5'h0; // @[package.scala:16:47] wire _drain_load_T_1 = _rpq_io_deq_bits_uop_mem_cmd == 5'h10; // @[package.scala:16:47] wire _GEN_30 = _rpq_io_deq_bits_uop_mem_cmd == 5'h6; // @[package.scala:16:47] wire _drain_load_T_2; // @[package.scala:16:47] assign _drain_load_T_2 = _GEN_30; // @[package.scala:16:47] wire _r_c_cat_T_48; // @[Consts.scala:91:71] assign _r_c_cat_T_48 = _GEN_30; // @[package.scala:16:47] wire _GEN_31 = _rpq_io_deq_bits_uop_mem_cmd == 5'h7; // @[package.scala:16:47] wire _drain_load_T_3; // @[package.scala:16:47] assign _drain_load_T_3 = _GEN_31; // @[package.scala:16:47] wire _drain_load_T_28; // @[Consts.scala:90:66] assign _drain_load_T_28 = _GEN_31; // @[package.scala:16:47] wire _drain_load_T_4 = _drain_load_T | _drain_load_T_1; // @[package.scala:16:47, :81:59] wire _drain_load_T_5 = _drain_load_T_4 | _drain_load_T_2; // @[package.scala:16:47, :81:59] wire _drain_load_T_6 = _drain_load_T_5 | _drain_load_T_3; // @[package.scala:16:47, :81:59] wire _GEN_32 = _rpq_io_deq_bits_uop_mem_cmd == 5'h4; // @[package.scala:16:47] wire _drain_load_T_7; // @[package.scala:16:47] assign _drain_load_T_7 = _GEN_32; // @[package.scala:16:47] wire _drain_load_T_30; // @[package.scala:16:47] assign _drain_load_T_30 = _GEN_32; // @[package.scala:16:47] wire _GEN_33 = _rpq_io_deq_bits_uop_mem_cmd == 5'h9; // @[package.scala:16:47] wire _drain_load_T_8; // @[package.scala:16:47] assign _drain_load_T_8 = _GEN_33; // @[package.scala:16:47] wire _drain_load_T_31; // @[package.scala:16:47] assign _drain_load_T_31 = _GEN_33; // @[package.scala:16:47] wire _GEN_34 = _rpq_io_deq_bits_uop_mem_cmd == 5'hA; // @[package.scala:16:47] wire _drain_load_T_9; // @[package.scala:16:47] assign _drain_load_T_9 = _GEN_34; // @[package.scala:16:47] wire _drain_load_T_32; // @[package.scala:16:47] assign _drain_load_T_32 = _GEN_34; // @[package.scala:16:47] wire _GEN_35 = _rpq_io_deq_bits_uop_mem_cmd == 5'hB; // @[package.scala:16:47] wire _drain_load_T_10; // @[package.scala:16:47] assign _drain_load_T_10 = _GEN_35; // @[package.scala:16:47] wire _drain_load_T_33; // @[package.scala:16:47] assign _drain_load_T_33 = _GEN_35; // @[package.scala:16:47] wire _drain_load_T_11 = _drain_load_T_7 | _drain_load_T_8; // @[package.scala:16:47, :81:59] wire _drain_load_T_12 = _drain_load_T_11 | _drain_load_T_9; // @[package.scala:16:47, :81:59] wire _drain_load_T_13 = _drain_load_T_12 | _drain_load_T_10; // @[package.scala:16:47, :81:59] wire _GEN_36 = _rpq_io_deq_bits_uop_mem_cmd == 5'h8; // @[package.scala:16:47] wire _drain_load_T_14; // @[package.scala:16:47] assign _drain_load_T_14 = _GEN_36; // @[package.scala:16:47] wire _drain_load_T_37; // @[package.scala:16:47] assign _drain_load_T_37 = _GEN_36; // @[package.scala:16:47] wire _GEN_37 = _rpq_io_deq_bits_uop_mem_cmd == 5'hC; // @[package.scala:16:47] wire _drain_load_T_15; // @[package.scala:16:47] assign _drain_load_T_15 = _GEN_37; // @[package.scala:16:47] wire _drain_load_T_38; // @[package.scala:16:47] assign _drain_load_T_38 = _GEN_37; // @[package.scala:16:47] wire _GEN_38 = _rpq_io_deq_bits_uop_mem_cmd == 5'hD; // @[package.scala:16:47] wire _drain_load_T_16; // @[package.scala:16:47] assign _drain_load_T_16 = _GEN_38; // @[package.scala:16:47] wire _drain_load_T_39; // @[package.scala:16:47] assign _drain_load_T_39 = _GEN_38; // @[package.scala:16:47] wire _GEN_39 = _rpq_io_deq_bits_uop_mem_cmd == 5'hE; // @[package.scala:16:47] wire _drain_load_T_17; // @[package.scala:16:47] assign _drain_load_T_17 = _GEN_39; // @[package.scala:16:47] wire _drain_load_T_40; // @[package.scala:16:47] assign _drain_load_T_40 = _GEN_39; // @[package.scala:16:47] wire _GEN_40 = _rpq_io_deq_bits_uop_mem_cmd == 5'hF; // @[package.scala:16:47] wire _drain_load_T_18; // @[package.scala:16:47] assign _drain_load_T_18 = _GEN_40; // @[package.scala:16:47] wire _drain_load_T_41; // @[package.scala:16:47] assign _drain_load_T_41 = _GEN_40; // @[package.scala:16:47] wire _drain_load_T_19 = _drain_load_T_14 | _drain_load_T_15; // @[package.scala:16:47, :81:59] wire _drain_load_T_20 = _drain_load_T_19 | _drain_load_T_16; // @[package.scala:16:47, :81:59] wire _drain_load_T_21 = _drain_load_T_20 | _drain_load_T_17; // @[package.scala:16:47, :81:59] wire _drain_load_T_22 = _drain_load_T_21 | _drain_load_T_18; // @[package.scala:16:47, :81:59] wire _drain_load_T_23 = _drain_load_T_13 | _drain_load_T_22; // @[package.scala:81:59] wire _drain_load_T_24 = _drain_load_T_6 | _drain_load_T_23; // @[package.scala:81:59] wire _drain_load_T_25 = _rpq_io_deq_bits_uop_mem_cmd == 5'h1; // @[Consts.scala:90:32] wire _drain_load_T_26 = _rpq_io_deq_bits_uop_mem_cmd == 5'h11; // @[Consts.scala:90:49] wire _drain_load_T_27 = _drain_load_T_25 | _drain_load_T_26; // @[Consts.scala:90:{32,42,49}] wire _drain_load_T_29 = _drain_load_T_27 | _drain_load_T_28; // @[Consts.scala:90:{42,59,66}] wire _drain_load_T_34 = _drain_load_T_30 | _drain_load_T_31; // @[package.scala:16:47, :81:59] wire _drain_load_T_35 = _drain_load_T_34 | _drain_load_T_32; // @[package.scala:16:47, :81:59] wire _drain_load_T_36 = _drain_load_T_35 | _drain_load_T_33; // @[package.scala:16:47, :81:59] wire _drain_load_T_42 = _drain_load_T_37 | _drain_load_T_38; // @[package.scala:16:47, :81:59] wire _drain_load_T_43 = _drain_load_T_42 | _drain_load_T_39; // @[package.scala:16:47, :81:59] wire _drain_load_T_44 = _drain_load_T_43 | _drain_load_T_40; // @[package.scala:16:47, :81:59] wire _drain_load_T_45 = _drain_load_T_44 | _drain_load_T_41; // @[package.scala:16:47, :81:59] wire _drain_load_T_46 = _drain_load_T_36 | _drain_load_T_45; // @[package.scala:81:59] wire _drain_load_T_47 = _drain_load_T_29 | _drain_load_T_46; // @[Consts.scala:87:44, :90:{59,76}] wire _drain_load_T_48 = ~_drain_load_T_47; // @[Consts.scala:90:76] wire _drain_load_T_49 = _drain_load_T_24 & _drain_load_T_48; // @[Consts.scala:89:68] wire _drain_load_T_50 = _rpq_io_deq_bits_uop_mem_cmd != 5'h6; // @[mshrs.scala:128:19, :259:51] wire drain_load = _drain_load_T_49 & _drain_load_T_50; // @[mshrs.scala:257:59, :258:60, :259:51] wire [5:0] _rp_addr_T = _rpq_io_deq_bits_addr[5:0]; // @[mshrs.scala:128:19, :261:61] wire [39:0] rp_addr = {rp_addr_hi, _rp_addr_T}; // @[mshrs.scala:261:{22,61}] wire word_idx = rp_addr[3]; // @[mshrs.scala:261:22, :262:56] wire [6:0] _data_word_T = {word_idx, 6'h0}; // @[mshrs.scala:262:56, :264:32] wire [127:0] data_word = io_lb_resp_0 >> _data_word_T; // @[mshrs.scala:36:7, :264:{26,32}] wire [1:0] size; // @[AMOALU.scala:11:18] wire _rpq_io_deq_ready_T = io_resp_ready_0 & io_lb_read_ready_0; // @[mshrs.scala:36:7, :270:45] wire _rpq_io_deq_ready_T_1 = _rpq_io_deq_ready_T & drain_load; // @[mshrs.scala:258:60, :270:{45,65}] wire _io_lb_read_valid_T = _rpq_io_deq_valid & drain_load; // @[mshrs.scala:128:19, :258:60, :271:48] wire [35:0] _io_lb_read_bits_offset_T = _rpq_io_deq_bits_addr[39:4]; // @[mshrs.scala:128:19, :273:52] wire _GEN_41 = io_lb_read_ready_0 & io_lb_read_valid_0; // @[Decoupled.scala:51:35] wire _io_resp_valid_T; // @[Decoupled.scala:51:35] assign _io_resp_valid_T = _GEN_41; // @[Decoupled.scala:51:35] wire _io_refill_valid_T; // @[Decoupled.scala:51:35] assign _io_refill_valid_T = _GEN_41; // @[Decoupled.scala:51:35] wire _io_resp_valid_T_1 = _rpq_io_deq_valid & _io_resp_valid_T; // @[Decoupled.scala:51:35] wire _io_resp_valid_T_2 = _io_resp_valid_T_1 & drain_load; // @[mshrs.scala:258:60, :275:{43,62}] wire _GEN_42 = ~(|state) | _io_probe_rdy_T_2 | _io_probe_rdy_T_3; // @[package.scala:16:47] assign io_resp_valid_0 = ~_GEN_42 & _io_probe_rdy_T_4 & _io_resp_valid_T_2; // @[package.scala:16:47] wire _io_resp_bits_data_shifted_T = _rpq_io_deq_bits_addr[2]; // @[AMOALU.scala:42:29] wire [31:0] _io_resp_bits_data_shifted_T_1 = data_word[63:32]; // @[AMOALU.scala:42:37] wire [31:0] _io_resp_bits_data_T_5 = data_word[63:32]; // @[AMOALU.scala:42:37, :45:94] wire [31:0] _io_resp_bits_data_shifted_T_2 = data_word[31:0]; // @[AMOALU.scala:42:55] wire [31:0] io_resp_bits_data_shifted = _io_resp_bits_data_shifted_T ? _io_resp_bits_data_shifted_T_1 : _io_resp_bits_data_shifted_T_2; // @[AMOALU.scala:42:{24,29,37,55}] wire [31:0] io_resp_bits_data_zeroed = io_resp_bits_data_shifted; // @[AMOALU.scala:42:24, :44:23] wire _io_resp_bits_data_T = size == 2'h2; // @[AMOALU.scala:11:18, :45:26] wire _io_resp_bits_data_T_1 = _io_resp_bits_data_T; // @[AMOALU.scala:45:{26,34}] wire _io_resp_bits_data_T_2 = io_resp_bits_data_zeroed[31]; // @[AMOALU.scala:44:23, :45:81] wire _io_resp_bits_data_T_3 = _rpq_io_deq_bits_uop_mem_signed & _io_resp_bits_data_T_2; // @[AMOALU.scala:45:{72,81}] wire [31:0] _io_resp_bits_data_T_4 = {32{_io_resp_bits_data_T_3}}; // @[AMOALU.scala:45:{49,72}] wire [31:0] _io_resp_bits_data_T_6 = _io_resp_bits_data_T_1 ? _io_resp_bits_data_T_4 : _io_resp_bits_data_T_5; // @[AMOALU.scala:45:{20,34,49,94}] wire [63:0] _io_resp_bits_data_T_7 = {_io_resp_bits_data_T_6, io_resp_bits_data_zeroed}; // @[AMOALU.scala:44:23, :45:{16,20}] wire _io_resp_bits_data_shifted_T_3 = _rpq_io_deq_bits_addr[1]; // @[AMOALU.scala:42:29] wire [15:0] _io_resp_bits_data_shifted_T_4 = _io_resp_bits_data_T_7[31:16]; // @[AMOALU.scala:42:37, :45:16] wire [15:0] _io_resp_bits_data_shifted_T_5 = _io_resp_bits_data_T_7[15:0]; // @[AMOALU.scala:42:55, :45:16] wire [15:0] io_resp_bits_data_shifted_1 = _io_resp_bits_data_shifted_T_3 ? _io_resp_bits_data_shifted_T_4 : _io_resp_bits_data_shifted_T_5; // @[AMOALU.scala:42:{24,29,37,55}] wire [15:0] io_resp_bits_data_zeroed_1 = io_resp_bits_data_shifted_1; // @[AMOALU.scala:42:24, :44:23] wire _io_resp_bits_data_T_8 = size == 2'h1; // @[AMOALU.scala:11:18, :45:26] wire _io_resp_bits_data_T_9 = _io_resp_bits_data_T_8; // @[AMOALU.scala:45:{26,34}] wire _io_resp_bits_data_T_10 = io_resp_bits_data_zeroed_1[15]; // @[AMOALU.scala:44:23, :45:81] wire _io_resp_bits_data_T_11 = _rpq_io_deq_bits_uop_mem_signed & _io_resp_bits_data_T_10; // @[AMOALU.scala:45:{72,81}] wire [47:0] _io_resp_bits_data_T_12 = {48{_io_resp_bits_data_T_11}}; // @[AMOALU.scala:45:{49,72}] wire [47:0] _io_resp_bits_data_T_13 = _io_resp_bits_data_T_7[63:16]; // @[AMOALU.scala:45:{16,94}] wire [47:0] _io_resp_bits_data_T_14 = _io_resp_bits_data_T_9 ? _io_resp_bits_data_T_12 : _io_resp_bits_data_T_13; // @[AMOALU.scala:45:{20,34,49,94}] wire [63:0] _io_resp_bits_data_T_15 = {_io_resp_bits_data_T_14, io_resp_bits_data_zeroed_1}; // @[AMOALU.scala:44:23, :45:{16,20}] wire _io_resp_bits_data_shifted_T_6 = _rpq_io_deq_bits_addr[0]; // @[AMOALU.scala:42:29] wire [7:0] _io_resp_bits_data_shifted_T_7 = _io_resp_bits_data_T_15[15:8]; // @[AMOALU.scala:42:37, :45:16] wire [7:0] _io_resp_bits_data_shifted_T_8 = _io_resp_bits_data_T_15[7:0]; // @[AMOALU.scala:42:55, :45:16] wire [7:0] io_resp_bits_data_shifted_2 = _io_resp_bits_data_shifted_T_6 ? _io_resp_bits_data_shifted_T_7 : _io_resp_bits_data_shifted_T_8; // @[AMOALU.scala:42:{24,29,37,55}] wire [7:0] io_resp_bits_data_zeroed_2 = io_resp_bits_data_shifted_2; // @[AMOALU.scala:42:24, :44:23] wire _io_resp_bits_data_T_16 = size == 2'h0; // @[AMOALU.scala:11:18, :45:26] wire _io_resp_bits_data_T_17 = _io_resp_bits_data_T_16; // @[AMOALU.scala:45:{26,34}] wire _io_resp_bits_data_T_18 = io_resp_bits_data_zeroed_2[7]; // @[AMOALU.scala:44:23, :45:81] wire _io_resp_bits_data_T_19 = _rpq_io_deq_bits_uop_mem_signed & _io_resp_bits_data_T_18; // @[AMOALU.scala:45:{72,81}] wire [55:0] _io_resp_bits_data_T_20 = {56{_io_resp_bits_data_T_19}}; // @[AMOALU.scala:45:{49,72}] wire [55:0] _io_resp_bits_data_T_21 = _io_resp_bits_data_T_15[63:8]; // @[AMOALU.scala:45:{16,94}] wire [55:0] _io_resp_bits_data_T_22 = _io_resp_bits_data_T_17 ? _io_resp_bits_data_T_20 : _io_resp_bits_data_T_21; // @[AMOALU.scala:45:{20,34,49,94}] assign _io_resp_bits_data_T_23 = {_io_resp_bits_data_T_22, io_resp_bits_data_zeroed_2}; // @[AMOALU.scala:44:23, :45:{16,20}] assign io_resp_bits_data_0 = _io_resp_bits_data_T_23; // @[AMOALU.scala:45:16] wire _T_26 = rpq_io_deq_ready & _rpq_io_deq_valid; // @[Decoupled.scala:51:35] wire _T_28 = _rpq_io_empty & ~commit_line; // @[mshrs.scala:128:19, :140:24, :282:{31,34}] wire _T_33 = _rpq_io_empty | _rpq_io_deq_valid & ~drain_load; // @[mshrs.scala:128:19, :258:60, :288:{31,52,55}] assign io_commit_val_0 = ~_GEN_42 & _io_probe_rdy_T_4 & ~(_T_26 | _T_28) & _T_33; // @[Decoupled.scala:51:35] wire _io_meta_read_valid_T = ~io_prober_state_valid_0; // @[mshrs.scala:36:7, :295:27] wire _io_meta_read_valid_T_1 = ~grantack_valid; // @[mshrs.scala:138:21, :295:53] wire _io_meta_read_valid_T_2 = _io_meta_read_valid_T | _io_meta_read_valid_T_1; // @[mshrs.scala:295:{27,50,53}] wire [5:0] _io_meta_read_valid_T_3 = io_prober_state_bits_0[11:6]; // @[mshrs.scala:36:7, :295:93] wire _io_meta_read_valid_T_4 = _io_meta_read_valid_T_3 != req_idx; // @[mshrs.scala:110:25, :295:{93,120}] wire _io_meta_read_valid_T_5 = _io_meta_read_valid_T_2 | _io_meta_read_valid_T_4; // @[mshrs.scala:295:{50,69,120}] assign io_meta_read_valid_0 = ~(~(|state) | _io_probe_rdy_T_2 | _io_probe_rdy_T_3 | _io_probe_rdy_T_4) & _io_probe_rdy_T_8 & _io_meta_read_valid_T_5; // @[package.scala:16:47] assign io_meta_write_bits_data_tag_0 = req_tag[19:0]; // @[mshrs.scala:36:7, :111:26, :297:27] assign io_meta_read_bits_tag_0 = req_tag[19:0]; // @[mshrs.scala:36:7, :111:26, :297:27] wire _T_36 = state == 5'h5; // @[mshrs.scala:107:22, :302:22] wire _T_37 = state == 5'h6; // @[mshrs.scala:107:22, :304:22] wire [3:0] _needs_wb_r_T_6 = {2'h2, io_meta_resp_bits_coh_state_0}; // @[Metadata.scala:120:19] wire _needs_wb_r_T_19 = _needs_wb_r_T_6 == 4'h8; // @[Misc.scala:56:20] wire [2:0] _needs_wb_r_T_21 = _needs_wb_r_T_19 ? 3'h5 : 3'h0; // @[Misc.scala:38:36, :56:20] wire _needs_wb_r_T_23 = _needs_wb_r_T_6 == 4'h9; // @[Misc.scala:56:20] wire [2:0] _needs_wb_r_T_25 = _needs_wb_r_T_23 ? 3'h2 : _needs_wb_r_T_21; // @[Misc.scala:38:36, :56:20] wire _needs_wb_r_T_27 = _needs_wb_r_T_6 == 4'hA; // @[Misc.scala:56:20] wire [2:0] _needs_wb_r_T_29 = _needs_wb_r_T_27 ? 3'h1 : _needs_wb_r_T_25; // @[Misc.scala:38:36, :56:20] wire _needs_wb_r_T_31 = _needs_wb_r_T_6 == 4'hB; // @[Misc.scala:56:20] wire _needs_wb_r_T_32 = _needs_wb_r_T_31; // @[Misc.scala:38:9, :56:20] wire [2:0] _needs_wb_r_T_33 = _needs_wb_r_T_31 ? 3'h1 : _needs_wb_r_T_29; // @[Misc.scala:38:36, :56:20] wire _needs_wb_r_T_35 = _needs_wb_r_T_6 == 4'h4; // @[Misc.scala:56:20] wire _needs_wb_r_T_36 = ~_needs_wb_r_T_35 & _needs_wb_r_T_32; // @[Misc.scala:38:9, :56:20] wire [2:0] _needs_wb_r_T_37 = _needs_wb_r_T_35 ? 3'h5 : _needs_wb_r_T_33; // @[Misc.scala:38:36, :56:20] wire _needs_wb_r_T_39 = _needs_wb_r_T_6 == 4'h5; // @[Misc.scala:56:20] wire _needs_wb_r_T_40 = ~_needs_wb_r_T_39 & _needs_wb_r_T_36; // @[Misc.scala:38:9, :56:20] wire [2:0] _needs_wb_r_T_41 = _needs_wb_r_T_39 ? 3'h4 : _needs_wb_r_T_37; // @[Misc.scala:38:36, :56:20] wire [1:0] _needs_wb_r_T_42 = {1'h0, _needs_wb_r_T_39}; // @[Misc.scala:38:63, :56:20] wire _needs_wb_r_T_43 = _needs_wb_r_T_6 == 4'h6; // @[Misc.scala:56:20] wire _needs_wb_r_T_44 = ~_needs_wb_r_T_43 & _needs_wb_r_T_40; // @[Misc.scala:38:9, :56:20] wire [2:0] _needs_wb_r_T_45 = _needs_wb_r_T_43 ? 3'h0 : _needs_wb_r_T_41; // @[Misc.scala:38:36, :56:20] wire [1:0] _needs_wb_r_T_46 = _needs_wb_r_T_43 ? 2'h1 : _needs_wb_r_T_42; // @[Misc.scala:38:63, :56:20] wire _needs_wb_r_T_47 = _needs_wb_r_T_6 == 4'h7; // @[Misc.scala:56:20] wire _needs_wb_r_T_48 = _needs_wb_r_T_47 | _needs_wb_r_T_44; // @[Misc.scala:38:9, :56:20] wire [2:0] _needs_wb_r_T_49 = _needs_wb_r_T_47 ? 3'h0 : _needs_wb_r_T_45; // @[Misc.scala:38:36, :56:20] wire [1:0] _needs_wb_r_T_50 = _needs_wb_r_T_47 ? 2'h1 : _needs_wb_r_T_46; // @[Misc.scala:38:63, :56:20] wire _needs_wb_r_T_51 = _needs_wb_r_T_6 == 4'h0; // @[Misc.scala:56:20] wire _needs_wb_r_T_52 = ~_needs_wb_r_T_51 & _needs_wb_r_T_48; // @[Misc.scala:38:9, :56:20] wire [2:0] _needs_wb_r_T_53 = _needs_wb_r_T_51 ? 3'h5 : _needs_wb_r_T_49; // @[Misc.scala:38:36, :56:20] wire [1:0] _needs_wb_r_T_54 = _needs_wb_r_T_51 ? 2'h0 : _needs_wb_r_T_50; // @[Misc.scala:38:63, :56:20] wire _needs_wb_r_T_55 = _needs_wb_r_T_6 == 4'h1; // @[Misc.scala:56:20] wire _needs_wb_r_T_56 = ~_needs_wb_r_T_55 & _needs_wb_r_T_52; // @[Misc.scala:38:9, :56:20] wire [2:0] _needs_wb_r_T_57 = _needs_wb_r_T_55 ? 3'h4 : _needs_wb_r_T_53; // @[Misc.scala:38:36, :56:20] wire [1:0] _needs_wb_r_T_58 = _needs_wb_r_T_55 ? 2'h1 : _needs_wb_r_T_54; // @[Misc.scala:38:63, :56:20] wire _needs_wb_r_T_59 = _needs_wb_r_T_6 == 4'h2; // @[Misc.scala:56:20] wire _needs_wb_r_T_60 = ~_needs_wb_r_T_59 & _needs_wb_r_T_56; // @[Misc.scala:38:9, :56:20] wire [2:0] _needs_wb_r_T_61 = _needs_wb_r_T_59 ? 3'h3 : _needs_wb_r_T_57; // @[Misc.scala:38:36, :56:20] wire [1:0] _needs_wb_r_T_62 = _needs_wb_r_T_59 ? 2'h2 : _needs_wb_r_T_58; // @[Misc.scala:38:63, :56:20] wire _needs_wb_r_T_63 = _needs_wb_r_T_6 == 4'h3; // @[Misc.scala:56:20] wire needs_wb = _needs_wb_r_T_63 | _needs_wb_r_T_60; // @[Misc.scala:38:9, :56:20] wire [2:0] needs_wb_r_2 = _needs_wb_r_T_63 ? 3'h3 : _needs_wb_r_T_61; // @[Misc.scala:38:36, :56:20] wire [1:0] needs_wb_r_3 = _needs_wb_r_T_63 ? 2'h2 : _needs_wb_r_T_62; // @[Misc.scala:38:63, :56:20] wire [1:0] needs_wb_meta_state = needs_wb_r_3; // @[Misc.scala:38:63] wire _state_T_30 = ~io_meta_resp_valid_0; // @[mshrs.scala:36:7, :306:18] wire [4:0] _state_T_31 = needs_wb ? 5'h7 : 5'hB; // @[Misc.scala:38:9] wire [4:0] _state_T_32 = _state_T_30 ? 5'h4 : _state_T_31; // @[mshrs.scala:306:{17,18}, :307:17] wire _T_38 = state == 5'h7; // @[mshrs.scala:107:22, :308:22] wire _T_40 = state == 5'h9; // @[mshrs.scala:107:22, :318:22] assign io_wb_req_valid_0 = ~(~(|state) | _io_probe_rdy_T_2 | _io_probe_rdy_T_3 | _io_probe_rdy_T_4 | _io_probe_rdy_T_8 | _T_36 | _T_37 | _T_38) & _T_40; // @[package.scala:16:47] wire _T_42 = state == 5'hA; // @[mshrs.scala:107:22, :330:22] wire _T_43 = state == 5'hB; // @[mshrs.scala:107:22, :334:22] wire _GEN_43 = _io_probe_rdy_T_8 | _T_36 | _T_37 | _T_38 | _T_40 | _T_42; // @[mshrs.scala:148:129, :179:26, :294:39, :302:{22,41}, :304:{22,41}, :308:{22,40}, :318:{22,36}, :330:{22,37}, :334:41] assign io_lb_read_valid_0 = ~_GEN_42 & (_io_probe_rdy_T_4 ? _io_lb_read_valid_T : ~_GEN_43 & _T_43); // @[package.scala:16:47] assign io_lb_read_bits_offset_0 = _io_probe_rdy_T_4 ? _io_lb_read_bits_offset_T[1:0] : refill_ctr; // @[package.scala:16:47] wire _GEN_44 = _io_probe_rdy_T_2 | _io_probe_rdy_T_3 | _io_probe_rdy_T_4 | _GEN_43; // @[package.scala:16:47] assign io_refill_valid_0 = ~(~(|state) | _GEN_44) & _T_43 & _io_refill_valid_T; // @[Decoupled.scala:51:35] wire [5:0] _io_refill_bits_addr_T = {refill_ctr, 4'h0}; // @[mshrs.scala:139:24, :340:59] wire [39:0] _io_refill_bits_addr_T_1 = {req_block_addr[39:6], req_block_addr[5:0] | _io_refill_bits_addr_T}; // @[mshrs.scala:112:51, :340:{45,59}] assign io_refill_bits_addr_0 = _io_refill_bits_addr_T_1[11:0]; // @[mshrs.scala:36:7, :340:{27,45}] wire [2:0] _refill_ctr_T = {1'h0, refill_ctr} + 3'h1; // @[mshrs.scala:139:24, :345:32] wire [1:0] _refill_ctr_T_1 = _refill_ctr_T[1:0]; // @[mshrs.scala:345:32] wire _T_46 = state == 5'hC; // @[mshrs.scala:107:22, :350:22] wire _GEN_45 = _io_probe_rdy_T_8 | _T_36 | _T_37 | _T_38 | _T_40 | _T_42 | _T_43; // @[mshrs.scala:148:129, :164:26, :294:39, :302:{22,41}, :304:{22,41}, :308:{22,40}, :318:{22,36}, :330:{22,37}, :334:{22,41}, :350:39] wire _GEN_46 = _io_probe_rdy_T_4 | _GEN_45; // @[package.scala:16:47] assign io_replay_valid_0 = ~(~(|state) | _io_probe_rdy_T_2 | _io_probe_rdy_T_3 | _GEN_46) & _T_46 & _rpq_io_deq_valid; // @[package.scala:16:47] assign rpq_io_deq_ready = ~_GEN_42 & (_io_probe_rdy_T_4 ? _rpq_io_deq_ready_T_1 : ~_GEN_45 & _T_46 & io_replay_ready_0); // @[package.scala:16:47] wire [5:0] _io_replay_bits_addr_T = _rpq_io_deq_bits_addr[5:0]; // @[mshrs.scala:128:19, :353:70] assign _io_replay_bits_addr_T_1 = {io_replay_bits_addr_hi, _io_replay_bits_addr_T}; // @[mshrs.scala:353:{31,70}] assign io_replay_bits_addr_0 = _io_replay_bits_addr_T_1; // @[mshrs.scala:36:7, :353:31] wire _T_48 = _rpq_io_deq_bits_uop_mem_cmd == 5'h1; // @[Consts.scala:90:32] wire _r_c_cat_T; // @[Consts.scala:90:32] assign _r_c_cat_T = _T_48; // @[Consts.scala:90:32] wire _r_c_cat_T_23; // @[Consts.scala:90:32] assign _r_c_cat_T_23 = _T_48; // @[Consts.scala:90:32] wire _T_49 = _rpq_io_deq_bits_uop_mem_cmd == 5'h11; // @[Consts.scala:90:49] wire _r_c_cat_T_1; // @[Consts.scala:90:49] assign _r_c_cat_T_1 = _T_49; // @[Consts.scala:90:49] wire _r_c_cat_T_24; // @[Consts.scala:90:49] assign _r_c_cat_T_24 = _T_49; // @[Consts.scala:90:49] wire _T_51 = _rpq_io_deq_bits_uop_mem_cmd == 5'h7; // @[Consts.scala:90:66] wire _r_c_cat_T_3; // @[Consts.scala:90:66] assign _r_c_cat_T_3 = _T_51; // @[Consts.scala:90:66] wire _r_c_cat_T_26; // @[Consts.scala:90:66] assign _r_c_cat_T_26 = _T_51; // @[Consts.scala:90:66] wire _T_53 = _rpq_io_deq_bits_uop_mem_cmd == 5'h4; // @[package.scala:16:47] wire _r_c_cat_T_5; // @[package.scala:16:47] assign _r_c_cat_T_5 = _T_53; // @[package.scala:16:47] wire _r_c_cat_T_28; // @[package.scala:16:47] assign _r_c_cat_T_28 = _T_53; // @[package.scala:16:47] wire _T_54 = _rpq_io_deq_bits_uop_mem_cmd == 5'h9; // @[package.scala:16:47] wire _r_c_cat_T_6; // @[package.scala:16:47] assign _r_c_cat_T_6 = _T_54; // @[package.scala:16:47] wire _r_c_cat_T_29; // @[package.scala:16:47] assign _r_c_cat_T_29 = _T_54; // @[package.scala:16:47] wire _T_55 = _rpq_io_deq_bits_uop_mem_cmd == 5'hA; // @[package.scala:16:47] wire _r_c_cat_T_7; // @[package.scala:16:47] assign _r_c_cat_T_7 = _T_55; // @[package.scala:16:47] wire _r_c_cat_T_30; // @[package.scala:16:47] assign _r_c_cat_T_30 = _T_55; // @[package.scala:16:47] wire _T_56 = _rpq_io_deq_bits_uop_mem_cmd == 5'hB; // @[package.scala:16:47] wire _r_c_cat_T_8; // @[package.scala:16:47] assign _r_c_cat_T_8 = _T_56; // @[package.scala:16:47] wire _r_c_cat_T_31; // @[package.scala:16:47] assign _r_c_cat_T_31 = _T_56; // @[package.scala:16:47] wire _T_60 = _rpq_io_deq_bits_uop_mem_cmd == 5'h8; // @[package.scala:16:47] wire _r_c_cat_T_12; // @[package.scala:16:47] assign _r_c_cat_T_12 = _T_60; // @[package.scala:16:47] wire _r_c_cat_T_35; // @[package.scala:16:47] assign _r_c_cat_T_35 = _T_60; // @[package.scala:16:47] wire _T_61 = _rpq_io_deq_bits_uop_mem_cmd == 5'hC; // @[package.scala:16:47] wire _r_c_cat_T_13; // @[package.scala:16:47] assign _r_c_cat_T_13 = _T_61; // @[package.scala:16:47] wire _r_c_cat_T_36; // @[package.scala:16:47] assign _r_c_cat_T_36 = _T_61; // @[package.scala:16:47] wire _T_62 = _rpq_io_deq_bits_uop_mem_cmd == 5'hD; // @[package.scala:16:47] wire _r_c_cat_T_14; // @[package.scala:16:47] assign _r_c_cat_T_14 = _T_62; // @[package.scala:16:47] wire _r_c_cat_T_37; // @[package.scala:16:47] assign _r_c_cat_T_37 = _T_62; // @[package.scala:16:47] wire _T_63 = _rpq_io_deq_bits_uop_mem_cmd == 5'hE; // @[package.scala:16:47] wire _r_c_cat_T_15; // @[package.scala:16:47] assign _r_c_cat_T_15 = _T_63; // @[package.scala:16:47] wire _r_c_cat_T_38; // @[package.scala:16:47] assign _r_c_cat_T_38 = _T_63; // @[package.scala:16:47] wire _T_64 = _rpq_io_deq_bits_uop_mem_cmd == 5'hF; // @[package.scala:16:47] wire _r_c_cat_T_16; // @[package.scala:16:47] assign _r_c_cat_T_16 = _T_64; // @[package.scala:16:47] wire _r_c_cat_T_39; // @[package.scala:16:47] assign _r_c_cat_T_39 = _T_64; // @[package.scala:16:47] wire _T_71 = io_replay_ready_0 & io_replay_valid_0 & (_T_48 | _T_49 | _T_51 | _T_53 | _T_54 | _T_55 | _T_56 | _T_60 | _T_61 | _T_62 | _T_63 | _T_64); // @[Decoupled.scala:51:35] wire _r_c_cat_T_2 = _r_c_cat_T | _r_c_cat_T_1; // @[Consts.scala:90:{32,42,49}] wire _r_c_cat_T_4 = _r_c_cat_T_2 | _r_c_cat_T_3; // @[Consts.scala:90:{42,59,66}] wire _r_c_cat_T_9 = _r_c_cat_T_5 | _r_c_cat_T_6; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_10 = _r_c_cat_T_9 | _r_c_cat_T_7; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_11 = _r_c_cat_T_10 | _r_c_cat_T_8; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_17 = _r_c_cat_T_12 | _r_c_cat_T_13; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_18 = _r_c_cat_T_17 | _r_c_cat_T_14; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_19 = _r_c_cat_T_18 | _r_c_cat_T_15; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_20 = _r_c_cat_T_19 | _r_c_cat_T_16; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_21 = _r_c_cat_T_11 | _r_c_cat_T_20; // @[package.scala:81:59] wire _r_c_cat_T_22 = _r_c_cat_T_4 | _r_c_cat_T_21; // @[Consts.scala:87:44, :90:{59,76}] wire _r_c_cat_T_25 = _r_c_cat_T_23 | _r_c_cat_T_24; // @[Consts.scala:90:{32,42,49}] wire _r_c_cat_T_27 = _r_c_cat_T_25 | _r_c_cat_T_26; // @[Consts.scala:90:{42,59,66}] wire _r_c_cat_T_32 = _r_c_cat_T_28 | _r_c_cat_T_29; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_33 = _r_c_cat_T_32 | _r_c_cat_T_30; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_34 = _r_c_cat_T_33 | _r_c_cat_T_31; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_40 = _r_c_cat_T_35 | _r_c_cat_T_36; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_41 = _r_c_cat_T_40 | _r_c_cat_T_37; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_42 = _r_c_cat_T_41 | _r_c_cat_T_38; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_43 = _r_c_cat_T_42 | _r_c_cat_T_39; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_44 = _r_c_cat_T_34 | _r_c_cat_T_43; // @[package.scala:81:59] wire _r_c_cat_T_45 = _r_c_cat_T_27 | _r_c_cat_T_44; // @[Consts.scala:87:44, :90:{59,76}] wire _r_c_cat_T_46 = _rpq_io_deq_bits_uop_mem_cmd == 5'h3; // @[Consts.scala:91:54] wire _r_c_cat_T_47 = _r_c_cat_T_45 | _r_c_cat_T_46; // @[Consts.scala:90:76, :91:{47,54}] wire _r_c_cat_T_49 = _r_c_cat_T_47 | _r_c_cat_T_48; // @[Consts.scala:91:{47,64,71}] wire [1:0] r_c = {_r_c_cat_T_22, _r_c_cat_T_49}; // @[Metadata.scala:29:18] wire [3:0] _r_T_64 = {r_c, new_coh_state}; // @[Metadata.scala:29:18, :58:19] wire _r_T_89 = _r_T_64 == 4'hC; // @[Misc.scala:49:20] wire [1:0] _r_T_91 = {1'h0, _r_T_89}; // @[Misc.scala:35:36, :49:20] wire _r_T_92 = _r_T_64 == 4'hD; // @[Misc.scala:49:20] wire [1:0] _r_T_94 = _r_T_92 ? 2'h2 : _r_T_91; // @[Misc.scala:35:36, :49:20] wire _r_T_95 = _r_T_64 == 4'h4; // @[Misc.scala:49:20] wire [1:0] _r_T_97 = _r_T_95 ? 2'h1 : _r_T_94; // @[Misc.scala:35:36, :49:20] wire _r_T_98 = _r_T_64 == 4'h5; // @[Misc.scala:49:20] wire [1:0] _r_T_100 = _r_T_98 ? 2'h2 : _r_T_97; // @[Misc.scala:35:36, :49:20] wire _r_T_101 = _r_T_64 == 4'h0; // @[Misc.scala:49:20] wire [1:0] _r_T_103 = _r_T_101 ? 2'h0 : _r_T_100; // @[Misc.scala:35:36, :49:20] wire _r_T_104 = _r_T_64 == 4'hE; // @[Misc.scala:49:20] wire _r_T_105 = _r_T_104; // @[Misc.scala:35:9, :49:20] wire [1:0] _r_T_106 = _r_T_104 ? 2'h3 : _r_T_103; // @[Misc.scala:35:36, :49:20] wire _r_T_107 = &_r_T_64; // @[Misc.scala:49:20] wire _r_T_108 = _r_T_107 | _r_T_105; // @[Misc.scala:35:9, :49:20] wire [1:0] _r_T_109 = _r_T_107 ? 2'h3 : _r_T_106; // @[Misc.scala:35:36, :49:20] wire _r_T_110 = _r_T_64 == 4'h6; // @[Misc.scala:49:20] wire _r_T_111 = _r_T_110 | _r_T_108; // @[Misc.scala:35:9, :49:20] wire [1:0] _r_T_112 = _r_T_110 ? 2'h2 : _r_T_109; // @[Misc.scala:35:36, :49:20] wire _r_T_113 = _r_T_64 == 4'h7; // @[Misc.scala:49:20] wire _r_T_114 = _r_T_113 | _r_T_111; // @[Misc.scala:35:9, :49:20] wire [1:0] _r_T_115 = _r_T_113 ? 2'h3 : _r_T_112; // @[Misc.scala:35:36, :49:20] wire _r_T_116 = _r_T_64 == 4'h1; // @[Misc.scala:49:20] wire _r_T_117 = _r_T_116 | _r_T_114; // @[Misc.scala:35:9, :49:20] wire [1:0] _r_T_118 = _r_T_116 ? 2'h1 : _r_T_115; // @[Misc.scala:35:36, :49:20] wire _r_T_119 = _r_T_64 == 4'h2; // @[Misc.scala:49:20] wire _r_T_120 = _r_T_119 | _r_T_117; // @[Misc.scala:35:9, :49:20] wire [1:0] _r_T_121 = _r_T_119 ? 2'h2 : _r_T_118; // @[Misc.scala:35:36, :49:20] wire _r_T_122 = _r_T_64 == 4'h3; // @[Misc.scala:49:20] wire is_hit = _r_T_122 | _r_T_120; // @[Misc.scala:35:9, :49:20] wire [1:0] r_2_1 = _r_T_122 ? 2'h3 : _r_T_121; // @[Misc.scala:35:36, :49:20] wire [1:0] coh_on_hit_state = r_2_1; // @[Misc.scala:35:36] wire _GEN_47 = _T_40 | _T_42 | _T_43 | _T_46; // @[mshrs.scala:156:26, :318:{22,36}, :330:{22,37}, :334:{22,41}, :350:{22,39}, :363:44] assign io_meta_write_valid_0 = ~(~(|state) | _io_probe_rdy_T_2 | _io_probe_rdy_T_3 | _io_probe_rdy_T_4 | _io_probe_rdy_T_8 | _T_36 | _T_37) & (_T_38 | ~_GEN_47 & _sec_rdy_T_4); // @[package.scala:16:47] assign io_meta_write_bits_data_coh_state_0 = _T_38 ? coh_on_clear_state : new_coh_state; // @[Metadata.scala:160:20] wire _GEN_48 = _io_probe_rdy_T_4 | _io_probe_rdy_T_8 | _T_36 | _T_37 | _T_38 | _T_40 | _T_42 | _T_43 | _T_46 | _sec_rdy_T_4; // @[package.scala:16:47] assign io_mem_finish_valid_0 = ~(~(|state) | _io_probe_rdy_T_2 | _io_probe_rdy_T_3 | _GEN_48) & _sec_rdy_T_5 & grantack_valid; // @[package.scala:16:47] wire [4:0] _state_T_33 = finish_to_prefetch ? 5'h11 : 5'h0; // @[mshrs.scala:142:31, :381:17] wire _GEN_49 = _sec_rdy_T_4 | _sec_rdy_T_5 | _sec_rdy_T_6; // @[package.scala:16:47] wire _GEN_50 = _T_46 | _GEN_49; // @[mshrs.scala:158:26, :350:{22,39}, :363:44, :373:42, :380:42, :382:38] wire _GEN_51 = _io_probe_rdy_T_4 | _io_probe_rdy_T_8 | _T_36 | _T_37 | _T_38 | _T_40 | _T_42 | _T_43 | _GEN_50; // @[package.scala:16:47] wire _GEN_52 = _io_probe_rdy_T_2 | _io_probe_rdy_T_3 | _GEN_51; // @[package.scala:16:47] assign io_req_pri_rdy_0 = ~(|state) | ~_GEN_52 & _io_way_valid_T_1; // @[package.scala:16:47] wire _T_87 = io_req_sec_val_0 & ~io_req_sec_rdy_0 | io_clear_prefetch_0; // @[mshrs.scala:36:7, :384:{27,30,47}] wire _r_c_cat_T_52 = _r_c_cat_T_50 | _r_c_cat_T_51; // @[Consts.scala:90:{32,42,49}] wire _r_c_cat_T_54 = _r_c_cat_T_52 | _r_c_cat_T_53; // @[Consts.scala:90:{42,59,66}] wire _r_c_cat_T_59 = _r_c_cat_T_55 | _r_c_cat_T_56; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_60 = _r_c_cat_T_59 | _r_c_cat_T_57; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_61 = _r_c_cat_T_60 | _r_c_cat_T_58; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_67 = _r_c_cat_T_62 | _r_c_cat_T_63; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_68 = _r_c_cat_T_67 | _r_c_cat_T_64; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_69 = _r_c_cat_T_68 | _r_c_cat_T_65; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_70 = _r_c_cat_T_69 | _r_c_cat_T_66; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_71 = _r_c_cat_T_61 | _r_c_cat_T_70; // @[package.scala:81:59] wire _r_c_cat_T_72 = _r_c_cat_T_54 | _r_c_cat_T_71; // @[Consts.scala:87:44, :90:{59,76}] wire _r_c_cat_T_75 = _r_c_cat_T_73 | _r_c_cat_T_74; // @[Consts.scala:90:{32,42,49}] wire _r_c_cat_T_77 = _r_c_cat_T_75 | _r_c_cat_T_76; // @[Consts.scala:90:{42,59,66}] wire _r_c_cat_T_82 = _r_c_cat_T_78 | _r_c_cat_T_79; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_83 = _r_c_cat_T_82 | _r_c_cat_T_80; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_84 = _r_c_cat_T_83 | _r_c_cat_T_81; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_90 = _r_c_cat_T_85 | _r_c_cat_T_86; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_91 = _r_c_cat_T_90 | _r_c_cat_T_87; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_92 = _r_c_cat_T_91 | _r_c_cat_T_88; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_93 = _r_c_cat_T_92 | _r_c_cat_T_89; // @[package.scala:16:47, :81:59] wire _r_c_cat_T_94 = _r_c_cat_T_84 | _r_c_cat_T_93; // @[package.scala:81:59] wire _r_c_cat_T_95 = _r_c_cat_T_77 | _r_c_cat_T_94; // @[Consts.scala:87:44, :90:{59,76}] wire _r_c_cat_T_97 = _r_c_cat_T_95 | _r_c_cat_T_96; // @[Consts.scala:90:76, :91:{47,54}] wire _r_c_cat_T_99 = _r_c_cat_T_97 | _r_c_cat_T_98; // @[Consts.scala:91:{47,64,71}] wire [1:0] r_c_1 = {_r_c_cat_T_72, _r_c_cat_T_99}; // @[Metadata.scala:29:18] wire [3:0] _r_T_123 = {r_c_1, new_coh_state}; // @[Metadata.scala:29:18, :58:19] wire _r_T_148 = _r_T_123 == 4'hC; // @[Misc.scala:49:20] wire [1:0] _r_T_150 = {1'h0, _r_T_148}; // @[Misc.scala:35:36, :49:20] wire _r_T_151 = _r_T_123 == 4'hD; // @[Misc.scala:49:20] wire [1:0] _r_T_153 = _r_T_151 ? 2'h2 : _r_T_150; // @[Misc.scala:35:36, :49:20] wire _r_T_154 = _r_T_123 == 4'h4; // @[Misc.scala:49:20] wire [1:0] _r_T_156 = _r_T_154 ? 2'h1 : _r_T_153; // @[Misc.scala:35:36, :49:20] wire _r_T_157 = _r_T_123 == 4'h5; // @[Misc.scala:49:20] wire [1:0] _r_T_159 = _r_T_157 ? 2'h2 : _r_T_156; // @[Misc.scala:35:36, :49:20] wire _r_T_160 = _r_T_123 == 4'h0; // @[Misc.scala:49:20] wire [1:0] _r_T_162 = _r_T_160 ? 2'h0 : _r_T_159; // @[Misc.scala:35:36, :49:20] wire _r_T_163 = _r_T_123 == 4'hE; // @[Misc.scala:49:20] wire _r_T_164 = _r_T_163; // @[Misc.scala:35:9, :49:20] wire [1:0] _r_T_165 = _r_T_163 ? 2'h3 : _r_T_162; // @[Misc.scala:35:36, :49:20] wire _r_T_166 = &_r_T_123; // @[Misc.scala:49:20] wire _r_T_167 = _r_T_166 | _r_T_164; // @[Misc.scala:35:9, :49:20] wire [1:0] _r_T_168 = _r_T_166 ? 2'h3 : _r_T_165; // @[Misc.scala:35:36, :49:20] wire _r_T_169 = _r_T_123 == 4'h6; // @[Misc.scala:49:20] wire _r_T_170 = _r_T_169 | _r_T_167; // @[Misc.scala:35:9, :49:20] wire [1:0] _r_T_171 = _r_T_169 ? 2'h2 : _r_T_168; // @[Misc.scala:35:36, :49:20] wire _r_T_172 = _r_T_123 == 4'h7; // @[Misc.scala:49:20] wire _r_T_173 = _r_T_172 | _r_T_170; // @[Misc.scala:35:9, :49:20] wire [1:0] _r_T_174 = _r_T_172 ? 2'h3 : _r_T_171; // @[Misc.scala:35:36, :49:20] wire _r_T_175 = _r_T_123 == 4'h1; // @[Misc.scala:49:20] wire _r_T_176 = _r_T_175 | _r_T_173; // @[Misc.scala:35:9, :49:20] wire [1:0] _r_T_177 = _r_T_175 ? 2'h1 : _r_T_174; // @[Misc.scala:35:36, :49:20] wire _r_T_178 = _r_T_123 == 4'h2; // @[Misc.scala:49:20] wire _r_T_179 = _r_T_178 | _r_T_176; // @[Misc.scala:35:9, :49:20] wire [1:0] _r_T_180 = _r_T_178 ? 2'h2 : _r_T_177; // @[Misc.scala:35:36, :49:20] wire _r_T_181 = _r_T_123 == 4'h3; // @[Misc.scala:49:20] wire is_hit_1 = _r_T_181 | _r_T_179; // @[Misc.scala:35:9, :49:20] wire [1:0] r_2_2 = _r_T_181 ? 2'h3 : _r_T_180; // @[Misc.scala:35:36, :49:20] wire [1:0] coh_on_hit_1_state = r_2_2; // @[Misc.scala:35:36] wire [4:0] state_new_state_1; // @[mshrs.scala:191:29] wire _state_T_35 = ~_state_T_34; // @[mshrs.scala:194:11] wire _state_T_36 = ~_rpq_io_enq_ready; // @[mshrs.scala:128:19, :194:11] wire _state_req_needs_wb_r_T_83 = _state_req_needs_wb_r_T_70 == 4'h8; // @[Misc.scala:56:20] wire [2:0] _state_req_needs_wb_r_T_85 = _state_req_needs_wb_r_T_83 ? 3'h5 : 3'h0; // @[Misc.scala:38:36, :56:20] wire _state_req_needs_wb_r_T_87 = _state_req_needs_wb_r_T_70 == 4'h9; // @[Misc.scala:56:20] wire [2:0] _state_req_needs_wb_r_T_89 = _state_req_needs_wb_r_T_87 ? 3'h2 : _state_req_needs_wb_r_T_85; // @[Misc.scala:38:36, :56:20] wire _state_req_needs_wb_r_T_91 = _state_req_needs_wb_r_T_70 == 4'hA; // @[Misc.scala:56:20] wire [2:0] _state_req_needs_wb_r_T_93 = _state_req_needs_wb_r_T_91 ? 3'h1 : _state_req_needs_wb_r_T_89; // @[Misc.scala:38:36, :56:20] wire _state_req_needs_wb_r_T_95 = _state_req_needs_wb_r_T_70 == 4'hB; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_96 = _state_req_needs_wb_r_T_95; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_97 = _state_req_needs_wb_r_T_95 ? 3'h1 : _state_req_needs_wb_r_T_93; // @[Misc.scala:38:36, :56:20] wire _state_req_needs_wb_r_T_99 = _state_req_needs_wb_r_T_70 == 4'h4; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_100 = ~_state_req_needs_wb_r_T_99 & _state_req_needs_wb_r_T_96; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_101 = _state_req_needs_wb_r_T_99 ? 3'h5 : _state_req_needs_wb_r_T_97; // @[Misc.scala:38:36, :56:20] wire _state_req_needs_wb_r_T_103 = _state_req_needs_wb_r_T_70 == 4'h5; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_104 = ~_state_req_needs_wb_r_T_103 & _state_req_needs_wb_r_T_100; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_105 = _state_req_needs_wb_r_T_103 ? 3'h4 : _state_req_needs_wb_r_T_101; // @[Misc.scala:38:36, :56:20] wire [1:0] _state_req_needs_wb_r_T_106 = {1'h0, _state_req_needs_wb_r_T_103}; // @[Misc.scala:38:63, :56:20] wire _state_req_needs_wb_r_T_107 = _state_req_needs_wb_r_T_70 == 4'h6; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_108 = ~_state_req_needs_wb_r_T_107 & _state_req_needs_wb_r_T_104; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_109 = _state_req_needs_wb_r_T_107 ? 3'h0 : _state_req_needs_wb_r_T_105; // @[Misc.scala:38:36, :56:20] wire [1:0] _state_req_needs_wb_r_T_110 = _state_req_needs_wb_r_T_107 ? 2'h1 : _state_req_needs_wb_r_T_106; // @[Misc.scala:38:63, :56:20] wire _state_req_needs_wb_r_T_111 = _state_req_needs_wb_r_T_70 == 4'h7; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_112 = _state_req_needs_wb_r_T_111 | _state_req_needs_wb_r_T_108; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_113 = _state_req_needs_wb_r_T_111 ? 3'h0 : _state_req_needs_wb_r_T_109; // @[Misc.scala:38:36, :56:20] wire [1:0] _state_req_needs_wb_r_T_114 = _state_req_needs_wb_r_T_111 ? 2'h1 : _state_req_needs_wb_r_T_110; // @[Misc.scala:38:63, :56:20] wire _state_req_needs_wb_r_T_115 = _state_req_needs_wb_r_T_70 == 4'h0; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_116 = ~_state_req_needs_wb_r_T_115 & _state_req_needs_wb_r_T_112; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_117 = _state_req_needs_wb_r_T_115 ? 3'h5 : _state_req_needs_wb_r_T_113; // @[Misc.scala:38:36, :56:20] wire [1:0] _state_req_needs_wb_r_T_118 = _state_req_needs_wb_r_T_115 ? 2'h0 : _state_req_needs_wb_r_T_114; // @[Misc.scala:38:63, :56:20] wire _state_req_needs_wb_r_T_119 = _state_req_needs_wb_r_T_70 == 4'h1; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_120 = ~_state_req_needs_wb_r_T_119 & _state_req_needs_wb_r_T_116; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_121 = _state_req_needs_wb_r_T_119 ? 3'h4 : _state_req_needs_wb_r_T_117; // @[Misc.scala:38:36, :56:20] wire [1:0] _state_req_needs_wb_r_T_122 = _state_req_needs_wb_r_T_119 ? 2'h1 : _state_req_needs_wb_r_T_118; // @[Misc.scala:38:63, :56:20] wire _state_req_needs_wb_r_T_123 = _state_req_needs_wb_r_T_70 == 4'h2; // @[Misc.scala:56:20] wire _state_req_needs_wb_r_T_124 = ~_state_req_needs_wb_r_T_123 & _state_req_needs_wb_r_T_120; // @[Misc.scala:38:9, :56:20] wire [2:0] _state_req_needs_wb_r_T_125 = _state_req_needs_wb_r_T_123 ? 3'h3 : _state_req_needs_wb_r_T_121; // @[Misc.scala:38:36, :56:20] wire [1:0] _state_req_needs_wb_r_T_126 = _state_req_needs_wb_r_T_123 ? 2'h2 : _state_req_needs_wb_r_T_122; // @[Misc.scala:38:63, :56:20] wire _state_req_needs_wb_r_T_127 = _state_req_needs_wb_r_T_70 == 4'h3; // @[Misc.scala:56:20] wire state_req_needs_wb_r_1_1 = _state_req_needs_wb_r_T_127 | _state_req_needs_wb_r_T_124; // @[Misc.scala:38:9, :56:20] wire [2:0] state_req_needs_wb_r_2_1 = _state_req_needs_wb_r_T_127 ? 3'h3 : _state_req_needs_wb_r_T_125; // @[Misc.scala:38:36, :56:20] wire [1:0] state_req_needs_wb_r_3_1 = _state_req_needs_wb_r_T_127 ? 2'h2 : _state_req_needs_wb_r_T_126; // @[Misc.scala:38:63, :56:20] wire [1:0] state_req_needs_wb_meta_1_state = state_req_needs_wb_r_3_1; // @[Misc.scala:38:63] wire _state_r_c_cat_T_52 = _state_r_c_cat_T_50 | _state_r_c_cat_T_51; // @[Consts.scala:90:{32,42,49}] wire _state_r_c_cat_T_54 = _state_r_c_cat_T_52 | _state_r_c_cat_T_53; // @[Consts.scala:90:{42,59,66}] wire _state_r_c_cat_T_59 = _state_r_c_cat_T_55 | _state_r_c_cat_T_56; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_60 = _state_r_c_cat_T_59 | _state_r_c_cat_T_57; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_61 = _state_r_c_cat_T_60 | _state_r_c_cat_T_58; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_67 = _state_r_c_cat_T_62 | _state_r_c_cat_T_63; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_68 = _state_r_c_cat_T_67 | _state_r_c_cat_T_64; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_69 = _state_r_c_cat_T_68 | _state_r_c_cat_T_65; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_70 = _state_r_c_cat_T_69 | _state_r_c_cat_T_66; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_71 = _state_r_c_cat_T_61 | _state_r_c_cat_T_70; // @[package.scala:81:59] wire _state_r_c_cat_T_72 = _state_r_c_cat_T_54 | _state_r_c_cat_T_71; // @[Consts.scala:87:44, :90:{59,76}] wire _state_r_c_cat_T_75 = _state_r_c_cat_T_73 | _state_r_c_cat_T_74; // @[Consts.scala:90:{32,42,49}] wire _state_r_c_cat_T_77 = _state_r_c_cat_T_75 | _state_r_c_cat_T_76; // @[Consts.scala:90:{42,59,66}] wire _state_r_c_cat_T_82 = _state_r_c_cat_T_78 | _state_r_c_cat_T_79; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_83 = _state_r_c_cat_T_82 | _state_r_c_cat_T_80; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_84 = _state_r_c_cat_T_83 | _state_r_c_cat_T_81; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_90 = _state_r_c_cat_T_85 | _state_r_c_cat_T_86; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_91 = _state_r_c_cat_T_90 | _state_r_c_cat_T_87; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_92 = _state_r_c_cat_T_91 | _state_r_c_cat_T_88; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_93 = _state_r_c_cat_T_92 | _state_r_c_cat_T_89; // @[package.scala:16:47, :81:59] wire _state_r_c_cat_T_94 = _state_r_c_cat_T_84 | _state_r_c_cat_T_93; // @[package.scala:81:59] wire _state_r_c_cat_T_95 = _state_r_c_cat_T_77 | _state_r_c_cat_T_94; // @[Consts.scala:87:44, :90:{59,76}] wire _state_r_c_cat_T_97 = _state_r_c_cat_T_95 | _state_r_c_cat_T_96; // @[Consts.scala:90:76, :91:{47,54}] wire _state_r_c_cat_T_99 = _state_r_c_cat_T_97 | _state_r_c_cat_T_98; // @[Consts.scala:91:{47,64,71}] wire [1:0] state_r_c_1 = {_state_r_c_cat_T_72, _state_r_c_cat_T_99}; // @[Metadata.scala:29:18] wire [3:0] _state_r_T_59 = {state_r_c_1, io_req_old_meta_coh_state_0}; // @[Metadata.scala:29:18, :58:19] wire _state_r_T_84 = _state_r_T_59 == 4'hC; // @[Misc.scala:49:20] wire [1:0] _state_r_T_86 = {1'h0, _state_r_T_84}; // @[Misc.scala:35:36, :49:20] wire _state_r_T_87 = _state_r_T_59 == 4'hD; // @[Misc.scala:49:20] wire [1:0] _state_r_T_89 = _state_r_T_87 ? 2'h2 : _state_r_T_86; // @[Misc.scala:35:36, :49:20] wire _state_r_T_90 = _state_r_T_59 == 4'h4; // @[Misc.scala:49:20] wire [1:0] _state_r_T_92 = _state_r_T_90 ? 2'h1 : _state_r_T_89; // @[Misc.scala:35:36, :49:20] wire _state_r_T_93 = _state_r_T_59 == 4'h5; // @[Misc.scala:49:20] wire [1:0] _state_r_T_95 = _state_r_T_93 ? 2'h2 : _state_r_T_92; // @[Misc.scala:35:36, :49:20] wire _state_r_T_96 = _state_r_T_59 == 4'h0; // @[Misc.scala:49:20] wire [1:0] _state_r_T_98 = _state_r_T_96 ? 2'h0 : _state_r_T_95; // @[Misc.scala:35:36, :49:20] wire _state_r_T_99 = _state_r_T_59 == 4'hE; // @[Misc.scala:49:20] wire _state_r_T_100 = _state_r_T_99; // @[Misc.scala:35:9, :49:20] wire [1:0] _state_r_T_101 = _state_r_T_99 ? 2'h3 : _state_r_T_98; // @[Misc.scala:35:36, :49:20] wire _state_r_T_102 = &_state_r_T_59; // @[Misc.scala:49:20] wire _state_r_T_103 = _state_r_T_102 | _state_r_T_100; // @[Misc.scala:35:9, :49:20] wire [1:0] _state_r_T_104 = _state_r_T_102 ? 2'h3 : _state_r_T_101; // @[Misc.scala:35:36, :49:20] wire _state_r_T_105 = _state_r_T_59 == 4'h6; // @[Misc.scala:49:20] wire _state_r_T_106 = _state_r_T_105 | _state_r_T_103; // @[Misc.scala:35:9, :49:20] wire [1:0] _state_r_T_107 = _state_r_T_105 ? 2'h2 : _state_r_T_104; // @[Misc.scala:35:36, :49:20] wire _state_r_T_108 = _state_r_T_59 == 4'h7; // @[Misc.scala:49:20] wire _state_r_T_109 = _state_r_T_108 | _state_r_T_106; // @[Misc.scala:35:9, :49:20] wire [1:0] _state_r_T_110 = _state_r_T_108 ? 2'h3 : _state_r_T_107; // @[Misc.scala:35:36, :49:20] wire _state_r_T_111 = _state_r_T_59 == 4'h1; // @[Misc.scala:49:20] wire _state_r_T_112 = _state_r_T_111 | _state_r_T_109; // @[Misc.scala:35:9, :49:20] wire [1:0] _state_r_T_113 = _state_r_T_111 ? 2'h1 : _state_r_T_110; // @[Misc.scala:35:36, :49:20] wire _state_r_T_114 = _state_r_T_59 == 4'h2; // @[Misc.scala:49:20] wire _state_r_T_115 = _state_r_T_114 | _state_r_T_112; // @[Misc.scala:35:9, :49:20] wire [1:0] _state_r_T_116 = _state_r_T_114 ? 2'h2 : _state_r_T_113; // @[Misc.scala:35:36, :49:20] wire _state_r_T_117 = _state_r_T_59 == 4'h3; // @[Misc.scala:49:20] wire state_is_hit_1 = _state_r_T_117 | _state_r_T_115; // @[Misc.scala:35:9, :49:20] wire [1:0] state_r_2_1 = _state_r_T_117 ? 2'h3 : _state_r_T_116; // @[Misc.scala:35:36, :49:20] wire [1:0] state_coh_on_hit_1_state = state_r_2_1; // @[Misc.scala:35:36] wire _state_T_39 = _state_T_37 | _state_T_38; // @[Consts.scala:90:{32,42,49}] wire _state_T_41 = _state_T_39 | _state_T_40; // @[Consts.scala:90:{42,59,66}] wire _state_T_46 = _state_T_42 | _state_T_43; // @[package.scala:16:47, :81:59] wire _state_T_47 = _state_T_46 | _state_T_44; // @[package.scala:16:47, :81:59] wire _state_T_48 = _state_T_47 | _state_T_45; // @[package.scala:16:47, :81:59] wire _state_T_54 = _state_T_49 | _state_T_50; // @[package.scala:16:47, :81:59] wire _state_T_55 = _state_T_54 | _state_T_51; // @[package.scala:16:47, :81:59] wire _state_T_56 = _state_T_55 | _state_T_52; // @[package.scala:16:47, :81:59] wire _state_T_57 = _state_T_56 | _state_T_53; // @[package.scala:16:47, :81:59] wire _state_T_58 = _state_T_48 | _state_T_57; // @[package.scala:81:59] wire _state_T_59 = _state_T_41 | _state_T_58; // @[Consts.scala:87:44, :90:{59,76}] wire _state_T_61 = ~_state_T_60; // @[mshrs.scala:201:15] wire _state_T_62 = ~_state_T_59; // @[Consts.scala:90:76]
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceLine import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import freechips.rocketchip.diplomacy.EnableMonitors import freechips.rocketchip.formal.{MonitorDirection, IfThen, Property, PropertyClass, TestplanTestType, TLMonitorStrictMode} import freechips.rocketchip.util.PlusArg case class TLMonitorArgs(edge: TLEdge) abstract class TLMonitorBase(args: TLMonitorArgs) extends Module { val io = IO(new Bundle { val in = Input(new TLBundle(args.edge.bundle)) }) def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit legalize(io.in, args.edge, reset) } object TLMonitor { def apply(enable: Boolean, node: TLNode)(implicit p: Parameters): TLNode = { if (enable) { EnableMonitors { implicit p => node := TLEphemeralNode()(ValName("monitor")) } } else { node } } } class TLMonitor(args: TLMonitorArgs, monitorDir: MonitorDirection = MonitorDirection.Monitor) extends TLMonitorBase(args) { require (args.edge.params(TLMonitorStrictMode) || (! args.edge.params(TestplanTestType).formal)) val cover_prop_class = PropertyClass.Default //Like assert but can flip to being an assumption for formal verification def monAssert(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir, cond, message, PropertyClass.Default) } def assume(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir.flip, cond, message, PropertyClass.Default) } def extra = { args.edge.sourceInfo match { case SourceLine(filename, line, col) => s" (connected at $filename:$line:$col)" case _ => "" } } def visible(address: UInt, source: UInt, edge: TLEdge) = edge.client.clients.map { c => !c.sourceId.contains(source) || c.visibility.map(_.contains(address)).reduce(_ || _) }.reduce(_ && _) def legalizeFormatA(bundle: TLBundleA, edge: TLEdge): Unit = { //switch this flag to turn on diplomacy in error messages def diplomacyInfo = if (true) "" else "\nThe diplomacy information for the edge is as follows:\n" + edge.formatEdge + "\n" monAssert (TLMessages.isA(bundle.opcode), "'A' channel has invalid opcode" + extra) // Reuse these subexpressions to save some firrtl lines val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) monAssert (visible(edge.address(bundle), bundle.source, edge), "'A' channel carries an address illegal for the specified bank visibility") //The monitor doesn’t check for acquire T vs acquire B, it assumes that acquire B implies acquire T and only checks for acquire B //TODO: check for acquireT? when (bundle.opcode === TLMessages.AcquireBlock) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquireBlock carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquireBlock smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquireBlock address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquireBlock carries invalid grow param" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquireBlock contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquireBlock is corrupt" + extra) } when (bundle.opcode === TLMessages.AcquirePerm) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquirePerm carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquirePerm smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquirePerm address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquirePerm carries invalid grow param" + extra) monAssert (bundle.param =/= TLPermissions.NtoB, "'A' channel AcquirePerm requests NtoB" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquirePerm contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquirePerm is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.emitsGet(bundle.source, bundle.size), "'A' channel carries Get type which master claims it can't emit" + diplomacyInfo + extra) monAssert (edge.slave.supportsGetSafe(edge.address(bundle), bundle.size, None), "'A' channel carries Get type which slave claims it can't support" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel Get carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.emitsPutFull(bundle.source, bundle.size) && edge.slave.supportsPutFullSafe(edge.address(bundle), bundle.size), "'A' channel carries PutFull type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel PutFull carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.emitsPutPartial(bundle.source, bundle.size) && edge.slave.supportsPutPartialSafe(edge.address(bundle), bundle.size), "'A' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel PutPartial carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'A' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.emitsArithmetic(bundle.source, bundle.size) && edge.slave.supportsArithmeticSafe(edge.address(bundle), bundle.size), "'A' channel carries Arithmetic type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Arithmetic carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'A' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.emitsLogical(bundle.source, bundle.size) && edge.slave.supportsLogicalSafe(edge.address(bundle), bundle.size), "'A' channel carries Logical type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Logical carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'A' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.emitsHint(bundle.source, bundle.size) && edge.slave.supportsHintSafe(edge.address(bundle), bundle.size), "'A' channel carries Hint type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Hint carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Hint address not aligned to size" + extra) monAssert (TLHints.isHints(bundle.param), "'A' channel Hint carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Hint is corrupt" + extra) } } def legalizeFormatB(bundle: TLBundleB, edge: TLEdge): Unit = { monAssert (TLMessages.isB(bundle.opcode), "'B' channel has invalid opcode" + extra) monAssert (visible(edge.address(bundle), bundle.source, edge), "'B' channel carries an address illegal for the specified bank visibility") // Reuse these subexpressions to save some firrtl lines val address_ok = edge.manager.containsSafe(edge.address(bundle)) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) val legal_source = Mux1H(edge.client.find(bundle.source), edge.client.clients.map(c => c.sourceId.start.U)) === bundle.source when (bundle.opcode === TLMessages.Probe) { assume (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'B' channel carries Probe type which is unexpected using diplomatic parameters" + extra) assume (address_ok, "'B' channel Probe carries unmanaged address" + extra) assume (legal_source, "'B' channel Probe carries source that is not first source" + extra) assume (is_aligned, "'B' channel Probe address not aligned to size" + extra) assume (TLPermissions.isCap(bundle.param), "'B' channel Probe carries invalid cap param" + extra) assume (bundle.mask === mask, "'B' channel Probe contains invalid mask" + extra) assume (!bundle.corrupt, "'B' channel Probe is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.supportsGet(edge.source(bundle), bundle.size) && edge.slave.emitsGetSafe(edge.address(bundle), bundle.size), "'B' channel carries Get type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel Get carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Get carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.supportsPutFull(edge.source(bundle), bundle.size) && edge.slave.emitsPutFullSafe(edge.address(bundle), bundle.size), "'B' channel carries PutFull type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutFull carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutFull carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.supportsPutPartial(edge.source(bundle), bundle.size) && edge.slave.emitsPutPartialSafe(edge.address(bundle), bundle.size), "'B' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutPartial carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutPartial carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'B' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.supportsArithmetic(edge.source(bundle), bundle.size) && edge.slave.emitsArithmeticSafe(edge.address(bundle), bundle.size), "'B' channel carries Arithmetic type unsupported by master" + extra) monAssert (address_ok, "'B' channel Arithmetic carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Arithmetic carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'B' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.supportsLogical(edge.source(bundle), bundle.size) && edge.slave.emitsLogicalSafe(edge.address(bundle), bundle.size), "'B' channel carries Logical type unsupported by client" + extra) monAssert (address_ok, "'B' channel Logical carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Logical carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'B' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.supportsHint(edge.source(bundle), bundle.size) && edge.slave.emitsHintSafe(edge.address(bundle), bundle.size), "'B' channel carries Hint type unsupported by client" + extra) monAssert (address_ok, "'B' channel Hint carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Hint carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Hint address not aligned to size" + extra) monAssert (bundle.mask === mask, "'B' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Hint is corrupt" + extra) } } def legalizeFormatC(bundle: TLBundleC, edge: TLEdge): Unit = { monAssert (TLMessages.isC(bundle.opcode), "'C' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val address_ok = edge.manager.containsSafe(edge.address(bundle)) monAssert (visible(edge.address(bundle), bundle.source, edge), "'C' channel carries an address illegal for the specified bank visibility") when (bundle.opcode === TLMessages.ProbeAck) { monAssert (address_ok, "'C' channel ProbeAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAck carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAck smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAck address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAck carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel ProbeAck is corrupt" + extra) } when (bundle.opcode === TLMessages.ProbeAckData) { monAssert (address_ok, "'C' channel ProbeAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAckData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAckData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAckData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAckData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.Release) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries Release type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel Release carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel Release smaller than a beat" + extra) monAssert (is_aligned, "'C' channel Release address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel Release carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel Release is corrupt" + extra) } when (bundle.opcode === TLMessages.ReleaseData) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries ReleaseData type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel ReleaseData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ReleaseData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ReleaseData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ReleaseData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.AccessAck) { monAssert (address_ok, "'C' channel AccessAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel AccessAck is corrupt" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { monAssert (address_ok, "'C' channel AccessAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAckData carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAckData address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAckData carries invalid param" + extra) } when (bundle.opcode === TLMessages.HintAck) { monAssert (address_ok, "'C' channel HintAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel HintAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel HintAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel HintAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel HintAck is corrupt" + extra) } } def legalizeFormatD(bundle: TLBundleD, edge: TLEdge): Unit = { assume (TLMessages.isD(bundle.opcode), "'D' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val sink_ok = bundle.sink < edge.manager.endSinkId.U val deny_put_ok = edge.manager.mayDenyPut.B val deny_get_ok = edge.manager.mayDenyGet.B when (bundle.opcode === TLMessages.ReleaseAck) { assume (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel ReleaseAck smaller than a beat" + extra) assume (bundle.param === 0.U, "'D' channel ReleaseeAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel ReleaseAck is corrupt" + extra) assume (!bundle.denied, "'D' channel ReleaseAck is denied" + extra) } when (bundle.opcode === TLMessages.Grant) { assume (source_ok, "'D' channel Grant carries invalid source ID" + extra) assume (sink_ok, "'D' channel Grant carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel Grant smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel Grant carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel Grant carries toN param" + extra) assume (!bundle.corrupt, "'D' channel Grant is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel Grant is denied" + extra) } when (bundle.opcode === TLMessages.GrantData) { assume (source_ok, "'D' channel GrantData carries invalid source ID" + extra) assume (sink_ok, "'D' channel GrantData carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel GrantData smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel GrantData carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel GrantData carries toN param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel GrantData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel GrantData is denied" + extra) } when (bundle.opcode === TLMessages.AccessAck) { assume (source_ok, "'D' channel AccessAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel AccessAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel AccessAck is denied" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { assume (source_ok, "'D' channel AccessAckData carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAckData carries invalid param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel AccessAckData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel AccessAckData is denied" + extra) } when (bundle.opcode === TLMessages.HintAck) { assume (source_ok, "'D' channel HintAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel HintAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel HintAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel HintAck is denied" + extra) } } def legalizeFormatE(bundle: TLBundleE, edge: TLEdge): Unit = { val sink_ok = bundle.sink < edge.manager.endSinkId.U monAssert (sink_ok, "'E' channels carries invalid sink ID" + extra) } def legalizeFormat(bundle: TLBundle, edge: TLEdge) = { when (bundle.a.valid) { legalizeFormatA(bundle.a.bits, edge) } when (bundle.d.valid) { legalizeFormatD(bundle.d.bits, edge) } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { when (bundle.b.valid) { legalizeFormatB(bundle.b.bits, edge) } when (bundle.c.valid) { legalizeFormatC(bundle.c.bits, edge) } when (bundle.e.valid) { legalizeFormatE(bundle.e.bits, edge) } } else { monAssert (!bundle.b.valid, "'B' channel valid and not TL-C" + extra) monAssert (!bundle.c.valid, "'C' channel valid and not TL-C" + extra) monAssert (!bundle.e.valid, "'E' channel valid and not TL-C" + extra) } } def legalizeMultibeatA(a: DecoupledIO[TLBundleA], edge: TLEdge): Unit = { val a_first = edge.first(a.bits, a.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (a.valid && !a_first) { monAssert (a.bits.opcode === opcode, "'A' channel opcode changed within multibeat operation" + extra) monAssert (a.bits.param === param, "'A' channel param changed within multibeat operation" + extra) monAssert (a.bits.size === size, "'A' channel size changed within multibeat operation" + extra) monAssert (a.bits.source === source, "'A' channel source changed within multibeat operation" + extra) monAssert (a.bits.address=== address,"'A' channel address changed with multibeat operation" + extra) } when (a.fire && a_first) { opcode := a.bits.opcode param := a.bits.param size := a.bits.size source := a.bits.source address := a.bits.address } } def legalizeMultibeatB(b: DecoupledIO[TLBundleB], edge: TLEdge): Unit = { val b_first = edge.first(b.bits, b.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (b.valid && !b_first) { monAssert (b.bits.opcode === opcode, "'B' channel opcode changed within multibeat operation" + extra) monAssert (b.bits.param === param, "'B' channel param changed within multibeat operation" + extra) monAssert (b.bits.size === size, "'B' channel size changed within multibeat operation" + extra) monAssert (b.bits.source === source, "'B' channel source changed within multibeat operation" + extra) monAssert (b.bits.address=== address,"'B' channel addresss changed with multibeat operation" + extra) } when (b.fire && b_first) { opcode := b.bits.opcode param := b.bits.param size := b.bits.size source := b.bits.source address := b.bits.address } } def legalizeADSourceFormal(bundle: TLBundle, edge: TLEdge): Unit = { // Symbolic variable val sym_source = Wire(UInt(edge.client.endSourceId.W)) // TODO: Connect sym_source to a fixed value for simulation and to a // free wire in formal sym_source := 0.U // Type casting Int to UInt val maxSourceId = Wire(UInt(edge.client.endSourceId.W)) maxSourceId := edge.client.endSourceId.U // Delayed verison of sym_source val sym_source_d = Reg(UInt(edge.client.endSourceId.W)) sym_source_d := sym_source // These will be constraints for FV setup Property( MonitorDirection.Monitor, (sym_source === sym_source_d), "sym_source should remain stable", PropertyClass.Default) Property( MonitorDirection.Monitor, (sym_source <= maxSourceId), "sym_source should take legal value", PropertyClass.Default) val my_resp_pend = RegInit(false.B) val my_opcode = Reg(UInt()) val my_size = Reg(UInt()) val a_first = bundle.a.valid && edge.first(bundle.a.bits, bundle.a.fire) val d_first = bundle.d.valid && edge.first(bundle.d.bits, bundle.d.fire) val my_a_first_beat = a_first && (bundle.a.bits.source === sym_source) val my_d_first_beat = d_first && (bundle.d.bits.source === sym_source) val my_clr_resp_pend = (bundle.d.fire && my_d_first_beat) val my_set_resp_pend = (bundle.a.fire && my_a_first_beat && !my_clr_resp_pend) when (my_set_resp_pend) { my_resp_pend := true.B } .elsewhen (my_clr_resp_pend) { my_resp_pend := false.B } when (my_a_first_beat) { my_opcode := bundle.a.bits.opcode my_size := bundle.a.bits.size } val my_resp_size = Mux(my_a_first_beat, bundle.a.bits.size, my_size) val my_resp_opcode = Mux(my_a_first_beat, bundle.a.bits.opcode, my_opcode) val my_resp_opcode_legal = Wire(Bool()) when ((my_resp_opcode === TLMessages.Get) || (my_resp_opcode === TLMessages.ArithmeticData) || (my_resp_opcode === TLMessages.LogicalData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAckData) } .elsewhen ((my_resp_opcode === TLMessages.PutFullData) || (my_resp_opcode === TLMessages.PutPartialData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAck) } .otherwise { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.HintAck) } monAssert (IfThen(my_resp_pend, !my_a_first_beat), "Request message should not be sent with a source ID, for which a response message" + "is already pending (not received until current cycle) for a prior request message" + "with the same source ID" + extra) assume (IfThen(my_clr_resp_pend, (my_set_resp_pend || my_resp_pend)), "Response message should be accepted with a source ID only if a request message with the" + "same source ID has been accepted or is being accepted in the current cycle" + extra) assume (IfThen(my_d_first_beat, (my_a_first_beat || my_resp_pend)), "Response message should be sent with a source ID only if a request message with the" + "same source ID has been accepted or is being sent in the current cycle" + extra) assume (IfThen(my_d_first_beat, (bundle.d.bits.size === my_resp_size)), "If d_valid is 1, then d_size should be same as a_size of the corresponding request" + "message" + extra) assume (IfThen(my_d_first_beat, my_resp_opcode_legal), "If d_valid is 1, then d_opcode should correspond with a_opcode of the corresponding" + "request message" + extra) } def legalizeMultibeatC(c: DecoupledIO[TLBundleC], edge: TLEdge): Unit = { val c_first = edge.first(c.bits, c.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (c.valid && !c_first) { monAssert (c.bits.opcode === opcode, "'C' channel opcode changed within multibeat operation" + extra) monAssert (c.bits.param === param, "'C' channel param changed within multibeat operation" + extra) monAssert (c.bits.size === size, "'C' channel size changed within multibeat operation" + extra) monAssert (c.bits.source === source, "'C' channel source changed within multibeat operation" + extra) monAssert (c.bits.address=== address,"'C' channel address changed with multibeat operation" + extra) } when (c.fire && c_first) { opcode := c.bits.opcode param := c.bits.param size := c.bits.size source := c.bits.source address := c.bits.address } } def legalizeMultibeatD(d: DecoupledIO[TLBundleD], edge: TLEdge): Unit = { val d_first = edge.first(d.bits, d.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val sink = Reg(UInt()) val denied = Reg(Bool()) when (d.valid && !d_first) { assume (d.bits.opcode === opcode, "'D' channel opcode changed within multibeat operation" + extra) assume (d.bits.param === param, "'D' channel param changed within multibeat operation" + extra) assume (d.bits.size === size, "'D' channel size changed within multibeat operation" + extra) assume (d.bits.source === source, "'D' channel source changed within multibeat operation" + extra) assume (d.bits.sink === sink, "'D' channel sink changed with multibeat operation" + extra) assume (d.bits.denied === denied, "'D' channel denied changed with multibeat operation" + extra) } when (d.fire && d_first) { opcode := d.bits.opcode param := d.bits.param size := d.bits.size source := d.bits.source sink := d.bits.sink denied := d.bits.denied } } def legalizeMultibeat(bundle: TLBundle, edge: TLEdge): Unit = { legalizeMultibeatA(bundle.a, edge) legalizeMultibeatD(bundle.d, edge) if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { legalizeMultibeatB(bundle.b, edge) legalizeMultibeatC(bundle.c, edge) } } //This is left in for almond which doesn't adhere to the tilelink protocol @deprecated("Use legalizeADSource instead if possible","") def legalizeADSourceOld(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.client.endSourceId.W)) val a_first = edge.first(bundle.a.bits, bundle.a.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val a_set = WireInit(0.U(edge.client.endSourceId.W)) when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) assert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) assume((a_set | inflight)(bundle.d.bits.source), "'D' channel acknowledged for nothing inflight" + extra) } if (edge.manager.minLatency > 0) { assume(a_set =/= d_clr || !a_set.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") assert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeADSource(bundle: TLBundle, edge: TLEdge): Unit = { val a_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val a_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_a_opcode_bus_size = log2Ceil(a_opcode_bus_size) val log_a_size_bus_size = log2Ceil(a_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) // size up to avoid width error inflight.suggestName("inflight") val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) inflight_opcodes.suggestName("inflight_opcodes") val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) inflight_sizes.suggestName("inflight_sizes") val a_first = edge.first(bundle.a.bits, bundle.a.fire) a_first.suggestName("a_first") val d_first = edge.first(bundle.d.bits, bundle.d.fire) d_first.suggestName("d_first") val a_set = WireInit(0.U(edge.client.endSourceId.W)) val a_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) a_set.suggestName("a_set") a_set_wo_ready.suggestName("a_set_wo_ready") val a_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) a_opcodes_set.suggestName("a_opcodes_set") val a_sizes_set = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) a_sizes_set.suggestName("a_sizes_set") val a_opcode_lookup = WireInit(0.U((a_opcode_bus_size - 1).W)) a_opcode_lookup.suggestName("a_opcode_lookup") a_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_a_opcode_bus_size.U) & size_to_numfullbits(1.U << log_a_opcode_bus_size.U)) >> 1.U val a_size_lookup = WireInit(0.U((1 << log_a_size_bus_size).W)) a_size_lookup.suggestName("a_size_lookup") a_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_a_size_bus_size.U) & size_to_numfullbits(1.U << log_a_size_bus_size.U)) >> 1.U val responseMap = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.Grant, TLMessages.Grant)) val responseMapSecondOption = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.GrantData, TLMessages.Grant)) val a_opcodes_set_interm = WireInit(0.U(a_opcode_bus_size.W)) a_opcodes_set_interm.suggestName("a_opcodes_set_interm") val a_sizes_set_interm = WireInit(0.U(a_size_bus_size.W)) a_sizes_set_interm.suggestName("a_sizes_set_interm") when (bundle.a.valid && a_first && edge.isRequest(bundle.a.bits)) { a_set_wo_ready := UIntToOH(bundle.a.bits.source) } when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) a_opcodes_set_interm := (bundle.a.bits.opcode << 1.U) | 1.U a_sizes_set_interm := (bundle.a.bits.size << 1.U) | 1.U a_opcodes_set := (a_opcodes_set_interm) << (bundle.a.bits.source << log_a_opcode_bus_size.U) a_sizes_set := (a_sizes_set_interm) << (bundle.a.bits.source << log_a_size_bus_size.U) monAssert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) d_opcodes_clr.suggestName("d_opcodes_clr") val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_a_opcode_bus_size.U) << (bundle.d.bits.source << log_a_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_a_size_bus_size.U) << (bundle.d.bits.source << log_a_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { val same_cycle_resp = bundle.a.valid && a_first && edge.isRequest(bundle.a.bits) && (bundle.a.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.opcode === responseMap(bundle.a.bits.opcode)) || (bundle.d.bits.opcode === responseMapSecondOption(bundle.a.bits.opcode)), "'D' channel contains improper opcode response" + extra) assume((bundle.a.bits.size === bundle.d.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.opcode === responseMap(a_opcode_lookup)) || (bundle.d.bits.opcode === responseMapSecondOption(a_opcode_lookup)), "'D' channel contains improper opcode response" + extra) assume((bundle.d.bits.size === a_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && a_first && bundle.a.valid && (bundle.a.bits.source === bundle.d.bits.source) && !d_release_ack) { assume((!bundle.d.ready) || bundle.a.ready, "ready check") } if (edge.manager.minLatency > 0) { assume(a_set_wo_ready =/= d_clr_wo_ready || !a_set_wo_ready.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr inflight_opcodes := (inflight_opcodes | a_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | a_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeCDSource(bundle: TLBundle, edge: TLEdge): Unit = { val c_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val c_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_c_opcode_bus_size = log2Ceil(c_opcode_bus_size) val log_c_size_bus_size = log2Ceil(c_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) inflight.suggestName("inflight") inflight_opcodes.suggestName("inflight_opcodes") inflight_sizes.suggestName("inflight_sizes") val c_first = edge.first(bundle.c.bits, bundle.c.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) c_first.suggestName("c_first") d_first.suggestName("d_first") val c_set = WireInit(0.U(edge.client.endSourceId.W)) val c_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val c_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val c_sizes_set = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) c_set.suggestName("c_set") c_set_wo_ready.suggestName("c_set_wo_ready") c_opcodes_set.suggestName("c_opcodes_set") c_sizes_set.suggestName("c_sizes_set") val c_opcode_lookup = WireInit(0.U((1 << log_c_opcode_bus_size).W)) val c_size_lookup = WireInit(0.U((1 << log_c_size_bus_size).W)) c_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_c_opcode_bus_size.U) & size_to_numfullbits(1.U << log_c_opcode_bus_size.U)) >> 1.U c_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_c_size_bus_size.U) & size_to_numfullbits(1.U << log_c_size_bus_size.U)) >> 1.U c_opcode_lookup.suggestName("c_opcode_lookup") c_size_lookup.suggestName("c_size_lookup") val c_opcodes_set_interm = WireInit(0.U(c_opcode_bus_size.W)) val c_sizes_set_interm = WireInit(0.U(c_size_bus_size.W)) c_opcodes_set_interm.suggestName("c_opcodes_set_interm") c_sizes_set_interm.suggestName("c_sizes_set_interm") when (bundle.c.valid && c_first && edge.isRequest(bundle.c.bits)) { c_set_wo_ready := UIntToOH(bundle.c.bits.source) } when (bundle.c.fire && c_first && edge.isRequest(bundle.c.bits)) { c_set := UIntToOH(bundle.c.bits.source) c_opcodes_set_interm := (bundle.c.bits.opcode << 1.U) | 1.U c_sizes_set_interm := (bundle.c.bits.size << 1.U) | 1.U c_opcodes_set := (c_opcodes_set_interm) << (bundle.c.bits.source << log_c_opcode_bus_size.U) c_sizes_set := (c_sizes_set_interm) << (bundle.c.bits.source << log_c_size_bus_size.U) monAssert(!inflight(bundle.c.bits.source), "'C' channel re-used a source ID" + extra) } val c_probe_ack = bundle.c.bits.opcode === TLMessages.ProbeAck || bundle.c.bits.opcode === TLMessages.ProbeAckData val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") d_opcodes_clr.suggestName("d_opcodes_clr") d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_c_opcode_bus_size.U) << (bundle.d.bits.source << log_c_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_c_size_bus_size.U) << (bundle.d.bits.source << log_c_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { val same_cycle_resp = bundle.c.valid && c_first && edge.isRequest(bundle.c.bits) && (bundle.c.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.size === bundle.c.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.size === c_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && c_first && bundle.c.valid && (bundle.c.bits.source === bundle.d.bits.source) && d_release_ack && !c_probe_ack) { assume((!bundle.d.ready) || bundle.c.ready, "ready check") } if (edge.manager.minLatency > 0) { when (c_set_wo_ready.orR) { assume(c_set_wo_ready =/= d_clr_wo_ready, s"'C' and 'D' concurrent, despite minlatency > 0" + extra) } } inflight := (inflight | c_set) & ~d_clr inflight_opcodes := (inflight_opcodes | c_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | c_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.c.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeDESink(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.manager.endSinkId.W)) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val e_first = true.B val d_set = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.d.fire && d_first && edge.isRequest(bundle.d.bits)) { d_set := UIntToOH(bundle.d.bits.sink) assume(!inflight(bundle.d.bits.sink), "'D' channel re-used a sink ID" + extra) } val e_clr = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.e.fire && e_first && edge.isResponse(bundle.e.bits)) { e_clr := UIntToOH(bundle.e.bits.sink) monAssert((d_set | inflight)(bundle.e.bits.sink), "'E' channel acknowledged for nothing inflight" + extra) } // edge.client.minLatency applies to BC, not DE inflight := (inflight | d_set) & ~e_clr } def legalizeUnique(bundle: TLBundle, edge: TLEdge): Unit = { val sourceBits = log2Ceil(edge.client.endSourceId) val tooBig = 14 // >16kB worth of flight information gets to be too much if (sourceBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with source bits (${sourceBits}) > ${tooBig}; A=>D transaction flight will not be checked") } else { if (args.edge.params(TestplanTestType).simulation) { if (args.edge.params(TLMonitorStrictMode)) { legalizeADSource(bundle, edge) legalizeCDSource(bundle, edge) } else { legalizeADSourceOld(bundle, edge) } } if (args.edge.params(TestplanTestType).formal) { legalizeADSourceFormal(bundle, edge) } } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { // legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize... val sinkBits = log2Ceil(edge.manager.endSinkId) if (sinkBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with sink bits (${sinkBits}) > ${tooBig}; D=>E transaction flight will not be checked") } else { legalizeDESink(bundle, edge) } } } def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit = { legalizeFormat (bundle, edge) legalizeMultibeat (bundle, edge) legalizeUnique (bundle, edge) } } File Misc.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import scala.math._ class ParameterizedBundle(implicit p: Parameters) extends Bundle trait Clocked extends Bundle { val clock = Clock() val reset = Bool() } object DecoupledHelper { def apply(rvs: Bool*) = new DecoupledHelper(rvs) } class DecoupledHelper(val rvs: Seq[Bool]) { def fire(exclude: Bool, includes: Bool*) = { require(rvs.contains(exclude), "Excluded Bool not present in DecoupledHelper! Note that DecoupledHelper uses referential equality for exclusion! If you don't want to exclude anything, use fire()!") (rvs.filter(_ ne exclude) ++ includes).reduce(_ && _) } def fire() = { rvs.reduce(_ && _) } } object MuxT { def apply[T <: Data, U <: Data](cond: Bool, con: (T, U), alt: (T, U)): (T, U) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2)) def apply[T <: Data, U <: Data, W <: Data](cond: Bool, con: (T, U, W), alt: (T, U, W)): (T, U, W) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3)) def apply[T <: Data, U <: Data, W <: Data, X <: Data](cond: Bool, con: (T, U, W, X), alt: (T, U, W, X)): (T, U, W, X) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3), Mux(cond, con._4, alt._4)) } /** Creates a cascade of n MuxTs to search for a key value. */ object MuxTLookup { def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } } object ValidMux { def apply[T <: Data](v1: ValidIO[T], v2: ValidIO[T]*): ValidIO[T] = { apply(v1 +: v2.toSeq) } def apply[T <: Data](valids: Seq[ValidIO[T]]): ValidIO[T] = { val out = Wire(Valid(valids.head.bits.cloneType)) out.valid := valids.map(_.valid).reduce(_ || _) out.bits := MuxCase(valids.head.bits, valids.map(v => (v.valid -> v.bits))) out } } object Str { def apply(s: String): UInt = { var i = BigInt(0) require(s.forall(validChar _)) for (c <- s) i = (i << 8) | c i.U((s.length*8).W) } def apply(x: Char): UInt = { require(validChar(x)) x.U(8.W) } def apply(x: UInt): UInt = apply(x, 10) def apply(x: UInt, radix: Int): UInt = { val rad = radix.U val w = x.getWidth require(w > 0) var q = x var s = digit(q % rad) for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad s = Cat(Mux((radix == 10).B && q === 0.U, Str(' '), digit(q % rad)), s) } s } def apply(x: SInt): UInt = apply(x, 10) def apply(x: SInt, radix: Int): UInt = { val neg = x < 0.S val abs = x.abs.asUInt if (radix != 10) { Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix)) } else { val rad = radix.U val w = abs.getWidth require(w > 0) var q = abs var s = digit(q % rad) var needSign = neg for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad val placeSpace = q === 0.U val space = Mux(needSign, Str('-'), Str(' ')) needSign = needSign && !placeSpace s = Cat(Mux(placeSpace, space, digit(q % rad)), s) } Cat(Mux(needSign, Str('-'), Str(' ')), s) } } private def digit(d: UInt): UInt = Mux(d < 10.U, Str('0')+d, Str(('a'-10).toChar)+d)(7,0) private def validChar(x: Char) = x == (x & 0xFF) } object Split { def apply(x: UInt, n0: Int) = { val w = x.getWidth (x.extract(w-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n2: Int, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n2), x.extract(n2-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } } object Random { def apply(mod: Int, random: UInt): UInt = { if (isPow2(mod)) random.extract(log2Ceil(mod)-1,0) else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod)) } def apply(mod: Int): UInt = apply(mod, randomizer) def oneHot(mod: Int, random: UInt): UInt = { if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0)) else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).asUInt } def oneHot(mod: Int): UInt = oneHot(mod, randomizer) private def randomizer = LFSR(16) private def partition(value: UInt, slices: Int) = Seq.tabulate(slices)(i => value < (((i + 1) << value.getWidth) / slices).U) } object Majority { def apply(in: Set[Bool]): Bool = { val n = (in.size >> 1) + 1 val clauses = in.subsets(n).map(_.reduce(_ && _)) clauses.reduce(_ || _) } def apply(in: Seq[Bool]): Bool = apply(in.toSet) def apply(in: UInt): Bool = apply(in.asBools.toSet) } object PopCountAtLeast { private def two(x: UInt): (Bool, Bool) = x.getWidth match { case 1 => (x.asBool, false.B) case n => val half = x.getWidth / 2 val (leftOne, leftTwo) = two(x(half - 1, 0)) val (rightOne, rightTwo) = two(x(x.getWidth - 1, half)) (leftOne || rightOne, leftTwo || rightTwo || (leftOne && rightOne)) } def apply(x: UInt, n: Int): Bool = n match { case 0 => true.B case 1 => x.orR case 2 => two(x)._2 case 3 => PopCount(x) >= n.U } } // This gets used everywhere, so make the smallest circuit possible ... // Given an address and size, create a mask of beatBytes size // eg: (0x3, 0, 4) => 0001, (0x3, 1, 4) => 0011, (0x3, 2, 4) => 1111 // groupBy applies an interleaved OR reduction; groupBy=2 take 0010 => 01 object MaskGen { def apply(addr_lo: UInt, lgSize: UInt, beatBytes: Int, groupBy: Int = 1): UInt = { require (groupBy >= 1 && beatBytes >= groupBy) require (isPow2(beatBytes) && isPow2(groupBy)) val lgBytes = log2Ceil(beatBytes) val sizeOH = UIntToOH(lgSize | 0.U(log2Up(beatBytes).W), log2Up(beatBytes)) | (groupBy*2 - 1).U def helper(i: Int): Seq[(Bool, Bool)] = { if (i == 0) { Seq((lgSize >= lgBytes.asUInt, true.B)) } else { val sub = helper(i-1) val size = sizeOH(lgBytes - i) val bit = addr_lo(lgBytes - i) val nbit = !bit Seq.tabulate (1 << i) { j => val (sub_acc, sub_eq) = sub(j/2) val eq = sub_eq && (if (j % 2 == 1) bit else nbit) val acc = sub_acc || (size && eq) (acc, eq) } } } if (groupBy == beatBytes) 1.U else Cat(helper(lgBytes-log2Ceil(groupBy)).map(_._1).reverse) } } File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.diplomacy import chisel3._ import chisel3.util.{DecoupledIO, Queue, ReadyValidIO, isPow2, log2Ceil, log2Floor} import freechips.rocketchip.util.ShiftQueue /** Options for describing the attributes of memory regions */ object RegionType { // Define the 'more relaxed than' ordering val cases = Seq(CACHED, TRACKED, UNCACHED, IDEMPOTENT, VOLATILE, PUT_EFFECTS, GET_EFFECTS) sealed trait T extends Ordered[T] { def compare(that: T): Int = cases.indexOf(that) compare cases.indexOf(this) } case object CACHED extends T // an intermediate agent may have cached a copy of the region for you case object TRACKED extends T // the region may have been cached by another master, but coherence is being provided case object UNCACHED extends T // the region has not been cached yet, but should be cached when possible case object IDEMPOTENT extends T // gets return most recently put content, but content should not be cached case object VOLATILE extends T // content may change without a put, but puts and gets have no side effects case object PUT_EFFECTS extends T // puts produce side effects and so must not be combined/delayed case object GET_EFFECTS extends T // gets produce side effects and so must not be issued speculatively } // A non-empty half-open range; [start, end) case class IdRange(start: Int, end: Int) extends Ordered[IdRange] { require (start >= 0, s"Ids cannot be negative, but got: $start.") require (start <= end, "Id ranges cannot be negative.") def compare(x: IdRange) = { val primary = (this.start - x.start).signum val secondary = (x.end - this.end).signum if (primary != 0) primary else secondary } def overlaps(x: IdRange) = start < x.end && x.start < end def contains(x: IdRange) = start <= x.start && x.end <= end def contains(x: Int) = start <= x && x < end def contains(x: UInt) = if (size == 0) { false.B } else if (size == 1) { // simple comparison x === start.U } else { // find index of largest different bit val largestDeltaBit = log2Floor(start ^ (end-1)) val smallestCommonBit = largestDeltaBit + 1 // may not exist in x val uncommonMask = (1 << smallestCommonBit) - 1 val uncommonBits = (x | 0.U(smallestCommonBit.W))(largestDeltaBit, 0) // the prefix must match exactly (note: may shift ALL bits away) (x >> smallestCommonBit) === (start >> smallestCommonBit).U && // firrtl constant prop range analysis can eliminate these two: (start & uncommonMask).U <= uncommonBits && uncommonBits <= ((end-1) & uncommonMask).U } def shift(x: Int) = IdRange(start+x, end+x) def size = end - start def isEmpty = end == start def range = start until end } object IdRange { def overlaps(s: Seq[IdRange]) = if (s.isEmpty) None else { val ranges = s.sorted (ranges.tail zip ranges.init) find { case (a, b) => a overlaps b } } } // An potentially empty inclusive range of 2-powers [min, max] (in bytes) case class TransferSizes(min: Int, max: Int) { def this(x: Int) = this(x, x) require (min <= max, s"Min transfer $min > max transfer $max") require (min >= 0 && max >= 0, s"TransferSizes must be positive, got: ($min, $max)") require (max == 0 || isPow2(max), s"TransferSizes must be a power of 2, got: $max") require (min == 0 || isPow2(min), s"TransferSizes must be a power of 2, got: $min") require (max == 0 || min != 0, s"TransferSize 0 is forbidden unless (0,0), got: ($min, $max)") def none = min == 0 def contains(x: Int) = isPow2(x) && min <= x && x <= max def containsLg(x: Int) = contains(1 << x) def containsLg(x: UInt) = if (none) false.B else if (min == max) { log2Ceil(min).U === x } else { log2Ceil(min).U <= x && x <= log2Ceil(max).U } def contains(x: TransferSizes) = x.none || (min <= x.min && x.max <= max) def intersect(x: TransferSizes) = if (x.max < min || max < x.min) TransferSizes.none else TransferSizes(scala.math.max(min, x.min), scala.math.min(max, x.max)) // Not a union, because the result may contain sizes contained by neither term // NOT TO BE CONFUSED WITH COVERPOINTS def mincover(x: TransferSizes) = { if (none) { x } else if (x.none) { this } else { TransferSizes(scala.math.min(min, x.min), scala.math.max(max, x.max)) } } override def toString() = "TransferSizes[%d, %d]".format(min, max) } object TransferSizes { def apply(x: Int) = new TransferSizes(x) val none = new TransferSizes(0) def mincover(seq: Seq[TransferSizes]) = seq.foldLeft(none)(_ mincover _) def intersect(seq: Seq[TransferSizes]) = seq.reduce(_ intersect _) implicit def asBool(x: TransferSizes) = !x.none } // AddressSets specify the address space managed by the manager // Base is the base address, and mask are the bits consumed by the manager // e.g: base=0x200, mask=0xff describes a device managing 0x200-0x2ff // e.g: base=0x1000, mask=0xf0f decribes a device managing 0x1000-0x100f, 0x1100-0x110f, ... case class AddressSet(base: BigInt, mask: BigInt) extends Ordered[AddressSet] { // Forbid misaligned base address (and empty sets) require ((base & mask) == 0, s"Mis-aligned AddressSets are forbidden, got: ${this.toString}") require (base >= 0, s"AddressSet negative base is ambiguous: $base") // TL2 address widths are not fixed => negative is ambiguous // We do allow negative mask (=> ignore all high bits) def contains(x: BigInt) = ((x ^ base) & ~mask) == 0 def contains(x: UInt) = ((x ^ base.U).zext & (~mask).S) === 0.S // turn x into an address contained in this set def legalize(x: UInt): UInt = base.U | (mask.U & x) // overlap iff bitwise: both care (~mask0 & ~mask1) => both equal (base0=base1) def overlaps(x: AddressSet) = (~(mask | x.mask) & (base ^ x.base)) == 0 // contains iff bitwise: x.mask => mask && contains(x.base) def contains(x: AddressSet) = ((x.mask | (base ^ x.base)) & ~mask) == 0 // The number of bytes to which the manager must be aligned def alignment = ((mask + 1) & ~mask) // Is this a contiguous memory range def contiguous = alignment == mask+1 def finite = mask >= 0 def max = { require (finite, "Max cannot be calculated on infinite mask"); base | mask } // Widen the match function to ignore all bits in imask def widen(imask: BigInt) = AddressSet(base & ~imask, mask | imask) // Return an AddressSet that only contains the addresses both sets contain def intersect(x: AddressSet): Option[AddressSet] = { if (!overlaps(x)) { None } else { val r_mask = mask & x.mask val r_base = base | x.base Some(AddressSet(r_base, r_mask)) } } def subtract(x: AddressSet): Seq[AddressSet] = { intersect(x) match { case None => Seq(this) case Some(remove) => AddressSet.enumerateBits(mask & ~remove.mask).map { bit => val nmask = (mask & (bit-1)) | remove.mask val nbase = (remove.base ^ bit) & ~nmask AddressSet(nbase, nmask) } } } // AddressSets have one natural Ordering (the containment order, if contiguous) def compare(x: AddressSet) = { val primary = (this.base - x.base).signum // smallest address first val secondary = (x.mask - this.mask).signum // largest mask first if (primary != 0) primary else secondary } // We always want to see things in hex override def toString() = { if (mask >= 0) { "AddressSet(0x%x, 0x%x)".format(base, mask) } else { "AddressSet(0x%x, ~0x%x)".format(base, ~mask) } } def toRanges = { require (finite, "Ranges cannot be calculated on infinite mask") val size = alignment val fragments = mask & ~(size-1) val bits = bitIndexes(fragments) (BigInt(0) until (BigInt(1) << bits.size)).map { i => val off = bitIndexes(i).foldLeft(base) { case (a, b) => a.setBit(bits(b)) } AddressRange(off, size) } } } object AddressSet { val everything = AddressSet(0, -1) def misaligned(base: BigInt, size: BigInt, tail: Seq[AddressSet] = Seq()): Seq[AddressSet] = { if (size == 0) tail.reverse else { val maxBaseAlignment = base & (-base) // 0 for infinite (LSB) val maxSizeAlignment = BigInt(1) << log2Floor(size) // MSB of size val step = if (maxBaseAlignment == 0 || maxBaseAlignment > maxSizeAlignment) maxSizeAlignment else maxBaseAlignment misaligned(base+step, size-step, AddressSet(base, step-1) +: tail) } } def unify(seq: Seq[AddressSet], bit: BigInt): Seq[AddressSet] = { // Pair terms up by ignoring 'bit' seq.distinct.groupBy(x => x.copy(base = x.base & ~bit)).map { case (key, seq) => if (seq.size == 1) { seq.head // singleton -> unaffected } else { key.copy(mask = key.mask | bit) // pair - widen mask by bit } }.toList } def unify(seq: Seq[AddressSet]): Seq[AddressSet] = { val bits = seq.map(_.base).foldLeft(BigInt(0))(_ | _) AddressSet.enumerateBits(bits).foldLeft(seq) { case (acc, bit) => unify(acc, bit) }.sorted } def enumerateMask(mask: BigInt): Seq[BigInt] = { def helper(id: BigInt, tail: Seq[BigInt]): Seq[BigInt] = if (id == mask) (id +: tail).reverse else helper(((~mask | id) + 1) & mask, id +: tail) helper(0, Nil) } def enumerateBits(mask: BigInt): Seq[BigInt] = { def helper(x: BigInt): Seq[BigInt] = { if (x == 0) { Nil } else { val bit = x & (-x) bit +: helper(x & ~bit) } } helper(mask) } } case class BufferParams(depth: Int, flow: Boolean, pipe: Boolean) { require (depth >= 0, "Buffer depth must be >= 0") def isDefined = depth > 0 def latency = if (isDefined && !flow) 1 else 0 def apply[T <: Data](x: DecoupledIO[T]) = if (isDefined) Queue(x, depth, flow=flow, pipe=pipe) else x def irrevocable[T <: Data](x: ReadyValidIO[T]) = if (isDefined) Queue.irrevocable(x, depth, flow=flow, pipe=pipe) else x def sq[T <: Data](x: DecoupledIO[T]) = if (!isDefined) x else { val sq = Module(new ShiftQueue(x.bits, depth, flow=flow, pipe=pipe)) sq.io.enq <> x sq.io.deq } override def toString() = "BufferParams:%d%s%s".format(depth, if (flow) "F" else "", if (pipe) "P" else "") } object BufferParams { implicit def apply(depth: Int): BufferParams = BufferParams(depth, false, false) val default = BufferParams(2) val none = BufferParams(0) val flow = BufferParams(1, true, false) val pipe = BufferParams(1, false, true) } case class TriStateValue(value: Boolean, set: Boolean) { def update(orig: Boolean) = if (set) value else orig } object TriStateValue { implicit def apply(value: Boolean): TriStateValue = TriStateValue(value, true) def unset = TriStateValue(false, false) } trait DirectedBuffers[T] { def copyIn(x: BufferParams): T def copyOut(x: BufferParams): T def copyInOut(x: BufferParams): T } trait IdMapEntry { def name: String def from: IdRange def to: IdRange def isCache: Boolean def requestFifo: Boolean def maxTransactionsInFlight: Option[Int] def pretty(fmt: String) = if (from ne to) { // if the subclass uses the same reference for both from and to, assume its format string has an arity of 5 fmt.format(to.start, to.end, from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } else { fmt.format(from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } } abstract class IdMap[T <: IdMapEntry] { protected val fmt: String val mapping: Seq[T] def pretty: String = mapping.map(_.pretty(fmt)).mkString(",\n") } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module TLMonitor_49( // @[Monitor.scala:36:7] input clock, // @[Monitor.scala:36:7] input reset, // @[Monitor.scala:36:7] input io_in_a_ready, // @[Monitor.scala:20:14] input io_in_a_valid, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_opcode, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_param, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_size, // @[Monitor.scala:20:14] input [5:0] io_in_a_bits_source, // @[Monitor.scala:20:14] input [31:0] io_in_a_bits_address, // @[Monitor.scala:20:14] input [7:0] io_in_a_bits_mask, // @[Monitor.scala:20:14] input [63:0] io_in_a_bits_data, // @[Monitor.scala:20:14] input io_in_a_bits_corrupt, // @[Monitor.scala:20:14] input io_in_b_ready, // @[Monitor.scala:20:14] input io_in_b_valid, // @[Monitor.scala:20:14] input [1:0] io_in_b_bits_param, // @[Monitor.scala:20:14] input [5:0] io_in_b_bits_source, // @[Monitor.scala:20:14] input [31:0] io_in_b_bits_address, // @[Monitor.scala:20:14] input io_in_c_ready, // @[Monitor.scala:20:14] input io_in_c_valid, // @[Monitor.scala:20:14] input [2:0] io_in_c_bits_opcode, // @[Monitor.scala:20:14] input [2:0] io_in_c_bits_param, // @[Monitor.scala:20:14] input [2:0] io_in_c_bits_size, // @[Monitor.scala:20:14] input [5:0] io_in_c_bits_source, // @[Monitor.scala:20:14] input [31:0] io_in_c_bits_address, // @[Monitor.scala:20:14] input [63:0] io_in_c_bits_data, // @[Monitor.scala:20:14] input io_in_c_bits_corrupt, // @[Monitor.scala:20:14] input io_in_d_ready, // @[Monitor.scala:20:14] input io_in_d_valid, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_opcode, // @[Monitor.scala:20:14] input [1:0] io_in_d_bits_param, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_size, // @[Monitor.scala:20:14] input [5:0] io_in_d_bits_source, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_sink, // @[Monitor.scala:20:14] input io_in_d_bits_denied, // @[Monitor.scala:20:14] input [63:0] io_in_d_bits_data, // @[Monitor.scala:20:14] input io_in_d_bits_corrupt, // @[Monitor.scala:20:14] input io_in_e_valid, // @[Monitor.scala:20:14] input [2:0] io_in_e_bits_sink // @[Monitor.scala:20:14] ); wire [31:0] _plusarg_reader_1_out; // @[PlusArg.scala:80:11] wire [31:0] _plusarg_reader_out; // @[PlusArg.scala:80:11] wire io_in_a_ready_0 = io_in_a_ready; // @[Monitor.scala:36:7] wire io_in_a_valid_0 = io_in_a_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_opcode_0 = io_in_a_bits_opcode; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_param_0 = io_in_a_bits_param; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_size_0 = io_in_a_bits_size; // @[Monitor.scala:36:7] wire [5:0] io_in_a_bits_source_0 = io_in_a_bits_source; // @[Monitor.scala:36:7] wire [31:0] io_in_a_bits_address_0 = io_in_a_bits_address; // @[Monitor.scala:36:7] wire [7:0] io_in_a_bits_mask_0 = io_in_a_bits_mask; // @[Monitor.scala:36:7] wire [63:0] io_in_a_bits_data_0 = io_in_a_bits_data; // @[Monitor.scala:36:7] wire io_in_a_bits_corrupt_0 = io_in_a_bits_corrupt; // @[Monitor.scala:36:7] wire io_in_b_ready_0 = io_in_b_ready; // @[Monitor.scala:36:7] wire io_in_b_valid_0 = io_in_b_valid; // @[Monitor.scala:36:7] wire [1:0] io_in_b_bits_param_0 = io_in_b_bits_param; // @[Monitor.scala:36:7] wire [5:0] io_in_b_bits_source_0 = io_in_b_bits_source; // @[Monitor.scala:36:7] wire [31:0] io_in_b_bits_address_0 = io_in_b_bits_address; // @[Monitor.scala:36:7] wire io_in_c_ready_0 = io_in_c_ready; // @[Monitor.scala:36:7] wire io_in_c_valid_0 = io_in_c_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_c_bits_opcode_0 = io_in_c_bits_opcode; // @[Monitor.scala:36:7] wire [2:0] io_in_c_bits_param_0 = io_in_c_bits_param; // @[Monitor.scala:36:7] wire [2:0] io_in_c_bits_size_0 = io_in_c_bits_size; // @[Monitor.scala:36:7] wire [5:0] io_in_c_bits_source_0 = io_in_c_bits_source; // @[Monitor.scala:36:7] wire [31:0] io_in_c_bits_address_0 = io_in_c_bits_address; // @[Monitor.scala:36:7] wire [63:0] io_in_c_bits_data_0 = io_in_c_bits_data; // @[Monitor.scala:36:7] wire io_in_c_bits_corrupt_0 = io_in_c_bits_corrupt; // @[Monitor.scala:36:7] wire io_in_d_ready_0 = io_in_d_ready; // @[Monitor.scala:36:7] wire io_in_d_valid_0 = io_in_d_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_opcode_0 = io_in_d_bits_opcode; // @[Monitor.scala:36:7] wire [1:0] io_in_d_bits_param_0 = io_in_d_bits_param; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_size_0 = io_in_d_bits_size; // @[Monitor.scala:36:7] wire [5:0] io_in_d_bits_source_0 = io_in_d_bits_source; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_sink_0 = io_in_d_bits_sink; // @[Monitor.scala:36:7] wire io_in_d_bits_denied_0 = io_in_d_bits_denied; // @[Monitor.scala:36:7] wire [63:0] io_in_d_bits_data_0 = io_in_d_bits_data; // @[Monitor.scala:36:7] wire io_in_d_bits_corrupt_0 = io_in_d_bits_corrupt; // @[Monitor.scala:36:7] wire io_in_e_valid_0 = io_in_e_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_e_bits_sink_0 = io_in_e_bits_sink; // @[Monitor.scala:36:7] wire io_in_e_ready = 1'h1; // @[Monitor.scala:36:7] wire _source_ok_T_3 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_5 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_9 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_11 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_15 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_17 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_21 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_23 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_47 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_49 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_53 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_55 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_59 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_61 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_65 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_67 = 1'h1; // @[Parameters.scala:57:20] wire mask_sub_sub_sub_0_1_1 = 1'h1; // @[Misc.scala:206:21] wire mask_sub_sub_size_1 = 1'h1; // @[Misc.scala:209:26] wire mask_sub_sub_0_1_1 = 1'h1; // @[Misc.scala:215:29] wire mask_sub_sub_1_1_1 = 1'h1; // @[Misc.scala:215:29] wire mask_sub_0_1_1 = 1'h1; // @[Misc.scala:215:29] wire mask_sub_1_1_1 = 1'h1; // @[Misc.scala:215:29] wire mask_sub_2_1_1 = 1'h1; // @[Misc.scala:215:29] wire mask_sub_3_1_1 = 1'h1; // @[Misc.scala:215:29] wire mask_size_1 = 1'h1; // @[Misc.scala:209:26] wire mask_acc_8 = 1'h1; // @[Misc.scala:215:29] wire mask_acc_9 = 1'h1; // @[Misc.scala:215:29] wire mask_acc_10 = 1'h1; // @[Misc.scala:215:29] wire mask_acc_11 = 1'h1; // @[Misc.scala:215:29] wire mask_acc_12 = 1'h1; // @[Misc.scala:215:29] wire mask_acc_13 = 1'h1; // @[Misc.scala:215:29] wire mask_acc_14 = 1'h1; // @[Misc.scala:215:29] wire mask_acc_15 = 1'h1; // @[Misc.scala:215:29] wire _legal_source_T_3 = 1'h1; // @[Parameters.scala:56:32] wire _legal_source_T_5 = 1'h1; // @[Parameters.scala:57:20] wire _legal_source_T_9 = 1'h1; // @[Parameters.scala:56:32] wire _legal_source_T_11 = 1'h1; // @[Parameters.scala:57:20] wire _legal_source_T_15 = 1'h1; // @[Parameters.scala:56:32] wire _legal_source_T_17 = 1'h1; // @[Parameters.scala:57:20] wire _legal_source_T_21 = 1'h1; // @[Parameters.scala:56:32] wire _legal_source_T_23 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_91 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_93 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_97 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_99 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_103 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_105 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_109 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_111 = 1'h1; // @[Parameters.scala:57:20] wire _b_first_beats1_opdata_T = 1'h1; // @[Edges.scala:97:37] wire _b_first_last_T_1 = 1'h1; // @[Edges.scala:232:43] wire b_first_last = 1'h1; // @[Edges.scala:232:33] wire [2:0] io_in_b_bits_opcode = 3'h6; // @[Monitor.scala:36:7] wire [2:0] io_in_b_bits_size = 3'h6; // @[Monitor.scala:36:7] wire [2:0] _mask_sizeOH_T_3 = 3'h6; // @[Misc.scala:202:34] wire [7:0] io_in_b_bits_mask = 8'hFF; // @[Monitor.scala:36:7] wire [7:0] mask_1 = 8'hFF; // @[Misc.scala:222:10] wire [63:0] io_in_b_bits_data = 64'h0; // @[Monitor.scala:36:7] wire io_in_b_bits_corrupt = 1'h0; // @[Monitor.scala:36:7] wire mask_sub_size_1 = 1'h0; // @[Misc.scala:209:26] wire _mask_sub_acc_T_4 = 1'h0; // @[Misc.scala:215:38] wire _mask_sub_acc_T_5 = 1'h0; // @[Misc.scala:215:38] wire _mask_sub_acc_T_6 = 1'h0; // @[Misc.scala:215:38] wire _mask_sub_acc_T_7 = 1'h0; // @[Misc.scala:215:38] wire _legal_source_T_34 = 1'h0; // @[Mux.scala:30:73] wire b_first_beats1_opdata = 1'h0; // @[Edges.scala:97:28] wire [15:0] _a_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _a_size_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_opcodes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_sizes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _c_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _c_size_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_opcodes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_sizes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [16:0] _a_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _a_size_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_opcodes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_sizes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _c_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _c_size_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_opcodes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_sizes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [15:0] _a_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _a_size_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_opcodes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_sizes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _c_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _c_size_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_opcodes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_sizes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [3:0] _mask_sizeOH_T_4 = 4'h4; // @[OneHot.scala:65:12] wire [3:0] _a_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:637:123] wire [3:0] _a_size_lookup_T_2 = 4'h4; // @[Monitor.scala:641:117] wire [3:0] _d_opcodes_clr_T = 4'h4; // @[Monitor.scala:680:48] wire [3:0] _d_sizes_clr_T = 4'h4; // @[Monitor.scala:681:48] wire [3:0] _c_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:749:123] wire [3:0] _c_size_lookup_T_2 = 4'h4; // @[Monitor.scala:750:119] wire [3:0] _d_opcodes_clr_T_6 = 4'h4; // @[Monitor.scala:790:48] wire [3:0] _d_sizes_clr_T_6 = 4'h4; // @[Monitor.scala:791:48] wire [2:0] _mask_sizeOH_T_5 = 3'h4; // @[OneHot.scala:65:27] wire [2:0] responseMap_6 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMap_7 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_7 = 3'h4; // @[Monitor.scala:644:42] wire [2:0] mask_sizeOH_1 = 3'h5; // @[Misc.scala:202:81] wire [2:0] responseMapSecondOption_6 = 3'h5; // @[Monitor.scala:644:42] wire [2:0] responseMap_5 = 3'h2; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_5 = 3'h2; // @[Monitor.scala:644:42] wire [2:0] responseMap_2 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_3 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_4 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_2 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_3 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_4 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] b_first_beats1 = 3'h0; // @[Edges.scala:221:14] wire [2:0] b_first_count = 3'h0; // @[Edges.scala:234:25] wire [2:0] responseMap_0 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMap_1 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_0 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_1 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] b_first_beats1_decode = 3'h7; // @[Edges.scala:220:59] wire [5:0] is_aligned_mask_1 = 6'h3F; // @[package.scala:243:46] wire [5:0] _b_first_beats1_decode_T_2 = 6'h3F; // @[package.scala:243:46] wire [5:0] _is_aligned_mask_T_3 = 6'h0; // @[package.scala:243:76] wire [5:0] _b_first_beats1_decode_T_1 = 6'h0; // @[package.scala:243:76] wire [12:0] _is_aligned_mask_T_2 = 13'hFC0; // @[package.scala:243:71] wire [12:0] _b_first_beats1_decode_T = 13'hFC0; // @[package.scala:243:71] wire [3:0] mask_lo_1 = 4'hF; // @[Misc.scala:222:10] wire [3:0] mask_hi_1 = 4'hF; // @[Misc.scala:222:10] wire [1:0] mask_lo_lo_1 = 2'h3; // @[Misc.scala:222:10] wire [1:0] mask_lo_hi_1 = 2'h3; // @[Misc.scala:222:10] wire [1:0] mask_hi_lo_1 = 2'h3; // @[Misc.scala:222:10] wire [1:0] mask_hi_hi_1 = 2'h3; // @[Misc.scala:222:10] wire [1:0] mask_sizeOH_shiftAmount_1 = 2'h2; // @[OneHot.scala:64:49] wire [2:0] _mask_sizeOH_T = io_in_a_bits_size_0; // @[Misc.scala:202:34] wire [5:0] _source_ok_uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _source_ok_uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _source_ok_uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _source_ok_uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_4 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_5 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_6 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_7 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_8 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_9 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_10 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_11 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_12 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_13 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_14 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_15 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_16 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_17 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_18 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_19 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_20 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_21 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_22 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_23 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_24 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_25 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_26 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_27 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_28 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_29 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_30 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_31 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_32 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_33 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_34 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_35 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_36 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_37 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_38 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_39 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_40 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_41 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_42 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_43 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_44 = io_in_b_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_45 = io_in_b_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_46 = io_in_b_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_47 = io_in_b_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _legal_source_uncommonBits_T = io_in_b_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _legal_source_uncommonBits_T_1 = io_in_b_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _legal_source_uncommonBits_T_2 = io_in_b_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _legal_source_uncommonBits_T_3 = io_in_b_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_48 = io_in_b_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_49 = io_in_b_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_50 = io_in_b_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_51 = io_in_b_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _source_ok_uncommonBits_T_8 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _source_ok_uncommonBits_T_9 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _source_ok_uncommonBits_T_10 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _source_ok_uncommonBits_T_11 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_52 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_53 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_54 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_55 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_56 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_57 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_58 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_59 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_60 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_61 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_62 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_63 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_64 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_65 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_66 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_67 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_68 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_69 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_70 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _uncommonBits_T_71 = io_in_c_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _source_ok_uncommonBits_T_4 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _source_ok_uncommonBits_T_5 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _source_ok_uncommonBits_T_6 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [5:0] _source_ok_uncommonBits_T_7 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire _source_ok_T = io_in_a_bits_source_0 == 6'h10; // @[Monitor.scala:36:7] wire _source_ok_WIRE_0 = _source_ok_T; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits = _source_ok_uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [3:0] _source_ok_T_1 = io_in_a_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire [3:0] _source_ok_T_7 = io_in_a_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire [3:0] _source_ok_T_13 = io_in_a_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire [3:0] _source_ok_T_19 = io_in_a_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire _source_ok_T_2 = _source_ok_T_1 == 4'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_4 = _source_ok_T_2; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_6 = _source_ok_T_4; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1 = _source_ok_T_6; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_1 = _source_ok_uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_8 = _source_ok_T_7 == 4'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_10 = _source_ok_T_8; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_12 = _source_ok_T_10; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_2 = _source_ok_T_12; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_2 = _source_ok_uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_14 = _source_ok_T_13 == 4'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_16 = _source_ok_T_14; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_18 = _source_ok_T_16; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_3 = _source_ok_T_18; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_3 = _source_ok_uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_20 = _source_ok_T_19 == 4'h3; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_22 = _source_ok_T_20; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_24 = _source_ok_T_22; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_4 = _source_ok_T_24; // @[Parameters.scala:1138:31] wire _source_ok_T_25 = io_in_a_bits_source_0 == 6'h24; // @[Monitor.scala:36:7] wire _source_ok_WIRE_5 = _source_ok_T_25; // @[Parameters.scala:1138:31] wire _source_ok_T_26 = io_in_a_bits_source_0 == 6'h26; // @[Monitor.scala:36:7] wire _source_ok_WIRE_6 = _source_ok_T_26; // @[Parameters.scala:1138:31] wire _source_ok_T_27 = io_in_a_bits_source_0 == 6'h2E; // @[Monitor.scala:36:7] wire _source_ok_WIRE_7 = _source_ok_T_27; // @[Parameters.scala:1138:31] wire _source_ok_T_28 = io_in_a_bits_source_0 == 6'h2C; // @[Monitor.scala:36:7] wire _source_ok_WIRE_8 = _source_ok_T_28; // @[Parameters.scala:1138:31] wire _source_ok_T_29 = io_in_a_bits_source_0 == 6'h2A; // @[Monitor.scala:36:7] wire _source_ok_WIRE_9 = _source_ok_T_29; // @[Parameters.scala:1138:31] wire _source_ok_T_30 = io_in_a_bits_source_0 == 6'h28; // @[Monitor.scala:36:7] wire _source_ok_WIRE_10 = _source_ok_T_30; // @[Parameters.scala:1138:31] wire _source_ok_T_31 = io_in_a_bits_source_0 == 6'h22; // @[Monitor.scala:36:7] wire _source_ok_WIRE_11 = _source_ok_T_31; // @[Parameters.scala:1138:31] wire _source_ok_T_32 = io_in_a_bits_source_0 == 6'h20; // @[Monitor.scala:36:7] wire _source_ok_WIRE_12 = _source_ok_T_32; // @[Parameters.scala:1138:31] wire _source_ok_T_33 = _source_ok_WIRE_0 | _source_ok_WIRE_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_34 = _source_ok_T_33 | _source_ok_WIRE_2; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_35 = _source_ok_T_34 | _source_ok_WIRE_3; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_36 = _source_ok_T_35 | _source_ok_WIRE_4; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_37 = _source_ok_T_36 | _source_ok_WIRE_5; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_38 = _source_ok_T_37 | _source_ok_WIRE_6; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_39 = _source_ok_T_38 | _source_ok_WIRE_7; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_40 = _source_ok_T_39 | _source_ok_WIRE_8; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_41 = _source_ok_T_40 | _source_ok_WIRE_9; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_42 = _source_ok_T_41 | _source_ok_WIRE_10; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_43 = _source_ok_T_42 | _source_ok_WIRE_11; // @[Parameters.scala:1138:31, :1139:46] wire source_ok = _source_ok_T_43 | _source_ok_WIRE_12; // @[Parameters.scala:1138:31, :1139:46] wire [12:0] _GEN = 13'h3F << io_in_a_bits_size_0; // @[package.scala:243:71] wire [12:0] _is_aligned_mask_T; // @[package.scala:243:71] assign _is_aligned_mask_T = _GEN; // @[package.scala:243:71] wire [12:0] _a_first_beats1_decode_T; // @[package.scala:243:71] assign _a_first_beats1_decode_T = _GEN; // @[package.scala:243:71] wire [12:0] _a_first_beats1_decode_T_3; // @[package.scala:243:71] assign _a_first_beats1_decode_T_3 = _GEN; // @[package.scala:243:71] wire [5:0] _is_aligned_mask_T_1 = _is_aligned_mask_T[5:0]; // @[package.scala:243:{71,76}] wire [5:0] is_aligned_mask = ~_is_aligned_mask_T_1; // @[package.scala:243:{46,76}] wire [31:0] _is_aligned_T = {26'h0, io_in_a_bits_address_0[5:0] & is_aligned_mask}; // @[package.scala:243:46] wire is_aligned = _is_aligned_T == 32'h0; // @[Edges.scala:21:{16,24}] wire [1:0] mask_sizeOH_shiftAmount = _mask_sizeOH_T[1:0]; // @[OneHot.scala:64:49] wire [3:0] _mask_sizeOH_T_1 = 4'h1 << mask_sizeOH_shiftAmount; // @[OneHot.scala:64:49, :65:12] wire [2:0] _mask_sizeOH_T_2 = _mask_sizeOH_T_1[2:0]; // @[OneHot.scala:65:{12,27}] wire [2:0] mask_sizeOH = {_mask_sizeOH_T_2[2:1], 1'h1}; // @[OneHot.scala:65:27] wire mask_sub_sub_sub_0_1 = io_in_a_bits_size_0 > 3'h2; // @[Misc.scala:206:21] wire mask_sub_sub_size = mask_sizeOH[2]; // @[Misc.scala:202:81, :209:26] wire mask_sub_sub_bit = io_in_a_bits_address_0[2]; // @[Misc.scala:210:26] wire mask_sub_sub_1_2 = mask_sub_sub_bit; // @[Misc.scala:210:26, :214:27] wire mask_sub_sub_nbit = ~mask_sub_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_sub_0_2 = mask_sub_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_sub_acc_T = mask_sub_sub_size & mask_sub_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_0_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T; // @[Misc.scala:206:21, :215:{29,38}] wire _mask_sub_sub_acc_T_1 = mask_sub_sub_size & mask_sub_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_1_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T_1; // @[Misc.scala:206:21, :215:{29,38}] wire mask_sub_size = mask_sizeOH[1]; // @[Misc.scala:202:81, :209:26] wire mask_sub_bit = io_in_a_bits_address_0[1]; // @[Misc.scala:210:26] wire mask_sub_nbit = ~mask_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_0_2 = mask_sub_sub_0_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T = mask_sub_size & mask_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_0_1 = mask_sub_sub_0_1 | _mask_sub_acc_T; // @[Misc.scala:215:{29,38}] wire mask_sub_1_2 = mask_sub_sub_0_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_1 = mask_sub_size & mask_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_1_1 = mask_sub_sub_0_1 | _mask_sub_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_sub_2_2 = mask_sub_sub_1_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T_2 = mask_sub_size & mask_sub_2_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_2_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_sub_3_2 = mask_sub_sub_1_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_3 = mask_sub_size & mask_sub_3_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_3_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_size = mask_sizeOH[0]; // @[Misc.scala:202:81, :209:26] wire mask_bit = io_in_a_bits_address_0[0]; // @[Misc.scala:210:26] wire mask_nbit = ~mask_bit; // @[Misc.scala:210:26, :211:20] wire mask_eq = mask_sub_0_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T = mask_size & mask_eq; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc = mask_sub_0_1 | _mask_acc_T; // @[Misc.scala:215:{29,38}] wire mask_eq_1 = mask_sub_0_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_1 = mask_size & mask_eq_1; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_1 = mask_sub_0_1 | _mask_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_eq_2 = mask_sub_1_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_2 = mask_size & mask_eq_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_2 = mask_sub_1_1 | _mask_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_eq_3 = mask_sub_1_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_3 = mask_size & mask_eq_3; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_3 = mask_sub_1_1 | _mask_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_eq_4 = mask_sub_2_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_4 = mask_size & mask_eq_4; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_4 = mask_sub_2_1 | _mask_acc_T_4; // @[Misc.scala:215:{29,38}] wire mask_eq_5 = mask_sub_2_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_5 = mask_size & mask_eq_5; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_5 = mask_sub_2_1 | _mask_acc_T_5; // @[Misc.scala:215:{29,38}] wire mask_eq_6 = mask_sub_3_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_6 = mask_size & mask_eq_6; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_6 = mask_sub_3_1 | _mask_acc_T_6; // @[Misc.scala:215:{29,38}] wire mask_eq_7 = mask_sub_3_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_7 = mask_size & mask_eq_7; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_7 = mask_sub_3_1 | _mask_acc_T_7; // @[Misc.scala:215:{29,38}] wire [1:0] mask_lo_lo = {mask_acc_1, mask_acc}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_lo_hi = {mask_acc_3, mask_acc_2}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_lo = {mask_lo_hi, mask_lo_lo}; // @[Misc.scala:222:10] wire [1:0] mask_hi_lo = {mask_acc_5, mask_acc_4}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_hi_hi = {mask_acc_7, mask_acc_6}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_hi = {mask_hi_hi, mask_hi_lo}; // @[Misc.scala:222:10] wire [7:0] mask = {mask_hi, mask_lo}; // @[Misc.scala:222:10] wire [1:0] uncommonBits = _uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_1 = _uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_2 = _uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_3 = _uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_4 = _uncommonBits_T_4[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_5 = _uncommonBits_T_5[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_6 = _uncommonBits_T_6[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_7 = _uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_8 = _uncommonBits_T_8[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_9 = _uncommonBits_T_9[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_10 = _uncommonBits_T_10[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_11 = _uncommonBits_T_11[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_12 = _uncommonBits_T_12[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_13 = _uncommonBits_T_13[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_14 = _uncommonBits_T_14[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_15 = _uncommonBits_T_15[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_16 = _uncommonBits_T_16[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_17 = _uncommonBits_T_17[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_18 = _uncommonBits_T_18[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_19 = _uncommonBits_T_19[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_20 = _uncommonBits_T_20[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_21 = _uncommonBits_T_21[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_22 = _uncommonBits_T_22[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_23 = _uncommonBits_T_23[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_24 = _uncommonBits_T_24[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_25 = _uncommonBits_T_25[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_26 = _uncommonBits_T_26[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_27 = _uncommonBits_T_27[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_28 = _uncommonBits_T_28[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_29 = _uncommonBits_T_29[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_30 = _uncommonBits_T_30[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_31 = _uncommonBits_T_31[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_32 = _uncommonBits_T_32[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_33 = _uncommonBits_T_33[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_34 = _uncommonBits_T_34[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_35 = _uncommonBits_T_35[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_36 = _uncommonBits_T_36[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_37 = _uncommonBits_T_37[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_38 = _uncommonBits_T_38[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_39 = _uncommonBits_T_39[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_40 = _uncommonBits_T_40[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_41 = _uncommonBits_T_41[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_42 = _uncommonBits_T_42[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_43 = _uncommonBits_T_43[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_44 = io_in_d_bits_source_0 == 6'h10; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_0 = _source_ok_T_44; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_4 = _source_ok_uncommonBits_T_4[1:0]; // @[Parameters.scala:52:{29,56}] wire [3:0] _source_ok_T_45 = io_in_d_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire [3:0] _source_ok_T_51 = io_in_d_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire [3:0] _source_ok_T_57 = io_in_d_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire [3:0] _source_ok_T_63 = io_in_d_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire _source_ok_T_46 = _source_ok_T_45 == 4'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_48 = _source_ok_T_46; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_50 = _source_ok_T_48; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_1 = _source_ok_T_50; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_5 = _source_ok_uncommonBits_T_5[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_52 = _source_ok_T_51 == 4'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_54 = _source_ok_T_52; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_56 = _source_ok_T_54; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_2 = _source_ok_T_56; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_6 = _source_ok_uncommonBits_T_6[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_58 = _source_ok_T_57 == 4'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_60 = _source_ok_T_58; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_62 = _source_ok_T_60; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_3 = _source_ok_T_62; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_7 = _source_ok_uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_64 = _source_ok_T_63 == 4'h3; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_66 = _source_ok_T_64; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_68 = _source_ok_T_66; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_4 = _source_ok_T_68; // @[Parameters.scala:1138:31] wire _source_ok_T_69 = io_in_d_bits_source_0 == 6'h24; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_5 = _source_ok_T_69; // @[Parameters.scala:1138:31] wire _source_ok_T_70 = io_in_d_bits_source_0 == 6'h26; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_6 = _source_ok_T_70; // @[Parameters.scala:1138:31] wire _source_ok_T_71 = io_in_d_bits_source_0 == 6'h2E; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_7 = _source_ok_T_71; // @[Parameters.scala:1138:31] wire _source_ok_T_72 = io_in_d_bits_source_0 == 6'h2C; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_8 = _source_ok_T_72; // @[Parameters.scala:1138:31] wire _source_ok_T_73 = io_in_d_bits_source_0 == 6'h2A; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_9 = _source_ok_T_73; // @[Parameters.scala:1138:31] wire _source_ok_T_74 = io_in_d_bits_source_0 == 6'h28; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_10 = _source_ok_T_74; // @[Parameters.scala:1138:31] wire _source_ok_T_75 = io_in_d_bits_source_0 == 6'h22; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_11 = _source_ok_T_75; // @[Parameters.scala:1138:31] wire _source_ok_T_76 = io_in_d_bits_source_0 == 6'h20; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_12 = _source_ok_T_76; // @[Parameters.scala:1138:31] wire _source_ok_T_77 = _source_ok_WIRE_1_0 | _source_ok_WIRE_1_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_78 = _source_ok_T_77 | _source_ok_WIRE_1_2; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_79 = _source_ok_T_78 | _source_ok_WIRE_1_3; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_80 = _source_ok_T_79 | _source_ok_WIRE_1_4; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_81 = _source_ok_T_80 | _source_ok_WIRE_1_5; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_82 = _source_ok_T_81 | _source_ok_WIRE_1_6; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_83 = _source_ok_T_82 | _source_ok_WIRE_1_7; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_84 = _source_ok_T_83 | _source_ok_WIRE_1_8; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_85 = _source_ok_T_84 | _source_ok_WIRE_1_9; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_86 = _source_ok_T_85 | _source_ok_WIRE_1_10; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_87 = _source_ok_T_86 | _source_ok_WIRE_1_11; // @[Parameters.scala:1138:31, :1139:46] wire source_ok_1 = _source_ok_T_87 | _source_ok_WIRE_1_12; // @[Parameters.scala:1138:31, :1139:46] wire sink_ok = io_in_d_bits_sink_0 != 3'h7; // @[Monitor.scala:36:7, :309:31] wire _legal_source_T = io_in_b_bits_source_0 == 6'h10; // @[Monitor.scala:36:7] wire [1:0] uncommonBits_44 = _uncommonBits_T_44[1:0]; // @[Parameters.scala:52:{29,56}] wire [3:0] _legal_source_T_1 = io_in_b_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire [3:0] _legal_source_T_7 = io_in_b_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire [3:0] _legal_source_T_13 = io_in_b_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire [3:0] _legal_source_T_19 = io_in_b_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire [1:0] uncommonBits_45 = _uncommonBits_T_45[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_46 = _uncommonBits_T_46[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_47 = _uncommonBits_T_47[1:0]; // @[Parameters.scala:52:{29,56}] wire _legal_source_T_25 = io_in_b_bits_source_0 == 6'h24; // @[Monitor.scala:36:7] wire _legal_source_T_26 = io_in_b_bits_source_0 == 6'h26; // @[Monitor.scala:36:7] wire _legal_source_T_27 = io_in_b_bits_source_0 == 6'h2E; // @[Monitor.scala:36:7] wire _legal_source_T_28 = io_in_b_bits_source_0 == 6'h2C; // @[Monitor.scala:36:7] wire _legal_source_T_29 = io_in_b_bits_source_0 == 6'h2A; // @[Monitor.scala:36:7] wire _legal_source_T_30 = io_in_b_bits_source_0 == 6'h28; // @[Monitor.scala:36:7] wire _legal_source_T_31 = io_in_b_bits_source_0 == 6'h22; // @[Monitor.scala:36:7] wire _legal_source_T_32 = io_in_b_bits_source_0 == 6'h20; // @[Monitor.scala:36:7] wire [27:0] _GEN_0 = io_in_b_bits_address_0[27:0] ^ 28'h8000000; // @[Monitor.scala:36:7] wire [31:0] _address_ok_T = {io_in_b_bits_address_0[31:28], _GEN_0}; // @[Monitor.scala:36:7] wire [32:0] _address_ok_T_1 = {1'h0, _address_ok_T}; // @[Parameters.scala:137:{31,41}] wire [32:0] _address_ok_T_2 = _address_ok_T_1 & 33'h1FFFF0000; // @[Parameters.scala:137:{41,46}] wire [32:0] _address_ok_T_3 = _address_ok_T_2; // @[Parameters.scala:137:46] wire _address_ok_T_4 = _address_ok_T_3 == 33'h0; // @[Parameters.scala:137:{46,59}] wire _address_ok_WIRE_0 = _address_ok_T_4; // @[Parameters.scala:612:40] wire [31:0] _address_ok_T_5 = io_in_b_bits_address_0 ^ 32'h80000000; // @[Monitor.scala:36:7] wire [32:0] _address_ok_T_6 = {1'h0, _address_ok_T_5}; // @[Parameters.scala:137:{31,41}] wire [32:0] _address_ok_T_7 = _address_ok_T_6 & 33'h1F0000000; // @[Parameters.scala:137:{41,46}] wire [32:0] _address_ok_T_8 = _address_ok_T_7; // @[Parameters.scala:137:46] wire _address_ok_T_9 = _address_ok_T_8 == 33'h0; // @[Parameters.scala:137:{46,59}] wire _address_ok_WIRE_1 = _address_ok_T_9; // @[Parameters.scala:612:40] wire address_ok = _address_ok_WIRE_0 | _address_ok_WIRE_1; // @[Parameters.scala:612:40, :636:64] wire [31:0] _is_aligned_T_1 = {26'h0, io_in_b_bits_address_0[5:0]}; // @[Monitor.scala:36:7] wire is_aligned_1 = _is_aligned_T_1 == 32'h0; // @[Edges.scala:21:{16,24}] wire mask_sub_sub_bit_1 = io_in_b_bits_address_0[2]; // @[Misc.scala:210:26] wire mask_sub_sub_1_2_1 = mask_sub_sub_bit_1; // @[Misc.scala:210:26, :214:27] wire mask_sub_sub_nbit_1 = ~mask_sub_sub_bit_1; // @[Misc.scala:210:26, :211:20] wire mask_sub_sub_0_2_1 = mask_sub_sub_nbit_1; // @[Misc.scala:211:20, :214:27] wire _mask_sub_sub_acc_T_2 = mask_sub_sub_0_2_1; // @[Misc.scala:214:27, :215:38] wire _mask_sub_sub_acc_T_3 = mask_sub_sub_1_2_1; // @[Misc.scala:214:27, :215:38] wire mask_sub_bit_1 = io_in_b_bits_address_0[1]; // @[Misc.scala:210:26] wire mask_sub_nbit_1 = ~mask_sub_bit_1; // @[Misc.scala:210:26, :211:20] wire mask_sub_0_2_1 = mask_sub_sub_0_2_1 & mask_sub_nbit_1; // @[Misc.scala:211:20, :214:27] wire mask_sub_1_2_1 = mask_sub_sub_0_2_1 & mask_sub_bit_1; // @[Misc.scala:210:26, :214:27] wire mask_sub_2_2_1 = mask_sub_sub_1_2_1 & mask_sub_nbit_1; // @[Misc.scala:211:20, :214:27] wire mask_sub_3_2_1 = mask_sub_sub_1_2_1 & mask_sub_bit_1; // @[Misc.scala:210:26, :214:27] wire mask_bit_1 = io_in_b_bits_address_0[0]; // @[Misc.scala:210:26] wire mask_nbit_1 = ~mask_bit_1; // @[Misc.scala:210:26, :211:20] wire mask_eq_8 = mask_sub_0_2_1 & mask_nbit_1; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_8 = mask_eq_8; // @[Misc.scala:214:27, :215:38] wire mask_eq_9 = mask_sub_0_2_1 & mask_bit_1; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_9 = mask_eq_9; // @[Misc.scala:214:27, :215:38] wire mask_eq_10 = mask_sub_1_2_1 & mask_nbit_1; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_10 = mask_eq_10; // @[Misc.scala:214:27, :215:38] wire mask_eq_11 = mask_sub_1_2_1 & mask_bit_1; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_11 = mask_eq_11; // @[Misc.scala:214:27, :215:38] wire mask_eq_12 = mask_sub_2_2_1 & mask_nbit_1; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_12 = mask_eq_12; // @[Misc.scala:214:27, :215:38] wire mask_eq_13 = mask_sub_2_2_1 & mask_bit_1; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_13 = mask_eq_13; // @[Misc.scala:214:27, :215:38] wire mask_eq_14 = mask_sub_3_2_1 & mask_nbit_1; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_14 = mask_eq_14; // @[Misc.scala:214:27, :215:38] wire mask_eq_15 = mask_sub_3_2_1 & mask_bit_1; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_15 = mask_eq_15; // @[Misc.scala:214:27, :215:38] wire _legal_source_WIRE_0 = _legal_source_T; // @[Parameters.scala:1138:31] wire [1:0] legal_source_uncommonBits = _legal_source_uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire _legal_source_T_2 = _legal_source_T_1 == 4'h0; // @[Parameters.scala:54:{10,32}] wire _legal_source_T_4 = _legal_source_T_2; // @[Parameters.scala:54:{32,67}] wire _legal_source_T_6 = _legal_source_T_4; // @[Parameters.scala:54:67, :56:48] wire _legal_source_WIRE_1 = _legal_source_T_6; // @[Parameters.scala:1138:31] wire [1:0] legal_source_uncommonBits_1 = _legal_source_uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire _legal_source_T_8 = _legal_source_T_7 == 4'h1; // @[Parameters.scala:54:{10,32}] wire _legal_source_T_10 = _legal_source_T_8; // @[Parameters.scala:54:{32,67}] wire _legal_source_T_12 = _legal_source_T_10; // @[Parameters.scala:54:67, :56:48] wire _legal_source_WIRE_2 = _legal_source_T_12; // @[Parameters.scala:1138:31] wire [1:0] legal_source_uncommonBits_2 = _legal_source_uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire _legal_source_T_14 = _legal_source_T_13 == 4'h2; // @[Parameters.scala:54:{10,32}] wire _legal_source_T_16 = _legal_source_T_14; // @[Parameters.scala:54:{32,67}] wire _legal_source_T_18 = _legal_source_T_16; // @[Parameters.scala:54:67, :56:48] wire _legal_source_WIRE_3 = _legal_source_T_18; // @[Parameters.scala:1138:31] wire [1:0] legal_source_uncommonBits_3 = _legal_source_uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire _legal_source_T_20 = _legal_source_T_19 == 4'h3; // @[Parameters.scala:54:{10,32}] wire _legal_source_T_22 = _legal_source_T_20; // @[Parameters.scala:54:{32,67}] wire _legal_source_T_24 = _legal_source_T_22; // @[Parameters.scala:54:67, :56:48] wire _legal_source_WIRE_4 = _legal_source_T_24; // @[Parameters.scala:1138:31] wire _legal_source_WIRE_5 = _legal_source_T_25; // @[Parameters.scala:1138:31] wire _legal_source_WIRE_6 = _legal_source_T_26; // @[Parameters.scala:1138:31] wire _legal_source_WIRE_7 = _legal_source_T_27; // @[Parameters.scala:1138:31] wire _legal_source_WIRE_8 = _legal_source_T_28; // @[Parameters.scala:1138:31] wire _legal_source_WIRE_9 = _legal_source_T_29; // @[Parameters.scala:1138:31] wire _legal_source_WIRE_10 = _legal_source_T_30; // @[Parameters.scala:1138:31] wire _legal_source_WIRE_11 = _legal_source_T_31; // @[Parameters.scala:1138:31] wire _legal_source_WIRE_12 = _legal_source_T_32; // @[Parameters.scala:1138:31] wire [4:0] _legal_source_T_33 = {_legal_source_WIRE_0, 4'h0}; // @[Mux.scala:30:73] wire [4:0] _legal_source_T_46 = _legal_source_T_33; // @[Mux.scala:30:73] wire [2:0] _legal_source_T_35 = {_legal_source_WIRE_2, 2'h0}; // @[Mux.scala:30:73] wire [3:0] _legal_source_T_36 = {_legal_source_WIRE_3, 3'h0}; // @[Mux.scala:30:73] wire [3:0] _legal_source_T_37 = _legal_source_WIRE_4 ? 4'hC : 4'h0; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_38 = _legal_source_WIRE_5 ? 6'h24 : 6'h0; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_39 = _legal_source_WIRE_6 ? 6'h26 : 6'h0; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_40 = _legal_source_WIRE_7 ? 6'h2E : 6'h0; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_41 = _legal_source_WIRE_8 ? 6'h2C : 6'h0; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_42 = _legal_source_WIRE_9 ? 6'h2A : 6'h0; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_43 = _legal_source_WIRE_10 ? 6'h28 : 6'h0; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_44 = _legal_source_WIRE_11 ? 6'h22 : 6'h0; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_45 = {_legal_source_WIRE_12, 5'h0}; // @[Mux.scala:30:73] wire [4:0] _legal_source_T_47 = {_legal_source_T_46[4:3], _legal_source_T_46[2:0] | _legal_source_T_35}; // @[Mux.scala:30:73] wire [4:0] _legal_source_T_48 = {_legal_source_T_47[4], _legal_source_T_47[3:0] | _legal_source_T_36}; // @[Mux.scala:30:73] wire [4:0] _legal_source_T_49 = {_legal_source_T_48[4], _legal_source_T_48[3:0] | _legal_source_T_37}; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_50 = {1'h0, _legal_source_T_49} | _legal_source_T_38; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_51 = _legal_source_T_50 | _legal_source_T_39; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_52 = _legal_source_T_51 | _legal_source_T_40; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_53 = _legal_source_T_52 | _legal_source_T_41; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_54 = _legal_source_T_53 | _legal_source_T_42; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_55 = _legal_source_T_54 | _legal_source_T_43; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_56 = _legal_source_T_55 | _legal_source_T_44; // @[Mux.scala:30:73] wire [5:0] _legal_source_T_57 = _legal_source_T_56 | _legal_source_T_45; // @[Mux.scala:30:73] wire [5:0] _legal_source_WIRE_1_0 = _legal_source_T_57; // @[Mux.scala:30:73] wire legal_source = _legal_source_WIRE_1_0 == io_in_b_bits_source_0; // @[Mux.scala:30:73] wire [1:0] uncommonBits_48 = _uncommonBits_T_48[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_49 = _uncommonBits_T_49[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_50 = _uncommonBits_T_50[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_51 = _uncommonBits_T_51[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_88 = io_in_c_bits_source_0 == 6'h10; // @[Monitor.scala:36:7] wire _source_ok_WIRE_2_0 = _source_ok_T_88; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_8 = _source_ok_uncommonBits_T_8[1:0]; // @[Parameters.scala:52:{29,56}] wire [3:0] _source_ok_T_89 = io_in_c_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire [3:0] _source_ok_T_95 = io_in_c_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire [3:0] _source_ok_T_101 = io_in_c_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire [3:0] _source_ok_T_107 = io_in_c_bits_source_0[5:2]; // @[Monitor.scala:36:7] wire _source_ok_T_90 = _source_ok_T_89 == 4'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_92 = _source_ok_T_90; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_94 = _source_ok_T_92; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_2_1 = _source_ok_T_94; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_9 = _source_ok_uncommonBits_T_9[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_96 = _source_ok_T_95 == 4'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_98 = _source_ok_T_96; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_100 = _source_ok_T_98; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_2_2 = _source_ok_T_100; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_10 = _source_ok_uncommonBits_T_10[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_102 = _source_ok_T_101 == 4'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_104 = _source_ok_T_102; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_106 = _source_ok_T_104; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_2_3 = _source_ok_T_106; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_11 = _source_ok_uncommonBits_T_11[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_108 = _source_ok_T_107 == 4'h3; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_110 = _source_ok_T_108; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_112 = _source_ok_T_110; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_2_4 = _source_ok_T_112; // @[Parameters.scala:1138:31] wire _source_ok_T_113 = io_in_c_bits_source_0 == 6'h24; // @[Monitor.scala:36:7] wire _source_ok_WIRE_2_5 = _source_ok_T_113; // @[Parameters.scala:1138:31] wire _source_ok_T_114 = io_in_c_bits_source_0 == 6'h26; // @[Monitor.scala:36:7] wire _source_ok_WIRE_2_6 = _source_ok_T_114; // @[Parameters.scala:1138:31] wire _source_ok_T_115 = io_in_c_bits_source_0 == 6'h2E; // @[Monitor.scala:36:7] wire _source_ok_WIRE_2_7 = _source_ok_T_115; // @[Parameters.scala:1138:31] wire _source_ok_T_116 = io_in_c_bits_source_0 == 6'h2C; // @[Monitor.scala:36:7] wire _source_ok_WIRE_2_8 = _source_ok_T_116; // @[Parameters.scala:1138:31] wire _source_ok_T_117 = io_in_c_bits_source_0 == 6'h2A; // @[Monitor.scala:36:7] wire _source_ok_WIRE_2_9 = _source_ok_T_117; // @[Parameters.scala:1138:31] wire _source_ok_T_118 = io_in_c_bits_source_0 == 6'h28; // @[Monitor.scala:36:7] wire _source_ok_WIRE_2_10 = _source_ok_T_118; // @[Parameters.scala:1138:31] wire _source_ok_T_119 = io_in_c_bits_source_0 == 6'h22; // @[Monitor.scala:36:7] wire _source_ok_WIRE_2_11 = _source_ok_T_119; // @[Parameters.scala:1138:31] wire _source_ok_T_120 = io_in_c_bits_source_0 == 6'h20; // @[Monitor.scala:36:7] wire _source_ok_WIRE_2_12 = _source_ok_T_120; // @[Parameters.scala:1138:31] wire _source_ok_T_121 = _source_ok_WIRE_2_0 | _source_ok_WIRE_2_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_122 = _source_ok_T_121 | _source_ok_WIRE_2_2; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_123 = _source_ok_T_122 | _source_ok_WIRE_2_3; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_124 = _source_ok_T_123 | _source_ok_WIRE_2_4; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_125 = _source_ok_T_124 | _source_ok_WIRE_2_5; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_126 = _source_ok_T_125 | _source_ok_WIRE_2_6; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_127 = _source_ok_T_126 | _source_ok_WIRE_2_7; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_128 = _source_ok_T_127 | _source_ok_WIRE_2_8; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_129 = _source_ok_T_128 | _source_ok_WIRE_2_9; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_130 = _source_ok_T_129 | _source_ok_WIRE_2_10; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_131 = _source_ok_T_130 | _source_ok_WIRE_2_11; // @[Parameters.scala:1138:31, :1139:46] wire source_ok_2 = _source_ok_T_131 | _source_ok_WIRE_2_12; // @[Parameters.scala:1138:31, :1139:46] wire [12:0] _GEN_1 = 13'h3F << io_in_c_bits_size_0; // @[package.scala:243:71] wire [12:0] _is_aligned_mask_T_4; // @[package.scala:243:71] assign _is_aligned_mask_T_4 = _GEN_1; // @[package.scala:243:71] wire [12:0] _c_first_beats1_decode_T; // @[package.scala:243:71] assign _c_first_beats1_decode_T = _GEN_1; // @[package.scala:243:71] wire [12:0] _c_first_beats1_decode_T_3; // @[package.scala:243:71] assign _c_first_beats1_decode_T_3 = _GEN_1; // @[package.scala:243:71] wire [5:0] _is_aligned_mask_T_5 = _is_aligned_mask_T_4[5:0]; // @[package.scala:243:{71,76}] wire [5:0] is_aligned_mask_2 = ~_is_aligned_mask_T_5; // @[package.scala:243:{46,76}] wire [31:0] _is_aligned_T_2 = {26'h0, io_in_c_bits_address_0[5:0] & is_aligned_mask_2}; // @[package.scala:243:46] wire is_aligned_2 = _is_aligned_T_2 == 32'h0; // @[Edges.scala:21:{16,24}] wire [27:0] _GEN_2 = io_in_c_bits_address_0[27:0] ^ 28'h8000000; // @[Monitor.scala:36:7] wire [31:0] _address_ok_T_10 = {io_in_c_bits_address_0[31:28], _GEN_2}; // @[Monitor.scala:36:7] wire [32:0] _address_ok_T_11 = {1'h0, _address_ok_T_10}; // @[Parameters.scala:137:{31,41}] wire [32:0] _address_ok_T_12 = _address_ok_T_11 & 33'h1FFFF0000; // @[Parameters.scala:137:{41,46}] wire [32:0] _address_ok_T_13 = _address_ok_T_12; // @[Parameters.scala:137:46] wire _address_ok_T_14 = _address_ok_T_13 == 33'h0; // @[Parameters.scala:137:{46,59}] wire _address_ok_WIRE_1_0 = _address_ok_T_14; // @[Parameters.scala:612:40] wire [31:0] _address_ok_T_15 = io_in_c_bits_address_0 ^ 32'h80000000; // @[Monitor.scala:36:7] wire [32:0] _address_ok_T_16 = {1'h0, _address_ok_T_15}; // @[Parameters.scala:137:{31,41}] wire [32:0] _address_ok_T_17 = _address_ok_T_16 & 33'h1F0000000; // @[Parameters.scala:137:{41,46}] wire [32:0] _address_ok_T_18 = _address_ok_T_17; // @[Parameters.scala:137:46] wire _address_ok_T_19 = _address_ok_T_18 == 33'h0; // @[Parameters.scala:137:{46,59}] wire _address_ok_WIRE_1_1 = _address_ok_T_19; // @[Parameters.scala:612:40] wire address_ok_1 = _address_ok_WIRE_1_0 | _address_ok_WIRE_1_1; // @[Parameters.scala:612:40, :636:64] wire [1:0] uncommonBits_52 = _uncommonBits_T_52[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_53 = _uncommonBits_T_53[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_54 = _uncommonBits_T_54[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_55 = _uncommonBits_T_55[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_56 = _uncommonBits_T_56[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_57 = _uncommonBits_T_57[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_58 = _uncommonBits_T_58[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_59 = _uncommonBits_T_59[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_60 = _uncommonBits_T_60[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_61 = _uncommonBits_T_61[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_62 = _uncommonBits_T_62[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_63 = _uncommonBits_T_63[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_64 = _uncommonBits_T_64[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_65 = _uncommonBits_T_65[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_66 = _uncommonBits_T_66[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_67 = _uncommonBits_T_67[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_68 = _uncommonBits_T_68[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_69 = _uncommonBits_T_69[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_70 = _uncommonBits_T_70[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_71 = _uncommonBits_T_71[1:0]; // @[Parameters.scala:52:{29,56}] wire sink_ok_1 = io_in_e_bits_sink_0 != 3'h7; // @[Monitor.scala:36:7, :367:31] wire _T_2410 = io_in_a_ready_0 & io_in_a_valid_0; // @[Decoupled.scala:51:35] wire _a_first_T; // @[Decoupled.scala:51:35] assign _a_first_T = _T_2410; // @[Decoupled.scala:51:35] wire _a_first_T_1; // @[Decoupled.scala:51:35] assign _a_first_T_1 = _T_2410; // @[Decoupled.scala:51:35] wire [5:0] _a_first_beats1_decode_T_1 = _a_first_beats1_decode_T[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _a_first_beats1_decode_T_2 = ~_a_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [2:0] a_first_beats1_decode = _a_first_beats1_decode_T_2[5:3]; // @[package.scala:243:46] wire _a_first_beats1_opdata_T = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire _a_first_beats1_opdata_T_1 = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire a_first_beats1_opdata = ~_a_first_beats1_opdata_T; // @[Edges.scala:92:{28,37}] wire [2:0] a_first_beats1 = a_first_beats1_opdata ? a_first_beats1_decode : 3'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [2:0] a_first_counter; // @[Edges.scala:229:27] wire [3:0] _a_first_counter1_T = {1'h0, a_first_counter} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] a_first_counter1 = _a_first_counter1_T[2:0]; // @[Edges.scala:230:28] wire a_first = a_first_counter == 3'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T = a_first_counter == 3'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_1 = a_first_beats1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last = _a_first_last_T | _a_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire a_first_done = a_first_last & _a_first_T; // @[Decoupled.scala:51:35] wire [2:0] _a_first_count_T = ~a_first_counter1; // @[Edges.scala:230:28, :234:27] wire [2:0] a_first_count = a_first_beats1 & _a_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _a_first_counter_T = a_first ? a_first_beats1 : a_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode; // @[Monitor.scala:387:22] reg [2:0] param; // @[Monitor.scala:388:22] reg [2:0] size; // @[Monitor.scala:389:22] reg [5:0] source; // @[Monitor.scala:390:22] reg [31:0] address; // @[Monitor.scala:391:22] wire _T_2484 = io_in_d_ready_0 & io_in_d_valid_0; // @[Decoupled.scala:51:35] wire _d_first_T; // @[Decoupled.scala:51:35] assign _d_first_T = _T_2484; // @[Decoupled.scala:51:35] wire _d_first_T_1; // @[Decoupled.scala:51:35] assign _d_first_T_1 = _T_2484; // @[Decoupled.scala:51:35] wire _d_first_T_2; // @[Decoupled.scala:51:35] assign _d_first_T_2 = _T_2484; // @[Decoupled.scala:51:35] wire _d_first_T_3; // @[Decoupled.scala:51:35] assign _d_first_T_3 = _T_2484; // @[Decoupled.scala:51:35] wire [12:0] _GEN_3 = 13'h3F << io_in_d_bits_size_0; // @[package.scala:243:71] wire [12:0] _d_first_beats1_decode_T; // @[package.scala:243:71] assign _d_first_beats1_decode_T = _GEN_3; // @[package.scala:243:71] wire [12:0] _d_first_beats1_decode_T_3; // @[package.scala:243:71] assign _d_first_beats1_decode_T_3 = _GEN_3; // @[package.scala:243:71] wire [12:0] _d_first_beats1_decode_T_6; // @[package.scala:243:71] assign _d_first_beats1_decode_T_6 = _GEN_3; // @[package.scala:243:71] wire [12:0] _d_first_beats1_decode_T_9; // @[package.scala:243:71] assign _d_first_beats1_decode_T_9 = _GEN_3; // @[package.scala:243:71] wire [5:0] _d_first_beats1_decode_T_1 = _d_first_beats1_decode_T[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _d_first_beats1_decode_T_2 = ~_d_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [2:0] d_first_beats1_decode = _d_first_beats1_decode_T_2[5:3]; // @[package.scala:243:46] wire d_first_beats1_opdata = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_1 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_2 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_3 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire [2:0] d_first_beats1 = d_first_beats1_opdata ? d_first_beats1_decode : 3'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [2:0] d_first_counter; // @[Edges.scala:229:27] wire [3:0] _d_first_counter1_T = {1'h0, d_first_counter} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] d_first_counter1 = _d_first_counter1_T[2:0]; // @[Edges.scala:230:28] wire d_first = d_first_counter == 3'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T = d_first_counter == 3'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_1 = d_first_beats1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last = _d_first_last_T | _d_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire d_first_done = d_first_last & _d_first_T; // @[Decoupled.scala:51:35] wire [2:0] _d_first_count_T = ~d_first_counter1; // @[Edges.scala:230:28, :234:27] wire [2:0] d_first_count = d_first_beats1 & _d_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _d_first_counter_T = d_first ? d_first_beats1 : d_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode_1; // @[Monitor.scala:538:22] reg [1:0] param_1; // @[Monitor.scala:539:22] reg [2:0] size_1; // @[Monitor.scala:540:22] reg [5:0] source_1; // @[Monitor.scala:541:22] reg [2:0] sink; // @[Monitor.scala:542:22] reg denied; // @[Monitor.scala:543:22] wire _b_first_T = io_in_b_ready_0 & io_in_b_valid_0; // @[Decoupled.scala:51:35] wire b_first_done = _b_first_T; // @[Decoupled.scala:51:35] reg [2:0] b_first_counter; // @[Edges.scala:229:27] wire [3:0] _b_first_counter1_T = {1'h0, b_first_counter} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] b_first_counter1 = _b_first_counter1_T[2:0]; // @[Edges.scala:230:28] wire b_first = b_first_counter == 3'h0; // @[Edges.scala:229:27, :231:25] wire _b_first_last_T = b_first_counter == 3'h1; // @[Edges.scala:229:27, :232:25] wire [2:0] _b_first_count_T = ~b_first_counter1; // @[Edges.scala:230:28, :234:27] wire [2:0] _b_first_counter_T = b_first ? 3'h0 : b_first_counter1; // @[Edges.scala:230:28, :231:25, :236:21] reg [1:0] param_2; // @[Monitor.scala:411:22] reg [5:0] source_2; // @[Monitor.scala:413:22] reg [31:0] address_1; // @[Monitor.scala:414:22] wire _T_2481 = io_in_c_ready_0 & io_in_c_valid_0; // @[Decoupled.scala:51:35] wire _c_first_T; // @[Decoupled.scala:51:35] assign _c_first_T = _T_2481; // @[Decoupled.scala:51:35] wire _c_first_T_1; // @[Decoupled.scala:51:35] assign _c_first_T_1 = _T_2481; // @[Decoupled.scala:51:35] wire [5:0] _c_first_beats1_decode_T_1 = _c_first_beats1_decode_T[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _c_first_beats1_decode_T_2 = ~_c_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [2:0] c_first_beats1_decode = _c_first_beats1_decode_T_2[5:3]; // @[package.scala:243:46] wire c_first_beats1_opdata = io_in_c_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire c_first_beats1_opdata_1 = io_in_c_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire [2:0] c_first_beats1 = c_first_beats1_opdata ? c_first_beats1_decode : 3'h0; // @[Edges.scala:102:36, :220:59, :221:14] reg [2:0] c_first_counter; // @[Edges.scala:229:27] wire [3:0] _c_first_counter1_T = {1'h0, c_first_counter} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] c_first_counter1 = _c_first_counter1_T[2:0]; // @[Edges.scala:230:28] wire c_first = c_first_counter == 3'h0; // @[Edges.scala:229:27, :231:25] wire _c_first_last_T = c_first_counter == 3'h1; // @[Edges.scala:229:27, :232:25] wire _c_first_last_T_1 = c_first_beats1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire c_first_last = _c_first_last_T | _c_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire c_first_done = c_first_last & _c_first_T; // @[Decoupled.scala:51:35] wire [2:0] _c_first_count_T = ~c_first_counter1; // @[Edges.scala:230:28, :234:27] wire [2:0] c_first_count = c_first_beats1 & _c_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _c_first_counter_T = c_first ? c_first_beats1 : c_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode_3; // @[Monitor.scala:515:22] reg [2:0] param_3; // @[Monitor.scala:516:22] reg [2:0] size_3; // @[Monitor.scala:517:22] reg [5:0] source_3; // @[Monitor.scala:518:22] reg [31:0] address_2; // @[Monitor.scala:519:22] reg [46:0] inflight; // @[Monitor.scala:614:27] reg [187:0] inflight_opcodes; // @[Monitor.scala:616:35] reg [187:0] inflight_sizes; // @[Monitor.scala:618:33] wire [5:0] _a_first_beats1_decode_T_4 = _a_first_beats1_decode_T_3[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _a_first_beats1_decode_T_5 = ~_a_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [2:0] a_first_beats1_decode_1 = _a_first_beats1_decode_T_5[5:3]; // @[package.scala:243:46] wire a_first_beats1_opdata_1 = ~_a_first_beats1_opdata_T_1; // @[Edges.scala:92:{28,37}] wire [2:0] a_first_beats1_1 = a_first_beats1_opdata_1 ? a_first_beats1_decode_1 : 3'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [2:0] a_first_counter_1; // @[Edges.scala:229:27] wire [3:0] _a_first_counter1_T_1 = {1'h0, a_first_counter_1} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] a_first_counter1_1 = _a_first_counter1_T_1[2:0]; // @[Edges.scala:230:28] wire a_first_1 = a_first_counter_1 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T_2 = a_first_counter_1 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_3 = a_first_beats1_1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last_1 = _a_first_last_T_2 | _a_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire a_first_done_1 = a_first_last_1 & _a_first_T_1; // @[Decoupled.scala:51:35] wire [2:0] _a_first_count_T_1 = ~a_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [2:0] a_first_count_1 = a_first_beats1_1 & _a_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _a_first_counter_T_1 = a_first_1 ? a_first_beats1_1 : a_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [5:0] _d_first_beats1_decode_T_4 = _d_first_beats1_decode_T_3[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _d_first_beats1_decode_T_5 = ~_d_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [2:0] d_first_beats1_decode_1 = _d_first_beats1_decode_T_5[5:3]; // @[package.scala:243:46] wire [2:0] d_first_beats1_1 = d_first_beats1_opdata_1 ? d_first_beats1_decode_1 : 3'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [2:0] d_first_counter_1; // @[Edges.scala:229:27] wire [3:0] _d_first_counter1_T_1 = {1'h0, d_first_counter_1} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] d_first_counter1_1 = _d_first_counter1_T_1[2:0]; // @[Edges.scala:230:28] wire d_first_1 = d_first_counter_1 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_2 = d_first_counter_1 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_3 = d_first_beats1_1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_1 = _d_first_last_T_2 | _d_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire d_first_done_1 = d_first_last_1 & _d_first_T_1; // @[Decoupled.scala:51:35] wire [2:0] _d_first_count_T_1 = ~d_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [2:0] d_first_count_1 = d_first_beats1_1 & _d_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _d_first_counter_T_1 = d_first_1 ? d_first_beats1_1 : d_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [46:0] a_set; // @[Monitor.scala:626:34] wire [46:0] a_set_wo_ready; // @[Monitor.scala:627:34] wire [187:0] a_opcodes_set; // @[Monitor.scala:630:33] wire [187:0] a_sizes_set; // @[Monitor.scala:632:31] wire [2:0] a_opcode_lookup; // @[Monitor.scala:635:35] wire [8:0] _GEN_4 = {1'h0, io_in_d_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :637:69] wire [8:0] _a_opcode_lookup_T; // @[Monitor.scala:637:69] assign _a_opcode_lookup_T = _GEN_4; // @[Monitor.scala:637:69] wire [8:0] _a_size_lookup_T; // @[Monitor.scala:641:65] assign _a_size_lookup_T = _GEN_4; // @[Monitor.scala:637:69, :641:65] wire [8:0] _d_opcodes_clr_T_4; // @[Monitor.scala:680:101] assign _d_opcodes_clr_T_4 = _GEN_4; // @[Monitor.scala:637:69, :680:101] wire [8:0] _d_sizes_clr_T_4; // @[Monitor.scala:681:99] assign _d_sizes_clr_T_4 = _GEN_4; // @[Monitor.scala:637:69, :681:99] wire [8:0] _c_opcode_lookup_T; // @[Monitor.scala:749:69] assign _c_opcode_lookup_T = _GEN_4; // @[Monitor.scala:637:69, :749:69] wire [8:0] _c_size_lookup_T; // @[Monitor.scala:750:67] assign _c_size_lookup_T = _GEN_4; // @[Monitor.scala:637:69, :750:67] wire [8:0] _d_opcodes_clr_T_10; // @[Monitor.scala:790:101] assign _d_opcodes_clr_T_10 = _GEN_4; // @[Monitor.scala:637:69, :790:101] wire [8:0] _d_sizes_clr_T_10; // @[Monitor.scala:791:99] assign _d_sizes_clr_T_10 = _GEN_4; // @[Monitor.scala:637:69, :791:99] wire [187:0] _a_opcode_lookup_T_1 = inflight_opcodes >> _a_opcode_lookup_T; // @[Monitor.scala:616:35, :637:{44,69}] wire [187:0] _a_opcode_lookup_T_6 = {184'h0, _a_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:637:{44,97}] wire [187:0] _a_opcode_lookup_T_7 = {1'h0, _a_opcode_lookup_T_6[187:1]}; // @[Monitor.scala:637:{97,152}] assign a_opcode_lookup = _a_opcode_lookup_T_7[2:0]; // @[Monitor.scala:635:35, :637:{21,152}] wire [3:0] a_size_lookup; // @[Monitor.scala:639:33] wire [187:0] _a_size_lookup_T_1 = inflight_sizes >> _a_size_lookup_T; // @[Monitor.scala:618:33, :641:{40,65}] wire [187:0] _a_size_lookup_T_6 = {184'h0, _a_size_lookup_T_1[3:0]}; // @[Monitor.scala:641:{40,91}] wire [187:0] _a_size_lookup_T_7 = {1'h0, _a_size_lookup_T_6[187:1]}; // @[Monitor.scala:641:{91,144}] assign a_size_lookup = _a_size_lookup_T_7[3:0]; // @[Monitor.scala:639:33, :641:{19,144}] wire [3:0] a_opcodes_set_interm; // @[Monitor.scala:646:40] wire [3:0] a_sizes_set_interm; // @[Monitor.scala:648:38] wire _same_cycle_resp_T = io_in_a_valid_0 & a_first_1; // @[Monitor.scala:36:7, :651:26, :684:44] wire [63:0] _GEN_5 = 64'h1 << io_in_a_bits_source_0; // @[OneHot.scala:58:35] wire [63:0] _a_set_wo_ready_T; // @[OneHot.scala:58:35] assign _a_set_wo_ready_T = _GEN_5; // @[OneHot.scala:58:35] wire [63:0] _a_set_T; // @[OneHot.scala:58:35] assign _a_set_T = _GEN_5; // @[OneHot.scala:58:35] assign a_set_wo_ready = _same_cycle_resp_T ? _a_set_wo_ready_T[46:0] : 47'h0; // @[OneHot.scala:58:35] wire _T_2336 = _T_2410 & a_first_1; // @[Decoupled.scala:51:35] assign a_set = _T_2336 ? _a_set_T[46:0] : 47'h0; // @[OneHot.scala:58:35] wire [3:0] _a_opcodes_set_interm_T = {io_in_a_bits_opcode_0, 1'h0}; // @[Monitor.scala:36:7, :657:53] wire [3:0] _a_opcodes_set_interm_T_1 = {_a_opcodes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:657:{53,61}] assign a_opcodes_set_interm = _T_2336 ? _a_opcodes_set_interm_T_1 : 4'h0; // @[Monitor.scala:646:40, :655:{25,70}, :657:{28,61}] wire [3:0] _a_sizes_set_interm_T = {io_in_a_bits_size_0, 1'h0}; // @[Monitor.scala:36:7, :658:51] wire [3:0] _a_sizes_set_interm_T_1 = {_a_sizes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:658:{51,59}] assign a_sizes_set_interm = _T_2336 ? _a_sizes_set_interm_T_1 : 4'h0; // @[Monitor.scala:648:38, :655:{25,70}, :658:{28,59}] wire [8:0] _GEN_6 = {1'h0, io_in_a_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :659:79] wire [8:0] _a_opcodes_set_T; // @[Monitor.scala:659:79] assign _a_opcodes_set_T = _GEN_6; // @[Monitor.scala:659:79] wire [8:0] _a_sizes_set_T; // @[Monitor.scala:660:77] assign _a_sizes_set_T = _GEN_6; // @[Monitor.scala:659:79, :660:77] wire [514:0] _a_opcodes_set_T_1 = {511'h0, a_opcodes_set_interm} << _a_opcodes_set_T; // @[Monitor.scala:646:40, :659:{54,79}] assign a_opcodes_set = _T_2336 ? _a_opcodes_set_T_1[187:0] : 188'h0; // @[Monitor.scala:630:33, :655:{25,70}, :659:{28,54}] wire [514:0] _a_sizes_set_T_1 = {511'h0, a_sizes_set_interm} << _a_sizes_set_T; // @[Monitor.scala:648:38, :659:54, :660:{52,77}] assign a_sizes_set = _T_2336 ? _a_sizes_set_T_1[187:0] : 188'h0; // @[Monitor.scala:632:31, :655:{25,70}, :660:{28,52}] wire [46:0] d_clr; // @[Monitor.scala:664:34] wire [46:0] d_clr_wo_ready; // @[Monitor.scala:665:34] wire [187:0] d_opcodes_clr; // @[Monitor.scala:668:33] wire [187:0] d_sizes_clr; // @[Monitor.scala:670:31] wire _GEN_7 = io_in_d_bits_opcode_0 == 3'h6; // @[Monitor.scala:36:7, :673:46] wire d_release_ack; // @[Monitor.scala:673:46] assign d_release_ack = _GEN_7; // @[Monitor.scala:673:46] wire d_release_ack_1; // @[Monitor.scala:783:46] assign d_release_ack_1 = _GEN_7; // @[Monitor.scala:673:46, :783:46] wire _T_2382 = io_in_d_valid_0 & d_first_1; // @[Monitor.scala:36:7, :674:26] wire [63:0] _GEN_8 = 64'h1 << io_in_d_bits_source_0; // @[OneHot.scala:58:35] wire [63:0] _d_clr_wo_ready_T; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T = _GEN_8; // @[OneHot.scala:58:35] wire [63:0] _d_clr_T; // @[OneHot.scala:58:35] assign _d_clr_T = _GEN_8; // @[OneHot.scala:58:35] wire [63:0] _d_clr_wo_ready_T_1; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T_1 = _GEN_8; // @[OneHot.scala:58:35] wire [63:0] _d_clr_T_1; // @[OneHot.scala:58:35] assign _d_clr_T_1 = _GEN_8; // @[OneHot.scala:58:35] assign d_clr_wo_ready = _T_2382 & ~d_release_ack ? _d_clr_wo_ready_T[46:0] : 47'h0; // @[OneHot.scala:58:35] wire _T_2351 = _T_2484 & d_first_1 & ~d_release_ack; // @[Decoupled.scala:51:35] assign d_clr = _T_2351 ? _d_clr_T[46:0] : 47'h0; // @[OneHot.scala:58:35] wire [526:0] _d_opcodes_clr_T_5 = 527'hF << _d_opcodes_clr_T_4; // @[Monitor.scala:680:{76,101}] assign d_opcodes_clr = _T_2351 ? _d_opcodes_clr_T_5[187:0] : 188'h0; // @[Monitor.scala:668:33, :678:{25,70,89}, :680:{21,76}] wire [526:0] _d_sizes_clr_T_5 = 527'hF << _d_sizes_clr_T_4; // @[Monitor.scala:681:{74,99}] assign d_sizes_clr = _T_2351 ? _d_sizes_clr_T_5[187:0] : 188'h0; // @[Monitor.scala:670:31, :678:{25,70,89}, :681:{21,74}] wire _same_cycle_resp_T_1 = _same_cycle_resp_T; // @[Monitor.scala:684:{44,55}] wire _same_cycle_resp_T_2 = io_in_a_bits_source_0 == io_in_d_bits_source_0; // @[Monitor.scala:36:7, :684:113] wire same_cycle_resp = _same_cycle_resp_T_1 & _same_cycle_resp_T_2; // @[Monitor.scala:684:{55,88,113}] wire [46:0] _inflight_T = inflight | a_set; // @[Monitor.scala:614:27, :626:34, :705:27] wire [46:0] _inflight_T_1 = ~d_clr; // @[Monitor.scala:664:34, :705:38] wire [46:0] _inflight_T_2 = _inflight_T & _inflight_T_1; // @[Monitor.scala:705:{27,36,38}] wire [187:0] _inflight_opcodes_T = inflight_opcodes | a_opcodes_set; // @[Monitor.scala:616:35, :630:33, :706:43] wire [187:0] _inflight_opcodes_T_1 = ~d_opcodes_clr; // @[Monitor.scala:668:33, :706:62] wire [187:0] _inflight_opcodes_T_2 = _inflight_opcodes_T & _inflight_opcodes_T_1; // @[Monitor.scala:706:{43,60,62}] wire [187:0] _inflight_sizes_T = inflight_sizes | a_sizes_set; // @[Monitor.scala:618:33, :632:31, :707:39] wire [187:0] _inflight_sizes_T_1 = ~d_sizes_clr; // @[Monitor.scala:670:31, :707:56] wire [187:0] _inflight_sizes_T_2 = _inflight_sizes_T & _inflight_sizes_T_1; // @[Monitor.scala:707:{39,54,56}] reg [31:0] watchdog; // @[Monitor.scala:709:27] wire [32:0] _watchdog_T = {1'h0, watchdog} + 33'h1; // @[Monitor.scala:709:27, :714:26] wire [31:0] _watchdog_T_1 = _watchdog_T[31:0]; // @[Monitor.scala:714:26] reg [46:0] inflight_1; // @[Monitor.scala:726:35] reg [187:0] inflight_opcodes_1; // @[Monitor.scala:727:35] reg [187:0] inflight_sizes_1; // @[Monitor.scala:728:35] wire [5:0] _c_first_beats1_decode_T_4 = _c_first_beats1_decode_T_3[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _c_first_beats1_decode_T_5 = ~_c_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [2:0] c_first_beats1_decode_1 = _c_first_beats1_decode_T_5[5:3]; // @[package.scala:243:46] wire [2:0] c_first_beats1_1 = c_first_beats1_opdata_1 ? c_first_beats1_decode_1 : 3'h0; // @[Edges.scala:102:36, :220:59, :221:14] reg [2:0] c_first_counter_1; // @[Edges.scala:229:27] wire [3:0] _c_first_counter1_T_1 = {1'h0, c_first_counter_1} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] c_first_counter1_1 = _c_first_counter1_T_1[2:0]; // @[Edges.scala:230:28] wire c_first_1 = c_first_counter_1 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _c_first_last_T_2 = c_first_counter_1 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _c_first_last_T_3 = c_first_beats1_1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire c_first_last_1 = _c_first_last_T_2 | _c_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire c_first_done_1 = c_first_last_1 & _c_first_T_1; // @[Decoupled.scala:51:35] wire [2:0] _c_first_count_T_1 = ~c_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [2:0] c_first_count_1 = c_first_beats1_1 & _c_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _c_first_counter_T_1 = c_first_1 ? c_first_beats1_1 : c_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [5:0] _d_first_beats1_decode_T_7 = _d_first_beats1_decode_T_6[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _d_first_beats1_decode_T_8 = ~_d_first_beats1_decode_T_7; // @[package.scala:243:{46,76}] wire [2:0] d_first_beats1_decode_2 = _d_first_beats1_decode_T_8[5:3]; // @[package.scala:243:46] wire [2:0] d_first_beats1_2 = d_first_beats1_opdata_2 ? d_first_beats1_decode_2 : 3'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [2:0] d_first_counter_2; // @[Edges.scala:229:27] wire [3:0] _d_first_counter1_T_2 = {1'h0, d_first_counter_2} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] d_first_counter1_2 = _d_first_counter1_T_2[2:0]; // @[Edges.scala:230:28] wire d_first_2 = d_first_counter_2 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_4 = d_first_counter_2 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_5 = d_first_beats1_2 == 3'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_2 = _d_first_last_T_4 | _d_first_last_T_5; // @[Edges.scala:232:{25,33,43}] wire d_first_done_2 = d_first_last_2 & _d_first_T_2; // @[Decoupled.scala:51:35] wire [2:0] _d_first_count_T_2 = ~d_first_counter1_2; // @[Edges.scala:230:28, :234:27] wire [2:0] d_first_count_2 = d_first_beats1_2 & _d_first_count_T_2; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _d_first_counter_T_2 = d_first_2 ? d_first_beats1_2 : d_first_counter1_2; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [46:0] c_set; // @[Monitor.scala:738:34] wire [46:0] c_set_wo_ready; // @[Monitor.scala:739:34] wire [187:0] c_opcodes_set; // @[Monitor.scala:740:34] wire [187:0] c_sizes_set; // @[Monitor.scala:741:34] wire [3:0] c_opcode_lookup; // @[Monitor.scala:747:35] wire [3:0] c_size_lookup; // @[Monitor.scala:748:35] wire [187:0] _c_opcode_lookup_T_1 = inflight_opcodes_1 >> _c_opcode_lookup_T; // @[Monitor.scala:727:35, :749:{44,69}] wire [187:0] _c_opcode_lookup_T_6 = {184'h0, _c_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:749:{44,97}] wire [187:0] _c_opcode_lookup_T_7 = {1'h0, _c_opcode_lookup_T_6[187:1]}; // @[Monitor.scala:749:{97,152}] assign c_opcode_lookup = _c_opcode_lookup_T_7[3:0]; // @[Monitor.scala:747:35, :749:{21,152}] wire [187:0] _c_size_lookup_T_1 = inflight_sizes_1 >> _c_size_lookup_T; // @[Monitor.scala:728:35, :750:{42,67}] wire [187:0] _c_size_lookup_T_6 = {184'h0, _c_size_lookup_T_1[3:0]}; // @[Monitor.scala:750:{42,93}] wire [187:0] _c_size_lookup_T_7 = {1'h0, _c_size_lookup_T_6[187:1]}; // @[Monitor.scala:750:{93,146}] assign c_size_lookup = _c_size_lookup_T_7[3:0]; // @[Monitor.scala:748:35, :750:{21,146}] wire [3:0] c_opcodes_set_interm; // @[Monitor.scala:754:40] wire [3:0] c_sizes_set_interm; // @[Monitor.scala:755:40] wire _same_cycle_resp_T_3 = io_in_c_valid_0 & c_first_1; // @[Monitor.scala:36:7, :759:26, :795:44] wire _same_cycle_resp_T_4 = io_in_c_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire _same_cycle_resp_T_5 = io_in_c_bits_opcode_0[1]; // @[Monitor.scala:36:7] wire [63:0] _GEN_9 = 64'h1 << io_in_c_bits_source_0; // @[OneHot.scala:58:35] wire [63:0] _c_set_wo_ready_T; // @[OneHot.scala:58:35] assign _c_set_wo_ready_T = _GEN_9; // @[OneHot.scala:58:35] wire [63:0] _c_set_T; // @[OneHot.scala:58:35] assign _c_set_T = _GEN_9; // @[OneHot.scala:58:35] assign c_set_wo_ready = _same_cycle_resp_T_3 & _same_cycle_resp_T_4 & _same_cycle_resp_T_5 ? _c_set_wo_ready_T[46:0] : 47'h0; // @[OneHot.scala:58:35] wire _T_2423 = _T_2481 & c_first_1 & _same_cycle_resp_T_4 & _same_cycle_resp_T_5; // @[Decoupled.scala:51:35] assign c_set = _T_2423 ? _c_set_T[46:0] : 47'h0; // @[OneHot.scala:58:35] wire [3:0] _c_opcodes_set_interm_T = {io_in_c_bits_opcode_0, 1'h0}; // @[Monitor.scala:36:7, :765:53] wire [3:0] _c_opcodes_set_interm_T_1 = {_c_opcodes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:765:{53,61}] assign c_opcodes_set_interm = _T_2423 ? _c_opcodes_set_interm_T_1 : 4'h0; // @[Monitor.scala:754:40, :763:{25,36,70}, :765:{28,61}] wire [3:0] _c_sizes_set_interm_T = {io_in_c_bits_size_0, 1'h0}; // @[Monitor.scala:36:7, :766:51] wire [3:0] _c_sizes_set_interm_T_1 = {_c_sizes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:766:{51,59}] assign c_sizes_set_interm = _T_2423 ? _c_sizes_set_interm_T_1 : 4'h0; // @[Monitor.scala:755:40, :763:{25,36,70}, :766:{28,59}] wire [8:0] _GEN_10 = {1'h0, io_in_c_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :767:79] wire [8:0] _c_opcodes_set_T; // @[Monitor.scala:767:79] assign _c_opcodes_set_T = _GEN_10; // @[Monitor.scala:767:79] wire [8:0] _c_sizes_set_T; // @[Monitor.scala:768:77] assign _c_sizes_set_T = _GEN_10; // @[Monitor.scala:767:79, :768:77] wire [514:0] _c_opcodes_set_T_1 = {511'h0, c_opcodes_set_interm} << _c_opcodes_set_T; // @[Monitor.scala:659:54, :754:40, :767:{54,79}] assign c_opcodes_set = _T_2423 ? _c_opcodes_set_T_1[187:0] : 188'h0; // @[Monitor.scala:740:34, :763:{25,36,70}, :767:{28,54}] wire [514:0] _c_sizes_set_T_1 = {511'h0, c_sizes_set_interm} << _c_sizes_set_T; // @[Monitor.scala:659:54, :755:40, :768:{52,77}] assign c_sizes_set = _T_2423 ? _c_sizes_set_T_1[187:0] : 188'h0; // @[Monitor.scala:741:34, :763:{25,36,70}, :768:{28,52}] wire _c_probe_ack_T = io_in_c_bits_opcode_0 == 3'h4; // @[Monitor.scala:36:7, :772:47] wire _c_probe_ack_T_1 = io_in_c_bits_opcode_0 == 3'h5; // @[Monitor.scala:36:7, :772:95] wire c_probe_ack = _c_probe_ack_T | _c_probe_ack_T_1; // @[Monitor.scala:772:{47,71,95}] wire [46:0] d_clr_1; // @[Monitor.scala:774:34] wire [46:0] d_clr_wo_ready_1; // @[Monitor.scala:775:34] wire [187:0] d_opcodes_clr_1; // @[Monitor.scala:776:34] wire [187:0] d_sizes_clr_1; // @[Monitor.scala:777:34] wire _T_2454 = io_in_d_valid_0 & d_first_2; // @[Monitor.scala:36:7, :784:26] assign d_clr_wo_ready_1 = _T_2454 & d_release_ack_1 ? _d_clr_wo_ready_T_1[46:0] : 47'h0; // @[OneHot.scala:58:35] wire _T_2436 = _T_2484 & d_first_2 & d_release_ack_1; // @[Decoupled.scala:51:35] assign d_clr_1 = _T_2436 ? _d_clr_T_1[46:0] : 47'h0; // @[OneHot.scala:58:35] wire [526:0] _d_opcodes_clr_T_11 = 527'hF << _d_opcodes_clr_T_10; // @[Monitor.scala:790:{76,101}] assign d_opcodes_clr_1 = _T_2436 ? _d_opcodes_clr_T_11[187:0] : 188'h0; // @[Monitor.scala:776:34, :788:{25,70,88}, :790:{21,76}] wire [526:0] _d_sizes_clr_T_11 = 527'hF << _d_sizes_clr_T_10; // @[Monitor.scala:791:{74,99}] assign d_sizes_clr_1 = _T_2436 ? _d_sizes_clr_T_11[187:0] : 188'h0; // @[Monitor.scala:777:34, :788:{25,70,88}, :791:{21,74}] wire _same_cycle_resp_T_6 = _same_cycle_resp_T_4 & _same_cycle_resp_T_5; // @[Edges.scala:68:{36,40,51}] wire _same_cycle_resp_T_7 = _same_cycle_resp_T_3 & _same_cycle_resp_T_6; // @[Monitor.scala:795:{44,55}] wire _same_cycle_resp_T_8 = io_in_c_bits_source_0 == io_in_d_bits_source_0; // @[Monitor.scala:36:7, :795:113] wire same_cycle_resp_1 = _same_cycle_resp_T_7 & _same_cycle_resp_T_8; // @[Monitor.scala:795:{55,88,113}] wire [46:0] _inflight_T_3 = inflight_1 | c_set; // @[Monitor.scala:726:35, :738:34, :814:35] wire [46:0] _inflight_T_4 = ~d_clr_1; // @[Monitor.scala:774:34, :814:46] wire [46:0] _inflight_T_5 = _inflight_T_3 & _inflight_T_4; // @[Monitor.scala:814:{35,44,46}] wire [187:0] _inflight_opcodes_T_3 = inflight_opcodes_1 | c_opcodes_set; // @[Monitor.scala:727:35, :740:34, :815:43] wire [187:0] _inflight_opcodes_T_4 = ~d_opcodes_clr_1; // @[Monitor.scala:776:34, :815:62] wire [187:0] _inflight_opcodes_T_5 = _inflight_opcodes_T_3 & _inflight_opcodes_T_4; // @[Monitor.scala:815:{43,60,62}] wire [187:0] _inflight_sizes_T_3 = inflight_sizes_1 | c_sizes_set; // @[Monitor.scala:728:35, :741:34, :816:41] wire [187:0] _inflight_sizes_T_4 = ~d_sizes_clr_1; // @[Monitor.scala:777:34, :816:58] wire [187:0] _inflight_sizes_T_5 = _inflight_sizes_T_3 & _inflight_sizes_T_4; // @[Monitor.scala:816:{41,56,58}] reg [31:0] watchdog_1; // @[Monitor.scala:818:27] wire [32:0] _watchdog_T_2 = {1'h0, watchdog_1} + 33'h1; // @[Monitor.scala:818:27, :823:26] wire [31:0] _watchdog_T_3 = _watchdog_T_2[31:0]; // @[Monitor.scala:823:26] reg [6:0] inflight_2; // @[Monitor.scala:828:27] wire [5:0] _d_first_beats1_decode_T_10 = _d_first_beats1_decode_T_9[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _d_first_beats1_decode_T_11 = ~_d_first_beats1_decode_T_10; // @[package.scala:243:{46,76}] wire [2:0] d_first_beats1_decode_3 = _d_first_beats1_decode_T_11[5:3]; // @[package.scala:243:46] wire [2:0] d_first_beats1_3 = d_first_beats1_opdata_3 ? d_first_beats1_decode_3 : 3'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [2:0] d_first_counter_3; // @[Edges.scala:229:27] wire [3:0] _d_first_counter1_T_3 = {1'h0, d_first_counter_3} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] d_first_counter1_3 = _d_first_counter1_T_3[2:0]; // @[Edges.scala:230:28] wire d_first_3 = d_first_counter_3 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_6 = d_first_counter_3 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_7 = d_first_beats1_3 == 3'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_3 = _d_first_last_T_6 | _d_first_last_T_7; // @[Edges.scala:232:{25,33,43}] wire d_first_done_3 = d_first_last_3 & _d_first_T_3; // @[Decoupled.scala:51:35] wire [2:0] _d_first_count_T_3 = ~d_first_counter1_3; // @[Edges.scala:230:28, :234:27] wire [2:0] d_first_count_3 = d_first_beats1_3 & _d_first_count_T_3; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _d_first_counter_T_3 = d_first_3 ? d_first_beats1_3 : d_first_counter1_3; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [6:0] d_set; // @[Monitor.scala:833:25] wire _T_2490 = _T_2484 & d_first_3 & io_in_d_bits_opcode_0[2] & ~(io_in_d_bits_opcode_0[1]); // @[Decoupled.scala:51:35] wire [7:0] _d_set_T = 8'h1 << io_in_d_bits_sink_0; // @[OneHot.scala:58:35] assign d_set = _T_2490 ? _d_set_T[6:0] : 7'h0; // @[OneHot.scala:58:35] wire [6:0] e_clr; // @[Monitor.scala:839:25] wire [7:0] _e_clr_T = 8'h1 << io_in_e_bits_sink_0; // @[OneHot.scala:58:35] assign e_clr = io_in_e_valid_0 ? _e_clr_T[6:0] : 7'h0; // @[OneHot.scala:58:35]
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceLine import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import freechips.rocketchip.diplomacy.EnableMonitors import freechips.rocketchip.formal.{MonitorDirection, IfThen, Property, PropertyClass, TestplanTestType, TLMonitorStrictMode} import freechips.rocketchip.util.PlusArg case class TLMonitorArgs(edge: TLEdge) abstract class TLMonitorBase(args: TLMonitorArgs) extends Module { val io = IO(new Bundle { val in = Input(new TLBundle(args.edge.bundle)) }) def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit legalize(io.in, args.edge, reset) } object TLMonitor { def apply(enable: Boolean, node: TLNode)(implicit p: Parameters): TLNode = { if (enable) { EnableMonitors { implicit p => node := TLEphemeralNode()(ValName("monitor")) } } else { node } } } class TLMonitor(args: TLMonitorArgs, monitorDir: MonitorDirection = MonitorDirection.Monitor) extends TLMonitorBase(args) { require (args.edge.params(TLMonitorStrictMode) || (! args.edge.params(TestplanTestType).formal)) val cover_prop_class = PropertyClass.Default //Like assert but can flip to being an assumption for formal verification def monAssert(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir, cond, message, PropertyClass.Default) } def assume(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir.flip, cond, message, PropertyClass.Default) } def extra = { args.edge.sourceInfo match { case SourceLine(filename, line, col) => s" (connected at $filename:$line:$col)" case _ => "" } } def visible(address: UInt, source: UInt, edge: TLEdge) = edge.client.clients.map { c => !c.sourceId.contains(source) || c.visibility.map(_.contains(address)).reduce(_ || _) }.reduce(_ && _) def legalizeFormatA(bundle: TLBundleA, edge: TLEdge): Unit = { //switch this flag to turn on diplomacy in error messages def diplomacyInfo = if (true) "" else "\nThe diplomacy information for the edge is as follows:\n" + edge.formatEdge + "\n" monAssert (TLMessages.isA(bundle.opcode), "'A' channel has invalid opcode" + extra) // Reuse these subexpressions to save some firrtl lines val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) monAssert (visible(edge.address(bundle), bundle.source, edge), "'A' channel carries an address illegal for the specified bank visibility") //The monitor doesn’t check for acquire T vs acquire B, it assumes that acquire B implies acquire T and only checks for acquire B //TODO: check for acquireT? when (bundle.opcode === TLMessages.AcquireBlock) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquireBlock carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquireBlock smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquireBlock address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquireBlock carries invalid grow param" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquireBlock contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquireBlock is corrupt" + extra) } when (bundle.opcode === TLMessages.AcquirePerm) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquirePerm carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquirePerm smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquirePerm address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquirePerm carries invalid grow param" + extra) monAssert (bundle.param =/= TLPermissions.NtoB, "'A' channel AcquirePerm requests NtoB" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquirePerm contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquirePerm is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.emitsGet(bundle.source, bundle.size), "'A' channel carries Get type which master claims it can't emit" + diplomacyInfo + extra) monAssert (edge.slave.supportsGetSafe(edge.address(bundle), bundle.size, None), "'A' channel carries Get type which slave claims it can't support" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel Get carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.emitsPutFull(bundle.source, bundle.size) && edge.slave.supportsPutFullSafe(edge.address(bundle), bundle.size), "'A' channel carries PutFull type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel PutFull carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.emitsPutPartial(bundle.source, bundle.size) && edge.slave.supportsPutPartialSafe(edge.address(bundle), bundle.size), "'A' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel PutPartial carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'A' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.emitsArithmetic(bundle.source, bundle.size) && edge.slave.supportsArithmeticSafe(edge.address(bundle), bundle.size), "'A' channel carries Arithmetic type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Arithmetic carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'A' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.emitsLogical(bundle.source, bundle.size) && edge.slave.supportsLogicalSafe(edge.address(bundle), bundle.size), "'A' channel carries Logical type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Logical carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'A' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.emitsHint(bundle.source, bundle.size) && edge.slave.supportsHintSafe(edge.address(bundle), bundle.size), "'A' channel carries Hint type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Hint carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Hint address not aligned to size" + extra) monAssert (TLHints.isHints(bundle.param), "'A' channel Hint carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Hint is corrupt" + extra) } } def legalizeFormatB(bundle: TLBundleB, edge: TLEdge): Unit = { monAssert (TLMessages.isB(bundle.opcode), "'B' channel has invalid opcode" + extra) monAssert (visible(edge.address(bundle), bundle.source, edge), "'B' channel carries an address illegal for the specified bank visibility") // Reuse these subexpressions to save some firrtl lines val address_ok = edge.manager.containsSafe(edge.address(bundle)) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) val legal_source = Mux1H(edge.client.find(bundle.source), edge.client.clients.map(c => c.sourceId.start.U)) === bundle.source when (bundle.opcode === TLMessages.Probe) { assume (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'B' channel carries Probe type which is unexpected using diplomatic parameters" + extra) assume (address_ok, "'B' channel Probe carries unmanaged address" + extra) assume (legal_source, "'B' channel Probe carries source that is not first source" + extra) assume (is_aligned, "'B' channel Probe address not aligned to size" + extra) assume (TLPermissions.isCap(bundle.param), "'B' channel Probe carries invalid cap param" + extra) assume (bundle.mask === mask, "'B' channel Probe contains invalid mask" + extra) assume (!bundle.corrupt, "'B' channel Probe is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.supportsGet(edge.source(bundle), bundle.size) && edge.slave.emitsGetSafe(edge.address(bundle), bundle.size), "'B' channel carries Get type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel Get carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Get carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.supportsPutFull(edge.source(bundle), bundle.size) && edge.slave.emitsPutFullSafe(edge.address(bundle), bundle.size), "'B' channel carries PutFull type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutFull carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutFull carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.supportsPutPartial(edge.source(bundle), bundle.size) && edge.slave.emitsPutPartialSafe(edge.address(bundle), bundle.size), "'B' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutPartial carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutPartial carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'B' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.supportsArithmetic(edge.source(bundle), bundle.size) && edge.slave.emitsArithmeticSafe(edge.address(bundle), bundle.size), "'B' channel carries Arithmetic type unsupported by master" + extra) monAssert (address_ok, "'B' channel Arithmetic carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Arithmetic carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'B' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.supportsLogical(edge.source(bundle), bundle.size) && edge.slave.emitsLogicalSafe(edge.address(bundle), bundle.size), "'B' channel carries Logical type unsupported by client" + extra) monAssert (address_ok, "'B' channel Logical carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Logical carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'B' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.supportsHint(edge.source(bundle), bundle.size) && edge.slave.emitsHintSafe(edge.address(bundle), bundle.size), "'B' channel carries Hint type unsupported by client" + extra) monAssert (address_ok, "'B' channel Hint carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Hint carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Hint address not aligned to size" + extra) monAssert (bundle.mask === mask, "'B' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Hint is corrupt" + extra) } } def legalizeFormatC(bundle: TLBundleC, edge: TLEdge): Unit = { monAssert (TLMessages.isC(bundle.opcode), "'C' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val address_ok = edge.manager.containsSafe(edge.address(bundle)) monAssert (visible(edge.address(bundle), bundle.source, edge), "'C' channel carries an address illegal for the specified bank visibility") when (bundle.opcode === TLMessages.ProbeAck) { monAssert (address_ok, "'C' channel ProbeAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAck carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAck smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAck address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAck carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel ProbeAck is corrupt" + extra) } when (bundle.opcode === TLMessages.ProbeAckData) { monAssert (address_ok, "'C' channel ProbeAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAckData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAckData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAckData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAckData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.Release) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries Release type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel Release carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel Release smaller than a beat" + extra) monAssert (is_aligned, "'C' channel Release address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel Release carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel Release is corrupt" + extra) } when (bundle.opcode === TLMessages.ReleaseData) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries ReleaseData type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel ReleaseData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ReleaseData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ReleaseData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ReleaseData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.AccessAck) { monAssert (address_ok, "'C' channel AccessAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel AccessAck is corrupt" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { monAssert (address_ok, "'C' channel AccessAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAckData carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAckData address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAckData carries invalid param" + extra) } when (bundle.opcode === TLMessages.HintAck) { monAssert (address_ok, "'C' channel HintAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel HintAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel HintAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel HintAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel HintAck is corrupt" + extra) } } def legalizeFormatD(bundle: TLBundleD, edge: TLEdge): Unit = { assume (TLMessages.isD(bundle.opcode), "'D' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val sink_ok = bundle.sink < edge.manager.endSinkId.U val deny_put_ok = edge.manager.mayDenyPut.B val deny_get_ok = edge.manager.mayDenyGet.B when (bundle.opcode === TLMessages.ReleaseAck) { assume (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel ReleaseAck smaller than a beat" + extra) assume (bundle.param === 0.U, "'D' channel ReleaseeAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel ReleaseAck is corrupt" + extra) assume (!bundle.denied, "'D' channel ReleaseAck is denied" + extra) } when (bundle.opcode === TLMessages.Grant) { assume (source_ok, "'D' channel Grant carries invalid source ID" + extra) assume (sink_ok, "'D' channel Grant carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel Grant smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel Grant carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel Grant carries toN param" + extra) assume (!bundle.corrupt, "'D' channel Grant is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel Grant is denied" + extra) } when (bundle.opcode === TLMessages.GrantData) { assume (source_ok, "'D' channel GrantData carries invalid source ID" + extra) assume (sink_ok, "'D' channel GrantData carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel GrantData smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel GrantData carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel GrantData carries toN param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel GrantData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel GrantData is denied" + extra) } when (bundle.opcode === TLMessages.AccessAck) { assume (source_ok, "'D' channel AccessAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel AccessAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel AccessAck is denied" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { assume (source_ok, "'D' channel AccessAckData carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAckData carries invalid param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel AccessAckData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel AccessAckData is denied" + extra) } when (bundle.opcode === TLMessages.HintAck) { assume (source_ok, "'D' channel HintAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel HintAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel HintAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel HintAck is denied" + extra) } } def legalizeFormatE(bundle: TLBundleE, edge: TLEdge): Unit = { val sink_ok = bundle.sink < edge.manager.endSinkId.U monAssert (sink_ok, "'E' channels carries invalid sink ID" + extra) } def legalizeFormat(bundle: TLBundle, edge: TLEdge) = { when (bundle.a.valid) { legalizeFormatA(bundle.a.bits, edge) } when (bundle.d.valid) { legalizeFormatD(bundle.d.bits, edge) } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { when (bundle.b.valid) { legalizeFormatB(bundle.b.bits, edge) } when (bundle.c.valid) { legalizeFormatC(bundle.c.bits, edge) } when (bundle.e.valid) { legalizeFormatE(bundle.e.bits, edge) } } else { monAssert (!bundle.b.valid, "'B' channel valid and not TL-C" + extra) monAssert (!bundle.c.valid, "'C' channel valid and not TL-C" + extra) monAssert (!bundle.e.valid, "'E' channel valid and not TL-C" + extra) } } def legalizeMultibeatA(a: DecoupledIO[TLBundleA], edge: TLEdge): Unit = { val a_first = edge.first(a.bits, a.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (a.valid && !a_first) { monAssert (a.bits.opcode === opcode, "'A' channel opcode changed within multibeat operation" + extra) monAssert (a.bits.param === param, "'A' channel param changed within multibeat operation" + extra) monAssert (a.bits.size === size, "'A' channel size changed within multibeat operation" + extra) monAssert (a.bits.source === source, "'A' channel source changed within multibeat operation" + extra) monAssert (a.bits.address=== address,"'A' channel address changed with multibeat operation" + extra) } when (a.fire && a_first) { opcode := a.bits.opcode param := a.bits.param size := a.bits.size source := a.bits.source address := a.bits.address } } def legalizeMultibeatB(b: DecoupledIO[TLBundleB], edge: TLEdge): Unit = { val b_first = edge.first(b.bits, b.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (b.valid && !b_first) { monAssert (b.bits.opcode === opcode, "'B' channel opcode changed within multibeat operation" + extra) monAssert (b.bits.param === param, "'B' channel param changed within multibeat operation" + extra) monAssert (b.bits.size === size, "'B' channel size changed within multibeat operation" + extra) monAssert (b.bits.source === source, "'B' channel source changed within multibeat operation" + extra) monAssert (b.bits.address=== address,"'B' channel addresss changed with multibeat operation" + extra) } when (b.fire && b_first) { opcode := b.bits.opcode param := b.bits.param size := b.bits.size source := b.bits.source address := b.bits.address } } def legalizeADSourceFormal(bundle: TLBundle, edge: TLEdge): Unit = { // Symbolic variable val sym_source = Wire(UInt(edge.client.endSourceId.W)) // TODO: Connect sym_source to a fixed value for simulation and to a // free wire in formal sym_source := 0.U // Type casting Int to UInt val maxSourceId = Wire(UInt(edge.client.endSourceId.W)) maxSourceId := edge.client.endSourceId.U // Delayed verison of sym_source val sym_source_d = Reg(UInt(edge.client.endSourceId.W)) sym_source_d := sym_source // These will be constraints for FV setup Property( MonitorDirection.Monitor, (sym_source === sym_source_d), "sym_source should remain stable", PropertyClass.Default) Property( MonitorDirection.Monitor, (sym_source <= maxSourceId), "sym_source should take legal value", PropertyClass.Default) val my_resp_pend = RegInit(false.B) val my_opcode = Reg(UInt()) val my_size = Reg(UInt()) val a_first = bundle.a.valid && edge.first(bundle.a.bits, bundle.a.fire) val d_first = bundle.d.valid && edge.first(bundle.d.bits, bundle.d.fire) val my_a_first_beat = a_first && (bundle.a.bits.source === sym_source) val my_d_first_beat = d_first && (bundle.d.bits.source === sym_source) val my_clr_resp_pend = (bundle.d.fire && my_d_first_beat) val my_set_resp_pend = (bundle.a.fire && my_a_first_beat && !my_clr_resp_pend) when (my_set_resp_pend) { my_resp_pend := true.B } .elsewhen (my_clr_resp_pend) { my_resp_pend := false.B } when (my_a_first_beat) { my_opcode := bundle.a.bits.opcode my_size := bundle.a.bits.size } val my_resp_size = Mux(my_a_first_beat, bundle.a.bits.size, my_size) val my_resp_opcode = Mux(my_a_first_beat, bundle.a.bits.opcode, my_opcode) val my_resp_opcode_legal = Wire(Bool()) when ((my_resp_opcode === TLMessages.Get) || (my_resp_opcode === TLMessages.ArithmeticData) || (my_resp_opcode === TLMessages.LogicalData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAckData) } .elsewhen ((my_resp_opcode === TLMessages.PutFullData) || (my_resp_opcode === TLMessages.PutPartialData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAck) } .otherwise { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.HintAck) } monAssert (IfThen(my_resp_pend, !my_a_first_beat), "Request message should not be sent with a source ID, for which a response message" + "is already pending (not received until current cycle) for a prior request message" + "with the same source ID" + extra) assume (IfThen(my_clr_resp_pend, (my_set_resp_pend || my_resp_pend)), "Response message should be accepted with a source ID only if a request message with the" + "same source ID has been accepted or is being accepted in the current cycle" + extra) assume (IfThen(my_d_first_beat, (my_a_first_beat || my_resp_pend)), "Response message should be sent with a source ID only if a request message with the" + "same source ID has been accepted or is being sent in the current cycle" + extra) assume (IfThen(my_d_first_beat, (bundle.d.bits.size === my_resp_size)), "If d_valid is 1, then d_size should be same as a_size of the corresponding request" + "message" + extra) assume (IfThen(my_d_first_beat, my_resp_opcode_legal), "If d_valid is 1, then d_opcode should correspond with a_opcode of the corresponding" + "request message" + extra) } def legalizeMultibeatC(c: DecoupledIO[TLBundleC], edge: TLEdge): Unit = { val c_first = edge.first(c.bits, c.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (c.valid && !c_first) { monAssert (c.bits.opcode === opcode, "'C' channel opcode changed within multibeat operation" + extra) monAssert (c.bits.param === param, "'C' channel param changed within multibeat operation" + extra) monAssert (c.bits.size === size, "'C' channel size changed within multibeat operation" + extra) monAssert (c.bits.source === source, "'C' channel source changed within multibeat operation" + extra) monAssert (c.bits.address=== address,"'C' channel address changed with multibeat operation" + extra) } when (c.fire && c_first) { opcode := c.bits.opcode param := c.bits.param size := c.bits.size source := c.bits.source address := c.bits.address } } def legalizeMultibeatD(d: DecoupledIO[TLBundleD], edge: TLEdge): Unit = { val d_first = edge.first(d.bits, d.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val sink = Reg(UInt()) val denied = Reg(Bool()) when (d.valid && !d_first) { assume (d.bits.opcode === opcode, "'D' channel opcode changed within multibeat operation" + extra) assume (d.bits.param === param, "'D' channel param changed within multibeat operation" + extra) assume (d.bits.size === size, "'D' channel size changed within multibeat operation" + extra) assume (d.bits.source === source, "'D' channel source changed within multibeat operation" + extra) assume (d.bits.sink === sink, "'D' channel sink changed with multibeat operation" + extra) assume (d.bits.denied === denied, "'D' channel denied changed with multibeat operation" + extra) } when (d.fire && d_first) { opcode := d.bits.opcode param := d.bits.param size := d.bits.size source := d.bits.source sink := d.bits.sink denied := d.bits.denied } } def legalizeMultibeat(bundle: TLBundle, edge: TLEdge): Unit = { legalizeMultibeatA(bundle.a, edge) legalizeMultibeatD(bundle.d, edge) if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { legalizeMultibeatB(bundle.b, edge) legalizeMultibeatC(bundle.c, edge) } } //This is left in for almond which doesn't adhere to the tilelink protocol @deprecated("Use legalizeADSource instead if possible","") def legalizeADSourceOld(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.client.endSourceId.W)) val a_first = edge.first(bundle.a.bits, bundle.a.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val a_set = WireInit(0.U(edge.client.endSourceId.W)) when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) assert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) assume((a_set | inflight)(bundle.d.bits.source), "'D' channel acknowledged for nothing inflight" + extra) } if (edge.manager.minLatency > 0) { assume(a_set =/= d_clr || !a_set.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") assert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeADSource(bundle: TLBundle, edge: TLEdge): Unit = { val a_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val a_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_a_opcode_bus_size = log2Ceil(a_opcode_bus_size) val log_a_size_bus_size = log2Ceil(a_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) // size up to avoid width error inflight.suggestName("inflight") val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) inflight_opcodes.suggestName("inflight_opcodes") val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) inflight_sizes.suggestName("inflight_sizes") val a_first = edge.first(bundle.a.bits, bundle.a.fire) a_first.suggestName("a_first") val d_first = edge.first(bundle.d.bits, bundle.d.fire) d_first.suggestName("d_first") val a_set = WireInit(0.U(edge.client.endSourceId.W)) val a_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) a_set.suggestName("a_set") a_set_wo_ready.suggestName("a_set_wo_ready") val a_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) a_opcodes_set.suggestName("a_opcodes_set") val a_sizes_set = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) a_sizes_set.suggestName("a_sizes_set") val a_opcode_lookup = WireInit(0.U((a_opcode_bus_size - 1).W)) a_opcode_lookup.suggestName("a_opcode_lookup") a_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_a_opcode_bus_size.U) & size_to_numfullbits(1.U << log_a_opcode_bus_size.U)) >> 1.U val a_size_lookup = WireInit(0.U((1 << log_a_size_bus_size).W)) a_size_lookup.suggestName("a_size_lookup") a_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_a_size_bus_size.U) & size_to_numfullbits(1.U << log_a_size_bus_size.U)) >> 1.U val responseMap = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.Grant, TLMessages.Grant)) val responseMapSecondOption = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.GrantData, TLMessages.Grant)) val a_opcodes_set_interm = WireInit(0.U(a_opcode_bus_size.W)) a_opcodes_set_interm.suggestName("a_opcodes_set_interm") val a_sizes_set_interm = WireInit(0.U(a_size_bus_size.W)) a_sizes_set_interm.suggestName("a_sizes_set_interm") when (bundle.a.valid && a_first && edge.isRequest(bundle.a.bits)) { a_set_wo_ready := UIntToOH(bundle.a.bits.source) } when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) a_opcodes_set_interm := (bundle.a.bits.opcode << 1.U) | 1.U a_sizes_set_interm := (bundle.a.bits.size << 1.U) | 1.U a_opcodes_set := (a_opcodes_set_interm) << (bundle.a.bits.source << log_a_opcode_bus_size.U) a_sizes_set := (a_sizes_set_interm) << (bundle.a.bits.source << log_a_size_bus_size.U) monAssert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) d_opcodes_clr.suggestName("d_opcodes_clr") val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_a_opcode_bus_size.U) << (bundle.d.bits.source << log_a_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_a_size_bus_size.U) << (bundle.d.bits.source << log_a_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { val same_cycle_resp = bundle.a.valid && a_first && edge.isRequest(bundle.a.bits) && (bundle.a.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.opcode === responseMap(bundle.a.bits.opcode)) || (bundle.d.bits.opcode === responseMapSecondOption(bundle.a.bits.opcode)), "'D' channel contains improper opcode response" + extra) assume((bundle.a.bits.size === bundle.d.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.opcode === responseMap(a_opcode_lookup)) || (bundle.d.bits.opcode === responseMapSecondOption(a_opcode_lookup)), "'D' channel contains improper opcode response" + extra) assume((bundle.d.bits.size === a_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && a_first && bundle.a.valid && (bundle.a.bits.source === bundle.d.bits.source) && !d_release_ack) { assume((!bundle.d.ready) || bundle.a.ready, "ready check") } if (edge.manager.minLatency > 0) { assume(a_set_wo_ready =/= d_clr_wo_ready || !a_set_wo_ready.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr inflight_opcodes := (inflight_opcodes | a_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | a_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeCDSource(bundle: TLBundle, edge: TLEdge): Unit = { val c_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val c_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_c_opcode_bus_size = log2Ceil(c_opcode_bus_size) val log_c_size_bus_size = log2Ceil(c_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) inflight.suggestName("inflight") inflight_opcodes.suggestName("inflight_opcodes") inflight_sizes.suggestName("inflight_sizes") val c_first = edge.first(bundle.c.bits, bundle.c.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) c_first.suggestName("c_first") d_first.suggestName("d_first") val c_set = WireInit(0.U(edge.client.endSourceId.W)) val c_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val c_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val c_sizes_set = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) c_set.suggestName("c_set") c_set_wo_ready.suggestName("c_set_wo_ready") c_opcodes_set.suggestName("c_opcodes_set") c_sizes_set.suggestName("c_sizes_set") val c_opcode_lookup = WireInit(0.U((1 << log_c_opcode_bus_size).W)) val c_size_lookup = WireInit(0.U((1 << log_c_size_bus_size).W)) c_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_c_opcode_bus_size.U) & size_to_numfullbits(1.U << log_c_opcode_bus_size.U)) >> 1.U c_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_c_size_bus_size.U) & size_to_numfullbits(1.U << log_c_size_bus_size.U)) >> 1.U c_opcode_lookup.suggestName("c_opcode_lookup") c_size_lookup.suggestName("c_size_lookup") val c_opcodes_set_interm = WireInit(0.U(c_opcode_bus_size.W)) val c_sizes_set_interm = WireInit(0.U(c_size_bus_size.W)) c_opcodes_set_interm.suggestName("c_opcodes_set_interm") c_sizes_set_interm.suggestName("c_sizes_set_interm") when (bundle.c.valid && c_first && edge.isRequest(bundle.c.bits)) { c_set_wo_ready := UIntToOH(bundle.c.bits.source) } when (bundle.c.fire && c_first && edge.isRequest(bundle.c.bits)) { c_set := UIntToOH(bundle.c.bits.source) c_opcodes_set_interm := (bundle.c.bits.opcode << 1.U) | 1.U c_sizes_set_interm := (bundle.c.bits.size << 1.U) | 1.U c_opcodes_set := (c_opcodes_set_interm) << (bundle.c.bits.source << log_c_opcode_bus_size.U) c_sizes_set := (c_sizes_set_interm) << (bundle.c.bits.source << log_c_size_bus_size.U) monAssert(!inflight(bundle.c.bits.source), "'C' channel re-used a source ID" + extra) } val c_probe_ack = bundle.c.bits.opcode === TLMessages.ProbeAck || bundle.c.bits.opcode === TLMessages.ProbeAckData val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") d_opcodes_clr.suggestName("d_opcodes_clr") d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_c_opcode_bus_size.U) << (bundle.d.bits.source << log_c_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_c_size_bus_size.U) << (bundle.d.bits.source << log_c_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { val same_cycle_resp = bundle.c.valid && c_first && edge.isRequest(bundle.c.bits) && (bundle.c.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.size === bundle.c.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.size === c_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && c_first && bundle.c.valid && (bundle.c.bits.source === bundle.d.bits.source) && d_release_ack && !c_probe_ack) { assume((!bundle.d.ready) || bundle.c.ready, "ready check") } if (edge.manager.minLatency > 0) { when (c_set_wo_ready.orR) { assume(c_set_wo_ready =/= d_clr_wo_ready, s"'C' and 'D' concurrent, despite minlatency > 0" + extra) } } inflight := (inflight | c_set) & ~d_clr inflight_opcodes := (inflight_opcodes | c_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | c_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.c.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeDESink(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.manager.endSinkId.W)) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val e_first = true.B val d_set = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.d.fire && d_first && edge.isRequest(bundle.d.bits)) { d_set := UIntToOH(bundle.d.bits.sink) assume(!inflight(bundle.d.bits.sink), "'D' channel re-used a sink ID" + extra) } val e_clr = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.e.fire && e_first && edge.isResponse(bundle.e.bits)) { e_clr := UIntToOH(bundle.e.bits.sink) monAssert((d_set | inflight)(bundle.e.bits.sink), "'E' channel acknowledged for nothing inflight" + extra) } // edge.client.minLatency applies to BC, not DE inflight := (inflight | d_set) & ~e_clr } def legalizeUnique(bundle: TLBundle, edge: TLEdge): Unit = { val sourceBits = log2Ceil(edge.client.endSourceId) val tooBig = 14 // >16kB worth of flight information gets to be too much if (sourceBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with source bits (${sourceBits}) > ${tooBig}; A=>D transaction flight will not be checked") } else { if (args.edge.params(TestplanTestType).simulation) { if (args.edge.params(TLMonitorStrictMode)) { legalizeADSource(bundle, edge) legalizeCDSource(bundle, edge) } else { legalizeADSourceOld(bundle, edge) } } if (args.edge.params(TestplanTestType).formal) { legalizeADSourceFormal(bundle, edge) } } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { // legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize... val sinkBits = log2Ceil(edge.manager.endSinkId) if (sinkBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with sink bits (${sinkBits}) > ${tooBig}; D=>E transaction flight will not be checked") } else { legalizeDESink(bundle, edge) } } } def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit = { legalizeFormat (bundle, edge) legalizeMultibeat (bundle, edge) legalizeUnique (bundle, edge) } } File Misc.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import scala.math._ class ParameterizedBundle(implicit p: Parameters) extends Bundle trait Clocked extends Bundle { val clock = Clock() val reset = Bool() } object DecoupledHelper { def apply(rvs: Bool*) = new DecoupledHelper(rvs) } class DecoupledHelper(val rvs: Seq[Bool]) { def fire(exclude: Bool, includes: Bool*) = { require(rvs.contains(exclude), "Excluded Bool not present in DecoupledHelper! Note that DecoupledHelper uses referential equality for exclusion! If you don't want to exclude anything, use fire()!") (rvs.filter(_ ne exclude) ++ includes).reduce(_ && _) } def fire() = { rvs.reduce(_ && _) } } object MuxT { def apply[T <: Data, U <: Data](cond: Bool, con: (T, U), alt: (T, U)): (T, U) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2)) def apply[T <: Data, U <: Data, W <: Data](cond: Bool, con: (T, U, W), alt: (T, U, W)): (T, U, W) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3)) def apply[T <: Data, U <: Data, W <: Data, X <: Data](cond: Bool, con: (T, U, W, X), alt: (T, U, W, X)): (T, U, W, X) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3), Mux(cond, con._4, alt._4)) } /** Creates a cascade of n MuxTs to search for a key value. */ object MuxTLookup { def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } } object ValidMux { def apply[T <: Data](v1: ValidIO[T], v2: ValidIO[T]*): ValidIO[T] = { apply(v1 +: v2.toSeq) } def apply[T <: Data](valids: Seq[ValidIO[T]]): ValidIO[T] = { val out = Wire(Valid(valids.head.bits.cloneType)) out.valid := valids.map(_.valid).reduce(_ || _) out.bits := MuxCase(valids.head.bits, valids.map(v => (v.valid -> v.bits))) out } } object Str { def apply(s: String): UInt = { var i = BigInt(0) require(s.forall(validChar _)) for (c <- s) i = (i << 8) | c i.U((s.length*8).W) } def apply(x: Char): UInt = { require(validChar(x)) x.U(8.W) } def apply(x: UInt): UInt = apply(x, 10) def apply(x: UInt, radix: Int): UInt = { val rad = radix.U val w = x.getWidth require(w > 0) var q = x var s = digit(q % rad) for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad s = Cat(Mux((radix == 10).B && q === 0.U, Str(' '), digit(q % rad)), s) } s } def apply(x: SInt): UInt = apply(x, 10) def apply(x: SInt, radix: Int): UInt = { val neg = x < 0.S val abs = x.abs.asUInt if (radix != 10) { Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix)) } else { val rad = radix.U val w = abs.getWidth require(w > 0) var q = abs var s = digit(q % rad) var needSign = neg for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad val placeSpace = q === 0.U val space = Mux(needSign, Str('-'), Str(' ')) needSign = needSign && !placeSpace s = Cat(Mux(placeSpace, space, digit(q % rad)), s) } Cat(Mux(needSign, Str('-'), Str(' ')), s) } } private def digit(d: UInt): UInt = Mux(d < 10.U, Str('0')+d, Str(('a'-10).toChar)+d)(7,0) private def validChar(x: Char) = x == (x & 0xFF) } object Split { def apply(x: UInt, n0: Int) = { val w = x.getWidth (x.extract(w-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n2: Int, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n2), x.extract(n2-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } } object Random { def apply(mod: Int, random: UInt): UInt = { if (isPow2(mod)) random.extract(log2Ceil(mod)-1,0) else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod)) } def apply(mod: Int): UInt = apply(mod, randomizer) def oneHot(mod: Int, random: UInt): UInt = { if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0)) else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).asUInt } def oneHot(mod: Int): UInt = oneHot(mod, randomizer) private def randomizer = LFSR(16) private def partition(value: UInt, slices: Int) = Seq.tabulate(slices)(i => value < (((i + 1) << value.getWidth) / slices).U) } object Majority { def apply(in: Set[Bool]): Bool = { val n = (in.size >> 1) + 1 val clauses = in.subsets(n).map(_.reduce(_ && _)) clauses.reduce(_ || _) } def apply(in: Seq[Bool]): Bool = apply(in.toSet) def apply(in: UInt): Bool = apply(in.asBools.toSet) } object PopCountAtLeast { private def two(x: UInt): (Bool, Bool) = x.getWidth match { case 1 => (x.asBool, false.B) case n => val half = x.getWidth / 2 val (leftOne, leftTwo) = two(x(half - 1, 0)) val (rightOne, rightTwo) = two(x(x.getWidth - 1, half)) (leftOne || rightOne, leftTwo || rightTwo || (leftOne && rightOne)) } def apply(x: UInt, n: Int): Bool = n match { case 0 => true.B case 1 => x.orR case 2 => two(x)._2 case 3 => PopCount(x) >= n.U } } // This gets used everywhere, so make the smallest circuit possible ... // Given an address and size, create a mask of beatBytes size // eg: (0x3, 0, 4) => 0001, (0x3, 1, 4) => 0011, (0x3, 2, 4) => 1111 // groupBy applies an interleaved OR reduction; groupBy=2 take 0010 => 01 object MaskGen { def apply(addr_lo: UInt, lgSize: UInt, beatBytes: Int, groupBy: Int = 1): UInt = { require (groupBy >= 1 && beatBytes >= groupBy) require (isPow2(beatBytes) && isPow2(groupBy)) val lgBytes = log2Ceil(beatBytes) val sizeOH = UIntToOH(lgSize | 0.U(log2Up(beatBytes).W), log2Up(beatBytes)) | (groupBy*2 - 1).U def helper(i: Int): Seq[(Bool, Bool)] = { if (i == 0) { Seq((lgSize >= lgBytes.asUInt, true.B)) } else { val sub = helper(i-1) val size = sizeOH(lgBytes - i) val bit = addr_lo(lgBytes - i) val nbit = !bit Seq.tabulate (1 << i) { j => val (sub_acc, sub_eq) = sub(j/2) val eq = sub_eq && (if (j % 2 == 1) bit else nbit) val acc = sub_acc || (size && eq) (acc, eq) } } } if (groupBy == beatBytes) 1.U else Cat(helper(lgBytes-log2Ceil(groupBy)).map(_._1).reverse) } } File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Bundles.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import freechips.rocketchip.util._ import scala.collection.immutable.ListMap import chisel3.util.Decoupled import chisel3.util.DecoupledIO import chisel3.reflect.DataMirror abstract class TLBundleBase(val params: TLBundleParameters) extends Bundle // common combos in lazy policy: // Put + Acquire // Release + AccessAck object TLMessages { // A B C D E def PutFullData = 0.U // . . => AccessAck def PutPartialData = 1.U // . . => AccessAck def ArithmeticData = 2.U // . . => AccessAckData def LogicalData = 3.U // . . => AccessAckData def Get = 4.U // . . => AccessAckData def Hint = 5.U // . . => HintAck def AcquireBlock = 6.U // . => Grant[Data] def AcquirePerm = 7.U // . => Grant[Data] def Probe = 6.U // . => ProbeAck[Data] def AccessAck = 0.U // . . def AccessAckData = 1.U // . . def HintAck = 2.U // . . def ProbeAck = 4.U // . def ProbeAckData = 5.U // . def Release = 6.U // . => ReleaseAck def ReleaseData = 7.U // . => ReleaseAck def Grant = 4.U // . => GrantAck def GrantData = 5.U // . => GrantAck def ReleaseAck = 6.U // . def GrantAck = 0.U // . def isA(x: UInt) = x <= AcquirePerm def isB(x: UInt) = x <= Probe def isC(x: UInt) = x <= ReleaseData def isD(x: UInt) = x <= ReleaseAck def adResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, Grant, Grant) def bcResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, ProbeAck, ProbeAck) def a = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("AcquireBlock",TLPermissions.PermMsgGrow), ("AcquirePerm",TLPermissions.PermMsgGrow)) def b = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("Probe",TLPermissions.PermMsgCap)) def c = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("ProbeAck",TLPermissions.PermMsgReport), ("ProbeAckData",TLPermissions.PermMsgReport), ("Release",TLPermissions.PermMsgReport), ("ReleaseData",TLPermissions.PermMsgReport)) def d = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("Grant",TLPermissions.PermMsgCap), ("GrantData",TLPermissions.PermMsgCap), ("ReleaseAck",TLPermissions.PermMsgReserved)) } /** * The three primary TileLink permissions are: * (T)runk: the agent is (or is on inwards path to) the global point of serialization. * (B)ranch: the agent is on an outwards path to * (N)one: * These permissions are permuted by transfer operations in various ways. * Operations can cap permissions, request for them to be grown or shrunk, * or for a report on their current status. */ object TLPermissions { val aWidth = 2 val bdWidth = 2 val cWidth = 3 // Cap types (Grant = new permissions, Probe = permisions <= target) def toT = 0.U(bdWidth.W) def toB = 1.U(bdWidth.W) def toN = 2.U(bdWidth.W) def isCap(x: UInt) = x <= toN // Grow types (Acquire = permissions >= target) def NtoB = 0.U(aWidth.W) def NtoT = 1.U(aWidth.W) def BtoT = 2.U(aWidth.W) def isGrow(x: UInt) = x <= BtoT // Shrink types (ProbeAck, Release) def TtoB = 0.U(cWidth.W) def TtoN = 1.U(cWidth.W) def BtoN = 2.U(cWidth.W) def isShrink(x: UInt) = x <= BtoN // Report types (ProbeAck, Release) def TtoT = 3.U(cWidth.W) def BtoB = 4.U(cWidth.W) def NtoN = 5.U(cWidth.W) def isReport(x: UInt) = x <= NtoN def PermMsgGrow:Seq[String] = Seq("Grow NtoB", "Grow NtoT", "Grow BtoT") def PermMsgCap:Seq[String] = Seq("Cap toT", "Cap toB", "Cap toN") def PermMsgReport:Seq[String] = Seq("Shrink TtoB", "Shrink TtoN", "Shrink BtoN", "Report TotT", "Report BtoB", "Report NtoN") def PermMsgReserved:Seq[String] = Seq("Reserved") } object TLAtomics { val width = 3 // Arithmetic types def MIN = 0.U(width.W) def MAX = 1.U(width.W) def MINU = 2.U(width.W) def MAXU = 3.U(width.W) def ADD = 4.U(width.W) def isArithmetic(x: UInt) = x <= ADD // Logical types def XOR = 0.U(width.W) def OR = 1.U(width.W) def AND = 2.U(width.W) def SWAP = 3.U(width.W) def isLogical(x: UInt) = x <= SWAP def ArithMsg:Seq[String] = Seq("MIN", "MAX", "MINU", "MAXU", "ADD") def LogicMsg:Seq[String] = Seq("XOR", "OR", "AND", "SWAP") } object TLHints { val width = 1 def PREFETCH_READ = 0.U(width.W) def PREFETCH_WRITE = 1.U(width.W) def isHints(x: UInt) = x <= PREFETCH_WRITE def HintsMsg:Seq[String] = Seq("PrefetchRead", "PrefetchWrite") } sealed trait TLChannel extends TLBundleBase { val channelName: String } sealed trait TLDataChannel extends TLChannel sealed trait TLAddrChannel extends TLDataChannel final class TLBundleA(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleA_${params.shortName}" val channelName = "'A' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(List(TLAtomics.width, TLPermissions.aWidth, TLHints.width).max.W) // amo_opcode || grow perms || hint val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleB(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleB_${params.shortName}" val channelName = "'B' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val address = UInt(params.addressBits.W) // from // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleC(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleC_${params.shortName}" val channelName = "'C' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.cWidth.W) // shrink or report perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleD(params: TLBundleParameters) extends TLBundleBase(params) with TLDataChannel { override def typeName = s"TLBundleD_${params.shortName}" val channelName = "'D' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val sink = UInt(params.sinkBits.W) // from val denied = Bool() // implies corrupt iff *Data val user = BundleMap(params.responseFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleE(params: TLBundleParameters) extends TLBundleBase(params) with TLChannel { override def typeName = s"TLBundleE_${params.shortName}" val channelName = "'E' channel" val sink = UInt(params.sinkBits.W) // to } class TLBundle(val params: TLBundleParameters) extends Record { // Emulate a Bundle with elements abcde or ad depending on params.hasBCE private val optA = Some (Decoupled(new TLBundleA(params))) private val optB = params.hasBCE.option(Flipped(Decoupled(new TLBundleB(params)))) private val optC = params.hasBCE.option(Decoupled(new TLBundleC(params))) private val optD = Some (Flipped(Decoupled(new TLBundleD(params)))) private val optE = params.hasBCE.option(Decoupled(new TLBundleE(params))) def a: DecoupledIO[TLBundleA] = optA.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleA(params))))) def b: DecoupledIO[TLBundleB] = optB.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleB(params))))) def c: DecoupledIO[TLBundleC] = optC.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleC(params))))) def d: DecoupledIO[TLBundleD] = optD.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleD(params))))) def e: DecoupledIO[TLBundleE] = optE.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleE(params))))) val elements = if (params.hasBCE) ListMap("e" -> e, "d" -> d, "c" -> c, "b" -> b, "a" -> a) else ListMap("d" -> d, "a" -> a) def tieoff(): Unit = { DataMirror.specifiedDirectionOf(a.ready) match { case SpecifiedDirection.Input => a.ready := false.B c.ready := false.B e.ready := false.B b.valid := false.B d.valid := false.B case SpecifiedDirection.Output => a.valid := false.B c.valid := false.B e.valid := false.B b.ready := false.B d.ready := false.B case _ => } } } object TLBundle { def apply(params: TLBundleParameters) = new TLBundle(params) } class TLAsyncBundleBase(val params: TLAsyncBundleParameters) extends Bundle class TLAsyncBundle(params: TLAsyncBundleParameters) extends TLAsyncBundleBase(params) { val a = new AsyncBundle(new TLBundleA(params.base), params.async) val b = Flipped(new AsyncBundle(new TLBundleB(params.base), params.async)) val c = new AsyncBundle(new TLBundleC(params.base), params.async) val d = Flipped(new AsyncBundle(new TLBundleD(params.base), params.async)) val e = new AsyncBundle(new TLBundleE(params.base), params.async) } class TLRationalBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = RationalIO(new TLBundleA(params)) val b = Flipped(RationalIO(new TLBundleB(params))) val c = RationalIO(new TLBundleC(params)) val d = Flipped(RationalIO(new TLBundleD(params))) val e = RationalIO(new TLBundleE(params)) } class TLCreditedBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = CreditedIO(new TLBundleA(params)) val b = Flipped(CreditedIO(new TLBundleB(params))) val c = CreditedIO(new TLBundleC(params)) val d = Flipped(CreditedIO(new TLBundleD(params))) val e = CreditedIO(new TLBundleE(params)) } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.diplomacy import chisel3._ import chisel3.util.{DecoupledIO, Queue, ReadyValidIO, isPow2, log2Ceil, log2Floor} import freechips.rocketchip.util.ShiftQueue /** Options for describing the attributes of memory regions */ object RegionType { // Define the 'more relaxed than' ordering val cases = Seq(CACHED, TRACKED, UNCACHED, IDEMPOTENT, VOLATILE, PUT_EFFECTS, GET_EFFECTS) sealed trait T extends Ordered[T] { def compare(that: T): Int = cases.indexOf(that) compare cases.indexOf(this) } case object CACHED extends T // an intermediate agent may have cached a copy of the region for you case object TRACKED extends T // the region may have been cached by another master, but coherence is being provided case object UNCACHED extends T // the region has not been cached yet, but should be cached when possible case object IDEMPOTENT extends T // gets return most recently put content, but content should not be cached case object VOLATILE extends T // content may change without a put, but puts and gets have no side effects case object PUT_EFFECTS extends T // puts produce side effects and so must not be combined/delayed case object GET_EFFECTS extends T // gets produce side effects and so must not be issued speculatively } // A non-empty half-open range; [start, end) case class IdRange(start: Int, end: Int) extends Ordered[IdRange] { require (start >= 0, s"Ids cannot be negative, but got: $start.") require (start <= end, "Id ranges cannot be negative.") def compare(x: IdRange) = { val primary = (this.start - x.start).signum val secondary = (x.end - this.end).signum if (primary != 0) primary else secondary } def overlaps(x: IdRange) = start < x.end && x.start < end def contains(x: IdRange) = start <= x.start && x.end <= end def contains(x: Int) = start <= x && x < end def contains(x: UInt) = if (size == 0) { false.B } else if (size == 1) { // simple comparison x === start.U } else { // find index of largest different bit val largestDeltaBit = log2Floor(start ^ (end-1)) val smallestCommonBit = largestDeltaBit + 1 // may not exist in x val uncommonMask = (1 << smallestCommonBit) - 1 val uncommonBits = (x | 0.U(smallestCommonBit.W))(largestDeltaBit, 0) // the prefix must match exactly (note: may shift ALL bits away) (x >> smallestCommonBit) === (start >> smallestCommonBit).U && // firrtl constant prop range analysis can eliminate these two: (start & uncommonMask).U <= uncommonBits && uncommonBits <= ((end-1) & uncommonMask).U } def shift(x: Int) = IdRange(start+x, end+x) def size = end - start def isEmpty = end == start def range = start until end } object IdRange { def overlaps(s: Seq[IdRange]) = if (s.isEmpty) None else { val ranges = s.sorted (ranges.tail zip ranges.init) find { case (a, b) => a overlaps b } } } // An potentially empty inclusive range of 2-powers [min, max] (in bytes) case class TransferSizes(min: Int, max: Int) { def this(x: Int) = this(x, x) require (min <= max, s"Min transfer $min > max transfer $max") require (min >= 0 && max >= 0, s"TransferSizes must be positive, got: ($min, $max)") require (max == 0 || isPow2(max), s"TransferSizes must be a power of 2, got: $max") require (min == 0 || isPow2(min), s"TransferSizes must be a power of 2, got: $min") require (max == 0 || min != 0, s"TransferSize 0 is forbidden unless (0,0), got: ($min, $max)") def none = min == 0 def contains(x: Int) = isPow2(x) && min <= x && x <= max def containsLg(x: Int) = contains(1 << x) def containsLg(x: UInt) = if (none) false.B else if (min == max) { log2Ceil(min).U === x } else { log2Ceil(min).U <= x && x <= log2Ceil(max).U } def contains(x: TransferSizes) = x.none || (min <= x.min && x.max <= max) def intersect(x: TransferSizes) = if (x.max < min || max < x.min) TransferSizes.none else TransferSizes(scala.math.max(min, x.min), scala.math.min(max, x.max)) // Not a union, because the result may contain sizes contained by neither term // NOT TO BE CONFUSED WITH COVERPOINTS def mincover(x: TransferSizes) = { if (none) { x } else if (x.none) { this } else { TransferSizes(scala.math.min(min, x.min), scala.math.max(max, x.max)) } } override def toString() = "TransferSizes[%d, %d]".format(min, max) } object TransferSizes { def apply(x: Int) = new TransferSizes(x) val none = new TransferSizes(0) def mincover(seq: Seq[TransferSizes]) = seq.foldLeft(none)(_ mincover _) def intersect(seq: Seq[TransferSizes]) = seq.reduce(_ intersect _) implicit def asBool(x: TransferSizes) = !x.none } // AddressSets specify the address space managed by the manager // Base is the base address, and mask are the bits consumed by the manager // e.g: base=0x200, mask=0xff describes a device managing 0x200-0x2ff // e.g: base=0x1000, mask=0xf0f decribes a device managing 0x1000-0x100f, 0x1100-0x110f, ... case class AddressSet(base: BigInt, mask: BigInt) extends Ordered[AddressSet] { // Forbid misaligned base address (and empty sets) require ((base & mask) == 0, s"Mis-aligned AddressSets are forbidden, got: ${this.toString}") require (base >= 0, s"AddressSet negative base is ambiguous: $base") // TL2 address widths are not fixed => negative is ambiguous // We do allow negative mask (=> ignore all high bits) def contains(x: BigInt) = ((x ^ base) & ~mask) == 0 def contains(x: UInt) = ((x ^ base.U).zext & (~mask).S) === 0.S // turn x into an address contained in this set def legalize(x: UInt): UInt = base.U | (mask.U & x) // overlap iff bitwise: both care (~mask0 & ~mask1) => both equal (base0=base1) def overlaps(x: AddressSet) = (~(mask | x.mask) & (base ^ x.base)) == 0 // contains iff bitwise: x.mask => mask && contains(x.base) def contains(x: AddressSet) = ((x.mask | (base ^ x.base)) & ~mask) == 0 // The number of bytes to which the manager must be aligned def alignment = ((mask + 1) & ~mask) // Is this a contiguous memory range def contiguous = alignment == mask+1 def finite = mask >= 0 def max = { require (finite, "Max cannot be calculated on infinite mask"); base | mask } // Widen the match function to ignore all bits in imask def widen(imask: BigInt) = AddressSet(base & ~imask, mask | imask) // Return an AddressSet that only contains the addresses both sets contain def intersect(x: AddressSet): Option[AddressSet] = { if (!overlaps(x)) { None } else { val r_mask = mask & x.mask val r_base = base | x.base Some(AddressSet(r_base, r_mask)) } } def subtract(x: AddressSet): Seq[AddressSet] = { intersect(x) match { case None => Seq(this) case Some(remove) => AddressSet.enumerateBits(mask & ~remove.mask).map { bit => val nmask = (mask & (bit-1)) | remove.mask val nbase = (remove.base ^ bit) & ~nmask AddressSet(nbase, nmask) } } } // AddressSets have one natural Ordering (the containment order, if contiguous) def compare(x: AddressSet) = { val primary = (this.base - x.base).signum // smallest address first val secondary = (x.mask - this.mask).signum // largest mask first if (primary != 0) primary else secondary } // We always want to see things in hex override def toString() = { if (mask >= 0) { "AddressSet(0x%x, 0x%x)".format(base, mask) } else { "AddressSet(0x%x, ~0x%x)".format(base, ~mask) } } def toRanges = { require (finite, "Ranges cannot be calculated on infinite mask") val size = alignment val fragments = mask & ~(size-1) val bits = bitIndexes(fragments) (BigInt(0) until (BigInt(1) << bits.size)).map { i => val off = bitIndexes(i).foldLeft(base) { case (a, b) => a.setBit(bits(b)) } AddressRange(off, size) } } } object AddressSet { val everything = AddressSet(0, -1) def misaligned(base: BigInt, size: BigInt, tail: Seq[AddressSet] = Seq()): Seq[AddressSet] = { if (size == 0) tail.reverse else { val maxBaseAlignment = base & (-base) // 0 for infinite (LSB) val maxSizeAlignment = BigInt(1) << log2Floor(size) // MSB of size val step = if (maxBaseAlignment == 0 || maxBaseAlignment > maxSizeAlignment) maxSizeAlignment else maxBaseAlignment misaligned(base+step, size-step, AddressSet(base, step-1) +: tail) } } def unify(seq: Seq[AddressSet], bit: BigInt): Seq[AddressSet] = { // Pair terms up by ignoring 'bit' seq.distinct.groupBy(x => x.copy(base = x.base & ~bit)).map { case (key, seq) => if (seq.size == 1) { seq.head // singleton -> unaffected } else { key.copy(mask = key.mask | bit) // pair - widen mask by bit } }.toList } def unify(seq: Seq[AddressSet]): Seq[AddressSet] = { val bits = seq.map(_.base).foldLeft(BigInt(0))(_ | _) AddressSet.enumerateBits(bits).foldLeft(seq) { case (acc, bit) => unify(acc, bit) }.sorted } def enumerateMask(mask: BigInt): Seq[BigInt] = { def helper(id: BigInt, tail: Seq[BigInt]): Seq[BigInt] = if (id == mask) (id +: tail).reverse else helper(((~mask | id) + 1) & mask, id +: tail) helper(0, Nil) } def enumerateBits(mask: BigInt): Seq[BigInt] = { def helper(x: BigInt): Seq[BigInt] = { if (x == 0) { Nil } else { val bit = x & (-x) bit +: helper(x & ~bit) } } helper(mask) } } case class BufferParams(depth: Int, flow: Boolean, pipe: Boolean) { require (depth >= 0, "Buffer depth must be >= 0") def isDefined = depth > 0 def latency = if (isDefined && !flow) 1 else 0 def apply[T <: Data](x: DecoupledIO[T]) = if (isDefined) Queue(x, depth, flow=flow, pipe=pipe) else x def irrevocable[T <: Data](x: ReadyValidIO[T]) = if (isDefined) Queue.irrevocable(x, depth, flow=flow, pipe=pipe) else x def sq[T <: Data](x: DecoupledIO[T]) = if (!isDefined) x else { val sq = Module(new ShiftQueue(x.bits, depth, flow=flow, pipe=pipe)) sq.io.enq <> x sq.io.deq } override def toString() = "BufferParams:%d%s%s".format(depth, if (flow) "F" else "", if (pipe) "P" else "") } object BufferParams { implicit def apply(depth: Int): BufferParams = BufferParams(depth, false, false) val default = BufferParams(2) val none = BufferParams(0) val flow = BufferParams(1, true, false) val pipe = BufferParams(1, false, true) } case class TriStateValue(value: Boolean, set: Boolean) { def update(orig: Boolean) = if (set) value else orig } object TriStateValue { implicit def apply(value: Boolean): TriStateValue = TriStateValue(value, true) def unset = TriStateValue(false, false) } trait DirectedBuffers[T] { def copyIn(x: BufferParams): T def copyOut(x: BufferParams): T def copyInOut(x: BufferParams): T } trait IdMapEntry { def name: String def from: IdRange def to: IdRange def isCache: Boolean def requestFifo: Boolean def maxTransactionsInFlight: Option[Int] def pretty(fmt: String) = if (from ne to) { // if the subclass uses the same reference for both from and to, assume its format string has an arity of 5 fmt.format(to.start, to.end, from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } else { fmt.format(from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } } abstract class IdMap[T <: IdMapEntry] { protected val fmt: String val mapping: Seq[T] def pretty: String = mapping.map(_.pretty(fmt)).mkString(",\n") } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module TLMonitor_6( // @[Monitor.scala:36:7] input clock, // @[Monitor.scala:36:7] input reset, // @[Monitor.scala:36:7] input io_in_a_ready, // @[Monitor.scala:20:14] input io_in_a_valid, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_opcode, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_param, // @[Monitor.scala:20:14] input [3:0] io_in_a_bits_size, // @[Monitor.scala:20:14] input [4:0] io_in_a_bits_source, // @[Monitor.scala:20:14] input [31:0] io_in_a_bits_address, // @[Monitor.scala:20:14] input [7:0] io_in_a_bits_mask, // @[Monitor.scala:20:14] input [63:0] io_in_a_bits_data, // @[Monitor.scala:20:14] input io_in_a_bits_corrupt, // @[Monitor.scala:20:14] input io_in_d_ready, // @[Monitor.scala:20:14] input io_in_d_valid, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_opcode, // @[Monitor.scala:20:14] input [1:0] io_in_d_bits_param, // @[Monitor.scala:20:14] input [3:0] io_in_d_bits_size, // @[Monitor.scala:20:14] input [4:0] io_in_d_bits_source, // @[Monitor.scala:20:14] input [3:0] io_in_d_bits_sink, // @[Monitor.scala:20:14] input io_in_d_bits_denied, // @[Monitor.scala:20:14] input [63:0] io_in_d_bits_data, // @[Monitor.scala:20:14] input io_in_d_bits_corrupt // @[Monitor.scala:20:14] ); wire [31:0] _plusarg_reader_1_out; // @[PlusArg.scala:80:11] wire [31:0] _plusarg_reader_out; // @[PlusArg.scala:80:11] wire io_in_a_ready_0 = io_in_a_ready; // @[Monitor.scala:36:7] wire io_in_a_valid_0 = io_in_a_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_opcode_0 = io_in_a_bits_opcode; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_param_0 = io_in_a_bits_param; // @[Monitor.scala:36:7] wire [3:0] io_in_a_bits_size_0 = io_in_a_bits_size; // @[Monitor.scala:36:7] wire [4:0] io_in_a_bits_source_0 = io_in_a_bits_source; // @[Monitor.scala:36:7] wire [31:0] io_in_a_bits_address_0 = io_in_a_bits_address; // @[Monitor.scala:36:7] wire [7:0] io_in_a_bits_mask_0 = io_in_a_bits_mask; // @[Monitor.scala:36:7] wire [63:0] io_in_a_bits_data_0 = io_in_a_bits_data; // @[Monitor.scala:36:7] wire io_in_a_bits_corrupt_0 = io_in_a_bits_corrupt; // @[Monitor.scala:36:7] wire io_in_d_ready_0 = io_in_d_ready; // @[Monitor.scala:36:7] wire io_in_d_valid_0 = io_in_d_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_opcode_0 = io_in_d_bits_opcode; // @[Monitor.scala:36:7] wire [1:0] io_in_d_bits_param_0 = io_in_d_bits_param; // @[Monitor.scala:36:7] wire [3:0] io_in_d_bits_size_0 = io_in_d_bits_size; // @[Monitor.scala:36:7] wire [4:0] io_in_d_bits_source_0 = io_in_d_bits_source; // @[Monitor.scala:36:7] wire [3:0] io_in_d_bits_sink_0 = io_in_d_bits_sink; // @[Monitor.scala:36:7] wire io_in_d_bits_denied_0 = io_in_d_bits_denied; // @[Monitor.scala:36:7] wire [63:0] io_in_d_bits_data_0 = io_in_d_bits_data; // @[Monitor.scala:36:7] wire io_in_d_bits_corrupt_0 = io_in_d_bits_corrupt; // @[Monitor.scala:36:7] wire _c_first_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_T = 1'h0; // @[Decoupled.scala:51:35] wire c_first_beats1_opdata = 1'h0; // @[Edges.scala:102:36] wire _c_first_last_T = 1'h0; // @[Edges.scala:232:25] wire c_first_done = 1'h0; // @[Edges.scala:233:22] wire _c_set_wo_ready_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T = 1'h0; // @[Monitor.scala:772:47] wire _c_probe_ack_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T_1 = 1'h0; // @[Monitor.scala:772:95] wire c_probe_ack = 1'h0; // @[Monitor.scala:772:71] wire _same_cycle_resp_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_3 = 1'h0; // @[Monitor.scala:795:44] wire _same_cycle_resp_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_4 = 1'h0; // @[Edges.scala:68:36] wire _same_cycle_resp_T_5 = 1'h0; // @[Edges.scala:68:51] wire _same_cycle_resp_T_6 = 1'h0; // @[Edges.scala:68:40] wire _same_cycle_resp_T_7 = 1'h0; // @[Monitor.scala:795:55] wire _same_cycle_resp_WIRE_4_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_5_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire same_cycle_resp_1 = 1'h0; // @[Monitor.scala:795:88] wire [8:0] c_first_beats1_decode = 9'h0; // @[Edges.scala:220:59] wire [8:0] c_first_beats1 = 9'h0; // @[Edges.scala:221:14] wire [8:0] _c_first_count_T = 9'h0; // @[Edges.scala:234:27] wire [8:0] c_first_count = 9'h0; // @[Edges.scala:234:25] wire [8:0] _c_first_counter_T = 9'h0; // @[Edges.scala:236:21] wire _source_ok_T_3 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_5 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_9 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_11 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_15 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_17 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_21 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_23 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_31 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_33 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_37 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_39 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_43 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_45 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_49 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_51 = 1'h1; // @[Parameters.scala:57:20] wire sink_ok = 1'h1; // @[Monitor.scala:309:31] wire c_first = 1'h1; // @[Edges.scala:231:25] wire _c_first_last_T_1 = 1'h1; // @[Edges.scala:232:43] wire c_first_last = 1'h1; // @[Edges.scala:232:33] wire [8:0] c_first_counter1 = 9'h1FF; // @[Edges.scala:230:28] wire [9:0] _c_first_counter1_T = 10'h3FF; // @[Edges.scala:230:28] wire [63:0] _c_first_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_first_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_wo_ready_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_wo_ready_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_4_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_5_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [31:0] _c_first_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_first_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_first_WIRE_2_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_first_WIRE_3_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_set_wo_ready_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_set_wo_ready_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_set_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_set_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_opcodes_set_interm_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_opcodes_set_interm_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_sizes_set_interm_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_sizes_set_interm_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_opcodes_set_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_opcodes_set_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_sizes_set_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_sizes_set_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_probe_ack_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_probe_ack_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_probe_ack_WIRE_2_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_probe_ack_WIRE_3_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _same_cycle_resp_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _same_cycle_resp_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _same_cycle_resp_WIRE_2_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _same_cycle_resp_WIRE_3_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _same_cycle_resp_WIRE_4_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _same_cycle_resp_WIRE_5_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [4:0] _c_first_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_first_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_first_WIRE_2_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_first_WIRE_3_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] c_sizes_set_interm = 5'h0; // @[Monitor.scala:755:40] wire [4:0] _c_set_wo_ready_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_set_wo_ready_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_set_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_set_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_opcodes_set_interm_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_opcodes_set_interm_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_sizes_set_interm_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_sizes_set_interm_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_sizes_set_interm_T = 5'h0; // @[Monitor.scala:766:51] wire [4:0] _c_opcodes_set_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_opcodes_set_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_sizes_set_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_sizes_set_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_probe_ack_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_probe_ack_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _c_probe_ack_WIRE_2_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _c_probe_ack_WIRE_3_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _same_cycle_resp_WIRE_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _same_cycle_resp_WIRE_1_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _same_cycle_resp_WIRE_2_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _same_cycle_resp_WIRE_3_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [4:0] _same_cycle_resp_WIRE_4_bits_source = 5'h0; // @[Bundles.scala:265:74] wire [4:0] _same_cycle_resp_WIRE_5_bits_source = 5'h0; // @[Bundles.scala:265:61] wire [3:0] _c_first_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_first_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_first_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_first_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] c_opcodes_set_interm = 4'h0; // @[Monitor.scala:754:40] wire [3:0] _c_set_wo_ready_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_set_wo_ready_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_interm_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_opcodes_set_interm_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_interm_T = 4'h0; // @[Monitor.scala:765:53] wire [3:0] _c_sizes_set_interm_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_sizes_set_interm_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_opcodes_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_sizes_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_sizes_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_probe_ack_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_probe_ack_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_probe_ack_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_probe_ack_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_4_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_5_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [2:0] responseMap_0 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMap_1 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_0 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_1 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] _c_first_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_4_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_4_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_5_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_5_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [15:0] _a_size_lookup_T_5 = 16'hFF; // @[Monitor.scala:612:57] wire [15:0] _d_sizes_clr_T_3 = 16'hFF; // @[Monitor.scala:612:57] wire [15:0] _c_size_lookup_T_5 = 16'hFF; // @[Monitor.scala:724:57] wire [15:0] _d_sizes_clr_T_9 = 16'hFF; // @[Monitor.scala:724:57] wire [16:0] _a_size_lookup_T_4 = 17'hFF; // @[Monitor.scala:612:57] wire [16:0] _d_sizes_clr_T_2 = 17'hFF; // @[Monitor.scala:612:57] wire [16:0] _c_size_lookup_T_4 = 17'hFF; // @[Monitor.scala:724:57] wire [16:0] _d_sizes_clr_T_8 = 17'hFF; // @[Monitor.scala:724:57] wire [15:0] _a_size_lookup_T_3 = 16'h100; // @[Monitor.scala:612:51] wire [15:0] _d_sizes_clr_T_1 = 16'h100; // @[Monitor.scala:612:51] wire [15:0] _c_size_lookup_T_3 = 16'h100; // @[Monitor.scala:724:51] wire [15:0] _d_sizes_clr_T_7 = 16'h100; // @[Monitor.scala:724:51] wire [15:0] _a_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_opcodes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _c_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_opcodes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [16:0] _a_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_opcodes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _c_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_opcodes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [15:0] _a_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_opcodes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _c_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_opcodes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [259:0] _c_sizes_set_T_1 = 260'h0; // @[Monitor.scala:768:52] wire [7:0] _c_opcodes_set_T = 8'h0; // @[Monitor.scala:767:79] wire [7:0] _c_sizes_set_T = 8'h0; // @[Monitor.scala:768:77] wire [258:0] _c_opcodes_set_T_1 = 259'h0; // @[Monitor.scala:767:54] wire [4:0] _c_sizes_set_interm_T_1 = 5'h1; // @[Monitor.scala:766:59] wire [3:0] _c_opcodes_set_interm_T_1 = 4'h1; // @[Monitor.scala:765:61] wire [31:0] _c_set_wo_ready_T = 32'h1; // @[OneHot.scala:58:35] wire [31:0] _c_set_T = 32'h1; // @[OneHot.scala:58:35] wire [135:0] c_sizes_set = 136'h0; // @[Monitor.scala:741:34] wire [67:0] c_opcodes_set = 68'h0; // @[Monitor.scala:740:34] wire [16:0] c_set = 17'h0; // @[Monitor.scala:738:34] wire [16:0] c_set_wo_ready = 17'h0; // @[Monitor.scala:739:34] wire [11:0] _c_first_beats1_decode_T_2 = 12'h0; // @[package.scala:243:46] wire [11:0] _c_first_beats1_decode_T_1 = 12'hFFF; // @[package.scala:243:76] wire [26:0] _c_first_beats1_decode_T = 27'hFFF; // @[package.scala:243:71] wire [2:0] responseMap_6 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMap_7 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_7 = 3'h4; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_6 = 3'h5; // @[Monitor.scala:644:42] wire [2:0] responseMap_5 = 3'h2; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_5 = 3'h2; // @[Monitor.scala:644:42] wire [2:0] responseMap_2 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_3 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_4 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_2 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_3 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_4 = 3'h1; // @[Monitor.scala:644:42] wire [3:0] _a_size_lookup_T_2 = 4'h8; // @[Monitor.scala:641:117] wire [3:0] _d_sizes_clr_T = 4'h8; // @[Monitor.scala:681:48] wire [3:0] _c_size_lookup_T_2 = 4'h8; // @[Monitor.scala:750:119] wire [3:0] _d_sizes_clr_T_6 = 4'h8; // @[Monitor.scala:791:48] wire [3:0] _a_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:637:123] wire [3:0] _d_opcodes_clr_T = 4'h4; // @[Monitor.scala:680:48] wire [3:0] _c_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:749:123] wire [3:0] _d_opcodes_clr_T_6 = 4'h4; // @[Monitor.scala:790:48] wire [3:0] _mask_sizeOH_T = io_in_a_bits_size_0; // @[Misc.scala:202:34] wire [4:0] _source_ok_uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _source_ok_uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _source_ok_uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _source_ok_uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_4 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_5 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_6 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_7 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_8 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_9 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_10 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_11 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_12 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_13 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_14 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_15 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_16 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_17 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_18 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_19 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_20 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_21 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_22 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_23 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_24 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_25 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_26 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_27 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_28 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_29 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_30 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_31 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_32 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_33 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_34 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _uncommonBits_T_35 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _source_ok_uncommonBits_T_4 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _source_ok_uncommonBits_T_5 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _source_ok_uncommonBits_T_6 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [4:0] _source_ok_uncommonBits_T_7 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire _source_ok_T = io_in_a_bits_source_0 == 5'h10; // @[Monitor.scala:36:7] wire _source_ok_WIRE_0 = _source_ok_T; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits = _source_ok_uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] _source_ok_T_1 = io_in_a_bits_source_0[4:2]; // @[Monitor.scala:36:7] wire [2:0] _source_ok_T_7 = io_in_a_bits_source_0[4:2]; // @[Monitor.scala:36:7] wire [2:0] _source_ok_T_13 = io_in_a_bits_source_0[4:2]; // @[Monitor.scala:36:7] wire [2:0] _source_ok_T_19 = io_in_a_bits_source_0[4:2]; // @[Monitor.scala:36:7] wire _source_ok_T_2 = _source_ok_T_1 == 3'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_4 = _source_ok_T_2; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_6 = _source_ok_T_4; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1 = _source_ok_T_6; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_1 = _source_ok_uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_8 = _source_ok_T_7 == 3'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_10 = _source_ok_T_8; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_12 = _source_ok_T_10; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_2 = _source_ok_T_12; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_2 = _source_ok_uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_14 = _source_ok_T_13 == 3'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_16 = _source_ok_T_14; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_18 = _source_ok_T_16; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_3 = _source_ok_T_18; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_3 = _source_ok_uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_20 = _source_ok_T_19 == 3'h3; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_22 = _source_ok_T_20; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_24 = _source_ok_T_22; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_4 = _source_ok_T_24; // @[Parameters.scala:1138:31] wire _source_ok_T_25 = _source_ok_WIRE_0 | _source_ok_WIRE_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_26 = _source_ok_T_25 | _source_ok_WIRE_2; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_27 = _source_ok_T_26 | _source_ok_WIRE_3; // @[Parameters.scala:1138:31, :1139:46] wire source_ok = _source_ok_T_27 | _source_ok_WIRE_4; // @[Parameters.scala:1138:31, :1139:46] wire [26:0] _GEN = 27'hFFF << io_in_a_bits_size_0; // @[package.scala:243:71] wire [26:0] _is_aligned_mask_T; // @[package.scala:243:71] assign _is_aligned_mask_T = _GEN; // @[package.scala:243:71] wire [26:0] _a_first_beats1_decode_T; // @[package.scala:243:71] assign _a_first_beats1_decode_T = _GEN; // @[package.scala:243:71] wire [26:0] _a_first_beats1_decode_T_3; // @[package.scala:243:71] assign _a_first_beats1_decode_T_3 = _GEN; // @[package.scala:243:71] wire [11:0] _is_aligned_mask_T_1 = _is_aligned_mask_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] is_aligned_mask = ~_is_aligned_mask_T_1; // @[package.scala:243:{46,76}] wire [31:0] _is_aligned_T = {20'h0, io_in_a_bits_address_0[11:0] & is_aligned_mask}; // @[package.scala:243:46] wire is_aligned = _is_aligned_T == 32'h0; // @[Edges.scala:21:{16,24}] wire [1:0] mask_sizeOH_shiftAmount = _mask_sizeOH_T[1:0]; // @[OneHot.scala:64:49] wire [3:0] _mask_sizeOH_T_1 = 4'h1 << mask_sizeOH_shiftAmount; // @[OneHot.scala:64:49, :65:12] wire [2:0] _mask_sizeOH_T_2 = _mask_sizeOH_T_1[2:0]; // @[OneHot.scala:65:{12,27}] wire [2:0] mask_sizeOH = {_mask_sizeOH_T_2[2:1], 1'h1}; // @[OneHot.scala:65:27] wire mask_sub_sub_sub_0_1 = io_in_a_bits_size_0 > 4'h2; // @[Misc.scala:206:21] wire mask_sub_sub_size = mask_sizeOH[2]; // @[Misc.scala:202:81, :209:26] wire mask_sub_sub_bit = io_in_a_bits_address_0[2]; // @[Misc.scala:210:26] wire mask_sub_sub_1_2 = mask_sub_sub_bit; // @[Misc.scala:210:26, :214:27] wire mask_sub_sub_nbit = ~mask_sub_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_sub_0_2 = mask_sub_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_sub_acc_T = mask_sub_sub_size & mask_sub_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_0_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T; // @[Misc.scala:206:21, :215:{29,38}] wire _mask_sub_sub_acc_T_1 = mask_sub_sub_size & mask_sub_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_1_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T_1; // @[Misc.scala:206:21, :215:{29,38}] wire mask_sub_size = mask_sizeOH[1]; // @[Misc.scala:202:81, :209:26] wire mask_sub_bit = io_in_a_bits_address_0[1]; // @[Misc.scala:210:26] wire mask_sub_nbit = ~mask_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_0_2 = mask_sub_sub_0_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T = mask_sub_size & mask_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_0_1 = mask_sub_sub_0_1 | _mask_sub_acc_T; // @[Misc.scala:215:{29,38}] wire mask_sub_1_2 = mask_sub_sub_0_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_1 = mask_sub_size & mask_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_1_1 = mask_sub_sub_0_1 | _mask_sub_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_sub_2_2 = mask_sub_sub_1_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T_2 = mask_sub_size & mask_sub_2_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_2_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_sub_3_2 = mask_sub_sub_1_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_3 = mask_sub_size & mask_sub_3_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_3_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_size = mask_sizeOH[0]; // @[Misc.scala:202:81, :209:26] wire mask_bit = io_in_a_bits_address_0[0]; // @[Misc.scala:210:26] wire mask_nbit = ~mask_bit; // @[Misc.scala:210:26, :211:20] wire mask_eq = mask_sub_0_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T = mask_size & mask_eq; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc = mask_sub_0_1 | _mask_acc_T; // @[Misc.scala:215:{29,38}] wire mask_eq_1 = mask_sub_0_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_1 = mask_size & mask_eq_1; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_1 = mask_sub_0_1 | _mask_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_eq_2 = mask_sub_1_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_2 = mask_size & mask_eq_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_2 = mask_sub_1_1 | _mask_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_eq_3 = mask_sub_1_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_3 = mask_size & mask_eq_3; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_3 = mask_sub_1_1 | _mask_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_eq_4 = mask_sub_2_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_4 = mask_size & mask_eq_4; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_4 = mask_sub_2_1 | _mask_acc_T_4; // @[Misc.scala:215:{29,38}] wire mask_eq_5 = mask_sub_2_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_5 = mask_size & mask_eq_5; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_5 = mask_sub_2_1 | _mask_acc_T_5; // @[Misc.scala:215:{29,38}] wire mask_eq_6 = mask_sub_3_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_6 = mask_size & mask_eq_6; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_6 = mask_sub_3_1 | _mask_acc_T_6; // @[Misc.scala:215:{29,38}] wire mask_eq_7 = mask_sub_3_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_7 = mask_size & mask_eq_7; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_7 = mask_sub_3_1 | _mask_acc_T_7; // @[Misc.scala:215:{29,38}] wire [1:0] mask_lo_lo = {mask_acc_1, mask_acc}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_lo_hi = {mask_acc_3, mask_acc_2}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_lo = {mask_lo_hi, mask_lo_lo}; // @[Misc.scala:222:10] wire [1:0] mask_hi_lo = {mask_acc_5, mask_acc_4}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_hi_hi = {mask_acc_7, mask_acc_6}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_hi = {mask_hi_hi, mask_hi_lo}; // @[Misc.scala:222:10] wire [7:0] mask = {mask_hi, mask_lo}; // @[Misc.scala:222:10] wire [1:0] uncommonBits = _uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_1 = _uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_2 = _uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_3 = _uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_4 = _uncommonBits_T_4[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_5 = _uncommonBits_T_5[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_6 = _uncommonBits_T_6[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_7 = _uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_8 = _uncommonBits_T_8[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_9 = _uncommonBits_T_9[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_10 = _uncommonBits_T_10[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_11 = _uncommonBits_T_11[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_12 = _uncommonBits_T_12[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_13 = _uncommonBits_T_13[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_14 = _uncommonBits_T_14[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_15 = _uncommonBits_T_15[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_16 = _uncommonBits_T_16[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_17 = _uncommonBits_T_17[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_18 = _uncommonBits_T_18[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_19 = _uncommonBits_T_19[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_20 = _uncommonBits_T_20[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_21 = _uncommonBits_T_21[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_22 = _uncommonBits_T_22[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_23 = _uncommonBits_T_23[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_24 = _uncommonBits_T_24[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_25 = _uncommonBits_T_25[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_26 = _uncommonBits_T_26[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_27 = _uncommonBits_T_27[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_28 = _uncommonBits_T_28[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_29 = _uncommonBits_T_29[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_30 = _uncommonBits_T_30[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_31 = _uncommonBits_T_31[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_32 = _uncommonBits_T_32[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_33 = _uncommonBits_T_33[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_34 = _uncommonBits_T_34[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_35 = _uncommonBits_T_35[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_28 = io_in_d_bits_source_0 == 5'h10; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_0 = _source_ok_T_28; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_4 = _source_ok_uncommonBits_T_4[1:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] _source_ok_T_29 = io_in_d_bits_source_0[4:2]; // @[Monitor.scala:36:7] wire [2:0] _source_ok_T_35 = io_in_d_bits_source_0[4:2]; // @[Monitor.scala:36:7] wire [2:0] _source_ok_T_41 = io_in_d_bits_source_0[4:2]; // @[Monitor.scala:36:7] wire [2:0] _source_ok_T_47 = io_in_d_bits_source_0[4:2]; // @[Monitor.scala:36:7] wire _source_ok_T_30 = _source_ok_T_29 == 3'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_32 = _source_ok_T_30; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_34 = _source_ok_T_32; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_1 = _source_ok_T_34; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_5 = _source_ok_uncommonBits_T_5[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_36 = _source_ok_T_35 == 3'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_38 = _source_ok_T_36; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_40 = _source_ok_T_38; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_2 = _source_ok_T_40; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_6 = _source_ok_uncommonBits_T_6[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_42 = _source_ok_T_41 == 3'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_44 = _source_ok_T_42; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_46 = _source_ok_T_44; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_3 = _source_ok_T_46; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_7 = _source_ok_uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_48 = _source_ok_T_47 == 3'h3; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_50 = _source_ok_T_48; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_52 = _source_ok_T_50; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_4 = _source_ok_T_52; // @[Parameters.scala:1138:31] wire _source_ok_T_53 = _source_ok_WIRE_1_0 | _source_ok_WIRE_1_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_54 = _source_ok_T_53 | _source_ok_WIRE_1_2; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_55 = _source_ok_T_54 | _source_ok_WIRE_1_3; // @[Parameters.scala:1138:31, :1139:46] wire source_ok_1 = _source_ok_T_55 | _source_ok_WIRE_1_4; // @[Parameters.scala:1138:31, :1139:46] wire _T_1502 = io_in_a_ready_0 & io_in_a_valid_0; // @[Decoupled.scala:51:35] wire _a_first_T; // @[Decoupled.scala:51:35] assign _a_first_T = _T_1502; // @[Decoupled.scala:51:35] wire _a_first_T_1; // @[Decoupled.scala:51:35] assign _a_first_T_1 = _T_1502; // @[Decoupled.scala:51:35] wire [11:0] _a_first_beats1_decode_T_1 = _a_first_beats1_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _a_first_beats1_decode_T_2 = ~_a_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] a_first_beats1_decode = _a_first_beats1_decode_T_2[11:3]; // @[package.scala:243:46] wire _a_first_beats1_opdata_T = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire _a_first_beats1_opdata_T_1 = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire a_first_beats1_opdata = ~_a_first_beats1_opdata_T; // @[Edges.scala:92:{28,37}] wire [8:0] a_first_beats1 = a_first_beats1_opdata ? a_first_beats1_decode : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] a_first_counter; // @[Edges.scala:229:27] wire [9:0] _a_first_counter1_T = {1'h0, a_first_counter} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] a_first_counter1 = _a_first_counter1_T[8:0]; // @[Edges.scala:230:28] wire a_first = a_first_counter == 9'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T = a_first_counter == 9'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_1 = a_first_beats1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last = _a_first_last_T | _a_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire a_first_done = a_first_last & _a_first_T; // @[Decoupled.scala:51:35] wire [8:0] _a_first_count_T = ~a_first_counter1; // @[Edges.scala:230:28, :234:27] wire [8:0] a_first_count = a_first_beats1 & _a_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _a_first_counter_T = a_first ? a_first_beats1 : a_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode; // @[Monitor.scala:387:22] reg [2:0] param; // @[Monitor.scala:388:22] reg [3:0] size; // @[Monitor.scala:389:22] reg [4:0] source; // @[Monitor.scala:390:22] reg [31:0] address; // @[Monitor.scala:391:22] wire _T_1575 = io_in_d_ready_0 & io_in_d_valid_0; // @[Decoupled.scala:51:35] wire _d_first_T; // @[Decoupled.scala:51:35] assign _d_first_T = _T_1575; // @[Decoupled.scala:51:35] wire _d_first_T_1; // @[Decoupled.scala:51:35] assign _d_first_T_1 = _T_1575; // @[Decoupled.scala:51:35] wire _d_first_T_2; // @[Decoupled.scala:51:35] assign _d_first_T_2 = _T_1575; // @[Decoupled.scala:51:35] wire [26:0] _GEN_0 = 27'hFFF << io_in_d_bits_size_0; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T; // @[package.scala:243:71] assign _d_first_beats1_decode_T = _GEN_0; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T_3; // @[package.scala:243:71] assign _d_first_beats1_decode_T_3 = _GEN_0; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T_6; // @[package.scala:243:71] assign _d_first_beats1_decode_T_6 = _GEN_0; // @[package.scala:243:71] wire [11:0] _d_first_beats1_decode_T_1 = _d_first_beats1_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_2 = ~_d_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode = _d_first_beats1_decode_T_2[11:3]; // @[package.scala:243:46] wire d_first_beats1_opdata = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_1 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_2 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire [8:0] d_first_beats1 = d_first_beats1_opdata ? d_first_beats1_decode : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T = {1'h0, d_first_counter} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1 = _d_first_counter1_T[8:0]; // @[Edges.scala:230:28] wire d_first = d_first_counter == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T = d_first_counter == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_1 = d_first_beats1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last = _d_first_last_T | _d_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire d_first_done = d_first_last & _d_first_T; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T = ~d_first_counter1; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count = d_first_beats1 & _d_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T = d_first ? d_first_beats1 : d_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode_1; // @[Monitor.scala:538:22] reg [1:0] param_1; // @[Monitor.scala:539:22] reg [3:0] size_1; // @[Monitor.scala:540:22] reg [4:0] source_1; // @[Monitor.scala:541:22] reg [3:0] sink; // @[Monitor.scala:542:22] reg denied; // @[Monitor.scala:543:22] reg [16:0] inflight; // @[Monitor.scala:614:27] reg [67:0] inflight_opcodes; // @[Monitor.scala:616:35] reg [135:0] inflight_sizes; // @[Monitor.scala:618:33] wire [11:0] _a_first_beats1_decode_T_4 = _a_first_beats1_decode_T_3[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _a_first_beats1_decode_T_5 = ~_a_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [8:0] a_first_beats1_decode_1 = _a_first_beats1_decode_T_5[11:3]; // @[package.scala:243:46] wire a_first_beats1_opdata_1 = ~_a_first_beats1_opdata_T_1; // @[Edges.scala:92:{28,37}] wire [8:0] a_first_beats1_1 = a_first_beats1_opdata_1 ? a_first_beats1_decode_1 : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] a_first_counter_1; // @[Edges.scala:229:27] wire [9:0] _a_first_counter1_T_1 = {1'h0, a_first_counter_1} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] a_first_counter1_1 = _a_first_counter1_T_1[8:0]; // @[Edges.scala:230:28] wire a_first_1 = a_first_counter_1 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T_2 = a_first_counter_1 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_3 = a_first_beats1_1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last_1 = _a_first_last_T_2 | _a_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire a_first_done_1 = a_first_last_1 & _a_first_T_1; // @[Decoupled.scala:51:35] wire [8:0] _a_first_count_T_1 = ~a_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [8:0] a_first_count_1 = a_first_beats1_1 & _a_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _a_first_counter_T_1 = a_first_1 ? a_first_beats1_1 : a_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [11:0] _d_first_beats1_decode_T_4 = _d_first_beats1_decode_T_3[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_5 = ~_d_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode_1 = _d_first_beats1_decode_T_5[11:3]; // @[package.scala:243:46] wire [8:0] d_first_beats1_1 = d_first_beats1_opdata_1 ? d_first_beats1_decode_1 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter_1; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T_1 = {1'h0, d_first_counter_1} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1_1 = _d_first_counter1_T_1[8:0]; // @[Edges.scala:230:28] wire d_first_1 = d_first_counter_1 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_2 = d_first_counter_1 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_3 = d_first_beats1_1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_1 = _d_first_last_T_2 | _d_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire d_first_done_1 = d_first_last_1 & _d_first_T_1; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T_1 = ~d_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count_1 = d_first_beats1_1 & _d_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T_1 = d_first_1 ? d_first_beats1_1 : d_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [16:0] a_set; // @[Monitor.scala:626:34] wire [16:0] a_set_wo_ready; // @[Monitor.scala:627:34] wire [67:0] a_opcodes_set; // @[Monitor.scala:630:33] wire [135:0] a_sizes_set; // @[Monitor.scala:632:31] wire [2:0] a_opcode_lookup; // @[Monitor.scala:635:35] wire [7:0] _GEN_1 = {1'h0, io_in_d_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :637:69] wire [7:0] _a_opcode_lookup_T; // @[Monitor.scala:637:69] assign _a_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69] wire [7:0] _d_opcodes_clr_T_4; // @[Monitor.scala:680:101] assign _d_opcodes_clr_T_4 = _GEN_1; // @[Monitor.scala:637:69, :680:101] wire [7:0] _c_opcode_lookup_T; // @[Monitor.scala:749:69] assign _c_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :749:69] wire [7:0] _d_opcodes_clr_T_10; // @[Monitor.scala:790:101] assign _d_opcodes_clr_T_10 = _GEN_1; // @[Monitor.scala:637:69, :790:101] wire [67:0] _a_opcode_lookup_T_1 = inflight_opcodes >> _a_opcode_lookup_T; // @[Monitor.scala:616:35, :637:{44,69}] wire [67:0] _a_opcode_lookup_T_6 = {64'h0, _a_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:637:{44,97}] wire [67:0] _a_opcode_lookup_T_7 = {1'h0, _a_opcode_lookup_T_6[67:1]}; // @[Monitor.scala:637:{97,152}] assign a_opcode_lookup = _a_opcode_lookup_T_7[2:0]; // @[Monitor.scala:635:35, :637:{21,152}] wire [7:0] a_size_lookup; // @[Monitor.scala:639:33] wire [7:0] _GEN_2 = {io_in_d_bits_source_0, 3'h0}; // @[Monitor.scala:36:7, :641:65] wire [7:0] _a_size_lookup_T; // @[Monitor.scala:641:65] assign _a_size_lookup_T = _GEN_2; // @[Monitor.scala:641:65] wire [7:0] _d_sizes_clr_T_4; // @[Monitor.scala:681:99] assign _d_sizes_clr_T_4 = _GEN_2; // @[Monitor.scala:641:65, :681:99] wire [7:0] _c_size_lookup_T; // @[Monitor.scala:750:67] assign _c_size_lookup_T = _GEN_2; // @[Monitor.scala:641:65, :750:67] wire [7:0] _d_sizes_clr_T_10; // @[Monitor.scala:791:99] assign _d_sizes_clr_T_10 = _GEN_2; // @[Monitor.scala:641:65, :791:99] wire [135:0] _a_size_lookup_T_1 = inflight_sizes >> _a_size_lookup_T; // @[Monitor.scala:618:33, :641:{40,65}] wire [135:0] _a_size_lookup_T_6 = {128'h0, _a_size_lookup_T_1[7:0]}; // @[Monitor.scala:641:{40,91}] wire [135:0] _a_size_lookup_T_7 = {1'h0, _a_size_lookup_T_6[135:1]}; // @[Monitor.scala:641:{91,144}] assign a_size_lookup = _a_size_lookup_T_7[7:0]; // @[Monitor.scala:639:33, :641:{19,144}] wire [3:0] a_opcodes_set_interm; // @[Monitor.scala:646:40] wire [4:0] a_sizes_set_interm; // @[Monitor.scala:648:38] wire _same_cycle_resp_T = io_in_a_valid_0 & a_first_1; // @[Monitor.scala:36:7, :651:26, :684:44] wire [31:0] _GEN_3 = 32'h1 << io_in_a_bits_source_0; // @[OneHot.scala:58:35] wire [31:0] _a_set_wo_ready_T; // @[OneHot.scala:58:35] assign _a_set_wo_ready_T = _GEN_3; // @[OneHot.scala:58:35] wire [31:0] _a_set_T; // @[OneHot.scala:58:35] assign _a_set_T = _GEN_3; // @[OneHot.scala:58:35] assign a_set_wo_ready = _same_cycle_resp_T ? _a_set_wo_ready_T[16:0] : 17'h0; // @[OneHot.scala:58:35] wire _T_1428 = _T_1502 & a_first_1; // @[Decoupled.scala:51:35] assign a_set = _T_1428 ? _a_set_T[16:0] : 17'h0; // @[OneHot.scala:58:35] wire [3:0] _a_opcodes_set_interm_T = {io_in_a_bits_opcode_0, 1'h0}; // @[Monitor.scala:36:7, :657:53] wire [3:0] _a_opcodes_set_interm_T_1 = {_a_opcodes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:657:{53,61}] assign a_opcodes_set_interm = _T_1428 ? _a_opcodes_set_interm_T_1 : 4'h0; // @[Monitor.scala:646:40, :655:{25,70}, :657:{28,61}] wire [4:0] _a_sizes_set_interm_T = {io_in_a_bits_size_0, 1'h0}; // @[Monitor.scala:36:7, :658:51] wire [4:0] _a_sizes_set_interm_T_1 = {_a_sizes_set_interm_T[4:1], 1'h1}; // @[Monitor.scala:658:{51,59}] assign a_sizes_set_interm = _T_1428 ? _a_sizes_set_interm_T_1 : 5'h0; // @[Monitor.scala:648:38, :655:{25,70}, :658:{28,59}] wire [7:0] _a_opcodes_set_T = {1'h0, io_in_a_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :659:79] wire [258:0] _a_opcodes_set_T_1 = {255'h0, a_opcodes_set_interm} << _a_opcodes_set_T; // @[Monitor.scala:646:40, :659:{54,79}] assign a_opcodes_set = _T_1428 ? _a_opcodes_set_T_1[67:0] : 68'h0; // @[Monitor.scala:630:33, :655:{25,70}, :659:{28,54}] wire [7:0] _a_sizes_set_T = {io_in_a_bits_source_0, 3'h0}; // @[Monitor.scala:36:7, :660:77] wire [259:0] _a_sizes_set_T_1 = {255'h0, a_sizes_set_interm} << _a_sizes_set_T; // @[Monitor.scala:648:38, :659:54, :660:{52,77}] assign a_sizes_set = _T_1428 ? _a_sizes_set_T_1[135:0] : 136'h0; // @[Monitor.scala:632:31, :655:{25,70}, :660:{28,52}] wire [16:0] d_clr; // @[Monitor.scala:664:34] wire [16:0] d_clr_wo_ready; // @[Monitor.scala:665:34] wire [67:0] d_opcodes_clr; // @[Monitor.scala:668:33] wire [135:0] d_sizes_clr; // @[Monitor.scala:670:31] wire _GEN_4 = io_in_d_bits_opcode_0 == 3'h6; // @[Monitor.scala:36:7, :673:46] wire d_release_ack; // @[Monitor.scala:673:46] assign d_release_ack = _GEN_4; // @[Monitor.scala:673:46] wire d_release_ack_1; // @[Monitor.scala:783:46] assign d_release_ack_1 = _GEN_4; // @[Monitor.scala:673:46, :783:46] wire _T_1474 = io_in_d_valid_0 & d_first_1; // @[Monitor.scala:36:7, :674:26] wire [31:0] _GEN_5 = 32'h1 << io_in_d_bits_source_0; // @[OneHot.scala:58:35] wire [31:0] _d_clr_wo_ready_T; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T = _GEN_5; // @[OneHot.scala:58:35] wire [31:0] _d_clr_T; // @[OneHot.scala:58:35] assign _d_clr_T = _GEN_5; // @[OneHot.scala:58:35] wire [31:0] _d_clr_wo_ready_T_1; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T_1 = _GEN_5; // @[OneHot.scala:58:35] wire [31:0] _d_clr_T_1; // @[OneHot.scala:58:35] assign _d_clr_T_1 = _GEN_5; // @[OneHot.scala:58:35] assign d_clr_wo_ready = _T_1474 & ~d_release_ack ? _d_clr_wo_ready_T[16:0] : 17'h0; // @[OneHot.scala:58:35] wire _T_1443 = _T_1575 & d_first_1 & ~d_release_ack; // @[Decoupled.scala:51:35] assign d_clr = _T_1443 ? _d_clr_T[16:0] : 17'h0; // @[OneHot.scala:58:35] wire [270:0] _d_opcodes_clr_T_5 = 271'hF << _d_opcodes_clr_T_4; // @[Monitor.scala:680:{76,101}] assign d_opcodes_clr = _T_1443 ? _d_opcodes_clr_T_5[67:0] : 68'h0; // @[Monitor.scala:668:33, :678:{25,70,89}, :680:{21,76}] wire [270:0] _d_sizes_clr_T_5 = 271'hFF << _d_sizes_clr_T_4; // @[Monitor.scala:681:{74,99}] assign d_sizes_clr = _T_1443 ? _d_sizes_clr_T_5[135:0] : 136'h0; // @[Monitor.scala:670:31, :678:{25,70,89}, :681:{21,74}] wire _same_cycle_resp_T_1 = _same_cycle_resp_T; // @[Monitor.scala:684:{44,55}] wire _same_cycle_resp_T_2 = io_in_a_bits_source_0 == io_in_d_bits_source_0; // @[Monitor.scala:36:7, :684:113] wire same_cycle_resp = _same_cycle_resp_T_1 & _same_cycle_resp_T_2; // @[Monitor.scala:684:{55,88,113}] wire [16:0] _inflight_T = inflight | a_set; // @[Monitor.scala:614:27, :626:34, :705:27] wire [16:0] _inflight_T_1 = ~d_clr; // @[Monitor.scala:664:34, :705:38] wire [16:0] _inflight_T_2 = _inflight_T & _inflight_T_1; // @[Monitor.scala:705:{27,36,38}] wire [67:0] _inflight_opcodes_T = inflight_opcodes | a_opcodes_set; // @[Monitor.scala:616:35, :630:33, :706:43] wire [67:0] _inflight_opcodes_T_1 = ~d_opcodes_clr; // @[Monitor.scala:668:33, :706:62] wire [67:0] _inflight_opcodes_T_2 = _inflight_opcodes_T & _inflight_opcodes_T_1; // @[Monitor.scala:706:{43,60,62}] wire [135:0] _inflight_sizes_T = inflight_sizes | a_sizes_set; // @[Monitor.scala:618:33, :632:31, :707:39] wire [135:0] _inflight_sizes_T_1 = ~d_sizes_clr; // @[Monitor.scala:670:31, :707:56] wire [135:0] _inflight_sizes_T_2 = _inflight_sizes_T & _inflight_sizes_T_1; // @[Monitor.scala:707:{39,54,56}] reg [31:0] watchdog; // @[Monitor.scala:709:27] wire [32:0] _watchdog_T = {1'h0, watchdog} + 33'h1; // @[Monitor.scala:709:27, :714:26] wire [31:0] _watchdog_T_1 = _watchdog_T[31:0]; // @[Monitor.scala:714:26] reg [16:0] inflight_1; // @[Monitor.scala:726:35] wire [16:0] _inflight_T_3 = inflight_1; // @[Monitor.scala:726:35, :814:35] reg [67:0] inflight_opcodes_1; // @[Monitor.scala:727:35] wire [67:0] _inflight_opcodes_T_3 = inflight_opcodes_1; // @[Monitor.scala:727:35, :815:43] reg [135:0] inflight_sizes_1; // @[Monitor.scala:728:35] wire [135:0] _inflight_sizes_T_3 = inflight_sizes_1; // @[Monitor.scala:728:35, :816:41] wire [11:0] _d_first_beats1_decode_T_7 = _d_first_beats1_decode_T_6[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_8 = ~_d_first_beats1_decode_T_7; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode_2 = _d_first_beats1_decode_T_8[11:3]; // @[package.scala:243:46] wire [8:0] d_first_beats1_2 = d_first_beats1_opdata_2 ? d_first_beats1_decode_2 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter_2; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T_2 = {1'h0, d_first_counter_2} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1_2 = _d_first_counter1_T_2[8:0]; // @[Edges.scala:230:28] wire d_first_2 = d_first_counter_2 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_4 = d_first_counter_2 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_5 = d_first_beats1_2 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_2 = _d_first_last_T_4 | _d_first_last_T_5; // @[Edges.scala:232:{25,33,43}] wire d_first_done_2 = d_first_last_2 & _d_first_T_2; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T_2 = ~d_first_counter1_2; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count_2 = d_first_beats1_2 & _d_first_count_T_2; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T_2 = d_first_2 ? d_first_beats1_2 : d_first_counter1_2; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [3:0] c_opcode_lookup; // @[Monitor.scala:747:35] wire [7:0] c_size_lookup; // @[Monitor.scala:748:35] wire [67:0] _c_opcode_lookup_T_1 = inflight_opcodes_1 >> _c_opcode_lookup_T; // @[Monitor.scala:727:35, :749:{44,69}] wire [67:0] _c_opcode_lookup_T_6 = {64'h0, _c_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:749:{44,97}] wire [67:0] _c_opcode_lookup_T_7 = {1'h0, _c_opcode_lookup_T_6[67:1]}; // @[Monitor.scala:749:{97,152}] assign c_opcode_lookup = _c_opcode_lookup_T_7[3:0]; // @[Monitor.scala:747:35, :749:{21,152}] wire [135:0] _c_size_lookup_T_1 = inflight_sizes_1 >> _c_size_lookup_T; // @[Monitor.scala:728:35, :750:{42,67}] wire [135:0] _c_size_lookup_T_6 = {128'h0, _c_size_lookup_T_1[7:0]}; // @[Monitor.scala:750:{42,93}] wire [135:0] _c_size_lookup_T_7 = {1'h0, _c_size_lookup_T_6[135:1]}; // @[Monitor.scala:750:{93,146}] assign c_size_lookup = _c_size_lookup_T_7[7:0]; // @[Monitor.scala:748:35, :750:{21,146}] wire [16:0] d_clr_1; // @[Monitor.scala:774:34] wire [16:0] d_clr_wo_ready_1; // @[Monitor.scala:775:34] wire [67:0] d_opcodes_clr_1; // @[Monitor.scala:776:34] wire [135:0] d_sizes_clr_1; // @[Monitor.scala:777:34] wire _T_1546 = io_in_d_valid_0 & d_first_2; // @[Monitor.scala:36:7, :784:26] assign d_clr_wo_ready_1 = _T_1546 & d_release_ack_1 ? _d_clr_wo_ready_T_1[16:0] : 17'h0; // @[OneHot.scala:58:35] wire _T_1528 = _T_1575 & d_first_2 & d_release_ack_1; // @[Decoupled.scala:51:35] assign d_clr_1 = _T_1528 ? _d_clr_T_1[16:0] : 17'h0; // @[OneHot.scala:58:35] wire [270:0] _d_opcodes_clr_T_11 = 271'hF << _d_opcodes_clr_T_10; // @[Monitor.scala:790:{76,101}] assign d_opcodes_clr_1 = _T_1528 ? _d_opcodes_clr_T_11[67:0] : 68'h0; // @[Monitor.scala:776:34, :788:{25,70,88}, :790:{21,76}] wire [270:0] _d_sizes_clr_T_11 = 271'hFF << _d_sizes_clr_T_10; // @[Monitor.scala:791:{74,99}] assign d_sizes_clr_1 = _T_1528 ? _d_sizes_clr_T_11[135:0] : 136'h0; // @[Monitor.scala:777:34, :788:{25,70,88}, :791:{21,74}] wire _same_cycle_resp_T_8 = io_in_d_bits_source_0 == 5'h0; // @[Monitor.scala:36:7, :795:113] wire [16:0] _inflight_T_4 = ~d_clr_1; // @[Monitor.scala:774:34, :814:46] wire [16:0] _inflight_T_5 = _inflight_T_3 & _inflight_T_4; // @[Monitor.scala:814:{35,44,46}] wire [67:0] _inflight_opcodes_T_4 = ~d_opcodes_clr_1; // @[Monitor.scala:776:34, :815:62] wire [67:0] _inflight_opcodes_T_5 = _inflight_opcodes_T_3 & _inflight_opcodes_T_4; // @[Monitor.scala:815:{43,60,62}] wire [135:0] _inflight_sizes_T_4 = ~d_sizes_clr_1; // @[Monitor.scala:777:34, :816:58] wire [135:0] _inflight_sizes_T_5 = _inflight_sizes_T_3 & _inflight_sizes_T_4; // @[Monitor.scala:816:{41,56,58}] reg [31:0] watchdog_1; // @[Monitor.scala:818:27]
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceLine import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import freechips.rocketchip.diplomacy.EnableMonitors import freechips.rocketchip.formal.{MonitorDirection, IfThen, Property, PropertyClass, TestplanTestType, TLMonitorStrictMode} import freechips.rocketchip.util.PlusArg case class TLMonitorArgs(edge: TLEdge) abstract class TLMonitorBase(args: TLMonitorArgs) extends Module { val io = IO(new Bundle { val in = Input(new TLBundle(args.edge.bundle)) }) def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit legalize(io.in, args.edge, reset) } object TLMonitor { def apply(enable: Boolean, node: TLNode)(implicit p: Parameters): TLNode = { if (enable) { EnableMonitors { implicit p => node := TLEphemeralNode()(ValName("monitor")) } } else { node } } } class TLMonitor(args: TLMonitorArgs, monitorDir: MonitorDirection = MonitorDirection.Monitor) extends TLMonitorBase(args) { require (args.edge.params(TLMonitorStrictMode) || (! args.edge.params(TestplanTestType).formal)) val cover_prop_class = PropertyClass.Default //Like assert but can flip to being an assumption for formal verification def monAssert(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir, cond, message, PropertyClass.Default) } def assume(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir.flip, cond, message, PropertyClass.Default) } def extra = { args.edge.sourceInfo match { case SourceLine(filename, line, col) => s" (connected at $filename:$line:$col)" case _ => "" } } def visible(address: UInt, source: UInt, edge: TLEdge) = edge.client.clients.map { c => !c.sourceId.contains(source) || c.visibility.map(_.contains(address)).reduce(_ || _) }.reduce(_ && _) def legalizeFormatA(bundle: TLBundleA, edge: TLEdge): Unit = { //switch this flag to turn on diplomacy in error messages def diplomacyInfo = if (true) "" else "\nThe diplomacy information for the edge is as follows:\n" + edge.formatEdge + "\n" monAssert (TLMessages.isA(bundle.opcode), "'A' channel has invalid opcode" + extra) // Reuse these subexpressions to save some firrtl lines val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) monAssert (visible(edge.address(bundle), bundle.source, edge), "'A' channel carries an address illegal for the specified bank visibility") //The monitor doesn’t check for acquire T vs acquire B, it assumes that acquire B implies acquire T and only checks for acquire B //TODO: check for acquireT? when (bundle.opcode === TLMessages.AcquireBlock) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquireBlock carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquireBlock smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquireBlock address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquireBlock carries invalid grow param" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquireBlock contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquireBlock is corrupt" + extra) } when (bundle.opcode === TLMessages.AcquirePerm) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquirePerm carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquirePerm smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquirePerm address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquirePerm carries invalid grow param" + extra) monAssert (bundle.param =/= TLPermissions.NtoB, "'A' channel AcquirePerm requests NtoB" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquirePerm contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquirePerm is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.emitsGet(bundle.source, bundle.size), "'A' channel carries Get type which master claims it can't emit" + diplomacyInfo + extra) monAssert (edge.slave.supportsGetSafe(edge.address(bundle), bundle.size, None), "'A' channel carries Get type which slave claims it can't support" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel Get carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.emitsPutFull(bundle.source, bundle.size) && edge.slave.supportsPutFullSafe(edge.address(bundle), bundle.size), "'A' channel carries PutFull type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel PutFull carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.emitsPutPartial(bundle.source, bundle.size) && edge.slave.supportsPutPartialSafe(edge.address(bundle), bundle.size), "'A' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel PutPartial carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'A' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.emitsArithmetic(bundle.source, bundle.size) && edge.slave.supportsArithmeticSafe(edge.address(bundle), bundle.size), "'A' channel carries Arithmetic type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Arithmetic carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'A' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.emitsLogical(bundle.source, bundle.size) && edge.slave.supportsLogicalSafe(edge.address(bundle), bundle.size), "'A' channel carries Logical type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Logical carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'A' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.emitsHint(bundle.source, bundle.size) && edge.slave.supportsHintSafe(edge.address(bundle), bundle.size), "'A' channel carries Hint type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Hint carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Hint address not aligned to size" + extra) monAssert (TLHints.isHints(bundle.param), "'A' channel Hint carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Hint is corrupt" + extra) } } def legalizeFormatB(bundle: TLBundleB, edge: TLEdge): Unit = { monAssert (TLMessages.isB(bundle.opcode), "'B' channel has invalid opcode" + extra) monAssert (visible(edge.address(bundle), bundle.source, edge), "'B' channel carries an address illegal for the specified bank visibility") // Reuse these subexpressions to save some firrtl lines val address_ok = edge.manager.containsSafe(edge.address(bundle)) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) val legal_source = Mux1H(edge.client.find(bundle.source), edge.client.clients.map(c => c.sourceId.start.U)) === bundle.source when (bundle.opcode === TLMessages.Probe) { assume (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'B' channel carries Probe type which is unexpected using diplomatic parameters" + extra) assume (address_ok, "'B' channel Probe carries unmanaged address" + extra) assume (legal_source, "'B' channel Probe carries source that is not first source" + extra) assume (is_aligned, "'B' channel Probe address not aligned to size" + extra) assume (TLPermissions.isCap(bundle.param), "'B' channel Probe carries invalid cap param" + extra) assume (bundle.mask === mask, "'B' channel Probe contains invalid mask" + extra) assume (!bundle.corrupt, "'B' channel Probe is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.supportsGet(edge.source(bundle), bundle.size) && edge.slave.emitsGetSafe(edge.address(bundle), bundle.size), "'B' channel carries Get type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel Get carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Get carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.supportsPutFull(edge.source(bundle), bundle.size) && edge.slave.emitsPutFullSafe(edge.address(bundle), bundle.size), "'B' channel carries PutFull type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutFull carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutFull carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.supportsPutPartial(edge.source(bundle), bundle.size) && edge.slave.emitsPutPartialSafe(edge.address(bundle), bundle.size), "'B' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutPartial carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutPartial carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'B' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.supportsArithmetic(edge.source(bundle), bundle.size) && edge.slave.emitsArithmeticSafe(edge.address(bundle), bundle.size), "'B' channel carries Arithmetic type unsupported by master" + extra) monAssert (address_ok, "'B' channel Arithmetic carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Arithmetic carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'B' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.supportsLogical(edge.source(bundle), bundle.size) && edge.slave.emitsLogicalSafe(edge.address(bundle), bundle.size), "'B' channel carries Logical type unsupported by client" + extra) monAssert (address_ok, "'B' channel Logical carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Logical carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'B' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.supportsHint(edge.source(bundle), bundle.size) && edge.slave.emitsHintSafe(edge.address(bundle), bundle.size), "'B' channel carries Hint type unsupported by client" + extra) monAssert (address_ok, "'B' channel Hint carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Hint carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Hint address not aligned to size" + extra) monAssert (bundle.mask === mask, "'B' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Hint is corrupt" + extra) } } def legalizeFormatC(bundle: TLBundleC, edge: TLEdge): Unit = { monAssert (TLMessages.isC(bundle.opcode), "'C' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val address_ok = edge.manager.containsSafe(edge.address(bundle)) monAssert (visible(edge.address(bundle), bundle.source, edge), "'C' channel carries an address illegal for the specified bank visibility") when (bundle.opcode === TLMessages.ProbeAck) { monAssert (address_ok, "'C' channel ProbeAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAck carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAck smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAck address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAck carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel ProbeAck is corrupt" + extra) } when (bundle.opcode === TLMessages.ProbeAckData) { monAssert (address_ok, "'C' channel ProbeAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAckData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAckData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAckData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAckData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.Release) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries Release type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel Release carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel Release smaller than a beat" + extra) monAssert (is_aligned, "'C' channel Release address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel Release carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel Release is corrupt" + extra) } when (bundle.opcode === TLMessages.ReleaseData) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries ReleaseData type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel ReleaseData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ReleaseData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ReleaseData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ReleaseData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.AccessAck) { monAssert (address_ok, "'C' channel AccessAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel AccessAck is corrupt" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { monAssert (address_ok, "'C' channel AccessAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAckData carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAckData address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAckData carries invalid param" + extra) } when (bundle.opcode === TLMessages.HintAck) { monAssert (address_ok, "'C' channel HintAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel HintAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel HintAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel HintAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel HintAck is corrupt" + extra) } } def legalizeFormatD(bundle: TLBundleD, edge: TLEdge): Unit = { assume (TLMessages.isD(bundle.opcode), "'D' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val sink_ok = bundle.sink < edge.manager.endSinkId.U val deny_put_ok = edge.manager.mayDenyPut.B val deny_get_ok = edge.manager.mayDenyGet.B when (bundle.opcode === TLMessages.ReleaseAck) { assume (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel ReleaseAck smaller than a beat" + extra) assume (bundle.param === 0.U, "'D' channel ReleaseeAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel ReleaseAck is corrupt" + extra) assume (!bundle.denied, "'D' channel ReleaseAck is denied" + extra) } when (bundle.opcode === TLMessages.Grant) { assume (source_ok, "'D' channel Grant carries invalid source ID" + extra) assume (sink_ok, "'D' channel Grant carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel Grant smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel Grant carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel Grant carries toN param" + extra) assume (!bundle.corrupt, "'D' channel Grant is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel Grant is denied" + extra) } when (bundle.opcode === TLMessages.GrantData) { assume (source_ok, "'D' channel GrantData carries invalid source ID" + extra) assume (sink_ok, "'D' channel GrantData carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel GrantData smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel GrantData carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel GrantData carries toN param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel GrantData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel GrantData is denied" + extra) } when (bundle.opcode === TLMessages.AccessAck) { assume (source_ok, "'D' channel AccessAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel AccessAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel AccessAck is denied" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { assume (source_ok, "'D' channel AccessAckData carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAckData carries invalid param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel AccessAckData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel AccessAckData is denied" + extra) } when (bundle.opcode === TLMessages.HintAck) { assume (source_ok, "'D' channel HintAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel HintAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel HintAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel HintAck is denied" + extra) } } def legalizeFormatE(bundle: TLBundleE, edge: TLEdge): Unit = { val sink_ok = bundle.sink < edge.manager.endSinkId.U monAssert (sink_ok, "'E' channels carries invalid sink ID" + extra) } def legalizeFormat(bundle: TLBundle, edge: TLEdge) = { when (bundle.a.valid) { legalizeFormatA(bundle.a.bits, edge) } when (bundle.d.valid) { legalizeFormatD(bundle.d.bits, edge) } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { when (bundle.b.valid) { legalizeFormatB(bundle.b.bits, edge) } when (bundle.c.valid) { legalizeFormatC(bundle.c.bits, edge) } when (bundle.e.valid) { legalizeFormatE(bundle.e.bits, edge) } } else { monAssert (!bundle.b.valid, "'B' channel valid and not TL-C" + extra) monAssert (!bundle.c.valid, "'C' channel valid and not TL-C" + extra) monAssert (!bundle.e.valid, "'E' channel valid and not TL-C" + extra) } } def legalizeMultibeatA(a: DecoupledIO[TLBundleA], edge: TLEdge): Unit = { val a_first = edge.first(a.bits, a.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (a.valid && !a_first) { monAssert (a.bits.opcode === opcode, "'A' channel opcode changed within multibeat operation" + extra) monAssert (a.bits.param === param, "'A' channel param changed within multibeat operation" + extra) monAssert (a.bits.size === size, "'A' channel size changed within multibeat operation" + extra) monAssert (a.bits.source === source, "'A' channel source changed within multibeat operation" + extra) monAssert (a.bits.address=== address,"'A' channel address changed with multibeat operation" + extra) } when (a.fire && a_first) { opcode := a.bits.opcode param := a.bits.param size := a.bits.size source := a.bits.source address := a.bits.address } } def legalizeMultibeatB(b: DecoupledIO[TLBundleB], edge: TLEdge): Unit = { val b_first = edge.first(b.bits, b.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (b.valid && !b_first) { monAssert (b.bits.opcode === opcode, "'B' channel opcode changed within multibeat operation" + extra) monAssert (b.bits.param === param, "'B' channel param changed within multibeat operation" + extra) monAssert (b.bits.size === size, "'B' channel size changed within multibeat operation" + extra) monAssert (b.bits.source === source, "'B' channel source changed within multibeat operation" + extra) monAssert (b.bits.address=== address,"'B' channel addresss changed with multibeat operation" + extra) } when (b.fire && b_first) { opcode := b.bits.opcode param := b.bits.param size := b.bits.size source := b.bits.source address := b.bits.address } } def legalizeADSourceFormal(bundle: TLBundle, edge: TLEdge): Unit = { // Symbolic variable val sym_source = Wire(UInt(edge.client.endSourceId.W)) // TODO: Connect sym_source to a fixed value for simulation and to a // free wire in formal sym_source := 0.U // Type casting Int to UInt val maxSourceId = Wire(UInt(edge.client.endSourceId.W)) maxSourceId := edge.client.endSourceId.U // Delayed verison of sym_source val sym_source_d = Reg(UInt(edge.client.endSourceId.W)) sym_source_d := sym_source // These will be constraints for FV setup Property( MonitorDirection.Monitor, (sym_source === sym_source_d), "sym_source should remain stable", PropertyClass.Default) Property( MonitorDirection.Monitor, (sym_source <= maxSourceId), "sym_source should take legal value", PropertyClass.Default) val my_resp_pend = RegInit(false.B) val my_opcode = Reg(UInt()) val my_size = Reg(UInt()) val a_first = bundle.a.valid && edge.first(bundle.a.bits, bundle.a.fire) val d_first = bundle.d.valid && edge.first(bundle.d.bits, bundle.d.fire) val my_a_first_beat = a_first && (bundle.a.bits.source === sym_source) val my_d_first_beat = d_first && (bundle.d.bits.source === sym_source) val my_clr_resp_pend = (bundle.d.fire && my_d_first_beat) val my_set_resp_pend = (bundle.a.fire && my_a_first_beat && !my_clr_resp_pend) when (my_set_resp_pend) { my_resp_pend := true.B } .elsewhen (my_clr_resp_pend) { my_resp_pend := false.B } when (my_a_first_beat) { my_opcode := bundle.a.bits.opcode my_size := bundle.a.bits.size } val my_resp_size = Mux(my_a_first_beat, bundle.a.bits.size, my_size) val my_resp_opcode = Mux(my_a_first_beat, bundle.a.bits.opcode, my_opcode) val my_resp_opcode_legal = Wire(Bool()) when ((my_resp_opcode === TLMessages.Get) || (my_resp_opcode === TLMessages.ArithmeticData) || (my_resp_opcode === TLMessages.LogicalData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAckData) } .elsewhen ((my_resp_opcode === TLMessages.PutFullData) || (my_resp_opcode === TLMessages.PutPartialData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAck) } .otherwise { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.HintAck) } monAssert (IfThen(my_resp_pend, !my_a_first_beat), "Request message should not be sent with a source ID, for which a response message" + "is already pending (not received until current cycle) for a prior request message" + "with the same source ID" + extra) assume (IfThen(my_clr_resp_pend, (my_set_resp_pend || my_resp_pend)), "Response message should be accepted with a source ID only if a request message with the" + "same source ID has been accepted or is being accepted in the current cycle" + extra) assume (IfThen(my_d_first_beat, (my_a_first_beat || my_resp_pend)), "Response message should be sent with a source ID only if a request message with the" + "same source ID has been accepted or is being sent in the current cycle" + extra) assume (IfThen(my_d_first_beat, (bundle.d.bits.size === my_resp_size)), "If d_valid is 1, then d_size should be same as a_size of the corresponding request" + "message" + extra) assume (IfThen(my_d_first_beat, my_resp_opcode_legal), "If d_valid is 1, then d_opcode should correspond with a_opcode of the corresponding" + "request message" + extra) } def legalizeMultibeatC(c: DecoupledIO[TLBundleC], edge: TLEdge): Unit = { val c_first = edge.first(c.bits, c.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (c.valid && !c_first) { monAssert (c.bits.opcode === opcode, "'C' channel opcode changed within multibeat operation" + extra) monAssert (c.bits.param === param, "'C' channel param changed within multibeat operation" + extra) monAssert (c.bits.size === size, "'C' channel size changed within multibeat operation" + extra) monAssert (c.bits.source === source, "'C' channel source changed within multibeat operation" + extra) monAssert (c.bits.address=== address,"'C' channel address changed with multibeat operation" + extra) } when (c.fire && c_first) { opcode := c.bits.opcode param := c.bits.param size := c.bits.size source := c.bits.source address := c.bits.address } } def legalizeMultibeatD(d: DecoupledIO[TLBundleD], edge: TLEdge): Unit = { val d_first = edge.first(d.bits, d.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val sink = Reg(UInt()) val denied = Reg(Bool()) when (d.valid && !d_first) { assume (d.bits.opcode === opcode, "'D' channel opcode changed within multibeat operation" + extra) assume (d.bits.param === param, "'D' channel param changed within multibeat operation" + extra) assume (d.bits.size === size, "'D' channel size changed within multibeat operation" + extra) assume (d.bits.source === source, "'D' channel source changed within multibeat operation" + extra) assume (d.bits.sink === sink, "'D' channel sink changed with multibeat operation" + extra) assume (d.bits.denied === denied, "'D' channel denied changed with multibeat operation" + extra) } when (d.fire && d_first) { opcode := d.bits.opcode param := d.bits.param size := d.bits.size source := d.bits.source sink := d.bits.sink denied := d.bits.denied } } def legalizeMultibeat(bundle: TLBundle, edge: TLEdge): Unit = { legalizeMultibeatA(bundle.a, edge) legalizeMultibeatD(bundle.d, edge) if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { legalizeMultibeatB(bundle.b, edge) legalizeMultibeatC(bundle.c, edge) } } //This is left in for almond which doesn't adhere to the tilelink protocol @deprecated("Use legalizeADSource instead if possible","") def legalizeADSourceOld(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.client.endSourceId.W)) val a_first = edge.first(bundle.a.bits, bundle.a.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val a_set = WireInit(0.U(edge.client.endSourceId.W)) when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) assert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) assume((a_set | inflight)(bundle.d.bits.source), "'D' channel acknowledged for nothing inflight" + extra) } if (edge.manager.minLatency > 0) { assume(a_set =/= d_clr || !a_set.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") assert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeADSource(bundle: TLBundle, edge: TLEdge): Unit = { val a_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val a_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_a_opcode_bus_size = log2Ceil(a_opcode_bus_size) val log_a_size_bus_size = log2Ceil(a_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) // size up to avoid width error inflight.suggestName("inflight") val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) inflight_opcodes.suggestName("inflight_opcodes") val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) inflight_sizes.suggestName("inflight_sizes") val a_first = edge.first(bundle.a.bits, bundle.a.fire) a_first.suggestName("a_first") val d_first = edge.first(bundle.d.bits, bundle.d.fire) d_first.suggestName("d_first") val a_set = WireInit(0.U(edge.client.endSourceId.W)) val a_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) a_set.suggestName("a_set") a_set_wo_ready.suggestName("a_set_wo_ready") val a_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) a_opcodes_set.suggestName("a_opcodes_set") val a_sizes_set = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) a_sizes_set.suggestName("a_sizes_set") val a_opcode_lookup = WireInit(0.U((a_opcode_bus_size - 1).W)) a_opcode_lookup.suggestName("a_opcode_lookup") a_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_a_opcode_bus_size.U) & size_to_numfullbits(1.U << log_a_opcode_bus_size.U)) >> 1.U val a_size_lookup = WireInit(0.U((1 << log_a_size_bus_size).W)) a_size_lookup.suggestName("a_size_lookup") a_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_a_size_bus_size.U) & size_to_numfullbits(1.U << log_a_size_bus_size.U)) >> 1.U val responseMap = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.Grant, TLMessages.Grant)) val responseMapSecondOption = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.GrantData, TLMessages.Grant)) val a_opcodes_set_interm = WireInit(0.U(a_opcode_bus_size.W)) a_opcodes_set_interm.suggestName("a_opcodes_set_interm") val a_sizes_set_interm = WireInit(0.U(a_size_bus_size.W)) a_sizes_set_interm.suggestName("a_sizes_set_interm") when (bundle.a.valid && a_first && edge.isRequest(bundle.a.bits)) { a_set_wo_ready := UIntToOH(bundle.a.bits.source) } when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) a_opcodes_set_interm := (bundle.a.bits.opcode << 1.U) | 1.U a_sizes_set_interm := (bundle.a.bits.size << 1.U) | 1.U a_opcodes_set := (a_opcodes_set_interm) << (bundle.a.bits.source << log_a_opcode_bus_size.U) a_sizes_set := (a_sizes_set_interm) << (bundle.a.bits.source << log_a_size_bus_size.U) monAssert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) d_opcodes_clr.suggestName("d_opcodes_clr") val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_a_opcode_bus_size.U) << (bundle.d.bits.source << log_a_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_a_size_bus_size.U) << (bundle.d.bits.source << log_a_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { val same_cycle_resp = bundle.a.valid && a_first && edge.isRequest(bundle.a.bits) && (bundle.a.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.opcode === responseMap(bundle.a.bits.opcode)) || (bundle.d.bits.opcode === responseMapSecondOption(bundle.a.bits.opcode)), "'D' channel contains improper opcode response" + extra) assume((bundle.a.bits.size === bundle.d.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.opcode === responseMap(a_opcode_lookup)) || (bundle.d.bits.opcode === responseMapSecondOption(a_opcode_lookup)), "'D' channel contains improper opcode response" + extra) assume((bundle.d.bits.size === a_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && a_first && bundle.a.valid && (bundle.a.bits.source === bundle.d.bits.source) && !d_release_ack) { assume((!bundle.d.ready) || bundle.a.ready, "ready check") } if (edge.manager.minLatency > 0) { assume(a_set_wo_ready =/= d_clr_wo_ready || !a_set_wo_ready.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr inflight_opcodes := (inflight_opcodes | a_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | a_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeCDSource(bundle: TLBundle, edge: TLEdge): Unit = { val c_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val c_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_c_opcode_bus_size = log2Ceil(c_opcode_bus_size) val log_c_size_bus_size = log2Ceil(c_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) inflight.suggestName("inflight") inflight_opcodes.suggestName("inflight_opcodes") inflight_sizes.suggestName("inflight_sizes") val c_first = edge.first(bundle.c.bits, bundle.c.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) c_first.suggestName("c_first") d_first.suggestName("d_first") val c_set = WireInit(0.U(edge.client.endSourceId.W)) val c_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val c_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val c_sizes_set = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) c_set.suggestName("c_set") c_set_wo_ready.suggestName("c_set_wo_ready") c_opcodes_set.suggestName("c_opcodes_set") c_sizes_set.suggestName("c_sizes_set") val c_opcode_lookup = WireInit(0.U((1 << log_c_opcode_bus_size).W)) val c_size_lookup = WireInit(0.U((1 << log_c_size_bus_size).W)) c_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_c_opcode_bus_size.U) & size_to_numfullbits(1.U << log_c_opcode_bus_size.U)) >> 1.U c_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_c_size_bus_size.U) & size_to_numfullbits(1.U << log_c_size_bus_size.U)) >> 1.U c_opcode_lookup.suggestName("c_opcode_lookup") c_size_lookup.suggestName("c_size_lookup") val c_opcodes_set_interm = WireInit(0.U(c_opcode_bus_size.W)) val c_sizes_set_interm = WireInit(0.U(c_size_bus_size.W)) c_opcodes_set_interm.suggestName("c_opcodes_set_interm") c_sizes_set_interm.suggestName("c_sizes_set_interm") when (bundle.c.valid && c_first && edge.isRequest(bundle.c.bits)) { c_set_wo_ready := UIntToOH(bundle.c.bits.source) } when (bundle.c.fire && c_first && edge.isRequest(bundle.c.bits)) { c_set := UIntToOH(bundle.c.bits.source) c_opcodes_set_interm := (bundle.c.bits.opcode << 1.U) | 1.U c_sizes_set_interm := (bundle.c.bits.size << 1.U) | 1.U c_opcodes_set := (c_opcodes_set_interm) << (bundle.c.bits.source << log_c_opcode_bus_size.U) c_sizes_set := (c_sizes_set_interm) << (bundle.c.bits.source << log_c_size_bus_size.U) monAssert(!inflight(bundle.c.bits.source), "'C' channel re-used a source ID" + extra) } val c_probe_ack = bundle.c.bits.opcode === TLMessages.ProbeAck || bundle.c.bits.opcode === TLMessages.ProbeAckData val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") d_opcodes_clr.suggestName("d_opcodes_clr") d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_c_opcode_bus_size.U) << (bundle.d.bits.source << log_c_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_c_size_bus_size.U) << (bundle.d.bits.source << log_c_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { val same_cycle_resp = bundle.c.valid && c_first && edge.isRequest(bundle.c.bits) && (bundle.c.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.size === bundle.c.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.size === c_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && c_first && bundle.c.valid && (bundle.c.bits.source === bundle.d.bits.source) && d_release_ack && !c_probe_ack) { assume((!bundle.d.ready) || bundle.c.ready, "ready check") } if (edge.manager.minLatency > 0) { when (c_set_wo_ready.orR) { assume(c_set_wo_ready =/= d_clr_wo_ready, s"'C' and 'D' concurrent, despite minlatency > 0" + extra) } } inflight := (inflight | c_set) & ~d_clr inflight_opcodes := (inflight_opcodes | c_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | c_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.c.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeDESink(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.manager.endSinkId.W)) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val e_first = true.B val d_set = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.d.fire && d_first && edge.isRequest(bundle.d.bits)) { d_set := UIntToOH(bundle.d.bits.sink) assume(!inflight(bundle.d.bits.sink), "'D' channel re-used a sink ID" + extra) } val e_clr = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.e.fire && e_first && edge.isResponse(bundle.e.bits)) { e_clr := UIntToOH(bundle.e.bits.sink) monAssert((d_set | inflight)(bundle.e.bits.sink), "'E' channel acknowledged for nothing inflight" + extra) } // edge.client.minLatency applies to BC, not DE inflight := (inflight | d_set) & ~e_clr } def legalizeUnique(bundle: TLBundle, edge: TLEdge): Unit = { val sourceBits = log2Ceil(edge.client.endSourceId) val tooBig = 14 // >16kB worth of flight information gets to be too much if (sourceBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with source bits (${sourceBits}) > ${tooBig}; A=>D transaction flight will not be checked") } else { if (args.edge.params(TestplanTestType).simulation) { if (args.edge.params(TLMonitorStrictMode)) { legalizeADSource(bundle, edge) legalizeCDSource(bundle, edge) } else { legalizeADSourceOld(bundle, edge) } } if (args.edge.params(TestplanTestType).formal) { legalizeADSourceFormal(bundle, edge) } } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { // legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize... val sinkBits = log2Ceil(edge.manager.endSinkId) if (sinkBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with sink bits (${sinkBits}) > ${tooBig}; D=>E transaction flight will not be checked") } else { legalizeDESink(bundle, edge) } } } def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit = { legalizeFormat (bundle, edge) legalizeMultibeat (bundle, edge) legalizeUnique (bundle, edge) } } File Misc.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import scala.math._ class ParameterizedBundle(implicit p: Parameters) extends Bundle trait Clocked extends Bundle { val clock = Clock() val reset = Bool() } object DecoupledHelper { def apply(rvs: Bool*) = new DecoupledHelper(rvs) } class DecoupledHelper(val rvs: Seq[Bool]) { def fire(exclude: Bool, includes: Bool*) = { require(rvs.contains(exclude), "Excluded Bool not present in DecoupledHelper! Note that DecoupledHelper uses referential equality for exclusion! If you don't want to exclude anything, use fire()!") (rvs.filter(_ ne exclude) ++ includes).reduce(_ && _) } def fire() = { rvs.reduce(_ && _) } } object MuxT { def apply[T <: Data, U <: Data](cond: Bool, con: (T, U), alt: (T, U)): (T, U) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2)) def apply[T <: Data, U <: Data, W <: Data](cond: Bool, con: (T, U, W), alt: (T, U, W)): (T, U, W) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3)) def apply[T <: Data, U <: Data, W <: Data, X <: Data](cond: Bool, con: (T, U, W, X), alt: (T, U, W, X)): (T, U, W, X) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3), Mux(cond, con._4, alt._4)) } /** Creates a cascade of n MuxTs to search for a key value. */ object MuxTLookup { def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } } object ValidMux { def apply[T <: Data](v1: ValidIO[T], v2: ValidIO[T]*): ValidIO[T] = { apply(v1 +: v2.toSeq) } def apply[T <: Data](valids: Seq[ValidIO[T]]): ValidIO[T] = { val out = Wire(Valid(valids.head.bits.cloneType)) out.valid := valids.map(_.valid).reduce(_ || _) out.bits := MuxCase(valids.head.bits, valids.map(v => (v.valid -> v.bits))) out } } object Str { def apply(s: String): UInt = { var i = BigInt(0) require(s.forall(validChar _)) for (c <- s) i = (i << 8) | c i.U((s.length*8).W) } def apply(x: Char): UInt = { require(validChar(x)) x.U(8.W) } def apply(x: UInt): UInt = apply(x, 10) def apply(x: UInt, radix: Int): UInt = { val rad = radix.U val w = x.getWidth require(w > 0) var q = x var s = digit(q % rad) for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad s = Cat(Mux((radix == 10).B && q === 0.U, Str(' '), digit(q % rad)), s) } s } def apply(x: SInt): UInt = apply(x, 10) def apply(x: SInt, radix: Int): UInt = { val neg = x < 0.S val abs = x.abs.asUInt if (radix != 10) { Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix)) } else { val rad = radix.U val w = abs.getWidth require(w > 0) var q = abs var s = digit(q % rad) var needSign = neg for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad val placeSpace = q === 0.U val space = Mux(needSign, Str('-'), Str(' ')) needSign = needSign && !placeSpace s = Cat(Mux(placeSpace, space, digit(q % rad)), s) } Cat(Mux(needSign, Str('-'), Str(' ')), s) } } private def digit(d: UInt): UInt = Mux(d < 10.U, Str('0')+d, Str(('a'-10).toChar)+d)(7,0) private def validChar(x: Char) = x == (x & 0xFF) } object Split { def apply(x: UInt, n0: Int) = { val w = x.getWidth (x.extract(w-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n2: Int, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n2), x.extract(n2-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } } object Random { def apply(mod: Int, random: UInt): UInt = { if (isPow2(mod)) random.extract(log2Ceil(mod)-1,0) else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod)) } def apply(mod: Int): UInt = apply(mod, randomizer) def oneHot(mod: Int, random: UInt): UInt = { if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0)) else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).asUInt } def oneHot(mod: Int): UInt = oneHot(mod, randomizer) private def randomizer = LFSR(16) private def partition(value: UInt, slices: Int) = Seq.tabulate(slices)(i => value < (((i + 1) << value.getWidth) / slices).U) } object Majority { def apply(in: Set[Bool]): Bool = { val n = (in.size >> 1) + 1 val clauses = in.subsets(n).map(_.reduce(_ && _)) clauses.reduce(_ || _) } def apply(in: Seq[Bool]): Bool = apply(in.toSet) def apply(in: UInt): Bool = apply(in.asBools.toSet) } object PopCountAtLeast { private def two(x: UInt): (Bool, Bool) = x.getWidth match { case 1 => (x.asBool, false.B) case n => val half = x.getWidth / 2 val (leftOne, leftTwo) = two(x(half - 1, 0)) val (rightOne, rightTwo) = two(x(x.getWidth - 1, half)) (leftOne || rightOne, leftTwo || rightTwo || (leftOne && rightOne)) } def apply(x: UInt, n: Int): Bool = n match { case 0 => true.B case 1 => x.orR case 2 => two(x)._2 case 3 => PopCount(x) >= n.U } } // This gets used everywhere, so make the smallest circuit possible ... // Given an address and size, create a mask of beatBytes size // eg: (0x3, 0, 4) => 0001, (0x3, 1, 4) => 0011, (0x3, 2, 4) => 1111 // groupBy applies an interleaved OR reduction; groupBy=2 take 0010 => 01 object MaskGen { def apply(addr_lo: UInt, lgSize: UInt, beatBytes: Int, groupBy: Int = 1): UInt = { require (groupBy >= 1 && beatBytes >= groupBy) require (isPow2(beatBytes) && isPow2(groupBy)) val lgBytes = log2Ceil(beatBytes) val sizeOH = UIntToOH(lgSize | 0.U(log2Up(beatBytes).W), log2Up(beatBytes)) | (groupBy*2 - 1).U def helper(i: Int): Seq[(Bool, Bool)] = { if (i == 0) { Seq((lgSize >= lgBytes.asUInt, true.B)) } else { val sub = helper(i-1) val size = sizeOH(lgBytes - i) val bit = addr_lo(lgBytes - i) val nbit = !bit Seq.tabulate (1 << i) { j => val (sub_acc, sub_eq) = sub(j/2) val eq = sub_eq && (if (j % 2 == 1) bit else nbit) val acc = sub_acc || (size && eq) (acc, eq) } } } if (groupBy == beatBytes) 1.U else Cat(helper(lgBytes-log2Ceil(groupBy)).map(_._1).reverse) } } File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Bundles.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import freechips.rocketchip.util._ import scala.collection.immutable.ListMap import chisel3.util.Decoupled import chisel3.util.DecoupledIO import chisel3.reflect.DataMirror abstract class TLBundleBase(val params: TLBundleParameters) extends Bundle // common combos in lazy policy: // Put + Acquire // Release + AccessAck object TLMessages { // A B C D E def PutFullData = 0.U // . . => AccessAck def PutPartialData = 1.U // . . => AccessAck def ArithmeticData = 2.U // . . => AccessAckData def LogicalData = 3.U // . . => AccessAckData def Get = 4.U // . . => AccessAckData def Hint = 5.U // . . => HintAck def AcquireBlock = 6.U // . => Grant[Data] def AcquirePerm = 7.U // . => Grant[Data] def Probe = 6.U // . => ProbeAck[Data] def AccessAck = 0.U // . . def AccessAckData = 1.U // . . def HintAck = 2.U // . . def ProbeAck = 4.U // . def ProbeAckData = 5.U // . def Release = 6.U // . => ReleaseAck def ReleaseData = 7.U // . => ReleaseAck def Grant = 4.U // . => GrantAck def GrantData = 5.U // . => GrantAck def ReleaseAck = 6.U // . def GrantAck = 0.U // . def isA(x: UInt) = x <= AcquirePerm def isB(x: UInt) = x <= Probe def isC(x: UInt) = x <= ReleaseData def isD(x: UInt) = x <= ReleaseAck def adResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, Grant, Grant) def bcResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, ProbeAck, ProbeAck) def a = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("AcquireBlock",TLPermissions.PermMsgGrow), ("AcquirePerm",TLPermissions.PermMsgGrow)) def b = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("Probe",TLPermissions.PermMsgCap)) def c = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("ProbeAck",TLPermissions.PermMsgReport), ("ProbeAckData",TLPermissions.PermMsgReport), ("Release",TLPermissions.PermMsgReport), ("ReleaseData",TLPermissions.PermMsgReport)) def d = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("Grant",TLPermissions.PermMsgCap), ("GrantData",TLPermissions.PermMsgCap), ("ReleaseAck",TLPermissions.PermMsgReserved)) } /** * The three primary TileLink permissions are: * (T)runk: the agent is (or is on inwards path to) the global point of serialization. * (B)ranch: the agent is on an outwards path to * (N)one: * These permissions are permuted by transfer operations in various ways. * Operations can cap permissions, request for them to be grown or shrunk, * or for a report on their current status. */ object TLPermissions { val aWidth = 2 val bdWidth = 2 val cWidth = 3 // Cap types (Grant = new permissions, Probe = permisions <= target) def toT = 0.U(bdWidth.W) def toB = 1.U(bdWidth.W) def toN = 2.U(bdWidth.W) def isCap(x: UInt) = x <= toN // Grow types (Acquire = permissions >= target) def NtoB = 0.U(aWidth.W) def NtoT = 1.U(aWidth.W) def BtoT = 2.U(aWidth.W) def isGrow(x: UInt) = x <= BtoT // Shrink types (ProbeAck, Release) def TtoB = 0.U(cWidth.W) def TtoN = 1.U(cWidth.W) def BtoN = 2.U(cWidth.W) def isShrink(x: UInt) = x <= BtoN // Report types (ProbeAck, Release) def TtoT = 3.U(cWidth.W) def BtoB = 4.U(cWidth.W) def NtoN = 5.U(cWidth.W) def isReport(x: UInt) = x <= NtoN def PermMsgGrow:Seq[String] = Seq("Grow NtoB", "Grow NtoT", "Grow BtoT") def PermMsgCap:Seq[String] = Seq("Cap toT", "Cap toB", "Cap toN") def PermMsgReport:Seq[String] = Seq("Shrink TtoB", "Shrink TtoN", "Shrink BtoN", "Report TotT", "Report BtoB", "Report NtoN") def PermMsgReserved:Seq[String] = Seq("Reserved") } object TLAtomics { val width = 3 // Arithmetic types def MIN = 0.U(width.W) def MAX = 1.U(width.W) def MINU = 2.U(width.W) def MAXU = 3.U(width.W) def ADD = 4.U(width.W) def isArithmetic(x: UInt) = x <= ADD // Logical types def XOR = 0.U(width.W) def OR = 1.U(width.W) def AND = 2.U(width.W) def SWAP = 3.U(width.W) def isLogical(x: UInt) = x <= SWAP def ArithMsg:Seq[String] = Seq("MIN", "MAX", "MINU", "MAXU", "ADD") def LogicMsg:Seq[String] = Seq("XOR", "OR", "AND", "SWAP") } object TLHints { val width = 1 def PREFETCH_READ = 0.U(width.W) def PREFETCH_WRITE = 1.U(width.W) def isHints(x: UInt) = x <= PREFETCH_WRITE def HintsMsg:Seq[String] = Seq("PrefetchRead", "PrefetchWrite") } sealed trait TLChannel extends TLBundleBase { val channelName: String } sealed trait TLDataChannel extends TLChannel sealed trait TLAddrChannel extends TLDataChannel final class TLBundleA(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleA_${params.shortName}" val channelName = "'A' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(List(TLAtomics.width, TLPermissions.aWidth, TLHints.width).max.W) // amo_opcode || grow perms || hint val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleB(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleB_${params.shortName}" val channelName = "'B' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val address = UInt(params.addressBits.W) // from // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleC(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleC_${params.shortName}" val channelName = "'C' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.cWidth.W) // shrink or report perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleD(params: TLBundleParameters) extends TLBundleBase(params) with TLDataChannel { override def typeName = s"TLBundleD_${params.shortName}" val channelName = "'D' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val sink = UInt(params.sinkBits.W) // from val denied = Bool() // implies corrupt iff *Data val user = BundleMap(params.responseFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleE(params: TLBundleParameters) extends TLBundleBase(params) with TLChannel { override def typeName = s"TLBundleE_${params.shortName}" val channelName = "'E' channel" val sink = UInt(params.sinkBits.W) // to } class TLBundle(val params: TLBundleParameters) extends Record { // Emulate a Bundle with elements abcde or ad depending on params.hasBCE private val optA = Some (Decoupled(new TLBundleA(params))) private val optB = params.hasBCE.option(Flipped(Decoupled(new TLBundleB(params)))) private val optC = params.hasBCE.option(Decoupled(new TLBundleC(params))) private val optD = Some (Flipped(Decoupled(new TLBundleD(params)))) private val optE = params.hasBCE.option(Decoupled(new TLBundleE(params))) def a: DecoupledIO[TLBundleA] = optA.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleA(params))))) def b: DecoupledIO[TLBundleB] = optB.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleB(params))))) def c: DecoupledIO[TLBundleC] = optC.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleC(params))))) def d: DecoupledIO[TLBundleD] = optD.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleD(params))))) def e: DecoupledIO[TLBundleE] = optE.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleE(params))))) val elements = if (params.hasBCE) ListMap("e" -> e, "d" -> d, "c" -> c, "b" -> b, "a" -> a) else ListMap("d" -> d, "a" -> a) def tieoff(): Unit = { DataMirror.specifiedDirectionOf(a.ready) match { case SpecifiedDirection.Input => a.ready := false.B c.ready := false.B e.ready := false.B b.valid := false.B d.valid := false.B case SpecifiedDirection.Output => a.valid := false.B c.valid := false.B e.valid := false.B b.ready := false.B d.ready := false.B case _ => } } } object TLBundle { def apply(params: TLBundleParameters) = new TLBundle(params) } class TLAsyncBundleBase(val params: TLAsyncBundleParameters) extends Bundle class TLAsyncBundle(params: TLAsyncBundleParameters) extends TLAsyncBundleBase(params) { val a = new AsyncBundle(new TLBundleA(params.base), params.async) val b = Flipped(new AsyncBundle(new TLBundleB(params.base), params.async)) val c = new AsyncBundle(new TLBundleC(params.base), params.async) val d = Flipped(new AsyncBundle(new TLBundleD(params.base), params.async)) val e = new AsyncBundle(new TLBundleE(params.base), params.async) } class TLRationalBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = RationalIO(new TLBundleA(params)) val b = Flipped(RationalIO(new TLBundleB(params))) val c = RationalIO(new TLBundleC(params)) val d = Flipped(RationalIO(new TLBundleD(params))) val e = RationalIO(new TLBundleE(params)) } class TLCreditedBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = CreditedIO(new TLBundleA(params)) val b = Flipped(CreditedIO(new TLBundleB(params))) val c = CreditedIO(new TLBundleC(params)) val d = Flipped(CreditedIO(new TLBundleD(params))) val e = CreditedIO(new TLBundleE(params)) } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.diplomacy import chisel3._ import chisel3.util.{DecoupledIO, Queue, ReadyValidIO, isPow2, log2Ceil, log2Floor} import freechips.rocketchip.util.ShiftQueue /** Options for describing the attributes of memory regions */ object RegionType { // Define the 'more relaxed than' ordering val cases = Seq(CACHED, TRACKED, UNCACHED, IDEMPOTENT, VOLATILE, PUT_EFFECTS, GET_EFFECTS) sealed trait T extends Ordered[T] { def compare(that: T): Int = cases.indexOf(that) compare cases.indexOf(this) } case object CACHED extends T // an intermediate agent may have cached a copy of the region for you case object TRACKED extends T // the region may have been cached by another master, but coherence is being provided case object UNCACHED extends T // the region has not been cached yet, but should be cached when possible case object IDEMPOTENT extends T // gets return most recently put content, but content should not be cached case object VOLATILE extends T // content may change without a put, but puts and gets have no side effects case object PUT_EFFECTS extends T // puts produce side effects and so must not be combined/delayed case object GET_EFFECTS extends T // gets produce side effects and so must not be issued speculatively } // A non-empty half-open range; [start, end) case class IdRange(start: Int, end: Int) extends Ordered[IdRange] { require (start >= 0, s"Ids cannot be negative, but got: $start.") require (start <= end, "Id ranges cannot be negative.") def compare(x: IdRange) = { val primary = (this.start - x.start).signum val secondary = (x.end - this.end).signum if (primary != 0) primary else secondary } def overlaps(x: IdRange) = start < x.end && x.start < end def contains(x: IdRange) = start <= x.start && x.end <= end def contains(x: Int) = start <= x && x < end def contains(x: UInt) = if (size == 0) { false.B } else if (size == 1) { // simple comparison x === start.U } else { // find index of largest different bit val largestDeltaBit = log2Floor(start ^ (end-1)) val smallestCommonBit = largestDeltaBit + 1 // may not exist in x val uncommonMask = (1 << smallestCommonBit) - 1 val uncommonBits = (x | 0.U(smallestCommonBit.W))(largestDeltaBit, 0) // the prefix must match exactly (note: may shift ALL bits away) (x >> smallestCommonBit) === (start >> smallestCommonBit).U && // firrtl constant prop range analysis can eliminate these two: (start & uncommonMask).U <= uncommonBits && uncommonBits <= ((end-1) & uncommonMask).U } def shift(x: Int) = IdRange(start+x, end+x) def size = end - start def isEmpty = end == start def range = start until end } object IdRange { def overlaps(s: Seq[IdRange]) = if (s.isEmpty) None else { val ranges = s.sorted (ranges.tail zip ranges.init) find { case (a, b) => a overlaps b } } } // An potentially empty inclusive range of 2-powers [min, max] (in bytes) case class TransferSizes(min: Int, max: Int) { def this(x: Int) = this(x, x) require (min <= max, s"Min transfer $min > max transfer $max") require (min >= 0 && max >= 0, s"TransferSizes must be positive, got: ($min, $max)") require (max == 0 || isPow2(max), s"TransferSizes must be a power of 2, got: $max") require (min == 0 || isPow2(min), s"TransferSizes must be a power of 2, got: $min") require (max == 0 || min != 0, s"TransferSize 0 is forbidden unless (0,0), got: ($min, $max)") def none = min == 0 def contains(x: Int) = isPow2(x) && min <= x && x <= max def containsLg(x: Int) = contains(1 << x) def containsLg(x: UInt) = if (none) false.B else if (min == max) { log2Ceil(min).U === x } else { log2Ceil(min).U <= x && x <= log2Ceil(max).U } def contains(x: TransferSizes) = x.none || (min <= x.min && x.max <= max) def intersect(x: TransferSizes) = if (x.max < min || max < x.min) TransferSizes.none else TransferSizes(scala.math.max(min, x.min), scala.math.min(max, x.max)) // Not a union, because the result may contain sizes contained by neither term // NOT TO BE CONFUSED WITH COVERPOINTS def mincover(x: TransferSizes) = { if (none) { x } else if (x.none) { this } else { TransferSizes(scala.math.min(min, x.min), scala.math.max(max, x.max)) } } override def toString() = "TransferSizes[%d, %d]".format(min, max) } object TransferSizes { def apply(x: Int) = new TransferSizes(x) val none = new TransferSizes(0) def mincover(seq: Seq[TransferSizes]) = seq.foldLeft(none)(_ mincover _) def intersect(seq: Seq[TransferSizes]) = seq.reduce(_ intersect _) implicit def asBool(x: TransferSizes) = !x.none } // AddressSets specify the address space managed by the manager // Base is the base address, and mask are the bits consumed by the manager // e.g: base=0x200, mask=0xff describes a device managing 0x200-0x2ff // e.g: base=0x1000, mask=0xf0f decribes a device managing 0x1000-0x100f, 0x1100-0x110f, ... case class AddressSet(base: BigInt, mask: BigInt) extends Ordered[AddressSet] { // Forbid misaligned base address (and empty sets) require ((base & mask) == 0, s"Mis-aligned AddressSets are forbidden, got: ${this.toString}") require (base >= 0, s"AddressSet negative base is ambiguous: $base") // TL2 address widths are not fixed => negative is ambiguous // We do allow negative mask (=> ignore all high bits) def contains(x: BigInt) = ((x ^ base) & ~mask) == 0 def contains(x: UInt) = ((x ^ base.U).zext & (~mask).S) === 0.S // turn x into an address contained in this set def legalize(x: UInt): UInt = base.U | (mask.U & x) // overlap iff bitwise: both care (~mask0 & ~mask1) => both equal (base0=base1) def overlaps(x: AddressSet) = (~(mask | x.mask) & (base ^ x.base)) == 0 // contains iff bitwise: x.mask => mask && contains(x.base) def contains(x: AddressSet) = ((x.mask | (base ^ x.base)) & ~mask) == 0 // The number of bytes to which the manager must be aligned def alignment = ((mask + 1) & ~mask) // Is this a contiguous memory range def contiguous = alignment == mask+1 def finite = mask >= 0 def max = { require (finite, "Max cannot be calculated on infinite mask"); base | mask } // Widen the match function to ignore all bits in imask def widen(imask: BigInt) = AddressSet(base & ~imask, mask | imask) // Return an AddressSet that only contains the addresses both sets contain def intersect(x: AddressSet): Option[AddressSet] = { if (!overlaps(x)) { None } else { val r_mask = mask & x.mask val r_base = base | x.base Some(AddressSet(r_base, r_mask)) } } def subtract(x: AddressSet): Seq[AddressSet] = { intersect(x) match { case None => Seq(this) case Some(remove) => AddressSet.enumerateBits(mask & ~remove.mask).map { bit => val nmask = (mask & (bit-1)) | remove.mask val nbase = (remove.base ^ bit) & ~nmask AddressSet(nbase, nmask) } } } // AddressSets have one natural Ordering (the containment order, if contiguous) def compare(x: AddressSet) = { val primary = (this.base - x.base).signum // smallest address first val secondary = (x.mask - this.mask).signum // largest mask first if (primary != 0) primary else secondary } // We always want to see things in hex override def toString() = { if (mask >= 0) { "AddressSet(0x%x, 0x%x)".format(base, mask) } else { "AddressSet(0x%x, ~0x%x)".format(base, ~mask) } } def toRanges = { require (finite, "Ranges cannot be calculated on infinite mask") val size = alignment val fragments = mask & ~(size-1) val bits = bitIndexes(fragments) (BigInt(0) until (BigInt(1) << bits.size)).map { i => val off = bitIndexes(i).foldLeft(base) { case (a, b) => a.setBit(bits(b)) } AddressRange(off, size) } } } object AddressSet { val everything = AddressSet(0, -1) def misaligned(base: BigInt, size: BigInt, tail: Seq[AddressSet] = Seq()): Seq[AddressSet] = { if (size == 0) tail.reverse else { val maxBaseAlignment = base & (-base) // 0 for infinite (LSB) val maxSizeAlignment = BigInt(1) << log2Floor(size) // MSB of size val step = if (maxBaseAlignment == 0 || maxBaseAlignment > maxSizeAlignment) maxSizeAlignment else maxBaseAlignment misaligned(base+step, size-step, AddressSet(base, step-1) +: tail) } } def unify(seq: Seq[AddressSet], bit: BigInt): Seq[AddressSet] = { // Pair terms up by ignoring 'bit' seq.distinct.groupBy(x => x.copy(base = x.base & ~bit)).map { case (key, seq) => if (seq.size == 1) { seq.head // singleton -> unaffected } else { key.copy(mask = key.mask | bit) // pair - widen mask by bit } }.toList } def unify(seq: Seq[AddressSet]): Seq[AddressSet] = { val bits = seq.map(_.base).foldLeft(BigInt(0))(_ | _) AddressSet.enumerateBits(bits).foldLeft(seq) { case (acc, bit) => unify(acc, bit) }.sorted } def enumerateMask(mask: BigInt): Seq[BigInt] = { def helper(id: BigInt, tail: Seq[BigInt]): Seq[BigInt] = if (id == mask) (id +: tail).reverse else helper(((~mask | id) + 1) & mask, id +: tail) helper(0, Nil) } def enumerateBits(mask: BigInt): Seq[BigInt] = { def helper(x: BigInt): Seq[BigInt] = { if (x == 0) { Nil } else { val bit = x & (-x) bit +: helper(x & ~bit) } } helper(mask) } } case class BufferParams(depth: Int, flow: Boolean, pipe: Boolean) { require (depth >= 0, "Buffer depth must be >= 0") def isDefined = depth > 0 def latency = if (isDefined && !flow) 1 else 0 def apply[T <: Data](x: DecoupledIO[T]) = if (isDefined) Queue(x, depth, flow=flow, pipe=pipe) else x def irrevocable[T <: Data](x: ReadyValidIO[T]) = if (isDefined) Queue.irrevocable(x, depth, flow=flow, pipe=pipe) else x def sq[T <: Data](x: DecoupledIO[T]) = if (!isDefined) x else { val sq = Module(new ShiftQueue(x.bits, depth, flow=flow, pipe=pipe)) sq.io.enq <> x sq.io.deq } override def toString() = "BufferParams:%d%s%s".format(depth, if (flow) "F" else "", if (pipe) "P" else "") } object BufferParams { implicit def apply(depth: Int): BufferParams = BufferParams(depth, false, false) val default = BufferParams(2) val none = BufferParams(0) val flow = BufferParams(1, true, false) val pipe = BufferParams(1, false, true) } case class TriStateValue(value: Boolean, set: Boolean) { def update(orig: Boolean) = if (set) value else orig } object TriStateValue { implicit def apply(value: Boolean): TriStateValue = TriStateValue(value, true) def unset = TriStateValue(false, false) } trait DirectedBuffers[T] { def copyIn(x: BufferParams): T def copyOut(x: BufferParams): T def copyInOut(x: BufferParams): T } trait IdMapEntry { def name: String def from: IdRange def to: IdRange def isCache: Boolean def requestFifo: Boolean def maxTransactionsInFlight: Option[Int] def pretty(fmt: String) = if (from ne to) { // if the subclass uses the same reference for both from and to, assume its format string has an arity of 5 fmt.format(to.start, to.end, from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } else { fmt.format(from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } } abstract class IdMap[T <: IdMapEntry] { protected val fmt: String val mapping: Seq[T] def pretty: String = mapping.map(_.pretty(fmt)).mkString(",\n") } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module TLMonitor_32( // @[Monitor.scala:36:7] input clock, // @[Monitor.scala:36:7] input reset, // @[Monitor.scala:36:7] input io_in_a_ready, // @[Monitor.scala:20:14] input io_in_a_valid, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_opcode, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_param, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_size, // @[Monitor.scala:20:14] input [6:0] io_in_a_bits_source, // @[Monitor.scala:20:14] input [25:0] io_in_a_bits_address, // @[Monitor.scala:20:14] input [7:0] io_in_a_bits_mask, // @[Monitor.scala:20:14] input [63:0] io_in_a_bits_data, // @[Monitor.scala:20:14] input io_in_a_bits_corrupt, // @[Monitor.scala:20:14] input io_in_d_ready, // @[Monitor.scala:20:14] input io_in_d_valid, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_opcode, // @[Monitor.scala:20:14] input [1:0] io_in_d_bits_param, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_size, // @[Monitor.scala:20:14] input [6:0] io_in_d_bits_source, // @[Monitor.scala:20:14] input io_in_d_bits_sink, // @[Monitor.scala:20:14] input io_in_d_bits_denied, // @[Monitor.scala:20:14] input [63:0] io_in_d_bits_data, // @[Monitor.scala:20:14] input io_in_d_bits_corrupt // @[Monitor.scala:20:14] ); wire [31:0] _plusarg_reader_1_out; // @[PlusArg.scala:80:11] wire [31:0] _plusarg_reader_out; // @[PlusArg.scala:80:11] wire io_in_a_ready_0 = io_in_a_ready; // @[Monitor.scala:36:7] wire io_in_a_valid_0 = io_in_a_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_opcode_0 = io_in_a_bits_opcode; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_param_0 = io_in_a_bits_param; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_size_0 = io_in_a_bits_size; // @[Monitor.scala:36:7] wire [6:0] io_in_a_bits_source_0 = io_in_a_bits_source; // @[Monitor.scala:36:7] wire [25:0] io_in_a_bits_address_0 = io_in_a_bits_address; // @[Monitor.scala:36:7] wire [7:0] io_in_a_bits_mask_0 = io_in_a_bits_mask; // @[Monitor.scala:36:7] wire [63:0] io_in_a_bits_data_0 = io_in_a_bits_data; // @[Monitor.scala:36:7] wire io_in_a_bits_corrupt_0 = io_in_a_bits_corrupt; // @[Monitor.scala:36:7] wire io_in_d_ready_0 = io_in_d_ready; // @[Monitor.scala:36:7] wire io_in_d_valid_0 = io_in_d_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_opcode_0 = io_in_d_bits_opcode; // @[Monitor.scala:36:7] wire [1:0] io_in_d_bits_param_0 = io_in_d_bits_param; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_size_0 = io_in_d_bits_size; // @[Monitor.scala:36:7] wire [6:0] io_in_d_bits_source_0 = io_in_d_bits_source; // @[Monitor.scala:36:7] wire io_in_d_bits_sink_0 = io_in_d_bits_sink; // @[Monitor.scala:36:7] wire io_in_d_bits_denied_0 = io_in_d_bits_denied; // @[Monitor.scala:36:7] wire [63:0] io_in_d_bits_data_0 = io_in_d_bits_data; // @[Monitor.scala:36:7] wire io_in_d_bits_corrupt_0 = io_in_d_bits_corrupt; // @[Monitor.scala:36:7] wire sink_ok = 1'h0; // @[Monitor.scala:309:31] wire _c_first_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_T = 1'h0; // @[Decoupled.scala:51:35] wire c_first_beats1_opdata = 1'h0; // @[Edges.scala:102:36] wire _c_first_last_T = 1'h0; // @[Edges.scala:232:25] wire c_first_done = 1'h0; // @[Edges.scala:233:22] wire _c_set_wo_ready_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T = 1'h0; // @[Monitor.scala:772:47] wire _c_probe_ack_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T_1 = 1'h0; // @[Monitor.scala:772:95] wire c_probe_ack = 1'h0; // @[Monitor.scala:772:71] wire _same_cycle_resp_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_3 = 1'h0; // @[Monitor.scala:795:44] wire _same_cycle_resp_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_4 = 1'h0; // @[Edges.scala:68:36] wire _same_cycle_resp_T_5 = 1'h0; // @[Edges.scala:68:51] wire _same_cycle_resp_T_6 = 1'h0; // @[Edges.scala:68:40] wire _same_cycle_resp_T_7 = 1'h0; // @[Monitor.scala:795:55] wire _same_cycle_resp_WIRE_4_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_5_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire same_cycle_resp_1 = 1'h0; // @[Monitor.scala:795:88] wire [2:0] responseMap_0 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMap_1 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_0 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_1 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] _c_first_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_2_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_3_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] c_first_beats1_decode = 3'h0; // @[Edges.scala:220:59] wire [2:0] c_first_beats1 = 3'h0; // @[Edges.scala:221:14] wire [2:0] _c_first_count_T = 3'h0; // @[Edges.scala:234:27] wire [2:0] c_first_count = 3'h0; // @[Edges.scala:234:25] wire [2:0] _c_first_counter_T = 3'h0; // @[Edges.scala:236:21] wire [2:0] _c_set_wo_ready_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_2_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_3_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_2_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_3_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_4_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_4_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_4_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_5_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_5_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_5_bits_size = 3'h0; // @[Bundles.scala:265:61] wire _source_ok_T_3 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_5 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_9 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_11 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_15 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_17 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_21 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_23 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_61 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_63 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_67 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_69 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_73 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_75 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_79 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_81 = 1'h1; // @[Parameters.scala:57:20] wire c_first = 1'h1; // @[Edges.scala:231:25] wire _c_first_last_T_1 = 1'h1; // @[Edges.scala:232:43] wire c_first_last = 1'h1; // @[Edges.scala:232:33] wire [2:0] c_first_counter1 = 3'h7; // @[Edges.scala:230:28] wire [3:0] _c_first_counter1_T = 4'hF; // @[Edges.scala:230:28] wire [63:0] _c_first_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_first_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_wo_ready_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_wo_ready_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_4_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_5_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [25:0] _c_first_WIRE_bits_address = 26'h0; // @[Bundles.scala:265:74] wire [25:0] _c_first_WIRE_1_bits_address = 26'h0; // @[Bundles.scala:265:61] wire [25:0] _c_first_WIRE_2_bits_address = 26'h0; // @[Bundles.scala:265:74] wire [25:0] _c_first_WIRE_3_bits_address = 26'h0; // @[Bundles.scala:265:61] wire [25:0] _c_set_wo_ready_WIRE_bits_address = 26'h0; // @[Bundles.scala:265:74] wire [25:0] _c_set_wo_ready_WIRE_1_bits_address = 26'h0; // @[Bundles.scala:265:61] wire [25:0] _c_set_WIRE_bits_address = 26'h0; // @[Bundles.scala:265:74] wire [25:0] _c_set_WIRE_1_bits_address = 26'h0; // @[Bundles.scala:265:61] wire [25:0] _c_opcodes_set_interm_WIRE_bits_address = 26'h0; // @[Bundles.scala:265:74] wire [25:0] _c_opcodes_set_interm_WIRE_1_bits_address = 26'h0; // @[Bundles.scala:265:61] wire [25:0] _c_sizes_set_interm_WIRE_bits_address = 26'h0; // @[Bundles.scala:265:74] wire [25:0] _c_sizes_set_interm_WIRE_1_bits_address = 26'h0; // @[Bundles.scala:265:61] wire [25:0] _c_opcodes_set_WIRE_bits_address = 26'h0; // @[Bundles.scala:265:74] wire [25:0] _c_opcodes_set_WIRE_1_bits_address = 26'h0; // @[Bundles.scala:265:61] wire [25:0] _c_sizes_set_WIRE_bits_address = 26'h0; // @[Bundles.scala:265:74] wire [25:0] _c_sizes_set_WIRE_1_bits_address = 26'h0; // @[Bundles.scala:265:61] wire [25:0] _c_probe_ack_WIRE_bits_address = 26'h0; // @[Bundles.scala:265:74] wire [25:0] _c_probe_ack_WIRE_1_bits_address = 26'h0; // @[Bundles.scala:265:61] wire [25:0] _c_probe_ack_WIRE_2_bits_address = 26'h0; // @[Bundles.scala:265:74] wire [25:0] _c_probe_ack_WIRE_3_bits_address = 26'h0; // @[Bundles.scala:265:61] wire [25:0] _same_cycle_resp_WIRE_bits_address = 26'h0; // @[Bundles.scala:265:74] wire [25:0] _same_cycle_resp_WIRE_1_bits_address = 26'h0; // @[Bundles.scala:265:61] wire [25:0] _same_cycle_resp_WIRE_2_bits_address = 26'h0; // @[Bundles.scala:265:74] wire [25:0] _same_cycle_resp_WIRE_3_bits_address = 26'h0; // @[Bundles.scala:265:61] wire [25:0] _same_cycle_resp_WIRE_4_bits_address = 26'h0; // @[Bundles.scala:265:74] wire [25:0] _same_cycle_resp_WIRE_5_bits_address = 26'h0; // @[Bundles.scala:265:61] wire [6:0] _c_first_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_first_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_first_WIRE_2_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_first_WIRE_3_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_set_wo_ready_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_set_wo_ready_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_set_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_set_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_opcodes_set_interm_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_opcodes_set_interm_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_sizes_set_interm_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_sizes_set_interm_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_opcodes_set_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_opcodes_set_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_sizes_set_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_sizes_set_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_probe_ack_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_probe_ack_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_probe_ack_WIRE_2_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_probe_ack_WIRE_3_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _same_cycle_resp_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _same_cycle_resp_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _same_cycle_resp_WIRE_2_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _same_cycle_resp_WIRE_3_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _same_cycle_resp_WIRE_4_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _same_cycle_resp_WIRE_5_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [15:0] _a_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _a_size_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_opcodes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_sizes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _c_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _c_size_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_opcodes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_sizes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [16:0] _a_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _a_size_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_opcodes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_sizes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _c_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _c_size_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_opcodes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_sizes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [15:0] _a_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _a_size_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_opcodes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_sizes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _c_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _c_size_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_opcodes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_sizes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [1026:0] _c_opcodes_set_T_1 = 1027'h0; // @[Monitor.scala:767:54] wire [1026:0] _c_sizes_set_T_1 = 1027'h0; // @[Monitor.scala:768:52] wire [9:0] _c_opcodes_set_T = 10'h0; // @[Monitor.scala:767:79] wire [9:0] _c_sizes_set_T = 10'h0; // @[Monitor.scala:768:77] wire [3:0] _c_opcodes_set_interm_T_1 = 4'h1; // @[Monitor.scala:765:61] wire [3:0] _c_sizes_set_interm_T_1 = 4'h1; // @[Monitor.scala:766:59] wire [3:0] c_opcodes_set_interm = 4'h0; // @[Monitor.scala:754:40] wire [3:0] c_sizes_set_interm = 4'h0; // @[Monitor.scala:755:40] wire [3:0] _c_opcodes_set_interm_T = 4'h0; // @[Monitor.scala:765:53] wire [3:0] _c_sizes_set_interm_T = 4'h0; // @[Monitor.scala:766:51] wire [127:0] _c_set_wo_ready_T = 128'h1; // @[OneHot.scala:58:35] wire [127:0] _c_set_T = 128'h1; // @[OneHot.scala:58:35] wire [259:0] c_opcodes_set = 260'h0; // @[Monitor.scala:740:34] wire [259:0] c_sizes_set = 260'h0; // @[Monitor.scala:741:34] wire [64:0] c_set = 65'h0; // @[Monitor.scala:738:34] wire [64:0] c_set_wo_ready = 65'h0; // @[Monitor.scala:739:34] wire [5:0] _c_first_beats1_decode_T_2 = 6'h0; // @[package.scala:243:46] wire [5:0] _c_first_beats1_decode_T_1 = 6'h3F; // @[package.scala:243:76] wire [12:0] _c_first_beats1_decode_T = 13'h3F; // @[package.scala:243:71] wire [2:0] responseMap_6 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMap_7 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_7 = 3'h4; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_6 = 3'h5; // @[Monitor.scala:644:42] wire [2:0] responseMap_5 = 3'h2; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_5 = 3'h2; // @[Monitor.scala:644:42] wire [2:0] responseMap_2 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_3 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_4 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_2 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_3 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_4 = 3'h1; // @[Monitor.scala:644:42] wire [3:0] _a_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:637:123] wire [3:0] _a_size_lookup_T_2 = 4'h4; // @[Monitor.scala:641:117] wire [3:0] _d_opcodes_clr_T = 4'h4; // @[Monitor.scala:680:48] wire [3:0] _d_sizes_clr_T = 4'h4; // @[Monitor.scala:681:48] wire [3:0] _c_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:749:123] wire [3:0] _c_size_lookup_T_2 = 4'h4; // @[Monitor.scala:750:119] wire [3:0] _d_opcodes_clr_T_6 = 4'h4; // @[Monitor.scala:790:48] wire [3:0] _d_sizes_clr_T_6 = 4'h4; // @[Monitor.scala:791:48] wire [2:0] _mask_sizeOH_T = io_in_a_bits_size_0; // @[Misc.scala:202:34] wire [6:0] _source_ok_uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_4 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_5 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_6 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_7 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_8 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_9 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_10 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_11 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_12 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_13 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_14 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_15 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_16 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_17 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_18 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_19 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_20 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_21 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_22 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_23 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_24 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_25 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_26 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_27 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_28 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_29 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_30 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_31 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_32 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_33 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_34 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_35 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_36 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_37 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_38 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_39 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_40 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_41 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_42 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_43 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_4 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_5 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_6 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_7 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire _source_ok_T = io_in_a_bits_source_0 == 7'h10; // @[Monitor.scala:36:7] wire _source_ok_WIRE_0 = _source_ok_T; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits = _source_ok_uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [4:0] _source_ok_T_1 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_7 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_13 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_19 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire _source_ok_T_2 = _source_ok_T_1 == 5'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_4 = _source_ok_T_2; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_6 = _source_ok_T_4; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1 = _source_ok_T_6; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_1 = _source_ok_uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_8 = _source_ok_T_7 == 5'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_10 = _source_ok_T_8; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_12 = _source_ok_T_10; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_2 = _source_ok_T_12; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_2 = _source_ok_uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_14 = _source_ok_T_13 == 5'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_16 = _source_ok_T_14; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_18 = _source_ok_T_16; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_3 = _source_ok_T_18; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_3 = _source_ok_uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_20 = _source_ok_T_19 == 5'h3; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_22 = _source_ok_T_20; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_24 = _source_ok_T_22; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_4 = _source_ok_T_24; // @[Parameters.scala:1138:31] wire _source_ok_T_25 = io_in_a_bits_source_0 == 7'h24; // @[Monitor.scala:36:7] wire _source_ok_WIRE_5 = _source_ok_T_25; // @[Parameters.scala:1138:31] wire _source_ok_T_26 = io_in_a_bits_source_0 == 7'h25; // @[Monitor.scala:36:7] wire _source_ok_WIRE_6 = _source_ok_T_26; // @[Parameters.scala:1138:31] wire _source_ok_T_27 = io_in_a_bits_source_0 == 7'h26; // @[Monitor.scala:36:7] wire _source_ok_WIRE_7 = _source_ok_T_27; // @[Parameters.scala:1138:31] wire _source_ok_T_28 = io_in_a_bits_source_0 == 7'h2E; // @[Monitor.scala:36:7] wire _source_ok_WIRE_8 = _source_ok_T_28; // @[Parameters.scala:1138:31] wire _source_ok_T_29 = io_in_a_bits_source_0 == 7'h2F; // @[Monitor.scala:36:7] wire _source_ok_WIRE_9 = _source_ok_T_29; // @[Parameters.scala:1138:31] wire _source_ok_T_30 = io_in_a_bits_source_0 == 7'h2C; // @[Monitor.scala:36:7] wire _source_ok_WIRE_10 = _source_ok_T_30; // @[Parameters.scala:1138:31] wire _source_ok_T_31 = io_in_a_bits_source_0 == 7'h2D; // @[Monitor.scala:36:7] wire _source_ok_WIRE_11 = _source_ok_T_31; // @[Parameters.scala:1138:31] wire _source_ok_T_32 = io_in_a_bits_source_0 == 7'h2A; // @[Monitor.scala:36:7] wire _source_ok_WIRE_12 = _source_ok_T_32; // @[Parameters.scala:1138:31] wire _source_ok_T_33 = io_in_a_bits_source_0 == 7'h2B; // @[Monitor.scala:36:7] wire _source_ok_WIRE_13 = _source_ok_T_33; // @[Parameters.scala:1138:31] wire _source_ok_T_34 = io_in_a_bits_source_0 == 7'h28; // @[Monitor.scala:36:7] wire _source_ok_WIRE_14 = _source_ok_T_34; // @[Parameters.scala:1138:31] wire _source_ok_T_35 = io_in_a_bits_source_0 == 7'h29; // @[Monitor.scala:36:7] wire _source_ok_WIRE_15 = _source_ok_T_35; // @[Parameters.scala:1138:31] wire _source_ok_T_36 = io_in_a_bits_source_0 == 7'h22; // @[Monitor.scala:36:7] wire _source_ok_WIRE_16 = _source_ok_T_36; // @[Parameters.scala:1138:31] wire _source_ok_T_37 = io_in_a_bits_source_0 == 7'h20; // @[Monitor.scala:36:7] wire _source_ok_WIRE_17 = _source_ok_T_37; // @[Parameters.scala:1138:31] wire _source_ok_T_38 = io_in_a_bits_source_0 == 7'h21; // @[Monitor.scala:36:7] wire _source_ok_WIRE_18 = _source_ok_T_38; // @[Parameters.scala:1138:31] wire _source_ok_T_39 = io_in_a_bits_source_0 == 7'h40; // @[Monitor.scala:36:7] wire _source_ok_WIRE_19 = _source_ok_T_39; // @[Parameters.scala:1138:31] wire _source_ok_T_40 = _source_ok_WIRE_0 | _source_ok_WIRE_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_41 = _source_ok_T_40 | _source_ok_WIRE_2; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_42 = _source_ok_T_41 | _source_ok_WIRE_3; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_43 = _source_ok_T_42 | _source_ok_WIRE_4; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_44 = _source_ok_T_43 | _source_ok_WIRE_5; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_45 = _source_ok_T_44 | _source_ok_WIRE_6; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_46 = _source_ok_T_45 | _source_ok_WIRE_7; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_47 = _source_ok_T_46 | _source_ok_WIRE_8; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_48 = _source_ok_T_47 | _source_ok_WIRE_9; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_49 = _source_ok_T_48 | _source_ok_WIRE_10; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_50 = _source_ok_T_49 | _source_ok_WIRE_11; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_51 = _source_ok_T_50 | _source_ok_WIRE_12; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_52 = _source_ok_T_51 | _source_ok_WIRE_13; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_53 = _source_ok_T_52 | _source_ok_WIRE_14; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_54 = _source_ok_T_53 | _source_ok_WIRE_15; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_55 = _source_ok_T_54 | _source_ok_WIRE_16; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_56 = _source_ok_T_55 | _source_ok_WIRE_17; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_57 = _source_ok_T_56 | _source_ok_WIRE_18; // @[Parameters.scala:1138:31, :1139:46] wire source_ok = _source_ok_T_57 | _source_ok_WIRE_19; // @[Parameters.scala:1138:31, :1139:46] wire [12:0] _GEN = 13'h3F << io_in_a_bits_size_0; // @[package.scala:243:71] wire [12:0] _is_aligned_mask_T; // @[package.scala:243:71] assign _is_aligned_mask_T = _GEN; // @[package.scala:243:71] wire [12:0] _a_first_beats1_decode_T; // @[package.scala:243:71] assign _a_first_beats1_decode_T = _GEN; // @[package.scala:243:71] wire [12:0] _a_first_beats1_decode_T_3; // @[package.scala:243:71] assign _a_first_beats1_decode_T_3 = _GEN; // @[package.scala:243:71] wire [5:0] _is_aligned_mask_T_1 = _is_aligned_mask_T[5:0]; // @[package.scala:243:{71,76}] wire [5:0] is_aligned_mask = ~_is_aligned_mask_T_1; // @[package.scala:243:{46,76}] wire [25:0] _is_aligned_T = {20'h0, io_in_a_bits_address_0[5:0] & is_aligned_mask}; // @[package.scala:243:46] wire is_aligned = _is_aligned_T == 26'h0; // @[Edges.scala:21:{16,24}] wire [1:0] mask_sizeOH_shiftAmount = _mask_sizeOH_T[1:0]; // @[OneHot.scala:64:49] wire [3:0] _mask_sizeOH_T_1 = 4'h1 << mask_sizeOH_shiftAmount; // @[OneHot.scala:64:49, :65:12] wire [2:0] _mask_sizeOH_T_2 = _mask_sizeOH_T_1[2:0]; // @[OneHot.scala:65:{12,27}] wire [2:0] mask_sizeOH = {_mask_sizeOH_T_2[2:1], 1'h1}; // @[OneHot.scala:65:27] wire mask_sub_sub_sub_0_1 = io_in_a_bits_size_0 > 3'h2; // @[Misc.scala:206:21] wire mask_sub_sub_size = mask_sizeOH[2]; // @[Misc.scala:202:81, :209:26] wire mask_sub_sub_bit = io_in_a_bits_address_0[2]; // @[Misc.scala:210:26] wire mask_sub_sub_1_2 = mask_sub_sub_bit; // @[Misc.scala:210:26, :214:27] wire mask_sub_sub_nbit = ~mask_sub_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_sub_0_2 = mask_sub_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_sub_acc_T = mask_sub_sub_size & mask_sub_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_0_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T; // @[Misc.scala:206:21, :215:{29,38}] wire _mask_sub_sub_acc_T_1 = mask_sub_sub_size & mask_sub_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_1_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T_1; // @[Misc.scala:206:21, :215:{29,38}] wire mask_sub_size = mask_sizeOH[1]; // @[Misc.scala:202:81, :209:26] wire mask_sub_bit = io_in_a_bits_address_0[1]; // @[Misc.scala:210:26] wire mask_sub_nbit = ~mask_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_0_2 = mask_sub_sub_0_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T = mask_sub_size & mask_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_0_1 = mask_sub_sub_0_1 | _mask_sub_acc_T; // @[Misc.scala:215:{29,38}] wire mask_sub_1_2 = mask_sub_sub_0_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_1 = mask_sub_size & mask_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_1_1 = mask_sub_sub_0_1 | _mask_sub_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_sub_2_2 = mask_sub_sub_1_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T_2 = mask_sub_size & mask_sub_2_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_2_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_sub_3_2 = mask_sub_sub_1_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_3 = mask_sub_size & mask_sub_3_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_3_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_size = mask_sizeOH[0]; // @[Misc.scala:202:81, :209:26] wire mask_bit = io_in_a_bits_address_0[0]; // @[Misc.scala:210:26] wire mask_nbit = ~mask_bit; // @[Misc.scala:210:26, :211:20] wire mask_eq = mask_sub_0_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T = mask_size & mask_eq; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc = mask_sub_0_1 | _mask_acc_T; // @[Misc.scala:215:{29,38}] wire mask_eq_1 = mask_sub_0_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_1 = mask_size & mask_eq_1; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_1 = mask_sub_0_1 | _mask_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_eq_2 = mask_sub_1_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_2 = mask_size & mask_eq_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_2 = mask_sub_1_1 | _mask_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_eq_3 = mask_sub_1_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_3 = mask_size & mask_eq_3; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_3 = mask_sub_1_1 | _mask_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_eq_4 = mask_sub_2_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_4 = mask_size & mask_eq_4; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_4 = mask_sub_2_1 | _mask_acc_T_4; // @[Misc.scala:215:{29,38}] wire mask_eq_5 = mask_sub_2_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_5 = mask_size & mask_eq_5; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_5 = mask_sub_2_1 | _mask_acc_T_5; // @[Misc.scala:215:{29,38}] wire mask_eq_6 = mask_sub_3_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_6 = mask_size & mask_eq_6; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_6 = mask_sub_3_1 | _mask_acc_T_6; // @[Misc.scala:215:{29,38}] wire mask_eq_7 = mask_sub_3_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_7 = mask_size & mask_eq_7; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_7 = mask_sub_3_1 | _mask_acc_T_7; // @[Misc.scala:215:{29,38}] wire [1:0] mask_lo_lo = {mask_acc_1, mask_acc}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_lo_hi = {mask_acc_3, mask_acc_2}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_lo = {mask_lo_hi, mask_lo_lo}; // @[Misc.scala:222:10] wire [1:0] mask_hi_lo = {mask_acc_5, mask_acc_4}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_hi_hi = {mask_acc_7, mask_acc_6}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_hi = {mask_hi_hi, mask_hi_lo}; // @[Misc.scala:222:10] wire [7:0] mask = {mask_hi, mask_lo}; // @[Misc.scala:222:10] wire [1:0] uncommonBits = _uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_1 = _uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_2 = _uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_3 = _uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_4 = _uncommonBits_T_4[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_5 = _uncommonBits_T_5[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_6 = _uncommonBits_T_6[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_7 = _uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_8 = _uncommonBits_T_8[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_9 = _uncommonBits_T_9[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_10 = _uncommonBits_T_10[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_11 = _uncommonBits_T_11[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_12 = _uncommonBits_T_12[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_13 = _uncommonBits_T_13[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_14 = _uncommonBits_T_14[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_15 = _uncommonBits_T_15[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_16 = _uncommonBits_T_16[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_17 = _uncommonBits_T_17[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_18 = _uncommonBits_T_18[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_19 = _uncommonBits_T_19[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_20 = _uncommonBits_T_20[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_21 = _uncommonBits_T_21[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_22 = _uncommonBits_T_22[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_23 = _uncommonBits_T_23[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_24 = _uncommonBits_T_24[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_25 = _uncommonBits_T_25[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_26 = _uncommonBits_T_26[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_27 = _uncommonBits_T_27[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_28 = _uncommonBits_T_28[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_29 = _uncommonBits_T_29[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_30 = _uncommonBits_T_30[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_31 = _uncommonBits_T_31[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_32 = _uncommonBits_T_32[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_33 = _uncommonBits_T_33[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_34 = _uncommonBits_T_34[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_35 = _uncommonBits_T_35[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_36 = _uncommonBits_T_36[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_37 = _uncommonBits_T_37[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_38 = _uncommonBits_T_38[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_39 = _uncommonBits_T_39[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_40 = _uncommonBits_T_40[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_41 = _uncommonBits_T_41[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_42 = _uncommonBits_T_42[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_43 = _uncommonBits_T_43[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_58 = io_in_d_bits_source_0 == 7'h10; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_0 = _source_ok_T_58; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_4 = _source_ok_uncommonBits_T_4[1:0]; // @[Parameters.scala:52:{29,56}] wire [4:0] _source_ok_T_59 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_65 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_71 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_77 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire _source_ok_T_60 = _source_ok_T_59 == 5'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_62 = _source_ok_T_60; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_64 = _source_ok_T_62; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_1 = _source_ok_T_64; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_5 = _source_ok_uncommonBits_T_5[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_66 = _source_ok_T_65 == 5'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_68 = _source_ok_T_66; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_70 = _source_ok_T_68; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_2 = _source_ok_T_70; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_6 = _source_ok_uncommonBits_T_6[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_72 = _source_ok_T_71 == 5'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_74 = _source_ok_T_72; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_76 = _source_ok_T_74; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_3 = _source_ok_T_76; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_7 = _source_ok_uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_78 = _source_ok_T_77 == 5'h3; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_80 = _source_ok_T_78; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_82 = _source_ok_T_80; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_4 = _source_ok_T_82; // @[Parameters.scala:1138:31] wire _source_ok_T_83 = io_in_d_bits_source_0 == 7'h24; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_5 = _source_ok_T_83; // @[Parameters.scala:1138:31] wire _source_ok_T_84 = io_in_d_bits_source_0 == 7'h25; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_6 = _source_ok_T_84; // @[Parameters.scala:1138:31] wire _source_ok_T_85 = io_in_d_bits_source_0 == 7'h26; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_7 = _source_ok_T_85; // @[Parameters.scala:1138:31] wire _source_ok_T_86 = io_in_d_bits_source_0 == 7'h2E; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_8 = _source_ok_T_86; // @[Parameters.scala:1138:31] wire _source_ok_T_87 = io_in_d_bits_source_0 == 7'h2F; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_9 = _source_ok_T_87; // @[Parameters.scala:1138:31] wire _source_ok_T_88 = io_in_d_bits_source_0 == 7'h2C; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_10 = _source_ok_T_88; // @[Parameters.scala:1138:31] wire _source_ok_T_89 = io_in_d_bits_source_0 == 7'h2D; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_11 = _source_ok_T_89; // @[Parameters.scala:1138:31] wire _source_ok_T_90 = io_in_d_bits_source_0 == 7'h2A; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_12 = _source_ok_T_90; // @[Parameters.scala:1138:31] wire _source_ok_T_91 = io_in_d_bits_source_0 == 7'h2B; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_13 = _source_ok_T_91; // @[Parameters.scala:1138:31] wire _source_ok_T_92 = io_in_d_bits_source_0 == 7'h28; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_14 = _source_ok_T_92; // @[Parameters.scala:1138:31] wire _source_ok_T_93 = io_in_d_bits_source_0 == 7'h29; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_15 = _source_ok_T_93; // @[Parameters.scala:1138:31] wire _source_ok_T_94 = io_in_d_bits_source_0 == 7'h22; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_16 = _source_ok_T_94; // @[Parameters.scala:1138:31] wire _source_ok_T_95 = io_in_d_bits_source_0 == 7'h20; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_17 = _source_ok_T_95; // @[Parameters.scala:1138:31] wire _source_ok_T_96 = io_in_d_bits_source_0 == 7'h21; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_18 = _source_ok_T_96; // @[Parameters.scala:1138:31] wire _source_ok_T_97 = io_in_d_bits_source_0 == 7'h40; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_19 = _source_ok_T_97; // @[Parameters.scala:1138:31] wire _source_ok_T_98 = _source_ok_WIRE_1_0 | _source_ok_WIRE_1_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_99 = _source_ok_T_98 | _source_ok_WIRE_1_2; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_100 = _source_ok_T_99 | _source_ok_WIRE_1_3; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_101 = _source_ok_T_100 | _source_ok_WIRE_1_4; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_102 = _source_ok_T_101 | _source_ok_WIRE_1_5; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_103 = _source_ok_T_102 | _source_ok_WIRE_1_6; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_104 = _source_ok_T_103 | _source_ok_WIRE_1_7; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_105 = _source_ok_T_104 | _source_ok_WIRE_1_8; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_106 = _source_ok_T_105 | _source_ok_WIRE_1_9; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_107 = _source_ok_T_106 | _source_ok_WIRE_1_10; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_108 = _source_ok_T_107 | _source_ok_WIRE_1_11; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_109 = _source_ok_T_108 | _source_ok_WIRE_1_12; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_110 = _source_ok_T_109 | _source_ok_WIRE_1_13; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_111 = _source_ok_T_110 | _source_ok_WIRE_1_14; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_112 = _source_ok_T_111 | _source_ok_WIRE_1_15; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_113 = _source_ok_T_112 | _source_ok_WIRE_1_16; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_114 = _source_ok_T_113 | _source_ok_WIRE_1_17; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_115 = _source_ok_T_114 | _source_ok_WIRE_1_18; // @[Parameters.scala:1138:31, :1139:46] wire source_ok_1 = _source_ok_T_115 | _source_ok_WIRE_1_19; // @[Parameters.scala:1138:31, :1139:46] wire _T_1452 = io_in_a_ready_0 & io_in_a_valid_0; // @[Decoupled.scala:51:35] wire _a_first_T; // @[Decoupled.scala:51:35] assign _a_first_T = _T_1452; // @[Decoupled.scala:51:35] wire _a_first_T_1; // @[Decoupled.scala:51:35] assign _a_first_T_1 = _T_1452; // @[Decoupled.scala:51:35] wire [5:0] _a_first_beats1_decode_T_1 = _a_first_beats1_decode_T[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _a_first_beats1_decode_T_2 = ~_a_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [2:0] a_first_beats1_decode = _a_first_beats1_decode_T_2[5:3]; // @[package.scala:243:46] wire _a_first_beats1_opdata_T = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire _a_first_beats1_opdata_T_1 = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire a_first_beats1_opdata = ~_a_first_beats1_opdata_T; // @[Edges.scala:92:{28,37}] wire [2:0] a_first_beats1 = a_first_beats1_opdata ? a_first_beats1_decode : 3'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [2:0] a_first_counter; // @[Edges.scala:229:27] wire [3:0] _a_first_counter1_T = {1'h0, a_first_counter} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] a_first_counter1 = _a_first_counter1_T[2:0]; // @[Edges.scala:230:28] wire a_first = a_first_counter == 3'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T = a_first_counter == 3'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_1 = a_first_beats1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last = _a_first_last_T | _a_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire a_first_done = a_first_last & _a_first_T; // @[Decoupled.scala:51:35] wire [2:0] _a_first_count_T = ~a_first_counter1; // @[Edges.scala:230:28, :234:27] wire [2:0] a_first_count = a_first_beats1 & _a_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _a_first_counter_T = a_first ? a_first_beats1 : a_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode; // @[Monitor.scala:387:22] reg [2:0] param; // @[Monitor.scala:388:22] reg [2:0] size; // @[Monitor.scala:389:22] reg [6:0] source; // @[Monitor.scala:390:22] reg [25:0] address; // @[Monitor.scala:391:22] wire _T_1525 = io_in_d_ready_0 & io_in_d_valid_0; // @[Decoupled.scala:51:35] wire _d_first_T; // @[Decoupled.scala:51:35] assign _d_first_T = _T_1525; // @[Decoupled.scala:51:35] wire _d_first_T_1; // @[Decoupled.scala:51:35] assign _d_first_T_1 = _T_1525; // @[Decoupled.scala:51:35] wire _d_first_T_2; // @[Decoupled.scala:51:35] assign _d_first_T_2 = _T_1525; // @[Decoupled.scala:51:35] wire [12:0] _GEN_0 = 13'h3F << io_in_d_bits_size_0; // @[package.scala:243:71] wire [12:0] _d_first_beats1_decode_T; // @[package.scala:243:71] assign _d_first_beats1_decode_T = _GEN_0; // @[package.scala:243:71] wire [12:0] _d_first_beats1_decode_T_3; // @[package.scala:243:71] assign _d_first_beats1_decode_T_3 = _GEN_0; // @[package.scala:243:71] wire [12:0] _d_first_beats1_decode_T_6; // @[package.scala:243:71] assign _d_first_beats1_decode_T_6 = _GEN_0; // @[package.scala:243:71] wire [5:0] _d_first_beats1_decode_T_1 = _d_first_beats1_decode_T[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _d_first_beats1_decode_T_2 = ~_d_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [2:0] d_first_beats1_decode = _d_first_beats1_decode_T_2[5:3]; // @[package.scala:243:46] wire d_first_beats1_opdata = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_1 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_2 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire [2:0] d_first_beats1 = d_first_beats1_opdata ? d_first_beats1_decode : 3'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [2:0] d_first_counter; // @[Edges.scala:229:27] wire [3:0] _d_first_counter1_T = {1'h0, d_first_counter} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] d_first_counter1 = _d_first_counter1_T[2:0]; // @[Edges.scala:230:28] wire d_first = d_first_counter == 3'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T = d_first_counter == 3'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_1 = d_first_beats1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last = _d_first_last_T | _d_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire d_first_done = d_first_last & _d_first_T; // @[Decoupled.scala:51:35] wire [2:0] _d_first_count_T = ~d_first_counter1; // @[Edges.scala:230:28, :234:27] wire [2:0] d_first_count = d_first_beats1 & _d_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _d_first_counter_T = d_first ? d_first_beats1 : d_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode_1; // @[Monitor.scala:538:22] reg [1:0] param_1; // @[Monitor.scala:539:22] reg [2:0] size_1; // @[Monitor.scala:540:22] reg [6:0] source_1; // @[Monitor.scala:541:22] reg sink; // @[Monitor.scala:542:22] reg denied; // @[Monitor.scala:543:22] reg [64:0] inflight; // @[Monitor.scala:614:27] reg [259:0] inflight_opcodes; // @[Monitor.scala:616:35] reg [259:0] inflight_sizes; // @[Monitor.scala:618:33] wire [5:0] _a_first_beats1_decode_T_4 = _a_first_beats1_decode_T_3[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _a_first_beats1_decode_T_5 = ~_a_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [2:0] a_first_beats1_decode_1 = _a_first_beats1_decode_T_5[5:3]; // @[package.scala:243:46] wire a_first_beats1_opdata_1 = ~_a_first_beats1_opdata_T_1; // @[Edges.scala:92:{28,37}] wire [2:0] a_first_beats1_1 = a_first_beats1_opdata_1 ? a_first_beats1_decode_1 : 3'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [2:0] a_first_counter_1; // @[Edges.scala:229:27] wire [3:0] _a_first_counter1_T_1 = {1'h0, a_first_counter_1} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] a_first_counter1_1 = _a_first_counter1_T_1[2:0]; // @[Edges.scala:230:28] wire a_first_1 = a_first_counter_1 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T_2 = a_first_counter_1 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_3 = a_first_beats1_1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last_1 = _a_first_last_T_2 | _a_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire a_first_done_1 = a_first_last_1 & _a_first_T_1; // @[Decoupled.scala:51:35] wire [2:0] _a_first_count_T_1 = ~a_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [2:0] a_first_count_1 = a_first_beats1_1 & _a_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _a_first_counter_T_1 = a_first_1 ? a_first_beats1_1 : a_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [5:0] _d_first_beats1_decode_T_4 = _d_first_beats1_decode_T_3[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _d_first_beats1_decode_T_5 = ~_d_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [2:0] d_first_beats1_decode_1 = _d_first_beats1_decode_T_5[5:3]; // @[package.scala:243:46] wire [2:0] d_first_beats1_1 = d_first_beats1_opdata_1 ? d_first_beats1_decode_1 : 3'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [2:0] d_first_counter_1; // @[Edges.scala:229:27] wire [3:0] _d_first_counter1_T_1 = {1'h0, d_first_counter_1} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] d_first_counter1_1 = _d_first_counter1_T_1[2:0]; // @[Edges.scala:230:28] wire d_first_1 = d_first_counter_1 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_2 = d_first_counter_1 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_3 = d_first_beats1_1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_1 = _d_first_last_T_2 | _d_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire d_first_done_1 = d_first_last_1 & _d_first_T_1; // @[Decoupled.scala:51:35] wire [2:0] _d_first_count_T_1 = ~d_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [2:0] d_first_count_1 = d_first_beats1_1 & _d_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _d_first_counter_T_1 = d_first_1 ? d_first_beats1_1 : d_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [64:0] a_set; // @[Monitor.scala:626:34] wire [64:0] a_set_wo_ready; // @[Monitor.scala:627:34] wire [259:0] a_opcodes_set; // @[Monitor.scala:630:33] wire [259:0] a_sizes_set; // @[Monitor.scala:632:31] wire [2:0] a_opcode_lookup; // @[Monitor.scala:635:35] wire [9:0] _GEN_1 = {1'h0, io_in_d_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :637:69] wire [9:0] _a_opcode_lookup_T; // @[Monitor.scala:637:69] assign _a_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69] wire [9:0] _a_size_lookup_T; // @[Monitor.scala:641:65] assign _a_size_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :641:65] wire [9:0] _d_opcodes_clr_T_4; // @[Monitor.scala:680:101] assign _d_opcodes_clr_T_4 = _GEN_1; // @[Monitor.scala:637:69, :680:101] wire [9:0] _d_sizes_clr_T_4; // @[Monitor.scala:681:99] assign _d_sizes_clr_T_4 = _GEN_1; // @[Monitor.scala:637:69, :681:99] wire [9:0] _c_opcode_lookup_T; // @[Monitor.scala:749:69] assign _c_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :749:69] wire [9:0] _c_size_lookup_T; // @[Monitor.scala:750:67] assign _c_size_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :750:67] wire [9:0] _d_opcodes_clr_T_10; // @[Monitor.scala:790:101] assign _d_opcodes_clr_T_10 = _GEN_1; // @[Monitor.scala:637:69, :790:101] wire [9:0] _d_sizes_clr_T_10; // @[Monitor.scala:791:99] assign _d_sizes_clr_T_10 = _GEN_1; // @[Monitor.scala:637:69, :791:99] wire [259:0] _a_opcode_lookup_T_1 = inflight_opcodes >> _a_opcode_lookup_T; // @[Monitor.scala:616:35, :637:{44,69}] wire [259:0] _a_opcode_lookup_T_6 = {256'h0, _a_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:637:{44,97}] wire [259:0] _a_opcode_lookup_T_7 = {1'h0, _a_opcode_lookup_T_6[259:1]}; // @[Monitor.scala:637:{97,152}] assign a_opcode_lookup = _a_opcode_lookup_T_7[2:0]; // @[Monitor.scala:635:35, :637:{21,152}] wire [3:0] a_size_lookup; // @[Monitor.scala:639:33] wire [259:0] _a_size_lookup_T_1 = inflight_sizes >> _a_size_lookup_T; // @[Monitor.scala:618:33, :641:{40,65}] wire [259:0] _a_size_lookup_T_6 = {256'h0, _a_size_lookup_T_1[3:0]}; // @[Monitor.scala:641:{40,91}] wire [259:0] _a_size_lookup_T_7 = {1'h0, _a_size_lookup_T_6[259:1]}; // @[Monitor.scala:641:{91,144}] assign a_size_lookup = _a_size_lookup_T_7[3:0]; // @[Monitor.scala:639:33, :641:{19,144}] wire [3:0] a_opcodes_set_interm; // @[Monitor.scala:646:40] wire [3:0] a_sizes_set_interm; // @[Monitor.scala:648:38] wire _same_cycle_resp_T = io_in_a_valid_0 & a_first_1; // @[Monitor.scala:36:7, :651:26, :684:44] wire [127:0] _GEN_2 = 128'h1 << io_in_a_bits_source_0; // @[OneHot.scala:58:35] wire [127:0] _a_set_wo_ready_T; // @[OneHot.scala:58:35] assign _a_set_wo_ready_T = _GEN_2; // @[OneHot.scala:58:35] wire [127:0] _a_set_T; // @[OneHot.scala:58:35] assign _a_set_T = _GEN_2; // @[OneHot.scala:58:35] assign a_set_wo_ready = _same_cycle_resp_T ? _a_set_wo_ready_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire _T_1378 = _T_1452 & a_first_1; // @[Decoupled.scala:51:35] assign a_set = _T_1378 ? _a_set_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire [3:0] _a_opcodes_set_interm_T = {io_in_a_bits_opcode_0, 1'h0}; // @[Monitor.scala:36:7, :657:53] wire [3:0] _a_opcodes_set_interm_T_1 = {_a_opcodes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:657:{53,61}] assign a_opcodes_set_interm = _T_1378 ? _a_opcodes_set_interm_T_1 : 4'h0; // @[Monitor.scala:646:40, :655:{25,70}, :657:{28,61}] wire [3:0] _a_sizes_set_interm_T = {io_in_a_bits_size_0, 1'h0}; // @[Monitor.scala:36:7, :658:51] wire [3:0] _a_sizes_set_interm_T_1 = {_a_sizes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:658:{51,59}] assign a_sizes_set_interm = _T_1378 ? _a_sizes_set_interm_T_1 : 4'h0; // @[Monitor.scala:648:38, :655:{25,70}, :658:{28,59}] wire [9:0] _GEN_3 = {1'h0, io_in_a_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :659:79] wire [9:0] _a_opcodes_set_T; // @[Monitor.scala:659:79] assign _a_opcodes_set_T = _GEN_3; // @[Monitor.scala:659:79] wire [9:0] _a_sizes_set_T; // @[Monitor.scala:660:77] assign _a_sizes_set_T = _GEN_3; // @[Monitor.scala:659:79, :660:77] wire [1026:0] _a_opcodes_set_T_1 = {1023'h0, a_opcodes_set_interm} << _a_opcodes_set_T; // @[Monitor.scala:646:40, :659:{54,79}] assign a_opcodes_set = _T_1378 ? _a_opcodes_set_T_1[259:0] : 260'h0; // @[Monitor.scala:630:33, :655:{25,70}, :659:{28,54}] wire [1026:0] _a_sizes_set_T_1 = {1023'h0, a_sizes_set_interm} << _a_sizes_set_T; // @[Monitor.scala:648:38, :659:54, :660:{52,77}] assign a_sizes_set = _T_1378 ? _a_sizes_set_T_1[259:0] : 260'h0; // @[Monitor.scala:632:31, :655:{25,70}, :660:{28,52}] wire [64:0] d_clr; // @[Monitor.scala:664:34] wire [64:0] d_clr_wo_ready; // @[Monitor.scala:665:34] wire [259:0] d_opcodes_clr; // @[Monitor.scala:668:33] wire [259:0] d_sizes_clr; // @[Monitor.scala:670:31] wire _GEN_4 = io_in_d_bits_opcode_0 == 3'h6; // @[Monitor.scala:36:7, :673:46] wire d_release_ack; // @[Monitor.scala:673:46] assign d_release_ack = _GEN_4; // @[Monitor.scala:673:46] wire d_release_ack_1; // @[Monitor.scala:783:46] assign d_release_ack_1 = _GEN_4; // @[Monitor.scala:673:46, :783:46] wire _T_1424 = io_in_d_valid_0 & d_first_1; // @[Monitor.scala:36:7, :674:26] wire [127:0] _GEN_5 = 128'h1 << io_in_d_bits_source_0; // @[OneHot.scala:58:35] wire [127:0] _d_clr_wo_ready_T; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T = _GEN_5; // @[OneHot.scala:58:35] wire [127:0] _d_clr_T; // @[OneHot.scala:58:35] assign _d_clr_T = _GEN_5; // @[OneHot.scala:58:35] wire [127:0] _d_clr_wo_ready_T_1; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T_1 = _GEN_5; // @[OneHot.scala:58:35] wire [127:0] _d_clr_T_1; // @[OneHot.scala:58:35] assign _d_clr_T_1 = _GEN_5; // @[OneHot.scala:58:35] assign d_clr_wo_ready = _T_1424 & ~d_release_ack ? _d_clr_wo_ready_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire _T_1393 = _T_1525 & d_first_1 & ~d_release_ack; // @[Decoupled.scala:51:35] assign d_clr = _T_1393 ? _d_clr_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire [1038:0] _d_opcodes_clr_T_5 = 1039'hF << _d_opcodes_clr_T_4; // @[Monitor.scala:680:{76,101}] assign d_opcodes_clr = _T_1393 ? _d_opcodes_clr_T_5[259:0] : 260'h0; // @[Monitor.scala:668:33, :678:{25,70,89}, :680:{21,76}] wire [1038:0] _d_sizes_clr_T_5 = 1039'hF << _d_sizes_clr_T_4; // @[Monitor.scala:681:{74,99}] assign d_sizes_clr = _T_1393 ? _d_sizes_clr_T_5[259:0] : 260'h0; // @[Monitor.scala:670:31, :678:{25,70,89}, :681:{21,74}] wire _same_cycle_resp_T_1 = _same_cycle_resp_T; // @[Monitor.scala:684:{44,55}] wire _same_cycle_resp_T_2 = io_in_a_bits_source_0 == io_in_d_bits_source_0; // @[Monitor.scala:36:7, :684:113] wire same_cycle_resp = _same_cycle_resp_T_1 & _same_cycle_resp_T_2; // @[Monitor.scala:684:{55,88,113}] wire [64:0] _inflight_T = inflight | a_set; // @[Monitor.scala:614:27, :626:34, :705:27] wire [64:0] _inflight_T_1 = ~d_clr; // @[Monitor.scala:664:34, :705:38] wire [64:0] _inflight_T_2 = _inflight_T & _inflight_T_1; // @[Monitor.scala:705:{27,36,38}] wire [259:0] _inflight_opcodes_T = inflight_opcodes | a_opcodes_set; // @[Monitor.scala:616:35, :630:33, :706:43] wire [259:0] _inflight_opcodes_T_1 = ~d_opcodes_clr; // @[Monitor.scala:668:33, :706:62] wire [259:0] _inflight_opcodes_T_2 = _inflight_opcodes_T & _inflight_opcodes_T_1; // @[Monitor.scala:706:{43,60,62}] wire [259:0] _inflight_sizes_T = inflight_sizes | a_sizes_set; // @[Monitor.scala:618:33, :632:31, :707:39] wire [259:0] _inflight_sizes_T_1 = ~d_sizes_clr; // @[Monitor.scala:670:31, :707:56] wire [259:0] _inflight_sizes_T_2 = _inflight_sizes_T & _inflight_sizes_T_1; // @[Monitor.scala:707:{39,54,56}] reg [31:0] watchdog; // @[Monitor.scala:709:27] wire [32:0] _watchdog_T = {1'h0, watchdog} + 33'h1; // @[Monitor.scala:709:27, :714:26] wire [31:0] _watchdog_T_1 = _watchdog_T[31:0]; // @[Monitor.scala:714:26] reg [64:0] inflight_1; // @[Monitor.scala:726:35] wire [64:0] _inflight_T_3 = inflight_1; // @[Monitor.scala:726:35, :814:35] reg [259:0] inflight_opcodes_1; // @[Monitor.scala:727:35] wire [259:0] _inflight_opcodes_T_3 = inflight_opcodes_1; // @[Monitor.scala:727:35, :815:43] reg [259:0] inflight_sizes_1; // @[Monitor.scala:728:35] wire [259:0] _inflight_sizes_T_3 = inflight_sizes_1; // @[Monitor.scala:728:35, :816:41] wire [5:0] _d_first_beats1_decode_T_7 = _d_first_beats1_decode_T_6[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _d_first_beats1_decode_T_8 = ~_d_first_beats1_decode_T_7; // @[package.scala:243:{46,76}] wire [2:0] d_first_beats1_decode_2 = _d_first_beats1_decode_T_8[5:3]; // @[package.scala:243:46] wire [2:0] d_first_beats1_2 = d_first_beats1_opdata_2 ? d_first_beats1_decode_2 : 3'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [2:0] d_first_counter_2; // @[Edges.scala:229:27] wire [3:0] _d_first_counter1_T_2 = {1'h0, d_first_counter_2} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] d_first_counter1_2 = _d_first_counter1_T_2[2:0]; // @[Edges.scala:230:28] wire d_first_2 = d_first_counter_2 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_4 = d_first_counter_2 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_5 = d_first_beats1_2 == 3'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_2 = _d_first_last_T_4 | _d_first_last_T_5; // @[Edges.scala:232:{25,33,43}] wire d_first_done_2 = d_first_last_2 & _d_first_T_2; // @[Decoupled.scala:51:35] wire [2:0] _d_first_count_T_2 = ~d_first_counter1_2; // @[Edges.scala:230:28, :234:27] wire [2:0] d_first_count_2 = d_first_beats1_2 & _d_first_count_T_2; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _d_first_counter_T_2 = d_first_2 ? d_first_beats1_2 : d_first_counter1_2; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [3:0] c_opcode_lookup; // @[Monitor.scala:747:35] wire [3:0] c_size_lookup; // @[Monitor.scala:748:35] wire [259:0] _c_opcode_lookup_T_1 = inflight_opcodes_1 >> _c_opcode_lookup_T; // @[Monitor.scala:727:35, :749:{44,69}] wire [259:0] _c_opcode_lookup_T_6 = {256'h0, _c_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:749:{44,97}] wire [259:0] _c_opcode_lookup_T_7 = {1'h0, _c_opcode_lookup_T_6[259:1]}; // @[Monitor.scala:749:{97,152}] assign c_opcode_lookup = _c_opcode_lookup_T_7[3:0]; // @[Monitor.scala:747:35, :749:{21,152}] wire [259:0] _c_size_lookup_T_1 = inflight_sizes_1 >> _c_size_lookup_T; // @[Monitor.scala:728:35, :750:{42,67}] wire [259:0] _c_size_lookup_T_6 = {256'h0, _c_size_lookup_T_1[3:0]}; // @[Monitor.scala:750:{42,93}] wire [259:0] _c_size_lookup_T_7 = {1'h0, _c_size_lookup_T_6[259:1]}; // @[Monitor.scala:750:{93,146}] assign c_size_lookup = _c_size_lookup_T_7[3:0]; // @[Monitor.scala:748:35, :750:{21,146}] wire [64:0] d_clr_1; // @[Monitor.scala:774:34] wire [64:0] d_clr_wo_ready_1; // @[Monitor.scala:775:34] wire [259:0] d_opcodes_clr_1; // @[Monitor.scala:776:34] wire [259:0] d_sizes_clr_1; // @[Monitor.scala:777:34] wire _T_1496 = io_in_d_valid_0 & d_first_2; // @[Monitor.scala:36:7, :784:26] assign d_clr_wo_ready_1 = _T_1496 & d_release_ack_1 ? _d_clr_wo_ready_T_1[64:0] : 65'h0; // @[OneHot.scala:58:35] wire _T_1478 = _T_1525 & d_first_2 & d_release_ack_1; // @[Decoupled.scala:51:35] assign d_clr_1 = _T_1478 ? _d_clr_T_1[64:0] : 65'h0; // @[OneHot.scala:58:35] wire [1038:0] _d_opcodes_clr_T_11 = 1039'hF << _d_opcodes_clr_T_10; // @[Monitor.scala:790:{76,101}] assign d_opcodes_clr_1 = _T_1478 ? _d_opcodes_clr_T_11[259:0] : 260'h0; // @[Monitor.scala:776:34, :788:{25,70,88}, :790:{21,76}] wire [1038:0] _d_sizes_clr_T_11 = 1039'hF << _d_sizes_clr_T_10; // @[Monitor.scala:791:{74,99}] assign d_sizes_clr_1 = _T_1478 ? _d_sizes_clr_T_11[259:0] : 260'h0; // @[Monitor.scala:777:34, :788:{25,70,88}, :791:{21,74}] wire _same_cycle_resp_T_8 = io_in_d_bits_source_0 == 7'h0; // @[Monitor.scala:36:7, :795:113] wire [64:0] _inflight_T_4 = ~d_clr_1; // @[Monitor.scala:774:34, :814:46] wire [64:0] _inflight_T_5 = _inflight_T_3 & _inflight_T_4; // @[Monitor.scala:814:{35,44,46}] wire [259:0] _inflight_opcodes_T_4 = ~d_opcodes_clr_1; // @[Monitor.scala:776:34, :815:62] wire [259:0] _inflight_opcodes_T_5 = _inflight_opcodes_T_3 & _inflight_opcodes_T_4; // @[Monitor.scala:815:{43,60,62}] wire [259:0] _inflight_sizes_T_4 = ~d_sizes_clr_1; // @[Monitor.scala:777:34, :816:58] wire [259:0] _inflight_sizes_T_5 = _inflight_sizes_T_3 & _inflight_sizes_T_4; // @[Monitor.scala:816:{41,56,58}] reg [31:0] watchdog_1; // @[Monitor.scala:818:27]
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File SynchronizerReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util.{RegEnable, Cat} /** These wrap behavioral * shift and next registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * * These are built up of *ResetSynchronizerPrimitiveShiftReg, * intended to be replaced by the integrator's metastable flops chains or replaced * at this level if they have a multi-bit wide synchronizer primitive. * The different types vary in their reset behavior: * NonSyncResetSynchronizerShiftReg -- Register array which does not have a reset pin * AsyncResetSynchronizerShiftReg -- Asynchronously reset register array, constructed from W instantiations of D deep * 1-bit-wide shift registers. * SyncResetSynchronizerShiftReg -- Synchronously reset register array, constructed similarly to AsyncResetSynchronizerShiftReg * * [Inferred]ResetSynchronizerShiftReg -- TBD reset type by chisel3 reset inference. * * ClockCrossingReg -- Not made up of SynchronizerPrimitiveShiftReg. This is for single-deep flops which cross * Clock Domains. */ object SynchronizerResetType extends Enumeration { val NonSync, Inferred, Sync, Async = Value } // Note: this should not be used directly. // Use the companion object to generate this with the correct reset type mixin. private class SynchronizerPrimitiveShiftReg( sync: Int, init: Boolean, resetType: SynchronizerResetType.Value) extends AbstractPipelineReg(1) { val initInt = if (init) 1 else 0 val initPostfix = resetType match { case SynchronizerResetType.NonSync => "" case _ => s"_i${initInt}" } override def desiredName = s"${resetType.toString}ResetSynchronizerPrimitiveShiftReg_d${sync}${initPostfix}" val chain = List.tabulate(sync) { i => val reg = if (resetType == SynchronizerResetType.NonSync) Reg(Bool()) else RegInit(init.B) reg.suggestName(s"sync_$i") } chain.last := io.d.asBool (chain.init zip chain.tail).foreach { case (sink, source) => sink := source } io.q := chain.head.asUInt } private object SynchronizerPrimitiveShiftReg { def apply (in: Bool, sync: Int, init: Boolean, resetType: SynchronizerResetType.Value): Bool = { val gen: () => SynchronizerPrimitiveShiftReg = resetType match { case SynchronizerResetType.NonSync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) case SynchronizerResetType.Async => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireAsyncReset case SynchronizerResetType.Sync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireSyncReset case SynchronizerResetType.Inferred => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) } AbstractPipelineReg(gen(), in) } } // Note: This module may end up with a non-AsyncReset type reset. // But the Primitives within will always have AsyncReset type. class AsyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"AsyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asAsyncReset){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Async) } } io.q := Cat(output.reverse) } object AsyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } // Note: This module may end up with a non-Bool type reset. // But the Primitives within will always have Bool reset type. @deprecated("SyncResetSynchronizerShiftReg is unecessary with Chisel3 inferred resets. Use ResetSynchronizerShiftReg which will use the inferred reset type.", "rocket-chip 1.2") class SyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asBool){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Sync) } } io.q := Cat(output.reverse) } object SyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class ResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"ResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Inferred) } io.q := Cat(output.reverse) } object ResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new ResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class SynchronizerShiftReg(w: Int = 1, sync: Int = 3) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SynchronizerShiftReg_w${w}_d${sync}" val output = Seq.tabulate(w) { i => SynchronizerPrimitiveShiftReg(io.d(i), sync, false, SynchronizerResetType.NonSync) } io.q := Cat(output.reverse) } object SynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SynchronizerShiftReg(in.getWidth, sync), in, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, None) def apply [T <: Data](in: T): T = apply (in, 3, None) } class ClockCrossingReg(w: Int = 1, doInit: Boolean) extends Module { override def desiredName = s"ClockCrossingReg_w${w}" val io = IO(new Bundle{ val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) val en = Input(Bool()) }) val cdc_reg = if (doInit) RegEnable(io.d, 0.U(w.W), io.en) else RegEnable(io.d, io.en) io.q := cdc_reg } object ClockCrossingReg { def apply [T <: Data](in: T, en: Bool, doInit: Boolean, name: Option[String] = None): T = { val cdc_reg = Module(new ClockCrossingReg(in.getWidth, doInit)) name.foreach{ cdc_reg.suggestName(_) } cdc_reg.io.d := in.asUInt cdc_reg.io.en := en cdc_reg.io.q.asTypeOf(in) } }
module AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_229( // @[SynchronizerReg.scala:68:19] input clock, // @[SynchronizerReg.scala:68:19] input reset, // @[SynchronizerReg.scala:68:19] input io_d, // @[ShiftReg.scala:36:14] output io_q // @[ShiftReg.scala:36:14] ); wire io_d_0 = io_d; // @[SynchronizerReg.scala:68:19] wire _sync_2_T = io_d_0; // @[SynchronizerReg.scala:54:22, :68:19] wire io_q_0; // @[SynchronizerReg.scala:68:19] reg sync_0; // @[SynchronizerReg.scala:51:87] assign io_q_0 = sync_0; // @[SynchronizerReg.scala:51:87, :68:19] reg sync_1; // @[SynchronizerReg.scala:51:87] reg sync_2; // @[SynchronizerReg.scala:51:87] always @(posedge clock or posedge reset) begin // @[SynchronizerReg.scala:68:19] if (reset) begin // @[SynchronizerReg.scala:68:19] sync_0 <= 1'h0; // @[SynchronizerReg.scala:51:87] sync_1 <= 1'h0; // @[SynchronizerReg.scala:51:87] sync_2 <= 1'h0; // @[SynchronizerReg.scala:51:87] end else begin // @[SynchronizerReg.scala:68:19] sync_0 <= sync_1; // @[SynchronizerReg.scala:51:87] sync_1 <= sync_2; // @[SynchronizerReg.scala:51:87] sync_2 <= _sync_2_T; // @[SynchronizerReg.scala:51:87, :54:22] end always @(posedge, posedge)
Generate the Verilog code corresponding to the following Chisel files. File PE.scala: // See README.md for license details. package gemmini import chisel3._ import chisel3.util._ class PEControl[T <: Data : Arithmetic](accType: T) extends Bundle { val dataflow = UInt(1.W) // TODO make this an Enum val propagate = UInt(1.W) // Which register should be propagated (and which should be accumulated)? val shift = UInt(log2Up(accType.getWidth).W) // TODO this isn't correct for Floats } class MacUnit[T <: Data](inputType: T, cType: T, dType: T) (implicit ev: Arithmetic[T]) extends Module { import ev._ val io = IO(new Bundle { val in_a = Input(inputType) val in_b = Input(inputType) val in_c = Input(cType) val out_d = Output(dType) }) io.out_d := io.in_c.mac(io.in_a, io.in_b) } // TODO update documentation /** * A PE implementing a MAC operation. Configured as fully combinational when integrated into a Mesh. * @param width Data width of operands */ class PE[T <: Data](inputType: T, outputType: T, accType: T, df: Dataflow.Value, max_simultaneous_matmuls: Int) (implicit ev: Arithmetic[T]) extends Module { // Debugging variables import ev._ val io = IO(new Bundle { val in_a = Input(inputType) val in_b = Input(outputType) val in_d = Input(outputType) val out_a = Output(inputType) val out_b = Output(outputType) val out_c = Output(outputType) val in_control = Input(new PEControl(accType)) val out_control = Output(new PEControl(accType)) val in_id = Input(UInt(log2Up(max_simultaneous_matmuls).W)) val out_id = Output(UInt(log2Up(max_simultaneous_matmuls).W)) val in_last = Input(Bool()) val out_last = Output(Bool()) val in_valid = Input(Bool()) val out_valid = Output(Bool()) val bad_dataflow = Output(Bool()) }) val cType = if (df == Dataflow.WS) inputType else accType // When creating PEs that support multiple dataflows, the // elaboration/synthesis tools often fail to consolidate and de-duplicate // MAC units. To force mac circuitry to be re-used, we create a "mac_unit" // module here which just performs a single MAC operation val mac_unit = Module(new MacUnit(inputType, if (df == Dataflow.WS) outputType else accType, outputType)) val a = io.in_a val b = io.in_b val d = io.in_d val c1 = Reg(cType) val c2 = Reg(cType) val dataflow = io.in_control.dataflow val prop = io.in_control.propagate val shift = io.in_control.shift val id = io.in_id val last = io.in_last val valid = io.in_valid io.out_a := a io.out_control.dataflow := dataflow io.out_control.propagate := prop io.out_control.shift := shift io.out_id := id io.out_last := last io.out_valid := valid mac_unit.io.in_a := a val last_s = RegEnable(prop, valid) val flip = last_s =/= prop val shift_offset = Mux(flip, shift, 0.U) // Which dataflow are we using? val OUTPUT_STATIONARY = Dataflow.OS.id.U(1.W) val WEIGHT_STATIONARY = Dataflow.WS.id.U(1.W) // Is c1 being computed on, or propagated forward (in the output-stationary dataflow)? val COMPUTE = 0.U(1.W) val PROPAGATE = 1.U(1.W) io.bad_dataflow := false.B when ((df == Dataflow.OS).B || ((df == Dataflow.BOTH).B && dataflow === OUTPUT_STATIONARY)) { when(prop === PROPAGATE) { io.out_c := (c1 >> shift_offset).clippedToWidthOf(outputType) io.out_b := b mac_unit.io.in_b := b.asTypeOf(inputType) mac_unit.io.in_c := c2 c2 := mac_unit.io.out_d c1 := d.withWidthOf(cType) }.otherwise { io.out_c := (c2 >> shift_offset).clippedToWidthOf(outputType) io.out_b := b mac_unit.io.in_b := b.asTypeOf(inputType) mac_unit.io.in_c := c1 c1 := mac_unit.io.out_d c2 := d.withWidthOf(cType) } }.elsewhen ((df == Dataflow.WS).B || ((df == Dataflow.BOTH).B && dataflow === WEIGHT_STATIONARY)) { when(prop === PROPAGATE) { io.out_c := c1 mac_unit.io.in_b := c2.asTypeOf(inputType) mac_unit.io.in_c := b io.out_b := mac_unit.io.out_d c1 := d }.otherwise { io.out_c := c2 mac_unit.io.in_b := c1.asTypeOf(inputType) mac_unit.io.in_c := b io.out_b := mac_unit.io.out_d c2 := d } }.otherwise { io.bad_dataflow := true.B //assert(false.B, "unknown dataflow") io.out_c := DontCare io.out_b := DontCare mac_unit.io.in_b := b.asTypeOf(inputType) mac_unit.io.in_c := c2 } when (!valid) { c1 := c1 c2 := c2 mac_unit.io.in_b := DontCare mac_unit.io.in_c := DontCare } } File recFNFromFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ object recFNFromFN { def apply(expWidth: Int, sigWidth: Int, in: Bits) = { val rawIn = rawFloatFromFN(expWidth, sigWidth, in) rawIn.sign ## (Mux(rawIn.isZero, 0.U(3.W), rawIn.sExp(expWidth, expWidth - 2)) | Mux(rawIn.isNaN, 1.U, 0.U)) ## rawIn.sExp(expWidth - 3, 0) ## rawIn.sig(sigWidth - 2, 0) } } File Arithmetic.scala: // A simple type class for Chisel datatypes that can add and multiply. To add your own type, simply create your own: // implicit MyTypeArithmetic extends Arithmetic[MyType] { ... } package gemmini import chisel3._ import chisel3.util._ import hardfloat._ // Bundles that represent the raw bits of custom datatypes case class Float(expWidth: Int, sigWidth: Int) extends Bundle { val bits = UInt((expWidth + sigWidth).W) val bias: Int = (1 << (expWidth-1)) - 1 } case class DummySInt(w: Int) extends Bundle { val bits = UInt(w.W) def dontCare: DummySInt = { val o = Wire(new DummySInt(w)) o.bits := 0.U o } } // The Arithmetic typeclass which implements various arithmetic operations on custom datatypes abstract class Arithmetic[T <: Data] { implicit def cast(t: T): ArithmeticOps[T] } abstract class ArithmeticOps[T <: Data](self: T) { def *(t: T): T def mac(m1: T, m2: T): T // Returns (m1 * m2 + self) def +(t: T): T def -(t: T): T def >>(u: UInt): T // This is a rounding shift! Rounds away from 0 def >(t: T): Bool def identity: T def withWidthOf(t: T): T def clippedToWidthOf(t: T): T // Like "withWidthOf", except that it saturates def relu: T def zero: T def minimum: T // Optional parameters, which only need to be defined if you want to enable various optimizations for transformers def divider(denom_t: UInt, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[T])] = None def sqrt: Option[(DecoupledIO[UInt], DecoupledIO[T])] = None def reciprocal[U <: Data](u: U, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[U])] = None def mult_with_reciprocal[U <: Data](reciprocal: U) = self } object Arithmetic { implicit object UIntArithmetic extends Arithmetic[UInt] { override implicit def cast(self: UInt) = new ArithmeticOps(self) { override def *(t: UInt) = self * t override def mac(m1: UInt, m2: UInt) = m1 * m2 + self override def +(t: UInt) = self + t override def -(t: UInt) = self - t override def >>(u: UInt) = { // The equation we use can be found here: https://riscv.github.io/documents/riscv-v-spec/#_vector_fixed_point_rounding_mode_register_vxrm // TODO Do we need to explicitly handle the cases where "u" is a small number (like 0)? What is the default behavior here? val point_five = Mux(u === 0.U, 0.U, self(u - 1.U)) val zeros = Mux(u <= 1.U, 0.U, self.asUInt & ((1.U << (u - 1.U)).asUInt - 1.U)) =/= 0.U val ones_digit = self(u) val r = point_five & (zeros | ones_digit) (self >> u).asUInt + r } override def >(t: UInt): Bool = self > t override def withWidthOf(t: UInt) = self.asTypeOf(t) override def clippedToWidthOf(t: UInt) = { val sat = ((1 << (t.getWidth-1))-1).U Mux(self > sat, sat, self)(t.getWidth-1, 0) } override def relu: UInt = self override def zero: UInt = 0.U override def identity: UInt = 1.U override def minimum: UInt = 0.U } } implicit object SIntArithmetic extends Arithmetic[SInt] { override implicit def cast(self: SInt) = new ArithmeticOps(self) { override def *(t: SInt) = self * t override def mac(m1: SInt, m2: SInt) = m1 * m2 + self override def +(t: SInt) = self + t override def -(t: SInt) = self - t override def >>(u: UInt) = { // The equation we use can be found here: https://riscv.github.io/documents/riscv-v-spec/#_vector_fixed_point_rounding_mode_register_vxrm // TODO Do we need to explicitly handle the cases where "u" is a small number (like 0)? What is the default behavior here? val point_five = Mux(u === 0.U, 0.U, self(u - 1.U)) val zeros = Mux(u <= 1.U, 0.U, self.asUInt & ((1.U << (u - 1.U)).asUInt - 1.U)) =/= 0.U val ones_digit = self(u) val r = (point_five & (zeros | ones_digit)).asBool (self >> u).asSInt + Mux(r, 1.S, 0.S) } override def >(t: SInt): Bool = self > t override def withWidthOf(t: SInt) = { if (self.getWidth >= t.getWidth) self(t.getWidth-1, 0).asSInt else { val sign_bits = t.getWidth - self.getWidth val sign = self(self.getWidth-1) Cat(Cat(Seq.fill(sign_bits)(sign)), self).asTypeOf(t) } } override def clippedToWidthOf(t: SInt): SInt = { val maxsat = ((1 << (t.getWidth-1))-1).S val minsat = (-(1 << (t.getWidth-1))).S MuxCase(self, Seq((self > maxsat) -> maxsat, (self < minsat) -> minsat))(t.getWidth-1, 0).asSInt } override def relu: SInt = Mux(self >= 0.S, self, 0.S) override def zero: SInt = 0.S override def identity: SInt = 1.S override def minimum: SInt = (-(1 << (self.getWidth-1))).S override def divider(denom_t: UInt, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[SInt])] = { // TODO this uses a floating point divider, but we should use an integer divider instead val input = Wire(Decoupled(denom_t.cloneType)) val output = Wire(Decoupled(self.cloneType)) // We translate our integer to floating-point form so that we can use the hardfloat divider val expWidth = log2Up(self.getWidth) + 1 val sigWidth = self.getWidth def sin_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_minMag // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def uin_to_float(x: UInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := false.B in_to_rec_fn.io.in := x in_to_rec_fn.io.roundingMode := consts.round_minMag // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def float_to_in(x: UInt) = { val rec_fn_to_in = Module(new RecFNToIN(expWidth = expWidth, sigWidth, self.getWidth)) rec_fn_to_in.io.signedOut := true.B rec_fn_to_in.io.in := x rec_fn_to_in.io.roundingMode := consts.round_minMag // consts.round_near_maxMag rec_fn_to_in.io.out.asSInt } val self_rec = sin_to_float(self) val denom_rec = uin_to_float(input.bits) // Instantiate the hardloat divider val divider = Module(new DivSqrtRecFN_small(expWidth, sigWidth, options)) input.ready := divider.io.inReady divider.io.inValid := input.valid divider.io.sqrtOp := false.B divider.io.a := self_rec divider.io.b := denom_rec divider.io.roundingMode := consts.round_minMag divider.io.detectTininess := consts.tininess_afterRounding output.valid := divider.io.outValid_div output.bits := float_to_in(divider.io.out) assert(!output.valid || output.ready) Some((input, output)) } override def sqrt: Option[(DecoupledIO[UInt], DecoupledIO[SInt])] = { // TODO this uses a floating point divider, but we should use an integer divider instead val input = Wire(Decoupled(UInt(0.W))) val output = Wire(Decoupled(self.cloneType)) input.bits := DontCare // We translate our integer to floating-point form so that we can use the hardfloat divider val expWidth = log2Up(self.getWidth) + 1 val sigWidth = self.getWidth def in_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_minMag // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def float_to_in(x: UInt) = { val rec_fn_to_in = Module(new RecFNToIN(expWidth = expWidth, sigWidth, self.getWidth)) rec_fn_to_in.io.signedOut := true.B rec_fn_to_in.io.in := x rec_fn_to_in.io.roundingMode := consts.round_minMag // consts.round_near_maxMag rec_fn_to_in.io.out.asSInt } val self_rec = in_to_float(self) // Instantiate the hardloat sqrt val sqrter = Module(new DivSqrtRecFN_small(expWidth, sigWidth, 0)) input.ready := sqrter.io.inReady sqrter.io.inValid := input.valid sqrter.io.sqrtOp := true.B sqrter.io.a := self_rec sqrter.io.b := DontCare sqrter.io.roundingMode := consts.round_minMag sqrter.io.detectTininess := consts.tininess_afterRounding output.valid := sqrter.io.outValid_sqrt output.bits := float_to_in(sqrter.io.out) assert(!output.valid || output.ready) Some((input, output)) } override def reciprocal[U <: Data](u: U, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[U])] = u match { case Float(expWidth, sigWidth) => val input = Wire(Decoupled(UInt(0.W))) val output = Wire(Decoupled(u.cloneType)) input.bits := DontCare // We translate our integer to floating-point form so that we can use the hardfloat divider def in_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_near_even // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } val self_rec = in_to_float(self) val one_rec = in_to_float(1.S) // Instantiate the hardloat divider val divider = Module(new DivSqrtRecFN_small(expWidth, sigWidth, options)) input.ready := divider.io.inReady divider.io.inValid := input.valid divider.io.sqrtOp := false.B divider.io.a := one_rec divider.io.b := self_rec divider.io.roundingMode := consts.round_near_even divider.io.detectTininess := consts.tininess_afterRounding output.valid := divider.io.outValid_div output.bits := fNFromRecFN(expWidth, sigWidth, divider.io.out).asTypeOf(u) assert(!output.valid || output.ready) Some((input, output)) case _ => None } override def mult_with_reciprocal[U <: Data](reciprocal: U): SInt = reciprocal match { case recip @ Float(expWidth, sigWidth) => def in_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_near_even // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def float_to_in(x: UInt) = { val rec_fn_to_in = Module(new RecFNToIN(expWidth = expWidth, sigWidth, self.getWidth)) rec_fn_to_in.io.signedOut := true.B rec_fn_to_in.io.in := x rec_fn_to_in.io.roundingMode := consts.round_minMag rec_fn_to_in.io.out.asSInt } val self_rec = in_to_float(self) val reciprocal_rec = recFNFromFN(expWidth, sigWidth, recip.bits) // Instantiate the hardloat divider val muladder = Module(new MulRecFN(expWidth, sigWidth)) muladder.io.roundingMode := consts.round_near_even muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := self_rec muladder.io.b := reciprocal_rec float_to_in(muladder.io.out) case _ => self } } } implicit object FloatArithmetic extends Arithmetic[Float] { // TODO Floating point arithmetic currently switches between recoded and standard formats for every operation. However, it should stay in the recoded format as it travels through the systolic array override implicit def cast(self: Float): ArithmeticOps[Float] = new ArithmeticOps(self) { override def *(t: Float): Float = { val t_rec = recFNFromFN(t.expWidth, t.sigWidth, t.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) val t_resizer = Module(new RecFNToRecFN(t.expWidth, t.sigWidth, self.expWidth, self.sigWidth)) t_resizer.io.in := t_rec t_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag t_resizer.io.detectTininess := consts.tininess_afterRounding val t_rec_resized = t_resizer.io.out val muladder = Module(new MulRecFN(self.expWidth, self.sigWidth)) muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := self_rec muladder.io.b := t_rec_resized val out = Wire(Float(self.expWidth, self.sigWidth)) out.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) out } override def mac(m1: Float, m2: Float): Float = { // Recode all operands val m1_rec = recFNFromFN(m1.expWidth, m1.sigWidth, m1.bits) val m2_rec = recFNFromFN(m2.expWidth, m2.sigWidth, m2.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Resize m1 to self's width val m1_resizer = Module(new RecFNToRecFN(m1.expWidth, m1.sigWidth, self.expWidth, self.sigWidth)) m1_resizer.io.in := m1_rec m1_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag m1_resizer.io.detectTininess := consts.tininess_afterRounding val m1_rec_resized = m1_resizer.io.out // Resize m2 to self's width val m2_resizer = Module(new RecFNToRecFN(m2.expWidth, m2.sigWidth, self.expWidth, self.sigWidth)) m2_resizer.io.in := m2_rec m2_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag m2_resizer.io.detectTininess := consts.tininess_afterRounding val m2_rec_resized = m2_resizer.io.out // Perform multiply-add val muladder = Module(new MulAddRecFN(self.expWidth, self.sigWidth)) muladder.io.op := 0.U muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := m1_rec_resized muladder.io.b := m2_rec_resized muladder.io.c := self_rec // Convert result to standard format // TODO remove these intermediate recodings val out = Wire(Float(self.expWidth, self.sigWidth)) out.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) out } override def +(t: Float): Float = { require(self.getWidth >= t.getWidth) // This just makes it easier to write the resizing code // Recode all operands val t_rec = recFNFromFN(t.expWidth, t.sigWidth, t.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Generate 1 as a float val in_to_rec_fn = Module(new INToRecFN(1, self.expWidth, self.sigWidth)) in_to_rec_fn.io.signedIn := false.B in_to_rec_fn.io.in := 1.U in_to_rec_fn.io.roundingMode := consts.round_near_even // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding val one_rec = in_to_rec_fn.io.out // Resize t val t_resizer = Module(new RecFNToRecFN(t.expWidth, t.sigWidth, self.expWidth, self.sigWidth)) t_resizer.io.in := t_rec t_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag t_resizer.io.detectTininess := consts.tininess_afterRounding val t_rec_resized = t_resizer.io.out // Perform addition val muladder = Module(new MulAddRecFN(self.expWidth, self.sigWidth)) muladder.io.op := 0.U muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := t_rec_resized muladder.io.b := one_rec muladder.io.c := self_rec val result = Wire(Float(self.expWidth, self.sigWidth)) result.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) result } override def -(t: Float): Float = { val t_sgn = t.bits(t.getWidth-1) val neg_t = Cat(~t_sgn, t.bits(t.getWidth-2,0)).asTypeOf(t) self + neg_t } override def >>(u: UInt): Float = { // Recode self val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Get 2^(-u) as a recoded float val shift_exp = Wire(UInt(self.expWidth.W)) shift_exp := self.bias.U - u val shift_fn = Cat(0.U(1.W), shift_exp, 0.U((self.sigWidth-1).W)) val shift_rec = recFNFromFN(self.expWidth, self.sigWidth, shift_fn) assert(shift_exp =/= 0.U, "scaling by denormalized numbers is not currently supported") // Multiply self and 2^(-u) val muladder = Module(new MulRecFN(self.expWidth, self.sigWidth)) muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := self_rec muladder.io.b := shift_rec val result = Wire(Float(self.expWidth, self.sigWidth)) result.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) result } override def >(t: Float): Bool = { // Recode all operands val t_rec = recFNFromFN(t.expWidth, t.sigWidth, t.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Resize t to self's width val t_resizer = Module(new RecFNToRecFN(t.expWidth, t.sigWidth, self.expWidth, self.sigWidth)) t_resizer.io.in := t_rec t_resizer.io.roundingMode := consts.round_near_even t_resizer.io.detectTininess := consts.tininess_afterRounding val t_rec_resized = t_resizer.io.out val comparator = Module(new CompareRecFN(self.expWidth, self.sigWidth)) comparator.io.a := self_rec comparator.io.b := t_rec_resized comparator.io.signaling := false.B comparator.io.gt } override def withWidthOf(t: Float): Float = { val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) val resizer = Module(new RecFNToRecFN(self.expWidth, self.sigWidth, t.expWidth, t.sigWidth)) resizer.io.in := self_rec resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag resizer.io.detectTininess := consts.tininess_afterRounding val result = Wire(Float(t.expWidth, t.sigWidth)) result.bits := fNFromRecFN(t.expWidth, t.sigWidth, resizer.io.out) result } override def clippedToWidthOf(t: Float): Float = { // TODO check for overflow. Right now, we just assume that overflow doesn't happen val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) val resizer = Module(new RecFNToRecFN(self.expWidth, self.sigWidth, t.expWidth, t.sigWidth)) resizer.io.in := self_rec resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag resizer.io.detectTininess := consts.tininess_afterRounding val result = Wire(Float(t.expWidth, t.sigWidth)) result.bits := fNFromRecFN(t.expWidth, t.sigWidth, resizer.io.out) result } override def relu: Float = { val raw = rawFloatFromFN(self.expWidth, self.sigWidth, self.bits) val result = Wire(Float(self.expWidth, self.sigWidth)) result.bits := Mux(!raw.isZero && raw.sign, 0.U, self.bits) result } override def zero: Float = 0.U.asTypeOf(self) override def identity: Float = Cat(0.U(2.W), ~(0.U((self.expWidth-1).W)), 0.U((self.sigWidth-1).W)).asTypeOf(self) override def minimum: Float = Cat(1.U, ~(0.U(self.expWidth.W)), 0.U((self.sigWidth-1).W)).asTypeOf(self) } } implicit object DummySIntArithmetic extends Arithmetic[DummySInt] { override implicit def cast(self: DummySInt) = new ArithmeticOps(self) { override def *(t: DummySInt) = self.dontCare override def mac(m1: DummySInt, m2: DummySInt) = self.dontCare override def +(t: DummySInt) = self.dontCare override def -(t: DummySInt) = self.dontCare override def >>(t: UInt) = self.dontCare override def >(t: DummySInt): Bool = false.B override def identity = self.dontCare override def withWidthOf(t: DummySInt) = self.dontCare override def clippedToWidthOf(t: DummySInt) = self.dontCare override def relu = self.dontCare override def zero = self.dontCare override def minimum: DummySInt = self.dontCare } } } File fNFromRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ object fNFromRecFN { def apply(expWidth: Int, sigWidth: Int, in: Bits) = { val minNormExp = (BigInt(1)<<(expWidth - 1)) + 2 val rawIn = rawFloatFromRecFN(expWidth, sigWidth, in) val isSubnormal = rawIn.sExp < minNormExp.S val denormShiftDist = 1.U - rawIn.sExp(log2Up(sigWidth - 1) - 1, 0) val denormFract = ((rawIn.sig>>1)>>denormShiftDist)(sigWidth - 2, 0) val expOut = Mux(isSubnormal, 0.U, rawIn.sExp(expWidth - 1, 0) - ((BigInt(1)<<(expWidth - 1)) + 1).U ) | Fill(expWidth, rawIn.isNaN || rawIn.isInf) val fractOut = Mux(isSubnormal, denormFract, Mux(rawIn.isInf, 0.U, rawIn.sig(sigWidth - 2, 0)) ) Cat(rawIn.sign, expOut, fractOut) } } File rawFloatFromFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ object rawFloatFromFN { def apply(expWidth: Int, sigWidth: Int, in: Bits) = { val sign = in(expWidth + sigWidth - 1) val expIn = in(expWidth + sigWidth - 2, sigWidth - 1) val fractIn = in(sigWidth - 2, 0) val isZeroExpIn = (expIn === 0.U) val isZeroFractIn = (fractIn === 0.U) val normDist = countLeadingZeros(fractIn) val subnormFract = (fractIn << normDist) (sigWidth - 3, 0) << 1 val adjustedExp = Mux(isZeroExpIn, normDist ^ ((BigInt(1) << (expWidth + 1)) - 1).U, expIn ) + ((BigInt(1) << (expWidth - 1)).U | Mux(isZeroExpIn, 2.U, 1.U)) val isZero = isZeroExpIn && isZeroFractIn val isSpecial = adjustedExp(expWidth, expWidth - 1) === 3.U val out = Wire(new RawFloat(expWidth, sigWidth)) out.isNaN := isSpecial && !isZeroFractIn out.isInf := isSpecial && isZeroFractIn out.isZero := isZero out.sign := sign out.sExp := adjustedExp(expWidth, 0).zext out.sig := 0.U(1.W) ## !isZero ## Mux(isZeroExpIn, subnormFract, fractIn) out } } File rawFloatFromRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ /*---------------------------------------------------------------------------- | In the result, no more than one of 'isNaN', 'isInf', and 'isZero' will be | set. *----------------------------------------------------------------------------*/ object rawFloatFromRecFN { def apply(expWidth: Int, sigWidth: Int, in: Bits): RawFloat = { val exp = in(expWidth + sigWidth - 1, sigWidth - 1) val isZero = exp(expWidth, expWidth - 2) === 0.U val isSpecial = exp(expWidth, expWidth - 1) === 3.U val out = Wire(new RawFloat(expWidth, sigWidth)) out.isNaN := isSpecial && exp(expWidth - 2) out.isInf := isSpecial && ! exp(expWidth - 2) out.isZero := isZero out.sign := in(expWidth + sigWidth) out.sExp := exp.zext out.sig := 0.U(1.W) ## ! isZero ## in(sigWidth - 2, 0) out } }
module PE_24( // @[PE.scala:31:7] input clock, // @[PE.scala:31:7] input reset, // @[PE.scala:31:7] input [31:0] io_in_a_bits, // @[PE.scala:35:14] input [31:0] io_in_b_bits, // @[PE.scala:35:14] input [31:0] io_in_d_bits, // @[PE.scala:35:14] output [31:0] io_out_a_bits, // @[PE.scala:35:14] output [31:0] io_out_b_bits, // @[PE.scala:35:14] output [31:0] io_out_c_bits, // @[PE.scala:35:14] input io_in_control_dataflow, // @[PE.scala:35:14] input io_in_control_propagate, // @[PE.scala:35:14] input [4:0] io_in_control_shift, // @[PE.scala:35:14] output io_out_control_dataflow, // @[PE.scala:35:14] output io_out_control_propagate, // @[PE.scala:35:14] output [4:0] io_out_control_shift, // @[PE.scala:35:14] input [3:0] io_in_id, // @[PE.scala:35:14] output [3:0] io_out_id, // @[PE.scala:35:14] input io_in_last, // @[PE.scala:35:14] output io_out_last, // @[PE.scala:35:14] input io_in_valid, // @[PE.scala:35:14] output io_out_valid, // @[PE.scala:35:14] output io_bad_dataflow // @[PE.scala:35:14] ); wire c2_self_rec_rawIn_isNaN; // @[rawFloatFromFN.scala:63:19] wire io_out_c_self_rec_rawIn_3_isNaN; // @[rawFloatFromFN.scala:63:19] wire io_out_c_shift_rec_rawIn_1_isNaN; // @[rawFloatFromFN.scala:63:19] wire io_out_c_self_rec_rawIn_2_isNaN; // @[rawFloatFromFN.scala:63:19] wire c1_self_rec_rawIn_isNaN; // @[rawFloatFromFN.scala:63:19] wire io_out_c_self_rec_rawIn_1_isNaN; // @[rawFloatFromFN.scala:63:19] wire io_out_c_shift_rec_rawIn_isNaN; // @[rawFloatFromFN.scala:63:19] wire io_out_c_self_rec_rawIn_isNaN; // @[rawFloatFromFN.scala:63:19] wire [32:0] _c2_resizer_io_out; // @[Arithmetic.scala:486:29] wire [32:0] _io_out_c_resizer_1_io_out; // @[Arithmetic.scala:500:29] wire [32:0] _io_out_c_muladder_1_io_out; // @[Arithmetic.scala:450:30] wire [32:0] _c1_resizer_io_out; // @[Arithmetic.scala:486:29] wire [32:0] _io_out_c_resizer_io_out; // @[Arithmetic.scala:500:29] wire [32:0] _io_out_c_muladder_io_out; // @[Arithmetic.scala:450:30] wire [31:0] _mac_unit_io_out_d_bits; // @[PE.scala:64:24] wire [31:0] io_in_a_bits_0 = io_in_a_bits; // @[PE.scala:31:7] wire [31:0] io_in_b_bits_0 = io_in_b_bits; // @[PE.scala:31:7] wire [31:0] io_in_d_bits_0 = io_in_d_bits; // @[PE.scala:31:7] wire io_in_control_dataflow_0 = io_in_control_dataflow; // @[PE.scala:31:7] wire io_in_control_propagate_0 = io_in_control_propagate; // @[PE.scala:31:7] wire [4:0] io_in_control_shift_0 = io_in_control_shift; // @[PE.scala:31:7] wire [3:0] io_in_id_0 = io_in_id; // @[PE.scala:31:7] wire io_in_last_0 = io_in_last; // @[PE.scala:31:7] wire io_in_valid_0 = io_in_valid; // @[PE.scala:31:7] wire _io_out_c_T_1 = reset; // @[Arithmetic.scala:447:15] wire _io_out_c_T_5 = reset; // @[Arithmetic.scala:447:15] wire io_bad_dataflow_0 = 1'h0; // @[PE.scala:31:7] wire [31:0] io_out_a_bits_0 = io_in_a_bits_0; // @[PE.scala:31:7] wire [31:0] _mac_unit_io_in_b_WIRE_1 = io_in_b_bits_0; // @[PE.scala:31:7, :106:37] wire [31:0] _mac_unit_io_in_b_WIRE_3 = io_in_b_bits_0; // @[PE.scala:31:7, :113:37] wire [31:0] _mac_unit_io_in_b_WIRE_9 = io_in_b_bits_0; // @[PE.scala:31:7, :137:35] wire io_out_control_dataflow_0 = io_in_control_dataflow_0; // @[PE.scala:31:7] wire io_out_control_propagate_0 = io_in_control_propagate_0; // @[PE.scala:31:7] wire [4:0] io_out_control_shift_0 = io_in_control_shift_0; // @[PE.scala:31:7] wire [3:0] io_out_id_0 = io_in_id_0; // @[PE.scala:31:7] wire io_out_last_0 = io_in_last_0; // @[PE.scala:31:7] wire io_out_valid_0 = io_in_valid_0; // @[PE.scala:31:7] wire [31:0] io_out_b_bits_0; // @[PE.scala:31:7] wire [31:0] io_out_c_bits_0; // @[PE.scala:31:7] reg [31:0] c1_bits; // @[PE.scala:70:15] wire [31:0] _mac_unit_io_in_b_WIRE_7 = c1_bits; // @[PE.scala:70:15, :127:38] reg [31:0] c2_bits; // @[PE.scala:71:15] wire [31:0] _mac_unit_io_in_b_WIRE_5 = c2_bits; // @[PE.scala:71:15, :121:38] reg last_s; // @[PE.scala:89:25] wire flip = last_s != io_in_control_propagate_0; // @[PE.scala:31:7, :89:25, :90:21] wire [4:0] shift_offset = flip ? io_in_control_shift_0 : 5'h0; // @[PE.scala:31:7, :90:21, :91:25] wire io_out_c_self_rec_rawIn_sign = c1_bits[31]; // @[rawFloatFromFN.scala:44:18] wire io_out_c_self_rec_rawIn_sign_0 = io_out_c_self_rec_rawIn_sign; // @[rawFloatFromFN.scala:44:18, :63:19] wire [7:0] io_out_c_self_rec_rawIn_expIn = c1_bits[30:23]; // @[rawFloatFromFN.scala:45:19] wire [22:0] io_out_c_self_rec_rawIn_fractIn = c1_bits[22:0]; // @[rawFloatFromFN.scala:46:21] wire io_out_c_self_rec_rawIn_isZeroExpIn = io_out_c_self_rec_rawIn_expIn == 8'h0; // @[rawFloatFromFN.scala:45:19, :48:30] wire io_out_c_self_rec_rawIn_isZeroFractIn = io_out_c_self_rec_rawIn_fractIn == 23'h0; // @[rawFloatFromFN.scala:46:21, :49:34] wire _io_out_c_self_rec_rawIn_normDist_T = io_out_c_self_rec_rawIn_fractIn[0]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_1 = io_out_c_self_rec_rawIn_fractIn[1]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_2 = io_out_c_self_rec_rawIn_fractIn[2]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_3 = io_out_c_self_rec_rawIn_fractIn[3]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_4 = io_out_c_self_rec_rawIn_fractIn[4]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_5 = io_out_c_self_rec_rawIn_fractIn[5]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_6 = io_out_c_self_rec_rawIn_fractIn[6]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_7 = io_out_c_self_rec_rawIn_fractIn[7]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_8 = io_out_c_self_rec_rawIn_fractIn[8]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_9 = io_out_c_self_rec_rawIn_fractIn[9]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_10 = io_out_c_self_rec_rawIn_fractIn[10]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_11 = io_out_c_self_rec_rawIn_fractIn[11]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_12 = io_out_c_self_rec_rawIn_fractIn[12]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_13 = io_out_c_self_rec_rawIn_fractIn[13]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_14 = io_out_c_self_rec_rawIn_fractIn[14]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_15 = io_out_c_self_rec_rawIn_fractIn[15]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_16 = io_out_c_self_rec_rawIn_fractIn[16]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_17 = io_out_c_self_rec_rawIn_fractIn[17]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_18 = io_out_c_self_rec_rawIn_fractIn[18]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_19 = io_out_c_self_rec_rawIn_fractIn[19]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_20 = io_out_c_self_rec_rawIn_fractIn[20]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_21 = io_out_c_self_rec_rawIn_fractIn[21]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_22 = io_out_c_self_rec_rawIn_fractIn[22]; // @[rawFloatFromFN.scala:46:21] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_23 = _io_out_c_self_rec_rawIn_normDist_T_1 ? 5'h15 : 5'h16; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_24 = _io_out_c_self_rec_rawIn_normDist_T_2 ? 5'h14 : _io_out_c_self_rec_rawIn_normDist_T_23; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_25 = _io_out_c_self_rec_rawIn_normDist_T_3 ? 5'h13 : _io_out_c_self_rec_rawIn_normDist_T_24; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_26 = _io_out_c_self_rec_rawIn_normDist_T_4 ? 5'h12 : _io_out_c_self_rec_rawIn_normDist_T_25; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_27 = _io_out_c_self_rec_rawIn_normDist_T_5 ? 5'h11 : _io_out_c_self_rec_rawIn_normDist_T_26; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_28 = _io_out_c_self_rec_rawIn_normDist_T_6 ? 5'h10 : _io_out_c_self_rec_rawIn_normDist_T_27; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_29 = _io_out_c_self_rec_rawIn_normDist_T_7 ? 5'hF : _io_out_c_self_rec_rawIn_normDist_T_28; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_30 = _io_out_c_self_rec_rawIn_normDist_T_8 ? 5'hE : _io_out_c_self_rec_rawIn_normDist_T_29; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_31 = _io_out_c_self_rec_rawIn_normDist_T_9 ? 5'hD : _io_out_c_self_rec_rawIn_normDist_T_30; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_32 = _io_out_c_self_rec_rawIn_normDist_T_10 ? 5'hC : _io_out_c_self_rec_rawIn_normDist_T_31; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_33 = _io_out_c_self_rec_rawIn_normDist_T_11 ? 5'hB : _io_out_c_self_rec_rawIn_normDist_T_32; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_34 = _io_out_c_self_rec_rawIn_normDist_T_12 ? 5'hA : _io_out_c_self_rec_rawIn_normDist_T_33; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_35 = _io_out_c_self_rec_rawIn_normDist_T_13 ? 5'h9 : _io_out_c_self_rec_rawIn_normDist_T_34; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_36 = _io_out_c_self_rec_rawIn_normDist_T_14 ? 5'h8 : _io_out_c_self_rec_rawIn_normDist_T_35; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_37 = _io_out_c_self_rec_rawIn_normDist_T_15 ? 5'h7 : _io_out_c_self_rec_rawIn_normDist_T_36; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_38 = _io_out_c_self_rec_rawIn_normDist_T_16 ? 5'h6 : _io_out_c_self_rec_rawIn_normDist_T_37; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_39 = _io_out_c_self_rec_rawIn_normDist_T_17 ? 5'h5 : _io_out_c_self_rec_rawIn_normDist_T_38; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_40 = _io_out_c_self_rec_rawIn_normDist_T_18 ? 5'h4 : _io_out_c_self_rec_rawIn_normDist_T_39; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_41 = _io_out_c_self_rec_rawIn_normDist_T_19 ? 5'h3 : _io_out_c_self_rec_rawIn_normDist_T_40; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_42 = _io_out_c_self_rec_rawIn_normDist_T_20 ? 5'h2 : _io_out_c_self_rec_rawIn_normDist_T_41; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_43 = _io_out_c_self_rec_rawIn_normDist_T_21 ? 5'h1 : _io_out_c_self_rec_rawIn_normDist_T_42; // @[Mux.scala:50:70] wire [4:0] io_out_c_self_rec_rawIn_normDist = _io_out_c_self_rec_rawIn_normDist_T_22 ? 5'h0 : _io_out_c_self_rec_rawIn_normDist_T_43; // @[Mux.scala:50:70] wire [53:0] _io_out_c_self_rec_rawIn_subnormFract_T = {31'h0, io_out_c_self_rec_rawIn_fractIn} << io_out_c_self_rec_rawIn_normDist; // @[Mux.scala:50:70] wire [21:0] _io_out_c_self_rec_rawIn_subnormFract_T_1 = _io_out_c_self_rec_rawIn_subnormFract_T[21:0]; // @[rawFloatFromFN.scala:52:{33,46}] wire [22:0] io_out_c_self_rec_rawIn_subnormFract = {_io_out_c_self_rec_rawIn_subnormFract_T_1, 1'h0}; // @[rawFloatFromFN.scala:52:{46,64}] wire [8:0] _io_out_c_self_rec_rawIn_adjustedExp_T = {4'hF, ~io_out_c_self_rec_rawIn_normDist}; // @[Mux.scala:50:70] wire [8:0] _io_out_c_self_rec_rawIn_adjustedExp_T_1 = io_out_c_self_rec_rawIn_isZeroExpIn ? _io_out_c_self_rec_rawIn_adjustedExp_T : {1'h0, io_out_c_self_rec_rawIn_expIn}; // @[rawFloatFromFN.scala:45:19, :48:30, :54:10, :55:18] wire [1:0] _io_out_c_self_rec_rawIn_adjustedExp_T_2 = io_out_c_self_rec_rawIn_isZeroExpIn ? 2'h2 : 2'h1; // @[rawFloatFromFN.scala:48:30, :58:14] wire [7:0] _io_out_c_self_rec_rawIn_adjustedExp_T_3 = {6'h20, _io_out_c_self_rec_rawIn_adjustedExp_T_2}; // @[rawFloatFromFN.scala:58:{9,14}] wire [9:0] _io_out_c_self_rec_rawIn_adjustedExp_T_4 = {1'h0, _io_out_c_self_rec_rawIn_adjustedExp_T_1} + {2'h0, _io_out_c_self_rec_rawIn_adjustedExp_T_3}; // @[rawFloatFromFN.scala:54:10, :57:9, :58:9] wire [8:0] io_out_c_self_rec_rawIn_adjustedExp = _io_out_c_self_rec_rawIn_adjustedExp_T_4[8:0]; // @[rawFloatFromFN.scala:57:9] wire [8:0] _io_out_c_self_rec_rawIn_out_sExp_T = io_out_c_self_rec_rawIn_adjustedExp; // @[rawFloatFromFN.scala:57:9, :68:28] wire io_out_c_self_rec_rawIn_isZero = io_out_c_self_rec_rawIn_isZeroExpIn & io_out_c_self_rec_rawIn_isZeroFractIn; // @[rawFloatFromFN.scala:48:30, :49:34, :60:30] wire io_out_c_self_rec_rawIn_isZero_0 = io_out_c_self_rec_rawIn_isZero; // @[rawFloatFromFN.scala:60:30, :63:19] wire [1:0] _io_out_c_self_rec_rawIn_isSpecial_T = io_out_c_self_rec_rawIn_adjustedExp[8:7]; // @[rawFloatFromFN.scala:57:9, :61:32] wire io_out_c_self_rec_rawIn_isSpecial = &_io_out_c_self_rec_rawIn_isSpecial_T; // @[rawFloatFromFN.scala:61:{32,57}] wire _io_out_c_self_rec_rawIn_out_isNaN_T_1; // @[rawFloatFromFN.scala:64:28] wire _io_out_c_self_rec_rawIn_out_isInf_T; // @[rawFloatFromFN.scala:65:28] wire _io_out_c_self_rec_T_2 = io_out_c_self_rec_rawIn_isNaN; // @[recFNFromFN.scala:49:20] wire [9:0] _io_out_c_self_rec_rawIn_out_sExp_T_1; // @[rawFloatFromFN.scala:68:42] wire [24:0] _io_out_c_self_rec_rawIn_out_sig_T_3; // @[rawFloatFromFN.scala:70:27] wire io_out_c_self_rec_rawIn_isInf; // @[rawFloatFromFN.scala:63:19] wire [9:0] io_out_c_self_rec_rawIn_sExp; // @[rawFloatFromFN.scala:63:19] wire [24:0] io_out_c_self_rec_rawIn_sig; // @[rawFloatFromFN.scala:63:19] wire _io_out_c_self_rec_rawIn_out_isNaN_T = ~io_out_c_self_rec_rawIn_isZeroFractIn; // @[rawFloatFromFN.scala:49:34, :64:31] assign _io_out_c_self_rec_rawIn_out_isNaN_T_1 = io_out_c_self_rec_rawIn_isSpecial & _io_out_c_self_rec_rawIn_out_isNaN_T; // @[rawFloatFromFN.scala:61:57, :64:{28,31}] assign io_out_c_self_rec_rawIn_isNaN = _io_out_c_self_rec_rawIn_out_isNaN_T_1; // @[rawFloatFromFN.scala:63:19, :64:28] assign _io_out_c_self_rec_rawIn_out_isInf_T = io_out_c_self_rec_rawIn_isSpecial & io_out_c_self_rec_rawIn_isZeroFractIn; // @[rawFloatFromFN.scala:49:34, :61:57, :65:28] assign io_out_c_self_rec_rawIn_isInf = _io_out_c_self_rec_rawIn_out_isInf_T; // @[rawFloatFromFN.scala:63:19, :65:28] assign _io_out_c_self_rec_rawIn_out_sExp_T_1 = {1'h0, _io_out_c_self_rec_rawIn_out_sExp_T}; // @[rawFloatFromFN.scala:68:{28,42}] assign io_out_c_self_rec_rawIn_sExp = _io_out_c_self_rec_rawIn_out_sExp_T_1; // @[rawFloatFromFN.scala:63:19, :68:42] wire _io_out_c_self_rec_rawIn_out_sig_T = ~io_out_c_self_rec_rawIn_isZero; // @[rawFloatFromFN.scala:60:30, :70:19] wire [1:0] _io_out_c_self_rec_rawIn_out_sig_T_1 = {1'h0, _io_out_c_self_rec_rawIn_out_sig_T}; // @[rawFloatFromFN.scala:70:{16,19}] wire [22:0] _io_out_c_self_rec_rawIn_out_sig_T_2 = io_out_c_self_rec_rawIn_isZeroExpIn ? io_out_c_self_rec_rawIn_subnormFract : io_out_c_self_rec_rawIn_fractIn; // @[rawFloatFromFN.scala:46:21, :48:30, :52:64, :70:33] assign _io_out_c_self_rec_rawIn_out_sig_T_3 = {_io_out_c_self_rec_rawIn_out_sig_T_1, _io_out_c_self_rec_rawIn_out_sig_T_2}; // @[rawFloatFromFN.scala:70:{16,27,33}] assign io_out_c_self_rec_rawIn_sig = _io_out_c_self_rec_rawIn_out_sig_T_3; // @[rawFloatFromFN.scala:63:19, :70:27] wire [2:0] _io_out_c_self_rec_T = io_out_c_self_rec_rawIn_sExp[8:6]; // @[recFNFromFN.scala:48:50] wire [2:0] _io_out_c_self_rec_T_1 = io_out_c_self_rec_rawIn_isZero_0 ? 3'h0 : _io_out_c_self_rec_T; // @[recFNFromFN.scala:48:{15,50}] wire [2:0] _io_out_c_self_rec_T_3 = {_io_out_c_self_rec_T_1[2:1], _io_out_c_self_rec_T_1[0] | _io_out_c_self_rec_T_2}; // @[recFNFromFN.scala:48:{15,76}, :49:20] wire [3:0] _io_out_c_self_rec_T_4 = {io_out_c_self_rec_rawIn_sign_0, _io_out_c_self_rec_T_3}; // @[recFNFromFN.scala:47:20, :48:76] wire [5:0] _io_out_c_self_rec_T_5 = io_out_c_self_rec_rawIn_sExp[5:0]; // @[recFNFromFN.scala:50:23] wire [9:0] _io_out_c_self_rec_T_6 = {_io_out_c_self_rec_T_4, _io_out_c_self_rec_T_5}; // @[recFNFromFN.scala:47:20, :49:45, :50:23] wire [22:0] _io_out_c_self_rec_T_7 = io_out_c_self_rec_rawIn_sig[22:0]; // @[recFNFromFN.scala:51:22] wire [32:0] io_out_c_self_rec = {_io_out_c_self_rec_T_6, _io_out_c_self_rec_T_7}; // @[recFNFromFN.scala:49:45, :50:41, :51:22] wire [7:0] io_out_c_shift_exp; // @[Arithmetic.scala:442:29] wire [7:0] _GEN = 8'h7F - {3'h0, shift_offset}; // @[PE.scala:91:25] wire [7:0] _io_out_c_shift_exp_T; // @[Arithmetic.scala:443:34] assign _io_out_c_shift_exp_T = _GEN; // @[Arithmetic.scala:443:34] wire [7:0] _io_out_c_shift_exp_T_2; // @[Arithmetic.scala:443:34] assign _io_out_c_shift_exp_T_2 = _GEN; // @[Arithmetic.scala:443:34] wire [6:0] _io_out_c_shift_exp_T_1 = _io_out_c_shift_exp_T[6:0]; // @[Arithmetic.scala:443:34] assign io_out_c_shift_exp = {1'h0, _io_out_c_shift_exp_T_1}; // @[Arithmetic.scala:442:29, :443:{19,34}] wire [8:0] io_out_c_shift_fn_hi = {1'h0, io_out_c_shift_exp}; // @[Arithmetic.scala:442:29, :444:27] wire [31:0] io_out_c_shift_fn = {io_out_c_shift_fn_hi, 23'h0}; // @[Arithmetic.scala:444:27] wire io_out_c_shift_rec_rawIn_sign = io_out_c_shift_fn[31]; // @[rawFloatFromFN.scala:44:18] wire io_out_c_shift_rec_rawIn_sign_0 = io_out_c_shift_rec_rawIn_sign; // @[rawFloatFromFN.scala:44:18, :63:19] wire [7:0] io_out_c_shift_rec_rawIn_expIn = io_out_c_shift_fn[30:23]; // @[rawFloatFromFN.scala:45:19] wire [22:0] io_out_c_shift_rec_rawIn_fractIn = io_out_c_shift_fn[22:0]; // @[rawFloatFromFN.scala:46:21] wire io_out_c_shift_rec_rawIn_isZeroExpIn = io_out_c_shift_rec_rawIn_expIn == 8'h0; // @[rawFloatFromFN.scala:45:19, :48:30] wire io_out_c_shift_rec_rawIn_isZeroFractIn = io_out_c_shift_rec_rawIn_fractIn == 23'h0; // @[rawFloatFromFN.scala:46:21, :49:34] wire _io_out_c_shift_rec_rawIn_normDist_T = io_out_c_shift_rec_rawIn_fractIn[0]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_1 = io_out_c_shift_rec_rawIn_fractIn[1]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_2 = io_out_c_shift_rec_rawIn_fractIn[2]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_3 = io_out_c_shift_rec_rawIn_fractIn[3]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_4 = io_out_c_shift_rec_rawIn_fractIn[4]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_5 = io_out_c_shift_rec_rawIn_fractIn[5]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_6 = io_out_c_shift_rec_rawIn_fractIn[6]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_7 = io_out_c_shift_rec_rawIn_fractIn[7]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_8 = io_out_c_shift_rec_rawIn_fractIn[8]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_9 = io_out_c_shift_rec_rawIn_fractIn[9]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_10 = io_out_c_shift_rec_rawIn_fractIn[10]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_11 = io_out_c_shift_rec_rawIn_fractIn[11]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_12 = io_out_c_shift_rec_rawIn_fractIn[12]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_13 = io_out_c_shift_rec_rawIn_fractIn[13]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_14 = io_out_c_shift_rec_rawIn_fractIn[14]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_15 = io_out_c_shift_rec_rawIn_fractIn[15]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_16 = io_out_c_shift_rec_rawIn_fractIn[16]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_17 = io_out_c_shift_rec_rawIn_fractIn[17]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_18 = io_out_c_shift_rec_rawIn_fractIn[18]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_19 = io_out_c_shift_rec_rawIn_fractIn[19]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_20 = io_out_c_shift_rec_rawIn_fractIn[20]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_21 = io_out_c_shift_rec_rawIn_fractIn[21]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_22 = io_out_c_shift_rec_rawIn_fractIn[22]; // @[rawFloatFromFN.scala:46:21] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_23 = _io_out_c_shift_rec_rawIn_normDist_T_1 ? 5'h15 : 5'h16; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_24 = _io_out_c_shift_rec_rawIn_normDist_T_2 ? 5'h14 : _io_out_c_shift_rec_rawIn_normDist_T_23; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_25 = _io_out_c_shift_rec_rawIn_normDist_T_3 ? 5'h13 : _io_out_c_shift_rec_rawIn_normDist_T_24; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_26 = _io_out_c_shift_rec_rawIn_normDist_T_4 ? 5'h12 : _io_out_c_shift_rec_rawIn_normDist_T_25; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_27 = _io_out_c_shift_rec_rawIn_normDist_T_5 ? 5'h11 : _io_out_c_shift_rec_rawIn_normDist_T_26; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_28 = _io_out_c_shift_rec_rawIn_normDist_T_6 ? 5'h10 : _io_out_c_shift_rec_rawIn_normDist_T_27; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_29 = _io_out_c_shift_rec_rawIn_normDist_T_7 ? 5'hF : _io_out_c_shift_rec_rawIn_normDist_T_28; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_30 = _io_out_c_shift_rec_rawIn_normDist_T_8 ? 5'hE : _io_out_c_shift_rec_rawIn_normDist_T_29; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_31 = _io_out_c_shift_rec_rawIn_normDist_T_9 ? 5'hD : _io_out_c_shift_rec_rawIn_normDist_T_30; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_32 = _io_out_c_shift_rec_rawIn_normDist_T_10 ? 5'hC : _io_out_c_shift_rec_rawIn_normDist_T_31; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_33 = _io_out_c_shift_rec_rawIn_normDist_T_11 ? 5'hB : _io_out_c_shift_rec_rawIn_normDist_T_32; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_34 = _io_out_c_shift_rec_rawIn_normDist_T_12 ? 5'hA : _io_out_c_shift_rec_rawIn_normDist_T_33; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_35 = _io_out_c_shift_rec_rawIn_normDist_T_13 ? 5'h9 : _io_out_c_shift_rec_rawIn_normDist_T_34; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_36 = _io_out_c_shift_rec_rawIn_normDist_T_14 ? 5'h8 : _io_out_c_shift_rec_rawIn_normDist_T_35; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_37 = _io_out_c_shift_rec_rawIn_normDist_T_15 ? 5'h7 : _io_out_c_shift_rec_rawIn_normDist_T_36; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_38 = _io_out_c_shift_rec_rawIn_normDist_T_16 ? 5'h6 : _io_out_c_shift_rec_rawIn_normDist_T_37; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_39 = _io_out_c_shift_rec_rawIn_normDist_T_17 ? 5'h5 : _io_out_c_shift_rec_rawIn_normDist_T_38; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_40 = _io_out_c_shift_rec_rawIn_normDist_T_18 ? 5'h4 : _io_out_c_shift_rec_rawIn_normDist_T_39; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_41 = _io_out_c_shift_rec_rawIn_normDist_T_19 ? 5'h3 : _io_out_c_shift_rec_rawIn_normDist_T_40; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_42 = _io_out_c_shift_rec_rawIn_normDist_T_20 ? 5'h2 : _io_out_c_shift_rec_rawIn_normDist_T_41; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_43 = _io_out_c_shift_rec_rawIn_normDist_T_21 ? 5'h1 : _io_out_c_shift_rec_rawIn_normDist_T_42; // @[Mux.scala:50:70] wire [4:0] io_out_c_shift_rec_rawIn_normDist = _io_out_c_shift_rec_rawIn_normDist_T_22 ? 5'h0 : _io_out_c_shift_rec_rawIn_normDist_T_43; // @[Mux.scala:50:70] wire [53:0] _io_out_c_shift_rec_rawIn_subnormFract_T = {31'h0, io_out_c_shift_rec_rawIn_fractIn} << io_out_c_shift_rec_rawIn_normDist; // @[Mux.scala:50:70] wire [21:0] _io_out_c_shift_rec_rawIn_subnormFract_T_1 = _io_out_c_shift_rec_rawIn_subnormFract_T[21:0]; // @[rawFloatFromFN.scala:52:{33,46}] wire [22:0] io_out_c_shift_rec_rawIn_subnormFract = {_io_out_c_shift_rec_rawIn_subnormFract_T_1, 1'h0}; // @[rawFloatFromFN.scala:52:{46,64}] wire [8:0] _io_out_c_shift_rec_rawIn_adjustedExp_T = {4'hF, ~io_out_c_shift_rec_rawIn_normDist}; // @[Mux.scala:50:70] wire [8:0] _io_out_c_shift_rec_rawIn_adjustedExp_T_1 = io_out_c_shift_rec_rawIn_isZeroExpIn ? _io_out_c_shift_rec_rawIn_adjustedExp_T : {1'h0, io_out_c_shift_rec_rawIn_expIn}; // @[rawFloatFromFN.scala:45:19, :48:30, :54:10, :55:18] wire [1:0] _io_out_c_shift_rec_rawIn_adjustedExp_T_2 = io_out_c_shift_rec_rawIn_isZeroExpIn ? 2'h2 : 2'h1; // @[rawFloatFromFN.scala:48:30, :58:14] wire [7:0] _io_out_c_shift_rec_rawIn_adjustedExp_T_3 = {6'h20, _io_out_c_shift_rec_rawIn_adjustedExp_T_2}; // @[rawFloatFromFN.scala:58:{9,14}] wire [9:0] _io_out_c_shift_rec_rawIn_adjustedExp_T_4 = {1'h0, _io_out_c_shift_rec_rawIn_adjustedExp_T_1} + {2'h0, _io_out_c_shift_rec_rawIn_adjustedExp_T_3}; // @[rawFloatFromFN.scala:54:10, :57:9, :58:9] wire [8:0] io_out_c_shift_rec_rawIn_adjustedExp = _io_out_c_shift_rec_rawIn_adjustedExp_T_4[8:0]; // @[rawFloatFromFN.scala:57:9] wire [8:0] _io_out_c_shift_rec_rawIn_out_sExp_T = io_out_c_shift_rec_rawIn_adjustedExp; // @[rawFloatFromFN.scala:57:9, :68:28] wire io_out_c_shift_rec_rawIn_isZero = io_out_c_shift_rec_rawIn_isZeroExpIn & io_out_c_shift_rec_rawIn_isZeroFractIn; // @[rawFloatFromFN.scala:48:30, :49:34, :60:30] wire io_out_c_shift_rec_rawIn_isZero_0 = io_out_c_shift_rec_rawIn_isZero; // @[rawFloatFromFN.scala:60:30, :63:19] wire [1:0] _io_out_c_shift_rec_rawIn_isSpecial_T = io_out_c_shift_rec_rawIn_adjustedExp[8:7]; // @[rawFloatFromFN.scala:57:9, :61:32] wire io_out_c_shift_rec_rawIn_isSpecial = &_io_out_c_shift_rec_rawIn_isSpecial_T; // @[rawFloatFromFN.scala:61:{32,57}] wire _io_out_c_shift_rec_rawIn_out_isNaN_T_1; // @[rawFloatFromFN.scala:64:28] wire _io_out_c_shift_rec_rawIn_out_isInf_T; // @[rawFloatFromFN.scala:65:28] wire _io_out_c_shift_rec_T_2 = io_out_c_shift_rec_rawIn_isNaN; // @[recFNFromFN.scala:49:20] wire [9:0] _io_out_c_shift_rec_rawIn_out_sExp_T_1; // @[rawFloatFromFN.scala:68:42] wire [24:0] _io_out_c_shift_rec_rawIn_out_sig_T_3; // @[rawFloatFromFN.scala:70:27] wire io_out_c_shift_rec_rawIn_isInf; // @[rawFloatFromFN.scala:63:19] wire [9:0] io_out_c_shift_rec_rawIn_sExp; // @[rawFloatFromFN.scala:63:19] wire [24:0] io_out_c_shift_rec_rawIn_sig; // @[rawFloatFromFN.scala:63:19] wire _io_out_c_shift_rec_rawIn_out_isNaN_T = ~io_out_c_shift_rec_rawIn_isZeroFractIn; // @[rawFloatFromFN.scala:49:34, :64:31] assign _io_out_c_shift_rec_rawIn_out_isNaN_T_1 = io_out_c_shift_rec_rawIn_isSpecial & _io_out_c_shift_rec_rawIn_out_isNaN_T; // @[rawFloatFromFN.scala:61:57, :64:{28,31}] assign io_out_c_shift_rec_rawIn_isNaN = _io_out_c_shift_rec_rawIn_out_isNaN_T_1; // @[rawFloatFromFN.scala:63:19, :64:28] assign _io_out_c_shift_rec_rawIn_out_isInf_T = io_out_c_shift_rec_rawIn_isSpecial & io_out_c_shift_rec_rawIn_isZeroFractIn; // @[rawFloatFromFN.scala:49:34, :61:57, :65:28] assign io_out_c_shift_rec_rawIn_isInf = _io_out_c_shift_rec_rawIn_out_isInf_T; // @[rawFloatFromFN.scala:63:19, :65:28] assign _io_out_c_shift_rec_rawIn_out_sExp_T_1 = {1'h0, _io_out_c_shift_rec_rawIn_out_sExp_T}; // @[rawFloatFromFN.scala:68:{28,42}] assign io_out_c_shift_rec_rawIn_sExp = _io_out_c_shift_rec_rawIn_out_sExp_T_1; // @[rawFloatFromFN.scala:63:19, :68:42] wire _io_out_c_shift_rec_rawIn_out_sig_T = ~io_out_c_shift_rec_rawIn_isZero; // @[rawFloatFromFN.scala:60:30, :70:19] wire [1:0] _io_out_c_shift_rec_rawIn_out_sig_T_1 = {1'h0, _io_out_c_shift_rec_rawIn_out_sig_T}; // @[rawFloatFromFN.scala:70:{16,19}] wire [22:0] _io_out_c_shift_rec_rawIn_out_sig_T_2 = io_out_c_shift_rec_rawIn_isZeroExpIn ? io_out_c_shift_rec_rawIn_subnormFract : io_out_c_shift_rec_rawIn_fractIn; // @[rawFloatFromFN.scala:46:21, :48:30, :52:64, :70:33] assign _io_out_c_shift_rec_rawIn_out_sig_T_3 = {_io_out_c_shift_rec_rawIn_out_sig_T_1, _io_out_c_shift_rec_rawIn_out_sig_T_2}; // @[rawFloatFromFN.scala:70:{16,27,33}] assign io_out_c_shift_rec_rawIn_sig = _io_out_c_shift_rec_rawIn_out_sig_T_3; // @[rawFloatFromFN.scala:63:19, :70:27] wire [2:0] _io_out_c_shift_rec_T = io_out_c_shift_rec_rawIn_sExp[8:6]; // @[recFNFromFN.scala:48:50] wire [2:0] _io_out_c_shift_rec_T_1 = io_out_c_shift_rec_rawIn_isZero_0 ? 3'h0 : _io_out_c_shift_rec_T; // @[recFNFromFN.scala:48:{15,50}] wire [2:0] _io_out_c_shift_rec_T_3 = {_io_out_c_shift_rec_T_1[2:1], _io_out_c_shift_rec_T_1[0] | _io_out_c_shift_rec_T_2}; // @[recFNFromFN.scala:48:{15,76}, :49:20] wire [3:0] _io_out_c_shift_rec_T_4 = {io_out_c_shift_rec_rawIn_sign_0, _io_out_c_shift_rec_T_3}; // @[recFNFromFN.scala:47:20, :48:76] wire [5:0] _io_out_c_shift_rec_T_5 = io_out_c_shift_rec_rawIn_sExp[5:0]; // @[recFNFromFN.scala:50:23] wire [9:0] _io_out_c_shift_rec_T_6 = {_io_out_c_shift_rec_T_4, _io_out_c_shift_rec_T_5}; // @[recFNFromFN.scala:47:20, :49:45, :50:23] wire [22:0] _io_out_c_shift_rec_T_7 = io_out_c_shift_rec_rawIn_sig[22:0]; // @[recFNFromFN.scala:51:22] wire [32:0] io_out_c_shift_rec = {_io_out_c_shift_rec_T_6, _io_out_c_shift_rec_T_7}; // @[recFNFromFN.scala:49:45, :50:41, :51:22] wire _io_out_c_T = |io_out_c_shift_exp; // @[Arithmetic.scala:442:29, :447:26] wire _io_out_c_T_2 = ~_io_out_c_T_1; // @[Arithmetic.scala:447:15] wire _io_out_c_T_3 = ~_io_out_c_T; // @[Arithmetic.scala:447:{15,26}] wire [31:0] _io_out_c_result_bits_T; // @[fNFromRecFN.scala:66:12] wire [31:0] io_out_c_result_bits; // @[Arithmetic.scala:458:26] wire [8:0] io_out_c_result_bits_rawIn_exp = _io_out_c_muladder_io_out[31:23]; // @[rawFloatFromRecFN.scala:51:21] wire [2:0] _io_out_c_result_bits_rawIn_isZero_T = io_out_c_result_bits_rawIn_exp[8:6]; // @[rawFloatFromRecFN.scala:51:21, :52:28] wire io_out_c_result_bits_rawIn_isZero = _io_out_c_result_bits_rawIn_isZero_T == 3'h0; // @[rawFloatFromRecFN.scala:52:{28,53}] wire io_out_c_result_bits_rawIn_isZero_0 = io_out_c_result_bits_rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :55:23] wire [1:0] _io_out_c_result_bits_rawIn_isSpecial_T = io_out_c_result_bits_rawIn_exp[8:7]; // @[rawFloatFromRecFN.scala:51:21, :53:28] wire io_out_c_result_bits_rawIn_isSpecial = &_io_out_c_result_bits_rawIn_isSpecial_T; // @[rawFloatFromRecFN.scala:53:{28,53}] wire _io_out_c_result_bits_rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:56:33] wire _io_out_c_result_bits_rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:57:33] wire _io_out_c_result_bits_rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:59:25] wire [9:0] _io_out_c_result_bits_rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:60:27] wire [24:0] _io_out_c_result_bits_rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:61:44] wire io_out_c_result_bits_rawIn_isNaN; // @[rawFloatFromRecFN.scala:55:23] wire io_out_c_result_bits_rawIn_isInf; // @[rawFloatFromRecFN.scala:55:23] wire io_out_c_result_bits_rawIn_sign; // @[rawFloatFromRecFN.scala:55:23] wire [9:0] io_out_c_result_bits_rawIn_sExp; // @[rawFloatFromRecFN.scala:55:23] wire [24:0] io_out_c_result_bits_rawIn_sig; // @[rawFloatFromRecFN.scala:55:23] wire _io_out_c_result_bits_rawIn_out_isNaN_T = io_out_c_result_bits_rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41] wire _io_out_c_result_bits_rawIn_out_isInf_T = io_out_c_result_bits_rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41, :57:41] assign _io_out_c_result_bits_rawIn_out_isNaN_T_1 = io_out_c_result_bits_rawIn_isSpecial & _io_out_c_result_bits_rawIn_out_isNaN_T; // @[rawFloatFromRecFN.scala:53:53, :56:{33,41}] assign io_out_c_result_bits_rawIn_isNaN = _io_out_c_result_bits_rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:55:23, :56:33] wire _io_out_c_result_bits_rawIn_out_isInf_T_1 = ~_io_out_c_result_bits_rawIn_out_isInf_T; // @[rawFloatFromRecFN.scala:57:{36,41}] assign _io_out_c_result_bits_rawIn_out_isInf_T_2 = io_out_c_result_bits_rawIn_isSpecial & _io_out_c_result_bits_rawIn_out_isInf_T_1; // @[rawFloatFromRecFN.scala:53:53, :57:{33,36}] assign io_out_c_result_bits_rawIn_isInf = _io_out_c_result_bits_rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:55:23, :57:33] assign _io_out_c_result_bits_rawIn_out_sign_T = _io_out_c_muladder_io_out[32]; // @[rawFloatFromRecFN.scala:59:25] assign io_out_c_result_bits_rawIn_sign = _io_out_c_result_bits_rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:55:23, :59:25] assign _io_out_c_result_bits_rawIn_out_sExp_T = {1'h0, io_out_c_result_bits_rawIn_exp}; // @[rawFloatFromRecFN.scala:51:21, :60:27] assign io_out_c_result_bits_rawIn_sExp = _io_out_c_result_bits_rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:55:23, :60:27] wire _io_out_c_result_bits_rawIn_out_sig_T = ~io_out_c_result_bits_rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :61:35] wire [1:0] _io_out_c_result_bits_rawIn_out_sig_T_1 = {1'h0, _io_out_c_result_bits_rawIn_out_sig_T}; // @[rawFloatFromRecFN.scala:61:{32,35}] wire [22:0] _io_out_c_result_bits_rawIn_out_sig_T_2 = _io_out_c_muladder_io_out[22:0]; // @[rawFloatFromRecFN.scala:61:49] assign _io_out_c_result_bits_rawIn_out_sig_T_3 = {_io_out_c_result_bits_rawIn_out_sig_T_1, _io_out_c_result_bits_rawIn_out_sig_T_2}; // @[rawFloatFromRecFN.scala:61:{32,44,49}] assign io_out_c_result_bits_rawIn_sig = _io_out_c_result_bits_rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:55:23, :61:44] wire io_out_c_result_bits_isSubnormal = $signed(io_out_c_result_bits_rawIn_sExp) < 10'sh82; // @[rawFloatFromRecFN.scala:55:23] wire [4:0] _io_out_c_result_bits_denormShiftDist_T = io_out_c_result_bits_rawIn_sExp[4:0]; // @[rawFloatFromRecFN.scala:55:23] wire [5:0] _io_out_c_result_bits_denormShiftDist_T_1 = 6'h1 - {1'h0, _io_out_c_result_bits_denormShiftDist_T}; // @[fNFromRecFN.scala:52:{35,47}] wire [4:0] io_out_c_result_bits_denormShiftDist = _io_out_c_result_bits_denormShiftDist_T_1[4:0]; // @[fNFromRecFN.scala:52:35] wire [23:0] _io_out_c_result_bits_denormFract_T = io_out_c_result_bits_rawIn_sig[24:1]; // @[rawFloatFromRecFN.scala:55:23] wire [23:0] _io_out_c_result_bits_denormFract_T_1 = _io_out_c_result_bits_denormFract_T >> io_out_c_result_bits_denormShiftDist; // @[fNFromRecFN.scala:52:35, :53:{38,42}] wire [22:0] io_out_c_result_bits_denormFract = _io_out_c_result_bits_denormFract_T_1[22:0]; // @[fNFromRecFN.scala:53:{42,60}] wire [7:0] _io_out_c_result_bits_expOut_T = io_out_c_result_bits_rawIn_sExp[7:0]; // @[rawFloatFromRecFN.scala:55:23] wire [8:0] _io_out_c_result_bits_expOut_T_1 = {1'h0, _io_out_c_result_bits_expOut_T} - 9'h81; // @[fNFromRecFN.scala:58:{27,45}] wire [7:0] _io_out_c_result_bits_expOut_T_2 = _io_out_c_result_bits_expOut_T_1[7:0]; // @[fNFromRecFN.scala:58:45] wire [7:0] _io_out_c_result_bits_expOut_T_3 = io_out_c_result_bits_isSubnormal ? 8'h0 : _io_out_c_result_bits_expOut_T_2; // @[fNFromRecFN.scala:51:38, :56:16, :58:45] wire _io_out_c_result_bits_expOut_T_4 = io_out_c_result_bits_rawIn_isNaN | io_out_c_result_bits_rawIn_isInf; // @[rawFloatFromRecFN.scala:55:23] wire [7:0] _io_out_c_result_bits_expOut_T_5 = {8{_io_out_c_result_bits_expOut_T_4}}; // @[fNFromRecFN.scala:60:{21,44}] wire [7:0] io_out_c_result_bits_expOut = _io_out_c_result_bits_expOut_T_3 | _io_out_c_result_bits_expOut_T_5; // @[fNFromRecFN.scala:56:16, :60:{15,21}] wire [22:0] _io_out_c_result_bits_fractOut_T = io_out_c_result_bits_rawIn_sig[22:0]; // @[rawFloatFromRecFN.scala:55:23] wire [22:0] _io_out_c_result_bits_fractOut_T_1 = io_out_c_result_bits_rawIn_isInf ? 23'h0 : _io_out_c_result_bits_fractOut_T; // @[rawFloatFromRecFN.scala:55:23] wire [22:0] io_out_c_result_bits_fractOut = io_out_c_result_bits_isSubnormal ? io_out_c_result_bits_denormFract : _io_out_c_result_bits_fractOut_T_1; // @[fNFromRecFN.scala:51:38, :53:60, :62:16, :64:20] wire [8:0] io_out_c_result_bits_hi = {io_out_c_result_bits_rawIn_sign, io_out_c_result_bits_expOut}; // @[rawFloatFromRecFN.scala:55:23] assign _io_out_c_result_bits_T = {io_out_c_result_bits_hi, io_out_c_result_bits_fractOut}; // @[fNFromRecFN.scala:62:16, :66:12] assign io_out_c_result_bits = _io_out_c_result_bits_T; // @[fNFromRecFN.scala:66:12] wire io_out_c_self_rec_rawIn_sign_1 = io_out_c_result_bits[31]; // @[rawFloatFromFN.scala:44:18] wire io_out_c_self_rec_rawIn_1_sign = io_out_c_self_rec_rawIn_sign_1; // @[rawFloatFromFN.scala:44:18, :63:19] wire [7:0] io_out_c_self_rec_rawIn_expIn_1 = io_out_c_result_bits[30:23]; // @[rawFloatFromFN.scala:45:19] wire [22:0] io_out_c_self_rec_rawIn_fractIn_1 = io_out_c_result_bits[22:0]; // @[rawFloatFromFN.scala:46:21] wire io_out_c_self_rec_rawIn_isZeroExpIn_1 = io_out_c_self_rec_rawIn_expIn_1 == 8'h0; // @[rawFloatFromFN.scala:45:19, :48:30] wire io_out_c_self_rec_rawIn_isZeroFractIn_1 = io_out_c_self_rec_rawIn_fractIn_1 == 23'h0; // @[rawFloatFromFN.scala:46:21, :49:34] wire _io_out_c_self_rec_rawIn_normDist_T_44 = io_out_c_self_rec_rawIn_fractIn_1[0]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_45 = io_out_c_self_rec_rawIn_fractIn_1[1]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_46 = io_out_c_self_rec_rawIn_fractIn_1[2]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_47 = io_out_c_self_rec_rawIn_fractIn_1[3]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_48 = io_out_c_self_rec_rawIn_fractIn_1[4]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_49 = io_out_c_self_rec_rawIn_fractIn_1[5]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_50 = io_out_c_self_rec_rawIn_fractIn_1[6]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_51 = io_out_c_self_rec_rawIn_fractIn_1[7]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_52 = io_out_c_self_rec_rawIn_fractIn_1[8]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_53 = io_out_c_self_rec_rawIn_fractIn_1[9]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_54 = io_out_c_self_rec_rawIn_fractIn_1[10]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_55 = io_out_c_self_rec_rawIn_fractIn_1[11]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_56 = io_out_c_self_rec_rawIn_fractIn_1[12]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_57 = io_out_c_self_rec_rawIn_fractIn_1[13]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_58 = io_out_c_self_rec_rawIn_fractIn_1[14]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_59 = io_out_c_self_rec_rawIn_fractIn_1[15]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_60 = io_out_c_self_rec_rawIn_fractIn_1[16]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_61 = io_out_c_self_rec_rawIn_fractIn_1[17]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_62 = io_out_c_self_rec_rawIn_fractIn_1[18]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_63 = io_out_c_self_rec_rawIn_fractIn_1[19]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_64 = io_out_c_self_rec_rawIn_fractIn_1[20]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_65 = io_out_c_self_rec_rawIn_fractIn_1[21]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_66 = io_out_c_self_rec_rawIn_fractIn_1[22]; // @[rawFloatFromFN.scala:46:21] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_67 = _io_out_c_self_rec_rawIn_normDist_T_45 ? 5'h15 : 5'h16; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_68 = _io_out_c_self_rec_rawIn_normDist_T_46 ? 5'h14 : _io_out_c_self_rec_rawIn_normDist_T_67; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_69 = _io_out_c_self_rec_rawIn_normDist_T_47 ? 5'h13 : _io_out_c_self_rec_rawIn_normDist_T_68; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_70 = _io_out_c_self_rec_rawIn_normDist_T_48 ? 5'h12 : _io_out_c_self_rec_rawIn_normDist_T_69; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_71 = _io_out_c_self_rec_rawIn_normDist_T_49 ? 5'h11 : _io_out_c_self_rec_rawIn_normDist_T_70; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_72 = _io_out_c_self_rec_rawIn_normDist_T_50 ? 5'h10 : _io_out_c_self_rec_rawIn_normDist_T_71; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_73 = _io_out_c_self_rec_rawIn_normDist_T_51 ? 5'hF : _io_out_c_self_rec_rawIn_normDist_T_72; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_74 = _io_out_c_self_rec_rawIn_normDist_T_52 ? 5'hE : _io_out_c_self_rec_rawIn_normDist_T_73; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_75 = _io_out_c_self_rec_rawIn_normDist_T_53 ? 5'hD : _io_out_c_self_rec_rawIn_normDist_T_74; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_76 = _io_out_c_self_rec_rawIn_normDist_T_54 ? 5'hC : _io_out_c_self_rec_rawIn_normDist_T_75; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_77 = _io_out_c_self_rec_rawIn_normDist_T_55 ? 5'hB : _io_out_c_self_rec_rawIn_normDist_T_76; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_78 = _io_out_c_self_rec_rawIn_normDist_T_56 ? 5'hA : _io_out_c_self_rec_rawIn_normDist_T_77; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_79 = _io_out_c_self_rec_rawIn_normDist_T_57 ? 5'h9 : _io_out_c_self_rec_rawIn_normDist_T_78; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_80 = _io_out_c_self_rec_rawIn_normDist_T_58 ? 5'h8 : _io_out_c_self_rec_rawIn_normDist_T_79; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_81 = _io_out_c_self_rec_rawIn_normDist_T_59 ? 5'h7 : _io_out_c_self_rec_rawIn_normDist_T_80; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_82 = _io_out_c_self_rec_rawIn_normDist_T_60 ? 5'h6 : _io_out_c_self_rec_rawIn_normDist_T_81; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_83 = _io_out_c_self_rec_rawIn_normDist_T_61 ? 5'h5 : _io_out_c_self_rec_rawIn_normDist_T_82; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_84 = _io_out_c_self_rec_rawIn_normDist_T_62 ? 5'h4 : _io_out_c_self_rec_rawIn_normDist_T_83; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_85 = _io_out_c_self_rec_rawIn_normDist_T_63 ? 5'h3 : _io_out_c_self_rec_rawIn_normDist_T_84; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_86 = _io_out_c_self_rec_rawIn_normDist_T_64 ? 5'h2 : _io_out_c_self_rec_rawIn_normDist_T_85; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_87 = _io_out_c_self_rec_rawIn_normDist_T_65 ? 5'h1 : _io_out_c_self_rec_rawIn_normDist_T_86; // @[Mux.scala:50:70] wire [4:0] io_out_c_self_rec_rawIn_normDist_1 = _io_out_c_self_rec_rawIn_normDist_T_66 ? 5'h0 : _io_out_c_self_rec_rawIn_normDist_T_87; // @[Mux.scala:50:70] wire [53:0] _io_out_c_self_rec_rawIn_subnormFract_T_2 = {31'h0, io_out_c_self_rec_rawIn_fractIn_1} << io_out_c_self_rec_rawIn_normDist_1; // @[Mux.scala:50:70] wire [21:0] _io_out_c_self_rec_rawIn_subnormFract_T_3 = _io_out_c_self_rec_rawIn_subnormFract_T_2[21:0]; // @[rawFloatFromFN.scala:52:{33,46}] wire [22:0] io_out_c_self_rec_rawIn_subnormFract_1 = {_io_out_c_self_rec_rawIn_subnormFract_T_3, 1'h0}; // @[rawFloatFromFN.scala:52:{46,64}] wire [8:0] _io_out_c_self_rec_rawIn_adjustedExp_T_5 = {4'hF, ~io_out_c_self_rec_rawIn_normDist_1}; // @[Mux.scala:50:70] wire [8:0] _io_out_c_self_rec_rawIn_adjustedExp_T_6 = io_out_c_self_rec_rawIn_isZeroExpIn_1 ? _io_out_c_self_rec_rawIn_adjustedExp_T_5 : {1'h0, io_out_c_self_rec_rawIn_expIn_1}; // @[rawFloatFromFN.scala:45:19, :48:30, :54:10, :55:18] wire [1:0] _io_out_c_self_rec_rawIn_adjustedExp_T_7 = io_out_c_self_rec_rawIn_isZeroExpIn_1 ? 2'h2 : 2'h1; // @[rawFloatFromFN.scala:48:30, :58:14] wire [7:0] _io_out_c_self_rec_rawIn_adjustedExp_T_8 = {6'h20, _io_out_c_self_rec_rawIn_adjustedExp_T_7}; // @[rawFloatFromFN.scala:58:{9,14}] wire [9:0] _io_out_c_self_rec_rawIn_adjustedExp_T_9 = {1'h0, _io_out_c_self_rec_rawIn_adjustedExp_T_6} + {2'h0, _io_out_c_self_rec_rawIn_adjustedExp_T_8}; // @[rawFloatFromFN.scala:54:10, :57:9, :58:9] wire [8:0] io_out_c_self_rec_rawIn_adjustedExp_1 = _io_out_c_self_rec_rawIn_adjustedExp_T_9[8:0]; // @[rawFloatFromFN.scala:57:9] wire [8:0] _io_out_c_self_rec_rawIn_out_sExp_T_2 = io_out_c_self_rec_rawIn_adjustedExp_1; // @[rawFloatFromFN.scala:57:9, :68:28] wire io_out_c_self_rec_rawIn_isZero_1 = io_out_c_self_rec_rawIn_isZeroExpIn_1 & io_out_c_self_rec_rawIn_isZeroFractIn_1; // @[rawFloatFromFN.scala:48:30, :49:34, :60:30] wire io_out_c_self_rec_rawIn_1_isZero = io_out_c_self_rec_rawIn_isZero_1; // @[rawFloatFromFN.scala:60:30, :63:19] wire [1:0] _io_out_c_self_rec_rawIn_isSpecial_T_1 = io_out_c_self_rec_rawIn_adjustedExp_1[8:7]; // @[rawFloatFromFN.scala:57:9, :61:32] wire io_out_c_self_rec_rawIn_isSpecial_1 = &_io_out_c_self_rec_rawIn_isSpecial_T_1; // @[rawFloatFromFN.scala:61:{32,57}] wire _io_out_c_self_rec_rawIn_out_isNaN_T_3; // @[rawFloatFromFN.scala:64:28] wire _io_out_c_self_rec_rawIn_out_isInf_T_1; // @[rawFloatFromFN.scala:65:28] wire _io_out_c_self_rec_T_10 = io_out_c_self_rec_rawIn_1_isNaN; // @[recFNFromFN.scala:49:20] wire [9:0] _io_out_c_self_rec_rawIn_out_sExp_T_3; // @[rawFloatFromFN.scala:68:42] wire [24:0] _io_out_c_self_rec_rawIn_out_sig_T_7; // @[rawFloatFromFN.scala:70:27] wire io_out_c_self_rec_rawIn_1_isInf; // @[rawFloatFromFN.scala:63:19] wire [9:0] io_out_c_self_rec_rawIn_1_sExp; // @[rawFloatFromFN.scala:63:19] wire [24:0] io_out_c_self_rec_rawIn_1_sig; // @[rawFloatFromFN.scala:63:19] wire _io_out_c_self_rec_rawIn_out_isNaN_T_2 = ~io_out_c_self_rec_rawIn_isZeroFractIn_1; // @[rawFloatFromFN.scala:49:34, :64:31] assign _io_out_c_self_rec_rawIn_out_isNaN_T_3 = io_out_c_self_rec_rawIn_isSpecial_1 & _io_out_c_self_rec_rawIn_out_isNaN_T_2; // @[rawFloatFromFN.scala:61:57, :64:{28,31}] assign io_out_c_self_rec_rawIn_1_isNaN = _io_out_c_self_rec_rawIn_out_isNaN_T_3; // @[rawFloatFromFN.scala:63:19, :64:28] assign _io_out_c_self_rec_rawIn_out_isInf_T_1 = io_out_c_self_rec_rawIn_isSpecial_1 & io_out_c_self_rec_rawIn_isZeroFractIn_1; // @[rawFloatFromFN.scala:49:34, :61:57, :65:28] assign io_out_c_self_rec_rawIn_1_isInf = _io_out_c_self_rec_rawIn_out_isInf_T_1; // @[rawFloatFromFN.scala:63:19, :65:28] assign _io_out_c_self_rec_rawIn_out_sExp_T_3 = {1'h0, _io_out_c_self_rec_rawIn_out_sExp_T_2}; // @[rawFloatFromFN.scala:68:{28,42}] assign io_out_c_self_rec_rawIn_1_sExp = _io_out_c_self_rec_rawIn_out_sExp_T_3; // @[rawFloatFromFN.scala:63:19, :68:42] wire _io_out_c_self_rec_rawIn_out_sig_T_4 = ~io_out_c_self_rec_rawIn_isZero_1; // @[rawFloatFromFN.scala:60:30, :70:19] wire [1:0] _io_out_c_self_rec_rawIn_out_sig_T_5 = {1'h0, _io_out_c_self_rec_rawIn_out_sig_T_4}; // @[rawFloatFromFN.scala:70:{16,19}] wire [22:0] _io_out_c_self_rec_rawIn_out_sig_T_6 = io_out_c_self_rec_rawIn_isZeroExpIn_1 ? io_out_c_self_rec_rawIn_subnormFract_1 : io_out_c_self_rec_rawIn_fractIn_1; // @[rawFloatFromFN.scala:46:21, :48:30, :52:64, :70:33] assign _io_out_c_self_rec_rawIn_out_sig_T_7 = {_io_out_c_self_rec_rawIn_out_sig_T_5, _io_out_c_self_rec_rawIn_out_sig_T_6}; // @[rawFloatFromFN.scala:70:{16,27,33}] assign io_out_c_self_rec_rawIn_1_sig = _io_out_c_self_rec_rawIn_out_sig_T_7; // @[rawFloatFromFN.scala:63:19, :70:27] wire [2:0] _io_out_c_self_rec_T_8 = io_out_c_self_rec_rawIn_1_sExp[8:6]; // @[recFNFromFN.scala:48:50] wire [2:0] _io_out_c_self_rec_T_9 = io_out_c_self_rec_rawIn_1_isZero ? 3'h0 : _io_out_c_self_rec_T_8; // @[recFNFromFN.scala:48:{15,50}] wire [2:0] _io_out_c_self_rec_T_11 = {_io_out_c_self_rec_T_9[2:1], _io_out_c_self_rec_T_9[0] | _io_out_c_self_rec_T_10}; // @[recFNFromFN.scala:48:{15,76}, :49:20] wire [3:0] _io_out_c_self_rec_T_12 = {io_out_c_self_rec_rawIn_1_sign, _io_out_c_self_rec_T_11}; // @[recFNFromFN.scala:47:20, :48:76] wire [5:0] _io_out_c_self_rec_T_13 = io_out_c_self_rec_rawIn_1_sExp[5:0]; // @[recFNFromFN.scala:50:23] wire [9:0] _io_out_c_self_rec_T_14 = {_io_out_c_self_rec_T_12, _io_out_c_self_rec_T_13}; // @[recFNFromFN.scala:47:20, :49:45, :50:23] wire [22:0] _io_out_c_self_rec_T_15 = io_out_c_self_rec_rawIn_1_sig[22:0]; // @[recFNFromFN.scala:51:22] wire [32:0] io_out_c_self_rec_1 = {_io_out_c_self_rec_T_14, _io_out_c_self_rec_T_15}; // @[recFNFromFN.scala:49:45, :50:41, :51:22] wire [31:0] _io_out_c_result_bits_T_1; // @[fNFromRecFN.scala:66:12] wire [31:0] io_out_c_result_1_bits; // @[Arithmetic.scala:505:26] wire [8:0] io_out_c_result_bits_rawIn_exp_1 = _io_out_c_resizer_io_out[31:23]; // @[rawFloatFromRecFN.scala:51:21] wire [2:0] _io_out_c_result_bits_rawIn_isZero_T_1 = io_out_c_result_bits_rawIn_exp_1[8:6]; // @[rawFloatFromRecFN.scala:51:21, :52:28] wire io_out_c_result_bits_rawIn_isZero_1 = _io_out_c_result_bits_rawIn_isZero_T_1 == 3'h0; // @[rawFloatFromRecFN.scala:52:{28,53}] wire io_out_c_result_bits_rawIn_1_isZero = io_out_c_result_bits_rawIn_isZero_1; // @[rawFloatFromRecFN.scala:52:53, :55:23] wire [1:0] _io_out_c_result_bits_rawIn_isSpecial_T_1 = io_out_c_result_bits_rawIn_exp_1[8:7]; // @[rawFloatFromRecFN.scala:51:21, :53:28] wire io_out_c_result_bits_rawIn_isSpecial_1 = &_io_out_c_result_bits_rawIn_isSpecial_T_1; // @[rawFloatFromRecFN.scala:53:{28,53}] wire _io_out_c_result_bits_rawIn_out_isNaN_T_3; // @[rawFloatFromRecFN.scala:56:33] wire _io_out_c_result_bits_rawIn_out_isInf_T_5; // @[rawFloatFromRecFN.scala:57:33] wire _io_out_c_result_bits_rawIn_out_sign_T_1; // @[rawFloatFromRecFN.scala:59:25] wire [9:0] _io_out_c_result_bits_rawIn_out_sExp_T_1; // @[rawFloatFromRecFN.scala:60:27] wire [24:0] _io_out_c_result_bits_rawIn_out_sig_T_7; // @[rawFloatFromRecFN.scala:61:44] wire io_out_c_result_bits_rawIn_1_isNaN; // @[rawFloatFromRecFN.scala:55:23] wire io_out_c_result_bits_rawIn_1_isInf; // @[rawFloatFromRecFN.scala:55:23] wire io_out_c_result_bits_rawIn_1_sign; // @[rawFloatFromRecFN.scala:55:23] wire [9:0] io_out_c_result_bits_rawIn_1_sExp; // @[rawFloatFromRecFN.scala:55:23] wire [24:0] io_out_c_result_bits_rawIn_1_sig; // @[rawFloatFromRecFN.scala:55:23] wire _io_out_c_result_bits_rawIn_out_isNaN_T_2 = io_out_c_result_bits_rawIn_exp_1[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41] wire _io_out_c_result_bits_rawIn_out_isInf_T_3 = io_out_c_result_bits_rawIn_exp_1[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41, :57:41] assign _io_out_c_result_bits_rawIn_out_isNaN_T_3 = io_out_c_result_bits_rawIn_isSpecial_1 & _io_out_c_result_bits_rawIn_out_isNaN_T_2; // @[rawFloatFromRecFN.scala:53:53, :56:{33,41}] assign io_out_c_result_bits_rawIn_1_isNaN = _io_out_c_result_bits_rawIn_out_isNaN_T_3; // @[rawFloatFromRecFN.scala:55:23, :56:33] wire _io_out_c_result_bits_rawIn_out_isInf_T_4 = ~_io_out_c_result_bits_rawIn_out_isInf_T_3; // @[rawFloatFromRecFN.scala:57:{36,41}] assign _io_out_c_result_bits_rawIn_out_isInf_T_5 = io_out_c_result_bits_rawIn_isSpecial_1 & _io_out_c_result_bits_rawIn_out_isInf_T_4; // @[rawFloatFromRecFN.scala:53:53, :57:{33,36}] assign io_out_c_result_bits_rawIn_1_isInf = _io_out_c_result_bits_rawIn_out_isInf_T_5; // @[rawFloatFromRecFN.scala:55:23, :57:33] assign _io_out_c_result_bits_rawIn_out_sign_T_1 = _io_out_c_resizer_io_out[32]; // @[rawFloatFromRecFN.scala:59:25] assign io_out_c_result_bits_rawIn_1_sign = _io_out_c_result_bits_rawIn_out_sign_T_1; // @[rawFloatFromRecFN.scala:55:23, :59:25] assign _io_out_c_result_bits_rawIn_out_sExp_T_1 = {1'h0, io_out_c_result_bits_rawIn_exp_1}; // @[rawFloatFromRecFN.scala:51:21, :60:27] assign io_out_c_result_bits_rawIn_1_sExp = _io_out_c_result_bits_rawIn_out_sExp_T_1; // @[rawFloatFromRecFN.scala:55:23, :60:27] wire _io_out_c_result_bits_rawIn_out_sig_T_4 = ~io_out_c_result_bits_rawIn_isZero_1; // @[rawFloatFromRecFN.scala:52:53, :61:35] wire [1:0] _io_out_c_result_bits_rawIn_out_sig_T_5 = {1'h0, _io_out_c_result_bits_rawIn_out_sig_T_4}; // @[rawFloatFromRecFN.scala:61:{32,35}] wire [22:0] _io_out_c_result_bits_rawIn_out_sig_T_6 = _io_out_c_resizer_io_out[22:0]; // @[rawFloatFromRecFN.scala:61:49] assign _io_out_c_result_bits_rawIn_out_sig_T_7 = {_io_out_c_result_bits_rawIn_out_sig_T_5, _io_out_c_result_bits_rawIn_out_sig_T_6}; // @[rawFloatFromRecFN.scala:61:{32,44,49}] assign io_out_c_result_bits_rawIn_1_sig = _io_out_c_result_bits_rawIn_out_sig_T_7; // @[rawFloatFromRecFN.scala:55:23, :61:44] wire io_out_c_result_bits_isSubnormal_1 = $signed(io_out_c_result_bits_rawIn_1_sExp) < 10'sh82; // @[rawFloatFromRecFN.scala:55:23] wire [4:0] _io_out_c_result_bits_denormShiftDist_T_2 = io_out_c_result_bits_rawIn_1_sExp[4:0]; // @[rawFloatFromRecFN.scala:55:23] wire [5:0] _io_out_c_result_bits_denormShiftDist_T_3 = 6'h1 - {1'h0, _io_out_c_result_bits_denormShiftDist_T_2}; // @[fNFromRecFN.scala:52:{35,47}] wire [4:0] io_out_c_result_bits_denormShiftDist_1 = _io_out_c_result_bits_denormShiftDist_T_3[4:0]; // @[fNFromRecFN.scala:52:35] wire [23:0] _io_out_c_result_bits_denormFract_T_2 = io_out_c_result_bits_rawIn_1_sig[24:1]; // @[rawFloatFromRecFN.scala:55:23] wire [23:0] _io_out_c_result_bits_denormFract_T_3 = _io_out_c_result_bits_denormFract_T_2 >> io_out_c_result_bits_denormShiftDist_1; // @[fNFromRecFN.scala:52:35, :53:{38,42}] wire [22:0] io_out_c_result_bits_denormFract_1 = _io_out_c_result_bits_denormFract_T_3[22:0]; // @[fNFromRecFN.scala:53:{42,60}] wire [7:0] _io_out_c_result_bits_expOut_T_6 = io_out_c_result_bits_rawIn_1_sExp[7:0]; // @[rawFloatFromRecFN.scala:55:23] wire [8:0] _io_out_c_result_bits_expOut_T_7 = {1'h0, _io_out_c_result_bits_expOut_T_6} - 9'h81; // @[fNFromRecFN.scala:58:{27,45}] wire [7:0] _io_out_c_result_bits_expOut_T_8 = _io_out_c_result_bits_expOut_T_7[7:0]; // @[fNFromRecFN.scala:58:45] wire [7:0] _io_out_c_result_bits_expOut_T_9 = io_out_c_result_bits_isSubnormal_1 ? 8'h0 : _io_out_c_result_bits_expOut_T_8; // @[fNFromRecFN.scala:51:38, :56:16, :58:45] wire _io_out_c_result_bits_expOut_T_10 = io_out_c_result_bits_rawIn_1_isNaN | io_out_c_result_bits_rawIn_1_isInf; // @[rawFloatFromRecFN.scala:55:23] wire [7:0] _io_out_c_result_bits_expOut_T_11 = {8{_io_out_c_result_bits_expOut_T_10}}; // @[fNFromRecFN.scala:60:{21,44}] wire [7:0] io_out_c_result_bits_expOut_1 = _io_out_c_result_bits_expOut_T_9 | _io_out_c_result_bits_expOut_T_11; // @[fNFromRecFN.scala:56:16, :60:{15,21}] wire [22:0] _io_out_c_result_bits_fractOut_T_2 = io_out_c_result_bits_rawIn_1_sig[22:0]; // @[rawFloatFromRecFN.scala:55:23] wire [22:0] _io_out_c_result_bits_fractOut_T_3 = io_out_c_result_bits_rawIn_1_isInf ? 23'h0 : _io_out_c_result_bits_fractOut_T_2; // @[rawFloatFromRecFN.scala:55:23] wire [22:0] io_out_c_result_bits_fractOut_1 = io_out_c_result_bits_isSubnormal_1 ? io_out_c_result_bits_denormFract_1 : _io_out_c_result_bits_fractOut_T_3; // @[fNFromRecFN.scala:51:38, :53:60, :62:16, :64:20] wire [8:0] io_out_c_result_bits_hi_1 = {io_out_c_result_bits_rawIn_1_sign, io_out_c_result_bits_expOut_1}; // @[rawFloatFromRecFN.scala:55:23] assign _io_out_c_result_bits_T_1 = {io_out_c_result_bits_hi_1, io_out_c_result_bits_fractOut_1}; // @[fNFromRecFN.scala:62:16, :66:12] assign io_out_c_result_1_bits = _io_out_c_result_bits_T_1; // @[fNFromRecFN.scala:66:12] wire [31:0] _mac_unit_io_in_b_T; // @[PE.scala:106:37] assign _mac_unit_io_in_b_T = _mac_unit_io_in_b_WIRE_1; // @[PE.scala:106:37] wire [31:0] _mac_unit_io_in_b_WIRE_bits = _mac_unit_io_in_b_T; // @[PE.scala:106:37] wire c1_self_rec_rawIn_sign = io_in_d_bits_0[31]; // @[rawFloatFromFN.scala:44:18] wire c2_self_rec_rawIn_sign = io_in_d_bits_0[31]; // @[rawFloatFromFN.scala:44:18] wire c1_self_rec_rawIn_sign_0 = c1_self_rec_rawIn_sign; // @[rawFloatFromFN.scala:44:18, :63:19] wire [7:0] c1_self_rec_rawIn_expIn = io_in_d_bits_0[30:23]; // @[rawFloatFromFN.scala:45:19] wire [7:0] c2_self_rec_rawIn_expIn = io_in_d_bits_0[30:23]; // @[rawFloatFromFN.scala:45:19] wire [22:0] c1_self_rec_rawIn_fractIn = io_in_d_bits_0[22:0]; // @[rawFloatFromFN.scala:46:21] wire [22:0] c2_self_rec_rawIn_fractIn = io_in_d_bits_0[22:0]; // @[rawFloatFromFN.scala:46:21] wire c1_self_rec_rawIn_isZeroExpIn = c1_self_rec_rawIn_expIn == 8'h0; // @[rawFloatFromFN.scala:45:19, :48:30] wire c1_self_rec_rawIn_isZeroFractIn = c1_self_rec_rawIn_fractIn == 23'h0; // @[rawFloatFromFN.scala:46:21, :49:34] wire _c1_self_rec_rawIn_normDist_T = c1_self_rec_rawIn_fractIn[0]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_1 = c1_self_rec_rawIn_fractIn[1]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_2 = c1_self_rec_rawIn_fractIn[2]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_3 = c1_self_rec_rawIn_fractIn[3]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_4 = c1_self_rec_rawIn_fractIn[4]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_5 = c1_self_rec_rawIn_fractIn[5]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_6 = c1_self_rec_rawIn_fractIn[6]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_7 = c1_self_rec_rawIn_fractIn[7]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_8 = c1_self_rec_rawIn_fractIn[8]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_9 = c1_self_rec_rawIn_fractIn[9]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_10 = c1_self_rec_rawIn_fractIn[10]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_11 = c1_self_rec_rawIn_fractIn[11]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_12 = c1_self_rec_rawIn_fractIn[12]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_13 = c1_self_rec_rawIn_fractIn[13]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_14 = c1_self_rec_rawIn_fractIn[14]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_15 = c1_self_rec_rawIn_fractIn[15]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_16 = c1_self_rec_rawIn_fractIn[16]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_17 = c1_self_rec_rawIn_fractIn[17]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_18 = c1_self_rec_rawIn_fractIn[18]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_19 = c1_self_rec_rawIn_fractIn[19]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_20 = c1_self_rec_rawIn_fractIn[20]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_21 = c1_self_rec_rawIn_fractIn[21]; // @[rawFloatFromFN.scala:46:21] wire _c1_self_rec_rawIn_normDist_T_22 = c1_self_rec_rawIn_fractIn[22]; // @[rawFloatFromFN.scala:46:21] wire [4:0] _c1_self_rec_rawIn_normDist_T_23 = _c1_self_rec_rawIn_normDist_T_1 ? 5'h15 : 5'h16; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_24 = _c1_self_rec_rawIn_normDist_T_2 ? 5'h14 : _c1_self_rec_rawIn_normDist_T_23; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_25 = _c1_self_rec_rawIn_normDist_T_3 ? 5'h13 : _c1_self_rec_rawIn_normDist_T_24; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_26 = _c1_self_rec_rawIn_normDist_T_4 ? 5'h12 : _c1_self_rec_rawIn_normDist_T_25; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_27 = _c1_self_rec_rawIn_normDist_T_5 ? 5'h11 : _c1_self_rec_rawIn_normDist_T_26; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_28 = _c1_self_rec_rawIn_normDist_T_6 ? 5'h10 : _c1_self_rec_rawIn_normDist_T_27; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_29 = _c1_self_rec_rawIn_normDist_T_7 ? 5'hF : _c1_self_rec_rawIn_normDist_T_28; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_30 = _c1_self_rec_rawIn_normDist_T_8 ? 5'hE : _c1_self_rec_rawIn_normDist_T_29; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_31 = _c1_self_rec_rawIn_normDist_T_9 ? 5'hD : _c1_self_rec_rawIn_normDist_T_30; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_32 = _c1_self_rec_rawIn_normDist_T_10 ? 5'hC : _c1_self_rec_rawIn_normDist_T_31; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_33 = _c1_self_rec_rawIn_normDist_T_11 ? 5'hB : _c1_self_rec_rawIn_normDist_T_32; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_34 = _c1_self_rec_rawIn_normDist_T_12 ? 5'hA : _c1_self_rec_rawIn_normDist_T_33; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_35 = _c1_self_rec_rawIn_normDist_T_13 ? 5'h9 : _c1_self_rec_rawIn_normDist_T_34; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_36 = _c1_self_rec_rawIn_normDist_T_14 ? 5'h8 : _c1_self_rec_rawIn_normDist_T_35; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_37 = _c1_self_rec_rawIn_normDist_T_15 ? 5'h7 : _c1_self_rec_rawIn_normDist_T_36; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_38 = _c1_self_rec_rawIn_normDist_T_16 ? 5'h6 : _c1_self_rec_rawIn_normDist_T_37; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_39 = _c1_self_rec_rawIn_normDist_T_17 ? 5'h5 : _c1_self_rec_rawIn_normDist_T_38; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_40 = _c1_self_rec_rawIn_normDist_T_18 ? 5'h4 : _c1_self_rec_rawIn_normDist_T_39; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_41 = _c1_self_rec_rawIn_normDist_T_19 ? 5'h3 : _c1_self_rec_rawIn_normDist_T_40; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_42 = _c1_self_rec_rawIn_normDist_T_20 ? 5'h2 : _c1_self_rec_rawIn_normDist_T_41; // @[Mux.scala:50:70] wire [4:0] _c1_self_rec_rawIn_normDist_T_43 = _c1_self_rec_rawIn_normDist_T_21 ? 5'h1 : _c1_self_rec_rawIn_normDist_T_42; // @[Mux.scala:50:70] wire [4:0] c1_self_rec_rawIn_normDist = _c1_self_rec_rawIn_normDist_T_22 ? 5'h0 : _c1_self_rec_rawIn_normDist_T_43; // @[Mux.scala:50:70] wire [53:0] _c1_self_rec_rawIn_subnormFract_T = {31'h0, c1_self_rec_rawIn_fractIn} << c1_self_rec_rawIn_normDist; // @[Mux.scala:50:70] wire [21:0] _c1_self_rec_rawIn_subnormFract_T_1 = _c1_self_rec_rawIn_subnormFract_T[21:0]; // @[rawFloatFromFN.scala:52:{33,46}] wire [22:0] c1_self_rec_rawIn_subnormFract = {_c1_self_rec_rawIn_subnormFract_T_1, 1'h0}; // @[rawFloatFromFN.scala:52:{46,64}] wire [8:0] _c1_self_rec_rawIn_adjustedExp_T = {4'hF, ~c1_self_rec_rawIn_normDist}; // @[Mux.scala:50:70] wire [8:0] _c1_self_rec_rawIn_adjustedExp_T_1 = c1_self_rec_rawIn_isZeroExpIn ? _c1_self_rec_rawIn_adjustedExp_T : {1'h0, c1_self_rec_rawIn_expIn}; // @[rawFloatFromFN.scala:45:19, :48:30, :54:10, :55:18] wire [1:0] _c1_self_rec_rawIn_adjustedExp_T_2 = c1_self_rec_rawIn_isZeroExpIn ? 2'h2 : 2'h1; // @[rawFloatFromFN.scala:48:30, :58:14] wire [7:0] _c1_self_rec_rawIn_adjustedExp_T_3 = {6'h20, _c1_self_rec_rawIn_adjustedExp_T_2}; // @[rawFloatFromFN.scala:58:{9,14}] wire [9:0] _c1_self_rec_rawIn_adjustedExp_T_4 = {1'h0, _c1_self_rec_rawIn_adjustedExp_T_1} + {2'h0, _c1_self_rec_rawIn_adjustedExp_T_3}; // @[rawFloatFromFN.scala:54:10, :57:9, :58:9] wire [8:0] c1_self_rec_rawIn_adjustedExp = _c1_self_rec_rawIn_adjustedExp_T_4[8:0]; // @[rawFloatFromFN.scala:57:9] wire [8:0] _c1_self_rec_rawIn_out_sExp_T = c1_self_rec_rawIn_adjustedExp; // @[rawFloatFromFN.scala:57:9, :68:28] wire c1_self_rec_rawIn_isZero = c1_self_rec_rawIn_isZeroExpIn & c1_self_rec_rawIn_isZeroFractIn; // @[rawFloatFromFN.scala:48:30, :49:34, :60:30] wire c1_self_rec_rawIn_isZero_0 = c1_self_rec_rawIn_isZero; // @[rawFloatFromFN.scala:60:30, :63:19] wire [1:0] _c1_self_rec_rawIn_isSpecial_T = c1_self_rec_rawIn_adjustedExp[8:7]; // @[rawFloatFromFN.scala:57:9, :61:32] wire c1_self_rec_rawIn_isSpecial = &_c1_self_rec_rawIn_isSpecial_T; // @[rawFloatFromFN.scala:61:{32,57}] wire _c1_self_rec_rawIn_out_isNaN_T_1; // @[rawFloatFromFN.scala:64:28] wire _c1_self_rec_rawIn_out_isInf_T; // @[rawFloatFromFN.scala:65:28] wire _c1_self_rec_T_2 = c1_self_rec_rawIn_isNaN; // @[recFNFromFN.scala:49:20] wire [9:0] _c1_self_rec_rawIn_out_sExp_T_1; // @[rawFloatFromFN.scala:68:42] wire [24:0] _c1_self_rec_rawIn_out_sig_T_3; // @[rawFloatFromFN.scala:70:27] wire c1_self_rec_rawIn_isInf; // @[rawFloatFromFN.scala:63:19] wire [9:0] c1_self_rec_rawIn_sExp; // @[rawFloatFromFN.scala:63:19] wire [24:0] c1_self_rec_rawIn_sig; // @[rawFloatFromFN.scala:63:19] wire _c1_self_rec_rawIn_out_isNaN_T = ~c1_self_rec_rawIn_isZeroFractIn; // @[rawFloatFromFN.scala:49:34, :64:31] assign _c1_self_rec_rawIn_out_isNaN_T_1 = c1_self_rec_rawIn_isSpecial & _c1_self_rec_rawIn_out_isNaN_T; // @[rawFloatFromFN.scala:61:57, :64:{28,31}] assign c1_self_rec_rawIn_isNaN = _c1_self_rec_rawIn_out_isNaN_T_1; // @[rawFloatFromFN.scala:63:19, :64:28] assign _c1_self_rec_rawIn_out_isInf_T = c1_self_rec_rawIn_isSpecial & c1_self_rec_rawIn_isZeroFractIn; // @[rawFloatFromFN.scala:49:34, :61:57, :65:28] assign c1_self_rec_rawIn_isInf = _c1_self_rec_rawIn_out_isInf_T; // @[rawFloatFromFN.scala:63:19, :65:28] assign _c1_self_rec_rawIn_out_sExp_T_1 = {1'h0, _c1_self_rec_rawIn_out_sExp_T}; // @[rawFloatFromFN.scala:68:{28,42}] assign c1_self_rec_rawIn_sExp = _c1_self_rec_rawIn_out_sExp_T_1; // @[rawFloatFromFN.scala:63:19, :68:42] wire _c1_self_rec_rawIn_out_sig_T = ~c1_self_rec_rawIn_isZero; // @[rawFloatFromFN.scala:60:30, :70:19] wire [1:0] _c1_self_rec_rawIn_out_sig_T_1 = {1'h0, _c1_self_rec_rawIn_out_sig_T}; // @[rawFloatFromFN.scala:70:{16,19}] wire [22:0] _c1_self_rec_rawIn_out_sig_T_2 = c1_self_rec_rawIn_isZeroExpIn ? c1_self_rec_rawIn_subnormFract : c1_self_rec_rawIn_fractIn; // @[rawFloatFromFN.scala:46:21, :48:30, :52:64, :70:33] assign _c1_self_rec_rawIn_out_sig_T_3 = {_c1_self_rec_rawIn_out_sig_T_1, _c1_self_rec_rawIn_out_sig_T_2}; // @[rawFloatFromFN.scala:70:{16,27,33}] assign c1_self_rec_rawIn_sig = _c1_self_rec_rawIn_out_sig_T_3; // @[rawFloatFromFN.scala:63:19, :70:27] wire [2:0] _c1_self_rec_T = c1_self_rec_rawIn_sExp[8:6]; // @[recFNFromFN.scala:48:50] wire [2:0] _c1_self_rec_T_1 = c1_self_rec_rawIn_isZero_0 ? 3'h0 : _c1_self_rec_T; // @[recFNFromFN.scala:48:{15,50}] wire [2:0] _c1_self_rec_T_3 = {_c1_self_rec_T_1[2:1], _c1_self_rec_T_1[0] | _c1_self_rec_T_2}; // @[recFNFromFN.scala:48:{15,76}, :49:20] wire [3:0] _c1_self_rec_T_4 = {c1_self_rec_rawIn_sign_0, _c1_self_rec_T_3}; // @[recFNFromFN.scala:47:20, :48:76] wire [5:0] _c1_self_rec_T_5 = c1_self_rec_rawIn_sExp[5:0]; // @[recFNFromFN.scala:50:23] wire [9:0] _c1_self_rec_T_6 = {_c1_self_rec_T_4, _c1_self_rec_T_5}; // @[recFNFromFN.scala:47:20, :49:45, :50:23] wire [22:0] _c1_self_rec_T_7 = c1_self_rec_rawIn_sig[22:0]; // @[recFNFromFN.scala:51:22] wire [32:0] c1_self_rec = {_c1_self_rec_T_6, _c1_self_rec_T_7}; // @[recFNFromFN.scala:49:45, :50:41, :51:22] wire [31:0] _c1_result_bits_T; // @[fNFromRecFN.scala:66:12] wire [31:0] c1_result_bits; // @[Arithmetic.scala:491:26] wire [8:0] c1_result_bits_rawIn_exp = _c1_resizer_io_out[31:23]; // @[rawFloatFromRecFN.scala:51:21] wire [2:0] _c1_result_bits_rawIn_isZero_T = c1_result_bits_rawIn_exp[8:6]; // @[rawFloatFromRecFN.scala:51:21, :52:28] wire c1_result_bits_rawIn_isZero = _c1_result_bits_rawIn_isZero_T == 3'h0; // @[rawFloatFromRecFN.scala:52:{28,53}] wire c1_result_bits_rawIn_isZero_0 = c1_result_bits_rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :55:23] wire [1:0] _c1_result_bits_rawIn_isSpecial_T = c1_result_bits_rawIn_exp[8:7]; // @[rawFloatFromRecFN.scala:51:21, :53:28] wire c1_result_bits_rawIn_isSpecial = &_c1_result_bits_rawIn_isSpecial_T; // @[rawFloatFromRecFN.scala:53:{28,53}] wire _c1_result_bits_rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:56:33] wire _c1_result_bits_rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:57:33] wire _c1_result_bits_rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:59:25] wire [9:0] _c1_result_bits_rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:60:27] wire [24:0] _c1_result_bits_rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:61:44] wire c1_result_bits_rawIn_isNaN; // @[rawFloatFromRecFN.scala:55:23] wire c1_result_bits_rawIn_isInf; // @[rawFloatFromRecFN.scala:55:23] wire c1_result_bits_rawIn_sign; // @[rawFloatFromRecFN.scala:55:23] wire [9:0] c1_result_bits_rawIn_sExp; // @[rawFloatFromRecFN.scala:55:23] wire [24:0] c1_result_bits_rawIn_sig; // @[rawFloatFromRecFN.scala:55:23] wire _c1_result_bits_rawIn_out_isNaN_T = c1_result_bits_rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41] wire _c1_result_bits_rawIn_out_isInf_T = c1_result_bits_rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41, :57:41] assign _c1_result_bits_rawIn_out_isNaN_T_1 = c1_result_bits_rawIn_isSpecial & _c1_result_bits_rawIn_out_isNaN_T; // @[rawFloatFromRecFN.scala:53:53, :56:{33,41}] assign c1_result_bits_rawIn_isNaN = _c1_result_bits_rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:55:23, :56:33] wire _c1_result_bits_rawIn_out_isInf_T_1 = ~_c1_result_bits_rawIn_out_isInf_T; // @[rawFloatFromRecFN.scala:57:{36,41}] assign _c1_result_bits_rawIn_out_isInf_T_2 = c1_result_bits_rawIn_isSpecial & _c1_result_bits_rawIn_out_isInf_T_1; // @[rawFloatFromRecFN.scala:53:53, :57:{33,36}] assign c1_result_bits_rawIn_isInf = _c1_result_bits_rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:55:23, :57:33] assign _c1_result_bits_rawIn_out_sign_T = _c1_resizer_io_out[32]; // @[rawFloatFromRecFN.scala:59:25] assign c1_result_bits_rawIn_sign = _c1_result_bits_rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:55:23, :59:25] assign _c1_result_bits_rawIn_out_sExp_T = {1'h0, c1_result_bits_rawIn_exp}; // @[rawFloatFromRecFN.scala:51:21, :60:27] assign c1_result_bits_rawIn_sExp = _c1_result_bits_rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:55:23, :60:27] wire _c1_result_bits_rawIn_out_sig_T = ~c1_result_bits_rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :61:35] wire [1:0] _c1_result_bits_rawIn_out_sig_T_1 = {1'h0, _c1_result_bits_rawIn_out_sig_T}; // @[rawFloatFromRecFN.scala:61:{32,35}] wire [22:0] _c1_result_bits_rawIn_out_sig_T_2 = _c1_resizer_io_out[22:0]; // @[rawFloatFromRecFN.scala:61:49] assign _c1_result_bits_rawIn_out_sig_T_3 = {_c1_result_bits_rawIn_out_sig_T_1, _c1_result_bits_rawIn_out_sig_T_2}; // @[rawFloatFromRecFN.scala:61:{32,44,49}] assign c1_result_bits_rawIn_sig = _c1_result_bits_rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:55:23, :61:44] wire c1_result_bits_isSubnormal = $signed(c1_result_bits_rawIn_sExp) < 10'sh82; // @[rawFloatFromRecFN.scala:55:23] wire [4:0] _c1_result_bits_denormShiftDist_T = c1_result_bits_rawIn_sExp[4:0]; // @[rawFloatFromRecFN.scala:55:23] wire [5:0] _c1_result_bits_denormShiftDist_T_1 = 6'h1 - {1'h0, _c1_result_bits_denormShiftDist_T}; // @[fNFromRecFN.scala:52:{35,47}] wire [4:0] c1_result_bits_denormShiftDist = _c1_result_bits_denormShiftDist_T_1[4:0]; // @[fNFromRecFN.scala:52:35] wire [23:0] _c1_result_bits_denormFract_T = c1_result_bits_rawIn_sig[24:1]; // @[rawFloatFromRecFN.scala:55:23] wire [23:0] _c1_result_bits_denormFract_T_1 = _c1_result_bits_denormFract_T >> c1_result_bits_denormShiftDist; // @[fNFromRecFN.scala:52:35, :53:{38,42}] wire [22:0] c1_result_bits_denormFract = _c1_result_bits_denormFract_T_1[22:0]; // @[fNFromRecFN.scala:53:{42,60}] wire [7:0] _c1_result_bits_expOut_T = c1_result_bits_rawIn_sExp[7:0]; // @[rawFloatFromRecFN.scala:55:23] wire [8:0] _c1_result_bits_expOut_T_1 = {1'h0, _c1_result_bits_expOut_T} - 9'h81; // @[fNFromRecFN.scala:58:{27,45}] wire [7:0] _c1_result_bits_expOut_T_2 = _c1_result_bits_expOut_T_1[7:0]; // @[fNFromRecFN.scala:58:45] wire [7:0] _c1_result_bits_expOut_T_3 = c1_result_bits_isSubnormal ? 8'h0 : _c1_result_bits_expOut_T_2; // @[fNFromRecFN.scala:51:38, :56:16, :58:45] wire _c1_result_bits_expOut_T_4 = c1_result_bits_rawIn_isNaN | c1_result_bits_rawIn_isInf; // @[rawFloatFromRecFN.scala:55:23] wire [7:0] _c1_result_bits_expOut_T_5 = {8{_c1_result_bits_expOut_T_4}}; // @[fNFromRecFN.scala:60:{21,44}] wire [7:0] c1_result_bits_expOut = _c1_result_bits_expOut_T_3 | _c1_result_bits_expOut_T_5; // @[fNFromRecFN.scala:56:16, :60:{15,21}] wire [22:0] _c1_result_bits_fractOut_T = c1_result_bits_rawIn_sig[22:0]; // @[rawFloatFromRecFN.scala:55:23] wire [22:0] _c1_result_bits_fractOut_T_1 = c1_result_bits_rawIn_isInf ? 23'h0 : _c1_result_bits_fractOut_T; // @[rawFloatFromRecFN.scala:55:23] wire [22:0] c1_result_bits_fractOut = c1_result_bits_isSubnormal ? c1_result_bits_denormFract : _c1_result_bits_fractOut_T_1; // @[fNFromRecFN.scala:51:38, :53:60, :62:16, :64:20] wire [8:0] c1_result_bits_hi = {c1_result_bits_rawIn_sign, c1_result_bits_expOut}; // @[rawFloatFromRecFN.scala:55:23] assign _c1_result_bits_T = {c1_result_bits_hi, c1_result_bits_fractOut}; // @[fNFromRecFN.scala:62:16, :66:12] assign c1_result_bits = _c1_result_bits_T; // @[fNFromRecFN.scala:66:12] wire io_out_c_self_rec_rawIn_sign_2 = c2_bits[31]; // @[rawFloatFromFN.scala:44:18] wire io_out_c_self_rec_rawIn_2_sign = io_out_c_self_rec_rawIn_sign_2; // @[rawFloatFromFN.scala:44:18, :63:19] wire [7:0] io_out_c_self_rec_rawIn_expIn_2 = c2_bits[30:23]; // @[rawFloatFromFN.scala:45:19] wire [22:0] io_out_c_self_rec_rawIn_fractIn_2 = c2_bits[22:0]; // @[rawFloatFromFN.scala:46:21] wire io_out_c_self_rec_rawIn_isZeroExpIn_2 = io_out_c_self_rec_rawIn_expIn_2 == 8'h0; // @[rawFloatFromFN.scala:45:19, :48:30] wire io_out_c_self_rec_rawIn_isZeroFractIn_2 = io_out_c_self_rec_rawIn_fractIn_2 == 23'h0; // @[rawFloatFromFN.scala:46:21, :49:34] wire _io_out_c_self_rec_rawIn_normDist_T_88 = io_out_c_self_rec_rawIn_fractIn_2[0]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_89 = io_out_c_self_rec_rawIn_fractIn_2[1]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_90 = io_out_c_self_rec_rawIn_fractIn_2[2]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_91 = io_out_c_self_rec_rawIn_fractIn_2[3]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_92 = io_out_c_self_rec_rawIn_fractIn_2[4]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_93 = io_out_c_self_rec_rawIn_fractIn_2[5]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_94 = io_out_c_self_rec_rawIn_fractIn_2[6]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_95 = io_out_c_self_rec_rawIn_fractIn_2[7]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_96 = io_out_c_self_rec_rawIn_fractIn_2[8]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_97 = io_out_c_self_rec_rawIn_fractIn_2[9]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_98 = io_out_c_self_rec_rawIn_fractIn_2[10]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_99 = io_out_c_self_rec_rawIn_fractIn_2[11]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_100 = io_out_c_self_rec_rawIn_fractIn_2[12]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_101 = io_out_c_self_rec_rawIn_fractIn_2[13]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_102 = io_out_c_self_rec_rawIn_fractIn_2[14]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_103 = io_out_c_self_rec_rawIn_fractIn_2[15]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_104 = io_out_c_self_rec_rawIn_fractIn_2[16]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_105 = io_out_c_self_rec_rawIn_fractIn_2[17]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_106 = io_out_c_self_rec_rawIn_fractIn_2[18]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_107 = io_out_c_self_rec_rawIn_fractIn_2[19]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_108 = io_out_c_self_rec_rawIn_fractIn_2[20]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_109 = io_out_c_self_rec_rawIn_fractIn_2[21]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_self_rec_rawIn_normDist_T_110 = io_out_c_self_rec_rawIn_fractIn_2[22]; // @[rawFloatFromFN.scala:46:21] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_111 = _io_out_c_self_rec_rawIn_normDist_T_89 ? 5'h15 : 5'h16; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_112 = _io_out_c_self_rec_rawIn_normDist_T_90 ? 5'h14 : _io_out_c_self_rec_rawIn_normDist_T_111; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_113 = _io_out_c_self_rec_rawIn_normDist_T_91 ? 5'h13 : _io_out_c_self_rec_rawIn_normDist_T_112; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_114 = _io_out_c_self_rec_rawIn_normDist_T_92 ? 5'h12 : _io_out_c_self_rec_rawIn_normDist_T_113; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_115 = _io_out_c_self_rec_rawIn_normDist_T_93 ? 5'h11 : _io_out_c_self_rec_rawIn_normDist_T_114; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_116 = _io_out_c_self_rec_rawIn_normDist_T_94 ? 5'h10 : _io_out_c_self_rec_rawIn_normDist_T_115; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_117 = _io_out_c_self_rec_rawIn_normDist_T_95 ? 5'hF : _io_out_c_self_rec_rawIn_normDist_T_116; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_118 = _io_out_c_self_rec_rawIn_normDist_T_96 ? 5'hE : _io_out_c_self_rec_rawIn_normDist_T_117; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_119 = _io_out_c_self_rec_rawIn_normDist_T_97 ? 5'hD : _io_out_c_self_rec_rawIn_normDist_T_118; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_120 = _io_out_c_self_rec_rawIn_normDist_T_98 ? 5'hC : _io_out_c_self_rec_rawIn_normDist_T_119; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_121 = _io_out_c_self_rec_rawIn_normDist_T_99 ? 5'hB : _io_out_c_self_rec_rawIn_normDist_T_120; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_122 = _io_out_c_self_rec_rawIn_normDist_T_100 ? 5'hA : _io_out_c_self_rec_rawIn_normDist_T_121; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_123 = _io_out_c_self_rec_rawIn_normDist_T_101 ? 5'h9 : _io_out_c_self_rec_rawIn_normDist_T_122; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_124 = _io_out_c_self_rec_rawIn_normDist_T_102 ? 5'h8 : _io_out_c_self_rec_rawIn_normDist_T_123; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_125 = _io_out_c_self_rec_rawIn_normDist_T_103 ? 5'h7 : _io_out_c_self_rec_rawIn_normDist_T_124; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_126 = _io_out_c_self_rec_rawIn_normDist_T_104 ? 5'h6 : _io_out_c_self_rec_rawIn_normDist_T_125; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_127 = _io_out_c_self_rec_rawIn_normDist_T_105 ? 5'h5 : _io_out_c_self_rec_rawIn_normDist_T_126; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_128 = _io_out_c_self_rec_rawIn_normDist_T_106 ? 5'h4 : _io_out_c_self_rec_rawIn_normDist_T_127; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_129 = _io_out_c_self_rec_rawIn_normDist_T_107 ? 5'h3 : _io_out_c_self_rec_rawIn_normDist_T_128; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_130 = _io_out_c_self_rec_rawIn_normDist_T_108 ? 5'h2 : _io_out_c_self_rec_rawIn_normDist_T_129; // @[Mux.scala:50:70] wire [4:0] _io_out_c_self_rec_rawIn_normDist_T_131 = _io_out_c_self_rec_rawIn_normDist_T_109 ? 5'h1 : _io_out_c_self_rec_rawIn_normDist_T_130; // @[Mux.scala:50:70] wire [4:0] io_out_c_self_rec_rawIn_normDist_2 = _io_out_c_self_rec_rawIn_normDist_T_110 ? 5'h0 : _io_out_c_self_rec_rawIn_normDist_T_131; // @[Mux.scala:50:70] wire [53:0] _io_out_c_self_rec_rawIn_subnormFract_T_4 = {31'h0, io_out_c_self_rec_rawIn_fractIn_2} << io_out_c_self_rec_rawIn_normDist_2; // @[Mux.scala:50:70] wire [21:0] _io_out_c_self_rec_rawIn_subnormFract_T_5 = _io_out_c_self_rec_rawIn_subnormFract_T_4[21:0]; // @[rawFloatFromFN.scala:52:{33,46}] wire [22:0] io_out_c_self_rec_rawIn_subnormFract_2 = {_io_out_c_self_rec_rawIn_subnormFract_T_5, 1'h0}; // @[rawFloatFromFN.scala:52:{46,64}] wire [8:0] _io_out_c_self_rec_rawIn_adjustedExp_T_10 = {4'hF, ~io_out_c_self_rec_rawIn_normDist_2}; // @[Mux.scala:50:70] wire [8:0] _io_out_c_self_rec_rawIn_adjustedExp_T_11 = io_out_c_self_rec_rawIn_isZeroExpIn_2 ? _io_out_c_self_rec_rawIn_adjustedExp_T_10 : {1'h0, io_out_c_self_rec_rawIn_expIn_2}; // @[rawFloatFromFN.scala:45:19, :48:30, :54:10, :55:18] wire [1:0] _io_out_c_self_rec_rawIn_adjustedExp_T_12 = io_out_c_self_rec_rawIn_isZeroExpIn_2 ? 2'h2 : 2'h1; // @[rawFloatFromFN.scala:48:30, :58:14] wire [7:0] _io_out_c_self_rec_rawIn_adjustedExp_T_13 = {6'h20, _io_out_c_self_rec_rawIn_adjustedExp_T_12}; // @[rawFloatFromFN.scala:58:{9,14}] wire [9:0] _io_out_c_self_rec_rawIn_adjustedExp_T_14 = {1'h0, _io_out_c_self_rec_rawIn_adjustedExp_T_11} + {2'h0, _io_out_c_self_rec_rawIn_adjustedExp_T_13}; // @[rawFloatFromFN.scala:54:10, :57:9, :58:9] wire [8:0] io_out_c_self_rec_rawIn_adjustedExp_2 = _io_out_c_self_rec_rawIn_adjustedExp_T_14[8:0]; // @[rawFloatFromFN.scala:57:9] wire [8:0] _io_out_c_self_rec_rawIn_out_sExp_T_4 = io_out_c_self_rec_rawIn_adjustedExp_2; // @[rawFloatFromFN.scala:57:9, :68:28] wire io_out_c_self_rec_rawIn_isZero_2 = io_out_c_self_rec_rawIn_isZeroExpIn_2 & io_out_c_self_rec_rawIn_isZeroFractIn_2; // @[rawFloatFromFN.scala:48:30, :49:34, :60:30] wire io_out_c_self_rec_rawIn_2_isZero = io_out_c_self_rec_rawIn_isZero_2; // @[rawFloatFromFN.scala:60:30, :63:19] wire [1:0] _io_out_c_self_rec_rawIn_isSpecial_T_2 = io_out_c_self_rec_rawIn_adjustedExp_2[8:7]; // @[rawFloatFromFN.scala:57:9, :61:32] wire io_out_c_self_rec_rawIn_isSpecial_2 = &_io_out_c_self_rec_rawIn_isSpecial_T_2; // @[rawFloatFromFN.scala:61:{32,57}] wire _io_out_c_self_rec_rawIn_out_isNaN_T_5; // @[rawFloatFromFN.scala:64:28] wire _io_out_c_self_rec_rawIn_out_isInf_T_2; // @[rawFloatFromFN.scala:65:28] wire _io_out_c_self_rec_T_18 = io_out_c_self_rec_rawIn_2_isNaN; // @[recFNFromFN.scala:49:20] wire [9:0] _io_out_c_self_rec_rawIn_out_sExp_T_5; // @[rawFloatFromFN.scala:68:42] wire [24:0] _io_out_c_self_rec_rawIn_out_sig_T_11; // @[rawFloatFromFN.scala:70:27] wire io_out_c_self_rec_rawIn_2_isInf; // @[rawFloatFromFN.scala:63:19] wire [9:0] io_out_c_self_rec_rawIn_2_sExp; // @[rawFloatFromFN.scala:63:19] wire [24:0] io_out_c_self_rec_rawIn_2_sig; // @[rawFloatFromFN.scala:63:19] wire _io_out_c_self_rec_rawIn_out_isNaN_T_4 = ~io_out_c_self_rec_rawIn_isZeroFractIn_2; // @[rawFloatFromFN.scala:49:34, :64:31] assign _io_out_c_self_rec_rawIn_out_isNaN_T_5 = io_out_c_self_rec_rawIn_isSpecial_2 & _io_out_c_self_rec_rawIn_out_isNaN_T_4; // @[rawFloatFromFN.scala:61:57, :64:{28,31}] assign io_out_c_self_rec_rawIn_2_isNaN = _io_out_c_self_rec_rawIn_out_isNaN_T_5; // @[rawFloatFromFN.scala:63:19, :64:28] assign _io_out_c_self_rec_rawIn_out_isInf_T_2 = io_out_c_self_rec_rawIn_isSpecial_2 & io_out_c_self_rec_rawIn_isZeroFractIn_2; // @[rawFloatFromFN.scala:49:34, :61:57, :65:28] assign io_out_c_self_rec_rawIn_2_isInf = _io_out_c_self_rec_rawIn_out_isInf_T_2; // @[rawFloatFromFN.scala:63:19, :65:28] assign _io_out_c_self_rec_rawIn_out_sExp_T_5 = {1'h0, _io_out_c_self_rec_rawIn_out_sExp_T_4}; // @[rawFloatFromFN.scala:68:{28,42}] assign io_out_c_self_rec_rawIn_2_sExp = _io_out_c_self_rec_rawIn_out_sExp_T_5; // @[rawFloatFromFN.scala:63:19, :68:42] wire _io_out_c_self_rec_rawIn_out_sig_T_8 = ~io_out_c_self_rec_rawIn_isZero_2; // @[rawFloatFromFN.scala:60:30, :70:19] wire [1:0] _io_out_c_self_rec_rawIn_out_sig_T_9 = {1'h0, _io_out_c_self_rec_rawIn_out_sig_T_8}; // @[rawFloatFromFN.scala:70:{16,19}] wire [22:0] _io_out_c_self_rec_rawIn_out_sig_T_10 = io_out_c_self_rec_rawIn_isZeroExpIn_2 ? io_out_c_self_rec_rawIn_subnormFract_2 : io_out_c_self_rec_rawIn_fractIn_2; // @[rawFloatFromFN.scala:46:21, :48:30, :52:64, :70:33] assign _io_out_c_self_rec_rawIn_out_sig_T_11 = {_io_out_c_self_rec_rawIn_out_sig_T_9, _io_out_c_self_rec_rawIn_out_sig_T_10}; // @[rawFloatFromFN.scala:70:{16,27,33}] assign io_out_c_self_rec_rawIn_2_sig = _io_out_c_self_rec_rawIn_out_sig_T_11; // @[rawFloatFromFN.scala:63:19, :70:27] wire [2:0] _io_out_c_self_rec_T_16 = io_out_c_self_rec_rawIn_2_sExp[8:6]; // @[recFNFromFN.scala:48:50] wire [2:0] _io_out_c_self_rec_T_17 = io_out_c_self_rec_rawIn_2_isZero ? 3'h0 : _io_out_c_self_rec_T_16; // @[recFNFromFN.scala:48:{15,50}] wire [2:0] _io_out_c_self_rec_T_19 = {_io_out_c_self_rec_T_17[2:1], _io_out_c_self_rec_T_17[0] | _io_out_c_self_rec_T_18}; // @[recFNFromFN.scala:48:{15,76}, :49:20] wire [3:0] _io_out_c_self_rec_T_20 = {io_out_c_self_rec_rawIn_2_sign, _io_out_c_self_rec_T_19}; // @[recFNFromFN.scala:47:20, :48:76] wire [5:0] _io_out_c_self_rec_T_21 = io_out_c_self_rec_rawIn_2_sExp[5:0]; // @[recFNFromFN.scala:50:23] wire [9:0] _io_out_c_self_rec_T_22 = {_io_out_c_self_rec_T_20, _io_out_c_self_rec_T_21}; // @[recFNFromFN.scala:47:20, :49:45, :50:23] wire [22:0] _io_out_c_self_rec_T_23 = io_out_c_self_rec_rawIn_2_sig[22:0]; // @[recFNFromFN.scala:51:22] wire [32:0] io_out_c_self_rec_2 = {_io_out_c_self_rec_T_22, _io_out_c_self_rec_T_23}; // @[recFNFromFN.scala:49:45, :50:41, :51:22] wire [7:0] io_out_c_shift_exp_1; // @[Arithmetic.scala:442:29] wire [6:0] _io_out_c_shift_exp_T_3 = _io_out_c_shift_exp_T_2[6:0]; // @[Arithmetic.scala:443:34] assign io_out_c_shift_exp_1 = {1'h0, _io_out_c_shift_exp_T_3}; // @[Arithmetic.scala:442:29, :443:{19,34}] wire [8:0] io_out_c_shift_fn_hi_1 = {1'h0, io_out_c_shift_exp_1}; // @[Arithmetic.scala:442:29, :444:27] wire [31:0] io_out_c_shift_fn_1 = {io_out_c_shift_fn_hi_1, 23'h0}; // @[Arithmetic.scala:444:27] wire io_out_c_shift_rec_rawIn_sign_1 = io_out_c_shift_fn_1[31]; // @[rawFloatFromFN.scala:44:18] wire io_out_c_shift_rec_rawIn_1_sign = io_out_c_shift_rec_rawIn_sign_1; // @[rawFloatFromFN.scala:44:18, :63:19] wire [7:0] io_out_c_shift_rec_rawIn_expIn_1 = io_out_c_shift_fn_1[30:23]; // @[rawFloatFromFN.scala:45:19] wire [22:0] io_out_c_shift_rec_rawIn_fractIn_1 = io_out_c_shift_fn_1[22:0]; // @[rawFloatFromFN.scala:46:21] wire io_out_c_shift_rec_rawIn_isZeroExpIn_1 = io_out_c_shift_rec_rawIn_expIn_1 == 8'h0; // @[rawFloatFromFN.scala:45:19, :48:30] wire io_out_c_shift_rec_rawIn_isZeroFractIn_1 = io_out_c_shift_rec_rawIn_fractIn_1 == 23'h0; // @[rawFloatFromFN.scala:46:21, :49:34] wire _io_out_c_shift_rec_rawIn_normDist_T_44 = io_out_c_shift_rec_rawIn_fractIn_1[0]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_45 = io_out_c_shift_rec_rawIn_fractIn_1[1]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_46 = io_out_c_shift_rec_rawIn_fractIn_1[2]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_47 = io_out_c_shift_rec_rawIn_fractIn_1[3]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_48 = io_out_c_shift_rec_rawIn_fractIn_1[4]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_49 = io_out_c_shift_rec_rawIn_fractIn_1[5]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_50 = io_out_c_shift_rec_rawIn_fractIn_1[6]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_51 = io_out_c_shift_rec_rawIn_fractIn_1[7]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_52 = io_out_c_shift_rec_rawIn_fractIn_1[8]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_53 = io_out_c_shift_rec_rawIn_fractIn_1[9]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_54 = io_out_c_shift_rec_rawIn_fractIn_1[10]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_55 = io_out_c_shift_rec_rawIn_fractIn_1[11]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_56 = io_out_c_shift_rec_rawIn_fractIn_1[12]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_57 = io_out_c_shift_rec_rawIn_fractIn_1[13]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_58 = io_out_c_shift_rec_rawIn_fractIn_1[14]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_59 = io_out_c_shift_rec_rawIn_fractIn_1[15]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_60 = io_out_c_shift_rec_rawIn_fractIn_1[16]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_61 = io_out_c_shift_rec_rawIn_fractIn_1[17]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_62 = io_out_c_shift_rec_rawIn_fractIn_1[18]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_63 = io_out_c_shift_rec_rawIn_fractIn_1[19]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_64 = io_out_c_shift_rec_rawIn_fractIn_1[20]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_65 = io_out_c_shift_rec_rawIn_fractIn_1[21]; // @[rawFloatFromFN.scala:46:21] wire _io_out_c_shift_rec_rawIn_normDist_T_66 = io_out_c_shift_rec_rawIn_fractIn_1[22]; // @[rawFloatFromFN.scala:46:21] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_67 = _io_out_c_shift_rec_rawIn_normDist_T_45 ? 5'h15 : 5'h16; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_68 = _io_out_c_shift_rec_rawIn_normDist_T_46 ? 5'h14 : _io_out_c_shift_rec_rawIn_normDist_T_67; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_69 = _io_out_c_shift_rec_rawIn_normDist_T_47 ? 5'h13 : _io_out_c_shift_rec_rawIn_normDist_T_68; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_70 = _io_out_c_shift_rec_rawIn_normDist_T_48 ? 5'h12 : _io_out_c_shift_rec_rawIn_normDist_T_69; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_71 = _io_out_c_shift_rec_rawIn_normDist_T_49 ? 5'h11 : _io_out_c_shift_rec_rawIn_normDist_T_70; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_72 = _io_out_c_shift_rec_rawIn_normDist_T_50 ? 5'h10 : _io_out_c_shift_rec_rawIn_normDist_T_71; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_73 = _io_out_c_shift_rec_rawIn_normDist_T_51 ? 5'hF : _io_out_c_shift_rec_rawIn_normDist_T_72; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_74 = _io_out_c_shift_rec_rawIn_normDist_T_52 ? 5'hE : _io_out_c_shift_rec_rawIn_normDist_T_73; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_75 = _io_out_c_shift_rec_rawIn_normDist_T_53 ? 5'hD : _io_out_c_shift_rec_rawIn_normDist_T_74; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_76 = _io_out_c_shift_rec_rawIn_normDist_T_54 ? 5'hC : _io_out_c_shift_rec_rawIn_normDist_T_75; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_77 = _io_out_c_shift_rec_rawIn_normDist_T_55 ? 5'hB : _io_out_c_shift_rec_rawIn_normDist_T_76; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_78 = _io_out_c_shift_rec_rawIn_normDist_T_56 ? 5'hA : _io_out_c_shift_rec_rawIn_normDist_T_77; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_79 = _io_out_c_shift_rec_rawIn_normDist_T_57 ? 5'h9 : _io_out_c_shift_rec_rawIn_normDist_T_78; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_80 = _io_out_c_shift_rec_rawIn_normDist_T_58 ? 5'h8 : _io_out_c_shift_rec_rawIn_normDist_T_79; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_81 = _io_out_c_shift_rec_rawIn_normDist_T_59 ? 5'h7 : _io_out_c_shift_rec_rawIn_normDist_T_80; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_82 = _io_out_c_shift_rec_rawIn_normDist_T_60 ? 5'h6 : _io_out_c_shift_rec_rawIn_normDist_T_81; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_83 = _io_out_c_shift_rec_rawIn_normDist_T_61 ? 5'h5 : _io_out_c_shift_rec_rawIn_normDist_T_82; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_84 = _io_out_c_shift_rec_rawIn_normDist_T_62 ? 5'h4 : _io_out_c_shift_rec_rawIn_normDist_T_83; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_85 = _io_out_c_shift_rec_rawIn_normDist_T_63 ? 5'h3 : _io_out_c_shift_rec_rawIn_normDist_T_84; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_86 = _io_out_c_shift_rec_rawIn_normDist_T_64 ? 5'h2 : _io_out_c_shift_rec_rawIn_normDist_T_85; // @[Mux.scala:50:70] wire [4:0] _io_out_c_shift_rec_rawIn_normDist_T_87 = _io_out_c_shift_rec_rawIn_normDist_T_65 ? 5'h1 : _io_out_c_shift_rec_rawIn_normDist_T_86; // @[Mux.scala:50:70] wire [4:0] io_out_c_shift_rec_rawIn_normDist_1 = _io_out_c_shift_rec_rawIn_normDist_T_66 ? 5'h0 : _io_out_c_shift_rec_rawIn_normDist_T_87; // @[Mux.scala:50:70] wire [53:0] _io_out_c_shift_rec_rawIn_subnormFract_T_2 = {31'h0, io_out_c_shift_rec_rawIn_fractIn_1} << io_out_c_shift_rec_rawIn_normDist_1; // @[Mux.scala:50:70] wire [21:0] _io_out_c_shift_rec_rawIn_subnormFract_T_3 = _io_out_c_shift_rec_rawIn_subnormFract_T_2[21:0]; // @[rawFloatFromFN.scala:52:{33,46}] wire [22:0] io_out_c_shift_rec_rawIn_subnormFract_1 = {_io_out_c_shift_rec_rawIn_subnormFract_T_3, 1'h0}; // @[rawFloatFromFN.scala:52:{46,64}] wire [8:0] _io_out_c_shift_rec_rawIn_adjustedExp_T_5 = {4'hF, ~io_out_c_shift_rec_rawIn_normDist_1}; // @[Mux.scala:50:70] wire [8:0] _io_out_c_shift_rec_rawIn_adjustedExp_T_6 = io_out_c_shift_rec_rawIn_isZeroExpIn_1 ? _io_out_c_shift_rec_rawIn_adjustedExp_T_5 : {1'h0, io_out_c_shift_rec_rawIn_expIn_1}; // @[rawFloatFromFN.scala:45:19, :48:30, :54:10, :55:18] wire [1:0] _io_out_c_shift_rec_rawIn_adjustedExp_T_7 = io_out_c_shift_rec_rawIn_isZeroExpIn_1 ? 2'h2 : 2'h1; // @[rawFloatFromFN.scala:48:30, :58:14] wire [7:0] _io_out_c_shift_rec_rawIn_adjustedExp_T_8 = {6'h20, _io_out_c_shift_rec_rawIn_adjustedExp_T_7}; // @[rawFloatFromFN.scala:58:{9,14}] wire [9:0] _io_out_c_shift_rec_rawIn_adjustedExp_T_9 = {1'h0, _io_out_c_shift_rec_rawIn_adjustedExp_T_6} + {2'h0, _io_out_c_shift_rec_rawIn_adjustedExp_T_8}; // @[rawFloatFromFN.scala:54:10, :57:9, :58:9] wire [8:0] io_out_c_shift_rec_rawIn_adjustedExp_1 = _io_out_c_shift_rec_rawIn_adjustedExp_T_9[8:0]; // @[rawFloatFromFN.scala:57:9] wire [8:0] _io_out_c_shift_rec_rawIn_out_sExp_T_2 = io_out_c_shift_rec_rawIn_adjustedExp_1; // @[rawFloatFromFN.scala:57:9, :68:28] wire io_out_c_shift_rec_rawIn_isZero_1 = io_out_c_shift_rec_rawIn_isZeroExpIn_1 & io_out_c_shift_rec_rawIn_isZeroFractIn_1; // @[rawFloatFromFN.scala:48:30, :49:34, :60:30] wire io_out_c_shift_rec_rawIn_1_isZero = io_out_c_shift_rec_rawIn_isZero_1; // @[rawFloatFromFN.scala:60:30, :63:19] wire [1:0] _io_out_c_shift_rec_rawIn_isSpecial_T_1 = io_out_c_shift_rec_rawIn_adjustedExp_1[8:7]; // @[rawFloatFromFN.scala:57:9, :61:32] wire io_out_c_shift_rec_rawIn_isSpecial_1 = &_io_out_c_shift_rec_rawIn_isSpecial_T_1; // @[rawFloatFromFN.scala:61:{32,57}] wire _io_out_c_shift_rec_rawIn_out_isNaN_T_3; // @[rawFloatFromFN.scala:64:28] wire _io_out_c_shift_rec_rawIn_out_isInf_T_1; // @[rawFloatFromFN.scala:65:28] wire _io_out_c_shift_rec_T_10 = io_out_c_shift_rec_rawIn_1_isNaN; // @[recFNFromFN.scala:49:20] wire [9:0] _io_out_c_shift_rec_rawIn_out_sExp_T_3; // @[rawFloatFromFN.scala:68:42] wire [24:0] _io_out_c_shift_rec_rawIn_out_sig_T_7; // @[rawFloatFromFN.scala:70:27] wire io_out_c_shift_rec_rawIn_1_isInf; // @[rawFloatFromFN.scala:63:19] wire [9:0] io_out_c_shift_rec_rawIn_1_sExp; // @[rawFloatFromFN.scala:63:19] wire [24:0] io_out_c_shift_rec_rawIn_1_sig; // @[rawFloatFromFN.scala:63:19] wire _io_out_c_shift_rec_rawIn_out_isNaN_T_2 = ~io_out_c_shift_rec_rawIn_isZeroFractIn_1; // @[rawFloatFromFN.scala:49:34, :64:31] assign _io_out_c_shift_rec_rawIn_out_isNaN_T_3 = io_out_c_shift_rec_rawIn_isSpecial_1 & _io_out_c_shift_rec_rawIn_out_isNaN_T_2; // @[rawFloatFromFN.scala:61:57, :64:{28,31}] assign io_out_c_shift_rec_rawIn_1_isNaN = _io_out_c_shift_rec_rawIn_out_isNaN_T_3; // @[rawFloatFromFN.scala:63:19, :64:28] assign _io_out_c_shift_rec_rawIn_out_isInf_T_1 = io_out_c_shift_rec_rawIn_isSpecial_1 & io_out_c_shift_rec_rawIn_isZeroFractIn_1; // @[rawFloatFromFN.scala:49:34, :61:57, :65:28] assign io_out_c_shift_rec_rawIn_1_isInf = _io_out_c_shift_rec_rawIn_out_isInf_T_1; // @[rawFloatFromFN.scala:63:19, :65:28] assign _io_out_c_shift_rec_rawIn_out_sExp_T_3 = {1'h0, _io_out_c_shift_rec_rawIn_out_sExp_T_2}; // @[rawFloatFromFN.scala:68:{28,42}] assign io_out_c_shift_rec_rawIn_1_sExp = _io_out_c_shift_rec_rawIn_out_sExp_T_3; // @[rawFloatFromFN.scala:63:19, :68:42] wire _io_out_c_shift_rec_rawIn_out_sig_T_4 = ~io_out_c_shift_rec_rawIn_isZero_1; // @[rawFloatFromFN.scala:60:30, :70:19] wire [1:0] _io_out_c_shift_rec_rawIn_out_sig_T_5 = {1'h0, _io_out_c_shift_rec_rawIn_out_sig_T_4}; // @[rawFloatFromFN.scala:70:{16,19}] wire [22:0] _io_out_c_shift_rec_rawIn_out_sig_T_6 = io_out_c_shift_rec_rawIn_isZeroExpIn_1 ? io_out_c_shift_rec_rawIn_subnormFract_1 : io_out_c_shift_rec_rawIn_fractIn_1; // @[rawFloatFromFN.scala:46:21, :48:30, :52:64, :70:33] assign _io_out_c_shift_rec_rawIn_out_sig_T_7 = {_io_out_c_shift_rec_rawIn_out_sig_T_5, _io_out_c_shift_rec_rawIn_out_sig_T_6}; // @[rawFloatFromFN.scala:70:{16,27,33}] assign io_out_c_shift_rec_rawIn_1_sig = _io_out_c_shift_rec_rawIn_out_sig_T_7; // @[rawFloatFromFN.scala:63:19, :70:27] wire [2:0] _io_out_c_shift_rec_T_8 = io_out_c_shift_rec_rawIn_1_sExp[8:6]; // @[recFNFromFN.scala:48:50] wire [2:0] _io_out_c_shift_rec_T_9 = io_out_c_shift_rec_rawIn_1_isZero ? 3'h0 : _io_out_c_shift_rec_T_8; // @[recFNFromFN.scala:48:{15,50}] wire [2:0] _io_out_c_shift_rec_T_11 = {_io_out_c_shift_rec_T_9[2:1], _io_out_c_shift_rec_T_9[0] | _io_out_c_shift_rec_T_10}; // @[recFNFromFN.scala:48:{15,76}, :49:20] wire [3:0] _io_out_c_shift_rec_T_12 = {io_out_c_shift_rec_rawIn_1_sign, _io_out_c_shift_rec_T_11}; // @[recFNFromFN.scala:47:20, :48:76] wire [5:0] _io_out_c_shift_rec_T_13 = io_out_c_shift_rec_rawIn_1_sExp[5:0]; // @[recFNFromFN.scala:50:23] wire [9:0] _io_out_c_shift_rec_T_14 = {_io_out_c_shift_rec_T_12, _io_out_c_shift_rec_T_13}; // @[recFNFromFN.scala:47:20, :49:45, :50:23] wire [22:0] _io_out_c_shift_rec_T_15 = io_out_c_shift_rec_rawIn_1_sig[22:0]; // @[recFNFromFN.scala:51:22] wire [32:0] io_out_c_shift_rec_1 = {_io_out_c_shift_rec_T_14, _io_out_c_shift_rec_T_15}; // @[recFNFromFN.scala:49:45, :50:41, :51:22] wire _io_out_c_T_4 = |io_out_c_shift_exp_1; // @[Arithmetic.scala:442:29, :447:26] wire _io_out_c_T_6 = ~_io_out_c_T_5; // @[Arithmetic.scala:447:15] wire _io_out_c_T_7 = ~_io_out_c_T_4; // @[Arithmetic.scala:447:{15,26}]
Generate the Verilog code corresponding to the following Chisel files. File UnsafeAXI4ToTL.scala: package ara import chisel3._ import chisel3.util._ import freechips.rocketchip.amba._ import freechips.rocketchip.amba.axi4._ import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.diplomacy._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.util._ class ReorderData(val dataWidth: Int, val respWidth: Int, val userFields: Seq[BundleFieldBase]) extends Bundle { val data = UInt(dataWidth.W) val resp = UInt(respWidth.W) val last = Bool() val user = BundleMap(userFields) } /** Parameters for [[BaseReservableListBuffer]] and all child classes. * * @param numEntries Total number of elements that can be stored in the 'data' RAM * @param numLists Maximum number of linked lists * @param numBeats Maximum number of beats per entry */ case class ReservableListBufferParameters(numEntries: Int, numLists: Int, numBeats: Int) { // Avoid zero-width wires when we call 'log2Ceil' val entryBits = if (numEntries == 1) 1 else log2Ceil(numEntries) val listBits = if (numLists == 1) 1 else log2Ceil(numLists) val beatBits = if (numBeats == 1) 1 else log2Ceil(numBeats) } case class UnsafeAXI4ToTLNode(numTlTxns: Int, wcorrupt: Boolean)(implicit valName: ValName) extends MixedAdapterNode(AXI4Imp, TLImp)( dFn = { case mp => TLMasterPortParameters.v2( masters = mp.masters.zipWithIndex.map { case (m, i) => // Support 'numTlTxns' read requests and 'numTlTxns' write requests at once. val numSourceIds = numTlTxns * 2 TLMasterParameters.v2( name = m.name, sourceId = IdRange(i * numSourceIds, (i + 1) * numSourceIds), nodePath = m.nodePath ) }, echoFields = mp.echoFields, requestFields = AMBAProtField() +: mp.requestFields, responseKeys = mp.responseKeys ) }, uFn = { mp => AXI4SlavePortParameters( slaves = mp.managers.map { m => val maxXfer = TransferSizes(1, mp.beatBytes * (1 << AXI4Parameters.lenBits)) AXI4SlaveParameters( address = m.address, resources = m.resources, regionType = m.regionType, executable = m.executable, nodePath = m.nodePath, supportsWrite = m.supportsPutPartial.intersect(maxXfer), supportsRead = m.supportsGet.intersect(maxXfer), interleavedId = Some(0) // TL2 never interleaves D beats ) }, beatBytes = mp.beatBytes, minLatency = mp.minLatency, responseFields = mp.responseFields, requestKeys = (if (wcorrupt) Seq(AMBACorrupt) else Seq()) ++ mp.requestKeys.filter(_ != AMBAProt) ) } ) class UnsafeAXI4ToTL(numTlTxns: Int, wcorrupt: Boolean)(implicit p: Parameters) extends LazyModule { require(numTlTxns >= 1) require(isPow2(numTlTxns), s"Number of TileLink transactions ($numTlTxns) must be a power of 2") val node = UnsafeAXI4ToTLNode(numTlTxns, wcorrupt) lazy val module = new LazyModuleImp(this) { (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => edgeIn.master.masters.foreach { m => require(m.aligned, "AXI4ToTL requires aligned requests") } val numIds = edgeIn.master.endId val beatBytes = edgeOut.slave.beatBytes val maxTransfer = edgeOut.slave.maxTransfer val maxBeats = maxTransfer / beatBytes // Look for an Error device to redirect bad requests val errorDevs = edgeOut.slave.managers.filter(_.nodePath.last.lazyModule.className == "TLError") require(!errorDevs.isEmpty, "There is no TLError reachable from AXI4ToTL. One must be instantiated.") val errorDev = errorDevs.maxBy(_.maxTransfer) val errorDevAddr = errorDev.address.head.base require( errorDev.supportsPutPartial.contains(maxTransfer), s"Error device supports ${errorDev.supportsPutPartial} PutPartial but must support $maxTransfer" ) require( errorDev.supportsGet.contains(maxTransfer), s"Error device supports ${errorDev.supportsGet} Get but must support $maxTransfer" ) // All of the read-response reordering logic. val listBufData = new ReorderData(beatBytes * 8, edgeIn.bundle.respBits, out.d.bits.user.fields) val listBufParams = ReservableListBufferParameters(numTlTxns, numIds, maxBeats) val listBuffer = if (numTlTxns > 1) { Module(new ReservableListBuffer(listBufData, listBufParams)) } else { Module(new PassthroughListBuffer(listBufData, listBufParams)) } // To differentiate between read and write transaction IDs, we will set the MSB of the TileLink 'source' field to // 0 for read requests and 1 for write requests. val isReadSourceBit = 0.U(1.W) val isWriteSourceBit = 1.U(1.W) /* Read request logic */ val rOut = Wire(Decoupled(new TLBundleA(edgeOut.bundle))) val rBytes1 = in.ar.bits.bytes1() val rSize = OH1ToUInt(rBytes1) val rOk = edgeOut.slave.supportsGetSafe(in.ar.bits.addr, rSize) val rId = if (numTlTxns > 1) { Cat(isReadSourceBit, listBuffer.ioReservedIndex) } else { isReadSourceBit } val rAddr = Mux(rOk, in.ar.bits.addr, errorDevAddr.U | in.ar.bits.addr(log2Ceil(beatBytes) - 1, 0)) // Indicates if there are still valid TileLink source IDs left to use. val canIssueR = listBuffer.ioReserve.ready listBuffer.ioReserve.bits := in.ar.bits.id listBuffer.ioReserve.valid := in.ar.valid && rOut.ready in.ar.ready := rOut.ready && canIssueR rOut.valid := in.ar.valid && canIssueR rOut.bits :<= edgeOut.Get(rId, rAddr, rSize)._2 rOut.bits.user :<= in.ar.bits.user rOut.bits.user.lift(AMBAProt).foreach { rProt => rProt.privileged := in.ar.bits.prot(0) rProt.secure := !in.ar.bits.prot(1) rProt.fetch := in.ar.bits.prot(2) rProt.bufferable := in.ar.bits.cache(0) rProt.modifiable := in.ar.bits.cache(1) rProt.readalloc := in.ar.bits.cache(2) rProt.writealloc := in.ar.bits.cache(3) } /* Write request logic */ // Strip off the MSB, which identifies the transaction as read vs write. val strippedResponseSourceId = if (numTlTxns > 1) { out.d.bits.source((out.d.bits.source).getWidth - 2, 0) } else { // When there's only 1 TileLink transaction allowed for read/write, then this field is always 0. 0.U(1.W) } // Track when a write request burst is in progress. val writeBurstBusy = RegInit(false.B) when(in.w.fire) { writeBurstBusy := !in.w.bits.last } val usedWriteIds = RegInit(0.U(numTlTxns.W)) val canIssueW = !usedWriteIds.andR val usedWriteIdsSet = WireDefault(0.U(numTlTxns.W)) val usedWriteIdsClr = WireDefault(0.U(numTlTxns.W)) usedWriteIds := (usedWriteIds & ~usedWriteIdsClr) | usedWriteIdsSet // Since write responses can show up in the middle of a write burst, we need to ensure the write burst ID doesn't // change mid-burst. val freeWriteIdOHRaw = Wire(UInt(numTlTxns.W)) val freeWriteIdOH = freeWriteIdOHRaw holdUnless !writeBurstBusy val freeWriteIdIndex = OHToUInt(freeWriteIdOH) freeWriteIdOHRaw := ~(leftOR(~usedWriteIds) << 1) & ~usedWriteIds val wOut = Wire(Decoupled(new TLBundleA(edgeOut.bundle))) val wBytes1 = in.aw.bits.bytes1() val wSize = OH1ToUInt(wBytes1) val wOk = edgeOut.slave.supportsPutPartialSafe(in.aw.bits.addr, wSize) val wId = if (numTlTxns > 1) { Cat(isWriteSourceBit, freeWriteIdIndex) } else { isWriteSourceBit } val wAddr = Mux(wOk, in.aw.bits.addr, errorDevAddr.U | in.aw.bits.addr(log2Ceil(beatBytes) - 1, 0)) // Here, we're taking advantage of the Irrevocable behavior of AXI4 (once 'valid' is asserted it must remain // asserted until the handshake occurs). We will only accept W-channel beats when we have a valid AW beat, but // the AW-channel beat won't fire until the final W-channel beat fires. So, we have stable address/size/strb // bits during a W-channel burst. in.aw.ready := wOut.ready && in.w.valid && in.w.bits.last && canIssueW in.w.ready := wOut.ready && in.aw.valid && canIssueW wOut.valid := in.aw.valid && in.w.valid && canIssueW wOut.bits :<= edgeOut.Put(wId, wAddr, wSize, in.w.bits.data, in.w.bits.strb)._2 in.w.bits.user.lift(AMBACorrupt).foreach { wOut.bits.corrupt := _ } wOut.bits.user :<= in.aw.bits.user wOut.bits.user.lift(AMBAProt).foreach { wProt => wProt.privileged := in.aw.bits.prot(0) wProt.secure := !in.aw.bits.prot(1) wProt.fetch := in.aw.bits.prot(2) wProt.bufferable := in.aw.bits.cache(0) wProt.modifiable := in.aw.bits.cache(1) wProt.readalloc := in.aw.bits.cache(2) wProt.writealloc := in.aw.bits.cache(3) } // Merge the AXI4 read/write requests into the TL-A channel. TLArbiter(TLArbiter.roundRobin)(out.a, (0.U, rOut), (in.aw.bits.len, wOut)) /* Read/write response logic */ val okB = Wire(Irrevocable(new AXI4BundleB(edgeIn.bundle))) val okR = Wire(Irrevocable(new AXI4BundleR(edgeIn.bundle))) val dResp = Mux(out.d.bits.denied || out.d.bits.corrupt, AXI4Parameters.RESP_SLVERR, AXI4Parameters.RESP_OKAY) val dHasData = edgeOut.hasData(out.d.bits) val (_dFirst, dLast, _dDone, dCount) = edgeOut.count(out.d) val dNumBeats1 = edgeOut.numBeats1(out.d.bits) // Handle cases where writeack arrives before write is done val writeEarlyAck = (UIntToOH(strippedResponseSourceId) & usedWriteIds) === 0.U out.d.ready := Mux(dHasData, listBuffer.ioResponse.ready, okB.ready && !writeEarlyAck) listBuffer.ioDataOut.ready := okR.ready okR.valid := listBuffer.ioDataOut.valid okB.valid := out.d.valid && !dHasData && !writeEarlyAck listBuffer.ioResponse.valid := out.d.valid && dHasData listBuffer.ioResponse.bits.index := strippedResponseSourceId listBuffer.ioResponse.bits.data.data := out.d.bits.data listBuffer.ioResponse.bits.data.resp := dResp listBuffer.ioResponse.bits.data.last := dLast listBuffer.ioResponse.bits.data.user :<= out.d.bits.user listBuffer.ioResponse.bits.count := dCount listBuffer.ioResponse.bits.numBeats1 := dNumBeats1 okR.bits.id := listBuffer.ioDataOut.bits.listIndex okR.bits.data := listBuffer.ioDataOut.bits.payload.data okR.bits.resp := listBuffer.ioDataOut.bits.payload.resp okR.bits.last := listBuffer.ioDataOut.bits.payload.last okR.bits.user :<= listBuffer.ioDataOut.bits.payload.user // Upon the final beat in a write request, record a mapping from TileLink source ID to AXI write ID. Upon a write // response, mark the write transaction as complete. val writeIdMap = Mem(numTlTxns, UInt(log2Ceil(numIds).W)) val writeResponseId = writeIdMap.read(strippedResponseSourceId) when(wOut.fire) { writeIdMap.write(freeWriteIdIndex, in.aw.bits.id) } when(edgeOut.done(wOut)) { usedWriteIdsSet := freeWriteIdOH } when(okB.fire) { usedWriteIdsClr := UIntToOH(strippedResponseSourceId, numTlTxns) } okB.bits.id := writeResponseId okB.bits.resp := dResp okB.bits.user :<= out.d.bits.user // AXI4 needs irrevocable behaviour in.r <> Queue.irrevocable(okR, 1, flow = true) in.b <> Queue.irrevocable(okB, 1, flow = true) // Unused channels out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B /* Alignment constraints. The AXI4Fragmenter should guarantee all of these constraints. */ def checkRequest[T <: AXI4BundleA](a: IrrevocableIO[T], reqType: String): Unit = { val lReqType = reqType.toLowerCase when(a.valid) { assert(a.bits.len < maxBeats.U, s"$reqType burst length (%d) must be less than $maxBeats", a.bits.len + 1.U) // Narrow transfers and FIXED bursts must be single-beat bursts. when(a.bits.len =/= 0.U) { assert( a.bits.size === log2Ceil(beatBytes).U, s"Narrow $lReqType transfers (%d < $beatBytes bytes) can't be multi-beat bursts (%d beats)", 1.U << a.bits.size, a.bits.len + 1.U ) assert( a.bits.burst =/= AXI4Parameters.BURST_FIXED, s"Fixed $lReqType bursts can't be multi-beat bursts (%d beats)", a.bits.len + 1.U ) } // Furthermore, the transfer size (a.bits.bytes1() + 1.U) must be naturally-aligned to the address (in // particular, during both WRAP and INCR bursts), but this constraint is already checked by TileLink // Monitors. Note that this alignment requirement means that WRAP bursts are identical to INCR bursts. } } checkRequest(in.ar, "Read") checkRequest(in.aw, "Write") } } } object UnsafeAXI4ToTL { def apply(numTlTxns: Int = 1, wcorrupt: Boolean = true)(implicit p: Parameters) = { val axi42tl = LazyModule(new UnsafeAXI4ToTL(numTlTxns, wcorrupt)) axi42tl.node } } /* ReservableListBuffer logic, and associated classes. */ class ResponsePayload[T <: Data](val data: T, val params: ReservableListBufferParameters) extends Bundle { val index = UInt(params.entryBits.W) val count = UInt(params.beatBits.W) val numBeats1 = UInt(params.beatBits.W) } class DataOutPayload[T <: Data](val payload: T, val params: ReservableListBufferParameters) extends Bundle { val listIndex = UInt(params.listBits.W) } /** Abstract base class to unify [[ReservableListBuffer]] and [[PassthroughListBuffer]]. */ abstract class BaseReservableListBuffer[T <: Data](gen: T, params: ReservableListBufferParameters) extends Module { require(params.numEntries > 0) require(params.numLists > 0) val ioReserve = IO(Flipped(Decoupled(UInt(params.listBits.W)))) val ioReservedIndex = IO(Output(UInt(params.entryBits.W))) val ioResponse = IO(Flipped(Decoupled(new ResponsePayload(gen, params)))) val ioDataOut = IO(Decoupled(new DataOutPayload(gen, params))) } /** A modified version of 'ListBuffer' from 'sifive/block-inclusivecache-sifive'. This module forces users to reserve * linked list entries (through the 'ioReserve' port) before writing data into those linked lists (through the * 'ioResponse' port). Each response is tagged to indicate which linked list it is written into. The responses for a * given linked list can come back out-of-order, but they will be read out through the 'ioDataOut' port in-order. * * ==Constructor== * @param gen Chisel type of linked list data element * @param params Other parameters * * ==Module IO== * @param ioReserve Index of list to reserve a new element in * @param ioReservedIndex Index of the entry that was reserved in the linked list, valid when 'ioReserve.fire' * @param ioResponse Payload containing response data and linked-list-entry index * @param ioDataOut Payload containing data read from response linked list and linked list index */ class ReservableListBuffer[T <: Data](gen: T, params: ReservableListBufferParameters) extends BaseReservableListBuffer(gen, params) { val valid = RegInit(0.U(params.numLists.W)) val head = Mem(params.numLists, UInt(params.entryBits.W)) val tail = Mem(params.numLists, UInt(params.entryBits.W)) val used = RegInit(0.U(params.numEntries.W)) val next = Mem(params.numEntries, UInt(params.entryBits.W)) val map = Mem(params.numEntries, UInt(params.listBits.W)) val dataMems = Seq.fill(params.numBeats) { SyncReadMem(params.numEntries, gen) } val dataIsPresent = RegInit(0.U(params.numEntries.W)) val beats = Mem(params.numEntries, UInt(params.beatBits.W)) // The 'data' SRAM should be single-ported (read-or-write), since dual-ported SRAMs are significantly slower. val dataMemReadEnable = WireDefault(false.B) val dataMemWriteEnable = WireDefault(false.B) assert(!(dataMemReadEnable && dataMemWriteEnable)) // 'freeOH' has a single bit set, which is the least-significant bit that is cleared in 'used'. So, it's the // lowest-index entry in the 'data' RAM which is free. val freeOH = Wire(UInt(params.numEntries.W)) val freeIndex = OHToUInt(freeOH) freeOH := ~(leftOR(~used) << 1) & ~used ioReservedIndex := freeIndex val validSet = WireDefault(0.U(params.numLists.W)) val validClr = WireDefault(0.U(params.numLists.W)) val usedSet = WireDefault(0.U(params.numEntries.W)) val usedClr = WireDefault(0.U(params.numEntries.W)) val dataIsPresentSet = WireDefault(0.U(params.numEntries.W)) val dataIsPresentClr = WireDefault(0.U(params.numEntries.W)) valid := (valid & ~validClr) | validSet used := (used & ~usedClr) | usedSet dataIsPresent := (dataIsPresent & ~dataIsPresentClr) | dataIsPresentSet /* Reservation logic signals */ val reserveTail = Wire(UInt(params.entryBits.W)) val reserveIsValid = Wire(Bool()) /* Response logic signals */ val responseIndex = Wire(UInt(params.entryBits.W)) val responseListIndex = Wire(UInt(params.listBits.W)) val responseHead = Wire(UInt(params.entryBits.W)) val responseTail = Wire(UInt(params.entryBits.W)) val nextResponseHead = Wire(UInt(params.entryBits.W)) val nextDataIsPresent = Wire(Bool()) val isResponseInOrder = Wire(Bool()) val isEndOfList = Wire(Bool()) val isLastBeat = Wire(Bool()) val isLastResponseBeat = Wire(Bool()) val isLastUnwindBeat = Wire(Bool()) /* Reservation logic */ reserveTail := tail.read(ioReserve.bits) reserveIsValid := valid(ioReserve.bits) ioReserve.ready := !used.andR // When we want to append-to and destroy the same linked list on the same cycle, we need to take special care that we // actually start a new list, rather than appending to a list that's about to disappear. val reserveResponseSameList = ioReserve.bits === responseListIndex val appendToAndDestroyList = ioReserve.fire && ioDataOut.fire && reserveResponseSameList && isEndOfList && isLastBeat when(ioReserve.fire) { validSet := UIntToOH(ioReserve.bits, params.numLists) usedSet := freeOH when(reserveIsValid && !appendToAndDestroyList) { next.write(reserveTail, freeIndex) }.otherwise { head.write(ioReserve.bits, freeIndex) } tail.write(ioReserve.bits, freeIndex) map.write(freeIndex, ioReserve.bits) } /* Response logic */ // The majority of the response logic (reading from and writing to the various RAMs) is common between the // response-from-IO case (ioResponse.fire) and the response-from-unwind case (unwindDataIsValid). // The read from the 'next' RAM should be performed at the address given by 'responseHead'. However, we only use the // 'nextResponseHead' signal when 'isResponseInOrder' is asserted (both in the response-from-IO and // response-from-unwind cases), which implies that 'responseHead' equals 'responseIndex'. 'responseHead' comes after // two back-to-back RAM reads, so indexing into the 'next' RAM with 'responseIndex' is much quicker. responseHead := head.read(responseListIndex) responseTail := tail.read(responseListIndex) nextResponseHead := next.read(responseIndex) nextDataIsPresent := dataIsPresent(nextResponseHead) // Note that when 'isEndOfList' is asserted, 'nextResponseHead' (and therefore 'nextDataIsPresent') is invalid, since // there isn't a next element in the linked list. isResponseInOrder := responseHead === responseIndex isEndOfList := responseHead === responseTail isLastResponseBeat := ioResponse.bits.count === ioResponse.bits.numBeats1 // When a response's last beat is sent to the output channel, mark it as completed. This can happen in two // situations: // 1. We receive an in-order response, which travels straight from 'ioResponse' to 'ioDataOut'. The 'data' SRAM // reservation was never needed. // 2. An entry is read out of the 'data' SRAM (within the unwind FSM). when(ioDataOut.fire && isLastBeat) { // Mark the reservation as no-longer-used. usedClr := UIntToOH(responseIndex, params.numEntries) // If the response is in-order, then we're popping an element from this linked list. when(isEndOfList) { // Once we pop the last element from a linked list, mark it as no-longer-present. validClr := UIntToOH(responseListIndex, params.numLists) }.otherwise { // Move the linked list's head pointer to the new head pointer. head.write(responseListIndex, nextResponseHead) } } // If we get an out-of-order response, then stash it in the 'data' SRAM for later unwinding. when(ioResponse.fire && !isResponseInOrder) { dataMemWriteEnable := true.B when(isLastResponseBeat) { dataIsPresentSet := UIntToOH(ioResponse.bits.index, params.numEntries) beats.write(ioResponse.bits.index, ioResponse.bits.numBeats1) } } // Use the 'ioResponse.bits.count' index (AKA the beat number) to select which 'data' SRAM to write to. val responseCountOH = UIntToOH(ioResponse.bits.count, params.numBeats) (responseCountOH.asBools zip dataMems) foreach { case (select, seqMem) => when(select && dataMemWriteEnable) { seqMem.write(ioResponse.bits.index, ioResponse.bits.data) } } /* Response unwind logic */ // Unwind FSM state definitions val sIdle :: sUnwinding :: Nil = Enum(2) val unwindState = RegInit(sIdle) val busyUnwinding = unwindState === sUnwinding val startUnwind = Wire(Bool()) val stopUnwind = Wire(Bool()) when(startUnwind) { unwindState := sUnwinding }.elsewhen(stopUnwind) { unwindState := sIdle } assert(!(startUnwind && stopUnwind)) // Start the unwind FSM when there is an old out-of-order response stored in the 'data' SRAM that is now about to // become the next in-order response. As noted previously, when 'isEndOfList' is asserted, 'nextDataIsPresent' is // invalid. // // Note that since an in-order response from 'ioResponse' to 'ioDataOut' starts the unwind FSM, we don't have to // worry about overwriting the 'data' SRAM's output when we start the unwind FSM. startUnwind := ioResponse.fire && isResponseInOrder && isLastResponseBeat && !isEndOfList && nextDataIsPresent // Stop the unwind FSM when the output channel consumes the final beat of an element from the unwind FSM, and one of // two things happens: // 1. We're still waiting for the next in-order response for this list (!nextDataIsPresent) // 2. There are no more outstanding responses in this list (isEndOfList) // // Including 'busyUnwinding' ensures this is a single-cycle pulse, and it never fires while in-order transactions are // passing from 'ioResponse' to 'ioDataOut'. stopUnwind := busyUnwinding && ioDataOut.fire && isLastUnwindBeat && (!nextDataIsPresent || isEndOfList) val isUnwindBurstOver = Wire(Bool()) val startNewBurst = startUnwind || (isUnwindBurstOver && dataMemReadEnable) // Track the number of beats left to unwind for each list entry. At the start of a new burst, we flop the number of // beats in this burst (minus 1) into 'unwindBeats1', and we reset the 'beatCounter' counter. With each beat, we // increment 'beatCounter' until it reaches 'unwindBeats1'. val unwindBeats1 = Reg(UInt(params.beatBits.W)) val nextBeatCounter = Wire(UInt(params.beatBits.W)) val beatCounter = RegNext(nextBeatCounter) isUnwindBurstOver := beatCounter === unwindBeats1 when(startNewBurst) { unwindBeats1 := beats.read(nextResponseHead) nextBeatCounter := 0.U }.elsewhen(dataMemReadEnable) { nextBeatCounter := beatCounter + 1.U }.otherwise { nextBeatCounter := beatCounter } // When unwinding, feed the next linked-list head pointer (read out of the 'next' RAM) back so we can unwind the next // entry in this linked list. Only update the pointer when we're actually moving to the next 'data' SRAM entry (which // happens at the start of reading a new stored burst). val unwindResponseIndex = RegEnable(nextResponseHead, startNewBurst) responseIndex := Mux(busyUnwinding, unwindResponseIndex, ioResponse.bits.index) // Hold 'nextResponseHead' static while we're in the middle of unwinding a multi-beat burst entry. We don't want the // SRAM read address to shift while reading beats from a burst. Note that this is identical to 'nextResponseHead // holdUnless startNewBurst', but 'unwindResponseIndex' already implements the 'RegEnable' signal in 'holdUnless'. val unwindReadAddress = Mux(startNewBurst, nextResponseHead, unwindResponseIndex) // The 'data' SRAM's output is valid if we read from the SRAM on the previous cycle. The SRAM's output stays valid // until it is consumed by the output channel (and if we don't read from the SRAM again on that same cycle). val unwindDataIsValid = RegInit(false.B) when(dataMemReadEnable) { unwindDataIsValid := true.B }.elsewhen(ioDataOut.fire) { unwindDataIsValid := false.B } isLastUnwindBeat := isUnwindBurstOver && unwindDataIsValid // Indicates if this is the last beat for both 'ioResponse'-to-'ioDataOut' and unwind-to-'ioDataOut' beats. isLastBeat := Mux(busyUnwinding, isLastUnwindBeat, isLastResponseBeat) // Select which SRAM to read from based on the beat counter. val dataOutputVec = Wire(Vec(params.numBeats, gen)) val nextBeatCounterOH = UIntToOH(nextBeatCounter, params.numBeats) (nextBeatCounterOH.asBools zip dataMems).zipWithIndex foreach { case ((select, seqMem), i) => dataOutputVec(i) := seqMem.read(unwindReadAddress, select && dataMemReadEnable) } // Select the current 'data' SRAM output beat, and save the output in a register in case we're being back-pressured // by 'ioDataOut'. This implements the functionality of 'readAndHold', but only on the single SRAM we're reading // from. val dataOutput = dataOutputVec(beatCounter) holdUnless RegNext(dataMemReadEnable) // Mark 'data' burst entries as no-longer-present as they get read out of the SRAM. when(dataMemReadEnable) { dataIsPresentClr := UIntToOH(unwindReadAddress, params.numEntries) } // As noted above, when starting the unwind FSM, we know the 'data' SRAM's output isn't valid, so it's safe to issue // a read command. Otherwise, only issue an SRAM read when the next 'unwindState' is 'sUnwinding', and if we know // we're not going to overwrite the SRAM's current output (the SRAM output is already valid, and it's not going to be // consumed by the output channel). val dontReadFromDataMem = unwindDataIsValid && !ioDataOut.ready dataMemReadEnable := startUnwind || (busyUnwinding && !stopUnwind && !dontReadFromDataMem) // While unwinding, prevent new reservations from overwriting the current 'map' entry that we're using. We need // 'responseListIndex' to be coherent for the entire unwind process. val rawResponseListIndex = map.read(responseIndex) val unwindResponseListIndex = RegEnable(rawResponseListIndex, startNewBurst) responseListIndex := Mux(busyUnwinding, unwindResponseListIndex, rawResponseListIndex) // Accept responses either when they can be passed through to the output channel, or if they're out-of-order and are // just going to be stashed in the 'data' SRAM. Never accept a response payload when we're busy unwinding, since that // could result in reading from and writing to the 'data' SRAM in the same cycle, and we want that SRAM to be // single-ported. ioResponse.ready := (ioDataOut.ready || !isResponseInOrder) && !busyUnwinding // Either pass an in-order response to the output channel, or data read from the unwind FSM. ioDataOut.valid := Mux(busyUnwinding, unwindDataIsValid, ioResponse.valid && isResponseInOrder) ioDataOut.bits.listIndex := responseListIndex ioDataOut.bits.payload := Mux(busyUnwinding, dataOutput, ioResponse.bits.data) // It's an error to get a response that isn't associated with a valid linked list. when(ioResponse.fire || unwindDataIsValid) { assert( valid(responseListIndex), "No linked list exists at index %d, mapped from %d", responseListIndex, responseIndex ) } when(busyUnwinding && dataMemReadEnable) { assert(isResponseInOrder, "Unwind FSM must read entries from SRAM in order") } } /** Specialized version of [[ReservableListBuffer]] for the case of numEntries == 1. * * Much of the complex logic in [[ReservableListBuffer]] can disappear in this case. For instance, we don't have to * reorder any responses, or store any linked lists. */ class PassthroughListBuffer[T <: Data](gen: T, params: ReservableListBufferParameters) extends BaseReservableListBuffer(gen, params) { require(params.numEntries == 1, s"PassthroughListBuffer is only valid when 'numEntries' (${params.numEntries}) is 1") val used = RegInit(0.U(params.numEntries.W)) val map = Mem(params.numEntries, UInt(params.listBits.W)) val usedSet = WireDefault(0.U(params.numEntries.W)) val usedClr = WireDefault(0.U(params.numEntries.W)) used := (used & ~usedClr) | usedSet ioReserve.ready := used === 0.U // Store which list index was reserved, we need to return this value when we get a response. when(ioReserve.fire) { usedSet := 1.U map.write(0.U, ioReserve.bits) } // There's only one valid linked list entry, which is at index 0. ioReservedIndex := 0.U val isLastResponseBeat = ioResponse.bits.count === ioResponse.bits.numBeats1 // Mark the linked list as empty when we get the last beat in a response. // Note that 'ioResponse.fire === ioDataOut.fire'. when(ioResponse.fire && isLastResponseBeat) { usedClr := 1.U } // Always pass the response data straight through, since we never need to reorder the response data. ioDataOut.bits.listIndex := map.read(0.U) ioDataOut.bits.payload := ioResponse.bits.data ioDataOut.valid := ioResponse.valid ioResponse.ready := ioDataOut.ready }
module dataMems_143( // @[UnsafeAXI4ToTL.scala:365:62] input [4:0] R0_addr, input R0_en, input R0_clk, output [66:0] R0_data, input [4:0] W0_addr, input W0_en, input W0_clk, input [66:0] W0_data ); dataMems_0_ext dataMems_0_ext ( // @[UnsafeAXI4ToTL.scala:365:62] .R0_addr (R0_addr), .R0_en (R0_en), .R0_clk (R0_clk), .R0_data (R0_data), .W0_addr (W0_addr), .W0_en (W0_en), .W0_clk (W0_clk), .W0_data (W0_data) ); // @[UnsafeAXI4ToTL.scala:365:62] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceLine import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import freechips.rocketchip.diplomacy.EnableMonitors import freechips.rocketchip.formal.{MonitorDirection, IfThen, Property, PropertyClass, TestplanTestType, TLMonitorStrictMode} import freechips.rocketchip.util.PlusArg case class TLMonitorArgs(edge: TLEdge) abstract class TLMonitorBase(args: TLMonitorArgs) extends Module { val io = IO(new Bundle { val in = Input(new TLBundle(args.edge.bundle)) }) def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit legalize(io.in, args.edge, reset) } object TLMonitor { def apply(enable: Boolean, node: TLNode)(implicit p: Parameters): TLNode = { if (enable) { EnableMonitors { implicit p => node := TLEphemeralNode()(ValName("monitor")) } } else { node } } } class TLMonitor(args: TLMonitorArgs, monitorDir: MonitorDirection = MonitorDirection.Monitor) extends TLMonitorBase(args) { require (args.edge.params(TLMonitorStrictMode) || (! args.edge.params(TestplanTestType).formal)) val cover_prop_class = PropertyClass.Default //Like assert but can flip to being an assumption for formal verification def monAssert(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir, cond, message, PropertyClass.Default) } def assume(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir.flip, cond, message, PropertyClass.Default) } def extra = { args.edge.sourceInfo match { case SourceLine(filename, line, col) => s" (connected at $filename:$line:$col)" case _ => "" } } def visible(address: UInt, source: UInt, edge: TLEdge) = edge.client.clients.map { c => !c.sourceId.contains(source) || c.visibility.map(_.contains(address)).reduce(_ || _) }.reduce(_ && _) def legalizeFormatA(bundle: TLBundleA, edge: TLEdge): Unit = { //switch this flag to turn on diplomacy in error messages def diplomacyInfo = if (true) "" else "\nThe diplomacy information for the edge is as follows:\n" + edge.formatEdge + "\n" monAssert (TLMessages.isA(bundle.opcode), "'A' channel has invalid opcode" + extra) // Reuse these subexpressions to save some firrtl lines val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) monAssert (visible(edge.address(bundle), bundle.source, edge), "'A' channel carries an address illegal for the specified bank visibility") //The monitor doesn’t check for acquire T vs acquire B, it assumes that acquire B implies acquire T and only checks for acquire B //TODO: check for acquireT? when (bundle.opcode === TLMessages.AcquireBlock) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquireBlock carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquireBlock smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquireBlock address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquireBlock carries invalid grow param" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquireBlock contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquireBlock is corrupt" + extra) } when (bundle.opcode === TLMessages.AcquirePerm) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquirePerm carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquirePerm smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquirePerm address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquirePerm carries invalid grow param" + extra) monAssert (bundle.param =/= TLPermissions.NtoB, "'A' channel AcquirePerm requests NtoB" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquirePerm contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquirePerm is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.emitsGet(bundle.source, bundle.size), "'A' channel carries Get type which master claims it can't emit" + diplomacyInfo + extra) monAssert (edge.slave.supportsGetSafe(edge.address(bundle), bundle.size, None), "'A' channel carries Get type which slave claims it can't support" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel Get carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.emitsPutFull(bundle.source, bundle.size) && edge.slave.supportsPutFullSafe(edge.address(bundle), bundle.size), "'A' channel carries PutFull type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel PutFull carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.emitsPutPartial(bundle.source, bundle.size) && edge.slave.supportsPutPartialSafe(edge.address(bundle), bundle.size), "'A' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel PutPartial carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'A' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.emitsArithmetic(bundle.source, bundle.size) && edge.slave.supportsArithmeticSafe(edge.address(bundle), bundle.size), "'A' channel carries Arithmetic type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Arithmetic carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'A' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.emitsLogical(bundle.source, bundle.size) && edge.slave.supportsLogicalSafe(edge.address(bundle), bundle.size), "'A' channel carries Logical type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Logical carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'A' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.emitsHint(bundle.source, bundle.size) && edge.slave.supportsHintSafe(edge.address(bundle), bundle.size), "'A' channel carries Hint type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Hint carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Hint address not aligned to size" + extra) monAssert (TLHints.isHints(bundle.param), "'A' channel Hint carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Hint is corrupt" + extra) } } def legalizeFormatB(bundle: TLBundleB, edge: TLEdge): Unit = { monAssert (TLMessages.isB(bundle.opcode), "'B' channel has invalid opcode" + extra) monAssert (visible(edge.address(bundle), bundle.source, edge), "'B' channel carries an address illegal for the specified bank visibility") // Reuse these subexpressions to save some firrtl lines val address_ok = edge.manager.containsSafe(edge.address(bundle)) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) val legal_source = Mux1H(edge.client.find(bundle.source), edge.client.clients.map(c => c.sourceId.start.U)) === bundle.source when (bundle.opcode === TLMessages.Probe) { assume (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'B' channel carries Probe type which is unexpected using diplomatic parameters" + extra) assume (address_ok, "'B' channel Probe carries unmanaged address" + extra) assume (legal_source, "'B' channel Probe carries source that is not first source" + extra) assume (is_aligned, "'B' channel Probe address not aligned to size" + extra) assume (TLPermissions.isCap(bundle.param), "'B' channel Probe carries invalid cap param" + extra) assume (bundle.mask === mask, "'B' channel Probe contains invalid mask" + extra) assume (!bundle.corrupt, "'B' channel Probe is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.supportsGet(edge.source(bundle), bundle.size) && edge.slave.emitsGetSafe(edge.address(bundle), bundle.size), "'B' channel carries Get type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel Get carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Get carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.supportsPutFull(edge.source(bundle), bundle.size) && edge.slave.emitsPutFullSafe(edge.address(bundle), bundle.size), "'B' channel carries PutFull type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutFull carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutFull carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.supportsPutPartial(edge.source(bundle), bundle.size) && edge.slave.emitsPutPartialSafe(edge.address(bundle), bundle.size), "'B' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutPartial carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutPartial carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'B' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.supportsArithmetic(edge.source(bundle), bundle.size) && edge.slave.emitsArithmeticSafe(edge.address(bundle), bundle.size), "'B' channel carries Arithmetic type unsupported by master" + extra) monAssert (address_ok, "'B' channel Arithmetic carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Arithmetic carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'B' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.supportsLogical(edge.source(bundle), bundle.size) && edge.slave.emitsLogicalSafe(edge.address(bundle), bundle.size), "'B' channel carries Logical type unsupported by client" + extra) monAssert (address_ok, "'B' channel Logical carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Logical carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'B' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.supportsHint(edge.source(bundle), bundle.size) && edge.slave.emitsHintSafe(edge.address(bundle), bundle.size), "'B' channel carries Hint type unsupported by client" + extra) monAssert (address_ok, "'B' channel Hint carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Hint carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Hint address not aligned to size" + extra) monAssert (bundle.mask === mask, "'B' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Hint is corrupt" + extra) } } def legalizeFormatC(bundle: TLBundleC, edge: TLEdge): Unit = { monAssert (TLMessages.isC(bundle.opcode), "'C' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val address_ok = edge.manager.containsSafe(edge.address(bundle)) monAssert (visible(edge.address(bundle), bundle.source, edge), "'C' channel carries an address illegal for the specified bank visibility") when (bundle.opcode === TLMessages.ProbeAck) { monAssert (address_ok, "'C' channel ProbeAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAck carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAck smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAck address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAck carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel ProbeAck is corrupt" + extra) } when (bundle.opcode === TLMessages.ProbeAckData) { monAssert (address_ok, "'C' channel ProbeAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAckData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAckData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAckData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAckData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.Release) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries Release type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel Release carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel Release smaller than a beat" + extra) monAssert (is_aligned, "'C' channel Release address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel Release carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel Release is corrupt" + extra) } when (bundle.opcode === TLMessages.ReleaseData) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries ReleaseData type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel ReleaseData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ReleaseData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ReleaseData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ReleaseData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.AccessAck) { monAssert (address_ok, "'C' channel AccessAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel AccessAck is corrupt" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { monAssert (address_ok, "'C' channel AccessAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAckData carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAckData address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAckData carries invalid param" + extra) } when (bundle.opcode === TLMessages.HintAck) { monAssert (address_ok, "'C' channel HintAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel HintAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel HintAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel HintAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel HintAck is corrupt" + extra) } } def legalizeFormatD(bundle: TLBundleD, edge: TLEdge): Unit = { assume (TLMessages.isD(bundle.opcode), "'D' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val sink_ok = bundle.sink < edge.manager.endSinkId.U val deny_put_ok = edge.manager.mayDenyPut.B val deny_get_ok = edge.manager.mayDenyGet.B when (bundle.opcode === TLMessages.ReleaseAck) { assume (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel ReleaseAck smaller than a beat" + extra) assume (bundle.param === 0.U, "'D' channel ReleaseeAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel ReleaseAck is corrupt" + extra) assume (!bundle.denied, "'D' channel ReleaseAck is denied" + extra) } when (bundle.opcode === TLMessages.Grant) { assume (source_ok, "'D' channel Grant carries invalid source ID" + extra) assume (sink_ok, "'D' channel Grant carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel Grant smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel Grant carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel Grant carries toN param" + extra) assume (!bundle.corrupt, "'D' channel Grant is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel Grant is denied" + extra) } when (bundle.opcode === TLMessages.GrantData) { assume (source_ok, "'D' channel GrantData carries invalid source ID" + extra) assume (sink_ok, "'D' channel GrantData carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel GrantData smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel GrantData carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel GrantData carries toN param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel GrantData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel GrantData is denied" + extra) } when (bundle.opcode === TLMessages.AccessAck) { assume (source_ok, "'D' channel AccessAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel AccessAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel AccessAck is denied" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { assume (source_ok, "'D' channel AccessAckData carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAckData carries invalid param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel AccessAckData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel AccessAckData is denied" + extra) } when (bundle.opcode === TLMessages.HintAck) { assume (source_ok, "'D' channel HintAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel HintAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel HintAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel HintAck is denied" + extra) } } def legalizeFormatE(bundle: TLBundleE, edge: TLEdge): Unit = { val sink_ok = bundle.sink < edge.manager.endSinkId.U monAssert (sink_ok, "'E' channels carries invalid sink ID" + extra) } def legalizeFormat(bundle: TLBundle, edge: TLEdge) = { when (bundle.a.valid) { legalizeFormatA(bundle.a.bits, edge) } when (bundle.d.valid) { legalizeFormatD(bundle.d.bits, edge) } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { when (bundle.b.valid) { legalizeFormatB(bundle.b.bits, edge) } when (bundle.c.valid) { legalizeFormatC(bundle.c.bits, edge) } when (bundle.e.valid) { legalizeFormatE(bundle.e.bits, edge) } } else { monAssert (!bundle.b.valid, "'B' channel valid and not TL-C" + extra) monAssert (!bundle.c.valid, "'C' channel valid and not TL-C" + extra) monAssert (!bundle.e.valid, "'E' channel valid and not TL-C" + extra) } } def legalizeMultibeatA(a: DecoupledIO[TLBundleA], edge: TLEdge): Unit = { val a_first = edge.first(a.bits, a.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (a.valid && !a_first) { monAssert (a.bits.opcode === opcode, "'A' channel opcode changed within multibeat operation" + extra) monAssert (a.bits.param === param, "'A' channel param changed within multibeat operation" + extra) monAssert (a.bits.size === size, "'A' channel size changed within multibeat operation" + extra) monAssert (a.bits.source === source, "'A' channel source changed within multibeat operation" + extra) monAssert (a.bits.address=== address,"'A' channel address changed with multibeat operation" + extra) } when (a.fire && a_first) { opcode := a.bits.opcode param := a.bits.param size := a.bits.size source := a.bits.source address := a.bits.address } } def legalizeMultibeatB(b: DecoupledIO[TLBundleB], edge: TLEdge): Unit = { val b_first = edge.first(b.bits, b.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (b.valid && !b_first) { monAssert (b.bits.opcode === opcode, "'B' channel opcode changed within multibeat operation" + extra) monAssert (b.bits.param === param, "'B' channel param changed within multibeat operation" + extra) monAssert (b.bits.size === size, "'B' channel size changed within multibeat operation" + extra) monAssert (b.bits.source === source, "'B' channel source changed within multibeat operation" + extra) monAssert (b.bits.address=== address,"'B' channel addresss changed with multibeat operation" + extra) } when (b.fire && b_first) { opcode := b.bits.opcode param := b.bits.param size := b.bits.size source := b.bits.source address := b.bits.address } } def legalizeADSourceFormal(bundle: TLBundle, edge: TLEdge): Unit = { // Symbolic variable val sym_source = Wire(UInt(edge.client.endSourceId.W)) // TODO: Connect sym_source to a fixed value for simulation and to a // free wire in formal sym_source := 0.U // Type casting Int to UInt val maxSourceId = Wire(UInt(edge.client.endSourceId.W)) maxSourceId := edge.client.endSourceId.U // Delayed verison of sym_source val sym_source_d = Reg(UInt(edge.client.endSourceId.W)) sym_source_d := sym_source // These will be constraints for FV setup Property( MonitorDirection.Monitor, (sym_source === sym_source_d), "sym_source should remain stable", PropertyClass.Default) Property( MonitorDirection.Monitor, (sym_source <= maxSourceId), "sym_source should take legal value", PropertyClass.Default) val my_resp_pend = RegInit(false.B) val my_opcode = Reg(UInt()) val my_size = Reg(UInt()) val a_first = bundle.a.valid && edge.first(bundle.a.bits, bundle.a.fire) val d_first = bundle.d.valid && edge.first(bundle.d.bits, bundle.d.fire) val my_a_first_beat = a_first && (bundle.a.bits.source === sym_source) val my_d_first_beat = d_first && (bundle.d.bits.source === sym_source) val my_clr_resp_pend = (bundle.d.fire && my_d_first_beat) val my_set_resp_pend = (bundle.a.fire && my_a_first_beat && !my_clr_resp_pend) when (my_set_resp_pend) { my_resp_pend := true.B } .elsewhen (my_clr_resp_pend) { my_resp_pend := false.B } when (my_a_first_beat) { my_opcode := bundle.a.bits.opcode my_size := bundle.a.bits.size } val my_resp_size = Mux(my_a_first_beat, bundle.a.bits.size, my_size) val my_resp_opcode = Mux(my_a_first_beat, bundle.a.bits.opcode, my_opcode) val my_resp_opcode_legal = Wire(Bool()) when ((my_resp_opcode === TLMessages.Get) || (my_resp_opcode === TLMessages.ArithmeticData) || (my_resp_opcode === TLMessages.LogicalData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAckData) } .elsewhen ((my_resp_opcode === TLMessages.PutFullData) || (my_resp_opcode === TLMessages.PutPartialData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAck) } .otherwise { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.HintAck) } monAssert (IfThen(my_resp_pend, !my_a_first_beat), "Request message should not be sent with a source ID, for which a response message" + "is already pending (not received until current cycle) for a prior request message" + "with the same source ID" + extra) assume (IfThen(my_clr_resp_pend, (my_set_resp_pend || my_resp_pend)), "Response message should be accepted with a source ID only if a request message with the" + "same source ID has been accepted or is being accepted in the current cycle" + extra) assume (IfThen(my_d_first_beat, (my_a_first_beat || my_resp_pend)), "Response message should be sent with a source ID only if a request message with the" + "same source ID has been accepted or is being sent in the current cycle" + extra) assume (IfThen(my_d_first_beat, (bundle.d.bits.size === my_resp_size)), "If d_valid is 1, then d_size should be same as a_size of the corresponding request" + "message" + extra) assume (IfThen(my_d_first_beat, my_resp_opcode_legal), "If d_valid is 1, then d_opcode should correspond with a_opcode of the corresponding" + "request message" + extra) } def legalizeMultibeatC(c: DecoupledIO[TLBundleC], edge: TLEdge): Unit = { val c_first = edge.first(c.bits, c.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (c.valid && !c_first) { monAssert (c.bits.opcode === opcode, "'C' channel opcode changed within multibeat operation" + extra) monAssert (c.bits.param === param, "'C' channel param changed within multibeat operation" + extra) monAssert (c.bits.size === size, "'C' channel size changed within multibeat operation" + extra) monAssert (c.bits.source === source, "'C' channel source changed within multibeat operation" + extra) monAssert (c.bits.address=== address,"'C' channel address changed with multibeat operation" + extra) } when (c.fire && c_first) { opcode := c.bits.opcode param := c.bits.param size := c.bits.size source := c.bits.source address := c.bits.address } } def legalizeMultibeatD(d: DecoupledIO[TLBundleD], edge: TLEdge): Unit = { val d_first = edge.first(d.bits, d.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val sink = Reg(UInt()) val denied = Reg(Bool()) when (d.valid && !d_first) { assume (d.bits.opcode === opcode, "'D' channel opcode changed within multibeat operation" + extra) assume (d.bits.param === param, "'D' channel param changed within multibeat operation" + extra) assume (d.bits.size === size, "'D' channel size changed within multibeat operation" + extra) assume (d.bits.source === source, "'D' channel source changed within multibeat operation" + extra) assume (d.bits.sink === sink, "'D' channel sink changed with multibeat operation" + extra) assume (d.bits.denied === denied, "'D' channel denied changed with multibeat operation" + extra) } when (d.fire && d_first) { opcode := d.bits.opcode param := d.bits.param size := d.bits.size source := d.bits.source sink := d.bits.sink denied := d.bits.denied } } def legalizeMultibeat(bundle: TLBundle, edge: TLEdge): Unit = { legalizeMultibeatA(bundle.a, edge) legalizeMultibeatD(bundle.d, edge) if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { legalizeMultibeatB(bundle.b, edge) legalizeMultibeatC(bundle.c, edge) } } //This is left in for almond which doesn't adhere to the tilelink protocol @deprecated("Use legalizeADSource instead if possible","") def legalizeADSourceOld(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.client.endSourceId.W)) val a_first = edge.first(bundle.a.bits, bundle.a.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val a_set = WireInit(0.U(edge.client.endSourceId.W)) when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) assert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) assume((a_set | inflight)(bundle.d.bits.source), "'D' channel acknowledged for nothing inflight" + extra) } if (edge.manager.minLatency > 0) { assume(a_set =/= d_clr || !a_set.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") assert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeADSource(bundle: TLBundle, edge: TLEdge): Unit = { val a_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val a_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_a_opcode_bus_size = log2Ceil(a_opcode_bus_size) val log_a_size_bus_size = log2Ceil(a_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) // size up to avoid width error inflight.suggestName("inflight") val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) inflight_opcodes.suggestName("inflight_opcodes") val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) inflight_sizes.suggestName("inflight_sizes") val a_first = edge.first(bundle.a.bits, bundle.a.fire) a_first.suggestName("a_first") val d_first = edge.first(bundle.d.bits, bundle.d.fire) d_first.suggestName("d_first") val a_set = WireInit(0.U(edge.client.endSourceId.W)) val a_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) a_set.suggestName("a_set") a_set_wo_ready.suggestName("a_set_wo_ready") val a_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) a_opcodes_set.suggestName("a_opcodes_set") val a_sizes_set = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) a_sizes_set.suggestName("a_sizes_set") val a_opcode_lookup = WireInit(0.U((a_opcode_bus_size - 1).W)) a_opcode_lookup.suggestName("a_opcode_lookup") a_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_a_opcode_bus_size.U) & size_to_numfullbits(1.U << log_a_opcode_bus_size.U)) >> 1.U val a_size_lookup = WireInit(0.U((1 << log_a_size_bus_size).W)) a_size_lookup.suggestName("a_size_lookup") a_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_a_size_bus_size.U) & size_to_numfullbits(1.U << log_a_size_bus_size.U)) >> 1.U val responseMap = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.Grant, TLMessages.Grant)) val responseMapSecondOption = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.GrantData, TLMessages.Grant)) val a_opcodes_set_interm = WireInit(0.U(a_opcode_bus_size.W)) a_opcodes_set_interm.suggestName("a_opcodes_set_interm") val a_sizes_set_interm = WireInit(0.U(a_size_bus_size.W)) a_sizes_set_interm.suggestName("a_sizes_set_interm") when (bundle.a.valid && a_first && edge.isRequest(bundle.a.bits)) { a_set_wo_ready := UIntToOH(bundle.a.bits.source) } when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) a_opcodes_set_interm := (bundle.a.bits.opcode << 1.U) | 1.U a_sizes_set_interm := (bundle.a.bits.size << 1.U) | 1.U a_opcodes_set := (a_opcodes_set_interm) << (bundle.a.bits.source << log_a_opcode_bus_size.U) a_sizes_set := (a_sizes_set_interm) << (bundle.a.bits.source << log_a_size_bus_size.U) monAssert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) d_opcodes_clr.suggestName("d_opcodes_clr") val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_a_opcode_bus_size.U) << (bundle.d.bits.source << log_a_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_a_size_bus_size.U) << (bundle.d.bits.source << log_a_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { val same_cycle_resp = bundle.a.valid && a_first && edge.isRequest(bundle.a.bits) && (bundle.a.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.opcode === responseMap(bundle.a.bits.opcode)) || (bundle.d.bits.opcode === responseMapSecondOption(bundle.a.bits.opcode)), "'D' channel contains improper opcode response" + extra) assume((bundle.a.bits.size === bundle.d.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.opcode === responseMap(a_opcode_lookup)) || (bundle.d.bits.opcode === responseMapSecondOption(a_opcode_lookup)), "'D' channel contains improper opcode response" + extra) assume((bundle.d.bits.size === a_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && a_first && bundle.a.valid && (bundle.a.bits.source === bundle.d.bits.source) && !d_release_ack) { assume((!bundle.d.ready) || bundle.a.ready, "ready check") } if (edge.manager.minLatency > 0) { assume(a_set_wo_ready =/= d_clr_wo_ready || !a_set_wo_ready.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr inflight_opcodes := (inflight_opcodes | a_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | a_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeCDSource(bundle: TLBundle, edge: TLEdge): Unit = { val c_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val c_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_c_opcode_bus_size = log2Ceil(c_opcode_bus_size) val log_c_size_bus_size = log2Ceil(c_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) inflight.suggestName("inflight") inflight_opcodes.suggestName("inflight_opcodes") inflight_sizes.suggestName("inflight_sizes") val c_first = edge.first(bundle.c.bits, bundle.c.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) c_first.suggestName("c_first") d_first.suggestName("d_first") val c_set = WireInit(0.U(edge.client.endSourceId.W)) val c_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val c_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val c_sizes_set = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) c_set.suggestName("c_set") c_set_wo_ready.suggestName("c_set_wo_ready") c_opcodes_set.suggestName("c_opcodes_set") c_sizes_set.suggestName("c_sizes_set") val c_opcode_lookup = WireInit(0.U((1 << log_c_opcode_bus_size).W)) val c_size_lookup = WireInit(0.U((1 << log_c_size_bus_size).W)) c_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_c_opcode_bus_size.U) & size_to_numfullbits(1.U << log_c_opcode_bus_size.U)) >> 1.U c_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_c_size_bus_size.U) & size_to_numfullbits(1.U << log_c_size_bus_size.U)) >> 1.U c_opcode_lookup.suggestName("c_opcode_lookup") c_size_lookup.suggestName("c_size_lookup") val c_opcodes_set_interm = WireInit(0.U(c_opcode_bus_size.W)) val c_sizes_set_interm = WireInit(0.U(c_size_bus_size.W)) c_opcodes_set_interm.suggestName("c_opcodes_set_interm") c_sizes_set_interm.suggestName("c_sizes_set_interm") when (bundle.c.valid && c_first && edge.isRequest(bundle.c.bits)) { c_set_wo_ready := UIntToOH(bundle.c.bits.source) } when (bundle.c.fire && c_first && edge.isRequest(bundle.c.bits)) { c_set := UIntToOH(bundle.c.bits.source) c_opcodes_set_interm := (bundle.c.bits.opcode << 1.U) | 1.U c_sizes_set_interm := (bundle.c.bits.size << 1.U) | 1.U c_opcodes_set := (c_opcodes_set_interm) << (bundle.c.bits.source << log_c_opcode_bus_size.U) c_sizes_set := (c_sizes_set_interm) << (bundle.c.bits.source << log_c_size_bus_size.U) monAssert(!inflight(bundle.c.bits.source), "'C' channel re-used a source ID" + extra) } val c_probe_ack = bundle.c.bits.opcode === TLMessages.ProbeAck || bundle.c.bits.opcode === TLMessages.ProbeAckData val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") d_opcodes_clr.suggestName("d_opcodes_clr") d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_c_opcode_bus_size.U) << (bundle.d.bits.source << log_c_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_c_size_bus_size.U) << (bundle.d.bits.source << log_c_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { val same_cycle_resp = bundle.c.valid && c_first && edge.isRequest(bundle.c.bits) && (bundle.c.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.size === bundle.c.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.size === c_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && c_first && bundle.c.valid && (bundle.c.bits.source === bundle.d.bits.source) && d_release_ack && !c_probe_ack) { assume((!bundle.d.ready) || bundle.c.ready, "ready check") } if (edge.manager.minLatency > 0) { when (c_set_wo_ready.orR) { assume(c_set_wo_ready =/= d_clr_wo_ready, s"'C' and 'D' concurrent, despite minlatency > 0" + extra) } } inflight := (inflight | c_set) & ~d_clr inflight_opcodes := (inflight_opcodes | c_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | c_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.c.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeDESink(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.manager.endSinkId.W)) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val e_first = true.B val d_set = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.d.fire && d_first && edge.isRequest(bundle.d.bits)) { d_set := UIntToOH(bundle.d.bits.sink) assume(!inflight(bundle.d.bits.sink), "'D' channel re-used a sink ID" + extra) } val e_clr = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.e.fire && e_first && edge.isResponse(bundle.e.bits)) { e_clr := UIntToOH(bundle.e.bits.sink) monAssert((d_set | inflight)(bundle.e.bits.sink), "'E' channel acknowledged for nothing inflight" + extra) } // edge.client.minLatency applies to BC, not DE inflight := (inflight | d_set) & ~e_clr } def legalizeUnique(bundle: TLBundle, edge: TLEdge): Unit = { val sourceBits = log2Ceil(edge.client.endSourceId) val tooBig = 14 // >16kB worth of flight information gets to be too much if (sourceBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with source bits (${sourceBits}) > ${tooBig}; A=>D transaction flight will not be checked") } else { if (args.edge.params(TestplanTestType).simulation) { if (args.edge.params(TLMonitorStrictMode)) { legalizeADSource(bundle, edge) legalizeCDSource(bundle, edge) } else { legalizeADSourceOld(bundle, edge) } } if (args.edge.params(TestplanTestType).formal) { legalizeADSourceFormal(bundle, edge) } } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { // legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize... val sinkBits = log2Ceil(edge.manager.endSinkId) if (sinkBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with sink bits (${sinkBits}) > ${tooBig}; D=>E transaction flight will not be checked") } else { legalizeDESink(bundle, edge) } } } def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit = { legalizeFormat (bundle, edge) legalizeMultibeat (bundle, edge) legalizeUnique (bundle, edge) } } File Misc.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import scala.math._ class ParameterizedBundle(implicit p: Parameters) extends Bundle trait Clocked extends Bundle { val clock = Clock() val reset = Bool() } object DecoupledHelper { def apply(rvs: Bool*) = new DecoupledHelper(rvs) } class DecoupledHelper(val rvs: Seq[Bool]) { def fire(exclude: Bool, includes: Bool*) = { require(rvs.contains(exclude), "Excluded Bool not present in DecoupledHelper! Note that DecoupledHelper uses referential equality for exclusion! If you don't want to exclude anything, use fire()!") (rvs.filter(_ ne exclude) ++ includes).reduce(_ && _) } def fire() = { rvs.reduce(_ && _) } } object MuxT { def apply[T <: Data, U <: Data](cond: Bool, con: (T, U), alt: (T, U)): (T, U) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2)) def apply[T <: Data, U <: Data, W <: Data](cond: Bool, con: (T, U, W), alt: (T, U, W)): (T, U, W) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3)) def apply[T <: Data, U <: Data, W <: Data, X <: Data](cond: Bool, con: (T, U, W, X), alt: (T, U, W, X)): (T, U, W, X) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3), Mux(cond, con._4, alt._4)) } /** Creates a cascade of n MuxTs to search for a key value. */ object MuxTLookup { def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } } object ValidMux { def apply[T <: Data](v1: ValidIO[T], v2: ValidIO[T]*): ValidIO[T] = { apply(v1 +: v2.toSeq) } def apply[T <: Data](valids: Seq[ValidIO[T]]): ValidIO[T] = { val out = Wire(Valid(valids.head.bits.cloneType)) out.valid := valids.map(_.valid).reduce(_ || _) out.bits := MuxCase(valids.head.bits, valids.map(v => (v.valid -> v.bits))) out } } object Str { def apply(s: String): UInt = { var i = BigInt(0) require(s.forall(validChar _)) for (c <- s) i = (i << 8) | c i.U((s.length*8).W) } def apply(x: Char): UInt = { require(validChar(x)) x.U(8.W) } def apply(x: UInt): UInt = apply(x, 10) def apply(x: UInt, radix: Int): UInt = { val rad = radix.U val w = x.getWidth require(w > 0) var q = x var s = digit(q % rad) for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad s = Cat(Mux((radix == 10).B && q === 0.U, Str(' '), digit(q % rad)), s) } s } def apply(x: SInt): UInt = apply(x, 10) def apply(x: SInt, radix: Int): UInt = { val neg = x < 0.S val abs = x.abs.asUInt if (radix != 10) { Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix)) } else { val rad = radix.U val w = abs.getWidth require(w > 0) var q = abs var s = digit(q % rad) var needSign = neg for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad val placeSpace = q === 0.U val space = Mux(needSign, Str('-'), Str(' ')) needSign = needSign && !placeSpace s = Cat(Mux(placeSpace, space, digit(q % rad)), s) } Cat(Mux(needSign, Str('-'), Str(' ')), s) } } private def digit(d: UInt): UInt = Mux(d < 10.U, Str('0')+d, Str(('a'-10).toChar)+d)(7,0) private def validChar(x: Char) = x == (x & 0xFF) } object Split { def apply(x: UInt, n0: Int) = { val w = x.getWidth (x.extract(w-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n2: Int, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n2), x.extract(n2-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } } object Random { def apply(mod: Int, random: UInt): UInt = { if (isPow2(mod)) random.extract(log2Ceil(mod)-1,0) else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod)) } def apply(mod: Int): UInt = apply(mod, randomizer) def oneHot(mod: Int, random: UInt): UInt = { if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0)) else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).asUInt } def oneHot(mod: Int): UInt = oneHot(mod, randomizer) private def randomizer = LFSR(16) private def partition(value: UInt, slices: Int) = Seq.tabulate(slices)(i => value < (((i + 1) << value.getWidth) / slices).U) } object Majority { def apply(in: Set[Bool]): Bool = { val n = (in.size >> 1) + 1 val clauses = in.subsets(n).map(_.reduce(_ && _)) clauses.reduce(_ || _) } def apply(in: Seq[Bool]): Bool = apply(in.toSet) def apply(in: UInt): Bool = apply(in.asBools.toSet) } object PopCountAtLeast { private def two(x: UInt): (Bool, Bool) = x.getWidth match { case 1 => (x.asBool, false.B) case n => val half = x.getWidth / 2 val (leftOne, leftTwo) = two(x(half - 1, 0)) val (rightOne, rightTwo) = two(x(x.getWidth - 1, half)) (leftOne || rightOne, leftTwo || rightTwo || (leftOne && rightOne)) } def apply(x: UInt, n: Int): Bool = n match { case 0 => true.B case 1 => x.orR case 2 => two(x)._2 case 3 => PopCount(x) >= n.U } } // This gets used everywhere, so make the smallest circuit possible ... // Given an address and size, create a mask of beatBytes size // eg: (0x3, 0, 4) => 0001, (0x3, 1, 4) => 0011, (0x3, 2, 4) => 1111 // groupBy applies an interleaved OR reduction; groupBy=2 take 0010 => 01 object MaskGen { def apply(addr_lo: UInt, lgSize: UInt, beatBytes: Int, groupBy: Int = 1): UInt = { require (groupBy >= 1 && beatBytes >= groupBy) require (isPow2(beatBytes) && isPow2(groupBy)) val lgBytes = log2Ceil(beatBytes) val sizeOH = UIntToOH(lgSize | 0.U(log2Up(beatBytes).W), log2Up(beatBytes)) | (groupBy*2 - 1).U def helper(i: Int): Seq[(Bool, Bool)] = { if (i == 0) { Seq((lgSize >= lgBytes.asUInt, true.B)) } else { val sub = helper(i-1) val size = sizeOH(lgBytes - i) val bit = addr_lo(lgBytes - i) val nbit = !bit Seq.tabulate (1 << i) { j => val (sub_acc, sub_eq) = sub(j/2) val eq = sub_eq && (if (j % 2 == 1) bit else nbit) val acc = sub_acc || (size && eq) (acc, eq) } } } if (groupBy == beatBytes) 1.U else Cat(helper(lgBytes-log2Ceil(groupBy)).map(_._1).reverse) } } File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Bundles.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import freechips.rocketchip.util._ import scala.collection.immutable.ListMap import chisel3.util.Decoupled import chisel3.util.DecoupledIO import chisel3.reflect.DataMirror abstract class TLBundleBase(val params: TLBundleParameters) extends Bundle // common combos in lazy policy: // Put + Acquire // Release + AccessAck object TLMessages { // A B C D E def PutFullData = 0.U // . . => AccessAck def PutPartialData = 1.U // . . => AccessAck def ArithmeticData = 2.U // . . => AccessAckData def LogicalData = 3.U // . . => AccessAckData def Get = 4.U // . . => AccessAckData def Hint = 5.U // . . => HintAck def AcquireBlock = 6.U // . => Grant[Data] def AcquirePerm = 7.U // . => Grant[Data] def Probe = 6.U // . => ProbeAck[Data] def AccessAck = 0.U // . . def AccessAckData = 1.U // . . def HintAck = 2.U // . . def ProbeAck = 4.U // . def ProbeAckData = 5.U // . def Release = 6.U // . => ReleaseAck def ReleaseData = 7.U // . => ReleaseAck def Grant = 4.U // . => GrantAck def GrantData = 5.U // . => GrantAck def ReleaseAck = 6.U // . def GrantAck = 0.U // . def isA(x: UInt) = x <= AcquirePerm def isB(x: UInt) = x <= Probe def isC(x: UInt) = x <= ReleaseData def isD(x: UInt) = x <= ReleaseAck def adResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, Grant, Grant) def bcResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, ProbeAck, ProbeAck) def a = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("AcquireBlock",TLPermissions.PermMsgGrow), ("AcquirePerm",TLPermissions.PermMsgGrow)) def b = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("Probe",TLPermissions.PermMsgCap)) def c = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("ProbeAck",TLPermissions.PermMsgReport), ("ProbeAckData",TLPermissions.PermMsgReport), ("Release",TLPermissions.PermMsgReport), ("ReleaseData",TLPermissions.PermMsgReport)) def d = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("Grant",TLPermissions.PermMsgCap), ("GrantData",TLPermissions.PermMsgCap), ("ReleaseAck",TLPermissions.PermMsgReserved)) } /** * The three primary TileLink permissions are: * (T)runk: the agent is (or is on inwards path to) the global point of serialization. * (B)ranch: the agent is on an outwards path to * (N)one: * These permissions are permuted by transfer operations in various ways. * Operations can cap permissions, request for them to be grown or shrunk, * or for a report on their current status. */ object TLPermissions { val aWidth = 2 val bdWidth = 2 val cWidth = 3 // Cap types (Grant = new permissions, Probe = permisions <= target) def toT = 0.U(bdWidth.W) def toB = 1.U(bdWidth.W) def toN = 2.U(bdWidth.W) def isCap(x: UInt) = x <= toN // Grow types (Acquire = permissions >= target) def NtoB = 0.U(aWidth.W) def NtoT = 1.U(aWidth.W) def BtoT = 2.U(aWidth.W) def isGrow(x: UInt) = x <= BtoT // Shrink types (ProbeAck, Release) def TtoB = 0.U(cWidth.W) def TtoN = 1.U(cWidth.W) def BtoN = 2.U(cWidth.W) def isShrink(x: UInt) = x <= BtoN // Report types (ProbeAck, Release) def TtoT = 3.U(cWidth.W) def BtoB = 4.U(cWidth.W) def NtoN = 5.U(cWidth.W) def isReport(x: UInt) = x <= NtoN def PermMsgGrow:Seq[String] = Seq("Grow NtoB", "Grow NtoT", "Grow BtoT") def PermMsgCap:Seq[String] = Seq("Cap toT", "Cap toB", "Cap toN") def PermMsgReport:Seq[String] = Seq("Shrink TtoB", "Shrink TtoN", "Shrink BtoN", "Report TotT", "Report BtoB", "Report NtoN") def PermMsgReserved:Seq[String] = Seq("Reserved") } object TLAtomics { val width = 3 // Arithmetic types def MIN = 0.U(width.W) def MAX = 1.U(width.W) def MINU = 2.U(width.W) def MAXU = 3.U(width.W) def ADD = 4.U(width.W) def isArithmetic(x: UInt) = x <= ADD // Logical types def XOR = 0.U(width.W) def OR = 1.U(width.W) def AND = 2.U(width.W) def SWAP = 3.U(width.W) def isLogical(x: UInt) = x <= SWAP def ArithMsg:Seq[String] = Seq("MIN", "MAX", "MINU", "MAXU", "ADD") def LogicMsg:Seq[String] = Seq("XOR", "OR", "AND", "SWAP") } object TLHints { val width = 1 def PREFETCH_READ = 0.U(width.W) def PREFETCH_WRITE = 1.U(width.W) def isHints(x: UInt) = x <= PREFETCH_WRITE def HintsMsg:Seq[String] = Seq("PrefetchRead", "PrefetchWrite") } sealed trait TLChannel extends TLBundleBase { val channelName: String } sealed trait TLDataChannel extends TLChannel sealed trait TLAddrChannel extends TLDataChannel final class TLBundleA(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleA_${params.shortName}" val channelName = "'A' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(List(TLAtomics.width, TLPermissions.aWidth, TLHints.width).max.W) // amo_opcode || grow perms || hint val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleB(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleB_${params.shortName}" val channelName = "'B' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val address = UInt(params.addressBits.W) // from // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleC(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleC_${params.shortName}" val channelName = "'C' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.cWidth.W) // shrink or report perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleD(params: TLBundleParameters) extends TLBundleBase(params) with TLDataChannel { override def typeName = s"TLBundleD_${params.shortName}" val channelName = "'D' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val sink = UInt(params.sinkBits.W) // from val denied = Bool() // implies corrupt iff *Data val user = BundleMap(params.responseFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleE(params: TLBundleParameters) extends TLBundleBase(params) with TLChannel { override def typeName = s"TLBundleE_${params.shortName}" val channelName = "'E' channel" val sink = UInt(params.sinkBits.W) // to } class TLBundle(val params: TLBundleParameters) extends Record { // Emulate a Bundle with elements abcde or ad depending on params.hasBCE private val optA = Some (Decoupled(new TLBundleA(params))) private val optB = params.hasBCE.option(Flipped(Decoupled(new TLBundleB(params)))) private val optC = params.hasBCE.option(Decoupled(new TLBundleC(params))) private val optD = Some (Flipped(Decoupled(new TLBundleD(params)))) private val optE = params.hasBCE.option(Decoupled(new TLBundleE(params))) def a: DecoupledIO[TLBundleA] = optA.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleA(params))))) def b: DecoupledIO[TLBundleB] = optB.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleB(params))))) def c: DecoupledIO[TLBundleC] = optC.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleC(params))))) def d: DecoupledIO[TLBundleD] = optD.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleD(params))))) def e: DecoupledIO[TLBundleE] = optE.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleE(params))))) val elements = if (params.hasBCE) ListMap("e" -> e, "d" -> d, "c" -> c, "b" -> b, "a" -> a) else ListMap("d" -> d, "a" -> a) def tieoff(): Unit = { DataMirror.specifiedDirectionOf(a.ready) match { case SpecifiedDirection.Input => a.ready := false.B c.ready := false.B e.ready := false.B b.valid := false.B d.valid := false.B case SpecifiedDirection.Output => a.valid := false.B c.valid := false.B e.valid := false.B b.ready := false.B d.ready := false.B case _ => } } } object TLBundle { def apply(params: TLBundleParameters) = new TLBundle(params) } class TLAsyncBundleBase(val params: TLAsyncBundleParameters) extends Bundle class TLAsyncBundle(params: TLAsyncBundleParameters) extends TLAsyncBundleBase(params) { val a = new AsyncBundle(new TLBundleA(params.base), params.async) val b = Flipped(new AsyncBundle(new TLBundleB(params.base), params.async)) val c = new AsyncBundle(new TLBundleC(params.base), params.async) val d = Flipped(new AsyncBundle(new TLBundleD(params.base), params.async)) val e = new AsyncBundle(new TLBundleE(params.base), params.async) } class TLRationalBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = RationalIO(new TLBundleA(params)) val b = Flipped(RationalIO(new TLBundleB(params))) val c = RationalIO(new TLBundleC(params)) val d = Flipped(RationalIO(new TLBundleD(params))) val e = RationalIO(new TLBundleE(params)) } class TLCreditedBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = CreditedIO(new TLBundleA(params)) val b = Flipped(CreditedIO(new TLBundleB(params))) val c = CreditedIO(new TLBundleC(params)) val d = Flipped(CreditedIO(new TLBundleD(params))) val e = CreditedIO(new TLBundleE(params)) } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.diplomacy import chisel3._ import chisel3.util.{DecoupledIO, Queue, ReadyValidIO, isPow2, log2Ceil, log2Floor} import freechips.rocketchip.util.ShiftQueue /** Options for describing the attributes of memory regions */ object RegionType { // Define the 'more relaxed than' ordering val cases = Seq(CACHED, TRACKED, UNCACHED, IDEMPOTENT, VOLATILE, PUT_EFFECTS, GET_EFFECTS) sealed trait T extends Ordered[T] { def compare(that: T): Int = cases.indexOf(that) compare cases.indexOf(this) } case object CACHED extends T // an intermediate agent may have cached a copy of the region for you case object TRACKED extends T // the region may have been cached by another master, but coherence is being provided case object UNCACHED extends T // the region has not been cached yet, but should be cached when possible case object IDEMPOTENT extends T // gets return most recently put content, but content should not be cached case object VOLATILE extends T // content may change without a put, but puts and gets have no side effects case object PUT_EFFECTS extends T // puts produce side effects and so must not be combined/delayed case object GET_EFFECTS extends T // gets produce side effects and so must not be issued speculatively } // A non-empty half-open range; [start, end) case class IdRange(start: Int, end: Int) extends Ordered[IdRange] { require (start >= 0, s"Ids cannot be negative, but got: $start.") require (start <= end, "Id ranges cannot be negative.") def compare(x: IdRange) = { val primary = (this.start - x.start).signum val secondary = (x.end - this.end).signum if (primary != 0) primary else secondary } def overlaps(x: IdRange) = start < x.end && x.start < end def contains(x: IdRange) = start <= x.start && x.end <= end def contains(x: Int) = start <= x && x < end def contains(x: UInt) = if (size == 0) { false.B } else if (size == 1) { // simple comparison x === start.U } else { // find index of largest different bit val largestDeltaBit = log2Floor(start ^ (end-1)) val smallestCommonBit = largestDeltaBit + 1 // may not exist in x val uncommonMask = (1 << smallestCommonBit) - 1 val uncommonBits = (x | 0.U(smallestCommonBit.W))(largestDeltaBit, 0) // the prefix must match exactly (note: may shift ALL bits away) (x >> smallestCommonBit) === (start >> smallestCommonBit).U && // firrtl constant prop range analysis can eliminate these two: (start & uncommonMask).U <= uncommonBits && uncommonBits <= ((end-1) & uncommonMask).U } def shift(x: Int) = IdRange(start+x, end+x) def size = end - start def isEmpty = end == start def range = start until end } object IdRange { def overlaps(s: Seq[IdRange]) = if (s.isEmpty) None else { val ranges = s.sorted (ranges.tail zip ranges.init) find { case (a, b) => a overlaps b } } } // An potentially empty inclusive range of 2-powers [min, max] (in bytes) case class TransferSizes(min: Int, max: Int) { def this(x: Int) = this(x, x) require (min <= max, s"Min transfer $min > max transfer $max") require (min >= 0 && max >= 0, s"TransferSizes must be positive, got: ($min, $max)") require (max == 0 || isPow2(max), s"TransferSizes must be a power of 2, got: $max") require (min == 0 || isPow2(min), s"TransferSizes must be a power of 2, got: $min") require (max == 0 || min != 0, s"TransferSize 0 is forbidden unless (0,0), got: ($min, $max)") def none = min == 0 def contains(x: Int) = isPow2(x) && min <= x && x <= max def containsLg(x: Int) = contains(1 << x) def containsLg(x: UInt) = if (none) false.B else if (min == max) { log2Ceil(min).U === x } else { log2Ceil(min).U <= x && x <= log2Ceil(max).U } def contains(x: TransferSizes) = x.none || (min <= x.min && x.max <= max) def intersect(x: TransferSizes) = if (x.max < min || max < x.min) TransferSizes.none else TransferSizes(scala.math.max(min, x.min), scala.math.min(max, x.max)) // Not a union, because the result may contain sizes contained by neither term // NOT TO BE CONFUSED WITH COVERPOINTS def mincover(x: TransferSizes) = { if (none) { x } else if (x.none) { this } else { TransferSizes(scala.math.min(min, x.min), scala.math.max(max, x.max)) } } override def toString() = "TransferSizes[%d, %d]".format(min, max) } object TransferSizes { def apply(x: Int) = new TransferSizes(x) val none = new TransferSizes(0) def mincover(seq: Seq[TransferSizes]) = seq.foldLeft(none)(_ mincover _) def intersect(seq: Seq[TransferSizes]) = seq.reduce(_ intersect _) implicit def asBool(x: TransferSizes) = !x.none } // AddressSets specify the address space managed by the manager // Base is the base address, and mask are the bits consumed by the manager // e.g: base=0x200, mask=0xff describes a device managing 0x200-0x2ff // e.g: base=0x1000, mask=0xf0f decribes a device managing 0x1000-0x100f, 0x1100-0x110f, ... case class AddressSet(base: BigInt, mask: BigInt) extends Ordered[AddressSet] { // Forbid misaligned base address (and empty sets) require ((base & mask) == 0, s"Mis-aligned AddressSets are forbidden, got: ${this.toString}") require (base >= 0, s"AddressSet negative base is ambiguous: $base") // TL2 address widths are not fixed => negative is ambiguous // We do allow negative mask (=> ignore all high bits) def contains(x: BigInt) = ((x ^ base) & ~mask) == 0 def contains(x: UInt) = ((x ^ base.U).zext & (~mask).S) === 0.S // turn x into an address contained in this set def legalize(x: UInt): UInt = base.U | (mask.U & x) // overlap iff bitwise: both care (~mask0 & ~mask1) => both equal (base0=base1) def overlaps(x: AddressSet) = (~(mask | x.mask) & (base ^ x.base)) == 0 // contains iff bitwise: x.mask => mask && contains(x.base) def contains(x: AddressSet) = ((x.mask | (base ^ x.base)) & ~mask) == 0 // The number of bytes to which the manager must be aligned def alignment = ((mask + 1) & ~mask) // Is this a contiguous memory range def contiguous = alignment == mask+1 def finite = mask >= 0 def max = { require (finite, "Max cannot be calculated on infinite mask"); base | mask } // Widen the match function to ignore all bits in imask def widen(imask: BigInt) = AddressSet(base & ~imask, mask | imask) // Return an AddressSet that only contains the addresses both sets contain def intersect(x: AddressSet): Option[AddressSet] = { if (!overlaps(x)) { None } else { val r_mask = mask & x.mask val r_base = base | x.base Some(AddressSet(r_base, r_mask)) } } def subtract(x: AddressSet): Seq[AddressSet] = { intersect(x) match { case None => Seq(this) case Some(remove) => AddressSet.enumerateBits(mask & ~remove.mask).map { bit => val nmask = (mask & (bit-1)) | remove.mask val nbase = (remove.base ^ bit) & ~nmask AddressSet(nbase, nmask) } } } // AddressSets have one natural Ordering (the containment order, if contiguous) def compare(x: AddressSet) = { val primary = (this.base - x.base).signum // smallest address first val secondary = (x.mask - this.mask).signum // largest mask first if (primary != 0) primary else secondary } // We always want to see things in hex override def toString() = { if (mask >= 0) { "AddressSet(0x%x, 0x%x)".format(base, mask) } else { "AddressSet(0x%x, ~0x%x)".format(base, ~mask) } } def toRanges = { require (finite, "Ranges cannot be calculated on infinite mask") val size = alignment val fragments = mask & ~(size-1) val bits = bitIndexes(fragments) (BigInt(0) until (BigInt(1) << bits.size)).map { i => val off = bitIndexes(i).foldLeft(base) { case (a, b) => a.setBit(bits(b)) } AddressRange(off, size) } } } object AddressSet { val everything = AddressSet(0, -1) def misaligned(base: BigInt, size: BigInt, tail: Seq[AddressSet] = Seq()): Seq[AddressSet] = { if (size == 0) tail.reverse else { val maxBaseAlignment = base & (-base) // 0 for infinite (LSB) val maxSizeAlignment = BigInt(1) << log2Floor(size) // MSB of size val step = if (maxBaseAlignment == 0 || maxBaseAlignment > maxSizeAlignment) maxSizeAlignment else maxBaseAlignment misaligned(base+step, size-step, AddressSet(base, step-1) +: tail) } } def unify(seq: Seq[AddressSet], bit: BigInt): Seq[AddressSet] = { // Pair terms up by ignoring 'bit' seq.distinct.groupBy(x => x.copy(base = x.base & ~bit)).map { case (key, seq) => if (seq.size == 1) { seq.head // singleton -> unaffected } else { key.copy(mask = key.mask | bit) // pair - widen mask by bit } }.toList } def unify(seq: Seq[AddressSet]): Seq[AddressSet] = { val bits = seq.map(_.base).foldLeft(BigInt(0))(_ | _) AddressSet.enumerateBits(bits).foldLeft(seq) { case (acc, bit) => unify(acc, bit) }.sorted } def enumerateMask(mask: BigInt): Seq[BigInt] = { def helper(id: BigInt, tail: Seq[BigInt]): Seq[BigInt] = if (id == mask) (id +: tail).reverse else helper(((~mask | id) + 1) & mask, id +: tail) helper(0, Nil) } def enumerateBits(mask: BigInt): Seq[BigInt] = { def helper(x: BigInt): Seq[BigInt] = { if (x == 0) { Nil } else { val bit = x & (-x) bit +: helper(x & ~bit) } } helper(mask) } } case class BufferParams(depth: Int, flow: Boolean, pipe: Boolean) { require (depth >= 0, "Buffer depth must be >= 0") def isDefined = depth > 0 def latency = if (isDefined && !flow) 1 else 0 def apply[T <: Data](x: DecoupledIO[T]) = if (isDefined) Queue(x, depth, flow=flow, pipe=pipe) else x def irrevocable[T <: Data](x: ReadyValidIO[T]) = if (isDefined) Queue.irrevocable(x, depth, flow=flow, pipe=pipe) else x def sq[T <: Data](x: DecoupledIO[T]) = if (!isDefined) x else { val sq = Module(new ShiftQueue(x.bits, depth, flow=flow, pipe=pipe)) sq.io.enq <> x sq.io.deq } override def toString() = "BufferParams:%d%s%s".format(depth, if (flow) "F" else "", if (pipe) "P" else "") } object BufferParams { implicit def apply(depth: Int): BufferParams = BufferParams(depth, false, false) val default = BufferParams(2) val none = BufferParams(0) val flow = BufferParams(1, true, false) val pipe = BufferParams(1, false, true) } case class TriStateValue(value: Boolean, set: Boolean) { def update(orig: Boolean) = if (set) value else orig } object TriStateValue { implicit def apply(value: Boolean): TriStateValue = TriStateValue(value, true) def unset = TriStateValue(false, false) } trait DirectedBuffers[T] { def copyIn(x: BufferParams): T def copyOut(x: BufferParams): T def copyInOut(x: BufferParams): T } trait IdMapEntry { def name: String def from: IdRange def to: IdRange def isCache: Boolean def requestFifo: Boolean def maxTransactionsInFlight: Option[Int] def pretty(fmt: String) = if (from ne to) { // if the subclass uses the same reference for both from and to, assume its format string has an arity of 5 fmt.format(to.start, to.end, from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } else { fmt.format(from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } } abstract class IdMap[T <: IdMapEntry] { protected val fmt: String val mapping: Seq[T] def pretty: String = mapping.map(_.pretty(fmt)).mkString(",\n") } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module TLMonitor_23( // @[Monitor.scala:36:7] input clock, // @[Monitor.scala:36:7] input reset, // @[Monitor.scala:36:7] input io_in_a_ready, // @[Monitor.scala:20:14] input io_in_a_valid, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_opcode, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_param, // @[Monitor.scala:20:14] input [3:0] io_in_a_bits_size, // @[Monitor.scala:20:14] input [6:0] io_in_a_bits_source, // @[Monitor.scala:20:14] input [28:0] io_in_a_bits_address, // @[Monitor.scala:20:14] input [7:0] io_in_a_bits_mask, // @[Monitor.scala:20:14] input [63:0] io_in_a_bits_data, // @[Monitor.scala:20:14] input io_in_a_bits_corrupt, // @[Monitor.scala:20:14] input io_in_d_ready, // @[Monitor.scala:20:14] input io_in_d_valid, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_opcode, // @[Monitor.scala:20:14] input [1:0] io_in_d_bits_param, // @[Monitor.scala:20:14] input [3:0] io_in_d_bits_size, // @[Monitor.scala:20:14] input [6:0] io_in_d_bits_source, // @[Monitor.scala:20:14] input io_in_d_bits_sink, // @[Monitor.scala:20:14] input io_in_d_bits_denied, // @[Monitor.scala:20:14] input [63:0] io_in_d_bits_data, // @[Monitor.scala:20:14] input io_in_d_bits_corrupt // @[Monitor.scala:20:14] ); wire [31:0] _plusarg_reader_1_out; // @[PlusArg.scala:80:11] wire [31:0] _plusarg_reader_out; // @[PlusArg.scala:80:11] wire io_in_a_ready_0 = io_in_a_ready; // @[Monitor.scala:36:7] wire io_in_a_valid_0 = io_in_a_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_opcode_0 = io_in_a_bits_opcode; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_param_0 = io_in_a_bits_param; // @[Monitor.scala:36:7] wire [3:0] io_in_a_bits_size_0 = io_in_a_bits_size; // @[Monitor.scala:36:7] wire [6:0] io_in_a_bits_source_0 = io_in_a_bits_source; // @[Monitor.scala:36:7] wire [28:0] io_in_a_bits_address_0 = io_in_a_bits_address; // @[Monitor.scala:36:7] wire [7:0] io_in_a_bits_mask_0 = io_in_a_bits_mask; // @[Monitor.scala:36:7] wire [63:0] io_in_a_bits_data_0 = io_in_a_bits_data; // @[Monitor.scala:36:7] wire io_in_a_bits_corrupt_0 = io_in_a_bits_corrupt; // @[Monitor.scala:36:7] wire io_in_d_ready_0 = io_in_d_ready; // @[Monitor.scala:36:7] wire io_in_d_valid_0 = io_in_d_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_opcode_0 = io_in_d_bits_opcode; // @[Monitor.scala:36:7] wire [1:0] io_in_d_bits_param_0 = io_in_d_bits_param; // @[Monitor.scala:36:7] wire [3:0] io_in_d_bits_size_0 = io_in_d_bits_size; // @[Monitor.scala:36:7] wire [6:0] io_in_d_bits_source_0 = io_in_d_bits_source; // @[Monitor.scala:36:7] wire io_in_d_bits_sink_0 = io_in_d_bits_sink; // @[Monitor.scala:36:7] wire io_in_d_bits_denied_0 = io_in_d_bits_denied; // @[Monitor.scala:36:7] wire [63:0] io_in_d_bits_data_0 = io_in_d_bits_data; // @[Monitor.scala:36:7] wire io_in_d_bits_corrupt_0 = io_in_d_bits_corrupt; // @[Monitor.scala:36:7] wire sink_ok = 1'h0; // @[Monitor.scala:309:31] wire _c_first_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_T = 1'h0; // @[Decoupled.scala:51:35] wire c_first_beats1_opdata = 1'h0; // @[Edges.scala:102:36] wire _c_first_last_T = 1'h0; // @[Edges.scala:232:25] wire c_first_done = 1'h0; // @[Edges.scala:233:22] wire _c_set_wo_ready_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T = 1'h0; // @[Monitor.scala:772:47] wire _c_probe_ack_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T_1 = 1'h0; // @[Monitor.scala:772:95] wire c_probe_ack = 1'h0; // @[Monitor.scala:772:71] wire _same_cycle_resp_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_3 = 1'h0; // @[Monitor.scala:795:44] wire _same_cycle_resp_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_4 = 1'h0; // @[Edges.scala:68:36] wire _same_cycle_resp_T_5 = 1'h0; // @[Edges.scala:68:51] wire _same_cycle_resp_T_6 = 1'h0; // @[Edges.scala:68:40] wire _same_cycle_resp_T_7 = 1'h0; // @[Monitor.scala:795:55] wire _same_cycle_resp_WIRE_4_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_5_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire same_cycle_resp_1 = 1'h0; // @[Monitor.scala:795:88] wire [8:0] c_first_beats1_decode = 9'h0; // @[Edges.scala:220:59] wire [8:0] c_first_beats1 = 9'h0; // @[Edges.scala:221:14] wire [8:0] _c_first_count_T = 9'h0; // @[Edges.scala:234:27] wire [8:0] c_first_count = 9'h0; // @[Edges.scala:234:25] wire [8:0] _c_first_counter_T = 9'h0; // @[Edges.scala:236:21] wire _source_ok_T_3 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_5 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_9 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_11 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_15 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_17 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_21 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_23 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_27 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_29 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_33 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_35 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_39 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_41 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_54 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_56 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_60 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_62 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_66 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_68 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_72 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_74 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_78 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_80 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_84 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_86 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_90 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_92 = 1'h1; // @[Parameters.scala:57:20] wire c_first = 1'h1; // @[Edges.scala:231:25] wire _c_first_last_T_1 = 1'h1; // @[Edges.scala:232:43] wire c_first_last = 1'h1; // @[Edges.scala:232:33] wire [8:0] c_first_counter1 = 9'h1FF; // @[Edges.scala:230:28] wire [9:0] _c_first_counter1_T = 10'h3FF; // @[Edges.scala:230:28] wire [63:0] _c_first_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_first_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_wo_ready_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_wo_ready_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_4_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_5_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [28:0] _c_first_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_first_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_first_WIRE_2_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_first_WIRE_3_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_set_wo_ready_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_set_wo_ready_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_set_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_set_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_opcodes_set_interm_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_opcodes_set_interm_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_sizes_set_interm_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_sizes_set_interm_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_opcodes_set_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_opcodes_set_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_sizes_set_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_sizes_set_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_probe_ack_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_probe_ack_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_probe_ack_WIRE_2_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_probe_ack_WIRE_3_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _same_cycle_resp_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _same_cycle_resp_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _same_cycle_resp_WIRE_2_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _same_cycle_resp_WIRE_3_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _same_cycle_resp_WIRE_4_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _same_cycle_resp_WIRE_5_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [6:0] _c_first_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_first_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_first_WIRE_2_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_first_WIRE_3_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_set_wo_ready_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_set_wo_ready_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_set_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_set_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_opcodes_set_interm_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_opcodes_set_interm_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_sizes_set_interm_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_sizes_set_interm_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_opcodes_set_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_opcodes_set_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_sizes_set_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_sizes_set_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_probe_ack_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_probe_ack_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_probe_ack_WIRE_2_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_probe_ack_WIRE_3_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _same_cycle_resp_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _same_cycle_resp_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _same_cycle_resp_WIRE_2_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _same_cycle_resp_WIRE_3_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _same_cycle_resp_WIRE_4_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _same_cycle_resp_WIRE_5_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [3:0] _c_first_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_first_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_first_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_first_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] c_opcodes_set_interm = 4'h0; // @[Monitor.scala:754:40] wire [3:0] _c_set_wo_ready_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_set_wo_ready_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_interm_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_opcodes_set_interm_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_interm_T = 4'h0; // @[Monitor.scala:765:53] wire [3:0] _c_sizes_set_interm_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_sizes_set_interm_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_opcodes_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_sizes_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_sizes_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_probe_ack_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_probe_ack_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_probe_ack_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_probe_ack_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_4_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_5_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [2:0] responseMap_0 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMap_1 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_0 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_1 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] _c_first_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_4_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_4_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_5_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_5_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [15:0] _a_size_lookup_T_5 = 16'hFF; // @[Monitor.scala:612:57] wire [15:0] _d_sizes_clr_T_3 = 16'hFF; // @[Monitor.scala:612:57] wire [15:0] _c_size_lookup_T_5 = 16'hFF; // @[Monitor.scala:724:57] wire [15:0] _d_sizes_clr_T_9 = 16'hFF; // @[Monitor.scala:724:57] wire [16:0] _a_size_lookup_T_4 = 17'hFF; // @[Monitor.scala:612:57] wire [16:0] _d_sizes_clr_T_2 = 17'hFF; // @[Monitor.scala:612:57] wire [16:0] _c_size_lookup_T_4 = 17'hFF; // @[Monitor.scala:724:57] wire [16:0] _d_sizes_clr_T_8 = 17'hFF; // @[Monitor.scala:724:57] wire [15:0] _a_size_lookup_T_3 = 16'h100; // @[Monitor.scala:612:51] wire [15:0] _d_sizes_clr_T_1 = 16'h100; // @[Monitor.scala:612:51] wire [15:0] _c_size_lookup_T_3 = 16'h100; // @[Monitor.scala:724:51] wire [15:0] _d_sizes_clr_T_7 = 16'h100; // @[Monitor.scala:724:51] wire [15:0] _a_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_opcodes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _c_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_opcodes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [16:0] _a_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_opcodes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _c_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_opcodes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [15:0] _a_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_opcodes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _c_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_opcodes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [1027:0] _c_sizes_set_T_1 = 1028'h0; // @[Monitor.scala:768:52] wire [9:0] _c_opcodes_set_T = 10'h0; // @[Monitor.scala:767:79] wire [9:0] _c_sizes_set_T = 10'h0; // @[Monitor.scala:768:77] wire [1026:0] _c_opcodes_set_T_1 = 1027'h0; // @[Monitor.scala:767:54] wire [4:0] _c_sizes_set_interm_T_1 = 5'h1; // @[Monitor.scala:766:59] wire [4:0] c_sizes_set_interm = 5'h0; // @[Monitor.scala:755:40] wire [4:0] _c_sizes_set_interm_T = 5'h0; // @[Monitor.scala:766:51] wire [3:0] _c_opcodes_set_interm_T_1 = 4'h1; // @[Monitor.scala:765:61] wire [127:0] _c_set_wo_ready_T = 128'h1; // @[OneHot.scala:58:35] wire [127:0] _c_set_T = 128'h1; // @[OneHot.scala:58:35] wire [519:0] c_sizes_set = 520'h0; // @[Monitor.scala:741:34] wire [259:0] c_opcodes_set = 260'h0; // @[Monitor.scala:740:34] wire [64:0] c_set = 65'h0; // @[Monitor.scala:738:34] wire [64:0] c_set_wo_ready = 65'h0; // @[Monitor.scala:739:34] wire [11:0] _c_first_beats1_decode_T_2 = 12'h0; // @[package.scala:243:46] wire [11:0] _c_first_beats1_decode_T_1 = 12'hFFF; // @[package.scala:243:76] wire [26:0] _c_first_beats1_decode_T = 27'hFFF; // @[package.scala:243:71] wire [2:0] responseMap_6 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMap_7 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_7 = 3'h4; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_6 = 3'h5; // @[Monitor.scala:644:42] wire [2:0] responseMap_5 = 3'h2; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_5 = 3'h2; // @[Monitor.scala:644:42] wire [2:0] responseMap_2 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_3 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_4 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_2 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_3 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_4 = 3'h1; // @[Monitor.scala:644:42] wire [3:0] _a_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:637:123] wire [3:0] _d_opcodes_clr_T = 4'h4; // @[Monitor.scala:680:48] wire [3:0] _c_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:749:123] wire [3:0] _d_opcodes_clr_T_6 = 4'h4; // @[Monitor.scala:790:48] wire [3:0] _a_size_lookup_T_2 = 4'h8; // @[Monitor.scala:641:117] wire [3:0] _d_sizes_clr_T = 4'h8; // @[Monitor.scala:681:48] wire [3:0] _c_size_lookup_T_2 = 4'h8; // @[Monitor.scala:750:119] wire [3:0] _d_sizes_clr_T_6 = 4'h8; // @[Monitor.scala:791:48] wire [3:0] _mask_sizeOH_T = io_in_a_bits_size_0; // @[Misc.scala:202:34] wire [6:0] _source_ok_uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_4 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_5 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_6 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_4 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_5 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_6 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_7 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_8 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_9 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_10 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_11 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_12 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_13 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_14 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_15 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_16 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_17 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_18 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_19 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_20 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_21 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_22 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_23 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_24 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_25 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_26 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_27 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_28 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_29 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_30 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_31 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_32 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_33 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_34 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_35 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_36 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_37 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_38 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_39 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_40 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_41 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_42 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_43 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_44 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_45 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_46 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_47 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_48 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_49 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_50 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_51 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_52 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_53 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_54 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_55 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_56 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_57 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_58 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_59 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_60 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_61 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_62 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_63 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_64 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_65 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_66 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_67 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_68 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_69 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_70 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_71 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_72 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_73 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_74 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_75 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_76 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_7 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_8 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_9 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_10 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_11 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_12 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_13 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire _source_ok_T = io_in_a_bits_source_0 == 7'h30; // @[Monitor.scala:36:7] wire _source_ok_WIRE_0 = _source_ok_T; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits = _source_ok_uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [4:0] _source_ok_T_1 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_7 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_13 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_19 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire _source_ok_T_2 = _source_ok_T_1 == 5'h8; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_4 = _source_ok_T_2; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_6 = _source_ok_T_4; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1 = _source_ok_T_6; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_1 = _source_ok_uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_8 = _source_ok_T_7 == 5'h9; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_10 = _source_ok_T_8; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_12 = _source_ok_T_10; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_2 = _source_ok_T_12; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_2 = _source_ok_uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_14 = _source_ok_T_13 == 5'hA; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_16 = _source_ok_T_14; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_18 = _source_ok_T_16; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_3 = _source_ok_T_18; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_3 = _source_ok_uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_20 = _source_ok_T_19 == 5'hB; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_22 = _source_ok_T_20; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_24 = _source_ok_T_22; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_4 = _source_ok_T_24; // @[Parameters.scala:1138:31] wire [2:0] source_ok_uncommonBits_4 = _source_ok_uncommonBits_T_4[2:0]; // @[Parameters.scala:52:{29,56}] wire [3:0] _source_ok_T_25 = io_in_a_bits_source_0[6:3]; // @[Monitor.scala:36:7] wire [3:0] _source_ok_T_31 = io_in_a_bits_source_0[6:3]; // @[Monitor.scala:36:7] wire [3:0] _source_ok_T_37 = io_in_a_bits_source_0[6:3]; // @[Monitor.scala:36:7] wire _source_ok_T_26 = _source_ok_T_25 == 4'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_28 = _source_ok_T_26; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_30 = _source_ok_T_28; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_5 = _source_ok_T_30; // @[Parameters.scala:1138:31] wire [2:0] source_ok_uncommonBits_5 = _source_ok_uncommonBits_T_5[2:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_32 = _source_ok_T_31 == 4'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_34 = _source_ok_T_32; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_36 = _source_ok_T_34; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_6 = _source_ok_T_36; // @[Parameters.scala:1138:31] wire [2:0] source_ok_uncommonBits_6 = _source_ok_uncommonBits_T_6[2:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_38 = _source_ok_T_37 == 4'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_40 = _source_ok_T_38; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_42 = _source_ok_T_40; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_7 = _source_ok_T_42; // @[Parameters.scala:1138:31] wire _source_ok_T_43 = io_in_a_bits_source_0 == 7'h40; // @[Monitor.scala:36:7] wire _source_ok_WIRE_8 = _source_ok_T_43; // @[Parameters.scala:1138:31] wire _source_ok_T_44 = _source_ok_WIRE_0 | _source_ok_WIRE_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_45 = _source_ok_T_44 | _source_ok_WIRE_2; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_46 = _source_ok_T_45 | _source_ok_WIRE_3; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_47 = _source_ok_T_46 | _source_ok_WIRE_4; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_48 = _source_ok_T_47 | _source_ok_WIRE_5; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_49 = _source_ok_T_48 | _source_ok_WIRE_6; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_50 = _source_ok_T_49 | _source_ok_WIRE_7; // @[Parameters.scala:1138:31, :1139:46] wire source_ok = _source_ok_T_50 | _source_ok_WIRE_8; // @[Parameters.scala:1138:31, :1139:46] wire [26:0] _GEN = 27'hFFF << io_in_a_bits_size_0; // @[package.scala:243:71] wire [26:0] _is_aligned_mask_T; // @[package.scala:243:71] assign _is_aligned_mask_T = _GEN; // @[package.scala:243:71] wire [26:0] _a_first_beats1_decode_T; // @[package.scala:243:71] assign _a_first_beats1_decode_T = _GEN; // @[package.scala:243:71] wire [26:0] _a_first_beats1_decode_T_3; // @[package.scala:243:71] assign _a_first_beats1_decode_T_3 = _GEN; // @[package.scala:243:71] wire [11:0] _is_aligned_mask_T_1 = _is_aligned_mask_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] is_aligned_mask = ~_is_aligned_mask_T_1; // @[package.scala:243:{46,76}] wire [28:0] _is_aligned_T = {17'h0, io_in_a_bits_address_0[11:0] & is_aligned_mask}; // @[package.scala:243:46] wire is_aligned = _is_aligned_T == 29'h0; // @[Edges.scala:21:{16,24}] wire [1:0] mask_sizeOH_shiftAmount = _mask_sizeOH_T[1:0]; // @[OneHot.scala:64:49] wire [3:0] _mask_sizeOH_T_1 = 4'h1 << mask_sizeOH_shiftAmount; // @[OneHot.scala:64:49, :65:12] wire [2:0] _mask_sizeOH_T_2 = _mask_sizeOH_T_1[2:0]; // @[OneHot.scala:65:{12,27}] wire [2:0] mask_sizeOH = {_mask_sizeOH_T_2[2:1], 1'h1}; // @[OneHot.scala:65:27] wire mask_sub_sub_sub_0_1 = io_in_a_bits_size_0 > 4'h2; // @[Misc.scala:206:21] wire mask_sub_sub_size = mask_sizeOH[2]; // @[Misc.scala:202:81, :209:26] wire mask_sub_sub_bit = io_in_a_bits_address_0[2]; // @[Misc.scala:210:26] wire mask_sub_sub_1_2 = mask_sub_sub_bit; // @[Misc.scala:210:26, :214:27] wire mask_sub_sub_nbit = ~mask_sub_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_sub_0_2 = mask_sub_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_sub_acc_T = mask_sub_sub_size & mask_sub_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_0_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T; // @[Misc.scala:206:21, :215:{29,38}] wire _mask_sub_sub_acc_T_1 = mask_sub_sub_size & mask_sub_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_1_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T_1; // @[Misc.scala:206:21, :215:{29,38}] wire mask_sub_size = mask_sizeOH[1]; // @[Misc.scala:202:81, :209:26] wire mask_sub_bit = io_in_a_bits_address_0[1]; // @[Misc.scala:210:26] wire mask_sub_nbit = ~mask_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_0_2 = mask_sub_sub_0_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T = mask_sub_size & mask_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_0_1 = mask_sub_sub_0_1 | _mask_sub_acc_T; // @[Misc.scala:215:{29,38}] wire mask_sub_1_2 = mask_sub_sub_0_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_1 = mask_sub_size & mask_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_1_1 = mask_sub_sub_0_1 | _mask_sub_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_sub_2_2 = mask_sub_sub_1_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T_2 = mask_sub_size & mask_sub_2_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_2_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_sub_3_2 = mask_sub_sub_1_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_3 = mask_sub_size & mask_sub_3_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_3_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_size = mask_sizeOH[0]; // @[Misc.scala:202:81, :209:26] wire mask_bit = io_in_a_bits_address_0[0]; // @[Misc.scala:210:26] wire mask_nbit = ~mask_bit; // @[Misc.scala:210:26, :211:20] wire mask_eq = mask_sub_0_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T = mask_size & mask_eq; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc = mask_sub_0_1 | _mask_acc_T; // @[Misc.scala:215:{29,38}] wire mask_eq_1 = mask_sub_0_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_1 = mask_size & mask_eq_1; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_1 = mask_sub_0_1 | _mask_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_eq_2 = mask_sub_1_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_2 = mask_size & mask_eq_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_2 = mask_sub_1_1 | _mask_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_eq_3 = mask_sub_1_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_3 = mask_size & mask_eq_3; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_3 = mask_sub_1_1 | _mask_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_eq_4 = mask_sub_2_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_4 = mask_size & mask_eq_4; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_4 = mask_sub_2_1 | _mask_acc_T_4; // @[Misc.scala:215:{29,38}] wire mask_eq_5 = mask_sub_2_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_5 = mask_size & mask_eq_5; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_5 = mask_sub_2_1 | _mask_acc_T_5; // @[Misc.scala:215:{29,38}] wire mask_eq_6 = mask_sub_3_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_6 = mask_size & mask_eq_6; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_6 = mask_sub_3_1 | _mask_acc_T_6; // @[Misc.scala:215:{29,38}] wire mask_eq_7 = mask_sub_3_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_7 = mask_size & mask_eq_7; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_7 = mask_sub_3_1 | _mask_acc_T_7; // @[Misc.scala:215:{29,38}] wire [1:0] mask_lo_lo = {mask_acc_1, mask_acc}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_lo_hi = {mask_acc_3, mask_acc_2}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_lo = {mask_lo_hi, mask_lo_lo}; // @[Misc.scala:222:10] wire [1:0] mask_hi_lo = {mask_acc_5, mask_acc_4}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_hi_hi = {mask_acc_7, mask_acc_6}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_hi = {mask_hi_hi, mask_hi_lo}; // @[Misc.scala:222:10] wire [7:0] mask = {mask_hi, mask_lo}; // @[Misc.scala:222:10] wire [1:0] uncommonBits = _uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_1 = _uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_2 = _uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_3 = _uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_4 = _uncommonBits_T_4[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_5 = _uncommonBits_T_5[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_6 = _uncommonBits_T_6[2:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_7 = _uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_8 = _uncommonBits_T_8[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_9 = _uncommonBits_T_9[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_10 = _uncommonBits_T_10[1:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_11 = _uncommonBits_T_11[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_12 = _uncommonBits_T_12[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_13 = _uncommonBits_T_13[2:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_14 = _uncommonBits_T_14[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_15 = _uncommonBits_T_15[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_16 = _uncommonBits_T_16[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_17 = _uncommonBits_T_17[1:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_18 = _uncommonBits_T_18[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_19 = _uncommonBits_T_19[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_20 = _uncommonBits_T_20[2:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_21 = _uncommonBits_T_21[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_22 = _uncommonBits_T_22[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_23 = _uncommonBits_T_23[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_24 = _uncommonBits_T_24[1:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_25 = _uncommonBits_T_25[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_26 = _uncommonBits_T_26[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_27 = _uncommonBits_T_27[2:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_28 = _uncommonBits_T_28[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_29 = _uncommonBits_T_29[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_30 = _uncommonBits_T_30[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_31 = _uncommonBits_T_31[1:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_32 = _uncommonBits_T_32[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_33 = _uncommonBits_T_33[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_34 = _uncommonBits_T_34[2:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_35 = _uncommonBits_T_35[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_36 = _uncommonBits_T_36[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_37 = _uncommonBits_T_37[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_38 = _uncommonBits_T_38[1:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_39 = _uncommonBits_T_39[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_40 = _uncommonBits_T_40[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_41 = _uncommonBits_T_41[2:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_42 = _uncommonBits_T_42[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_43 = _uncommonBits_T_43[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_44 = _uncommonBits_T_44[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_45 = _uncommonBits_T_45[1:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_46 = _uncommonBits_T_46[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_47 = _uncommonBits_T_47[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_48 = _uncommonBits_T_48[2:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_49 = _uncommonBits_T_49[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_50 = _uncommonBits_T_50[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_51 = _uncommonBits_T_51[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_52 = _uncommonBits_T_52[1:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_53 = _uncommonBits_T_53[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_54 = _uncommonBits_T_54[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_55 = _uncommonBits_T_55[2:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_56 = _uncommonBits_T_56[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_57 = _uncommonBits_T_57[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_58 = _uncommonBits_T_58[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_59 = _uncommonBits_T_59[1:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_60 = _uncommonBits_T_60[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_61 = _uncommonBits_T_61[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_62 = _uncommonBits_T_62[2:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_63 = _uncommonBits_T_63[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_64 = _uncommonBits_T_64[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_65 = _uncommonBits_T_65[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_66 = _uncommonBits_T_66[1:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_67 = _uncommonBits_T_67[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_68 = _uncommonBits_T_68[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_69 = _uncommonBits_T_69[2:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_70 = _uncommonBits_T_70[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_71 = _uncommonBits_T_71[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_72 = _uncommonBits_T_72[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_73 = _uncommonBits_T_73[1:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_74 = _uncommonBits_T_74[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_75 = _uncommonBits_T_75[2:0]; // @[Parameters.scala:52:{29,56}] wire [2:0] uncommonBits_76 = _uncommonBits_T_76[2:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_51 = io_in_d_bits_source_0 == 7'h30; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_0 = _source_ok_T_51; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_7 = _source_ok_uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire [4:0] _source_ok_T_52 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_58 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_64 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_70 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire _source_ok_T_53 = _source_ok_T_52 == 5'h8; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_55 = _source_ok_T_53; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_57 = _source_ok_T_55; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_1 = _source_ok_T_57; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_8 = _source_ok_uncommonBits_T_8[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_59 = _source_ok_T_58 == 5'h9; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_61 = _source_ok_T_59; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_63 = _source_ok_T_61; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_2 = _source_ok_T_63; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_9 = _source_ok_uncommonBits_T_9[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_65 = _source_ok_T_64 == 5'hA; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_67 = _source_ok_T_65; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_69 = _source_ok_T_67; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_3 = _source_ok_T_69; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_10 = _source_ok_uncommonBits_T_10[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_71 = _source_ok_T_70 == 5'hB; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_73 = _source_ok_T_71; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_75 = _source_ok_T_73; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_4 = _source_ok_T_75; // @[Parameters.scala:1138:31] wire [2:0] source_ok_uncommonBits_11 = _source_ok_uncommonBits_T_11[2:0]; // @[Parameters.scala:52:{29,56}] wire [3:0] _source_ok_T_76 = io_in_d_bits_source_0[6:3]; // @[Monitor.scala:36:7] wire [3:0] _source_ok_T_82 = io_in_d_bits_source_0[6:3]; // @[Monitor.scala:36:7] wire [3:0] _source_ok_T_88 = io_in_d_bits_source_0[6:3]; // @[Monitor.scala:36:7] wire _source_ok_T_77 = _source_ok_T_76 == 4'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_79 = _source_ok_T_77; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_81 = _source_ok_T_79; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_5 = _source_ok_T_81; // @[Parameters.scala:1138:31] wire [2:0] source_ok_uncommonBits_12 = _source_ok_uncommonBits_T_12[2:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_83 = _source_ok_T_82 == 4'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_85 = _source_ok_T_83; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_87 = _source_ok_T_85; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_6 = _source_ok_T_87; // @[Parameters.scala:1138:31] wire [2:0] source_ok_uncommonBits_13 = _source_ok_uncommonBits_T_13[2:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_89 = _source_ok_T_88 == 4'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_91 = _source_ok_T_89; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_93 = _source_ok_T_91; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_7 = _source_ok_T_93; // @[Parameters.scala:1138:31] wire _source_ok_T_94 = io_in_d_bits_source_0 == 7'h40; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_8 = _source_ok_T_94; // @[Parameters.scala:1138:31] wire _source_ok_T_95 = _source_ok_WIRE_1_0 | _source_ok_WIRE_1_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_96 = _source_ok_T_95 | _source_ok_WIRE_1_2; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_97 = _source_ok_T_96 | _source_ok_WIRE_1_3; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_98 = _source_ok_T_97 | _source_ok_WIRE_1_4; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_99 = _source_ok_T_98 | _source_ok_WIRE_1_5; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_100 = _source_ok_T_99 | _source_ok_WIRE_1_6; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_101 = _source_ok_T_100 | _source_ok_WIRE_1_7; // @[Parameters.scala:1138:31, :1139:46] wire source_ok_1 = _source_ok_T_101 | _source_ok_WIRE_1_8; // @[Parameters.scala:1138:31, :1139:46] wire _T_1720 = io_in_a_ready_0 & io_in_a_valid_0; // @[Decoupled.scala:51:35] wire _a_first_T; // @[Decoupled.scala:51:35] assign _a_first_T = _T_1720; // @[Decoupled.scala:51:35] wire _a_first_T_1; // @[Decoupled.scala:51:35] assign _a_first_T_1 = _T_1720; // @[Decoupled.scala:51:35] wire [11:0] _a_first_beats1_decode_T_1 = _a_first_beats1_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _a_first_beats1_decode_T_2 = ~_a_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] a_first_beats1_decode = _a_first_beats1_decode_T_2[11:3]; // @[package.scala:243:46] wire _a_first_beats1_opdata_T = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire _a_first_beats1_opdata_T_1 = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire a_first_beats1_opdata = ~_a_first_beats1_opdata_T; // @[Edges.scala:92:{28,37}] wire [8:0] a_first_beats1 = a_first_beats1_opdata ? a_first_beats1_decode : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] a_first_counter; // @[Edges.scala:229:27] wire [9:0] _a_first_counter1_T = {1'h0, a_first_counter} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] a_first_counter1 = _a_first_counter1_T[8:0]; // @[Edges.scala:230:28] wire a_first = a_first_counter == 9'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T = a_first_counter == 9'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_1 = a_first_beats1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last = _a_first_last_T | _a_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire a_first_done = a_first_last & _a_first_T; // @[Decoupled.scala:51:35] wire [8:0] _a_first_count_T = ~a_first_counter1; // @[Edges.scala:230:28, :234:27] wire [8:0] a_first_count = a_first_beats1 & _a_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _a_first_counter_T = a_first ? a_first_beats1 : a_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode; // @[Monitor.scala:387:22] reg [2:0] param; // @[Monitor.scala:388:22] reg [3:0] size; // @[Monitor.scala:389:22] reg [6:0] source; // @[Monitor.scala:390:22] reg [28:0] address; // @[Monitor.scala:391:22] wire _T_1793 = io_in_d_ready_0 & io_in_d_valid_0; // @[Decoupled.scala:51:35] wire _d_first_T; // @[Decoupled.scala:51:35] assign _d_first_T = _T_1793; // @[Decoupled.scala:51:35] wire _d_first_T_1; // @[Decoupled.scala:51:35] assign _d_first_T_1 = _T_1793; // @[Decoupled.scala:51:35] wire _d_first_T_2; // @[Decoupled.scala:51:35] assign _d_first_T_2 = _T_1793; // @[Decoupled.scala:51:35] wire [26:0] _GEN_0 = 27'hFFF << io_in_d_bits_size_0; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T; // @[package.scala:243:71] assign _d_first_beats1_decode_T = _GEN_0; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T_3; // @[package.scala:243:71] assign _d_first_beats1_decode_T_3 = _GEN_0; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T_6; // @[package.scala:243:71] assign _d_first_beats1_decode_T_6 = _GEN_0; // @[package.scala:243:71] wire [11:0] _d_first_beats1_decode_T_1 = _d_first_beats1_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_2 = ~_d_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode = _d_first_beats1_decode_T_2[11:3]; // @[package.scala:243:46] wire d_first_beats1_opdata = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_1 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_2 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire [8:0] d_first_beats1 = d_first_beats1_opdata ? d_first_beats1_decode : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T = {1'h0, d_first_counter} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1 = _d_first_counter1_T[8:0]; // @[Edges.scala:230:28] wire d_first = d_first_counter == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T = d_first_counter == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_1 = d_first_beats1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last = _d_first_last_T | _d_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire d_first_done = d_first_last & _d_first_T; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T = ~d_first_counter1; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count = d_first_beats1 & _d_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T = d_first ? d_first_beats1 : d_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode_1; // @[Monitor.scala:538:22] reg [1:0] param_1; // @[Monitor.scala:539:22] reg [3:0] size_1; // @[Monitor.scala:540:22] reg [6:0] source_1; // @[Monitor.scala:541:22] reg sink; // @[Monitor.scala:542:22] reg denied; // @[Monitor.scala:543:22] reg [64:0] inflight; // @[Monitor.scala:614:27] reg [259:0] inflight_opcodes; // @[Monitor.scala:616:35] reg [519:0] inflight_sizes; // @[Monitor.scala:618:33] wire [11:0] _a_first_beats1_decode_T_4 = _a_first_beats1_decode_T_3[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _a_first_beats1_decode_T_5 = ~_a_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [8:0] a_first_beats1_decode_1 = _a_first_beats1_decode_T_5[11:3]; // @[package.scala:243:46] wire a_first_beats1_opdata_1 = ~_a_first_beats1_opdata_T_1; // @[Edges.scala:92:{28,37}] wire [8:0] a_first_beats1_1 = a_first_beats1_opdata_1 ? a_first_beats1_decode_1 : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] a_first_counter_1; // @[Edges.scala:229:27] wire [9:0] _a_first_counter1_T_1 = {1'h0, a_first_counter_1} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] a_first_counter1_1 = _a_first_counter1_T_1[8:0]; // @[Edges.scala:230:28] wire a_first_1 = a_first_counter_1 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T_2 = a_first_counter_1 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_3 = a_first_beats1_1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last_1 = _a_first_last_T_2 | _a_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire a_first_done_1 = a_first_last_1 & _a_first_T_1; // @[Decoupled.scala:51:35] wire [8:0] _a_first_count_T_1 = ~a_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [8:0] a_first_count_1 = a_first_beats1_1 & _a_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _a_first_counter_T_1 = a_first_1 ? a_first_beats1_1 : a_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [11:0] _d_first_beats1_decode_T_4 = _d_first_beats1_decode_T_3[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_5 = ~_d_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode_1 = _d_first_beats1_decode_T_5[11:3]; // @[package.scala:243:46] wire [8:0] d_first_beats1_1 = d_first_beats1_opdata_1 ? d_first_beats1_decode_1 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter_1; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T_1 = {1'h0, d_first_counter_1} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1_1 = _d_first_counter1_T_1[8:0]; // @[Edges.scala:230:28] wire d_first_1 = d_first_counter_1 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_2 = d_first_counter_1 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_3 = d_first_beats1_1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_1 = _d_first_last_T_2 | _d_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire d_first_done_1 = d_first_last_1 & _d_first_T_1; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T_1 = ~d_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count_1 = d_first_beats1_1 & _d_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T_1 = d_first_1 ? d_first_beats1_1 : d_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [64:0] a_set; // @[Monitor.scala:626:34] wire [64:0] a_set_wo_ready; // @[Monitor.scala:627:34] wire [259:0] a_opcodes_set; // @[Monitor.scala:630:33] wire [519:0] a_sizes_set; // @[Monitor.scala:632:31] wire [2:0] a_opcode_lookup; // @[Monitor.scala:635:35] wire [9:0] _GEN_1 = {1'h0, io_in_d_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :637:69] wire [9:0] _a_opcode_lookup_T; // @[Monitor.scala:637:69] assign _a_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69] wire [9:0] _d_opcodes_clr_T_4; // @[Monitor.scala:680:101] assign _d_opcodes_clr_T_4 = _GEN_1; // @[Monitor.scala:637:69, :680:101] wire [9:0] _c_opcode_lookup_T; // @[Monitor.scala:749:69] assign _c_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :749:69] wire [9:0] _d_opcodes_clr_T_10; // @[Monitor.scala:790:101] assign _d_opcodes_clr_T_10 = _GEN_1; // @[Monitor.scala:637:69, :790:101] wire [259:0] _a_opcode_lookup_T_1 = inflight_opcodes >> _a_opcode_lookup_T; // @[Monitor.scala:616:35, :637:{44,69}] wire [259:0] _a_opcode_lookup_T_6 = {256'h0, _a_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:637:{44,97}] wire [259:0] _a_opcode_lookup_T_7 = {1'h0, _a_opcode_lookup_T_6[259:1]}; // @[Monitor.scala:637:{97,152}] assign a_opcode_lookup = _a_opcode_lookup_T_7[2:0]; // @[Monitor.scala:635:35, :637:{21,152}] wire [7:0] a_size_lookup; // @[Monitor.scala:639:33] wire [9:0] _GEN_2 = {io_in_d_bits_source_0, 3'h0}; // @[Monitor.scala:36:7, :641:65] wire [9:0] _a_size_lookup_T; // @[Monitor.scala:641:65] assign _a_size_lookup_T = _GEN_2; // @[Monitor.scala:641:65] wire [9:0] _d_sizes_clr_T_4; // @[Monitor.scala:681:99] assign _d_sizes_clr_T_4 = _GEN_2; // @[Monitor.scala:641:65, :681:99] wire [9:0] _c_size_lookup_T; // @[Monitor.scala:750:67] assign _c_size_lookup_T = _GEN_2; // @[Monitor.scala:641:65, :750:67] wire [9:0] _d_sizes_clr_T_10; // @[Monitor.scala:791:99] assign _d_sizes_clr_T_10 = _GEN_2; // @[Monitor.scala:641:65, :791:99] wire [519:0] _a_size_lookup_T_1 = inflight_sizes >> _a_size_lookup_T; // @[Monitor.scala:618:33, :641:{40,65}] wire [519:0] _a_size_lookup_T_6 = {512'h0, _a_size_lookup_T_1[7:0]}; // @[Monitor.scala:641:{40,91}] wire [519:0] _a_size_lookup_T_7 = {1'h0, _a_size_lookup_T_6[519:1]}; // @[Monitor.scala:641:{91,144}] assign a_size_lookup = _a_size_lookup_T_7[7:0]; // @[Monitor.scala:639:33, :641:{19,144}] wire [3:0] a_opcodes_set_interm; // @[Monitor.scala:646:40] wire [4:0] a_sizes_set_interm; // @[Monitor.scala:648:38] wire _same_cycle_resp_T = io_in_a_valid_0 & a_first_1; // @[Monitor.scala:36:7, :651:26, :684:44] wire [127:0] _GEN_3 = 128'h1 << io_in_a_bits_source_0; // @[OneHot.scala:58:35] wire [127:0] _a_set_wo_ready_T; // @[OneHot.scala:58:35] assign _a_set_wo_ready_T = _GEN_3; // @[OneHot.scala:58:35] wire [127:0] _a_set_T; // @[OneHot.scala:58:35] assign _a_set_T = _GEN_3; // @[OneHot.scala:58:35] assign a_set_wo_ready = _same_cycle_resp_T ? _a_set_wo_ready_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire _T_1646 = _T_1720 & a_first_1; // @[Decoupled.scala:51:35] assign a_set = _T_1646 ? _a_set_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire [3:0] _a_opcodes_set_interm_T = {io_in_a_bits_opcode_0, 1'h0}; // @[Monitor.scala:36:7, :657:53] wire [3:0] _a_opcodes_set_interm_T_1 = {_a_opcodes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:657:{53,61}] assign a_opcodes_set_interm = _T_1646 ? _a_opcodes_set_interm_T_1 : 4'h0; // @[Monitor.scala:646:40, :655:{25,70}, :657:{28,61}] wire [4:0] _a_sizes_set_interm_T = {io_in_a_bits_size_0, 1'h0}; // @[Monitor.scala:36:7, :658:51] wire [4:0] _a_sizes_set_interm_T_1 = {_a_sizes_set_interm_T[4:1], 1'h1}; // @[Monitor.scala:658:{51,59}] assign a_sizes_set_interm = _T_1646 ? _a_sizes_set_interm_T_1 : 5'h0; // @[Monitor.scala:648:38, :655:{25,70}, :658:{28,59}] wire [9:0] _a_opcodes_set_T = {1'h0, io_in_a_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :659:79] wire [1026:0] _a_opcodes_set_T_1 = {1023'h0, a_opcodes_set_interm} << _a_opcodes_set_T; // @[Monitor.scala:646:40, :659:{54,79}] assign a_opcodes_set = _T_1646 ? _a_opcodes_set_T_1[259:0] : 260'h0; // @[Monitor.scala:630:33, :655:{25,70}, :659:{28,54}] wire [9:0] _a_sizes_set_T = {io_in_a_bits_source_0, 3'h0}; // @[Monitor.scala:36:7, :660:77] wire [1027:0] _a_sizes_set_T_1 = {1023'h0, a_sizes_set_interm} << _a_sizes_set_T; // @[Monitor.scala:648:38, :659:54, :660:{52,77}] assign a_sizes_set = _T_1646 ? _a_sizes_set_T_1[519:0] : 520'h0; // @[Monitor.scala:632:31, :655:{25,70}, :660:{28,52}] wire [64:0] d_clr; // @[Monitor.scala:664:34] wire [64:0] d_clr_wo_ready; // @[Monitor.scala:665:34] wire [259:0] d_opcodes_clr; // @[Monitor.scala:668:33] wire [519:0] d_sizes_clr; // @[Monitor.scala:670:31] wire _GEN_4 = io_in_d_bits_opcode_0 == 3'h6; // @[Monitor.scala:36:7, :673:46] wire d_release_ack; // @[Monitor.scala:673:46] assign d_release_ack = _GEN_4; // @[Monitor.scala:673:46] wire d_release_ack_1; // @[Monitor.scala:783:46] assign d_release_ack_1 = _GEN_4; // @[Monitor.scala:673:46, :783:46] wire _T_1692 = io_in_d_valid_0 & d_first_1; // @[Monitor.scala:36:7, :674:26] wire [127:0] _GEN_5 = 128'h1 << io_in_d_bits_source_0; // @[OneHot.scala:58:35] wire [127:0] _d_clr_wo_ready_T; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T = _GEN_5; // @[OneHot.scala:58:35] wire [127:0] _d_clr_T; // @[OneHot.scala:58:35] assign _d_clr_T = _GEN_5; // @[OneHot.scala:58:35] wire [127:0] _d_clr_wo_ready_T_1; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T_1 = _GEN_5; // @[OneHot.scala:58:35] wire [127:0] _d_clr_T_1; // @[OneHot.scala:58:35] assign _d_clr_T_1 = _GEN_5; // @[OneHot.scala:58:35] assign d_clr_wo_ready = _T_1692 & ~d_release_ack ? _d_clr_wo_ready_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire _T_1661 = _T_1793 & d_first_1 & ~d_release_ack; // @[Decoupled.scala:51:35] assign d_clr = _T_1661 ? _d_clr_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire [1038:0] _d_opcodes_clr_T_5 = 1039'hF << _d_opcodes_clr_T_4; // @[Monitor.scala:680:{76,101}] assign d_opcodes_clr = _T_1661 ? _d_opcodes_clr_T_5[259:0] : 260'h0; // @[Monitor.scala:668:33, :678:{25,70,89}, :680:{21,76}] wire [1038:0] _d_sizes_clr_T_5 = 1039'hFF << _d_sizes_clr_T_4; // @[Monitor.scala:681:{74,99}] assign d_sizes_clr = _T_1661 ? _d_sizes_clr_T_5[519:0] : 520'h0; // @[Monitor.scala:670:31, :678:{25,70,89}, :681:{21,74}] wire _same_cycle_resp_T_1 = _same_cycle_resp_T; // @[Monitor.scala:684:{44,55}] wire _same_cycle_resp_T_2 = io_in_a_bits_source_0 == io_in_d_bits_source_0; // @[Monitor.scala:36:7, :684:113] wire same_cycle_resp = _same_cycle_resp_T_1 & _same_cycle_resp_T_2; // @[Monitor.scala:684:{55,88,113}] wire [64:0] _inflight_T = inflight | a_set; // @[Monitor.scala:614:27, :626:34, :705:27] wire [64:0] _inflight_T_1 = ~d_clr; // @[Monitor.scala:664:34, :705:38] wire [64:0] _inflight_T_2 = _inflight_T & _inflight_T_1; // @[Monitor.scala:705:{27,36,38}] wire [259:0] _inflight_opcodes_T = inflight_opcodes | a_opcodes_set; // @[Monitor.scala:616:35, :630:33, :706:43] wire [259:0] _inflight_opcodes_T_1 = ~d_opcodes_clr; // @[Monitor.scala:668:33, :706:62] wire [259:0] _inflight_opcodes_T_2 = _inflight_opcodes_T & _inflight_opcodes_T_1; // @[Monitor.scala:706:{43,60,62}] wire [519:0] _inflight_sizes_T = inflight_sizes | a_sizes_set; // @[Monitor.scala:618:33, :632:31, :707:39] wire [519:0] _inflight_sizes_T_1 = ~d_sizes_clr; // @[Monitor.scala:670:31, :707:56] wire [519:0] _inflight_sizes_T_2 = _inflight_sizes_T & _inflight_sizes_T_1; // @[Monitor.scala:707:{39,54,56}] reg [31:0] watchdog; // @[Monitor.scala:709:27] wire [32:0] _watchdog_T = {1'h0, watchdog} + 33'h1; // @[Monitor.scala:709:27, :714:26] wire [31:0] _watchdog_T_1 = _watchdog_T[31:0]; // @[Monitor.scala:714:26] reg [64:0] inflight_1; // @[Monitor.scala:726:35] wire [64:0] _inflight_T_3 = inflight_1; // @[Monitor.scala:726:35, :814:35] reg [259:0] inflight_opcodes_1; // @[Monitor.scala:727:35] wire [259:0] _inflight_opcodes_T_3 = inflight_opcodes_1; // @[Monitor.scala:727:35, :815:43] reg [519:0] inflight_sizes_1; // @[Monitor.scala:728:35] wire [519:0] _inflight_sizes_T_3 = inflight_sizes_1; // @[Monitor.scala:728:35, :816:41] wire [11:0] _d_first_beats1_decode_T_7 = _d_first_beats1_decode_T_6[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_8 = ~_d_first_beats1_decode_T_7; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode_2 = _d_first_beats1_decode_T_8[11:3]; // @[package.scala:243:46] wire [8:0] d_first_beats1_2 = d_first_beats1_opdata_2 ? d_first_beats1_decode_2 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter_2; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T_2 = {1'h0, d_first_counter_2} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1_2 = _d_first_counter1_T_2[8:0]; // @[Edges.scala:230:28] wire d_first_2 = d_first_counter_2 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_4 = d_first_counter_2 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_5 = d_first_beats1_2 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_2 = _d_first_last_T_4 | _d_first_last_T_5; // @[Edges.scala:232:{25,33,43}] wire d_first_done_2 = d_first_last_2 & _d_first_T_2; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T_2 = ~d_first_counter1_2; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count_2 = d_first_beats1_2 & _d_first_count_T_2; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T_2 = d_first_2 ? d_first_beats1_2 : d_first_counter1_2; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [3:0] c_opcode_lookup; // @[Monitor.scala:747:35] wire [7:0] c_size_lookup; // @[Monitor.scala:748:35] wire [259:0] _c_opcode_lookup_T_1 = inflight_opcodes_1 >> _c_opcode_lookup_T; // @[Monitor.scala:727:35, :749:{44,69}] wire [259:0] _c_opcode_lookup_T_6 = {256'h0, _c_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:749:{44,97}] wire [259:0] _c_opcode_lookup_T_7 = {1'h0, _c_opcode_lookup_T_6[259:1]}; // @[Monitor.scala:749:{97,152}] assign c_opcode_lookup = _c_opcode_lookup_T_7[3:0]; // @[Monitor.scala:747:35, :749:{21,152}] wire [519:0] _c_size_lookup_T_1 = inflight_sizes_1 >> _c_size_lookup_T; // @[Monitor.scala:728:35, :750:{42,67}] wire [519:0] _c_size_lookup_T_6 = {512'h0, _c_size_lookup_T_1[7:0]}; // @[Monitor.scala:750:{42,93}] wire [519:0] _c_size_lookup_T_7 = {1'h0, _c_size_lookup_T_6[519:1]}; // @[Monitor.scala:750:{93,146}] assign c_size_lookup = _c_size_lookup_T_7[7:0]; // @[Monitor.scala:748:35, :750:{21,146}] wire [64:0] d_clr_1; // @[Monitor.scala:774:34] wire [64:0] d_clr_wo_ready_1; // @[Monitor.scala:775:34] wire [259:0] d_opcodes_clr_1; // @[Monitor.scala:776:34] wire [519:0] d_sizes_clr_1; // @[Monitor.scala:777:34] wire _T_1764 = io_in_d_valid_0 & d_first_2; // @[Monitor.scala:36:7, :784:26] assign d_clr_wo_ready_1 = _T_1764 & d_release_ack_1 ? _d_clr_wo_ready_T_1[64:0] : 65'h0; // @[OneHot.scala:58:35] wire _T_1746 = _T_1793 & d_first_2 & d_release_ack_1; // @[Decoupled.scala:51:35] assign d_clr_1 = _T_1746 ? _d_clr_T_1[64:0] : 65'h0; // @[OneHot.scala:58:35] wire [1038:0] _d_opcodes_clr_T_11 = 1039'hF << _d_opcodes_clr_T_10; // @[Monitor.scala:790:{76,101}] assign d_opcodes_clr_1 = _T_1746 ? _d_opcodes_clr_T_11[259:0] : 260'h0; // @[Monitor.scala:776:34, :788:{25,70,88}, :790:{21,76}] wire [1038:0] _d_sizes_clr_T_11 = 1039'hFF << _d_sizes_clr_T_10; // @[Monitor.scala:791:{74,99}] assign d_sizes_clr_1 = _T_1746 ? _d_sizes_clr_T_11[519:0] : 520'h0; // @[Monitor.scala:777:34, :788:{25,70,88}, :791:{21,74}] wire _same_cycle_resp_T_8 = io_in_d_bits_source_0 == 7'h0; // @[Monitor.scala:36:7, :795:113] wire [64:0] _inflight_T_4 = ~d_clr_1; // @[Monitor.scala:774:34, :814:46] wire [64:0] _inflight_T_5 = _inflight_T_3 & _inflight_T_4; // @[Monitor.scala:814:{35,44,46}] wire [259:0] _inflight_opcodes_T_4 = ~d_opcodes_clr_1; // @[Monitor.scala:776:34, :815:62] wire [259:0] _inflight_opcodes_T_5 = _inflight_opcodes_T_3 & _inflight_opcodes_T_4; // @[Monitor.scala:815:{43,60,62}] wire [519:0] _inflight_sizes_T_4 = ~d_sizes_clr_1; // @[Monitor.scala:777:34, :816:58] wire [519:0] _inflight_sizes_T_5 = _inflight_sizes_T_3 & _inflight_sizes_T_4; // @[Monitor.scala:816:{41,56,58}] reg [31:0] watchdog_1; // @[Monitor.scala:818:27]
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: package constellation.channel import chisel3._ import chisel3.util._ import freechips.rocketchip.diplomacy._ import org.chipsalliance.cde.config.{Parameters} import freechips.rocketchip.util._ import constellation.noc.{HasNoCParams} class NoCMonitor(val cParam: ChannelParams)(implicit val p: Parameters) extends Module with HasNoCParams { val io = IO(new Bundle { val in = Input(new Channel(cParam)) }) val in_flight = RegInit(VecInit(Seq.fill(cParam.nVirtualChannels) { false.B })) for (i <- 0 until cParam.srcSpeedup) { val flit = io.in.flit(i) when (flit.valid) { when (flit.bits.head) { in_flight(flit.bits.virt_channel_id) := true.B assert (!in_flight(flit.bits.virt_channel_id), "Flit head/tail sequencing is broken") } when (flit.bits.tail) { in_flight(flit.bits.virt_channel_id) := false.B } } val possibleFlows = cParam.possibleFlows when (flit.valid && flit.bits.head) { cParam match { case n: ChannelParams => n.virtualChannelParams.zipWithIndex.foreach { case (v,i) => assert(flit.bits.virt_channel_id =/= i.U || v.possibleFlows.toSeq.map(_.isFlow(flit.bits.flow)).orR) } case _ => assert(cParam.possibleFlows.toSeq.map(_.isFlow(flit.bits.flow)).orR) } } } } File Types.scala: package constellation.routing import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.{Parameters} import constellation.noc.{HasNoCParams} import constellation.channel.{Flit} /** A representation for 1 specific virtual channel in wormhole routing * * @param src the source node * @param vc ID for the virtual channel * @param dst the destination node * @param n_vc the number of virtual channels */ // BEGIN: ChannelRoutingInfo case class ChannelRoutingInfo( src: Int, dst: Int, vc: Int, n_vc: Int ) { // END: ChannelRoutingInfo require (src >= -1 && dst >= -1 && vc >= 0, s"Illegal $this") require (!(src == -1 && dst == -1), s"Illegal $this") require (vc < n_vc, s"Illegal $this") val isIngress = src == -1 val isEgress = dst == -1 } /** Represents the properties of a packet that are relevant for routing * ingressId and egressId uniquely identify a flow, but vnet and dst are used here * to simplify the implementation of routingrelations * * @param ingressId packet's source ingress point * @param egressId packet's destination egress point * @param vNet virtual subnetwork identifier * @param dst packet's destination node ID */ // BEGIN: FlowRoutingInfo case class FlowRoutingInfo( ingressId: Int, egressId: Int, vNetId: Int, ingressNode: Int, ingressNodeId: Int, egressNode: Int, egressNodeId: Int, fifo: Boolean ) { // END: FlowRoutingInfo def isFlow(f: FlowRoutingBundle): Bool = { (f.ingress_node === ingressNode.U && f.egress_node === egressNode.U && f.ingress_node_id === ingressNodeId.U && f.egress_node_id === egressNodeId.U) } def asLiteral(b: FlowRoutingBundle): BigInt = { Seq( (vNetId , b.vnet_id), (ingressNode , b.ingress_node), (ingressNodeId , b.ingress_node_id), (egressNode , b.egress_node), (egressNodeId , b.egress_node_id) ).foldLeft(0)((l, t) => { (l << t._2.getWidth) | t._1 }) } } class FlowRoutingBundle(implicit val p: Parameters) extends Bundle with HasNoCParams { // Instead of tracking ingress/egress ID, track the physical destination id and the offset at the destination // This simplifies the routing tables val vnet_id = UInt(log2Ceil(nVirtualNetworks).W) val ingress_node = UInt(log2Ceil(nNodes).W) val ingress_node_id = UInt(log2Ceil(maxIngressesAtNode).W) val egress_node = UInt(log2Ceil(nNodes).W) val egress_node_id = UInt(log2Ceil(maxEgressesAtNode).W) }
module NoCMonitor_18( // @[Monitor.scala:11:7] input clock, // @[Monitor.scala:11:7] input reset, // @[Monitor.scala:11:7] input io_in_flit_0_valid, // @[Monitor.scala:12:14] input io_in_flit_0_bits_head, // @[Monitor.scala:12:14] input io_in_flit_0_bits_tail, // @[Monitor.scala:12:14] input [5:0] io_in_flit_0_bits_flow_ingress_node, // @[Monitor.scala:12:14] input [2:0] io_in_flit_0_bits_flow_ingress_node_id, // @[Monitor.scala:12:14] input [5:0] io_in_flit_0_bits_flow_egress_node, // @[Monitor.scala:12:14] input [2:0] io_in_flit_0_bits_flow_egress_node_id, // @[Monitor.scala:12:14] input [4:0] io_in_flit_0_bits_virt_channel_id // @[Monitor.scala:12:14] ); reg in_flight_0; // @[Monitor.scala:16:26] reg in_flight_1; // @[Monitor.scala:16:26] reg in_flight_2; // @[Monitor.scala:16:26] reg in_flight_3; // @[Monitor.scala:16:26] reg in_flight_4; // @[Monitor.scala:16:26] reg in_flight_5; // @[Monitor.scala:16:26] reg in_flight_6; // @[Monitor.scala:16:26] reg in_flight_7; // @[Monitor.scala:16:26] reg in_flight_8; // @[Monitor.scala:16:26] reg in_flight_9; // @[Monitor.scala:16:26] reg in_flight_10; // @[Monitor.scala:16:26] reg in_flight_11; // @[Monitor.scala:16:26] reg in_flight_12; // @[Monitor.scala:16:26] reg in_flight_13; // @[Monitor.scala:16:26] reg in_flight_14; // @[Monitor.scala:16:26] reg in_flight_15; // @[Monitor.scala:16:26] reg in_flight_16; // @[Monitor.scala:16:26] reg in_flight_17; // @[Monitor.scala:16:26] reg in_flight_18; // @[Monitor.scala:16:26] reg in_flight_19; // @[Monitor.scala:16:26] reg in_flight_20; // @[Monitor.scala:16:26] reg in_flight_21; // @[Monitor.scala:16:26] wire _GEN = io_in_flit_0_bits_virt_channel_id == 5'h0; // @[Monitor.scala:21:46] wire _GEN_0 = io_in_flit_0_bits_virt_channel_id == 5'h1; // @[Monitor.scala:21:46] wire _GEN_1 = io_in_flit_0_bits_virt_channel_id == 5'h2; // @[Monitor.scala:21:46] wire _GEN_2 = io_in_flit_0_bits_virt_channel_id == 5'h3; // @[Monitor.scala:21:46] wire _GEN_3 = io_in_flit_0_bits_virt_channel_id == 5'h4; // @[Monitor.scala:21:46] wire _GEN_4 = io_in_flit_0_bits_virt_channel_id == 5'h5; // @[Monitor.scala:21:46] wire _GEN_5 = io_in_flit_0_bits_virt_channel_id == 5'h6; // @[Monitor.scala:21:46] wire _GEN_6 = io_in_flit_0_bits_virt_channel_id == 5'h7; // @[Monitor.scala:21:46] wire _GEN_7 = io_in_flit_0_bits_virt_channel_id == 5'h8; // @[Monitor.scala:21:46] wire _GEN_8 = io_in_flit_0_bits_virt_channel_id == 5'h9; // @[Monitor.scala:21:46] wire _GEN_9 = io_in_flit_0_bits_virt_channel_id == 5'hC; // @[Monitor.scala:21:46] wire _GEN_10 = io_in_flit_0_bits_virt_channel_id == 5'hD; // @[Monitor.scala:21:46] wire _GEN_11 = io_in_flit_0_bits_virt_channel_id == 5'h10; // @[Monitor.scala:21:46] wire _GEN_12 = io_in_flit_0_bits_virt_channel_id == 5'h11; // @[Monitor.scala:21:46]
Generate the Verilog code corresponding to the following Chisel files. File Fragmenter.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.{AddressSet, BufferParams, IdRange, TransferSizes} import freechips.rocketchip.util.{Repeater, OH1ToUInt, UIntToOH1} import scala.math.min import freechips.rocketchip.util.DataToAugmentedData object EarlyAck { sealed trait T case object AllPuts extends T case object PutFulls extends T case object None extends T } // minSize: minimum size of transfers supported by all outward managers // maxSize: maximum size of transfers supported after the Fragmenter is applied // alwaysMin: fragment all requests down to minSize (else fragment to maximum supported by manager) // earlyAck: should a multibeat Put should be acknowledged on the first beat or last beat // holdFirstDeny: allow the Fragmenter to unsafely combine multibeat Gets by taking the first denied for the whole burst // nameSuffix: appends a suffix to the module name // Fragmenter modifies: PutFull, PutPartial, LogicalData, Get, Hint // Fragmenter passes: ArithmeticData (truncated to minSize if alwaysMin) // Fragmenter cannot modify acquire (could livelock); thus it is unsafe to put caches on both sides class TLFragmenter(val minSize: Int, val maxSize: Int, val alwaysMin: Boolean = false, val earlyAck: EarlyAck.T = EarlyAck.None, val holdFirstDeny: Boolean = false, val nameSuffix: Option[String] = None)(implicit p: Parameters) extends LazyModule { require(isPow2 (maxSize), s"TLFragmenter expects pow2(maxSize), but got $maxSize") require(isPow2 (minSize), s"TLFragmenter expects pow2(minSize), but got $minSize") require(minSize <= maxSize, s"TLFragmenter expects min <= max, but got $minSize > $maxSize") val fragmentBits = log2Ceil(maxSize / minSize) val fullBits = if (earlyAck == EarlyAck.PutFulls) 1 else 0 val toggleBits = 1 val addedBits = fragmentBits + toggleBits + fullBits def expandTransfer(x: TransferSizes, op: String) = if (!x) x else { // validate that we can apply the fragmenter correctly require (x.max >= minSize, s"TLFragmenter (with parent $parent) max transfer size $op(${x.max}) must be >= min transfer size (${minSize})") TransferSizes(x.min, maxSize) } private def noChangeRequired = minSize == maxSize private def shrinkTransfer(x: TransferSizes) = if (!alwaysMin) x else if (x.min <= minSize) TransferSizes(x.min, min(minSize, x.max)) else TransferSizes.none private def mapManager(m: TLSlaveParameters) = m.v1copy( supportsArithmetic = shrinkTransfer(m.supportsArithmetic), supportsLogical = shrinkTransfer(m.supportsLogical), supportsGet = expandTransfer(m.supportsGet, "Get"), supportsPutFull = expandTransfer(m.supportsPutFull, "PutFull"), supportsPutPartial = expandTransfer(m.supportsPutPartial, "PutParital"), supportsHint = expandTransfer(m.supportsHint, "Hint")) val node = new TLAdapterNode( // We require that all the responses are mutually FIFO // Thus we need to compact all of the masters into one big master clientFn = { c => (if (noChangeRequired) c else c.v2copy( masters = Seq(TLMasterParameters.v2( name = "TLFragmenter", sourceId = IdRange(0, if (minSize == maxSize) c.endSourceId else (c.endSourceId << addedBits)), requestFifo = true, emits = TLMasterToSlaveTransferSizes( acquireT = shrinkTransfer(c.masters.map(_.emits.acquireT) .reduce(_ mincover _)), acquireB = shrinkTransfer(c.masters.map(_.emits.acquireB) .reduce(_ mincover _)), arithmetic = shrinkTransfer(c.masters.map(_.emits.arithmetic).reduce(_ mincover _)), logical = shrinkTransfer(c.masters.map(_.emits.logical) .reduce(_ mincover _)), get = shrinkTransfer(c.masters.map(_.emits.get) .reduce(_ mincover _)), putFull = shrinkTransfer(c.masters.map(_.emits.putFull) .reduce(_ mincover _)), putPartial = shrinkTransfer(c.masters.map(_.emits.putPartial).reduce(_ mincover _)), hint = shrinkTransfer(c.masters.map(_.emits.hint) .reduce(_ mincover _)) ) )) ))}, managerFn = { m => if (noChangeRequired) m else m.v2copy(slaves = m.slaves.map(mapManager)) } ) { override def circuitIdentity = noChangeRequired } lazy val module = new Impl class Impl extends LazyModuleImp(this) { override def desiredName = (Seq("TLFragmenter") ++ nameSuffix).mkString("_") (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => if (noChangeRequired) { out <> in } else { // All managers must share a common FIFO domain (responses might end up interleaved) val manager = edgeOut.manager val managers = manager.managers val beatBytes = manager.beatBytes val fifoId = managers(0).fifoId require (fifoId.isDefined && managers.map(_.fifoId == fifoId).reduce(_ && _)) require (!manager.anySupportAcquireB || !edgeOut.client.anySupportProbe, s"TLFragmenter (with parent $parent) can't fragment a caching client's requests into a cacheable region") require (minSize >= beatBytes, s"TLFragmenter (with parent $parent) can't support fragmenting ($minSize) to sub-beat ($beatBytes) accesses") // We can't support devices which are cached on both sides of us require (!edgeOut.manager.anySupportAcquireB || !edgeIn.client.anySupportProbe) // We can't support denied because we reassemble fragments require (!edgeOut.manager.mayDenyGet || holdFirstDeny, s"TLFragmenter (with parent $parent) can't support denials without holdFirstDeny=true") require (!edgeOut.manager.mayDenyPut || earlyAck == EarlyAck.None) /* The Fragmenter is a bit tricky, because there are 5 sizes in play: * max size -- the maximum transfer size possible * orig size -- the original pre-fragmenter size * frag size -- the modified post-fragmenter size * min size -- the threshold below which frag=orig * beat size -- the amount transfered on any given beat * * The relationships are as follows: * max >= orig >= frag * max > min >= beat * It IS possible that orig <= min (then frag=orig; ie: no fragmentation) * * The fragment# (sent via TL.source) is measured in multiples of min size. * Meanwhile, to track the progress, counters measure in multiples of beat size. * * Here is an example of a bus with max=256, min=8, beat=4 and a device supporting 16. * * in.A out.A (frag#) out.D (frag#) in.D gen# ack# * get64 get16 6 ackD16 6 ackD64 12 15 * ackD16 6 ackD64 14 * ackD16 6 ackD64 13 * ackD16 6 ackD64 12 * get16 4 ackD16 4 ackD64 8 11 * ackD16 4 ackD64 10 * ackD16 4 ackD64 9 * ackD16 4 ackD64 8 * get16 2 ackD16 2 ackD64 4 7 * ackD16 2 ackD64 6 * ackD16 2 ackD64 5 * ackD16 2 ackD64 4 * get16 0 ackD16 0 ackD64 0 3 * ackD16 0 ackD64 2 * ackD16 0 ackD64 1 * ackD16 0 ackD64 0 * * get8 get8 0 ackD8 0 ackD8 0 1 * ackD8 0 ackD8 0 * * get4 get4 0 ackD4 0 ackD4 0 0 * get1 get1 0 ackD1 0 ackD1 0 0 * * put64 put16 6 15 * put64 put16 6 14 * put64 put16 6 13 * put64 put16 6 ack16 6 12 12 * put64 put16 4 11 * put64 put16 4 10 * put64 put16 4 9 * put64 put16 4 ack16 4 8 8 * put64 put16 2 7 * put64 put16 2 6 * put64 put16 2 5 * put64 put16 2 ack16 2 4 4 * put64 put16 0 3 * put64 put16 0 2 * put64 put16 0 1 * put64 put16 0 ack16 0 ack64 0 0 * * put8 put8 0 1 * put8 put8 0 ack8 0 ack8 0 0 * * put4 put4 0 ack4 0 ack4 0 0 * put1 put1 0 ack1 0 ack1 0 0 */ val counterBits = log2Up(maxSize/beatBytes) val maxDownSize = if (alwaysMin) minSize else min(manager.maxTransfer, maxSize) // Consider the following waveform for two 4-beat bursts: // ---A----A------------ // -------D-----DDD-DDDD // Under TL rules, the second A can use the same source as the first A, // because the source is released for reuse on the first response beat. // // However, if we fragment the requests, it looks like this: // ---3210-3210--------- // -------3-----210-3210 // ... now we've broken the rules because 210 are twice inflight. // // This phenomenon means we can have essentially 2*maxSize/minSize-1 // fragmented transactions in flight per original transaction source. // // To keep the source unique, we encode the beat counter in the low // bits of the source. To solve the overlap, we use a toggle bit. // Whatever toggle bit the D is reassembling, A will use the opposite. // First, handle the return path val acknum = RegInit(0.U(counterBits.W)) val dOrig = Reg(UInt()) val dToggle = RegInit(false.B) val dFragnum = out.d.bits.source(fragmentBits-1, 0) val dFirst = acknum === 0.U val dLast = dFragnum === 0.U // only for AccessAck (!Data) val dsizeOH = UIntToOH (out.d.bits.size, log2Ceil(maxDownSize)+1) val dsizeOH1 = UIntToOH1(out.d.bits.size, log2Up(maxDownSize)) val dHasData = edgeOut.hasData(out.d.bits) // calculate new acknum val acknum_fragment = dFragnum << log2Ceil(minSize/beatBytes) val acknum_size = dsizeOH1 >> log2Ceil(beatBytes) assert (!out.d.valid || (acknum_fragment & acknum_size) === 0.U) val dFirst_acknum = acknum_fragment | Mux(dHasData, acknum_size, 0.U) val ack_decrement = Mux(dHasData, 1.U, dsizeOH >> log2Ceil(beatBytes)) // calculate the original size val dFirst_size = OH1ToUInt((dFragnum << log2Ceil(minSize)) | dsizeOH1) when (out.d.fire) { acknum := Mux(dFirst, dFirst_acknum, acknum - ack_decrement) when (dFirst) { dOrig := dFirst_size dToggle := out.d.bits.source(fragmentBits) } } // Swallow up non-data ack fragments val doEarlyAck = earlyAck match { case EarlyAck.AllPuts => true.B case EarlyAck.PutFulls => out.d.bits.source(fragmentBits+1) case EarlyAck.None => false.B } val drop = !dHasData && !Mux(doEarlyAck, dFirst, dLast) out.d.ready := in.d.ready || drop in.d.valid := out.d.valid && !drop in.d.bits := out.d.bits // pass most stuff unchanged in.d.bits.source := out.d.bits.source >> addedBits in.d.bits.size := Mux(dFirst, dFirst_size, dOrig) if (edgeOut.manager.mayDenyPut) { val r_denied = Reg(Bool()) val d_denied = (!dFirst && r_denied) || out.d.bits.denied when (out.d.fire) { r_denied := d_denied } in.d.bits.denied := d_denied } if (edgeOut.manager.mayDenyGet) { // Take denied only from the first beat and hold that value val d_denied = out.d.bits.denied holdUnless dFirst when (dHasData) { in.d.bits.denied := d_denied in.d.bits.corrupt := d_denied || out.d.bits.corrupt } } // What maximum transfer sizes do downstream devices support? val maxArithmetics = managers.map(_.supportsArithmetic.max) val maxLogicals = managers.map(_.supportsLogical.max) val maxGets = managers.map(_.supportsGet.max) val maxPutFulls = managers.map(_.supportsPutFull.max) val maxPutPartials = managers.map(_.supportsPutPartial.max) val maxHints = managers.map(m => if (m.supportsHint) maxDownSize else 0) // We assume that the request is valid => size 0 is impossible val lgMinSize = log2Ceil(minSize).U val maxLgArithmetics = maxArithmetics.map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgLogicals = maxLogicals .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgGets = maxGets .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgPutFulls = maxPutFulls .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgPutPartials = maxPutPartials.map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgHints = maxHints .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) // Make the request repeatable val repeater = Module(new Repeater(in.a.bits)) repeater.io.enq <> in.a val in_a = repeater.io.deq // If this is infront of a single manager, these become constants val find = manager.findFast(edgeIn.address(in_a.bits)) val maxLgArithmetic = Mux1H(find, maxLgArithmetics) val maxLgLogical = Mux1H(find, maxLgLogicals) val maxLgGet = Mux1H(find, maxLgGets) val maxLgPutFull = Mux1H(find, maxLgPutFulls) val maxLgPutPartial = Mux1H(find, maxLgPutPartials) val maxLgHint = Mux1H(find, maxLgHints) val limit = if (alwaysMin) lgMinSize else MuxLookup(in_a.bits.opcode, lgMinSize)(Array( TLMessages.PutFullData -> maxLgPutFull, TLMessages.PutPartialData -> maxLgPutPartial, TLMessages.ArithmeticData -> maxLgArithmetic, TLMessages.LogicalData -> maxLgLogical, TLMessages.Get -> maxLgGet, TLMessages.Hint -> maxLgHint)) val aOrig = in_a.bits.size val aFrag = Mux(aOrig > limit, limit, aOrig) val aOrigOH1 = UIntToOH1(aOrig, log2Ceil(maxSize)) val aFragOH1 = UIntToOH1(aFrag, log2Up(maxDownSize)) val aHasData = edgeIn.hasData(in_a.bits) val aMask = Mux(aHasData, 0.U, aFragOH1) val gennum = RegInit(0.U(counterBits.W)) val aFirst = gennum === 0.U val old_gennum1 = Mux(aFirst, aOrigOH1 >> log2Ceil(beatBytes), gennum - 1.U) val new_gennum = ~(~old_gennum1 | (aMask >> log2Ceil(beatBytes))) // ~(~x|y) is width safe val aFragnum = ~(~(old_gennum1 >> log2Ceil(minSize/beatBytes)) | (aFragOH1 >> log2Ceil(minSize))) val aLast = aFragnum === 0.U val aToggle = !Mux(aFirst, dToggle, RegEnable(dToggle, aFirst)) val aFull = if (earlyAck == EarlyAck.PutFulls) Some(in_a.bits.opcode === TLMessages.PutFullData) else None when (out.a.fire) { gennum := new_gennum } repeater.io.repeat := !aHasData && aFragnum =/= 0.U out.a <> in_a out.a.bits.address := in_a.bits.address | ~(old_gennum1 << log2Ceil(beatBytes) | ~aOrigOH1 | aFragOH1 | (minSize-1).U) out.a.bits.source := Cat(Seq(in_a.bits.source) ++ aFull ++ Seq(aToggle.asUInt, aFragnum)) out.a.bits.size := aFrag // Optimize away some of the Repeater's registers assert (!repeater.io.full || !aHasData) out.a.bits.data := in.a.bits.data val fullMask = ((BigInt(1) << beatBytes) - 1).U assert (!repeater.io.full || in_a.bits.mask === fullMask) out.a.bits.mask := Mux(repeater.io.full, fullMask, in.a.bits.mask) out.a.bits.user.waiveAll :<= in.a.bits.user.subset(_.isData) // Tie off unused channels in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } } } } object TLFragmenter { def apply(minSize: Int, maxSize: Int, alwaysMin: Boolean = false, earlyAck: EarlyAck.T = EarlyAck.None, holdFirstDeny: Boolean = false, nameSuffix: Option[String] = None)(implicit p: Parameters): TLNode = { if (minSize <= maxSize) { val fragmenter = LazyModule(new TLFragmenter(minSize, maxSize, alwaysMin, earlyAck, holdFirstDeny, nameSuffix)) fragmenter.node } else { TLEphemeralNode()(ValName("no_fragmenter")) } } def apply(wrapper: TLBusWrapper, nameSuffix: Option[String])(implicit p: Parameters): TLNode = apply(wrapper.beatBytes, wrapper.blockBytes, nameSuffix = nameSuffix) def apply(wrapper: TLBusWrapper)(implicit p: Parameters): TLNode = apply(wrapper, None) } // Synthesizable unit tests import freechips.rocketchip.unittest._ class TLRAMFragmenter(ramBeatBytes: Int, maxSize: Int, txns: Int)(implicit p: Parameters) extends LazyModule { val fuzz = LazyModule(new TLFuzzer(txns)) val model = LazyModule(new TLRAMModel("Fragmenter")) val ram = LazyModule(new TLRAM(AddressSet(0x0, 0x3ff), beatBytes = ramBeatBytes)) (ram.node := TLDelayer(0.1) := TLBuffer(BufferParams.flow) := TLDelayer(0.1) := TLFragmenter(ramBeatBytes, maxSize, earlyAck = EarlyAck.AllPuts) := TLDelayer(0.1) := TLBuffer(BufferParams.flow) := TLFragmenter(ramBeatBytes, maxSize/2) := TLDelayer(0.1) := TLBuffer(BufferParams.flow) := model.node := fuzz.node) lazy val module = new Impl class Impl extends LazyModuleImp(this) with UnitTestModule { io.finished := fuzz.module.io.finished } } class TLRAMFragmenterTest(ramBeatBytes: Int, maxSize: Int, txns: Int = 5000, timeout: Int = 500000)(implicit p: Parameters) extends UnitTest(timeout) { val dut = Module(LazyModule(new TLRAMFragmenter(ramBeatBytes,maxSize,txns)).module) io.finished := dut.io.finished dut.io.start := io.start } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Nodes.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.util.{AsyncQueueParams,RationalDirection} case object TLMonitorBuilder extends Field[TLMonitorArgs => TLMonitorBase](args => new TLMonitor(args)) object TLImp extends NodeImp[TLMasterPortParameters, TLSlavePortParameters, TLEdgeOut, TLEdgeIn, TLBundle] { def edgeO(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeOut(pd, pu, p, sourceInfo) def edgeI(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeIn (pd, pu, p, sourceInfo) def bundleO(eo: TLEdgeOut) = TLBundle(eo.bundle) def bundleI(ei: TLEdgeIn) = TLBundle(ei.bundle) def render(ei: TLEdgeIn) = RenderedEdge(colour = "#000000" /* black */, label = (ei.manager.beatBytes * 8).toString) override def monitor(bundle: TLBundle, edge: TLEdgeIn): Unit = { val monitor = Module(edge.params(TLMonitorBuilder)(TLMonitorArgs(edge))) monitor.io.in := bundle } override def mixO(pd: TLMasterPortParameters, node: OutwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLMasterPortParameters = pd.v1copy(clients = pd.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) }) override def mixI(pu: TLSlavePortParameters, node: InwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLSlavePortParameters = pu.v1copy(managers = pu.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) }) } trait TLFormatNode extends FormatNode[TLEdgeIn, TLEdgeOut] case class TLClientNode(portParams: Seq[TLMasterPortParameters])(implicit valName: ValName) extends SourceNode(TLImp)(portParams) with TLFormatNode case class TLManagerNode(portParams: Seq[TLSlavePortParameters])(implicit valName: ValName) extends SinkNode(TLImp)(portParams) with TLFormatNode case class TLAdapterNode( clientFn: TLMasterPortParameters => TLMasterPortParameters = { s => s }, managerFn: TLSlavePortParameters => TLSlavePortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLJunctionNode( clientFn: Seq[TLMasterPortParameters] => Seq[TLMasterPortParameters], managerFn: Seq[TLSlavePortParameters] => Seq[TLSlavePortParameters])( implicit valName: ValName) extends JunctionNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLIdentityNode()(implicit valName: ValName) extends IdentityNode(TLImp)() with TLFormatNode object TLNameNode { def apply(name: ValName) = TLIdentityNode()(name) def apply(name: Option[String]): TLIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLIdentityNode = apply(Some(name)) } case class TLEphemeralNode()(implicit valName: ValName) extends EphemeralNode(TLImp)() object TLTempNode { def apply(): TLEphemeralNode = TLEphemeralNode()(ValName("temp")) } case class TLNexusNode( clientFn: Seq[TLMasterPortParameters] => TLMasterPortParameters, managerFn: Seq[TLSlavePortParameters] => TLSlavePortParameters)( implicit valName: ValName) extends NexusNode(TLImp)(clientFn, managerFn) with TLFormatNode abstract class TLCustomNode(implicit valName: ValName) extends CustomNode(TLImp) with TLFormatNode // Asynchronous crossings trait TLAsyncFormatNode extends FormatNode[TLAsyncEdgeParameters, TLAsyncEdgeParameters] object TLAsyncImp extends SimpleNodeImp[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncEdgeParameters, TLAsyncBundle] { def edge(pd: TLAsyncClientPortParameters, pu: TLAsyncManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLAsyncEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLAsyncEdgeParameters) = new TLAsyncBundle(e.bundle) def render(e: TLAsyncEdgeParameters) = RenderedEdge(colour = "#ff0000" /* red */, label = e.manager.async.depth.toString) override def mixO(pd: TLAsyncClientPortParameters, node: OutwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLAsyncManagerPortParameters, node: InwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLAsyncAdapterNode( clientFn: TLAsyncClientPortParameters => TLAsyncClientPortParameters = { s => s }, managerFn: TLAsyncManagerPortParameters => TLAsyncManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLAsyncImp)(clientFn, managerFn) with TLAsyncFormatNode case class TLAsyncIdentityNode()(implicit valName: ValName) extends IdentityNode(TLAsyncImp)() with TLAsyncFormatNode object TLAsyncNameNode { def apply(name: ValName) = TLAsyncIdentityNode()(name) def apply(name: Option[String]): TLAsyncIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLAsyncIdentityNode = apply(Some(name)) } case class TLAsyncSourceNode(sync: Option[Int])(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLAsyncImp)( dFn = { p => TLAsyncClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = p.base.minLatency + sync.getOrElse(p.async.sync)) }) with FormatNode[TLEdgeIn, TLAsyncEdgeParameters] // discard cycles in other clock domain case class TLAsyncSinkNode(async: AsyncQueueParams)(implicit valName: ValName) extends MixedAdapterNode(TLAsyncImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = p.base.minLatency + async.sync) }, uFn = { p => TLAsyncManagerPortParameters(async, p) }) with FormatNode[TLAsyncEdgeParameters, TLEdgeOut] // Rationally related crossings trait TLRationalFormatNode extends FormatNode[TLRationalEdgeParameters, TLRationalEdgeParameters] object TLRationalImp extends SimpleNodeImp[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalEdgeParameters, TLRationalBundle] { def edge(pd: TLRationalClientPortParameters, pu: TLRationalManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLRationalEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLRationalEdgeParameters) = new TLRationalBundle(e.bundle) def render(e: TLRationalEdgeParameters) = RenderedEdge(colour = "#00ff00" /* green */) override def mixO(pd: TLRationalClientPortParameters, node: OutwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLRationalManagerPortParameters, node: InwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLRationalAdapterNode( clientFn: TLRationalClientPortParameters => TLRationalClientPortParameters = { s => s }, managerFn: TLRationalManagerPortParameters => TLRationalManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLRationalImp)(clientFn, managerFn) with TLRationalFormatNode case class TLRationalIdentityNode()(implicit valName: ValName) extends IdentityNode(TLRationalImp)() with TLRationalFormatNode object TLRationalNameNode { def apply(name: ValName) = TLRationalIdentityNode()(name) def apply(name: Option[String]): TLRationalIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLRationalIdentityNode = apply(Some(name)) } case class TLRationalSourceNode()(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLRationalImp)( dFn = { p => TLRationalClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLRationalEdgeParameters] // discard cycles from other clock domain case class TLRationalSinkNode(direction: RationalDirection)(implicit valName: ValName) extends MixedAdapterNode(TLRationalImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLRationalManagerPortParameters(direction, p) }) with FormatNode[TLRationalEdgeParameters, TLEdgeOut] // Credited version of TileLink channels trait TLCreditedFormatNode extends FormatNode[TLCreditedEdgeParameters, TLCreditedEdgeParameters] object TLCreditedImp extends SimpleNodeImp[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedEdgeParameters, TLCreditedBundle] { def edge(pd: TLCreditedClientPortParameters, pu: TLCreditedManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLCreditedEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLCreditedEdgeParameters) = new TLCreditedBundle(e.bundle) def render(e: TLCreditedEdgeParameters) = RenderedEdge(colour = "#ffff00" /* yellow */, e.delay.toString) override def mixO(pd: TLCreditedClientPortParameters, node: OutwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLCreditedManagerPortParameters, node: InwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLCreditedAdapterNode( clientFn: TLCreditedClientPortParameters => TLCreditedClientPortParameters = { s => s }, managerFn: TLCreditedManagerPortParameters => TLCreditedManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLCreditedImp)(clientFn, managerFn) with TLCreditedFormatNode case class TLCreditedIdentityNode()(implicit valName: ValName) extends IdentityNode(TLCreditedImp)() with TLCreditedFormatNode object TLCreditedNameNode { def apply(name: ValName) = TLCreditedIdentityNode()(name) def apply(name: Option[String]): TLCreditedIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLCreditedIdentityNode = apply(Some(name)) } case class TLCreditedSourceNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLCreditedImp)( dFn = { p => TLCreditedClientPortParameters(delay, p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLCreditedEdgeParameters] // discard cycles from other clock domain case class TLCreditedSinkNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLCreditedImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLCreditedManagerPortParameters(delay, p) }) with FormatNode[TLCreditedEdgeParameters, TLEdgeOut] File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } }
module TLFragmenter_TileResetSetter( // @[Fragmenter.scala:92:9] input clock, // @[Fragmenter.scala:92:9] input reset, // @[Fragmenter.scala:92:9] output auto_anon_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_anon_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input [9:0] auto_anon_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [20:0] auto_anon_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_anon_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input auto_anon_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_anon_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_anon_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output [9:0] auto_anon_in_d_bits_source, // @[LazyModuleImp.scala:107:25] input auto_anon_out_a_ready, // @[LazyModuleImp.scala:107:25] output auto_anon_out_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_out_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_out_a_bits_param, // @[LazyModuleImp.scala:107:25] output [1:0] auto_anon_out_a_bits_size, // @[LazyModuleImp.scala:107:25] output [13:0] auto_anon_out_a_bits_source, // @[LazyModuleImp.scala:107:25] output [20:0] auto_anon_out_a_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_anon_out_a_bits_mask, // @[LazyModuleImp.scala:107:25] output auto_anon_out_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_anon_out_d_ready, // @[LazyModuleImp.scala:107:25] input auto_anon_out_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_out_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_anon_out_d_bits_size, // @[LazyModuleImp.scala:107:25] input [13:0] auto_anon_out_d_bits_source // @[LazyModuleImp.scala:107:25] ); wire _repeater_io_full; // @[Fragmenter.scala:274:30] wire _repeater_io_enq_ready; // @[Fragmenter.scala:274:30] wire _repeater_io_deq_valid; // @[Fragmenter.scala:274:30] wire [2:0] _repeater_io_deq_bits_opcode; // @[Fragmenter.scala:274:30] wire [2:0] _repeater_io_deq_bits_size; // @[Fragmenter.scala:274:30] wire [9:0] _repeater_io_deq_bits_source; // @[Fragmenter.scala:274:30] wire [20:0] _repeater_io_deq_bits_address; // @[Fragmenter.scala:274:30] wire [7:0] _repeater_io_deq_bits_mask; // @[Fragmenter.scala:274:30] reg [2:0] acknum; // @[Fragmenter.scala:201:29] reg [2:0] dOrig; // @[Fragmenter.scala:202:24] reg dToggle; // @[Fragmenter.scala:203:30] wire dFirst = acknum == 3'h0; // @[Fragmenter.scala:201:29, :205:29] wire [5:0] _dsizeOH1_T = 6'h7 << auto_anon_out_d_bits_size; // @[package.scala:243:71] wire [2:0] _GEN = ~(auto_anon_out_d_bits_source[2:0]); // @[package.scala:241:49] wire [2:0] dFirst_size_hi = auto_anon_out_d_bits_source[2:0] & {1'h1, _GEN[2:1]}; // @[OneHot.scala:30:18] wire [2:0] _dFirst_size_T_8 = {1'h0, dFirst_size_hi[2:1]} | ~(_dsizeOH1_T[2:0]) & {_GEN[0], _dsizeOH1_T[2:1]}; // @[OneHot.scala:30:18, :31:18, :32:28] wire [2:0] dFirst_size = {|dFirst_size_hi, |(_dFirst_size_T_8[2:1]), _dFirst_size_T_8[2] | _dFirst_size_T_8[0]}; // @[OneHot.scala:30:18, :31:18, :32:{10,14,28}] wire drop = ~(auto_anon_out_d_bits_opcode[0]) & (|(auto_anon_out_d_bits_source[2:0])); // @[Fragmenter.scala:204:41, :206:30, :234:{20,30}] wire anonOut_d_ready = auto_anon_in_d_ready | drop; // @[Fragmenter.scala:234:30, :235:35] wire anonIn_d_valid = auto_anon_out_d_valid & ~drop; // @[Fragmenter.scala:234:30, :236:{36,39}] wire [2:0] anonIn_d_bits_size = dFirst ? dFirst_size : dOrig; // @[OneHot.scala:32:10] wire [12:0] _aOrigOH1_T = 13'h3F << _repeater_io_deq_bits_size; // @[package.scala:243:71] reg [2:0] gennum; // @[Fragmenter.scala:303:29] wire aFirst = gennum == 3'h0; // @[Fragmenter.scala:303:29, :304:29] wire [2:0] aFragnum = aFirst ? ~(_aOrigOH1_T[5:3]) : gennum - 3'h1; // @[package.scala:243:{46,71,76}] reg aToggle_r; // @[Fragmenter.scala:309:54]
Generate the Verilog code corresponding to the following Chisel files. File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File PMP.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.rocket import chisel3._ import chisel3.util.{Cat, log2Ceil} import org.chipsalliance.cde.config._ import freechips.rocketchip.tile._ import freechips.rocketchip.util._ class PMPConfig extends Bundle { val l = Bool() val res = UInt(2.W) val a = UInt(2.W) val x = Bool() val w = Bool() val r = Bool() } object PMP { def lgAlign = 2 def apply(reg: PMPReg): PMP = { val pmp = Wire(new PMP()(reg.p)) pmp.cfg := reg.cfg pmp.addr := reg.addr pmp.mask := pmp.computeMask pmp } } class PMPReg(implicit p: Parameters) extends CoreBundle()(p) { val cfg = new PMPConfig val addr = UInt((paddrBits - PMP.lgAlign).W) def reset(): Unit = { cfg.a := 0.U cfg.l := 0.U } def readAddr = if (pmpGranularity.log2 == PMP.lgAlign) addr else { val mask = ((BigInt(1) << (pmpGranularity.log2 - PMP.lgAlign)) - 1).U Mux(napot, addr | (mask >> 1), ~(~addr | mask)) } def napot = cfg.a(1) def torNotNAPOT = cfg.a(0) def tor = !napot && torNotNAPOT def cfgLocked = cfg.l def addrLocked(next: PMPReg) = cfgLocked || next.cfgLocked && next.tor } class PMP(implicit p: Parameters) extends PMPReg { val mask = UInt(paddrBits.W) import PMP._ def computeMask = { val base = Cat(addr, cfg.a(0)) | ((pmpGranularity - 1).U >> lgAlign) Cat(base & ~(base + 1.U), ((1 << lgAlign) - 1).U) } private def comparand = ~(~(addr << lgAlign) | (pmpGranularity - 1).U) private def pow2Match(x: UInt, lgSize: UInt, lgMaxSize: Int) = { def eval(a: UInt, b: UInt, m: UInt) = ((a ^ b) & ~m) === 0.U if (lgMaxSize <= pmpGranularity.log2) { eval(x, comparand, mask) } else { // break up the circuit; the MSB part will be CSE'd val lsbMask = mask | UIntToOH1(lgSize, lgMaxSize) val msbMatch = eval(x >> lgMaxSize, comparand >> lgMaxSize, mask >> lgMaxSize) val lsbMatch = eval(x(lgMaxSize-1, 0), comparand(lgMaxSize-1, 0), lsbMask(lgMaxSize-1, 0)) msbMatch && lsbMatch } } private def boundMatch(x: UInt, lsbMask: UInt, lgMaxSize: Int) = { if (lgMaxSize <= pmpGranularity.log2) { x < comparand } else { // break up the circuit; the MSB part will be CSE'd val msbsLess = (x >> lgMaxSize) < (comparand >> lgMaxSize) val msbsEqual = ((x >> lgMaxSize) ^ (comparand >> lgMaxSize)) === 0.U val lsbsLess = (x(lgMaxSize-1, 0) | lsbMask) < comparand(lgMaxSize-1, 0) msbsLess || (msbsEqual && lsbsLess) } } private def lowerBoundMatch(x: UInt, lgSize: UInt, lgMaxSize: Int) = !boundMatch(x, UIntToOH1(lgSize, lgMaxSize), lgMaxSize) private def upperBoundMatch(x: UInt, lgMaxSize: Int) = boundMatch(x, 0.U, lgMaxSize) private def rangeMatch(x: UInt, lgSize: UInt, lgMaxSize: Int, prev: PMP) = prev.lowerBoundMatch(x, lgSize, lgMaxSize) && upperBoundMatch(x, lgMaxSize) private def pow2Homogeneous(x: UInt, pgLevel: UInt) = { val maskHomogeneous = pgLevelMap { idxBits => if (idxBits > paddrBits) false.B else mask(idxBits - 1) } (pgLevel) maskHomogeneous || (pgLevelMap { idxBits => ((x ^ comparand) >> idxBits) =/= 0.U } (pgLevel)) } private def pgLevelMap[T](f: Int => T) = (0 until pgLevels).map { i => f(pgIdxBits + (pgLevels - 1 - i) * pgLevelBits) } private def rangeHomogeneous(x: UInt, pgLevel: UInt, prev: PMP) = { val beginsAfterLower = !(x < prev.comparand) val beginsAfterUpper = !(x < comparand) val pgMask = pgLevelMap { idxBits => (((BigInt(1) << paddrBits) - (BigInt(1) << idxBits)) max 0).U } (pgLevel) val endsBeforeLower = (x & pgMask) < (prev.comparand & pgMask) val endsBeforeUpper = (x & pgMask) < (comparand & pgMask) endsBeforeLower || beginsAfterUpper || (beginsAfterLower && endsBeforeUpper) } // returns whether this PMP completely contains, or contains none of, a page def homogeneous(x: UInt, pgLevel: UInt, prev: PMP): Bool = Mux(napot, pow2Homogeneous(x, pgLevel), !torNotNAPOT || rangeHomogeneous(x, pgLevel, prev)) // returns whether this matching PMP fully contains the access def aligned(x: UInt, lgSize: UInt, lgMaxSize: Int, prev: PMP): Bool = if (lgMaxSize <= pmpGranularity.log2) true.B else { val lsbMask = UIntToOH1(lgSize, lgMaxSize) val straddlesLowerBound = ((x >> lgMaxSize) ^ (prev.comparand >> lgMaxSize)) === 0.U && (prev.comparand(lgMaxSize-1, 0) & ~x(lgMaxSize-1, 0)) =/= 0.U val straddlesUpperBound = ((x >> lgMaxSize) ^ (comparand >> lgMaxSize)) === 0.U && (comparand(lgMaxSize-1, 0) & (x(lgMaxSize-1, 0) | lsbMask)) =/= 0.U val rangeAligned = !(straddlesLowerBound || straddlesUpperBound) val pow2Aligned = (lsbMask & ~mask(lgMaxSize-1, 0)) === 0.U Mux(napot, pow2Aligned, rangeAligned) } // returns whether this PMP matches at least one byte of the access def hit(x: UInt, lgSize: UInt, lgMaxSize: Int, prev: PMP): Bool = Mux(napot, pow2Match(x, lgSize, lgMaxSize), torNotNAPOT && rangeMatch(x, lgSize, lgMaxSize, prev)) } class PMPHomogeneityChecker(pmps: Seq[PMP])(implicit p: Parameters) { def apply(addr: UInt, pgLevel: UInt): Bool = { pmps.foldLeft((true.B, 0.U.asTypeOf(new PMP))) { case ((h, prev), pmp) => (h && pmp.homogeneous(addr, pgLevel, prev), pmp) }._1 } } class PMPChecker(lgMaxSize: Int)(implicit val p: Parameters) extends Module with HasCoreParameters { override def desiredName = s"PMPChecker_s${lgMaxSize}" val io = IO(new Bundle { val prv = Input(UInt(PRV.SZ.W)) val pmp = Input(Vec(nPMPs, new PMP)) val addr = Input(UInt(paddrBits.W)) val size = Input(UInt(log2Ceil(lgMaxSize + 1).W)) val r = Output(Bool()) val w = Output(Bool()) val x = Output(Bool()) }) val default = if (io.pmp.isEmpty) true.B else io.prv > PRV.S.U val pmp0 = WireInit(0.U.asTypeOf(new PMP)) pmp0.cfg.r := default pmp0.cfg.w := default pmp0.cfg.x := default val res = (io.pmp zip (pmp0 +: io.pmp)).reverse.foldLeft(pmp0) { case (prev, (pmp, prevPMP)) => val hit = pmp.hit(io.addr, io.size, lgMaxSize, prevPMP) val ignore = default && !pmp.cfg.l val aligned = pmp.aligned(io.addr, io.size, lgMaxSize, prevPMP) for ((name, idx) <- Seq("no", "TOR", if (pmpGranularity <= 4) "NA4" else "", "NAPOT").zipWithIndex; if name.nonEmpty) property.cover(pmp.cfg.a === idx.U, s"The cfg access is set to ${name} access ", "Cover PMP access mode setting") property.cover(pmp.cfg.l === 0x1.U, s"The cfg lock is set to high ", "Cover PMP lock mode setting") // Not including Write and no Read permission as the combination is reserved for ((name, idx) <- Seq("no", "RO", "", "RW", "X", "RX", "", "RWX").zipWithIndex; if name.nonEmpty) property.cover((Cat(pmp.cfg.x, pmp.cfg.w, pmp.cfg.r) === idx.U), s"The permission is set to ${name} access ", "Cover PMP access permission setting") for ((name, idx) <- Seq("", "TOR", if (pmpGranularity <= 4) "NA4" else "", "NAPOT").zipWithIndex; if name.nonEmpty) { property.cover(!ignore && hit && aligned && pmp.cfg.a === idx.U, s"The access matches ${name} mode ", "Cover PMP access") property.cover(pmp.cfg.l && hit && aligned && pmp.cfg.a === idx.U, s"The access matches ${name} mode with lock bit high", "Cover PMP access with lock bit") } val cur = WireInit(pmp) cur.cfg.r := aligned && (pmp.cfg.r || ignore) cur.cfg.w := aligned && (pmp.cfg.w || ignore) cur.cfg.x := aligned && (pmp.cfg.x || ignore) Mux(hit, cur, prev) } io.r := res.cfg.r io.w := res.cfg.w io.x := res.cfg.x }
module PMPChecker_s3( // @[PMP.scala:143:7] input clock, // @[PMP.scala:143:7] input reset, // @[PMP.scala:143:7] input [1:0] io_prv, // @[PMP.scala:146:14] input io_pmp_0_cfg_l, // @[PMP.scala:146:14] input [1:0] io_pmp_0_cfg_a, // @[PMP.scala:146:14] input io_pmp_0_cfg_x, // @[PMP.scala:146:14] input io_pmp_0_cfg_w, // @[PMP.scala:146:14] input io_pmp_0_cfg_r, // @[PMP.scala:146:14] input [29:0] io_pmp_0_addr, // @[PMP.scala:146:14] input [31:0] io_pmp_0_mask, // @[PMP.scala:146:14] input io_pmp_1_cfg_l, // @[PMP.scala:146:14] input [1:0] io_pmp_1_cfg_a, // @[PMP.scala:146:14] input io_pmp_1_cfg_x, // @[PMP.scala:146:14] input io_pmp_1_cfg_w, // @[PMP.scala:146:14] input io_pmp_1_cfg_r, // @[PMP.scala:146:14] input [29:0] io_pmp_1_addr, // @[PMP.scala:146:14] input [31:0] io_pmp_1_mask, // @[PMP.scala:146:14] input io_pmp_2_cfg_l, // @[PMP.scala:146:14] input [1:0] io_pmp_2_cfg_a, // @[PMP.scala:146:14] input io_pmp_2_cfg_x, // @[PMP.scala:146:14] input io_pmp_2_cfg_w, // @[PMP.scala:146:14] input io_pmp_2_cfg_r, // @[PMP.scala:146:14] input [29:0] io_pmp_2_addr, // @[PMP.scala:146:14] input [31:0] io_pmp_2_mask, // @[PMP.scala:146:14] input io_pmp_3_cfg_l, // @[PMP.scala:146:14] input [1:0] io_pmp_3_cfg_a, // @[PMP.scala:146:14] input io_pmp_3_cfg_x, // @[PMP.scala:146:14] input io_pmp_3_cfg_w, // @[PMP.scala:146:14] input io_pmp_3_cfg_r, // @[PMP.scala:146:14] input [29:0] io_pmp_3_addr, // @[PMP.scala:146:14] input [31:0] io_pmp_3_mask, // @[PMP.scala:146:14] input io_pmp_4_cfg_l, // @[PMP.scala:146:14] input [1:0] io_pmp_4_cfg_a, // @[PMP.scala:146:14] input io_pmp_4_cfg_x, // @[PMP.scala:146:14] input io_pmp_4_cfg_w, // @[PMP.scala:146:14] input io_pmp_4_cfg_r, // @[PMP.scala:146:14] input [29:0] io_pmp_4_addr, // @[PMP.scala:146:14] input [31:0] io_pmp_4_mask, // @[PMP.scala:146:14] input io_pmp_5_cfg_l, // @[PMP.scala:146:14] input [1:0] io_pmp_5_cfg_a, // @[PMP.scala:146:14] input io_pmp_5_cfg_x, // @[PMP.scala:146:14] input io_pmp_5_cfg_w, // @[PMP.scala:146:14] input io_pmp_5_cfg_r, // @[PMP.scala:146:14] input [29:0] io_pmp_5_addr, // @[PMP.scala:146:14] input [31:0] io_pmp_5_mask, // @[PMP.scala:146:14] input io_pmp_6_cfg_l, // @[PMP.scala:146:14] input [1:0] io_pmp_6_cfg_a, // @[PMP.scala:146:14] input io_pmp_6_cfg_x, // @[PMP.scala:146:14] input io_pmp_6_cfg_w, // @[PMP.scala:146:14] input io_pmp_6_cfg_r, // @[PMP.scala:146:14] input [29:0] io_pmp_6_addr, // @[PMP.scala:146:14] input [31:0] io_pmp_6_mask, // @[PMP.scala:146:14] input io_pmp_7_cfg_l, // @[PMP.scala:146:14] input [1:0] io_pmp_7_cfg_a, // @[PMP.scala:146:14] input io_pmp_7_cfg_x, // @[PMP.scala:146:14] input io_pmp_7_cfg_w, // @[PMP.scala:146:14] input io_pmp_7_cfg_r, // @[PMP.scala:146:14] input [29:0] io_pmp_7_addr, // @[PMP.scala:146:14] input [31:0] io_pmp_7_mask, // @[PMP.scala:146:14] input [31:0] io_addr, // @[PMP.scala:146:14] output io_r, // @[PMP.scala:146:14] output io_w, // @[PMP.scala:146:14] output io_x // @[PMP.scala:146:14] ); wire [1:0] io_prv_0 = io_prv; // @[PMP.scala:143:7] wire io_pmp_0_cfg_l_0 = io_pmp_0_cfg_l; // @[PMP.scala:143:7] wire [1:0] io_pmp_0_cfg_a_0 = io_pmp_0_cfg_a; // @[PMP.scala:143:7] wire io_pmp_0_cfg_x_0 = io_pmp_0_cfg_x; // @[PMP.scala:143:7] wire io_pmp_0_cfg_w_0 = io_pmp_0_cfg_w; // @[PMP.scala:143:7] wire io_pmp_0_cfg_r_0 = io_pmp_0_cfg_r; // @[PMP.scala:143:7] wire [29:0] io_pmp_0_addr_0 = io_pmp_0_addr; // @[PMP.scala:143:7] wire [31:0] io_pmp_0_mask_0 = io_pmp_0_mask; // @[PMP.scala:143:7] wire io_pmp_1_cfg_l_0 = io_pmp_1_cfg_l; // @[PMP.scala:143:7] wire [1:0] io_pmp_1_cfg_a_0 = io_pmp_1_cfg_a; // @[PMP.scala:143:7] wire io_pmp_1_cfg_x_0 = io_pmp_1_cfg_x; // @[PMP.scala:143:7] wire io_pmp_1_cfg_w_0 = io_pmp_1_cfg_w; // @[PMP.scala:143:7] wire io_pmp_1_cfg_r_0 = io_pmp_1_cfg_r; // @[PMP.scala:143:7] wire [29:0] io_pmp_1_addr_0 = io_pmp_1_addr; // @[PMP.scala:143:7] wire [31:0] io_pmp_1_mask_0 = io_pmp_1_mask; // @[PMP.scala:143:7] wire io_pmp_2_cfg_l_0 = io_pmp_2_cfg_l; // @[PMP.scala:143:7] wire [1:0] io_pmp_2_cfg_a_0 = io_pmp_2_cfg_a; // @[PMP.scala:143:7] wire io_pmp_2_cfg_x_0 = io_pmp_2_cfg_x; // @[PMP.scala:143:7] wire io_pmp_2_cfg_w_0 = io_pmp_2_cfg_w; // @[PMP.scala:143:7] wire io_pmp_2_cfg_r_0 = io_pmp_2_cfg_r; // @[PMP.scala:143:7] wire [29:0] io_pmp_2_addr_0 = io_pmp_2_addr; // @[PMP.scala:143:7] wire [31:0] io_pmp_2_mask_0 = io_pmp_2_mask; // @[PMP.scala:143:7] wire io_pmp_3_cfg_l_0 = io_pmp_3_cfg_l; // @[PMP.scala:143:7] wire [1:0] io_pmp_3_cfg_a_0 = io_pmp_3_cfg_a; // @[PMP.scala:143:7] wire io_pmp_3_cfg_x_0 = io_pmp_3_cfg_x; // @[PMP.scala:143:7] wire io_pmp_3_cfg_w_0 = io_pmp_3_cfg_w; // @[PMP.scala:143:7] wire io_pmp_3_cfg_r_0 = io_pmp_3_cfg_r; // @[PMP.scala:143:7] wire [29:0] io_pmp_3_addr_0 = io_pmp_3_addr; // @[PMP.scala:143:7] wire [31:0] io_pmp_3_mask_0 = io_pmp_3_mask; // @[PMP.scala:143:7] wire io_pmp_4_cfg_l_0 = io_pmp_4_cfg_l; // @[PMP.scala:143:7] wire [1:0] io_pmp_4_cfg_a_0 = io_pmp_4_cfg_a; // @[PMP.scala:143:7] wire io_pmp_4_cfg_x_0 = io_pmp_4_cfg_x; // @[PMP.scala:143:7] wire io_pmp_4_cfg_w_0 = io_pmp_4_cfg_w; // @[PMP.scala:143:7] wire io_pmp_4_cfg_r_0 = io_pmp_4_cfg_r; // @[PMP.scala:143:7] wire [29:0] io_pmp_4_addr_0 = io_pmp_4_addr; // @[PMP.scala:143:7] wire [31:0] io_pmp_4_mask_0 = io_pmp_4_mask; // @[PMP.scala:143:7] wire io_pmp_5_cfg_l_0 = io_pmp_5_cfg_l; // @[PMP.scala:143:7] wire [1:0] io_pmp_5_cfg_a_0 = io_pmp_5_cfg_a; // @[PMP.scala:143:7] wire io_pmp_5_cfg_x_0 = io_pmp_5_cfg_x; // @[PMP.scala:143:7] wire io_pmp_5_cfg_w_0 = io_pmp_5_cfg_w; // @[PMP.scala:143:7] wire io_pmp_5_cfg_r_0 = io_pmp_5_cfg_r; // @[PMP.scala:143:7] wire [29:0] io_pmp_5_addr_0 = io_pmp_5_addr; // @[PMP.scala:143:7] wire [31:0] io_pmp_5_mask_0 = io_pmp_5_mask; // @[PMP.scala:143:7] wire io_pmp_6_cfg_l_0 = io_pmp_6_cfg_l; // @[PMP.scala:143:7] wire [1:0] io_pmp_6_cfg_a_0 = io_pmp_6_cfg_a; // @[PMP.scala:143:7] wire io_pmp_6_cfg_x_0 = io_pmp_6_cfg_x; // @[PMP.scala:143:7] wire io_pmp_6_cfg_w_0 = io_pmp_6_cfg_w; // @[PMP.scala:143:7] wire io_pmp_6_cfg_r_0 = io_pmp_6_cfg_r; // @[PMP.scala:143:7] wire [29:0] io_pmp_6_addr_0 = io_pmp_6_addr; // @[PMP.scala:143:7] wire [31:0] io_pmp_6_mask_0 = io_pmp_6_mask; // @[PMP.scala:143:7] wire io_pmp_7_cfg_l_0 = io_pmp_7_cfg_l; // @[PMP.scala:143:7] wire [1:0] io_pmp_7_cfg_a_0 = io_pmp_7_cfg_a; // @[PMP.scala:143:7] wire io_pmp_7_cfg_x_0 = io_pmp_7_cfg_x; // @[PMP.scala:143:7] wire io_pmp_7_cfg_w_0 = io_pmp_7_cfg_w; // @[PMP.scala:143:7] wire io_pmp_7_cfg_r_0 = io_pmp_7_cfg_r; // @[PMP.scala:143:7] wire [29:0] io_pmp_7_addr_0 = io_pmp_7_addr; // @[PMP.scala:143:7] wire [31:0] io_pmp_7_mask_0 = io_pmp_7_mask; // @[PMP.scala:143:7] wire [31:0] io_addr_0 = io_addr; // @[PMP.scala:143:7] wire [29:0] _pmp0_WIRE_addr = 30'h0; // @[PMP.scala:157:35] wire [29:0] pmp0_addr = 30'h0; // @[PMP.scala:157:22] wire _res_hit_T_99 = 1'h1; // @[PMP.scala:88:5] wire [5:0] _res_hit_lsbMask_T = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_T_3 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_aligned_lsbMask_T = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_lsbMask_T_3 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_T_16 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_aligned_lsbMask_T_2 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_lsbMask_T_6 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_T_29 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_aligned_lsbMask_T_4 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_lsbMask_T_9 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_T_42 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_aligned_lsbMask_T_6 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_lsbMask_T_12 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_T_55 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_aligned_lsbMask_T_8 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_lsbMask_T_15 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_T_68 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_aligned_lsbMask_T_10 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_lsbMask_T_18 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_T_81 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_aligned_lsbMask_T_12 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_lsbMask_T_21 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_hit_T_94 = 6'h38; // @[package.scala:243:71] wire [5:0] _res_aligned_lsbMask_T_14 = 6'h38; // @[package.scala:243:71] wire [28:0] _res_hit_msbsLess_T_89 = 29'h0; // @[PMP.scala:80:52, :81:54, :123:67] wire [28:0] _res_hit_msbsEqual_T_103 = 29'h0; // @[PMP.scala:80:52, :81:54, :123:67] wire [28:0] _res_aligned_straddlesLowerBound_T_124 = 29'h0; // @[PMP.scala:80:52, :81:54, :123:67] wire [31:0] _res_hit_msbsLess_T_86 = 32'hFFFFFFFF; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_87 = 32'hFFFFFFFF; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_100 = 32'hFFFFFFFF; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_101 = 32'hFFFFFFFF; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_101 = 32'hFFFFFFFF; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_102 = 32'hFFFFFFFF; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_121 = 32'hFFFFFFFF; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_122 = 32'hFFFFFFFF; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_128 = 32'hFFFFFFFF; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_129 = 32'hFFFFFFFF; // @[PMP.scala:60:{29,48}] wire [31:0] _pmp0_WIRE_mask = 32'h0; // @[PMP.scala:157:35] wire [31:0] pmp0_mask = 32'h0; // @[PMP.scala:157:22] wire [31:0] _res_hit_msbsLess_T_85 = 32'h0; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_88 = 32'h0; // @[PMP.scala:60:27] wire [31:0] _res_hit_msbsEqual_T_99 = 32'h0; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_102 = 32'h0; // @[PMP.scala:60:27] wire [31:0] _res_hit_lsbsLess_T_100 = 32'h0; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_103 = 32'h0; // @[PMP.scala:60:27] wire [31:0] _res_aligned_straddlesLowerBound_T_120 = 32'h0; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_123 = 32'h0; // @[PMP.scala:60:27] wire [31:0] _res_aligned_straddlesLowerBound_T_127 = 32'h0; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_130 = 32'h0; // @[PMP.scala:60:27] wire [2:0] _res_hit_lsbMask_T_1 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_T_4 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_aligned_lsbMask_T_1 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_lsbMask_T_4 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_T_17 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_aligned_lsbMask_T_3 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_lsbMask_T_7 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_T_30 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_aligned_lsbMask_T_5 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_lsbMask_T_10 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_T_43 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_aligned_lsbMask_T_7 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_lsbMask_T_13 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_T_56 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_aligned_lsbMask_T_9 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_lsbMask_T_16 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_T_69 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_aligned_lsbMask_T_11 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_lsbMask_T_19 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_T_82 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_aligned_lsbMask_T_13 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_lsbMask_T_22 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_T_95 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_lsbsLess_T_104 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_aligned_lsbMask_T_15 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_aligned_straddlesLowerBound_T_131 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_aligned_straddlesLowerBound_T_134 = 3'h0; // @[package.scala:243:76] wire [2:0] _res_hit_lsbMask_T_2 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_T_5 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbsLess_T_1 = 3'h7; // @[package.scala:243:46] wire [2:0] res_aligned_lsbMask = 3'h7; // @[package.scala:243:46] wire [2:0] _res_aligned_straddlesUpperBound_T_14 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbMask_T_5 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_T_18 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbsLess_T_15 = 3'h7; // @[package.scala:243:46] wire [2:0] res_aligned_lsbMask_1 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_aligned_straddlesUpperBound_T_31 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbMask_T_8 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_T_31 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbsLess_T_29 = 3'h7; // @[package.scala:243:46] wire [2:0] res_aligned_lsbMask_2 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_aligned_straddlesUpperBound_T_48 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbMask_T_11 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_T_44 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbsLess_T_43 = 3'h7; // @[package.scala:243:46] wire [2:0] res_aligned_lsbMask_3 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_aligned_straddlesUpperBound_T_65 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbMask_T_14 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_T_57 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbsLess_T_57 = 3'h7; // @[package.scala:243:46] wire [2:0] res_aligned_lsbMask_4 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_aligned_straddlesUpperBound_T_82 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbMask_T_17 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_T_70 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbsLess_T_71 = 3'h7; // @[package.scala:243:46] wire [2:0] res_aligned_lsbMask_5 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_aligned_straddlesUpperBound_T_99 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbMask_T_20 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_T_83 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbsLess_T_85 = 3'h7; // @[package.scala:243:46] wire [2:0] res_aligned_lsbMask_6 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_aligned_straddlesUpperBound_T_116 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbMask_T_23 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_T_96 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_hit_lsbsLess_T_99 = 3'h7; // @[package.scala:243:46] wire [2:0] res_aligned_lsbMask_7 = 3'h7; // @[package.scala:243:46] wire [2:0] _res_aligned_straddlesUpperBound_T_133 = 3'h7; // @[package.scala:243:46] wire [1:0] io_size = 2'h3; // @[PMP.scala:143:7] wire _pmp0_WIRE_cfg_l = 1'h0; // @[PMP.scala:157:35] wire _pmp0_WIRE_cfg_x = 1'h0; // @[PMP.scala:157:35] wire _pmp0_WIRE_cfg_w = 1'h0; // @[PMP.scala:157:35] wire _pmp0_WIRE_cfg_r = 1'h0; // @[PMP.scala:157:35] wire pmp0_cfg_l = 1'h0; // @[PMP.scala:157:22] wire res_hit_lsbsLess = 1'h0; // @[PMP.scala:82:53] wire _res_hit_T_6 = 1'h0; // @[PMP.scala:83:30] wire res_hit_lsbsLess_2 = 1'h0; // @[PMP.scala:82:53] wire _res_hit_T_19 = 1'h0; // @[PMP.scala:83:30] wire res_hit_lsbsLess_4 = 1'h0; // @[PMP.scala:82:53] wire _res_hit_T_32 = 1'h0; // @[PMP.scala:83:30] wire res_hit_lsbsLess_6 = 1'h0; // @[PMP.scala:82:53] wire _res_hit_T_45 = 1'h0; // @[PMP.scala:83:30] wire res_hit_lsbsLess_8 = 1'h0; // @[PMP.scala:82:53] wire _res_hit_T_58 = 1'h0; // @[PMP.scala:83:30] wire res_hit_lsbsLess_10 = 1'h0; // @[PMP.scala:82:53] wire _res_hit_T_71 = 1'h0; // @[PMP.scala:83:30] wire res_hit_lsbsLess_12 = 1'h0; // @[PMP.scala:82:53] wire _res_hit_T_84 = 1'h0; // @[PMP.scala:83:30] wire res_hit_msbsLess_14 = 1'h0; // @[PMP.scala:80:39] wire res_hit_lsbsLess_14 = 1'h0; // @[PMP.scala:82:53] wire _res_hit_T_97 = 1'h0; // @[PMP.scala:83:30] wire _res_hit_T_98 = 1'h0; // @[PMP.scala:83:16] wire _res_aligned_straddlesLowerBound_T_135 = 1'h0; // @[PMP.scala:123:147] wire res_aligned_straddlesLowerBound_7 = 1'h0; // @[PMP.scala:123:90] wire [1:0] io_pmp_0_cfg_res = 2'h0; // @[PMP.scala:143:7] wire [1:0] io_pmp_1_cfg_res = 2'h0; // @[PMP.scala:143:7] wire [1:0] io_pmp_2_cfg_res = 2'h0; // @[PMP.scala:143:7] wire [1:0] io_pmp_3_cfg_res = 2'h0; // @[PMP.scala:143:7] wire [1:0] io_pmp_4_cfg_res = 2'h0; // @[PMP.scala:143:7] wire [1:0] io_pmp_5_cfg_res = 2'h0; // @[PMP.scala:143:7] wire [1:0] io_pmp_6_cfg_res = 2'h0; // @[PMP.scala:143:7] wire [1:0] io_pmp_7_cfg_res = 2'h0; // @[PMP.scala:143:7] wire [1:0] _pmp0_WIRE_cfg_res = 2'h0; // @[PMP.scala:157:35] wire [1:0] _pmp0_WIRE_cfg_a = 2'h0; // @[PMP.scala:157:35] wire [1:0] pmp0_cfg_res = 2'h0; // @[PMP.scala:157:22] wire [1:0] pmp0_cfg_a = 2'h0; // @[PMP.scala:157:22] wire [1:0] res_cur_cfg_res = 2'h0; // @[PMP.scala:181:23] wire [1:0] _res_T_44_cfg_res = 2'h0; // @[PMP.scala:185:8] wire [1:0] res_cur_1_cfg_res = 2'h0; // @[PMP.scala:181:23] wire [1:0] _res_T_89_cfg_res = 2'h0; // @[PMP.scala:185:8] wire [1:0] res_cur_2_cfg_res = 2'h0; // @[PMP.scala:181:23] wire [1:0] _res_T_134_cfg_res = 2'h0; // @[PMP.scala:185:8] wire [1:0] res_cur_3_cfg_res = 2'h0; // @[PMP.scala:181:23] wire [1:0] _res_T_179_cfg_res = 2'h0; // @[PMP.scala:185:8] wire [1:0] res_cur_4_cfg_res = 2'h0; // @[PMP.scala:181:23] wire [1:0] _res_T_224_cfg_res = 2'h0; // @[PMP.scala:185:8] wire [1:0] res_cur_5_cfg_res = 2'h0; // @[PMP.scala:181:23] wire [1:0] _res_T_269_cfg_res = 2'h0; // @[PMP.scala:185:8] wire [1:0] res_cur_6_cfg_res = 2'h0; // @[PMP.scala:181:23] wire [1:0] _res_T_314_cfg_res = 2'h0; // @[PMP.scala:185:8] wire [1:0] res_cur_7_cfg_res = 2'h0; // @[PMP.scala:181:23] wire [1:0] res_cfg_res = 2'h0; // @[PMP.scala:185:8] wire _res_T_319 = io_pmp_0_cfg_l_0; // @[PMP.scala:143:7, :170:30] wire res_cur_7_cfg_l = io_pmp_0_cfg_l_0; // @[PMP.scala:143:7, :181:23] wire [1:0] res_cur_7_cfg_a = io_pmp_0_cfg_a_0; // @[PMP.scala:143:7, :181:23] wire [29:0] res_cur_7_addr = io_pmp_0_addr_0; // @[PMP.scala:143:7, :181:23] wire [31:0] res_cur_7_mask = io_pmp_0_mask_0; // @[PMP.scala:143:7, :181:23] wire _res_T_274 = io_pmp_1_cfg_l_0; // @[PMP.scala:143:7, :170:30] wire res_cur_6_cfg_l = io_pmp_1_cfg_l_0; // @[PMP.scala:143:7, :181:23] wire [1:0] res_cur_6_cfg_a = io_pmp_1_cfg_a_0; // @[PMP.scala:143:7, :181:23] wire [29:0] res_cur_6_addr = io_pmp_1_addr_0; // @[PMP.scala:143:7, :181:23] wire [31:0] res_cur_6_mask = io_pmp_1_mask_0; // @[PMP.scala:143:7, :181:23] wire _res_T_229 = io_pmp_2_cfg_l_0; // @[PMP.scala:143:7, :170:30] wire res_cur_5_cfg_l = io_pmp_2_cfg_l_0; // @[PMP.scala:143:7, :181:23] wire [1:0] res_cur_5_cfg_a = io_pmp_2_cfg_a_0; // @[PMP.scala:143:7, :181:23] wire [29:0] res_cur_5_addr = io_pmp_2_addr_0; // @[PMP.scala:143:7, :181:23] wire [31:0] res_cur_5_mask = io_pmp_2_mask_0; // @[PMP.scala:143:7, :181:23] wire _res_T_184 = io_pmp_3_cfg_l_0; // @[PMP.scala:143:7, :170:30] wire res_cur_4_cfg_l = io_pmp_3_cfg_l_0; // @[PMP.scala:143:7, :181:23] wire [1:0] res_cur_4_cfg_a = io_pmp_3_cfg_a_0; // @[PMP.scala:143:7, :181:23] wire [29:0] res_cur_4_addr = io_pmp_3_addr_0; // @[PMP.scala:143:7, :181:23] wire [31:0] res_cur_4_mask = io_pmp_3_mask_0; // @[PMP.scala:143:7, :181:23] wire _res_T_139 = io_pmp_4_cfg_l_0; // @[PMP.scala:143:7, :170:30] wire res_cur_3_cfg_l = io_pmp_4_cfg_l_0; // @[PMP.scala:143:7, :181:23] wire [1:0] res_cur_3_cfg_a = io_pmp_4_cfg_a_0; // @[PMP.scala:143:7, :181:23] wire [29:0] res_cur_3_addr = io_pmp_4_addr_0; // @[PMP.scala:143:7, :181:23] wire [31:0] res_cur_3_mask = io_pmp_4_mask_0; // @[PMP.scala:143:7, :181:23] wire _res_T_94 = io_pmp_5_cfg_l_0; // @[PMP.scala:143:7, :170:30] wire res_cur_2_cfg_l = io_pmp_5_cfg_l_0; // @[PMP.scala:143:7, :181:23] wire [1:0] res_cur_2_cfg_a = io_pmp_5_cfg_a_0; // @[PMP.scala:143:7, :181:23] wire [29:0] res_cur_2_addr = io_pmp_5_addr_0; // @[PMP.scala:143:7, :181:23] wire [31:0] res_cur_2_mask = io_pmp_5_mask_0; // @[PMP.scala:143:7, :181:23] wire _res_T_49 = io_pmp_6_cfg_l_0; // @[PMP.scala:143:7, :170:30] wire res_cur_1_cfg_l = io_pmp_6_cfg_l_0; // @[PMP.scala:143:7, :181:23] wire [1:0] res_cur_1_cfg_a = io_pmp_6_cfg_a_0; // @[PMP.scala:143:7, :181:23] wire [29:0] res_cur_1_addr = io_pmp_6_addr_0; // @[PMP.scala:143:7, :181:23] wire [31:0] res_cur_1_mask = io_pmp_6_mask_0; // @[PMP.scala:143:7, :181:23] wire _res_T_4 = io_pmp_7_cfg_l_0; // @[PMP.scala:143:7, :170:30] wire res_cur_cfg_l = io_pmp_7_cfg_l_0; // @[PMP.scala:143:7, :181:23] wire [1:0] res_cur_cfg_a = io_pmp_7_cfg_a_0; // @[PMP.scala:143:7, :181:23] wire [29:0] res_cur_addr = io_pmp_7_addr_0; // @[PMP.scala:143:7, :181:23] wire [31:0] res_cur_mask = io_pmp_7_mask_0; // @[PMP.scala:143:7, :181:23] wire res_cfg_r; // @[PMP.scala:185:8] wire res_cfg_w; // @[PMP.scala:185:8] wire res_cfg_x; // @[PMP.scala:185:8] wire io_r_0; // @[PMP.scala:143:7] wire io_w_0; // @[PMP.scala:143:7] wire io_x_0; // @[PMP.scala:143:7] wire default_0 = io_prv_0[1]; // @[PMP.scala:143:7, :156:56] wire pmp0_cfg_x = default_0; // @[PMP.scala:156:56, :157:22] wire pmp0_cfg_w = default_0; // @[PMP.scala:156:56, :157:22] wire pmp0_cfg_r = default_0; // @[PMP.scala:156:56, :157:22] wire _res_hit_T = io_pmp_7_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire _res_aligned_T = io_pmp_7_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire [28:0] _res_hit_msbMatch_T_6 = io_pmp_7_mask_0[31:3]; // @[PMP.scala:68:26, :69:72, :143:7] wire [31:0] res_hit_lsbMask = {_res_hit_msbMatch_T_6, 3'h7}; // @[package.scala:243:46] wire [28:0] _res_hit_msbMatch_T = io_addr_0[31:3]; // @[PMP.scala:69:29, :143:7] wire [28:0] _res_hit_msbsLess_T = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_hit_msbsLess_T_6 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_7 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_aligned_straddlesLowerBound_T = io_addr_0[31:3]; // @[PMP.scala:69:29, :123:35, :143:7] wire [28:0] _res_aligned_straddlesUpperBound_T = io_addr_0[31:3]; // @[PMP.scala:69:29, :124:35, :143:7] wire [28:0] _res_hit_msbMatch_T_10 = io_addr_0[31:3]; // @[PMP.scala:69:29, :143:7] wire [28:0] _res_hit_msbsLess_T_12 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_14 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_hit_msbsLess_T_18 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_21 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_aligned_straddlesLowerBound_T_17 = io_addr_0[31:3]; // @[PMP.scala:69:29, :123:35, :143:7] wire [28:0] _res_aligned_straddlesUpperBound_T_17 = io_addr_0[31:3]; // @[PMP.scala:69:29, :124:35, :143:7] wire [28:0] _res_hit_msbMatch_T_20 = io_addr_0[31:3]; // @[PMP.scala:69:29, :143:7] wire [28:0] _res_hit_msbsLess_T_24 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_28 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_hit_msbsLess_T_30 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_35 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_aligned_straddlesLowerBound_T_34 = io_addr_0[31:3]; // @[PMP.scala:69:29, :123:35, :143:7] wire [28:0] _res_aligned_straddlesUpperBound_T_34 = io_addr_0[31:3]; // @[PMP.scala:69:29, :124:35, :143:7] wire [28:0] _res_hit_msbMatch_T_30 = io_addr_0[31:3]; // @[PMP.scala:69:29, :143:7] wire [28:0] _res_hit_msbsLess_T_36 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_42 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_hit_msbsLess_T_42 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_49 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_aligned_straddlesLowerBound_T_51 = io_addr_0[31:3]; // @[PMP.scala:69:29, :123:35, :143:7] wire [28:0] _res_aligned_straddlesUpperBound_T_51 = io_addr_0[31:3]; // @[PMP.scala:69:29, :124:35, :143:7] wire [28:0] _res_hit_msbMatch_T_40 = io_addr_0[31:3]; // @[PMP.scala:69:29, :143:7] wire [28:0] _res_hit_msbsLess_T_48 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_56 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_hit_msbsLess_T_54 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_63 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_aligned_straddlesLowerBound_T_68 = io_addr_0[31:3]; // @[PMP.scala:69:29, :123:35, :143:7] wire [28:0] _res_aligned_straddlesUpperBound_T_68 = io_addr_0[31:3]; // @[PMP.scala:69:29, :124:35, :143:7] wire [28:0] _res_hit_msbMatch_T_50 = io_addr_0[31:3]; // @[PMP.scala:69:29, :143:7] wire [28:0] _res_hit_msbsLess_T_60 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_70 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_hit_msbsLess_T_66 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_77 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_aligned_straddlesLowerBound_T_85 = io_addr_0[31:3]; // @[PMP.scala:69:29, :123:35, :143:7] wire [28:0] _res_aligned_straddlesUpperBound_T_85 = io_addr_0[31:3]; // @[PMP.scala:69:29, :124:35, :143:7] wire [28:0] _res_hit_msbMatch_T_60 = io_addr_0[31:3]; // @[PMP.scala:69:29, :143:7] wire [28:0] _res_hit_msbsLess_T_72 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_84 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_hit_msbsLess_T_78 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_91 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_aligned_straddlesLowerBound_T_102 = io_addr_0[31:3]; // @[PMP.scala:69:29, :123:35, :143:7] wire [28:0] _res_aligned_straddlesUpperBound_T_102 = io_addr_0[31:3]; // @[PMP.scala:69:29, :124:35, :143:7] wire [28:0] _res_hit_msbMatch_T_70 = io_addr_0[31:3]; // @[PMP.scala:69:29, :143:7] wire [28:0] _res_hit_msbsLess_T_84 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_98 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_hit_msbsLess_T_90 = io_addr_0[31:3]; // @[PMP.scala:69:29, :80:25, :143:7] wire [28:0] _res_hit_msbsEqual_T_105 = io_addr_0[31:3]; // @[PMP.scala:69:29, :81:27, :143:7] wire [28:0] _res_aligned_straddlesLowerBound_T_119 = io_addr_0[31:3]; // @[PMP.scala:69:29, :123:35, :143:7] wire [28:0] _res_aligned_straddlesUpperBound_T_119 = io_addr_0[31:3]; // @[PMP.scala:69:29, :124:35, :143:7] wire [31:0] _GEN = {io_pmp_7_addr_0, 2'h0}; // @[PMP.scala:60:36, :143:7] wire [31:0] _res_hit_msbMatch_T_1; // @[PMP.scala:60:36] assign _res_hit_msbMatch_T_1 = _GEN; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbMatch_T_1; // @[PMP.scala:60:36] assign _res_hit_lsbMatch_T_1 = _GEN; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_7; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_7 = _GEN; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_8; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_8 = _GEN; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_9; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_9 = _GEN; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_1; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_1 = _GEN; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_8; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_8 = _GEN; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbMatch_T_2 = ~_res_hit_msbMatch_T_1; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbMatch_T_3 = {_res_hit_msbMatch_T_2[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbMatch_T_4 = ~_res_hit_msbMatch_T_3; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbMatch_T_5 = _res_hit_msbMatch_T_4[31:3]; // @[PMP.scala:60:27, :69:53] wire [28:0] _res_hit_msbMatch_T_7 = _res_hit_msbMatch_T ^ _res_hit_msbMatch_T_5; // @[PMP.scala:63:47, :69:{29,53}] wire [28:0] _res_hit_msbMatch_T_8 = ~_res_hit_msbMatch_T_6; // @[PMP.scala:63:54, :69:72] wire [28:0] _res_hit_msbMatch_T_9 = _res_hit_msbMatch_T_7 & _res_hit_msbMatch_T_8; // @[PMP.scala:63:{47,52,54}] wire res_hit_msbMatch = _res_hit_msbMatch_T_9 == 29'h0; // @[PMP.scala:63:{52,58}, :80:52, :81:54, :123:67] wire [2:0] _res_hit_lsbMatch_T = io_addr_0[2:0]; // @[PMP.scala:70:28, :143:7] wire [2:0] _res_hit_lsbsLess_T = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_hit_lsbsLess_T_7 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_aligned_straddlesLowerBound_T_13 = io_addr_0[2:0]; // @[PMP.scala:70:28, :123:129, :143:7] wire [2:0] _res_aligned_straddlesUpperBound_T_13 = io_addr_0[2:0]; // @[PMP.scala:70:28, :124:119, :143:7] wire [2:0] _res_hit_lsbMatch_T_10 = io_addr_0[2:0]; // @[PMP.scala:70:28, :143:7] wire [2:0] _res_hit_lsbsLess_T_14 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_hit_lsbsLess_T_21 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_aligned_straddlesLowerBound_T_30 = io_addr_0[2:0]; // @[PMP.scala:70:28, :123:129, :143:7] wire [2:0] _res_aligned_straddlesUpperBound_T_30 = io_addr_0[2:0]; // @[PMP.scala:70:28, :124:119, :143:7] wire [2:0] _res_hit_lsbMatch_T_20 = io_addr_0[2:0]; // @[PMP.scala:70:28, :143:7] wire [2:0] _res_hit_lsbsLess_T_28 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_hit_lsbsLess_T_35 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_aligned_straddlesLowerBound_T_47 = io_addr_0[2:0]; // @[PMP.scala:70:28, :123:129, :143:7] wire [2:0] _res_aligned_straddlesUpperBound_T_47 = io_addr_0[2:0]; // @[PMP.scala:70:28, :124:119, :143:7] wire [2:0] _res_hit_lsbMatch_T_30 = io_addr_0[2:0]; // @[PMP.scala:70:28, :143:7] wire [2:0] _res_hit_lsbsLess_T_42 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_hit_lsbsLess_T_49 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_aligned_straddlesLowerBound_T_64 = io_addr_0[2:0]; // @[PMP.scala:70:28, :123:129, :143:7] wire [2:0] _res_aligned_straddlesUpperBound_T_64 = io_addr_0[2:0]; // @[PMP.scala:70:28, :124:119, :143:7] wire [2:0] _res_hit_lsbMatch_T_40 = io_addr_0[2:0]; // @[PMP.scala:70:28, :143:7] wire [2:0] _res_hit_lsbsLess_T_56 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_hit_lsbsLess_T_63 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_aligned_straddlesLowerBound_T_81 = io_addr_0[2:0]; // @[PMP.scala:70:28, :123:129, :143:7] wire [2:0] _res_aligned_straddlesUpperBound_T_81 = io_addr_0[2:0]; // @[PMP.scala:70:28, :124:119, :143:7] wire [2:0] _res_hit_lsbMatch_T_50 = io_addr_0[2:0]; // @[PMP.scala:70:28, :143:7] wire [2:0] _res_hit_lsbsLess_T_70 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_hit_lsbsLess_T_77 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_aligned_straddlesLowerBound_T_98 = io_addr_0[2:0]; // @[PMP.scala:70:28, :123:129, :143:7] wire [2:0] _res_aligned_straddlesUpperBound_T_98 = io_addr_0[2:0]; // @[PMP.scala:70:28, :124:119, :143:7] wire [2:0] _res_hit_lsbMatch_T_60 = io_addr_0[2:0]; // @[PMP.scala:70:28, :143:7] wire [2:0] _res_hit_lsbsLess_T_84 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_hit_lsbsLess_T_91 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_aligned_straddlesLowerBound_T_115 = io_addr_0[2:0]; // @[PMP.scala:70:28, :123:129, :143:7] wire [2:0] _res_aligned_straddlesUpperBound_T_115 = io_addr_0[2:0]; // @[PMP.scala:70:28, :124:119, :143:7] wire [2:0] _res_hit_lsbMatch_T_70 = io_addr_0[2:0]; // @[PMP.scala:70:28, :143:7] wire [2:0] _res_hit_lsbsLess_T_98 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_hit_lsbsLess_T_105 = io_addr_0[2:0]; // @[PMP.scala:70:28, :82:25, :143:7] wire [2:0] _res_aligned_straddlesLowerBound_T_132 = io_addr_0[2:0]; // @[PMP.scala:70:28, :123:129, :143:7] wire [2:0] _res_aligned_straddlesUpperBound_T_132 = io_addr_0[2:0]; // @[PMP.scala:70:28, :124:119, :143:7] wire [31:0] _res_hit_lsbMatch_T_2 = ~_res_hit_lsbMatch_T_1; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbMatch_T_3 = {_res_hit_lsbMatch_T_2[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbMatch_T_4 = ~_res_hit_lsbMatch_T_3; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbMatch_T_5 = _res_hit_lsbMatch_T_4[2:0]; // @[PMP.scala:60:27, :70:55] wire [2:0] _res_hit_lsbMatch_T_6 = res_hit_lsbMask[2:0]; // @[PMP.scala:68:26, :70:80] wire [2:0] _res_hit_lsbMatch_T_7 = _res_hit_lsbMatch_T ^ _res_hit_lsbMatch_T_5; // @[PMP.scala:63:47, :70:{28,55}] wire [2:0] _res_hit_lsbMatch_T_8 = ~_res_hit_lsbMatch_T_6; // @[PMP.scala:63:54, :70:80] wire [2:0] _res_hit_lsbMatch_T_9 = _res_hit_lsbMatch_T_7 & _res_hit_lsbMatch_T_8; // @[PMP.scala:63:{47,52,54}] wire res_hit_lsbMatch = _res_hit_lsbMatch_T_9 == 3'h0; // @[package.scala:243:76] wire _res_hit_T_1 = res_hit_msbMatch & res_hit_lsbMatch; // @[PMP.scala:63:58, :71:16] wire _res_hit_T_2 = io_pmp_7_cfg_a_0[0]; // @[PMP.scala:46:26, :143:7] wire [31:0] _GEN_0 = {io_pmp_6_addr_0, 2'h0}; // @[PMP.scala:60:36, :143:7] wire [31:0] _res_hit_msbsLess_T_1; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_1 = _GEN_0; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_1; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_1 = _GEN_0; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_2; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_2 = _GEN_0; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_1; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_1 = _GEN_0; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_8; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_8 = _GEN_0; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbMatch_T_11; // @[PMP.scala:60:36] assign _res_hit_msbMatch_T_11 = _GEN_0; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbMatch_T_11; // @[PMP.scala:60:36] assign _res_hit_lsbMatch_T_11 = _GEN_0; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_19; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_19 = _GEN_0; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_22; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_22 = _GEN_0; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_23; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_23 = _GEN_0; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_18; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_18 = _GEN_0; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_25; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_25 = _GEN_0; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_2 = ~_res_hit_msbsLess_T_1; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_3 = {_res_hit_msbsLess_T_2[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_4 = ~_res_hit_msbsLess_T_3; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_5 = _res_hit_msbsLess_T_4[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess = _res_hit_msbsLess_T < _res_hit_msbsLess_T_5; // @[PMP.scala:80:{25,39,52}] wire _res_hit_T_7 = res_hit_msbsLess; // @[PMP.scala:80:39, :83:16] wire [31:0] _res_hit_msbsEqual_T_2 = ~_res_hit_msbsEqual_T_1; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_3 = {_res_hit_msbsEqual_T_2[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_4 = ~_res_hit_msbsEqual_T_3; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_5 = _res_hit_msbsEqual_T_4[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_6 = _res_hit_msbsEqual_T ^ _res_hit_msbsEqual_T_5; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual = _res_hit_msbsEqual_T_6 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [31:0] _res_hit_lsbsLess_T_3 = ~_res_hit_lsbsLess_T_2; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_4 = {_res_hit_lsbsLess_T_3[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_5 = ~_res_hit_lsbsLess_T_4; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_6 = _res_hit_lsbsLess_T_5[2:0]; // @[PMP.scala:60:27, :82:64] wire _res_hit_T_8 = ~_res_hit_T_7; // @[PMP.scala:83:16, :88:5] wire [31:0] _res_hit_msbsLess_T_8 = ~_res_hit_msbsLess_T_7; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_9 = {_res_hit_msbsLess_T_8[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_10 = ~_res_hit_msbsLess_T_9; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_11 = _res_hit_msbsLess_T_10[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_1 = _res_hit_msbsLess_T_6 < _res_hit_msbsLess_T_11; // @[PMP.scala:80:{25,39,52}] wire [31:0] _res_hit_msbsEqual_T_9 = ~_res_hit_msbsEqual_T_8; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_10 = {_res_hit_msbsEqual_T_9[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_11 = ~_res_hit_msbsEqual_T_10; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_12 = _res_hit_msbsEqual_T_11[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_13 = _res_hit_msbsEqual_T_7 ^ _res_hit_msbsEqual_T_12; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_1 = _res_hit_msbsEqual_T_13 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [2:0] _res_hit_lsbsLess_T_8 = _res_hit_lsbsLess_T_7; // @[PMP.scala:82:{25,42}] wire [31:0] _res_hit_lsbsLess_T_10 = ~_res_hit_lsbsLess_T_9; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_11 = {_res_hit_lsbsLess_T_10[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_12 = ~_res_hit_lsbsLess_T_11; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_13 = _res_hit_lsbsLess_T_12[2:0]; // @[PMP.scala:60:27, :82:64] wire res_hit_lsbsLess_1 = _res_hit_lsbsLess_T_8 < _res_hit_lsbsLess_T_13; // @[PMP.scala:82:{42,53,64}] wire _res_hit_T_9 = res_hit_msbsEqual_1 & res_hit_lsbsLess_1; // @[PMP.scala:81:69, :82:53, :83:30] wire _res_hit_T_10 = res_hit_msbsLess_1 | _res_hit_T_9; // @[PMP.scala:80:39, :83:{16,30}] wire _res_hit_T_11 = _res_hit_T_8 & _res_hit_T_10; // @[PMP.scala:83:16, :88:5, :94:48] wire _res_hit_T_12 = _res_hit_T_2 & _res_hit_T_11; // @[PMP.scala:46:26, :94:48, :132:61] wire res_hit = _res_hit_T ? _res_hit_T_1 : _res_hit_T_12; // @[PMP.scala:45:20, :71:16, :132:{8,61}] wire _res_ignore_T = ~io_pmp_7_cfg_l_0; // @[PMP.scala:143:7, :164:29] wire res_ignore = default_0 & _res_ignore_T; // @[PMP.scala:156:56, :164:{26,29}] wire [31:0] _res_aligned_straddlesLowerBound_T_2 = ~_res_aligned_straddlesLowerBound_T_1; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_3 = {_res_aligned_straddlesLowerBound_T_2[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_4 = ~_res_aligned_straddlesLowerBound_T_3; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesLowerBound_T_5 = _res_aligned_straddlesLowerBound_T_4[31:3]; // @[PMP.scala:60:27, :123:67] wire [28:0] _res_aligned_straddlesLowerBound_T_6 = _res_aligned_straddlesLowerBound_T ^ _res_aligned_straddlesLowerBound_T_5; // @[PMP.scala:123:{35,49,67}] wire _res_aligned_straddlesLowerBound_T_7 = _res_aligned_straddlesLowerBound_T_6 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:{49,67,82}] wire [31:0] _res_aligned_straddlesLowerBound_T_9 = ~_res_aligned_straddlesLowerBound_T_8; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_10 = {_res_aligned_straddlesLowerBound_T_9[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_11 = ~_res_aligned_straddlesLowerBound_T_10; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesLowerBound_T_12 = _res_aligned_straddlesLowerBound_T_11[2:0]; // @[PMP.scala:60:27, :123:108] wire [2:0] _res_aligned_straddlesLowerBound_T_14 = ~_res_aligned_straddlesLowerBound_T_13; // @[PMP.scala:123:{127,129}] wire [2:0] _res_aligned_straddlesLowerBound_T_15 = _res_aligned_straddlesLowerBound_T_12 & _res_aligned_straddlesLowerBound_T_14; // @[PMP.scala:123:{108,125,127}] wire _res_aligned_straddlesLowerBound_T_16 = |_res_aligned_straddlesLowerBound_T_15; // @[PMP.scala:123:{125,147}] wire res_aligned_straddlesLowerBound = _res_aligned_straddlesLowerBound_T_7 & _res_aligned_straddlesLowerBound_T_16; // @[PMP.scala:123:{82,90,147}] wire [31:0] _res_aligned_straddlesUpperBound_T_2 = ~_res_aligned_straddlesUpperBound_T_1; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_3 = {_res_aligned_straddlesUpperBound_T_2[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_4 = ~_res_aligned_straddlesUpperBound_T_3; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesUpperBound_T_5 = _res_aligned_straddlesUpperBound_T_4[31:3]; // @[PMP.scala:60:27, :124:62] wire [28:0] _res_aligned_straddlesUpperBound_T_6 = _res_aligned_straddlesUpperBound_T ^ _res_aligned_straddlesUpperBound_T_5; // @[PMP.scala:124:{35,49,62}] wire _res_aligned_straddlesUpperBound_T_7 = _res_aligned_straddlesUpperBound_T_6 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:67, :124:{49,77}] wire [31:0] _res_aligned_straddlesUpperBound_T_9 = ~_res_aligned_straddlesUpperBound_T_8; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_10 = {_res_aligned_straddlesUpperBound_T_9[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_11 = ~_res_aligned_straddlesUpperBound_T_10; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesUpperBound_T_12 = _res_aligned_straddlesUpperBound_T_11[2:0]; // @[PMP.scala:60:27, :124:98] wire [2:0] _res_aligned_straddlesUpperBound_T_15 = _res_aligned_straddlesUpperBound_T_12; // @[PMP.scala:124:{98,115}] wire _res_aligned_straddlesUpperBound_T_16 = |_res_aligned_straddlesUpperBound_T_15; // @[PMP.scala:124:{115,148}] wire res_aligned_straddlesUpperBound = _res_aligned_straddlesUpperBound_T_7 & _res_aligned_straddlesUpperBound_T_16; // @[PMP.scala:124:{77,85,148}] wire _res_aligned_rangeAligned_T = res_aligned_straddlesLowerBound | res_aligned_straddlesUpperBound; // @[PMP.scala:123:90, :124:85, :125:46] wire res_aligned_rangeAligned = ~_res_aligned_rangeAligned_T; // @[PMP.scala:125:{24,46}] wire [2:0] _res_aligned_pow2Aligned_T = io_pmp_7_mask_0[2:0]; // @[PMP.scala:126:39, :143:7] wire [2:0] _res_aligned_pow2Aligned_T_1 = ~_res_aligned_pow2Aligned_T; // @[PMP.scala:126:{34,39}] wire [2:0] _res_aligned_pow2Aligned_T_2 = _res_aligned_pow2Aligned_T_1; // @[PMP.scala:126:{32,34}] wire res_aligned_pow2Aligned = _res_aligned_pow2Aligned_T_2 == 3'h0; // @[package.scala:243:76] wire res_aligned = _res_aligned_T ? res_aligned_pow2Aligned : res_aligned_rangeAligned; // @[PMP.scala:45:20, :125:24, :126:57, :127:8] wire _res_T = io_pmp_7_cfg_a_0 == 2'h0; // @[PMP.scala:143:7, :168:32] wire _GEN_1 = io_pmp_7_cfg_a_0 == 2'h1; // @[PMP.scala:143:7, :168:32] wire _res_T_1; // @[PMP.scala:168:32] assign _res_T_1 = _GEN_1; // @[PMP.scala:168:32] wire _res_T_20; // @[PMP.scala:177:61] assign _res_T_20 = _GEN_1; // @[PMP.scala:168:32, :177:61] wire _res_T_24; // @[PMP.scala:178:63] assign _res_T_24 = _GEN_1; // @[PMP.scala:168:32, :178:63] wire _GEN_2 = io_pmp_7_cfg_a_0 == 2'h2; // @[PMP.scala:143:7, :168:32] wire _res_T_2; // @[PMP.scala:168:32] assign _res_T_2 = _GEN_2; // @[PMP.scala:168:32] wire _res_T_29; // @[PMP.scala:177:61] assign _res_T_29 = _GEN_2; // @[PMP.scala:168:32, :177:61] wire _res_T_33; // @[PMP.scala:178:63] assign _res_T_33 = _GEN_2; // @[PMP.scala:168:32, :178:63] wire _res_T_3 = &io_pmp_7_cfg_a_0; // @[PMP.scala:143:7, :168:32] wire [1:0] _GEN_3 = {io_pmp_7_cfg_x_0, io_pmp_7_cfg_w_0}; // @[PMP.scala:143:7, :174:26] wire [1:0] res_hi; // @[PMP.scala:174:26] assign res_hi = _GEN_3; // @[PMP.scala:174:26] wire [1:0] res_hi_1; // @[PMP.scala:174:26] assign res_hi_1 = _GEN_3; // @[PMP.scala:174:26] wire [1:0] res_hi_2; // @[PMP.scala:174:26] assign res_hi_2 = _GEN_3; // @[PMP.scala:174:26] wire [1:0] res_hi_3; // @[PMP.scala:174:26] assign res_hi_3 = _GEN_3; // @[PMP.scala:174:26] wire [1:0] res_hi_4; // @[PMP.scala:174:26] assign res_hi_4 = _GEN_3; // @[PMP.scala:174:26] wire [1:0] res_hi_5; // @[PMP.scala:174:26] assign res_hi_5 = _GEN_3; // @[PMP.scala:174:26] wire [2:0] _res_T_5 = {res_hi, io_pmp_7_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_6 = _res_T_5 == 3'h0; // @[package.scala:243:76] wire [2:0] _res_T_7 = {res_hi_1, io_pmp_7_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_8 = _res_T_7 == 3'h1; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_9 = {res_hi_2, io_pmp_7_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_10 = _res_T_9 == 3'h3; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_11 = {res_hi_3, io_pmp_7_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_12 = _res_T_11 == 3'h4; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_13 = {res_hi_4, io_pmp_7_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_14 = _res_T_13 == 3'h5; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_15 = {res_hi_5, io_pmp_7_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_16 = &_res_T_15; // @[PMP.scala:174:{26,60}] wire _res_T_17 = ~res_ignore; // @[PMP.scala:164:26, :177:22] wire _res_T_18 = _res_T_17 & res_hit; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_19 = _res_T_18 & res_aligned; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_21 = _res_T_19 & _res_T_20; // @[PMP.scala:177:{37,48,61}] wire _GEN_4 = io_pmp_7_cfg_l_0 & res_hit; // @[PMP.scala:132:8, :143:7, :178:32] wire _res_T_22; // @[PMP.scala:178:32] assign _res_T_22 = _GEN_4; // @[PMP.scala:178:32] wire _res_T_31; // @[PMP.scala:178:32] assign _res_T_31 = _GEN_4; // @[PMP.scala:178:32] wire _res_T_40; // @[PMP.scala:178:32] assign _res_T_40 = _GEN_4; // @[PMP.scala:178:32] wire _res_T_23 = _res_T_22 & res_aligned; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_25 = _res_T_23 & _res_T_24; // @[PMP.scala:178:{39,50,63}] wire _res_T_26 = ~res_ignore; // @[PMP.scala:164:26, :177:22] wire _res_T_27 = _res_T_26 & res_hit; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_28 = _res_T_27 & res_aligned; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_30 = _res_T_28 & _res_T_29; // @[PMP.scala:177:{37,48,61}] wire _res_T_32 = _res_T_31 & res_aligned; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_34 = _res_T_32 & _res_T_33; // @[PMP.scala:178:{39,50,63}] wire _res_T_35 = ~res_ignore; // @[PMP.scala:164:26, :177:22] wire _res_T_36 = _res_T_35 & res_hit; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_37 = _res_T_36 & res_aligned; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_38 = &io_pmp_7_cfg_a_0; // @[PMP.scala:143:7, :168:32, :177:61] wire _res_T_39 = _res_T_37 & _res_T_38; // @[PMP.scala:177:{37,48,61}] wire _res_T_41 = _res_T_40 & res_aligned; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_42 = &io_pmp_7_cfg_a_0; // @[PMP.scala:143:7, :168:32, :178:63] wire _res_T_43 = _res_T_41 & _res_T_42; // @[PMP.scala:178:{39,50,63}] wire _res_cur_cfg_x_T_1; // @[PMP.scala:184:26] wire _res_cur_cfg_w_T_1; // @[PMP.scala:183:26] wire _res_cur_cfg_r_T_1; // @[PMP.scala:182:26] wire res_cur_cfg_x; // @[PMP.scala:181:23] wire res_cur_cfg_w; // @[PMP.scala:181:23] wire res_cur_cfg_r; // @[PMP.scala:181:23] wire _res_cur_cfg_r_T = io_pmp_7_cfg_r_0 | res_ignore; // @[PMP.scala:143:7, :164:26, :182:40] assign _res_cur_cfg_r_T_1 = res_aligned & _res_cur_cfg_r_T; // @[PMP.scala:127:8, :182:{26,40}] assign res_cur_cfg_r = _res_cur_cfg_r_T_1; // @[PMP.scala:181:23, :182:26] wire _res_cur_cfg_w_T = io_pmp_7_cfg_w_0 | res_ignore; // @[PMP.scala:143:7, :164:26, :183:40] assign _res_cur_cfg_w_T_1 = res_aligned & _res_cur_cfg_w_T; // @[PMP.scala:127:8, :183:{26,40}] assign res_cur_cfg_w = _res_cur_cfg_w_T_1; // @[PMP.scala:181:23, :183:26] wire _res_cur_cfg_x_T = io_pmp_7_cfg_x_0 | res_ignore; // @[PMP.scala:143:7, :164:26, :184:40] assign _res_cur_cfg_x_T_1 = res_aligned & _res_cur_cfg_x_T; // @[PMP.scala:127:8, :184:{26,40}] assign res_cur_cfg_x = _res_cur_cfg_x_T_1; // @[PMP.scala:181:23, :184:26] wire _res_T_44_cfg_l = res_hit & res_cur_cfg_l; // @[PMP.scala:132:8, :181:23, :185:8] wire [1:0] _res_T_44_cfg_a = res_hit ? res_cur_cfg_a : 2'h0; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_44_cfg_x = res_hit ? res_cur_cfg_x : pmp0_cfg_x; // @[PMP.scala:132:8, :157:22, :181:23, :185:8] wire _res_T_44_cfg_w = res_hit ? res_cur_cfg_w : pmp0_cfg_w; // @[PMP.scala:132:8, :157:22, :181:23, :185:8] wire _res_T_44_cfg_r = res_hit ? res_cur_cfg_r : pmp0_cfg_r; // @[PMP.scala:132:8, :157:22, :181:23, :185:8] wire [29:0] _res_T_44_addr = res_hit ? res_cur_addr : 30'h0; // @[PMP.scala:132:8, :181:23, :185:8] wire [31:0] _res_T_44_mask = res_hit ? res_cur_mask : 32'h0; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_hit_T_13 = io_pmp_6_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire _res_aligned_T_1 = io_pmp_6_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire [28:0] _res_hit_msbMatch_T_16 = io_pmp_6_mask_0[31:3]; // @[PMP.scala:68:26, :69:72, :143:7] wire [31:0] res_hit_lsbMask_1 = {_res_hit_msbMatch_T_16, 3'h7}; // @[package.scala:243:46] wire [31:0] _res_hit_msbMatch_T_12 = ~_res_hit_msbMatch_T_11; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbMatch_T_13 = {_res_hit_msbMatch_T_12[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbMatch_T_14 = ~_res_hit_msbMatch_T_13; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbMatch_T_15 = _res_hit_msbMatch_T_14[31:3]; // @[PMP.scala:60:27, :69:53] wire [28:0] _res_hit_msbMatch_T_17 = _res_hit_msbMatch_T_10 ^ _res_hit_msbMatch_T_15; // @[PMP.scala:63:47, :69:{29,53}] wire [28:0] _res_hit_msbMatch_T_18 = ~_res_hit_msbMatch_T_16; // @[PMP.scala:63:54, :69:72] wire [28:0] _res_hit_msbMatch_T_19 = _res_hit_msbMatch_T_17 & _res_hit_msbMatch_T_18; // @[PMP.scala:63:{47,52,54}] wire res_hit_msbMatch_1 = _res_hit_msbMatch_T_19 == 29'h0; // @[PMP.scala:63:{52,58}, :80:52, :81:54, :123:67] wire [31:0] _res_hit_lsbMatch_T_12 = ~_res_hit_lsbMatch_T_11; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbMatch_T_13 = {_res_hit_lsbMatch_T_12[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbMatch_T_14 = ~_res_hit_lsbMatch_T_13; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbMatch_T_15 = _res_hit_lsbMatch_T_14[2:0]; // @[PMP.scala:60:27, :70:55] wire [2:0] _res_hit_lsbMatch_T_16 = res_hit_lsbMask_1[2:0]; // @[PMP.scala:68:26, :70:80] wire [2:0] _res_hit_lsbMatch_T_17 = _res_hit_lsbMatch_T_10 ^ _res_hit_lsbMatch_T_15; // @[PMP.scala:63:47, :70:{28,55}] wire [2:0] _res_hit_lsbMatch_T_18 = ~_res_hit_lsbMatch_T_16; // @[PMP.scala:63:54, :70:80] wire [2:0] _res_hit_lsbMatch_T_19 = _res_hit_lsbMatch_T_17 & _res_hit_lsbMatch_T_18; // @[PMP.scala:63:{47,52,54}] wire res_hit_lsbMatch_1 = _res_hit_lsbMatch_T_19 == 3'h0; // @[package.scala:243:76] wire _res_hit_T_14 = res_hit_msbMatch_1 & res_hit_lsbMatch_1; // @[PMP.scala:63:58, :71:16] wire _res_hit_T_15 = io_pmp_6_cfg_a_0[0]; // @[PMP.scala:46:26, :143:7] wire [31:0] _GEN_5 = {io_pmp_5_addr_0, 2'h0}; // @[PMP.scala:60:36, :143:7] wire [31:0] _res_hit_msbsLess_T_13; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_13 = _GEN_5; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_15; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_15 = _GEN_5; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_16; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_16 = _GEN_5; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_18; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_18 = _GEN_5; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_25; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_25 = _GEN_5; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbMatch_T_21; // @[PMP.scala:60:36] assign _res_hit_msbMatch_T_21 = _GEN_5; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbMatch_T_21; // @[PMP.scala:60:36] assign _res_hit_lsbMatch_T_21 = _GEN_5; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_31; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_31 = _GEN_5; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_36; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_36 = _GEN_5; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_37; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_37 = _GEN_5; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_35; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_35 = _GEN_5; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_42; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_42 = _GEN_5; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_14 = ~_res_hit_msbsLess_T_13; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_15 = {_res_hit_msbsLess_T_14[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_16 = ~_res_hit_msbsLess_T_15; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_17 = _res_hit_msbsLess_T_16[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_2 = _res_hit_msbsLess_T_12 < _res_hit_msbsLess_T_17; // @[PMP.scala:80:{25,39,52}] wire _res_hit_T_20 = res_hit_msbsLess_2; // @[PMP.scala:80:39, :83:16] wire [31:0] _res_hit_msbsEqual_T_16 = ~_res_hit_msbsEqual_T_15; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_17 = {_res_hit_msbsEqual_T_16[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_18 = ~_res_hit_msbsEqual_T_17; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_19 = _res_hit_msbsEqual_T_18[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_20 = _res_hit_msbsEqual_T_14 ^ _res_hit_msbsEqual_T_19; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_2 = _res_hit_msbsEqual_T_20 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [31:0] _res_hit_lsbsLess_T_17 = ~_res_hit_lsbsLess_T_16; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_18 = {_res_hit_lsbsLess_T_17[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_19 = ~_res_hit_lsbsLess_T_18; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_20 = _res_hit_lsbsLess_T_19[2:0]; // @[PMP.scala:60:27, :82:64] wire _res_hit_T_21 = ~_res_hit_T_20; // @[PMP.scala:83:16, :88:5] wire [31:0] _res_hit_msbsLess_T_20 = ~_res_hit_msbsLess_T_19; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_21 = {_res_hit_msbsLess_T_20[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_22 = ~_res_hit_msbsLess_T_21; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_23 = _res_hit_msbsLess_T_22[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_3 = _res_hit_msbsLess_T_18 < _res_hit_msbsLess_T_23; // @[PMP.scala:80:{25,39,52}] wire [31:0] _res_hit_msbsEqual_T_23 = ~_res_hit_msbsEqual_T_22; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_24 = {_res_hit_msbsEqual_T_23[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_25 = ~_res_hit_msbsEqual_T_24; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_26 = _res_hit_msbsEqual_T_25[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_27 = _res_hit_msbsEqual_T_21 ^ _res_hit_msbsEqual_T_26; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_3 = _res_hit_msbsEqual_T_27 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [2:0] _res_hit_lsbsLess_T_22 = _res_hit_lsbsLess_T_21; // @[PMP.scala:82:{25,42}] wire [31:0] _res_hit_lsbsLess_T_24 = ~_res_hit_lsbsLess_T_23; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_25 = {_res_hit_lsbsLess_T_24[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_26 = ~_res_hit_lsbsLess_T_25; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_27 = _res_hit_lsbsLess_T_26[2:0]; // @[PMP.scala:60:27, :82:64] wire res_hit_lsbsLess_3 = _res_hit_lsbsLess_T_22 < _res_hit_lsbsLess_T_27; // @[PMP.scala:82:{42,53,64}] wire _res_hit_T_22 = res_hit_msbsEqual_3 & res_hit_lsbsLess_3; // @[PMP.scala:81:69, :82:53, :83:30] wire _res_hit_T_23 = res_hit_msbsLess_3 | _res_hit_T_22; // @[PMP.scala:80:39, :83:{16,30}] wire _res_hit_T_24 = _res_hit_T_21 & _res_hit_T_23; // @[PMP.scala:83:16, :88:5, :94:48] wire _res_hit_T_25 = _res_hit_T_15 & _res_hit_T_24; // @[PMP.scala:46:26, :94:48, :132:61] wire res_hit_1 = _res_hit_T_13 ? _res_hit_T_14 : _res_hit_T_25; // @[PMP.scala:45:20, :71:16, :132:{8,61}] wire _res_ignore_T_1 = ~io_pmp_6_cfg_l_0; // @[PMP.scala:143:7, :164:29] wire res_ignore_1 = default_0 & _res_ignore_T_1; // @[PMP.scala:156:56, :164:{26,29}] wire [31:0] _res_aligned_straddlesLowerBound_T_19 = ~_res_aligned_straddlesLowerBound_T_18; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_20 = {_res_aligned_straddlesLowerBound_T_19[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_21 = ~_res_aligned_straddlesLowerBound_T_20; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesLowerBound_T_22 = _res_aligned_straddlesLowerBound_T_21[31:3]; // @[PMP.scala:60:27, :123:67] wire [28:0] _res_aligned_straddlesLowerBound_T_23 = _res_aligned_straddlesLowerBound_T_17 ^ _res_aligned_straddlesLowerBound_T_22; // @[PMP.scala:123:{35,49,67}] wire _res_aligned_straddlesLowerBound_T_24 = _res_aligned_straddlesLowerBound_T_23 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:{49,67,82}] wire [31:0] _res_aligned_straddlesLowerBound_T_26 = ~_res_aligned_straddlesLowerBound_T_25; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_27 = {_res_aligned_straddlesLowerBound_T_26[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_28 = ~_res_aligned_straddlesLowerBound_T_27; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesLowerBound_T_29 = _res_aligned_straddlesLowerBound_T_28[2:0]; // @[PMP.scala:60:27, :123:108] wire [2:0] _res_aligned_straddlesLowerBound_T_31 = ~_res_aligned_straddlesLowerBound_T_30; // @[PMP.scala:123:{127,129}] wire [2:0] _res_aligned_straddlesLowerBound_T_32 = _res_aligned_straddlesLowerBound_T_29 & _res_aligned_straddlesLowerBound_T_31; // @[PMP.scala:123:{108,125,127}] wire _res_aligned_straddlesLowerBound_T_33 = |_res_aligned_straddlesLowerBound_T_32; // @[PMP.scala:123:{125,147}] wire res_aligned_straddlesLowerBound_1 = _res_aligned_straddlesLowerBound_T_24 & _res_aligned_straddlesLowerBound_T_33; // @[PMP.scala:123:{82,90,147}] wire [31:0] _res_aligned_straddlesUpperBound_T_19 = ~_res_aligned_straddlesUpperBound_T_18; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_20 = {_res_aligned_straddlesUpperBound_T_19[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_21 = ~_res_aligned_straddlesUpperBound_T_20; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesUpperBound_T_22 = _res_aligned_straddlesUpperBound_T_21[31:3]; // @[PMP.scala:60:27, :124:62] wire [28:0] _res_aligned_straddlesUpperBound_T_23 = _res_aligned_straddlesUpperBound_T_17 ^ _res_aligned_straddlesUpperBound_T_22; // @[PMP.scala:124:{35,49,62}] wire _res_aligned_straddlesUpperBound_T_24 = _res_aligned_straddlesUpperBound_T_23 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:67, :124:{49,77}] wire [31:0] _res_aligned_straddlesUpperBound_T_26 = ~_res_aligned_straddlesUpperBound_T_25; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_27 = {_res_aligned_straddlesUpperBound_T_26[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_28 = ~_res_aligned_straddlesUpperBound_T_27; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesUpperBound_T_29 = _res_aligned_straddlesUpperBound_T_28[2:0]; // @[PMP.scala:60:27, :124:98] wire [2:0] _res_aligned_straddlesUpperBound_T_32 = _res_aligned_straddlesUpperBound_T_29; // @[PMP.scala:124:{98,115}] wire _res_aligned_straddlesUpperBound_T_33 = |_res_aligned_straddlesUpperBound_T_32; // @[PMP.scala:124:{115,148}] wire res_aligned_straddlesUpperBound_1 = _res_aligned_straddlesUpperBound_T_24 & _res_aligned_straddlesUpperBound_T_33; // @[PMP.scala:124:{77,85,148}] wire _res_aligned_rangeAligned_T_1 = res_aligned_straddlesLowerBound_1 | res_aligned_straddlesUpperBound_1; // @[PMP.scala:123:90, :124:85, :125:46] wire res_aligned_rangeAligned_1 = ~_res_aligned_rangeAligned_T_1; // @[PMP.scala:125:{24,46}] wire [2:0] _res_aligned_pow2Aligned_T_3 = io_pmp_6_mask_0[2:0]; // @[PMP.scala:126:39, :143:7] wire [2:0] _res_aligned_pow2Aligned_T_4 = ~_res_aligned_pow2Aligned_T_3; // @[PMP.scala:126:{34,39}] wire [2:0] _res_aligned_pow2Aligned_T_5 = _res_aligned_pow2Aligned_T_4; // @[PMP.scala:126:{32,34}] wire res_aligned_pow2Aligned_1 = _res_aligned_pow2Aligned_T_5 == 3'h0; // @[package.scala:243:76] wire res_aligned_1 = _res_aligned_T_1 ? res_aligned_pow2Aligned_1 : res_aligned_rangeAligned_1; // @[PMP.scala:45:20, :125:24, :126:57, :127:8] wire _res_T_45 = io_pmp_6_cfg_a_0 == 2'h0; // @[PMP.scala:143:7, :168:32] wire _GEN_6 = io_pmp_6_cfg_a_0 == 2'h1; // @[PMP.scala:143:7, :168:32] wire _res_T_46; // @[PMP.scala:168:32] assign _res_T_46 = _GEN_6; // @[PMP.scala:168:32] wire _res_T_65; // @[PMP.scala:177:61] assign _res_T_65 = _GEN_6; // @[PMP.scala:168:32, :177:61] wire _res_T_69; // @[PMP.scala:178:63] assign _res_T_69 = _GEN_6; // @[PMP.scala:168:32, :178:63] wire _GEN_7 = io_pmp_6_cfg_a_0 == 2'h2; // @[PMP.scala:143:7, :168:32] wire _res_T_47; // @[PMP.scala:168:32] assign _res_T_47 = _GEN_7; // @[PMP.scala:168:32] wire _res_T_74; // @[PMP.scala:177:61] assign _res_T_74 = _GEN_7; // @[PMP.scala:168:32, :177:61] wire _res_T_78; // @[PMP.scala:178:63] assign _res_T_78 = _GEN_7; // @[PMP.scala:168:32, :178:63] wire _res_T_48 = &io_pmp_6_cfg_a_0; // @[PMP.scala:143:7, :168:32] wire [1:0] _GEN_8 = {io_pmp_6_cfg_x_0, io_pmp_6_cfg_w_0}; // @[PMP.scala:143:7, :174:26] wire [1:0] res_hi_6; // @[PMP.scala:174:26] assign res_hi_6 = _GEN_8; // @[PMP.scala:174:26] wire [1:0] res_hi_7; // @[PMP.scala:174:26] assign res_hi_7 = _GEN_8; // @[PMP.scala:174:26] wire [1:0] res_hi_8; // @[PMP.scala:174:26] assign res_hi_8 = _GEN_8; // @[PMP.scala:174:26] wire [1:0] res_hi_9; // @[PMP.scala:174:26] assign res_hi_9 = _GEN_8; // @[PMP.scala:174:26] wire [1:0] res_hi_10; // @[PMP.scala:174:26] assign res_hi_10 = _GEN_8; // @[PMP.scala:174:26] wire [1:0] res_hi_11; // @[PMP.scala:174:26] assign res_hi_11 = _GEN_8; // @[PMP.scala:174:26] wire [2:0] _res_T_50 = {res_hi_6, io_pmp_6_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_51 = _res_T_50 == 3'h0; // @[package.scala:243:76] wire [2:0] _res_T_52 = {res_hi_7, io_pmp_6_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_53 = _res_T_52 == 3'h1; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_54 = {res_hi_8, io_pmp_6_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_55 = _res_T_54 == 3'h3; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_56 = {res_hi_9, io_pmp_6_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_57 = _res_T_56 == 3'h4; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_58 = {res_hi_10, io_pmp_6_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_59 = _res_T_58 == 3'h5; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_60 = {res_hi_11, io_pmp_6_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_61 = &_res_T_60; // @[PMP.scala:174:{26,60}] wire _res_T_62 = ~res_ignore_1; // @[PMP.scala:164:26, :177:22] wire _res_T_63 = _res_T_62 & res_hit_1; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_64 = _res_T_63 & res_aligned_1; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_66 = _res_T_64 & _res_T_65; // @[PMP.scala:177:{37,48,61}] wire _GEN_9 = io_pmp_6_cfg_l_0 & res_hit_1; // @[PMP.scala:132:8, :143:7, :178:32] wire _res_T_67; // @[PMP.scala:178:32] assign _res_T_67 = _GEN_9; // @[PMP.scala:178:32] wire _res_T_76; // @[PMP.scala:178:32] assign _res_T_76 = _GEN_9; // @[PMP.scala:178:32] wire _res_T_85; // @[PMP.scala:178:32] assign _res_T_85 = _GEN_9; // @[PMP.scala:178:32] wire _res_T_68 = _res_T_67 & res_aligned_1; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_70 = _res_T_68 & _res_T_69; // @[PMP.scala:178:{39,50,63}] wire _res_T_71 = ~res_ignore_1; // @[PMP.scala:164:26, :177:22] wire _res_T_72 = _res_T_71 & res_hit_1; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_73 = _res_T_72 & res_aligned_1; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_75 = _res_T_73 & _res_T_74; // @[PMP.scala:177:{37,48,61}] wire _res_T_77 = _res_T_76 & res_aligned_1; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_79 = _res_T_77 & _res_T_78; // @[PMP.scala:178:{39,50,63}] wire _res_T_80 = ~res_ignore_1; // @[PMP.scala:164:26, :177:22] wire _res_T_81 = _res_T_80 & res_hit_1; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_82 = _res_T_81 & res_aligned_1; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_83 = &io_pmp_6_cfg_a_0; // @[PMP.scala:143:7, :168:32, :177:61] wire _res_T_84 = _res_T_82 & _res_T_83; // @[PMP.scala:177:{37,48,61}] wire _res_T_86 = _res_T_85 & res_aligned_1; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_87 = &io_pmp_6_cfg_a_0; // @[PMP.scala:143:7, :168:32, :178:63] wire _res_T_88 = _res_T_86 & _res_T_87; // @[PMP.scala:178:{39,50,63}] wire _res_cur_cfg_x_T_3; // @[PMP.scala:184:26] wire _res_cur_cfg_w_T_3; // @[PMP.scala:183:26] wire _res_cur_cfg_r_T_3; // @[PMP.scala:182:26] wire res_cur_1_cfg_x; // @[PMP.scala:181:23] wire res_cur_1_cfg_w; // @[PMP.scala:181:23] wire res_cur_1_cfg_r; // @[PMP.scala:181:23] wire _res_cur_cfg_r_T_2 = io_pmp_6_cfg_r_0 | res_ignore_1; // @[PMP.scala:143:7, :164:26, :182:40] assign _res_cur_cfg_r_T_3 = res_aligned_1 & _res_cur_cfg_r_T_2; // @[PMP.scala:127:8, :182:{26,40}] assign res_cur_1_cfg_r = _res_cur_cfg_r_T_3; // @[PMP.scala:181:23, :182:26] wire _res_cur_cfg_w_T_2 = io_pmp_6_cfg_w_0 | res_ignore_1; // @[PMP.scala:143:7, :164:26, :183:40] assign _res_cur_cfg_w_T_3 = res_aligned_1 & _res_cur_cfg_w_T_2; // @[PMP.scala:127:8, :183:{26,40}] assign res_cur_1_cfg_w = _res_cur_cfg_w_T_3; // @[PMP.scala:181:23, :183:26] wire _res_cur_cfg_x_T_2 = io_pmp_6_cfg_x_0 | res_ignore_1; // @[PMP.scala:143:7, :164:26, :184:40] assign _res_cur_cfg_x_T_3 = res_aligned_1 & _res_cur_cfg_x_T_2; // @[PMP.scala:127:8, :184:{26,40}] assign res_cur_1_cfg_x = _res_cur_cfg_x_T_3; // @[PMP.scala:181:23, :184:26] wire _res_T_89_cfg_l = res_hit_1 ? res_cur_1_cfg_l : _res_T_44_cfg_l; // @[PMP.scala:132:8, :181:23, :185:8] wire [1:0] _res_T_89_cfg_a = res_hit_1 ? res_cur_1_cfg_a : _res_T_44_cfg_a; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_89_cfg_x = res_hit_1 ? res_cur_1_cfg_x : _res_T_44_cfg_x; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_89_cfg_w = res_hit_1 ? res_cur_1_cfg_w : _res_T_44_cfg_w; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_89_cfg_r = res_hit_1 ? res_cur_1_cfg_r : _res_T_44_cfg_r; // @[PMP.scala:132:8, :181:23, :185:8] wire [29:0] _res_T_89_addr = res_hit_1 ? res_cur_1_addr : _res_T_44_addr; // @[PMP.scala:132:8, :181:23, :185:8] wire [31:0] _res_T_89_mask = res_hit_1 ? res_cur_1_mask : _res_T_44_mask; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_hit_T_26 = io_pmp_5_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire _res_aligned_T_2 = io_pmp_5_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire [28:0] _res_hit_msbMatch_T_26 = io_pmp_5_mask_0[31:3]; // @[PMP.scala:68:26, :69:72, :143:7] wire [31:0] res_hit_lsbMask_2 = {_res_hit_msbMatch_T_26, 3'h7}; // @[package.scala:243:46] wire [31:0] _res_hit_msbMatch_T_22 = ~_res_hit_msbMatch_T_21; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbMatch_T_23 = {_res_hit_msbMatch_T_22[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbMatch_T_24 = ~_res_hit_msbMatch_T_23; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbMatch_T_25 = _res_hit_msbMatch_T_24[31:3]; // @[PMP.scala:60:27, :69:53] wire [28:0] _res_hit_msbMatch_T_27 = _res_hit_msbMatch_T_20 ^ _res_hit_msbMatch_T_25; // @[PMP.scala:63:47, :69:{29,53}] wire [28:0] _res_hit_msbMatch_T_28 = ~_res_hit_msbMatch_T_26; // @[PMP.scala:63:54, :69:72] wire [28:0] _res_hit_msbMatch_T_29 = _res_hit_msbMatch_T_27 & _res_hit_msbMatch_T_28; // @[PMP.scala:63:{47,52,54}] wire res_hit_msbMatch_2 = _res_hit_msbMatch_T_29 == 29'h0; // @[PMP.scala:63:{52,58}, :80:52, :81:54, :123:67] wire [31:0] _res_hit_lsbMatch_T_22 = ~_res_hit_lsbMatch_T_21; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbMatch_T_23 = {_res_hit_lsbMatch_T_22[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbMatch_T_24 = ~_res_hit_lsbMatch_T_23; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbMatch_T_25 = _res_hit_lsbMatch_T_24[2:0]; // @[PMP.scala:60:27, :70:55] wire [2:0] _res_hit_lsbMatch_T_26 = res_hit_lsbMask_2[2:0]; // @[PMP.scala:68:26, :70:80] wire [2:0] _res_hit_lsbMatch_T_27 = _res_hit_lsbMatch_T_20 ^ _res_hit_lsbMatch_T_25; // @[PMP.scala:63:47, :70:{28,55}] wire [2:0] _res_hit_lsbMatch_T_28 = ~_res_hit_lsbMatch_T_26; // @[PMP.scala:63:54, :70:80] wire [2:0] _res_hit_lsbMatch_T_29 = _res_hit_lsbMatch_T_27 & _res_hit_lsbMatch_T_28; // @[PMP.scala:63:{47,52,54}] wire res_hit_lsbMatch_2 = _res_hit_lsbMatch_T_29 == 3'h0; // @[package.scala:243:76] wire _res_hit_T_27 = res_hit_msbMatch_2 & res_hit_lsbMatch_2; // @[PMP.scala:63:58, :71:16] wire _res_hit_T_28 = io_pmp_5_cfg_a_0[0]; // @[PMP.scala:46:26, :143:7] wire [31:0] _GEN_10 = {io_pmp_4_addr_0, 2'h0}; // @[PMP.scala:60:36, :143:7] wire [31:0] _res_hit_msbsLess_T_25; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_25 = _GEN_10; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_29; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_29 = _GEN_10; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_30; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_30 = _GEN_10; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_35; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_35 = _GEN_10; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_42; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_42 = _GEN_10; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbMatch_T_31; // @[PMP.scala:60:36] assign _res_hit_msbMatch_T_31 = _GEN_10; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbMatch_T_31; // @[PMP.scala:60:36] assign _res_hit_lsbMatch_T_31 = _GEN_10; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_43; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_43 = _GEN_10; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_50; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_50 = _GEN_10; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_51; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_51 = _GEN_10; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_52; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_52 = _GEN_10; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_59; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_59 = _GEN_10; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_26 = ~_res_hit_msbsLess_T_25; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_27 = {_res_hit_msbsLess_T_26[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_28 = ~_res_hit_msbsLess_T_27; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_29 = _res_hit_msbsLess_T_28[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_4 = _res_hit_msbsLess_T_24 < _res_hit_msbsLess_T_29; // @[PMP.scala:80:{25,39,52}] wire _res_hit_T_33 = res_hit_msbsLess_4; // @[PMP.scala:80:39, :83:16] wire [31:0] _res_hit_msbsEqual_T_30 = ~_res_hit_msbsEqual_T_29; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_31 = {_res_hit_msbsEqual_T_30[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_32 = ~_res_hit_msbsEqual_T_31; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_33 = _res_hit_msbsEqual_T_32[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_34 = _res_hit_msbsEqual_T_28 ^ _res_hit_msbsEqual_T_33; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_4 = _res_hit_msbsEqual_T_34 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [31:0] _res_hit_lsbsLess_T_31 = ~_res_hit_lsbsLess_T_30; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_32 = {_res_hit_lsbsLess_T_31[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_33 = ~_res_hit_lsbsLess_T_32; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_34 = _res_hit_lsbsLess_T_33[2:0]; // @[PMP.scala:60:27, :82:64] wire _res_hit_T_34 = ~_res_hit_T_33; // @[PMP.scala:83:16, :88:5] wire [31:0] _res_hit_msbsLess_T_32 = ~_res_hit_msbsLess_T_31; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_33 = {_res_hit_msbsLess_T_32[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_34 = ~_res_hit_msbsLess_T_33; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_35 = _res_hit_msbsLess_T_34[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_5 = _res_hit_msbsLess_T_30 < _res_hit_msbsLess_T_35; // @[PMP.scala:80:{25,39,52}] wire [31:0] _res_hit_msbsEqual_T_37 = ~_res_hit_msbsEqual_T_36; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_38 = {_res_hit_msbsEqual_T_37[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_39 = ~_res_hit_msbsEqual_T_38; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_40 = _res_hit_msbsEqual_T_39[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_41 = _res_hit_msbsEqual_T_35 ^ _res_hit_msbsEqual_T_40; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_5 = _res_hit_msbsEqual_T_41 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [2:0] _res_hit_lsbsLess_T_36 = _res_hit_lsbsLess_T_35; // @[PMP.scala:82:{25,42}] wire [31:0] _res_hit_lsbsLess_T_38 = ~_res_hit_lsbsLess_T_37; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_39 = {_res_hit_lsbsLess_T_38[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_40 = ~_res_hit_lsbsLess_T_39; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_41 = _res_hit_lsbsLess_T_40[2:0]; // @[PMP.scala:60:27, :82:64] wire res_hit_lsbsLess_5 = _res_hit_lsbsLess_T_36 < _res_hit_lsbsLess_T_41; // @[PMP.scala:82:{42,53,64}] wire _res_hit_T_35 = res_hit_msbsEqual_5 & res_hit_lsbsLess_5; // @[PMP.scala:81:69, :82:53, :83:30] wire _res_hit_T_36 = res_hit_msbsLess_5 | _res_hit_T_35; // @[PMP.scala:80:39, :83:{16,30}] wire _res_hit_T_37 = _res_hit_T_34 & _res_hit_T_36; // @[PMP.scala:83:16, :88:5, :94:48] wire _res_hit_T_38 = _res_hit_T_28 & _res_hit_T_37; // @[PMP.scala:46:26, :94:48, :132:61] wire res_hit_2 = _res_hit_T_26 ? _res_hit_T_27 : _res_hit_T_38; // @[PMP.scala:45:20, :71:16, :132:{8,61}] wire _res_ignore_T_2 = ~io_pmp_5_cfg_l_0; // @[PMP.scala:143:7, :164:29] wire res_ignore_2 = default_0 & _res_ignore_T_2; // @[PMP.scala:156:56, :164:{26,29}] wire [31:0] _res_aligned_straddlesLowerBound_T_36 = ~_res_aligned_straddlesLowerBound_T_35; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_37 = {_res_aligned_straddlesLowerBound_T_36[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_38 = ~_res_aligned_straddlesLowerBound_T_37; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesLowerBound_T_39 = _res_aligned_straddlesLowerBound_T_38[31:3]; // @[PMP.scala:60:27, :123:67] wire [28:0] _res_aligned_straddlesLowerBound_T_40 = _res_aligned_straddlesLowerBound_T_34 ^ _res_aligned_straddlesLowerBound_T_39; // @[PMP.scala:123:{35,49,67}] wire _res_aligned_straddlesLowerBound_T_41 = _res_aligned_straddlesLowerBound_T_40 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:{49,67,82}] wire [31:0] _res_aligned_straddlesLowerBound_T_43 = ~_res_aligned_straddlesLowerBound_T_42; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_44 = {_res_aligned_straddlesLowerBound_T_43[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_45 = ~_res_aligned_straddlesLowerBound_T_44; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesLowerBound_T_46 = _res_aligned_straddlesLowerBound_T_45[2:0]; // @[PMP.scala:60:27, :123:108] wire [2:0] _res_aligned_straddlesLowerBound_T_48 = ~_res_aligned_straddlesLowerBound_T_47; // @[PMP.scala:123:{127,129}] wire [2:0] _res_aligned_straddlesLowerBound_T_49 = _res_aligned_straddlesLowerBound_T_46 & _res_aligned_straddlesLowerBound_T_48; // @[PMP.scala:123:{108,125,127}] wire _res_aligned_straddlesLowerBound_T_50 = |_res_aligned_straddlesLowerBound_T_49; // @[PMP.scala:123:{125,147}] wire res_aligned_straddlesLowerBound_2 = _res_aligned_straddlesLowerBound_T_41 & _res_aligned_straddlesLowerBound_T_50; // @[PMP.scala:123:{82,90,147}] wire [31:0] _res_aligned_straddlesUpperBound_T_36 = ~_res_aligned_straddlesUpperBound_T_35; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_37 = {_res_aligned_straddlesUpperBound_T_36[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_38 = ~_res_aligned_straddlesUpperBound_T_37; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesUpperBound_T_39 = _res_aligned_straddlesUpperBound_T_38[31:3]; // @[PMP.scala:60:27, :124:62] wire [28:0] _res_aligned_straddlesUpperBound_T_40 = _res_aligned_straddlesUpperBound_T_34 ^ _res_aligned_straddlesUpperBound_T_39; // @[PMP.scala:124:{35,49,62}] wire _res_aligned_straddlesUpperBound_T_41 = _res_aligned_straddlesUpperBound_T_40 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:67, :124:{49,77}] wire [31:0] _res_aligned_straddlesUpperBound_T_43 = ~_res_aligned_straddlesUpperBound_T_42; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_44 = {_res_aligned_straddlesUpperBound_T_43[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_45 = ~_res_aligned_straddlesUpperBound_T_44; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesUpperBound_T_46 = _res_aligned_straddlesUpperBound_T_45[2:0]; // @[PMP.scala:60:27, :124:98] wire [2:0] _res_aligned_straddlesUpperBound_T_49 = _res_aligned_straddlesUpperBound_T_46; // @[PMP.scala:124:{98,115}] wire _res_aligned_straddlesUpperBound_T_50 = |_res_aligned_straddlesUpperBound_T_49; // @[PMP.scala:124:{115,148}] wire res_aligned_straddlesUpperBound_2 = _res_aligned_straddlesUpperBound_T_41 & _res_aligned_straddlesUpperBound_T_50; // @[PMP.scala:124:{77,85,148}] wire _res_aligned_rangeAligned_T_2 = res_aligned_straddlesLowerBound_2 | res_aligned_straddlesUpperBound_2; // @[PMP.scala:123:90, :124:85, :125:46] wire res_aligned_rangeAligned_2 = ~_res_aligned_rangeAligned_T_2; // @[PMP.scala:125:{24,46}] wire [2:0] _res_aligned_pow2Aligned_T_6 = io_pmp_5_mask_0[2:0]; // @[PMP.scala:126:39, :143:7] wire [2:0] _res_aligned_pow2Aligned_T_7 = ~_res_aligned_pow2Aligned_T_6; // @[PMP.scala:126:{34,39}] wire [2:0] _res_aligned_pow2Aligned_T_8 = _res_aligned_pow2Aligned_T_7; // @[PMP.scala:126:{32,34}] wire res_aligned_pow2Aligned_2 = _res_aligned_pow2Aligned_T_8 == 3'h0; // @[package.scala:243:76] wire res_aligned_2 = _res_aligned_T_2 ? res_aligned_pow2Aligned_2 : res_aligned_rangeAligned_2; // @[PMP.scala:45:20, :125:24, :126:57, :127:8] wire _res_T_90 = io_pmp_5_cfg_a_0 == 2'h0; // @[PMP.scala:143:7, :168:32] wire _GEN_11 = io_pmp_5_cfg_a_0 == 2'h1; // @[PMP.scala:143:7, :168:32] wire _res_T_91; // @[PMP.scala:168:32] assign _res_T_91 = _GEN_11; // @[PMP.scala:168:32] wire _res_T_110; // @[PMP.scala:177:61] assign _res_T_110 = _GEN_11; // @[PMP.scala:168:32, :177:61] wire _res_T_114; // @[PMP.scala:178:63] assign _res_T_114 = _GEN_11; // @[PMP.scala:168:32, :178:63] wire _GEN_12 = io_pmp_5_cfg_a_0 == 2'h2; // @[PMP.scala:143:7, :168:32] wire _res_T_92; // @[PMP.scala:168:32] assign _res_T_92 = _GEN_12; // @[PMP.scala:168:32] wire _res_T_119; // @[PMP.scala:177:61] assign _res_T_119 = _GEN_12; // @[PMP.scala:168:32, :177:61] wire _res_T_123; // @[PMP.scala:178:63] assign _res_T_123 = _GEN_12; // @[PMP.scala:168:32, :178:63] wire _res_T_93 = &io_pmp_5_cfg_a_0; // @[PMP.scala:143:7, :168:32] wire [1:0] _GEN_13 = {io_pmp_5_cfg_x_0, io_pmp_5_cfg_w_0}; // @[PMP.scala:143:7, :174:26] wire [1:0] res_hi_12; // @[PMP.scala:174:26] assign res_hi_12 = _GEN_13; // @[PMP.scala:174:26] wire [1:0] res_hi_13; // @[PMP.scala:174:26] assign res_hi_13 = _GEN_13; // @[PMP.scala:174:26] wire [1:0] res_hi_14; // @[PMP.scala:174:26] assign res_hi_14 = _GEN_13; // @[PMP.scala:174:26] wire [1:0] res_hi_15; // @[PMP.scala:174:26] assign res_hi_15 = _GEN_13; // @[PMP.scala:174:26] wire [1:0] res_hi_16; // @[PMP.scala:174:26] assign res_hi_16 = _GEN_13; // @[PMP.scala:174:26] wire [1:0] res_hi_17; // @[PMP.scala:174:26] assign res_hi_17 = _GEN_13; // @[PMP.scala:174:26] wire [2:0] _res_T_95 = {res_hi_12, io_pmp_5_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_96 = _res_T_95 == 3'h0; // @[package.scala:243:76] wire [2:0] _res_T_97 = {res_hi_13, io_pmp_5_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_98 = _res_T_97 == 3'h1; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_99 = {res_hi_14, io_pmp_5_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_100 = _res_T_99 == 3'h3; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_101 = {res_hi_15, io_pmp_5_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_102 = _res_T_101 == 3'h4; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_103 = {res_hi_16, io_pmp_5_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_104 = _res_T_103 == 3'h5; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_105 = {res_hi_17, io_pmp_5_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_106 = &_res_T_105; // @[PMP.scala:174:{26,60}] wire _res_T_107 = ~res_ignore_2; // @[PMP.scala:164:26, :177:22] wire _res_T_108 = _res_T_107 & res_hit_2; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_109 = _res_T_108 & res_aligned_2; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_111 = _res_T_109 & _res_T_110; // @[PMP.scala:177:{37,48,61}] wire _GEN_14 = io_pmp_5_cfg_l_0 & res_hit_2; // @[PMP.scala:132:8, :143:7, :178:32] wire _res_T_112; // @[PMP.scala:178:32] assign _res_T_112 = _GEN_14; // @[PMP.scala:178:32] wire _res_T_121; // @[PMP.scala:178:32] assign _res_T_121 = _GEN_14; // @[PMP.scala:178:32] wire _res_T_130; // @[PMP.scala:178:32] assign _res_T_130 = _GEN_14; // @[PMP.scala:178:32] wire _res_T_113 = _res_T_112 & res_aligned_2; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_115 = _res_T_113 & _res_T_114; // @[PMP.scala:178:{39,50,63}] wire _res_T_116 = ~res_ignore_2; // @[PMP.scala:164:26, :177:22] wire _res_T_117 = _res_T_116 & res_hit_2; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_118 = _res_T_117 & res_aligned_2; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_120 = _res_T_118 & _res_T_119; // @[PMP.scala:177:{37,48,61}] wire _res_T_122 = _res_T_121 & res_aligned_2; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_124 = _res_T_122 & _res_T_123; // @[PMP.scala:178:{39,50,63}] wire _res_T_125 = ~res_ignore_2; // @[PMP.scala:164:26, :177:22] wire _res_T_126 = _res_T_125 & res_hit_2; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_127 = _res_T_126 & res_aligned_2; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_128 = &io_pmp_5_cfg_a_0; // @[PMP.scala:143:7, :168:32, :177:61] wire _res_T_129 = _res_T_127 & _res_T_128; // @[PMP.scala:177:{37,48,61}] wire _res_T_131 = _res_T_130 & res_aligned_2; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_132 = &io_pmp_5_cfg_a_0; // @[PMP.scala:143:7, :168:32, :178:63] wire _res_T_133 = _res_T_131 & _res_T_132; // @[PMP.scala:178:{39,50,63}] wire _res_cur_cfg_x_T_5; // @[PMP.scala:184:26] wire _res_cur_cfg_w_T_5; // @[PMP.scala:183:26] wire _res_cur_cfg_r_T_5; // @[PMP.scala:182:26] wire res_cur_2_cfg_x; // @[PMP.scala:181:23] wire res_cur_2_cfg_w; // @[PMP.scala:181:23] wire res_cur_2_cfg_r; // @[PMP.scala:181:23] wire _res_cur_cfg_r_T_4 = io_pmp_5_cfg_r_0 | res_ignore_2; // @[PMP.scala:143:7, :164:26, :182:40] assign _res_cur_cfg_r_T_5 = res_aligned_2 & _res_cur_cfg_r_T_4; // @[PMP.scala:127:8, :182:{26,40}] assign res_cur_2_cfg_r = _res_cur_cfg_r_T_5; // @[PMP.scala:181:23, :182:26] wire _res_cur_cfg_w_T_4 = io_pmp_5_cfg_w_0 | res_ignore_2; // @[PMP.scala:143:7, :164:26, :183:40] assign _res_cur_cfg_w_T_5 = res_aligned_2 & _res_cur_cfg_w_T_4; // @[PMP.scala:127:8, :183:{26,40}] assign res_cur_2_cfg_w = _res_cur_cfg_w_T_5; // @[PMP.scala:181:23, :183:26] wire _res_cur_cfg_x_T_4 = io_pmp_5_cfg_x_0 | res_ignore_2; // @[PMP.scala:143:7, :164:26, :184:40] assign _res_cur_cfg_x_T_5 = res_aligned_2 & _res_cur_cfg_x_T_4; // @[PMP.scala:127:8, :184:{26,40}] assign res_cur_2_cfg_x = _res_cur_cfg_x_T_5; // @[PMP.scala:181:23, :184:26] wire _res_T_134_cfg_l = res_hit_2 ? res_cur_2_cfg_l : _res_T_89_cfg_l; // @[PMP.scala:132:8, :181:23, :185:8] wire [1:0] _res_T_134_cfg_a = res_hit_2 ? res_cur_2_cfg_a : _res_T_89_cfg_a; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_134_cfg_x = res_hit_2 ? res_cur_2_cfg_x : _res_T_89_cfg_x; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_134_cfg_w = res_hit_2 ? res_cur_2_cfg_w : _res_T_89_cfg_w; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_134_cfg_r = res_hit_2 ? res_cur_2_cfg_r : _res_T_89_cfg_r; // @[PMP.scala:132:8, :181:23, :185:8] wire [29:0] _res_T_134_addr = res_hit_2 ? res_cur_2_addr : _res_T_89_addr; // @[PMP.scala:132:8, :181:23, :185:8] wire [31:0] _res_T_134_mask = res_hit_2 ? res_cur_2_mask : _res_T_89_mask; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_hit_T_39 = io_pmp_4_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire _res_aligned_T_3 = io_pmp_4_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire [28:0] _res_hit_msbMatch_T_36 = io_pmp_4_mask_0[31:3]; // @[PMP.scala:68:26, :69:72, :143:7] wire [31:0] res_hit_lsbMask_3 = {_res_hit_msbMatch_T_36, 3'h7}; // @[package.scala:243:46] wire [31:0] _res_hit_msbMatch_T_32 = ~_res_hit_msbMatch_T_31; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbMatch_T_33 = {_res_hit_msbMatch_T_32[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbMatch_T_34 = ~_res_hit_msbMatch_T_33; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbMatch_T_35 = _res_hit_msbMatch_T_34[31:3]; // @[PMP.scala:60:27, :69:53] wire [28:0] _res_hit_msbMatch_T_37 = _res_hit_msbMatch_T_30 ^ _res_hit_msbMatch_T_35; // @[PMP.scala:63:47, :69:{29,53}] wire [28:0] _res_hit_msbMatch_T_38 = ~_res_hit_msbMatch_T_36; // @[PMP.scala:63:54, :69:72] wire [28:0] _res_hit_msbMatch_T_39 = _res_hit_msbMatch_T_37 & _res_hit_msbMatch_T_38; // @[PMP.scala:63:{47,52,54}] wire res_hit_msbMatch_3 = _res_hit_msbMatch_T_39 == 29'h0; // @[PMP.scala:63:{52,58}, :80:52, :81:54, :123:67] wire [31:0] _res_hit_lsbMatch_T_32 = ~_res_hit_lsbMatch_T_31; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbMatch_T_33 = {_res_hit_lsbMatch_T_32[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbMatch_T_34 = ~_res_hit_lsbMatch_T_33; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbMatch_T_35 = _res_hit_lsbMatch_T_34[2:0]; // @[PMP.scala:60:27, :70:55] wire [2:0] _res_hit_lsbMatch_T_36 = res_hit_lsbMask_3[2:0]; // @[PMP.scala:68:26, :70:80] wire [2:0] _res_hit_lsbMatch_T_37 = _res_hit_lsbMatch_T_30 ^ _res_hit_lsbMatch_T_35; // @[PMP.scala:63:47, :70:{28,55}] wire [2:0] _res_hit_lsbMatch_T_38 = ~_res_hit_lsbMatch_T_36; // @[PMP.scala:63:54, :70:80] wire [2:0] _res_hit_lsbMatch_T_39 = _res_hit_lsbMatch_T_37 & _res_hit_lsbMatch_T_38; // @[PMP.scala:63:{47,52,54}] wire res_hit_lsbMatch_3 = _res_hit_lsbMatch_T_39 == 3'h0; // @[package.scala:243:76] wire _res_hit_T_40 = res_hit_msbMatch_3 & res_hit_lsbMatch_3; // @[PMP.scala:63:58, :71:16] wire _res_hit_T_41 = io_pmp_4_cfg_a_0[0]; // @[PMP.scala:46:26, :143:7] wire [31:0] _GEN_15 = {io_pmp_3_addr_0, 2'h0}; // @[PMP.scala:60:36, :143:7] wire [31:0] _res_hit_msbsLess_T_37; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_37 = _GEN_15; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_43; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_43 = _GEN_15; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_44; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_44 = _GEN_15; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_52; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_52 = _GEN_15; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_59; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_59 = _GEN_15; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbMatch_T_41; // @[PMP.scala:60:36] assign _res_hit_msbMatch_T_41 = _GEN_15; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbMatch_T_41; // @[PMP.scala:60:36] assign _res_hit_lsbMatch_T_41 = _GEN_15; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_55; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_55 = _GEN_15; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_64; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_64 = _GEN_15; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_65; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_65 = _GEN_15; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_69; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_69 = _GEN_15; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_76; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_76 = _GEN_15; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_38 = ~_res_hit_msbsLess_T_37; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_39 = {_res_hit_msbsLess_T_38[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_40 = ~_res_hit_msbsLess_T_39; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_41 = _res_hit_msbsLess_T_40[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_6 = _res_hit_msbsLess_T_36 < _res_hit_msbsLess_T_41; // @[PMP.scala:80:{25,39,52}] wire _res_hit_T_46 = res_hit_msbsLess_6; // @[PMP.scala:80:39, :83:16] wire [31:0] _res_hit_msbsEqual_T_44 = ~_res_hit_msbsEqual_T_43; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_45 = {_res_hit_msbsEqual_T_44[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_46 = ~_res_hit_msbsEqual_T_45; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_47 = _res_hit_msbsEqual_T_46[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_48 = _res_hit_msbsEqual_T_42 ^ _res_hit_msbsEqual_T_47; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_6 = _res_hit_msbsEqual_T_48 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [31:0] _res_hit_lsbsLess_T_45 = ~_res_hit_lsbsLess_T_44; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_46 = {_res_hit_lsbsLess_T_45[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_47 = ~_res_hit_lsbsLess_T_46; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_48 = _res_hit_lsbsLess_T_47[2:0]; // @[PMP.scala:60:27, :82:64] wire _res_hit_T_47 = ~_res_hit_T_46; // @[PMP.scala:83:16, :88:5] wire [31:0] _res_hit_msbsLess_T_44 = ~_res_hit_msbsLess_T_43; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_45 = {_res_hit_msbsLess_T_44[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_46 = ~_res_hit_msbsLess_T_45; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_47 = _res_hit_msbsLess_T_46[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_7 = _res_hit_msbsLess_T_42 < _res_hit_msbsLess_T_47; // @[PMP.scala:80:{25,39,52}] wire [31:0] _res_hit_msbsEqual_T_51 = ~_res_hit_msbsEqual_T_50; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_52 = {_res_hit_msbsEqual_T_51[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_53 = ~_res_hit_msbsEqual_T_52; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_54 = _res_hit_msbsEqual_T_53[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_55 = _res_hit_msbsEqual_T_49 ^ _res_hit_msbsEqual_T_54; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_7 = _res_hit_msbsEqual_T_55 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [2:0] _res_hit_lsbsLess_T_50 = _res_hit_lsbsLess_T_49; // @[PMP.scala:82:{25,42}] wire [31:0] _res_hit_lsbsLess_T_52 = ~_res_hit_lsbsLess_T_51; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_53 = {_res_hit_lsbsLess_T_52[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_54 = ~_res_hit_lsbsLess_T_53; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_55 = _res_hit_lsbsLess_T_54[2:0]; // @[PMP.scala:60:27, :82:64] wire res_hit_lsbsLess_7 = _res_hit_lsbsLess_T_50 < _res_hit_lsbsLess_T_55; // @[PMP.scala:82:{42,53,64}] wire _res_hit_T_48 = res_hit_msbsEqual_7 & res_hit_lsbsLess_7; // @[PMP.scala:81:69, :82:53, :83:30] wire _res_hit_T_49 = res_hit_msbsLess_7 | _res_hit_T_48; // @[PMP.scala:80:39, :83:{16,30}] wire _res_hit_T_50 = _res_hit_T_47 & _res_hit_T_49; // @[PMP.scala:83:16, :88:5, :94:48] wire _res_hit_T_51 = _res_hit_T_41 & _res_hit_T_50; // @[PMP.scala:46:26, :94:48, :132:61] wire res_hit_3 = _res_hit_T_39 ? _res_hit_T_40 : _res_hit_T_51; // @[PMP.scala:45:20, :71:16, :132:{8,61}] wire _res_ignore_T_3 = ~io_pmp_4_cfg_l_0; // @[PMP.scala:143:7, :164:29] wire res_ignore_3 = default_0 & _res_ignore_T_3; // @[PMP.scala:156:56, :164:{26,29}] wire [31:0] _res_aligned_straddlesLowerBound_T_53 = ~_res_aligned_straddlesLowerBound_T_52; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_54 = {_res_aligned_straddlesLowerBound_T_53[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_55 = ~_res_aligned_straddlesLowerBound_T_54; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesLowerBound_T_56 = _res_aligned_straddlesLowerBound_T_55[31:3]; // @[PMP.scala:60:27, :123:67] wire [28:0] _res_aligned_straddlesLowerBound_T_57 = _res_aligned_straddlesLowerBound_T_51 ^ _res_aligned_straddlesLowerBound_T_56; // @[PMP.scala:123:{35,49,67}] wire _res_aligned_straddlesLowerBound_T_58 = _res_aligned_straddlesLowerBound_T_57 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:{49,67,82}] wire [31:0] _res_aligned_straddlesLowerBound_T_60 = ~_res_aligned_straddlesLowerBound_T_59; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_61 = {_res_aligned_straddlesLowerBound_T_60[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_62 = ~_res_aligned_straddlesLowerBound_T_61; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesLowerBound_T_63 = _res_aligned_straddlesLowerBound_T_62[2:0]; // @[PMP.scala:60:27, :123:108] wire [2:0] _res_aligned_straddlesLowerBound_T_65 = ~_res_aligned_straddlesLowerBound_T_64; // @[PMP.scala:123:{127,129}] wire [2:0] _res_aligned_straddlesLowerBound_T_66 = _res_aligned_straddlesLowerBound_T_63 & _res_aligned_straddlesLowerBound_T_65; // @[PMP.scala:123:{108,125,127}] wire _res_aligned_straddlesLowerBound_T_67 = |_res_aligned_straddlesLowerBound_T_66; // @[PMP.scala:123:{125,147}] wire res_aligned_straddlesLowerBound_3 = _res_aligned_straddlesLowerBound_T_58 & _res_aligned_straddlesLowerBound_T_67; // @[PMP.scala:123:{82,90,147}] wire [31:0] _res_aligned_straddlesUpperBound_T_53 = ~_res_aligned_straddlesUpperBound_T_52; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_54 = {_res_aligned_straddlesUpperBound_T_53[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_55 = ~_res_aligned_straddlesUpperBound_T_54; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesUpperBound_T_56 = _res_aligned_straddlesUpperBound_T_55[31:3]; // @[PMP.scala:60:27, :124:62] wire [28:0] _res_aligned_straddlesUpperBound_T_57 = _res_aligned_straddlesUpperBound_T_51 ^ _res_aligned_straddlesUpperBound_T_56; // @[PMP.scala:124:{35,49,62}] wire _res_aligned_straddlesUpperBound_T_58 = _res_aligned_straddlesUpperBound_T_57 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:67, :124:{49,77}] wire [31:0] _res_aligned_straddlesUpperBound_T_60 = ~_res_aligned_straddlesUpperBound_T_59; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_61 = {_res_aligned_straddlesUpperBound_T_60[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_62 = ~_res_aligned_straddlesUpperBound_T_61; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesUpperBound_T_63 = _res_aligned_straddlesUpperBound_T_62[2:0]; // @[PMP.scala:60:27, :124:98] wire [2:0] _res_aligned_straddlesUpperBound_T_66 = _res_aligned_straddlesUpperBound_T_63; // @[PMP.scala:124:{98,115}] wire _res_aligned_straddlesUpperBound_T_67 = |_res_aligned_straddlesUpperBound_T_66; // @[PMP.scala:124:{115,148}] wire res_aligned_straddlesUpperBound_3 = _res_aligned_straddlesUpperBound_T_58 & _res_aligned_straddlesUpperBound_T_67; // @[PMP.scala:124:{77,85,148}] wire _res_aligned_rangeAligned_T_3 = res_aligned_straddlesLowerBound_3 | res_aligned_straddlesUpperBound_3; // @[PMP.scala:123:90, :124:85, :125:46] wire res_aligned_rangeAligned_3 = ~_res_aligned_rangeAligned_T_3; // @[PMP.scala:125:{24,46}] wire [2:0] _res_aligned_pow2Aligned_T_9 = io_pmp_4_mask_0[2:0]; // @[PMP.scala:126:39, :143:7] wire [2:0] _res_aligned_pow2Aligned_T_10 = ~_res_aligned_pow2Aligned_T_9; // @[PMP.scala:126:{34,39}] wire [2:0] _res_aligned_pow2Aligned_T_11 = _res_aligned_pow2Aligned_T_10; // @[PMP.scala:126:{32,34}] wire res_aligned_pow2Aligned_3 = _res_aligned_pow2Aligned_T_11 == 3'h0; // @[package.scala:243:76] wire res_aligned_3 = _res_aligned_T_3 ? res_aligned_pow2Aligned_3 : res_aligned_rangeAligned_3; // @[PMP.scala:45:20, :125:24, :126:57, :127:8] wire _res_T_135 = io_pmp_4_cfg_a_0 == 2'h0; // @[PMP.scala:143:7, :168:32] wire _GEN_16 = io_pmp_4_cfg_a_0 == 2'h1; // @[PMP.scala:143:7, :168:32] wire _res_T_136; // @[PMP.scala:168:32] assign _res_T_136 = _GEN_16; // @[PMP.scala:168:32] wire _res_T_155; // @[PMP.scala:177:61] assign _res_T_155 = _GEN_16; // @[PMP.scala:168:32, :177:61] wire _res_T_159; // @[PMP.scala:178:63] assign _res_T_159 = _GEN_16; // @[PMP.scala:168:32, :178:63] wire _GEN_17 = io_pmp_4_cfg_a_0 == 2'h2; // @[PMP.scala:143:7, :168:32] wire _res_T_137; // @[PMP.scala:168:32] assign _res_T_137 = _GEN_17; // @[PMP.scala:168:32] wire _res_T_164; // @[PMP.scala:177:61] assign _res_T_164 = _GEN_17; // @[PMP.scala:168:32, :177:61] wire _res_T_168; // @[PMP.scala:178:63] assign _res_T_168 = _GEN_17; // @[PMP.scala:168:32, :178:63] wire _res_T_138 = &io_pmp_4_cfg_a_0; // @[PMP.scala:143:7, :168:32] wire [1:0] _GEN_18 = {io_pmp_4_cfg_x_0, io_pmp_4_cfg_w_0}; // @[PMP.scala:143:7, :174:26] wire [1:0] res_hi_18; // @[PMP.scala:174:26] assign res_hi_18 = _GEN_18; // @[PMP.scala:174:26] wire [1:0] res_hi_19; // @[PMP.scala:174:26] assign res_hi_19 = _GEN_18; // @[PMP.scala:174:26] wire [1:0] res_hi_20; // @[PMP.scala:174:26] assign res_hi_20 = _GEN_18; // @[PMP.scala:174:26] wire [1:0] res_hi_21; // @[PMP.scala:174:26] assign res_hi_21 = _GEN_18; // @[PMP.scala:174:26] wire [1:0] res_hi_22; // @[PMP.scala:174:26] assign res_hi_22 = _GEN_18; // @[PMP.scala:174:26] wire [1:0] res_hi_23; // @[PMP.scala:174:26] assign res_hi_23 = _GEN_18; // @[PMP.scala:174:26] wire [2:0] _res_T_140 = {res_hi_18, io_pmp_4_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_141 = _res_T_140 == 3'h0; // @[package.scala:243:76] wire [2:0] _res_T_142 = {res_hi_19, io_pmp_4_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_143 = _res_T_142 == 3'h1; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_144 = {res_hi_20, io_pmp_4_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_145 = _res_T_144 == 3'h3; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_146 = {res_hi_21, io_pmp_4_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_147 = _res_T_146 == 3'h4; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_148 = {res_hi_22, io_pmp_4_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_149 = _res_T_148 == 3'h5; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_150 = {res_hi_23, io_pmp_4_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_151 = &_res_T_150; // @[PMP.scala:174:{26,60}] wire _res_T_152 = ~res_ignore_3; // @[PMP.scala:164:26, :177:22] wire _res_T_153 = _res_T_152 & res_hit_3; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_154 = _res_T_153 & res_aligned_3; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_156 = _res_T_154 & _res_T_155; // @[PMP.scala:177:{37,48,61}] wire _GEN_19 = io_pmp_4_cfg_l_0 & res_hit_3; // @[PMP.scala:132:8, :143:7, :178:32] wire _res_T_157; // @[PMP.scala:178:32] assign _res_T_157 = _GEN_19; // @[PMP.scala:178:32] wire _res_T_166; // @[PMP.scala:178:32] assign _res_T_166 = _GEN_19; // @[PMP.scala:178:32] wire _res_T_175; // @[PMP.scala:178:32] assign _res_T_175 = _GEN_19; // @[PMP.scala:178:32] wire _res_T_158 = _res_T_157 & res_aligned_3; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_160 = _res_T_158 & _res_T_159; // @[PMP.scala:178:{39,50,63}] wire _res_T_161 = ~res_ignore_3; // @[PMP.scala:164:26, :177:22] wire _res_T_162 = _res_T_161 & res_hit_3; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_163 = _res_T_162 & res_aligned_3; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_165 = _res_T_163 & _res_T_164; // @[PMP.scala:177:{37,48,61}] wire _res_T_167 = _res_T_166 & res_aligned_3; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_169 = _res_T_167 & _res_T_168; // @[PMP.scala:178:{39,50,63}] wire _res_T_170 = ~res_ignore_3; // @[PMP.scala:164:26, :177:22] wire _res_T_171 = _res_T_170 & res_hit_3; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_172 = _res_T_171 & res_aligned_3; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_173 = &io_pmp_4_cfg_a_0; // @[PMP.scala:143:7, :168:32, :177:61] wire _res_T_174 = _res_T_172 & _res_T_173; // @[PMP.scala:177:{37,48,61}] wire _res_T_176 = _res_T_175 & res_aligned_3; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_177 = &io_pmp_4_cfg_a_0; // @[PMP.scala:143:7, :168:32, :178:63] wire _res_T_178 = _res_T_176 & _res_T_177; // @[PMP.scala:178:{39,50,63}] wire _res_cur_cfg_x_T_7; // @[PMP.scala:184:26] wire _res_cur_cfg_w_T_7; // @[PMP.scala:183:26] wire _res_cur_cfg_r_T_7; // @[PMP.scala:182:26] wire res_cur_3_cfg_x; // @[PMP.scala:181:23] wire res_cur_3_cfg_w; // @[PMP.scala:181:23] wire res_cur_3_cfg_r; // @[PMP.scala:181:23] wire _res_cur_cfg_r_T_6 = io_pmp_4_cfg_r_0 | res_ignore_3; // @[PMP.scala:143:7, :164:26, :182:40] assign _res_cur_cfg_r_T_7 = res_aligned_3 & _res_cur_cfg_r_T_6; // @[PMP.scala:127:8, :182:{26,40}] assign res_cur_3_cfg_r = _res_cur_cfg_r_T_7; // @[PMP.scala:181:23, :182:26] wire _res_cur_cfg_w_T_6 = io_pmp_4_cfg_w_0 | res_ignore_3; // @[PMP.scala:143:7, :164:26, :183:40] assign _res_cur_cfg_w_T_7 = res_aligned_3 & _res_cur_cfg_w_T_6; // @[PMP.scala:127:8, :183:{26,40}] assign res_cur_3_cfg_w = _res_cur_cfg_w_T_7; // @[PMP.scala:181:23, :183:26] wire _res_cur_cfg_x_T_6 = io_pmp_4_cfg_x_0 | res_ignore_3; // @[PMP.scala:143:7, :164:26, :184:40] assign _res_cur_cfg_x_T_7 = res_aligned_3 & _res_cur_cfg_x_T_6; // @[PMP.scala:127:8, :184:{26,40}] assign res_cur_3_cfg_x = _res_cur_cfg_x_T_7; // @[PMP.scala:181:23, :184:26] wire _res_T_179_cfg_l = res_hit_3 ? res_cur_3_cfg_l : _res_T_134_cfg_l; // @[PMP.scala:132:8, :181:23, :185:8] wire [1:0] _res_T_179_cfg_a = res_hit_3 ? res_cur_3_cfg_a : _res_T_134_cfg_a; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_179_cfg_x = res_hit_3 ? res_cur_3_cfg_x : _res_T_134_cfg_x; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_179_cfg_w = res_hit_3 ? res_cur_3_cfg_w : _res_T_134_cfg_w; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_179_cfg_r = res_hit_3 ? res_cur_3_cfg_r : _res_T_134_cfg_r; // @[PMP.scala:132:8, :181:23, :185:8] wire [29:0] _res_T_179_addr = res_hit_3 ? res_cur_3_addr : _res_T_134_addr; // @[PMP.scala:132:8, :181:23, :185:8] wire [31:0] _res_T_179_mask = res_hit_3 ? res_cur_3_mask : _res_T_134_mask; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_hit_T_52 = io_pmp_3_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire _res_aligned_T_4 = io_pmp_3_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire [28:0] _res_hit_msbMatch_T_46 = io_pmp_3_mask_0[31:3]; // @[PMP.scala:68:26, :69:72, :143:7] wire [31:0] res_hit_lsbMask_4 = {_res_hit_msbMatch_T_46, 3'h7}; // @[package.scala:243:46] wire [31:0] _res_hit_msbMatch_T_42 = ~_res_hit_msbMatch_T_41; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbMatch_T_43 = {_res_hit_msbMatch_T_42[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbMatch_T_44 = ~_res_hit_msbMatch_T_43; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbMatch_T_45 = _res_hit_msbMatch_T_44[31:3]; // @[PMP.scala:60:27, :69:53] wire [28:0] _res_hit_msbMatch_T_47 = _res_hit_msbMatch_T_40 ^ _res_hit_msbMatch_T_45; // @[PMP.scala:63:47, :69:{29,53}] wire [28:0] _res_hit_msbMatch_T_48 = ~_res_hit_msbMatch_T_46; // @[PMP.scala:63:54, :69:72] wire [28:0] _res_hit_msbMatch_T_49 = _res_hit_msbMatch_T_47 & _res_hit_msbMatch_T_48; // @[PMP.scala:63:{47,52,54}] wire res_hit_msbMatch_4 = _res_hit_msbMatch_T_49 == 29'h0; // @[PMP.scala:63:{52,58}, :80:52, :81:54, :123:67] wire [31:0] _res_hit_lsbMatch_T_42 = ~_res_hit_lsbMatch_T_41; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbMatch_T_43 = {_res_hit_lsbMatch_T_42[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbMatch_T_44 = ~_res_hit_lsbMatch_T_43; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbMatch_T_45 = _res_hit_lsbMatch_T_44[2:0]; // @[PMP.scala:60:27, :70:55] wire [2:0] _res_hit_lsbMatch_T_46 = res_hit_lsbMask_4[2:0]; // @[PMP.scala:68:26, :70:80] wire [2:0] _res_hit_lsbMatch_T_47 = _res_hit_lsbMatch_T_40 ^ _res_hit_lsbMatch_T_45; // @[PMP.scala:63:47, :70:{28,55}] wire [2:0] _res_hit_lsbMatch_T_48 = ~_res_hit_lsbMatch_T_46; // @[PMP.scala:63:54, :70:80] wire [2:0] _res_hit_lsbMatch_T_49 = _res_hit_lsbMatch_T_47 & _res_hit_lsbMatch_T_48; // @[PMP.scala:63:{47,52,54}] wire res_hit_lsbMatch_4 = _res_hit_lsbMatch_T_49 == 3'h0; // @[package.scala:243:76] wire _res_hit_T_53 = res_hit_msbMatch_4 & res_hit_lsbMatch_4; // @[PMP.scala:63:58, :71:16] wire _res_hit_T_54 = io_pmp_3_cfg_a_0[0]; // @[PMP.scala:46:26, :143:7] wire [31:0] _GEN_20 = {io_pmp_2_addr_0, 2'h0}; // @[PMP.scala:60:36, :143:7] wire [31:0] _res_hit_msbsLess_T_49; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_49 = _GEN_20; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_57; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_57 = _GEN_20; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_58; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_58 = _GEN_20; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_69; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_69 = _GEN_20; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_76; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_76 = _GEN_20; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbMatch_T_51; // @[PMP.scala:60:36] assign _res_hit_msbMatch_T_51 = _GEN_20; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbMatch_T_51; // @[PMP.scala:60:36] assign _res_hit_lsbMatch_T_51 = _GEN_20; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_67; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_67 = _GEN_20; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_78; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_78 = _GEN_20; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_79; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_79 = _GEN_20; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_86; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_86 = _GEN_20; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_93; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_93 = _GEN_20; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_50 = ~_res_hit_msbsLess_T_49; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_51 = {_res_hit_msbsLess_T_50[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_52 = ~_res_hit_msbsLess_T_51; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_53 = _res_hit_msbsLess_T_52[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_8 = _res_hit_msbsLess_T_48 < _res_hit_msbsLess_T_53; // @[PMP.scala:80:{25,39,52}] wire _res_hit_T_59 = res_hit_msbsLess_8; // @[PMP.scala:80:39, :83:16] wire [31:0] _res_hit_msbsEqual_T_58 = ~_res_hit_msbsEqual_T_57; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_59 = {_res_hit_msbsEqual_T_58[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_60 = ~_res_hit_msbsEqual_T_59; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_61 = _res_hit_msbsEqual_T_60[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_62 = _res_hit_msbsEqual_T_56 ^ _res_hit_msbsEqual_T_61; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_8 = _res_hit_msbsEqual_T_62 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [31:0] _res_hit_lsbsLess_T_59 = ~_res_hit_lsbsLess_T_58; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_60 = {_res_hit_lsbsLess_T_59[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_61 = ~_res_hit_lsbsLess_T_60; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_62 = _res_hit_lsbsLess_T_61[2:0]; // @[PMP.scala:60:27, :82:64] wire _res_hit_T_60 = ~_res_hit_T_59; // @[PMP.scala:83:16, :88:5] wire [31:0] _res_hit_msbsLess_T_56 = ~_res_hit_msbsLess_T_55; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_57 = {_res_hit_msbsLess_T_56[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_58 = ~_res_hit_msbsLess_T_57; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_59 = _res_hit_msbsLess_T_58[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_9 = _res_hit_msbsLess_T_54 < _res_hit_msbsLess_T_59; // @[PMP.scala:80:{25,39,52}] wire [31:0] _res_hit_msbsEqual_T_65 = ~_res_hit_msbsEqual_T_64; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_66 = {_res_hit_msbsEqual_T_65[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_67 = ~_res_hit_msbsEqual_T_66; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_68 = _res_hit_msbsEqual_T_67[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_69 = _res_hit_msbsEqual_T_63 ^ _res_hit_msbsEqual_T_68; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_9 = _res_hit_msbsEqual_T_69 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [2:0] _res_hit_lsbsLess_T_64 = _res_hit_lsbsLess_T_63; // @[PMP.scala:82:{25,42}] wire [31:0] _res_hit_lsbsLess_T_66 = ~_res_hit_lsbsLess_T_65; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_67 = {_res_hit_lsbsLess_T_66[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_68 = ~_res_hit_lsbsLess_T_67; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_69 = _res_hit_lsbsLess_T_68[2:0]; // @[PMP.scala:60:27, :82:64] wire res_hit_lsbsLess_9 = _res_hit_lsbsLess_T_64 < _res_hit_lsbsLess_T_69; // @[PMP.scala:82:{42,53,64}] wire _res_hit_T_61 = res_hit_msbsEqual_9 & res_hit_lsbsLess_9; // @[PMP.scala:81:69, :82:53, :83:30] wire _res_hit_T_62 = res_hit_msbsLess_9 | _res_hit_T_61; // @[PMP.scala:80:39, :83:{16,30}] wire _res_hit_T_63 = _res_hit_T_60 & _res_hit_T_62; // @[PMP.scala:83:16, :88:5, :94:48] wire _res_hit_T_64 = _res_hit_T_54 & _res_hit_T_63; // @[PMP.scala:46:26, :94:48, :132:61] wire res_hit_4 = _res_hit_T_52 ? _res_hit_T_53 : _res_hit_T_64; // @[PMP.scala:45:20, :71:16, :132:{8,61}] wire _res_ignore_T_4 = ~io_pmp_3_cfg_l_0; // @[PMP.scala:143:7, :164:29] wire res_ignore_4 = default_0 & _res_ignore_T_4; // @[PMP.scala:156:56, :164:{26,29}] wire [31:0] _res_aligned_straddlesLowerBound_T_70 = ~_res_aligned_straddlesLowerBound_T_69; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_71 = {_res_aligned_straddlesLowerBound_T_70[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_72 = ~_res_aligned_straddlesLowerBound_T_71; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesLowerBound_T_73 = _res_aligned_straddlesLowerBound_T_72[31:3]; // @[PMP.scala:60:27, :123:67] wire [28:0] _res_aligned_straddlesLowerBound_T_74 = _res_aligned_straddlesLowerBound_T_68 ^ _res_aligned_straddlesLowerBound_T_73; // @[PMP.scala:123:{35,49,67}] wire _res_aligned_straddlesLowerBound_T_75 = _res_aligned_straddlesLowerBound_T_74 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:{49,67,82}] wire [31:0] _res_aligned_straddlesLowerBound_T_77 = ~_res_aligned_straddlesLowerBound_T_76; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_78 = {_res_aligned_straddlesLowerBound_T_77[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_79 = ~_res_aligned_straddlesLowerBound_T_78; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesLowerBound_T_80 = _res_aligned_straddlesLowerBound_T_79[2:0]; // @[PMP.scala:60:27, :123:108] wire [2:0] _res_aligned_straddlesLowerBound_T_82 = ~_res_aligned_straddlesLowerBound_T_81; // @[PMP.scala:123:{127,129}] wire [2:0] _res_aligned_straddlesLowerBound_T_83 = _res_aligned_straddlesLowerBound_T_80 & _res_aligned_straddlesLowerBound_T_82; // @[PMP.scala:123:{108,125,127}] wire _res_aligned_straddlesLowerBound_T_84 = |_res_aligned_straddlesLowerBound_T_83; // @[PMP.scala:123:{125,147}] wire res_aligned_straddlesLowerBound_4 = _res_aligned_straddlesLowerBound_T_75 & _res_aligned_straddlesLowerBound_T_84; // @[PMP.scala:123:{82,90,147}] wire [31:0] _res_aligned_straddlesUpperBound_T_70 = ~_res_aligned_straddlesUpperBound_T_69; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_71 = {_res_aligned_straddlesUpperBound_T_70[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_72 = ~_res_aligned_straddlesUpperBound_T_71; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesUpperBound_T_73 = _res_aligned_straddlesUpperBound_T_72[31:3]; // @[PMP.scala:60:27, :124:62] wire [28:0] _res_aligned_straddlesUpperBound_T_74 = _res_aligned_straddlesUpperBound_T_68 ^ _res_aligned_straddlesUpperBound_T_73; // @[PMP.scala:124:{35,49,62}] wire _res_aligned_straddlesUpperBound_T_75 = _res_aligned_straddlesUpperBound_T_74 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:67, :124:{49,77}] wire [31:0] _res_aligned_straddlesUpperBound_T_77 = ~_res_aligned_straddlesUpperBound_T_76; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_78 = {_res_aligned_straddlesUpperBound_T_77[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_79 = ~_res_aligned_straddlesUpperBound_T_78; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesUpperBound_T_80 = _res_aligned_straddlesUpperBound_T_79[2:0]; // @[PMP.scala:60:27, :124:98] wire [2:0] _res_aligned_straddlesUpperBound_T_83 = _res_aligned_straddlesUpperBound_T_80; // @[PMP.scala:124:{98,115}] wire _res_aligned_straddlesUpperBound_T_84 = |_res_aligned_straddlesUpperBound_T_83; // @[PMP.scala:124:{115,148}] wire res_aligned_straddlesUpperBound_4 = _res_aligned_straddlesUpperBound_T_75 & _res_aligned_straddlesUpperBound_T_84; // @[PMP.scala:124:{77,85,148}] wire _res_aligned_rangeAligned_T_4 = res_aligned_straddlesLowerBound_4 | res_aligned_straddlesUpperBound_4; // @[PMP.scala:123:90, :124:85, :125:46] wire res_aligned_rangeAligned_4 = ~_res_aligned_rangeAligned_T_4; // @[PMP.scala:125:{24,46}] wire [2:0] _res_aligned_pow2Aligned_T_12 = io_pmp_3_mask_0[2:0]; // @[PMP.scala:126:39, :143:7] wire [2:0] _res_aligned_pow2Aligned_T_13 = ~_res_aligned_pow2Aligned_T_12; // @[PMP.scala:126:{34,39}] wire [2:0] _res_aligned_pow2Aligned_T_14 = _res_aligned_pow2Aligned_T_13; // @[PMP.scala:126:{32,34}] wire res_aligned_pow2Aligned_4 = _res_aligned_pow2Aligned_T_14 == 3'h0; // @[package.scala:243:76] wire res_aligned_4 = _res_aligned_T_4 ? res_aligned_pow2Aligned_4 : res_aligned_rangeAligned_4; // @[PMP.scala:45:20, :125:24, :126:57, :127:8] wire _res_T_180 = io_pmp_3_cfg_a_0 == 2'h0; // @[PMP.scala:143:7, :168:32] wire _GEN_21 = io_pmp_3_cfg_a_0 == 2'h1; // @[PMP.scala:143:7, :168:32] wire _res_T_181; // @[PMP.scala:168:32] assign _res_T_181 = _GEN_21; // @[PMP.scala:168:32] wire _res_T_200; // @[PMP.scala:177:61] assign _res_T_200 = _GEN_21; // @[PMP.scala:168:32, :177:61] wire _res_T_204; // @[PMP.scala:178:63] assign _res_T_204 = _GEN_21; // @[PMP.scala:168:32, :178:63] wire _GEN_22 = io_pmp_3_cfg_a_0 == 2'h2; // @[PMP.scala:143:7, :168:32] wire _res_T_182; // @[PMP.scala:168:32] assign _res_T_182 = _GEN_22; // @[PMP.scala:168:32] wire _res_T_209; // @[PMP.scala:177:61] assign _res_T_209 = _GEN_22; // @[PMP.scala:168:32, :177:61] wire _res_T_213; // @[PMP.scala:178:63] assign _res_T_213 = _GEN_22; // @[PMP.scala:168:32, :178:63] wire _res_T_183 = &io_pmp_3_cfg_a_0; // @[PMP.scala:143:7, :168:32] wire [1:0] _GEN_23 = {io_pmp_3_cfg_x_0, io_pmp_3_cfg_w_0}; // @[PMP.scala:143:7, :174:26] wire [1:0] res_hi_24; // @[PMP.scala:174:26] assign res_hi_24 = _GEN_23; // @[PMP.scala:174:26] wire [1:0] res_hi_25; // @[PMP.scala:174:26] assign res_hi_25 = _GEN_23; // @[PMP.scala:174:26] wire [1:0] res_hi_26; // @[PMP.scala:174:26] assign res_hi_26 = _GEN_23; // @[PMP.scala:174:26] wire [1:0] res_hi_27; // @[PMP.scala:174:26] assign res_hi_27 = _GEN_23; // @[PMP.scala:174:26] wire [1:0] res_hi_28; // @[PMP.scala:174:26] assign res_hi_28 = _GEN_23; // @[PMP.scala:174:26] wire [1:0] res_hi_29; // @[PMP.scala:174:26] assign res_hi_29 = _GEN_23; // @[PMP.scala:174:26] wire [2:0] _res_T_185 = {res_hi_24, io_pmp_3_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_186 = _res_T_185 == 3'h0; // @[package.scala:243:76] wire [2:0] _res_T_187 = {res_hi_25, io_pmp_3_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_188 = _res_T_187 == 3'h1; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_189 = {res_hi_26, io_pmp_3_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_190 = _res_T_189 == 3'h3; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_191 = {res_hi_27, io_pmp_3_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_192 = _res_T_191 == 3'h4; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_193 = {res_hi_28, io_pmp_3_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_194 = _res_T_193 == 3'h5; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_195 = {res_hi_29, io_pmp_3_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_196 = &_res_T_195; // @[PMP.scala:174:{26,60}] wire _res_T_197 = ~res_ignore_4; // @[PMP.scala:164:26, :177:22] wire _res_T_198 = _res_T_197 & res_hit_4; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_199 = _res_T_198 & res_aligned_4; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_201 = _res_T_199 & _res_T_200; // @[PMP.scala:177:{37,48,61}] wire _GEN_24 = io_pmp_3_cfg_l_0 & res_hit_4; // @[PMP.scala:132:8, :143:7, :178:32] wire _res_T_202; // @[PMP.scala:178:32] assign _res_T_202 = _GEN_24; // @[PMP.scala:178:32] wire _res_T_211; // @[PMP.scala:178:32] assign _res_T_211 = _GEN_24; // @[PMP.scala:178:32] wire _res_T_220; // @[PMP.scala:178:32] assign _res_T_220 = _GEN_24; // @[PMP.scala:178:32] wire _res_T_203 = _res_T_202 & res_aligned_4; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_205 = _res_T_203 & _res_T_204; // @[PMP.scala:178:{39,50,63}] wire _res_T_206 = ~res_ignore_4; // @[PMP.scala:164:26, :177:22] wire _res_T_207 = _res_T_206 & res_hit_4; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_208 = _res_T_207 & res_aligned_4; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_210 = _res_T_208 & _res_T_209; // @[PMP.scala:177:{37,48,61}] wire _res_T_212 = _res_T_211 & res_aligned_4; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_214 = _res_T_212 & _res_T_213; // @[PMP.scala:178:{39,50,63}] wire _res_T_215 = ~res_ignore_4; // @[PMP.scala:164:26, :177:22] wire _res_T_216 = _res_T_215 & res_hit_4; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_217 = _res_T_216 & res_aligned_4; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_218 = &io_pmp_3_cfg_a_0; // @[PMP.scala:143:7, :168:32, :177:61] wire _res_T_219 = _res_T_217 & _res_T_218; // @[PMP.scala:177:{37,48,61}] wire _res_T_221 = _res_T_220 & res_aligned_4; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_222 = &io_pmp_3_cfg_a_0; // @[PMP.scala:143:7, :168:32, :178:63] wire _res_T_223 = _res_T_221 & _res_T_222; // @[PMP.scala:178:{39,50,63}] wire _res_cur_cfg_x_T_9; // @[PMP.scala:184:26] wire _res_cur_cfg_w_T_9; // @[PMP.scala:183:26] wire _res_cur_cfg_r_T_9; // @[PMP.scala:182:26] wire res_cur_4_cfg_x; // @[PMP.scala:181:23] wire res_cur_4_cfg_w; // @[PMP.scala:181:23] wire res_cur_4_cfg_r; // @[PMP.scala:181:23] wire _res_cur_cfg_r_T_8 = io_pmp_3_cfg_r_0 | res_ignore_4; // @[PMP.scala:143:7, :164:26, :182:40] assign _res_cur_cfg_r_T_9 = res_aligned_4 & _res_cur_cfg_r_T_8; // @[PMP.scala:127:8, :182:{26,40}] assign res_cur_4_cfg_r = _res_cur_cfg_r_T_9; // @[PMP.scala:181:23, :182:26] wire _res_cur_cfg_w_T_8 = io_pmp_3_cfg_w_0 | res_ignore_4; // @[PMP.scala:143:7, :164:26, :183:40] assign _res_cur_cfg_w_T_9 = res_aligned_4 & _res_cur_cfg_w_T_8; // @[PMP.scala:127:8, :183:{26,40}] assign res_cur_4_cfg_w = _res_cur_cfg_w_T_9; // @[PMP.scala:181:23, :183:26] wire _res_cur_cfg_x_T_8 = io_pmp_3_cfg_x_0 | res_ignore_4; // @[PMP.scala:143:7, :164:26, :184:40] assign _res_cur_cfg_x_T_9 = res_aligned_4 & _res_cur_cfg_x_T_8; // @[PMP.scala:127:8, :184:{26,40}] assign res_cur_4_cfg_x = _res_cur_cfg_x_T_9; // @[PMP.scala:181:23, :184:26] wire _res_T_224_cfg_l = res_hit_4 ? res_cur_4_cfg_l : _res_T_179_cfg_l; // @[PMP.scala:132:8, :181:23, :185:8] wire [1:0] _res_T_224_cfg_a = res_hit_4 ? res_cur_4_cfg_a : _res_T_179_cfg_a; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_224_cfg_x = res_hit_4 ? res_cur_4_cfg_x : _res_T_179_cfg_x; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_224_cfg_w = res_hit_4 ? res_cur_4_cfg_w : _res_T_179_cfg_w; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_224_cfg_r = res_hit_4 ? res_cur_4_cfg_r : _res_T_179_cfg_r; // @[PMP.scala:132:8, :181:23, :185:8] wire [29:0] _res_T_224_addr = res_hit_4 ? res_cur_4_addr : _res_T_179_addr; // @[PMP.scala:132:8, :181:23, :185:8] wire [31:0] _res_T_224_mask = res_hit_4 ? res_cur_4_mask : _res_T_179_mask; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_hit_T_65 = io_pmp_2_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire _res_aligned_T_5 = io_pmp_2_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire [28:0] _res_hit_msbMatch_T_56 = io_pmp_2_mask_0[31:3]; // @[PMP.scala:68:26, :69:72, :143:7] wire [31:0] res_hit_lsbMask_5 = {_res_hit_msbMatch_T_56, 3'h7}; // @[package.scala:243:46] wire [31:0] _res_hit_msbMatch_T_52 = ~_res_hit_msbMatch_T_51; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbMatch_T_53 = {_res_hit_msbMatch_T_52[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbMatch_T_54 = ~_res_hit_msbMatch_T_53; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbMatch_T_55 = _res_hit_msbMatch_T_54[31:3]; // @[PMP.scala:60:27, :69:53] wire [28:0] _res_hit_msbMatch_T_57 = _res_hit_msbMatch_T_50 ^ _res_hit_msbMatch_T_55; // @[PMP.scala:63:47, :69:{29,53}] wire [28:0] _res_hit_msbMatch_T_58 = ~_res_hit_msbMatch_T_56; // @[PMP.scala:63:54, :69:72] wire [28:0] _res_hit_msbMatch_T_59 = _res_hit_msbMatch_T_57 & _res_hit_msbMatch_T_58; // @[PMP.scala:63:{47,52,54}] wire res_hit_msbMatch_5 = _res_hit_msbMatch_T_59 == 29'h0; // @[PMP.scala:63:{52,58}, :80:52, :81:54, :123:67] wire [31:0] _res_hit_lsbMatch_T_52 = ~_res_hit_lsbMatch_T_51; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbMatch_T_53 = {_res_hit_lsbMatch_T_52[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbMatch_T_54 = ~_res_hit_lsbMatch_T_53; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbMatch_T_55 = _res_hit_lsbMatch_T_54[2:0]; // @[PMP.scala:60:27, :70:55] wire [2:0] _res_hit_lsbMatch_T_56 = res_hit_lsbMask_5[2:0]; // @[PMP.scala:68:26, :70:80] wire [2:0] _res_hit_lsbMatch_T_57 = _res_hit_lsbMatch_T_50 ^ _res_hit_lsbMatch_T_55; // @[PMP.scala:63:47, :70:{28,55}] wire [2:0] _res_hit_lsbMatch_T_58 = ~_res_hit_lsbMatch_T_56; // @[PMP.scala:63:54, :70:80] wire [2:0] _res_hit_lsbMatch_T_59 = _res_hit_lsbMatch_T_57 & _res_hit_lsbMatch_T_58; // @[PMP.scala:63:{47,52,54}] wire res_hit_lsbMatch_5 = _res_hit_lsbMatch_T_59 == 3'h0; // @[package.scala:243:76] wire _res_hit_T_66 = res_hit_msbMatch_5 & res_hit_lsbMatch_5; // @[PMP.scala:63:58, :71:16] wire _res_hit_T_67 = io_pmp_2_cfg_a_0[0]; // @[PMP.scala:46:26, :143:7] wire [31:0] _GEN_25 = {io_pmp_1_addr_0, 2'h0}; // @[PMP.scala:60:36, :143:7] wire [31:0] _res_hit_msbsLess_T_61; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_61 = _GEN_25; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_71; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_71 = _GEN_25; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_72; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_72 = _GEN_25; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_86; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_86 = _GEN_25; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_93; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_93 = _GEN_25; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbMatch_T_61; // @[PMP.scala:60:36] assign _res_hit_msbMatch_T_61 = _GEN_25; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbMatch_T_61; // @[PMP.scala:60:36] assign _res_hit_lsbMatch_T_61 = _GEN_25; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_79; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_79 = _GEN_25; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_92; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_92 = _GEN_25; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_93; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_93 = _GEN_25; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_103; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_103 = _GEN_25; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_110; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_110 = _GEN_25; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_62 = ~_res_hit_msbsLess_T_61; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_63 = {_res_hit_msbsLess_T_62[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_64 = ~_res_hit_msbsLess_T_63; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_65 = _res_hit_msbsLess_T_64[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_10 = _res_hit_msbsLess_T_60 < _res_hit_msbsLess_T_65; // @[PMP.scala:80:{25,39,52}] wire _res_hit_T_72 = res_hit_msbsLess_10; // @[PMP.scala:80:39, :83:16] wire [31:0] _res_hit_msbsEqual_T_72 = ~_res_hit_msbsEqual_T_71; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_73 = {_res_hit_msbsEqual_T_72[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_74 = ~_res_hit_msbsEqual_T_73; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_75 = _res_hit_msbsEqual_T_74[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_76 = _res_hit_msbsEqual_T_70 ^ _res_hit_msbsEqual_T_75; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_10 = _res_hit_msbsEqual_T_76 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [31:0] _res_hit_lsbsLess_T_73 = ~_res_hit_lsbsLess_T_72; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_74 = {_res_hit_lsbsLess_T_73[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_75 = ~_res_hit_lsbsLess_T_74; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_76 = _res_hit_lsbsLess_T_75[2:0]; // @[PMP.scala:60:27, :82:64] wire _res_hit_T_73 = ~_res_hit_T_72; // @[PMP.scala:83:16, :88:5] wire [31:0] _res_hit_msbsLess_T_68 = ~_res_hit_msbsLess_T_67; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_69 = {_res_hit_msbsLess_T_68[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_70 = ~_res_hit_msbsLess_T_69; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_71 = _res_hit_msbsLess_T_70[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_11 = _res_hit_msbsLess_T_66 < _res_hit_msbsLess_T_71; // @[PMP.scala:80:{25,39,52}] wire [31:0] _res_hit_msbsEqual_T_79 = ~_res_hit_msbsEqual_T_78; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_80 = {_res_hit_msbsEqual_T_79[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_81 = ~_res_hit_msbsEqual_T_80; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_82 = _res_hit_msbsEqual_T_81[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_83 = _res_hit_msbsEqual_T_77 ^ _res_hit_msbsEqual_T_82; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_11 = _res_hit_msbsEqual_T_83 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [2:0] _res_hit_lsbsLess_T_78 = _res_hit_lsbsLess_T_77; // @[PMP.scala:82:{25,42}] wire [31:0] _res_hit_lsbsLess_T_80 = ~_res_hit_lsbsLess_T_79; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_81 = {_res_hit_lsbsLess_T_80[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_82 = ~_res_hit_lsbsLess_T_81; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_83 = _res_hit_lsbsLess_T_82[2:0]; // @[PMP.scala:60:27, :82:64] wire res_hit_lsbsLess_11 = _res_hit_lsbsLess_T_78 < _res_hit_lsbsLess_T_83; // @[PMP.scala:82:{42,53,64}] wire _res_hit_T_74 = res_hit_msbsEqual_11 & res_hit_lsbsLess_11; // @[PMP.scala:81:69, :82:53, :83:30] wire _res_hit_T_75 = res_hit_msbsLess_11 | _res_hit_T_74; // @[PMP.scala:80:39, :83:{16,30}] wire _res_hit_T_76 = _res_hit_T_73 & _res_hit_T_75; // @[PMP.scala:83:16, :88:5, :94:48] wire _res_hit_T_77 = _res_hit_T_67 & _res_hit_T_76; // @[PMP.scala:46:26, :94:48, :132:61] wire res_hit_5 = _res_hit_T_65 ? _res_hit_T_66 : _res_hit_T_77; // @[PMP.scala:45:20, :71:16, :132:{8,61}] wire _res_ignore_T_5 = ~io_pmp_2_cfg_l_0; // @[PMP.scala:143:7, :164:29] wire res_ignore_5 = default_0 & _res_ignore_T_5; // @[PMP.scala:156:56, :164:{26,29}] wire [31:0] _res_aligned_straddlesLowerBound_T_87 = ~_res_aligned_straddlesLowerBound_T_86; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_88 = {_res_aligned_straddlesLowerBound_T_87[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_89 = ~_res_aligned_straddlesLowerBound_T_88; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesLowerBound_T_90 = _res_aligned_straddlesLowerBound_T_89[31:3]; // @[PMP.scala:60:27, :123:67] wire [28:0] _res_aligned_straddlesLowerBound_T_91 = _res_aligned_straddlesLowerBound_T_85 ^ _res_aligned_straddlesLowerBound_T_90; // @[PMP.scala:123:{35,49,67}] wire _res_aligned_straddlesLowerBound_T_92 = _res_aligned_straddlesLowerBound_T_91 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:{49,67,82}] wire [31:0] _res_aligned_straddlesLowerBound_T_94 = ~_res_aligned_straddlesLowerBound_T_93; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_95 = {_res_aligned_straddlesLowerBound_T_94[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_96 = ~_res_aligned_straddlesLowerBound_T_95; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesLowerBound_T_97 = _res_aligned_straddlesLowerBound_T_96[2:0]; // @[PMP.scala:60:27, :123:108] wire [2:0] _res_aligned_straddlesLowerBound_T_99 = ~_res_aligned_straddlesLowerBound_T_98; // @[PMP.scala:123:{127,129}] wire [2:0] _res_aligned_straddlesLowerBound_T_100 = _res_aligned_straddlesLowerBound_T_97 & _res_aligned_straddlesLowerBound_T_99; // @[PMP.scala:123:{108,125,127}] wire _res_aligned_straddlesLowerBound_T_101 = |_res_aligned_straddlesLowerBound_T_100; // @[PMP.scala:123:{125,147}] wire res_aligned_straddlesLowerBound_5 = _res_aligned_straddlesLowerBound_T_92 & _res_aligned_straddlesLowerBound_T_101; // @[PMP.scala:123:{82,90,147}] wire [31:0] _res_aligned_straddlesUpperBound_T_87 = ~_res_aligned_straddlesUpperBound_T_86; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_88 = {_res_aligned_straddlesUpperBound_T_87[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_89 = ~_res_aligned_straddlesUpperBound_T_88; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesUpperBound_T_90 = _res_aligned_straddlesUpperBound_T_89[31:3]; // @[PMP.scala:60:27, :124:62] wire [28:0] _res_aligned_straddlesUpperBound_T_91 = _res_aligned_straddlesUpperBound_T_85 ^ _res_aligned_straddlesUpperBound_T_90; // @[PMP.scala:124:{35,49,62}] wire _res_aligned_straddlesUpperBound_T_92 = _res_aligned_straddlesUpperBound_T_91 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:67, :124:{49,77}] wire [31:0] _res_aligned_straddlesUpperBound_T_94 = ~_res_aligned_straddlesUpperBound_T_93; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_95 = {_res_aligned_straddlesUpperBound_T_94[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_96 = ~_res_aligned_straddlesUpperBound_T_95; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesUpperBound_T_97 = _res_aligned_straddlesUpperBound_T_96[2:0]; // @[PMP.scala:60:27, :124:98] wire [2:0] _res_aligned_straddlesUpperBound_T_100 = _res_aligned_straddlesUpperBound_T_97; // @[PMP.scala:124:{98,115}] wire _res_aligned_straddlesUpperBound_T_101 = |_res_aligned_straddlesUpperBound_T_100; // @[PMP.scala:124:{115,148}] wire res_aligned_straddlesUpperBound_5 = _res_aligned_straddlesUpperBound_T_92 & _res_aligned_straddlesUpperBound_T_101; // @[PMP.scala:124:{77,85,148}] wire _res_aligned_rangeAligned_T_5 = res_aligned_straddlesLowerBound_5 | res_aligned_straddlesUpperBound_5; // @[PMP.scala:123:90, :124:85, :125:46] wire res_aligned_rangeAligned_5 = ~_res_aligned_rangeAligned_T_5; // @[PMP.scala:125:{24,46}] wire [2:0] _res_aligned_pow2Aligned_T_15 = io_pmp_2_mask_0[2:0]; // @[PMP.scala:126:39, :143:7] wire [2:0] _res_aligned_pow2Aligned_T_16 = ~_res_aligned_pow2Aligned_T_15; // @[PMP.scala:126:{34,39}] wire [2:0] _res_aligned_pow2Aligned_T_17 = _res_aligned_pow2Aligned_T_16; // @[PMP.scala:126:{32,34}] wire res_aligned_pow2Aligned_5 = _res_aligned_pow2Aligned_T_17 == 3'h0; // @[package.scala:243:76] wire res_aligned_5 = _res_aligned_T_5 ? res_aligned_pow2Aligned_5 : res_aligned_rangeAligned_5; // @[PMP.scala:45:20, :125:24, :126:57, :127:8] wire _res_T_225 = io_pmp_2_cfg_a_0 == 2'h0; // @[PMP.scala:143:7, :168:32] wire _GEN_26 = io_pmp_2_cfg_a_0 == 2'h1; // @[PMP.scala:143:7, :168:32] wire _res_T_226; // @[PMP.scala:168:32] assign _res_T_226 = _GEN_26; // @[PMP.scala:168:32] wire _res_T_245; // @[PMP.scala:177:61] assign _res_T_245 = _GEN_26; // @[PMP.scala:168:32, :177:61] wire _res_T_249; // @[PMP.scala:178:63] assign _res_T_249 = _GEN_26; // @[PMP.scala:168:32, :178:63] wire _GEN_27 = io_pmp_2_cfg_a_0 == 2'h2; // @[PMP.scala:143:7, :168:32] wire _res_T_227; // @[PMP.scala:168:32] assign _res_T_227 = _GEN_27; // @[PMP.scala:168:32] wire _res_T_254; // @[PMP.scala:177:61] assign _res_T_254 = _GEN_27; // @[PMP.scala:168:32, :177:61] wire _res_T_258; // @[PMP.scala:178:63] assign _res_T_258 = _GEN_27; // @[PMP.scala:168:32, :178:63] wire _res_T_228 = &io_pmp_2_cfg_a_0; // @[PMP.scala:143:7, :168:32] wire [1:0] _GEN_28 = {io_pmp_2_cfg_x_0, io_pmp_2_cfg_w_0}; // @[PMP.scala:143:7, :174:26] wire [1:0] res_hi_30; // @[PMP.scala:174:26] assign res_hi_30 = _GEN_28; // @[PMP.scala:174:26] wire [1:0] res_hi_31; // @[PMP.scala:174:26] assign res_hi_31 = _GEN_28; // @[PMP.scala:174:26] wire [1:0] res_hi_32; // @[PMP.scala:174:26] assign res_hi_32 = _GEN_28; // @[PMP.scala:174:26] wire [1:0] res_hi_33; // @[PMP.scala:174:26] assign res_hi_33 = _GEN_28; // @[PMP.scala:174:26] wire [1:0] res_hi_34; // @[PMP.scala:174:26] assign res_hi_34 = _GEN_28; // @[PMP.scala:174:26] wire [1:0] res_hi_35; // @[PMP.scala:174:26] assign res_hi_35 = _GEN_28; // @[PMP.scala:174:26] wire [2:0] _res_T_230 = {res_hi_30, io_pmp_2_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_231 = _res_T_230 == 3'h0; // @[package.scala:243:76] wire [2:0] _res_T_232 = {res_hi_31, io_pmp_2_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_233 = _res_T_232 == 3'h1; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_234 = {res_hi_32, io_pmp_2_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_235 = _res_T_234 == 3'h3; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_236 = {res_hi_33, io_pmp_2_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_237 = _res_T_236 == 3'h4; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_238 = {res_hi_34, io_pmp_2_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_239 = _res_T_238 == 3'h5; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_240 = {res_hi_35, io_pmp_2_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_241 = &_res_T_240; // @[PMP.scala:174:{26,60}] wire _res_T_242 = ~res_ignore_5; // @[PMP.scala:164:26, :177:22] wire _res_T_243 = _res_T_242 & res_hit_5; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_244 = _res_T_243 & res_aligned_5; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_246 = _res_T_244 & _res_T_245; // @[PMP.scala:177:{37,48,61}] wire _GEN_29 = io_pmp_2_cfg_l_0 & res_hit_5; // @[PMP.scala:132:8, :143:7, :178:32] wire _res_T_247; // @[PMP.scala:178:32] assign _res_T_247 = _GEN_29; // @[PMP.scala:178:32] wire _res_T_256; // @[PMP.scala:178:32] assign _res_T_256 = _GEN_29; // @[PMP.scala:178:32] wire _res_T_265; // @[PMP.scala:178:32] assign _res_T_265 = _GEN_29; // @[PMP.scala:178:32] wire _res_T_248 = _res_T_247 & res_aligned_5; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_250 = _res_T_248 & _res_T_249; // @[PMP.scala:178:{39,50,63}] wire _res_T_251 = ~res_ignore_5; // @[PMP.scala:164:26, :177:22] wire _res_T_252 = _res_T_251 & res_hit_5; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_253 = _res_T_252 & res_aligned_5; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_255 = _res_T_253 & _res_T_254; // @[PMP.scala:177:{37,48,61}] wire _res_T_257 = _res_T_256 & res_aligned_5; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_259 = _res_T_257 & _res_T_258; // @[PMP.scala:178:{39,50,63}] wire _res_T_260 = ~res_ignore_5; // @[PMP.scala:164:26, :177:22] wire _res_T_261 = _res_T_260 & res_hit_5; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_262 = _res_T_261 & res_aligned_5; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_263 = &io_pmp_2_cfg_a_0; // @[PMP.scala:143:7, :168:32, :177:61] wire _res_T_264 = _res_T_262 & _res_T_263; // @[PMP.scala:177:{37,48,61}] wire _res_T_266 = _res_T_265 & res_aligned_5; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_267 = &io_pmp_2_cfg_a_0; // @[PMP.scala:143:7, :168:32, :178:63] wire _res_T_268 = _res_T_266 & _res_T_267; // @[PMP.scala:178:{39,50,63}] wire _res_cur_cfg_x_T_11; // @[PMP.scala:184:26] wire _res_cur_cfg_w_T_11; // @[PMP.scala:183:26] wire _res_cur_cfg_r_T_11; // @[PMP.scala:182:26] wire res_cur_5_cfg_x; // @[PMP.scala:181:23] wire res_cur_5_cfg_w; // @[PMP.scala:181:23] wire res_cur_5_cfg_r; // @[PMP.scala:181:23] wire _res_cur_cfg_r_T_10 = io_pmp_2_cfg_r_0 | res_ignore_5; // @[PMP.scala:143:7, :164:26, :182:40] assign _res_cur_cfg_r_T_11 = res_aligned_5 & _res_cur_cfg_r_T_10; // @[PMP.scala:127:8, :182:{26,40}] assign res_cur_5_cfg_r = _res_cur_cfg_r_T_11; // @[PMP.scala:181:23, :182:26] wire _res_cur_cfg_w_T_10 = io_pmp_2_cfg_w_0 | res_ignore_5; // @[PMP.scala:143:7, :164:26, :183:40] assign _res_cur_cfg_w_T_11 = res_aligned_5 & _res_cur_cfg_w_T_10; // @[PMP.scala:127:8, :183:{26,40}] assign res_cur_5_cfg_w = _res_cur_cfg_w_T_11; // @[PMP.scala:181:23, :183:26] wire _res_cur_cfg_x_T_10 = io_pmp_2_cfg_x_0 | res_ignore_5; // @[PMP.scala:143:7, :164:26, :184:40] assign _res_cur_cfg_x_T_11 = res_aligned_5 & _res_cur_cfg_x_T_10; // @[PMP.scala:127:8, :184:{26,40}] assign res_cur_5_cfg_x = _res_cur_cfg_x_T_11; // @[PMP.scala:181:23, :184:26] wire _res_T_269_cfg_l = res_hit_5 ? res_cur_5_cfg_l : _res_T_224_cfg_l; // @[PMP.scala:132:8, :181:23, :185:8] wire [1:0] _res_T_269_cfg_a = res_hit_5 ? res_cur_5_cfg_a : _res_T_224_cfg_a; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_269_cfg_x = res_hit_5 ? res_cur_5_cfg_x : _res_T_224_cfg_x; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_269_cfg_w = res_hit_5 ? res_cur_5_cfg_w : _res_T_224_cfg_w; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_269_cfg_r = res_hit_5 ? res_cur_5_cfg_r : _res_T_224_cfg_r; // @[PMP.scala:132:8, :181:23, :185:8] wire [29:0] _res_T_269_addr = res_hit_5 ? res_cur_5_addr : _res_T_224_addr; // @[PMP.scala:132:8, :181:23, :185:8] wire [31:0] _res_T_269_mask = res_hit_5 ? res_cur_5_mask : _res_T_224_mask; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_hit_T_78 = io_pmp_1_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire _res_aligned_T_6 = io_pmp_1_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire [28:0] _res_hit_msbMatch_T_66 = io_pmp_1_mask_0[31:3]; // @[PMP.scala:68:26, :69:72, :143:7] wire [31:0] res_hit_lsbMask_6 = {_res_hit_msbMatch_T_66, 3'h7}; // @[package.scala:243:46] wire [31:0] _res_hit_msbMatch_T_62 = ~_res_hit_msbMatch_T_61; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbMatch_T_63 = {_res_hit_msbMatch_T_62[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbMatch_T_64 = ~_res_hit_msbMatch_T_63; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbMatch_T_65 = _res_hit_msbMatch_T_64[31:3]; // @[PMP.scala:60:27, :69:53] wire [28:0] _res_hit_msbMatch_T_67 = _res_hit_msbMatch_T_60 ^ _res_hit_msbMatch_T_65; // @[PMP.scala:63:47, :69:{29,53}] wire [28:0] _res_hit_msbMatch_T_68 = ~_res_hit_msbMatch_T_66; // @[PMP.scala:63:54, :69:72] wire [28:0] _res_hit_msbMatch_T_69 = _res_hit_msbMatch_T_67 & _res_hit_msbMatch_T_68; // @[PMP.scala:63:{47,52,54}] wire res_hit_msbMatch_6 = _res_hit_msbMatch_T_69 == 29'h0; // @[PMP.scala:63:{52,58}, :80:52, :81:54, :123:67] wire [31:0] _res_hit_lsbMatch_T_62 = ~_res_hit_lsbMatch_T_61; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbMatch_T_63 = {_res_hit_lsbMatch_T_62[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbMatch_T_64 = ~_res_hit_lsbMatch_T_63; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbMatch_T_65 = _res_hit_lsbMatch_T_64[2:0]; // @[PMP.scala:60:27, :70:55] wire [2:0] _res_hit_lsbMatch_T_66 = res_hit_lsbMask_6[2:0]; // @[PMP.scala:68:26, :70:80] wire [2:0] _res_hit_lsbMatch_T_67 = _res_hit_lsbMatch_T_60 ^ _res_hit_lsbMatch_T_65; // @[PMP.scala:63:47, :70:{28,55}] wire [2:0] _res_hit_lsbMatch_T_68 = ~_res_hit_lsbMatch_T_66; // @[PMP.scala:63:54, :70:80] wire [2:0] _res_hit_lsbMatch_T_69 = _res_hit_lsbMatch_T_67 & _res_hit_lsbMatch_T_68; // @[PMP.scala:63:{47,52,54}] wire res_hit_lsbMatch_6 = _res_hit_lsbMatch_T_69 == 3'h0; // @[package.scala:243:76] wire _res_hit_T_79 = res_hit_msbMatch_6 & res_hit_lsbMatch_6; // @[PMP.scala:63:58, :71:16] wire _res_hit_T_80 = io_pmp_1_cfg_a_0[0]; // @[PMP.scala:46:26, :143:7] wire [31:0] _GEN_30 = {io_pmp_0_addr_0, 2'h0}; // @[PMP.scala:60:36, :143:7] wire [31:0] _res_hit_msbsLess_T_73; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_73 = _GEN_30; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_85; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_85 = _GEN_30; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_86; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_86 = _GEN_30; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_103; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_103 = _GEN_30; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesLowerBound_T_110; // @[PMP.scala:60:36] assign _res_aligned_straddlesLowerBound_T_110 = _GEN_30; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbMatch_T_71; // @[PMP.scala:60:36] assign _res_hit_msbMatch_T_71 = _GEN_30; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbMatch_T_71; // @[PMP.scala:60:36] assign _res_hit_lsbMatch_T_71 = _GEN_30; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_91; // @[PMP.scala:60:36] assign _res_hit_msbsLess_T_91 = _GEN_30; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsEqual_T_106; // @[PMP.scala:60:36] assign _res_hit_msbsEqual_T_106 = _GEN_30; // @[PMP.scala:60:36] wire [31:0] _res_hit_lsbsLess_T_107; // @[PMP.scala:60:36] assign _res_hit_lsbsLess_T_107 = _GEN_30; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_120; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_120 = _GEN_30; // @[PMP.scala:60:36] wire [31:0] _res_aligned_straddlesUpperBound_T_127; // @[PMP.scala:60:36] assign _res_aligned_straddlesUpperBound_T_127 = _GEN_30; // @[PMP.scala:60:36] wire [31:0] _res_hit_msbsLess_T_74 = ~_res_hit_msbsLess_T_73; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_75 = {_res_hit_msbsLess_T_74[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_76 = ~_res_hit_msbsLess_T_75; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_77 = _res_hit_msbsLess_T_76[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_12 = _res_hit_msbsLess_T_72 < _res_hit_msbsLess_T_77; // @[PMP.scala:80:{25,39,52}] wire _res_hit_T_85 = res_hit_msbsLess_12; // @[PMP.scala:80:39, :83:16] wire [31:0] _res_hit_msbsEqual_T_86 = ~_res_hit_msbsEqual_T_85; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_87 = {_res_hit_msbsEqual_T_86[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_88 = ~_res_hit_msbsEqual_T_87; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_89 = _res_hit_msbsEqual_T_88[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_90 = _res_hit_msbsEqual_T_84 ^ _res_hit_msbsEqual_T_89; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_12 = _res_hit_msbsEqual_T_90 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [31:0] _res_hit_lsbsLess_T_87 = ~_res_hit_lsbsLess_T_86; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_88 = {_res_hit_lsbsLess_T_87[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_89 = ~_res_hit_lsbsLess_T_88; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_90 = _res_hit_lsbsLess_T_89[2:0]; // @[PMP.scala:60:27, :82:64] wire _res_hit_T_86 = ~_res_hit_T_85; // @[PMP.scala:83:16, :88:5] wire [31:0] _res_hit_msbsLess_T_80 = ~_res_hit_msbsLess_T_79; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_81 = {_res_hit_msbsLess_T_80[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_82 = ~_res_hit_msbsLess_T_81; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_83 = _res_hit_msbsLess_T_82[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_13 = _res_hit_msbsLess_T_78 < _res_hit_msbsLess_T_83; // @[PMP.scala:80:{25,39,52}] wire [31:0] _res_hit_msbsEqual_T_93 = ~_res_hit_msbsEqual_T_92; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_94 = {_res_hit_msbsEqual_T_93[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_95 = ~_res_hit_msbsEqual_T_94; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_96 = _res_hit_msbsEqual_T_95[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_97 = _res_hit_msbsEqual_T_91 ^ _res_hit_msbsEqual_T_96; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_13 = _res_hit_msbsEqual_T_97 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [2:0] _res_hit_lsbsLess_T_92 = _res_hit_lsbsLess_T_91; // @[PMP.scala:82:{25,42}] wire [31:0] _res_hit_lsbsLess_T_94 = ~_res_hit_lsbsLess_T_93; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_95 = {_res_hit_lsbsLess_T_94[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_96 = ~_res_hit_lsbsLess_T_95; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_97 = _res_hit_lsbsLess_T_96[2:0]; // @[PMP.scala:60:27, :82:64] wire res_hit_lsbsLess_13 = _res_hit_lsbsLess_T_92 < _res_hit_lsbsLess_T_97; // @[PMP.scala:82:{42,53,64}] wire _res_hit_T_87 = res_hit_msbsEqual_13 & res_hit_lsbsLess_13; // @[PMP.scala:81:69, :82:53, :83:30] wire _res_hit_T_88 = res_hit_msbsLess_13 | _res_hit_T_87; // @[PMP.scala:80:39, :83:{16,30}] wire _res_hit_T_89 = _res_hit_T_86 & _res_hit_T_88; // @[PMP.scala:83:16, :88:5, :94:48] wire _res_hit_T_90 = _res_hit_T_80 & _res_hit_T_89; // @[PMP.scala:46:26, :94:48, :132:61] wire res_hit_6 = _res_hit_T_78 ? _res_hit_T_79 : _res_hit_T_90; // @[PMP.scala:45:20, :71:16, :132:{8,61}] wire _res_ignore_T_6 = ~io_pmp_1_cfg_l_0; // @[PMP.scala:143:7, :164:29] wire res_ignore_6 = default_0 & _res_ignore_T_6; // @[PMP.scala:156:56, :164:{26,29}] wire [31:0] _res_aligned_straddlesLowerBound_T_104 = ~_res_aligned_straddlesLowerBound_T_103; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_105 = {_res_aligned_straddlesLowerBound_T_104[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_106 = ~_res_aligned_straddlesLowerBound_T_105; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesLowerBound_T_107 = _res_aligned_straddlesLowerBound_T_106[31:3]; // @[PMP.scala:60:27, :123:67] wire [28:0] _res_aligned_straddlesLowerBound_T_108 = _res_aligned_straddlesLowerBound_T_102 ^ _res_aligned_straddlesLowerBound_T_107; // @[PMP.scala:123:{35,49,67}] wire _res_aligned_straddlesLowerBound_T_109 = _res_aligned_straddlesLowerBound_T_108 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:{49,67,82}] wire [31:0] _res_aligned_straddlesLowerBound_T_111 = ~_res_aligned_straddlesLowerBound_T_110; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesLowerBound_T_112 = {_res_aligned_straddlesLowerBound_T_111[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesLowerBound_T_113 = ~_res_aligned_straddlesLowerBound_T_112; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesLowerBound_T_114 = _res_aligned_straddlesLowerBound_T_113[2:0]; // @[PMP.scala:60:27, :123:108] wire [2:0] _res_aligned_straddlesLowerBound_T_116 = ~_res_aligned_straddlesLowerBound_T_115; // @[PMP.scala:123:{127,129}] wire [2:0] _res_aligned_straddlesLowerBound_T_117 = _res_aligned_straddlesLowerBound_T_114 & _res_aligned_straddlesLowerBound_T_116; // @[PMP.scala:123:{108,125,127}] wire _res_aligned_straddlesLowerBound_T_118 = |_res_aligned_straddlesLowerBound_T_117; // @[PMP.scala:123:{125,147}] wire res_aligned_straddlesLowerBound_6 = _res_aligned_straddlesLowerBound_T_109 & _res_aligned_straddlesLowerBound_T_118; // @[PMP.scala:123:{82,90,147}] wire [31:0] _res_aligned_straddlesUpperBound_T_104 = ~_res_aligned_straddlesUpperBound_T_103; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_105 = {_res_aligned_straddlesUpperBound_T_104[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_106 = ~_res_aligned_straddlesUpperBound_T_105; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesUpperBound_T_107 = _res_aligned_straddlesUpperBound_T_106[31:3]; // @[PMP.scala:60:27, :124:62] wire [28:0] _res_aligned_straddlesUpperBound_T_108 = _res_aligned_straddlesUpperBound_T_102 ^ _res_aligned_straddlesUpperBound_T_107; // @[PMP.scala:124:{35,49,62}] wire _res_aligned_straddlesUpperBound_T_109 = _res_aligned_straddlesUpperBound_T_108 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:67, :124:{49,77}] wire [31:0] _res_aligned_straddlesUpperBound_T_111 = ~_res_aligned_straddlesUpperBound_T_110; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_112 = {_res_aligned_straddlesUpperBound_T_111[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_113 = ~_res_aligned_straddlesUpperBound_T_112; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesUpperBound_T_114 = _res_aligned_straddlesUpperBound_T_113[2:0]; // @[PMP.scala:60:27, :124:98] wire [2:0] _res_aligned_straddlesUpperBound_T_117 = _res_aligned_straddlesUpperBound_T_114; // @[PMP.scala:124:{98,115}] wire _res_aligned_straddlesUpperBound_T_118 = |_res_aligned_straddlesUpperBound_T_117; // @[PMP.scala:124:{115,148}] wire res_aligned_straddlesUpperBound_6 = _res_aligned_straddlesUpperBound_T_109 & _res_aligned_straddlesUpperBound_T_118; // @[PMP.scala:124:{77,85,148}] wire _res_aligned_rangeAligned_T_6 = res_aligned_straddlesLowerBound_6 | res_aligned_straddlesUpperBound_6; // @[PMP.scala:123:90, :124:85, :125:46] wire res_aligned_rangeAligned_6 = ~_res_aligned_rangeAligned_T_6; // @[PMP.scala:125:{24,46}] wire [2:0] _res_aligned_pow2Aligned_T_18 = io_pmp_1_mask_0[2:0]; // @[PMP.scala:126:39, :143:7] wire [2:0] _res_aligned_pow2Aligned_T_19 = ~_res_aligned_pow2Aligned_T_18; // @[PMP.scala:126:{34,39}] wire [2:0] _res_aligned_pow2Aligned_T_20 = _res_aligned_pow2Aligned_T_19; // @[PMP.scala:126:{32,34}] wire res_aligned_pow2Aligned_6 = _res_aligned_pow2Aligned_T_20 == 3'h0; // @[package.scala:243:76] wire res_aligned_6 = _res_aligned_T_6 ? res_aligned_pow2Aligned_6 : res_aligned_rangeAligned_6; // @[PMP.scala:45:20, :125:24, :126:57, :127:8] wire _res_T_270 = io_pmp_1_cfg_a_0 == 2'h0; // @[PMP.scala:143:7, :168:32] wire _GEN_31 = io_pmp_1_cfg_a_0 == 2'h1; // @[PMP.scala:143:7, :168:32] wire _res_T_271; // @[PMP.scala:168:32] assign _res_T_271 = _GEN_31; // @[PMP.scala:168:32] wire _res_T_290; // @[PMP.scala:177:61] assign _res_T_290 = _GEN_31; // @[PMP.scala:168:32, :177:61] wire _res_T_294; // @[PMP.scala:178:63] assign _res_T_294 = _GEN_31; // @[PMP.scala:168:32, :178:63] wire _GEN_32 = io_pmp_1_cfg_a_0 == 2'h2; // @[PMP.scala:143:7, :168:32] wire _res_T_272; // @[PMP.scala:168:32] assign _res_T_272 = _GEN_32; // @[PMP.scala:168:32] wire _res_T_299; // @[PMP.scala:177:61] assign _res_T_299 = _GEN_32; // @[PMP.scala:168:32, :177:61] wire _res_T_303; // @[PMP.scala:178:63] assign _res_T_303 = _GEN_32; // @[PMP.scala:168:32, :178:63] wire _res_T_273 = &io_pmp_1_cfg_a_0; // @[PMP.scala:143:7, :168:32] wire [1:0] _GEN_33 = {io_pmp_1_cfg_x_0, io_pmp_1_cfg_w_0}; // @[PMP.scala:143:7, :174:26] wire [1:0] res_hi_36; // @[PMP.scala:174:26] assign res_hi_36 = _GEN_33; // @[PMP.scala:174:26] wire [1:0] res_hi_37; // @[PMP.scala:174:26] assign res_hi_37 = _GEN_33; // @[PMP.scala:174:26] wire [1:0] res_hi_38; // @[PMP.scala:174:26] assign res_hi_38 = _GEN_33; // @[PMP.scala:174:26] wire [1:0] res_hi_39; // @[PMP.scala:174:26] assign res_hi_39 = _GEN_33; // @[PMP.scala:174:26] wire [1:0] res_hi_40; // @[PMP.scala:174:26] assign res_hi_40 = _GEN_33; // @[PMP.scala:174:26] wire [1:0] res_hi_41; // @[PMP.scala:174:26] assign res_hi_41 = _GEN_33; // @[PMP.scala:174:26] wire [2:0] _res_T_275 = {res_hi_36, io_pmp_1_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_276 = _res_T_275 == 3'h0; // @[package.scala:243:76] wire [2:0] _res_T_277 = {res_hi_37, io_pmp_1_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_278 = _res_T_277 == 3'h1; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_279 = {res_hi_38, io_pmp_1_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_280 = _res_T_279 == 3'h3; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_281 = {res_hi_39, io_pmp_1_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_282 = _res_T_281 == 3'h4; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_283 = {res_hi_40, io_pmp_1_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_284 = _res_T_283 == 3'h5; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_285 = {res_hi_41, io_pmp_1_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_286 = &_res_T_285; // @[PMP.scala:174:{26,60}] wire _res_T_287 = ~res_ignore_6; // @[PMP.scala:164:26, :177:22] wire _res_T_288 = _res_T_287 & res_hit_6; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_289 = _res_T_288 & res_aligned_6; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_291 = _res_T_289 & _res_T_290; // @[PMP.scala:177:{37,48,61}] wire _GEN_34 = io_pmp_1_cfg_l_0 & res_hit_6; // @[PMP.scala:132:8, :143:7, :178:32] wire _res_T_292; // @[PMP.scala:178:32] assign _res_T_292 = _GEN_34; // @[PMP.scala:178:32] wire _res_T_301; // @[PMP.scala:178:32] assign _res_T_301 = _GEN_34; // @[PMP.scala:178:32] wire _res_T_310; // @[PMP.scala:178:32] assign _res_T_310 = _GEN_34; // @[PMP.scala:178:32] wire _res_T_293 = _res_T_292 & res_aligned_6; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_295 = _res_T_293 & _res_T_294; // @[PMP.scala:178:{39,50,63}] wire _res_T_296 = ~res_ignore_6; // @[PMP.scala:164:26, :177:22] wire _res_T_297 = _res_T_296 & res_hit_6; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_298 = _res_T_297 & res_aligned_6; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_300 = _res_T_298 & _res_T_299; // @[PMP.scala:177:{37,48,61}] wire _res_T_302 = _res_T_301 & res_aligned_6; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_304 = _res_T_302 & _res_T_303; // @[PMP.scala:178:{39,50,63}] wire _res_T_305 = ~res_ignore_6; // @[PMP.scala:164:26, :177:22] wire _res_T_306 = _res_T_305 & res_hit_6; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_307 = _res_T_306 & res_aligned_6; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_308 = &io_pmp_1_cfg_a_0; // @[PMP.scala:143:7, :168:32, :177:61] wire _res_T_309 = _res_T_307 & _res_T_308; // @[PMP.scala:177:{37,48,61}] wire _res_T_311 = _res_T_310 & res_aligned_6; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_312 = &io_pmp_1_cfg_a_0; // @[PMP.scala:143:7, :168:32, :178:63] wire _res_T_313 = _res_T_311 & _res_T_312; // @[PMP.scala:178:{39,50,63}] wire _res_cur_cfg_x_T_13; // @[PMP.scala:184:26] wire _res_cur_cfg_w_T_13; // @[PMP.scala:183:26] wire _res_cur_cfg_r_T_13; // @[PMP.scala:182:26] wire res_cur_6_cfg_x; // @[PMP.scala:181:23] wire res_cur_6_cfg_w; // @[PMP.scala:181:23] wire res_cur_6_cfg_r; // @[PMP.scala:181:23] wire _res_cur_cfg_r_T_12 = io_pmp_1_cfg_r_0 | res_ignore_6; // @[PMP.scala:143:7, :164:26, :182:40] assign _res_cur_cfg_r_T_13 = res_aligned_6 & _res_cur_cfg_r_T_12; // @[PMP.scala:127:8, :182:{26,40}] assign res_cur_6_cfg_r = _res_cur_cfg_r_T_13; // @[PMP.scala:181:23, :182:26] wire _res_cur_cfg_w_T_12 = io_pmp_1_cfg_w_0 | res_ignore_6; // @[PMP.scala:143:7, :164:26, :183:40] assign _res_cur_cfg_w_T_13 = res_aligned_6 & _res_cur_cfg_w_T_12; // @[PMP.scala:127:8, :183:{26,40}] assign res_cur_6_cfg_w = _res_cur_cfg_w_T_13; // @[PMP.scala:181:23, :183:26] wire _res_cur_cfg_x_T_12 = io_pmp_1_cfg_x_0 | res_ignore_6; // @[PMP.scala:143:7, :164:26, :184:40] assign _res_cur_cfg_x_T_13 = res_aligned_6 & _res_cur_cfg_x_T_12; // @[PMP.scala:127:8, :184:{26,40}] assign res_cur_6_cfg_x = _res_cur_cfg_x_T_13; // @[PMP.scala:181:23, :184:26] wire _res_T_314_cfg_l = res_hit_6 ? res_cur_6_cfg_l : _res_T_269_cfg_l; // @[PMP.scala:132:8, :181:23, :185:8] wire [1:0] _res_T_314_cfg_a = res_hit_6 ? res_cur_6_cfg_a : _res_T_269_cfg_a; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_314_cfg_x = res_hit_6 ? res_cur_6_cfg_x : _res_T_269_cfg_x; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_314_cfg_w = res_hit_6 ? res_cur_6_cfg_w : _res_T_269_cfg_w; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_T_314_cfg_r = res_hit_6 ? res_cur_6_cfg_r : _res_T_269_cfg_r; // @[PMP.scala:132:8, :181:23, :185:8] wire [29:0] _res_T_314_addr = res_hit_6 ? res_cur_6_addr : _res_T_269_addr; // @[PMP.scala:132:8, :181:23, :185:8] wire [31:0] _res_T_314_mask = res_hit_6 ? res_cur_6_mask : _res_T_269_mask; // @[PMP.scala:132:8, :181:23, :185:8] wire _res_hit_T_91 = io_pmp_0_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire _res_aligned_T_7 = io_pmp_0_cfg_a_0[1]; // @[PMP.scala:45:20, :143:7] wire [28:0] _res_hit_msbMatch_T_76 = io_pmp_0_mask_0[31:3]; // @[PMP.scala:68:26, :69:72, :143:7] wire [31:0] res_hit_lsbMask_7 = {_res_hit_msbMatch_T_76, 3'h7}; // @[package.scala:243:46] wire [31:0] _res_hit_msbMatch_T_72 = ~_res_hit_msbMatch_T_71; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbMatch_T_73 = {_res_hit_msbMatch_T_72[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbMatch_T_74 = ~_res_hit_msbMatch_T_73; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbMatch_T_75 = _res_hit_msbMatch_T_74[31:3]; // @[PMP.scala:60:27, :69:53] wire [28:0] _res_hit_msbMatch_T_77 = _res_hit_msbMatch_T_70 ^ _res_hit_msbMatch_T_75; // @[PMP.scala:63:47, :69:{29,53}] wire [28:0] _res_hit_msbMatch_T_78 = ~_res_hit_msbMatch_T_76; // @[PMP.scala:63:54, :69:72] wire [28:0] _res_hit_msbMatch_T_79 = _res_hit_msbMatch_T_77 & _res_hit_msbMatch_T_78; // @[PMP.scala:63:{47,52,54}] wire res_hit_msbMatch_7 = _res_hit_msbMatch_T_79 == 29'h0; // @[PMP.scala:63:{52,58}, :80:52, :81:54, :123:67] wire [31:0] _res_hit_lsbMatch_T_72 = ~_res_hit_lsbMatch_T_71; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbMatch_T_73 = {_res_hit_lsbMatch_T_72[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbMatch_T_74 = ~_res_hit_lsbMatch_T_73; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbMatch_T_75 = _res_hit_lsbMatch_T_74[2:0]; // @[PMP.scala:60:27, :70:55] wire [2:0] _res_hit_lsbMatch_T_76 = res_hit_lsbMask_7[2:0]; // @[PMP.scala:68:26, :70:80] wire [2:0] _res_hit_lsbMatch_T_77 = _res_hit_lsbMatch_T_70 ^ _res_hit_lsbMatch_T_75; // @[PMP.scala:63:47, :70:{28,55}] wire [2:0] _res_hit_lsbMatch_T_78 = ~_res_hit_lsbMatch_T_76; // @[PMP.scala:63:54, :70:80] wire [2:0] _res_hit_lsbMatch_T_79 = _res_hit_lsbMatch_T_77 & _res_hit_lsbMatch_T_78; // @[PMP.scala:63:{47,52,54}] wire res_hit_lsbMatch_7 = _res_hit_lsbMatch_T_79 == 3'h0; // @[package.scala:243:76] wire _res_hit_T_92 = res_hit_msbMatch_7 & res_hit_lsbMatch_7; // @[PMP.scala:63:58, :71:16] wire _res_hit_T_93 = io_pmp_0_cfg_a_0[0]; // @[PMP.scala:46:26, :143:7] wire [28:0] _res_hit_msbsEqual_T_104 = _res_hit_msbsEqual_T_98; // @[PMP.scala:81:{27,41}] wire res_hit_msbsEqual_14 = _res_hit_msbsEqual_T_104 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [31:0] _res_hit_msbsLess_T_92 = ~_res_hit_msbsLess_T_91; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsLess_T_93 = {_res_hit_msbsLess_T_92[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsLess_T_94 = ~_res_hit_msbsLess_T_93; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsLess_T_95 = _res_hit_msbsLess_T_94[31:3]; // @[PMP.scala:60:27, :80:52] wire res_hit_msbsLess_15 = _res_hit_msbsLess_T_90 < _res_hit_msbsLess_T_95; // @[PMP.scala:80:{25,39,52}] wire [31:0] _res_hit_msbsEqual_T_107 = ~_res_hit_msbsEqual_T_106; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_msbsEqual_T_108 = {_res_hit_msbsEqual_T_107[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_msbsEqual_T_109 = ~_res_hit_msbsEqual_T_108; // @[PMP.scala:60:{27,48}] wire [28:0] _res_hit_msbsEqual_T_110 = _res_hit_msbsEqual_T_109[31:3]; // @[PMP.scala:60:27, :81:54] wire [28:0] _res_hit_msbsEqual_T_111 = _res_hit_msbsEqual_T_105 ^ _res_hit_msbsEqual_T_110; // @[PMP.scala:81:{27,41,54}] wire res_hit_msbsEqual_15 = _res_hit_msbsEqual_T_111 == 29'h0; // @[PMP.scala:80:52, :81:{41,54,69}, :123:67] wire [2:0] _res_hit_lsbsLess_T_106 = _res_hit_lsbsLess_T_105; // @[PMP.scala:82:{25,42}] wire [31:0] _res_hit_lsbsLess_T_108 = ~_res_hit_lsbsLess_T_107; // @[PMP.scala:60:{29,36}] wire [31:0] _res_hit_lsbsLess_T_109 = {_res_hit_lsbsLess_T_108[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_hit_lsbsLess_T_110 = ~_res_hit_lsbsLess_T_109; // @[PMP.scala:60:{27,48}] wire [2:0] _res_hit_lsbsLess_T_111 = _res_hit_lsbsLess_T_110[2:0]; // @[PMP.scala:60:27, :82:64] wire res_hit_lsbsLess_15 = _res_hit_lsbsLess_T_106 < _res_hit_lsbsLess_T_111; // @[PMP.scala:82:{42,53,64}] wire _res_hit_T_100 = res_hit_msbsEqual_15 & res_hit_lsbsLess_15; // @[PMP.scala:81:69, :82:53, :83:30] wire _res_hit_T_101 = res_hit_msbsLess_15 | _res_hit_T_100; // @[PMP.scala:80:39, :83:{16,30}] wire _res_hit_T_102 = _res_hit_T_101; // @[PMP.scala:83:16, :94:48] wire _res_hit_T_103 = _res_hit_T_93 & _res_hit_T_102; // @[PMP.scala:46:26, :94:48, :132:61] wire res_hit_7 = _res_hit_T_91 ? _res_hit_T_92 : _res_hit_T_103; // @[PMP.scala:45:20, :71:16, :132:{8,61}] wire _res_ignore_T_7 = ~io_pmp_0_cfg_l_0; // @[PMP.scala:143:7, :164:29] wire res_ignore_7 = default_0 & _res_ignore_T_7; // @[PMP.scala:156:56, :164:{26,29}] wire [28:0] _res_aligned_straddlesLowerBound_T_125 = _res_aligned_straddlesLowerBound_T_119; // @[PMP.scala:123:{35,49}] wire _res_aligned_straddlesLowerBound_T_126 = _res_aligned_straddlesLowerBound_T_125 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:{49,67,82}] wire [2:0] _res_aligned_straddlesLowerBound_T_133 = ~_res_aligned_straddlesLowerBound_T_132; // @[PMP.scala:123:{127,129}] wire [31:0] _res_aligned_straddlesUpperBound_T_121 = ~_res_aligned_straddlesUpperBound_T_120; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_122 = {_res_aligned_straddlesUpperBound_T_121[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_123 = ~_res_aligned_straddlesUpperBound_T_122; // @[PMP.scala:60:{27,48}] wire [28:0] _res_aligned_straddlesUpperBound_T_124 = _res_aligned_straddlesUpperBound_T_123[31:3]; // @[PMP.scala:60:27, :124:62] wire [28:0] _res_aligned_straddlesUpperBound_T_125 = _res_aligned_straddlesUpperBound_T_119 ^ _res_aligned_straddlesUpperBound_T_124; // @[PMP.scala:124:{35,49,62}] wire _res_aligned_straddlesUpperBound_T_126 = _res_aligned_straddlesUpperBound_T_125 == 29'h0; // @[PMP.scala:80:52, :81:54, :123:67, :124:{49,77}] wire [31:0] _res_aligned_straddlesUpperBound_T_128 = ~_res_aligned_straddlesUpperBound_T_127; // @[PMP.scala:60:{29,36}] wire [31:0] _res_aligned_straddlesUpperBound_T_129 = {_res_aligned_straddlesUpperBound_T_128[31:2], 2'h3}; // @[PMP.scala:60:{29,48}] wire [31:0] _res_aligned_straddlesUpperBound_T_130 = ~_res_aligned_straddlesUpperBound_T_129; // @[PMP.scala:60:{27,48}] wire [2:0] _res_aligned_straddlesUpperBound_T_131 = _res_aligned_straddlesUpperBound_T_130[2:0]; // @[PMP.scala:60:27, :124:98] wire [2:0] _res_aligned_straddlesUpperBound_T_134 = _res_aligned_straddlesUpperBound_T_131; // @[PMP.scala:124:{98,115}] wire _res_aligned_straddlesUpperBound_T_135 = |_res_aligned_straddlesUpperBound_T_134; // @[PMP.scala:124:{115,148}] wire res_aligned_straddlesUpperBound_7 = _res_aligned_straddlesUpperBound_T_126 & _res_aligned_straddlesUpperBound_T_135; // @[PMP.scala:124:{77,85,148}] wire _res_aligned_rangeAligned_T_7 = res_aligned_straddlesUpperBound_7; // @[PMP.scala:124:85, :125:46] wire res_aligned_rangeAligned_7 = ~_res_aligned_rangeAligned_T_7; // @[PMP.scala:125:{24,46}] wire [2:0] _res_aligned_pow2Aligned_T_21 = io_pmp_0_mask_0[2:0]; // @[PMP.scala:126:39, :143:7] wire [2:0] _res_aligned_pow2Aligned_T_22 = ~_res_aligned_pow2Aligned_T_21; // @[PMP.scala:126:{34,39}] wire [2:0] _res_aligned_pow2Aligned_T_23 = _res_aligned_pow2Aligned_T_22; // @[PMP.scala:126:{32,34}] wire res_aligned_pow2Aligned_7 = _res_aligned_pow2Aligned_T_23 == 3'h0; // @[package.scala:243:76] wire res_aligned_7 = _res_aligned_T_7 ? res_aligned_pow2Aligned_7 : res_aligned_rangeAligned_7; // @[PMP.scala:45:20, :125:24, :126:57, :127:8] wire _res_T_315 = io_pmp_0_cfg_a_0 == 2'h0; // @[PMP.scala:143:7, :168:32] wire _GEN_35 = io_pmp_0_cfg_a_0 == 2'h1; // @[PMP.scala:143:7, :168:32] wire _res_T_316; // @[PMP.scala:168:32] assign _res_T_316 = _GEN_35; // @[PMP.scala:168:32] wire _res_T_335; // @[PMP.scala:177:61] assign _res_T_335 = _GEN_35; // @[PMP.scala:168:32, :177:61] wire _res_T_339; // @[PMP.scala:178:63] assign _res_T_339 = _GEN_35; // @[PMP.scala:168:32, :178:63] wire _GEN_36 = io_pmp_0_cfg_a_0 == 2'h2; // @[PMP.scala:143:7, :168:32] wire _res_T_317; // @[PMP.scala:168:32] assign _res_T_317 = _GEN_36; // @[PMP.scala:168:32] wire _res_T_344; // @[PMP.scala:177:61] assign _res_T_344 = _GEN_36; // @[PMP.scala:168:32, :177:61] wire _res_T_348; // @[PMP.scala:178:63] assign _res_T_348 = _GEN_36; // @[PMP.scala:168:32, :178:63] wire _res_T_318 = &io_pmp_0_cfg_a_0; // @[PMP.scala:143:7, :168:32] wire [1:0] _GEN_37 = {io_pmp_0_cfg_x_0, io_pmp_0_cfg_w_0}; // @[PMP.scala:143:7, :174:26] wire [1:0] res_hi_42; // @[PMP.scala:174:26] assign res_hi_42 = _GEN_37; // @[PMP.scala:174:26] wire [1:0] res_hi_43; // @[PMP.scala:174:26] assign res_hi_43 = _GEN_37; // @[PMP.scala:174:26] wire [1:0] res_hi_44; // @[PMP.scala:174:26] assign res_hi_44 = _GEN_37; // @[PMP.scala:174:26] wire [1:0] res_hi_45; // @[PMP.scala:174:26] assign res_hi_45 = _GEN_37; // @[PMP.scala:174:26] wire [1:0] res_hi_46; // @[PMP.scala:174:26] assign res_hi_46 = _GEN_37; // @[PMP.scala:174:26] wire [1:0] res_hi_47; // @[PMP.scala:174:26] assign res_hi_47 = _GEN_37; // @[PMP.scala:174:26] wire [2:0] _res_T_320 = {res_hi_42, io_pmp_0_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_321 = _res_T_320 == 3'h0; // @[package.scala:243:76] wire [2:0] _res_T_322 = {res_hi_43, io_pmp_0_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_323 = _res_T_322 == 3'h1; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_324 = {res_hi_44, io_pmp_0_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_325 = _res_T_324 == 3'h3; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_326 = {res_hi_45, io_pmp_0_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_327 = _res_T_326 == 3'h4; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_328 = {res_hi_46, io_pmp_0_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_329 = _res_T_328 == 3'h5; // @[PMP.scala:174:{26,60}] wire [2:0] _res_T_330 = {res_hi_47, io_pmp_0_cfg_r_0}; // @[PMP.scala:143:7, :174:26] wire _res_T_331 = &_res_T_330; // @[PMP.scala:174:{26,60}] wire _res_T_332 = ~res_ignore_7; // @[PMP.scala:164:26, :177:22] wire _res_T_333 = _res_T_332 & res_hit_7; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_334 = _res_T_333 & res_aligned_7; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_336 = _res_T_334 & _res_T_335; // @[PMP.scala:177:{37,48,61}] wire _GEN_38 = io_pmp_0_cfg_l_0 & res_hit_7; // @[PMP.scala:132:8, :143:7, :178:32] wire _res_T_337; // @[PMP.scala:178:32] assign _res_T_337 = _GEN_38; // @[PMP.scala:178:32] wire _res_T_346; // @[PMP.scala:178:32] assign _res_T_346 = _GEN_38; // @[PMP.scala:178:32] wire _res_T_355; // @[PMP.scala:178:32] assign _res_T_355 = _GEN_38; // @[PMP.scala:178:32] wire _res_T_338 = _res_T_337 & res_aligned_7; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_340 = _res_T_338 & _res_T_339; // @[PMP.scala:178:{39,50,63}] wire _res_T_341 = ~res_ignore_7; // @[PMP.scala:164:26, :177:22] wire _res_T_342 = _res_T_341 & res_hit_7; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_343 = _res_T_342 & res_aligned_7; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_345 = _res_T_343 & _res_T_344; // @[PMP.scala:177:{37,48,61}] wire _res_T_347 = _res_T_346 & res_aligned_7; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_349 = _res_T_347 & _res_T_348; // @[PMP.scala:178:{39,50,63}] wire _res_T_350 = ~res_ignore_7; // @[PMP.scala:164:26, :177:22] wire _res_T_351 = _res_T_350 & res_hit_7; // @[PMP.scala:132:8, :177:{22,30}] wire _res_T_352 = _res_T_351 & res_aligned_7; // @[PMP.scala:127:8, :177:{30,37}] wire _res_T_353 = &io_pmp_0_cfg_a_0; // @[PMP.scala:143:7, :168:32, :177:61] wire _res_T_354 = _res_T_352 & _res_T_353; // @[PMP.scala:177:{37,48,61}] wire _res_T_356 = _res_T_355 & res_aligned_7; // @[PMP.scala:127:8, :178:{32,39}] wire _res_T_357 = &io_pmp_0_cfg_a_0; // @[PMP.scala:143:7, :168:32, :178:63] wire _res_T_358 = _res_T_356 & _res_T_357; // @[PMP.scala:178:{39,50,63}] wire _res_cur_cfg_x_T_15; // @[PMP.scala:184:26] wire _res_cur_cfg_w_T_15; // @[PMP.scala:183:26] wire _res_cur_cfg_r_T_15; // @[PMP.scala:182:26] wire res_cur_7_cfg_x; // @[PMP.scala:181:23] wire res_cur_7_cfg_w; // @[PMP.scala:181:23] wire res_cur_7_cfg_r; // @[PMP.scala:181:23] wire _res_cur_cfg_r_T_14 = io_pmp_0_cfg_r_0 | res_ignore_7; // @[PMP.scala:143:7, :164:26, :182:40] assign _res_cur_cfg_r_T_15 = res_aligned_7 & _res_cur_cfg_r_T_14; // @[PMP.scala:127:8, :182:{26,40}] assign res_cur_7_cfg_r = _res_cur_cfg_r_T_15; // @[PMP.scala:181:23, :182:26] wire _res_cur_cfg_w_T_14 = io_pmp_0_cfg_w_0 | res_ignore_7; // @[PMP.scala:143:7, :164:26, :183:40] assign _res_cur_cfg_w_T_15 = res_aligned_7 & _res_cur_cfg_w_T_14; // @[PMP.scala:127:8, :183:{26,40}] assign res_cur_7_cfg_w = _res_cur_cfg_w_T_15; // @[PMP.scala:181:23, :183:26] wire _res_cur_cfg_x_T_14 = io_pmp_0_cfg_x_0 | res_ignore_7; // @[PMP.scala:143:7, :164:26, :184:40] assign _res_cur_cfg_x_T_15 = res_aligned_7 & _res_cur_cfg_x_T_14; // @[PMP.scala:127:8, :184:{26,40}] assign res_cur_7_cfg_x = _res_cur_cfg_x_T_15; // @[PMP.scala:181:23, :184:26] wire res_cfg_l = res_hit_7 ? res_cur_7_cfg_l : _res_T_314_cfg_l; // @[PMP.scala:132:8, :181:23, :185:8] wire [1:0] res_cfg_a = res_hit_7 ? res_cur_7_cfg_a : _res_T_314_cfg_a; // @[PMP.scala:132:8, :181:23, :185:8] assign res_cfg_x = res_hit_7 ? res_cur_7_cfg_x : _res_T_314_cfg_x; // @[PMP.scala:132:8, :181:23, :185:8] assign res_cfg_w = res_hit_7 ? res_cur_7_cfg_w : _res_T_314_cfg_w; // @[PMP.scala:132:8, :181:23, :185:8] assign res_cfg_r = res_hit_7 ? res_cur_7_cfg_r : _res_T_314_cfg_r; // @[PMP.scala:132:8, :181:23, :185:8] wire [29:0] res_addr = res_hit_7 ? res_cur_7_addr : _res_T_314_addr; // @[PMP.scala:132:8, :181:23, :185:8] wire [31:0] res_mask = res_hit_7 ? res_cur_7_mask : _res_T_314_mask; // @[PMP.scala:132:8, :181:23, :185:8] assign io_x_0 = res_cfg_x; // @[PMP.scala:143:7, :185:8] assign io_w_0 = res_cfg_w; // @[PMP.scala:143:7, :185:8] assign io_r_0 = res_cfg_r; // @[PMP.scala:143:7, :185:8] assign io_r = io_r_0; // @[PMP.scala:143:7] assign io_w = io_w_0; // @[PMP.scala:143:7] assign io_x = io_x_0; // @[PMP.scala:143:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File FIFOFixer.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.lazymodule._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.diplomacy.RegionType import freechips.rocketchip.util.property class TLFIFOFixer(policy: TLFIFOFixer.Policy = TLFIFOFixer.all)(implicit p: Parameters) extends LazyModule { private def fifoMap(seq: Seq[TLSlaveParameters]) = { val (flatManagers, keepManagers) = seq.partition(policy) // We need to be careful if one flatManager and one keepManager share an existing domain // Erring on the side of caution, we will also flatten the keepManager in this case val flatDomains = Set(flatManagers.flatMap(_.fifoId):_*) // => ID 0 val keepDomains = Set(keepManagers.flatMap(_.fifoId):_*) -- flatDomains // => IDs compacted // Calculate what the FIFO domains look like after the fixer is applied val flatMap = flatDomains.map { x => (x, 0) }.toMap val keepMap = keepDomains.scanLeft((-1,0)) { case ((_,s),x) => (x, s+1) }.toMap val map = flatMap ++ keepMap val fixMap = seq.map { m => m.fifoId match { case None => if (policy(m)) Some(0) else None case Some(id) => Some(map(id)) // also flattens some who did not ask } } // Compress the FIFO domain space of those we are combining val reMap = flatDomains.scanLeft((-1,-1)) { case ((_,s),x) => (x, s+1) }.toMap val splatMap = seq.map { m => m.fifoId match { case None => None case Some(id) => reMap.lift(id) } } (fixMap, splatMap) } val node = new AdapterNode(TLImp)( { cp => cp }, { mp => val (fixMap, _) = fifoMap(mp.managers) mp.v1copy(managers = (fixMap zip mp.managers) map { case (id, m) => m.v1copy(fifoId = id) }) }) with TLFormatNode { override def circuitIdentity = edges.in.map(_.client.clients.filter(c => c.requestFifo && c.sourceId.size > 1).size).sum == 0 } lazy val module = new Impl class Impl extends LazyModuleImp(this) { (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => val (fixMap, splatMap) = fifoMap(edgeOut.manager.managers) // Do we need to serialize the request to this manager? val a_notFIFO = edgeIn.manager.fastProperty(in.a.bits.address, _.fifoId != Some(0), (b:Boolean) => b.B) // Compact the IDs of the cases we serialize val compacted = ((fixMap zip splatMap) zip edgeOut.manager.managers) flatMap { case ((f, s), m) => if (f == Some(0)) Some(m.v1copy(fifoId = s)) else None } val sinks = if (compacted.exists(_.supportsAcquireB)) edgeOut.manager.endSinkId else 0 val a_id = if (compacted.isEmpty) 0.U else edgeOut.manager.v1copy(managers = compacted, endSinkId = sinks).findFifoIdFast(in.a.bits.address) val a_noDomain = a_id === 0.U if (false) { println(s"FIFOFixer for: ${edgeIn.client.clients.map(_.name).mkString(", ")}") println(s"make FIFO: ${edgeIn.manager.managers.filter(_.fifoId==Some(0)).map(_.name).mkString(", ")}") println(s"not FIFO: ${edgeIn.manager.managers.filter(_.fifoId!=Some(0)).map(_.name).mkString(", ")}") println(s"domains: ${compacted.groupBy(_.name).mapValues(_.map(_.fifoId))}") println("") } // Count beats val a_first = edgeIn.first(in.a) val d_first = edgeOut.first(out.d) && out.d.bits.opcode =/= TLMessages.ReleaseAck // Keep one bit for each source recording if there is an outstanding request that must be made FIFO // Sources unused in the stall signal calculation should be pruned by DCE val flight = RegInit(VecInit(Seq.fill(edgeIn.client.endSourceId) { false.B })) when (a_first && in.a.fire) { flight(in.a.bits.source) := !a_notFIFO } when (d_first && in.d.fire) { flight(in.d.bits.source) := false.B } val stalls = edgeIn.client.clients.filter(c => c.requestFifo && c.sourceId.size > 1).map { c => val a_sel = c.sourceId.contains(in.a.bits.source) val id = RegEnable(a_id, in.a.fire && a_sel && !a_notFIFO) val track = flight.slice(c.sourceId.start, c.sourceId.end) a_sel && a_first && track.reduce(_ || _) && (a_noDomain || id =/= a_id) } val stall = stalls.foldLeft(false.B)(_||_) out.a <> in.a in.d <> out.d out.a.valid := in.a.valid && (a_notFIFO || !stall) in.a.ready := out.a.ready && (a_notFIFO || !stall) if (edgeOut.manager.anySupportAcquireB && edgeOut.client.anySupportProbe) { in .b <> out.b out.c <> in .c out.e <> in .e } else { in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } //Functional cover properties property.cover(in.a.valid && stall, "COVER FIFOFIXER STALL", "Cover: Stall occured for a valid transaction") val SourceIdFIFOed = RegInit(0.U(edgeIn.client.endSourceId.W)) val SourceIdSet = WireDefault(0.U(edgeIn.client.endSourceId.W)) val SourceIdClear = WireDefault(0.U(edgeIn.client.endSourceId.W)) when (a_first && in.a.fire && !a_notFIFO) { SourceIdSet := UIntToOH(in.a.bits.source) } when (d_first && in.d.fire) { SourceIdClear := UIntToOH(in.d.bits.source) } SourceIdFIFOed := SourceIdFIFOed | SourceIdSet val allIDs_FIFOed = SourceIdFIFOed===Fill(SourceIdFIFOed.getWidth, 1.U) property.cover(allIDs_FIFOed, "COVER all sources", "Cover: FIFOFIXER covers all Source IDs") //property.cover(flight.reduce(_ && _), "COVER full", "Cover: FIFO is full with all Source IDs") property.cover(!(flight.reduce(_ || _)), "COVER empty", "Cover: FIFO is empty") property.cover(SourceIdSet > 0.U, "COVER at least one push", "Cover: At least one Source ID is pushed") property.cover(SourceIdClear > 0.U, "COVER at least one pop", "Cover: At least one Source ID is popped") } } } object TLFIFOFixer { // Which slaves should have their FIFOness combined? // NOTE: this transformation is still only applied for masters with requestFifo type Policy = TLSlaveParameters => Boolean import RegionType._ val all: Policy = m => true val allFIFO: Policy = m => m.fifoId.isDefined val allVolatile: Policy = m => m.regionType <= VOLATILE def apply(policy: Policy = all)(implicit p: Parameters): TLNode = { val fixer = LazyModule(new TLFIFOFixer(policy)) fixer.node } } File Fragmenter.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.{AddressSet, BufferParams, IdRange, TransferSizes} import freechips.rocketchip.util.{Repeater, OH1ToUInt, UIntToOH1} import scala.math.min import freechips.rocketchip.util.DataToAugmentedData object EarlyAck { sealed trait T case object AllPuts extends T case object PutFulls extends T case object None extends T } // minSize: minimum size of transfers supported by all outward managers // maxSize: maximum size of transfers supported after the Fragmenter is applied // alwaysMin: fragment all requests down to minSize (else fragment to maximum supported by manager) // earlyAck: should a multibeat Put should be acknowledged on the first beat or last beat // holdFirstDeny: allow the Fragmenter to unsafely combine multibeat Gets by taking the first denied for the whole burst // nameSuffix: appends a suffix to the module name // Fragmenter modifies: PutFull, PutPartial, LogicalData, Get, Hint // Fragmenter passes: ArithmeticData (truncated to minSize if alwaysMin) // Fragmenter cannot modify acquire (could livelock); thus it is unsafe to put caches on both sides class TLFragmenter(val minSize: Int, val maxSize: Int, val alwaysMin: Boolean = false, val earlyAck: EarlyAck.T = EarlyAck.None, val holdFirstDeny: Boolean = false, val nameSuffix: Option[String] = None)(implicit p: Parameters) extends LazyModule { require(isPow2 (maxSize), s"TLFragmenter expects pow2(maxSize), but got $maxSize") require(isPow2 (minSize), s"TLFragmenter expects pow2(minSize), but got $minSize") require(minSize <= maxSize, s"TLFragmenter expects min <= max, but got $minSize > $maxSize") val fragmentBits = log2Ceil(maxSize / minSize) val fullBits = if (earlyAck == EarlyAck.PutFulls) 1 else 0 val toggleBits = 1 val addedBits = fragmentBits + toggleBits + fullBits def expandTransfer(x: TransferSizes, op: String) = if (!x) x else { // validate that we can apply the fragmenter correctly require (x.max >= minSize, s"TLFragmenter (with parent $parent) max transfer size $op(${x.max}) must be >= min transfer size (${minSize})") TransferSizes(x.min, maxSize) } private def noChangeRequired = minSize == maxSize private def shrinkTransfer(x: TransferSizes) = if (!alwaysMin) x else if (x.min <= minSize) TransferSizes(x.min, min(minSize, x.max)) else TransferSizes.none private def mapManager(m: TLSlaveParameters) = m.v1copy( supportsArithmetic = shrinkTransfer(m.supportsArithmetic), supportsLogical = shrinkTransfer(m.supportsLogical), supportsGet = expandTransfer(m.supportsGet, "Get"), supportsPutFull = expandTransfer(m.supportsPutFull, "PutFull"), supportsPutPartial = expandTransfer(m.supportsPutPartial, "PutParital"), supportsHint = expandTransfer(m.supportsHint, "Hint")) val node = new TLAdapterNode( // We require that all the responses are mutually FIFO // Thus we need to compact all of the masters into one big master clientFn = { c => (if (noChangeRequired) c else c.v2copy( masters = Seq(TLMasterParameters.v2( name = "TLFragmenter", sourceId = IdRange(0, if (minSize == maxSize) c.endSourceId else (c.endSourceId << addedBits)), requestFifo = true, emits = TLMasterToSlaveTransferSizes( acquireT = shrinkTransfer(c.masters.map(_.emits.acquireT) .reduce(_ mincover _)), acquireB = shrinkTransfer(c.masters.map(_.emits.acquireB) .reduce(_ mincover _)), arithmetic = shrinkTransfer(c.masters.map(_.emits.arithmetic).reduce(_ mincover _)), logical = shrinkTransfer(c.masters.map(_.emits.logical) .reduce(_ mincover _)), get = shrinkTransfer(c.masters.map(_.emits.get) .reduce(_ mincover _)), putFull = shrinkTransfer(c.masters.map(_.emits.putFull) .reduce(_ mincover _)), putPartial = shrinkTransfer(c.masters.map(_.emits.putPartial).reduce(_ mincover _)), hint = shrinkTransfer(c.masters.map(_.emits.hint) .reduce(_ mincover _)) ) )) ))}, managerFn = { m => if (noChangeRequired) m else m.v2copy(slaves = m.slaves.map(mapManager)) } ) { override def circuitIdentity = noChangeRequired } lazy val module = new Impl class Impl extends LazyModuleImp(this) { override def desiredName = (Seq("TLFragmenter") ++ nameSuffix).mkString("_") (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => if (noChangeRequired) { out <> in } else { // All managers must share a common FIFO domain (responses might end up interleaved) val manager = edgeOut.manager val managers = manager.managers val beatBytes = manager.beatBytes val fifoId = managers(0).fifoId require (fifoId.isDefined && managers.map(_.fifoId == fifoId).reduce(_ && _)) require (!manager.anySupportAcquireB || !edgeOut.client.anySupportProbe, s"TLFragmenter (with parent $parent) can't fragment a caching client's requests into a cacheable region") require (minSize >= beatBytes, s"TLFragmenter (with parent $parent) can't support fragmenting ($minSize) to sub-beat ($beatBytes) accesses") // We can't support devices which are cached on both sides of us require (!edgeOut.manager.anySupportAcquireB || !edgeIn.client.anySupportProbe) // We can't support denied because we reassemble fragments require (!edgeOut.manager.mayDenyGet || holdFirstDeny, s"TLFragmenter (with parent $parent) can't support denials without holdFirstDeny=true") require (!edgeOut.manager.mayDenyPut || earlyAck == EarlyAck.None) /* The Fragmenter is a bit tricky, because there are 5 sizes in play: * max size -- the maximum transfer size possible * orig size -- the original pre-fragmenter size * frag size -- the modified post-fragmenter size * min size -- the threshold below which frag=orig * beat size -- the amount transfered on any given beat * * The relationships are as follows: * max >= orig >= frag * max > min >= beat * It IS possible that orig <= min (then frag=orig; ie: no fragmentation) * * The fragment# (sent via TL.source) is measured in multiples of min size. * Meanwhile, to track the progress, counters measure in multiples of beat size. * * Here is an example of a bus with max=256, min=8, beat=4 and a device supporting 16. * * in.A out.A (frag#) out.D (frag#) in.D gen# ack# * get64 get16 6 ackD16 6 ackD64 12 15 * ackD16 6 ackD64 14 * ackD16 6 ackD64 13 * ackD16 6 ackD64 12 * get16 4 ackD16 4 ackD64 8 11 * ackD16 4 ackD64 10 * ackD16 4 ackD64 9 * ackD16 4 ackD64 8 * get16 2 ackD16 2 ackD64 4 7 * ackD16 2 ackD64 6 * ackD16 2 ackD64 5 * ackD16 2 ackD64 4 * get16 0 ackD16 0 ackD64 0 3 * ackD16 0 ackD64 2 * ackD16 0 ackD64 1 * ackD16 0 ackD64 0 * * get8 get8 0 ackD8 0 ackD8 0 1 * ackD8 0 ackD8 0 * * get4 get4 0 ackD4 0 ackD4 0 0 * get1 get1 0 ackD1 0 ackD1 0 0 * * put64 put16 6 15 * put64 put16 6 14 * put64 put16 6 13 * put64 put16 6 ack16 6 12 12 * put64 put16 4 11 * put64 put16 4 10 * put64 put16 4 9 * put64 put16 4 ack16 4 8 8 * put64 put16 2 7 * put64 put16 2 6 * put64 put16 2 5 * put64 put16 2 ack16 2 4 4 * put64 put16 0 3 * put64 put16 0 2 * put64 put16 0 1 * put64 put16 0 ack16 0 ack64 0 0 * * put8 put8 0 1 * put8 put8 0 ack8 0 ack8 0 0 * * put4 put4 0 ack4 0 ack4 0 0 * put1 put1 0 ack1 0 ack1 0 0 */ val counterBits = log2Up(maxSize/beatBytes) val maxDownSize = if (alwaysMin) minSize else min(manager.maxTransfer, maxSize) // Consider the following waveform for two 4-beat bursts: // ---A----A------------ // -------D-----DDD-DDDD // Under TL rules, the second A can use the same source as the first A, // because the source is released for reuse on the first response beat. // // However, if we fragment the requests, it looks like this: // ---3210-3210--------- // -------3-----210-3210 // ... now we've broken the rules because 210 are twice inflight. // // This phenomenon means we can have essentially 2*maxSize/minSize-1 // fragmented transactions in flight per original transaction source. // // To keep the source unique, we encode the beat counter in the low // bits of the source. To solve the overlap, we use a toggle bit. // Whatever toggle bit the D is reassembling, A will use the opposite. // First, handle the return path val acknum = RegInit(0.U(counterBits.W)) val dOrig = Reg(UInt()) val dToggle = RegInit(false.B) val dFragnum = out.d.bits.source(fragmentBits-1, 0) val dFirst = acknum === 0.U val dLast = dFragnum === 0.U // only for AccessAck (!Data) val dsizeOH = UIntToOH (out.d.bits.size, log2Ceil(maxDownSize)+1) val dsizeOH1 = UIntToOH1(out.d.bits.size, log2Up(maxDownSize)) val dHasData = edgeOut.hasData(out.d.bits) // calculate new acknum val acknum_fragment = dFragnum << log2Ceil(minSize/beatBytes) val acknum_size = dsizeOH1 >> log2Ceil(beatBytes) assert (!out.d.valid || (acknum_fragment & acknum_size) === 0.U) val dFirst_acknum = acknum_fragment | Mux(dHasData, acknum_size, 0.U) val ack_decrement = Mux(dHasData, 1.U, dsizeOH >> log2Ceil(beatBytes)) // calculate the original size val dFirst_size = OH1ToUInt((dFragnum << log2Ceil(minSize)) | dsizeOH1) when (out.d.fire) { acknum := Mux(dFirst, dFirst_acknum, acknum - ack_decrement) when (dFirst) { dOrig := dFirst_size dToggle := out.d.bits.source(fragmentBits) } } // Swallow up non-data ack fragments val doEarlyAck = earlyAck match { case EarlyAck.AllPuts => true.B case EarlyAck.PutFulls => out.d.bits.source(fragmentBits+1) case EarlyAck.None => false.B } val drop = !dHasData && !Mux(doEarlyAck, dFirst, dLast) out.d.ready := in.d.ready || drop in.d.valid := out.d.valid && !drop in.d.bits := out.d.bits // pass most stuff unchanged in.d.bits.source := out.d.bits.source >> addedBits in.d.bits.size := Mux(dFirst, dFirst_size, dOrig) if (edgeOut.manager.mayDenyPut) { val r_denied = Reg(Bool()) val d_denied = (!dFirst && r_denied) || out.d.bits.denied when (out.d.fire) { r_denied := d_denied } in.d.bits.denied := d_denied } if (edgeOut.manager.mayDenyGet) { // Take denied only from the first beat and hold that value val d_denied = out.d.bits.denied holdUnless dFirst when (dHasData) { in.d.bits.denied := d_denied in.d.bits.corrupt := d_denied || out.d.bits.corrupt } } // What maximum transfer sizes do downstream devices support? val maxArithmetics = managers.map(_.supportsArithmetic.max) val maxLogicals = managers.map(_.supportsLogical.max) val maxGets = managers.map(_.supportsGet.max) val maxPutFulls = managers.map(_.supportsPutFull.max) val maxPutPartials = managers.map(_.supportsPutPartial.max) val maxHints = managers.map(m => if (m.supportsHint) maxDownSize else 0) // We assume that the request is valid => size 0 is impossible val lgMinSize = log2Ceil(minSize).U val maxLgArithmetics = maxArithmetics.map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgLogicals = maxLogicals .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgGets = maxGets .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgPutFulls = maxPutFulls .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgPutPartials = maxPutPartials.map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgHints = maxHints .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) // Make the request repeatable val repeater = Module(new Repeater(in.a.bits)) repeater.io.enq <> in.a val in_a = repeater.io.deq // If this is infront of a single manager, these become constants val find = manager.findFast(edgeIn.address(in_a.bits)) val maxLgArithmetic = Mux1H(find, maxLgArithmetics) val maxLgLogical = Mux1H(find, maxLgLogicals) val maxLgGet = Mux1H(find, maxLgGets) val maxLgPutFull = Mux1H(find, maxLgPutFulls) val maxLgPutPartial = Mux1H(find, maxLgPutPartials) val maxLgHint = Mux1H(find, maxLgHints) val limit = if (alwaysMin) lgMinSize else MuxLookup(in_a.bits.opcode, lgMinSize)(Array( TLMessages.PutFullData -> maxLgPutFull, TLMessages.PutPartialData -> maxLgPutPartial, TLMessages.ArithmeticData -> maxLgArithmetic, TLMessages.LogicalData -> maxLgLogical, TLMessages.Get -> maxLgGet, TLMessages.Hint -> maxLgHint)) val aOrig = in_a.bits.size val aFrag = Mux(aOrig > limit, limit, aOrig) val aOrigOH1 = UIntToOH1(aOrig, log2Ceil(maxSize)) val aFragOH1 = UIntToOH1(aFrag, log2Up(maxDownSize)) val aHasData = edgeIn.hasData(in_a.bits) val aMask = Mux(aHasData, 0.U, aFragOH1) val gennum = RegInit(0.U(counterBits.W)) val aFirst = gennum === 0.U val old_gennum1 = Mux(aFirst, aOrigOH1 >> log2Ceil(beatBytes), gennum - 1.U) val new_gennum = ~(~old_gennum1 | (aMask >> log2Ceil(beatBytes))) // ~(~x|y) is width safe val aFragnum = ~(~(old_gennum1 >> log2Ceil(minSize/beatBytes)) | (aFragOH1 >> log2Ceil(minSize))) val aLast = aFragnum === 0.U val aToggle = !Mux(aFirst, dToggle, RegEnable(dToggle, aFirst)) val aFull = if (earlyAck == EarlyAck.PutFulls) Some(in_a.bits.opcode === TLMessages.PutFullData) else None when (out.a.fire) { gennum := new_gennum } repeater.io.repeat := !aHasData && aFragnum =/= 0.U out.a <> in_a out.a.bits.address := in_a.bits.address | ~(old_gennum1 << log2Ceil(beatBytes) | ~aOrigOH1 | aFragOH1 | (minSize-1).U) out.a.bits.source := Cat(Seq(in_a.bits.source) ++ aFull ++ Seq(aToggle.asUInt, aFragnum)) out.a.bits.size := aFrag // Optimize away some of the Repeater's registers assert (!repeater.io.full || !aHasData) out.a.bits.data := in.a.bits.data val fullMask = ((BigInt(1) << beatBytes) - 1).U assert (!repeater.io.full || in_a.bits.mask === fullMask) out.a.bits.mask := Mux(repeater.io.full, fullMask, in.a.bits.mask) out.a.bits.user.waiveAll :<= in.a.bits.user.subset(_.isData) // Tie off unused channels in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } } } } object TLFragmenter { def apply(minSize: Int, maxSize: Int, alwaysMin: Boolean = false, earlyAck: EarlyAck.T = EarlyAck.None, holdFirstDeny: Boolean = false, nameSuffix: Option[String] = None)(implicit p: Parameters): TLNode = { if (minSize <= maxSize) { val fragmenter = LazyModule(new TLFragmenter(minSize, maxSize, alwaysMin, earlyAck, holdFirstDeny, nameSuffix)) fragmenter.node } else { TLEphemeralNode()(ValName("no_fragmenter")) } } def apply(wrapper: TLBusWrapper, nameSuffix: Option[String])(implicit p: Parameters): TLNode = apply(wrapper.beatBytes, wrapper.blockBytes, nameSuffix = nameSuffix) def apply(wrapper: TLBusWrapper)(implicit p: Parameters): TLNode = apply(wrapper, None) } // Synthesizable unit tests import freechips.rocketchip.unittest._ class TLRAMFragmenter(ramBeatBytes: Int, maxSize: Int, txns: Int)(implicit p: Parameters) extends LazyModule { val fuzz = LazyModule(new TLFuzzer(txns)) val model = LazyModule(new TLRAMModel("Fragmenter")) val ram = LazyModule(new TLRAM(AddressSet(0x0, 0x3ff), beatBytes = ramBeatBytes)) (ram.node := TLDelayer(0.1) := TLBuffer(BufferParams.flow) := TLDelayer(0.1) := TLFragmenter(ramBeatBytes, maxSize, earlyAck = EarlyAck.AllPuts) := TLDelayer(0.1) := TLBuffer(BufferParams.flow) := TLFragmenter(ramBeatBytes, maxSize/2) := TLDelayer(0.1) := TLBuffer(BufferParams.flow) := model.node := fuzz.node) lazy val module = new Impl class Impl extends LazyModuleImp(this) with UnitTestModule { io.finished := fuzz.module.io.finished } } class TLRAMFragmenterTest(ramBeatBytes: Int, maxSize: Int, txns: Int = 5000, timeout: Int = 500000)(implicit p: Parameters) extends UnitTest(timeout) { val dut = Module(LazyModule(new TLRAMFragmenter(ramBeatBytes,maxSize,txns)).module) io.finished := dut.io.finished dut.io.start := io.start } File ClockDomain.scala: package freechips.rocketchip.prci import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ abstract class Domain(implicit p: Parameters) extends LazyModule with HasDomainCrossing { def clockBundle: ClockBundle lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { childClock := clockBundle.clock childReset := clockBundle.reset override def provideImplicitClockToLazyChildren = true // these are just for backwards compatibility with external devices // that were manually wiring themselves to the domain's clock/reset input: val clock = IO(Output(chiselTypeOf(clockBundle.clock))) val reset = IO(Output(chiselTypeOf(clockBundle.reset))) clock := clockBundle.clock reset := clockBundle.reset } } abstract class ClockDomain(implicit p: Parameters) extends Domain with HasClockDomainCrossing class ClockSinkDomain(val clockSinkParams: ClockSinkParameters)(implicit p: Parameters) extends ClockDomain { def this(take: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSinkParameters(take = take, name = name)) val clockNode = ClockSinkNode(Seq(clockSinkParams)) def clockBundle = clockNode.in.head._1 override lazy val desiredName = (clockSinkParams.name.toSeq :+ "ClockSinkDomain").mkString } class ClockSourceDomain(val clockSourceParams: ClockSourceParameters)(implicit p: Parameters) extends ClockDomain { def this(give: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSourceParameters(give = give, name = name)) val clockNode = ClockSourceNode(Seq(clockSourceParams)) def clockBundle = clockNode.out.head._1 override lazy val desiredName = (clockSourceParams.name.toSeq :+ "ClockSourceDomain").mkString } abstract class ResetDomain(implicit p: Parameters) extends Domain with HasResetDomainCrossing File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File StreamingPassthrough.scala: //// See LICENSE for license details. // package chipyard.example import chisel3._ import chisel3.{Bundle, Module} import chisel3.util._ import dspblocks._ import dsptools.numbers._ import freechips.rocketchip.amba.axi4stream._ import org.chipsalliance.cde.config.{Parameters, Field, Config} import freechips.rocketchip.diplomacy._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.subsystem._ // Simple passthrough to use as testbed sanity check // StreamingPassthrough params case class StreamingPassthroughParams( writeAddress: BigInt = 0x2200, readAddress: BigInt = 0x2300, depth: Int ) // StreamingPassthrough key case object StreamingPassthroughKey extends Field[Option[StreamingPassthroughParams]](None) class StreamingPassthroughBundle[T<:Data:Ring](proto: T) extends Bundle { val data: T = proto.cloneType } object StreamingPassthroughBundle { def apply[T<:Data:Ring](proto: T): StreamingPassthroughBundle[T] = new StreamingPassthroughBundle(proto) } class StreamingPassthroughIO[T<:Data:Ring](proto: T) extends Bundle { val in = Flipped(Decoupled(StreamingPassthroughBundle(proto))) val out = Decoupled(StreamingPassthroughBundle(proto)) } object StreamingPassthroughIO { def apply[T<:Data:Ring](proto: T): StreamingPassthroughIO[T] = new StreamingPassthroughIO(proto) } class StreamingPassthrough[T<:Data:Ring](proto: T) extends Module { val io = IO(StreamingPassthroughIO(proto)) io.in.ready := io.out.ready io.out.bits.data := io.in.bits.data io.out.valid := io.in.valid } /** * Make DspBlock wrapper for StreamingPassthrough * @param cordicParams parameters for cordic * @param ev$1 * @param ev$2 * @param ev$3 * @param p * @tparam D * @tparam U * @tparam EO * @tparam EI * @tparam B * @tparam T Type parameter for passthrough, i.e. FixedPoint or DspReal */ abstract class StreamingPassthroughBlock[D, U, EO, EI, B<:Data, T<:Data:Ring] ( proto: T )(implicit p: Parameters) extends DspBlock[D, U, EO, EI, B] { val streamNode = AXI4StreamIdentityNode() val mem = None lazy val module = new LazyModuleImp(this) { require(streamNode.in.length == 1) require(streamNode.out.length == 1) val in = streamNode.in.head._1 val out = streamNode.out.head._1 // instantiate passthrough val passthrough = Module(new StreamingPassthrough(proto)) // Pass ready and valid from read queue to write queue in.ready := passthrough.io.in.ready passthrough.io.in.valid := in.valid // cast UInt to T passthrough.io.in.bits := in.bits.data.asTypeOf(StreamingPassthroughBundle(proto)) passthrough.io.out.ready := out.ready out.valid := passthrough.io.out.valid // cast T to UInt out.bits.data := passthrough.io.out.bits.asUInt } } /** * TLDspBlock specialization of StreamingPassthrough * @param cordicParams parameters for passthrough * @param ev$1 * @param ev$2 * @param ev$3 * @param p * @tparam T Type parameter for passthrough data type */ class TLStreamingPassthroughBlock[T<:Data:Ring] ( val proto: T )(implicit p: Parameters) extends StreamingPassthroughBlock[TLClientPortParameters, TLManagerPortParameters, TLEdgeOut, TLEdgeIn, TLBundle, T](proto) with TLDspBlock /** * A chain of queues acting as our MMIOs with the passthrough module in between them. * @param depth depth of queues * @param ev$1 * @param ev$2 * @param ev$3 * @param p * @tparam T Type parameter for passthrough, i.e. FixedPoint or DspReal */ class TLStreamingPassthroughChain[T<:Data:Ring](params: StreamingPassthroughParams, proto: T)(implicit p: Parameters) extends TLChain(Seq( TLWriteQueue(params.depth, AddressSet(params.writeAddress, 0xff))(_), { implicit p: Parameters => { val streamingPassthrough = LazyModule(new TLStreamingPassthroughBlock(proto)) streamingPassthrough }}, TLReadQueue(params.depth, AddressSet(params.readAddress, 0xff))(_) )) trait CanHavePeripheryStreamingPassthrough { this: BaseSubsystem => val passthrough = p(StreamingPassthroughKey) match { case Some(params) => { val pbus = locateTLBusWrapper(PBUS) val domain = pbus.generateSynchronousDomain.suggestName("streaming_passthrough_domain") val streamingPassthroughChain = domain { LazyModule(new TLStreamingPassthroughChain(params, UInt(32.W))) } pbus.coupleTo("streamingPassthrough") { domain { streamingPassthroughChain.mem.get := TLFIFOFixer() := TLFragmenter(pbus.beatBytes, pbus.blockBytes)} := _ } Some(streamingPassthroughChain) } case None => None } } /** * Mixin to add passthrough to rocket config */ class WithStreamingPassthrough extends Config((site, here, up) => { case StreamingPassthroughKey => Some(StreamingPassthroughParams(depth = 8)) })
module ClockSinkDomain_1( // @[ClockDomain.scala:14:9] output auto_fragmenter_anon_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_fragmenter_anon_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_fragmenter_anon_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_fragmenter_anon_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_fragmenter_anon_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input [6:0] auto_fragmenter_anon_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [13:0] auto_fragmenter_anon_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_fragmenter_anon_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_fragmenter_anon_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_fragmenter_anon_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_fragmenter_anon_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_fragmenter_anon_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_fragmenter_anon_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_fragmenter_anon_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output [6:0] auto_fragmenter_anon_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output [63:0] auto_fragmenter_anon_in_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_clock_in_clock, // @[LazyModuleImp.scala:107:25] input auto_clock_in_reset // @[LazyModuleImp.scala:107:25] ); wire _fragmenter_auto_anon_out_a_valid; // @[Fragmenter.scala:345:34] wire [2:0] _fragmenter_auto_anon_out_a_bits_opcode; // @[Fragmenter.scala:345:34] wire [2:0] _fragmenter_auto_anon_out_a_bits_param; // @[Fragmenter.scala:345:34] wire [1:0] _fragmenter_auto_anon_out_a_bits_size; // @[Fragmenter.scala:345:34] wire [10:0] _fragmenter_auto_anon_out_a_bits_source; // @[Fragmenter.scala:345:34] wire [13:0] _fragmenter_auto_anon_out_a_bits_address; // @[Fragmenter.scala:345:34] wire [7:0] _fragmenter_auto_anon_out_a_bits_mask; // @[Fragmenter.scala:345:34] wire [63:0] _fragmenter_auto_anon_out_a_bits_data; // @[Fragmenter.scala:345:34] wire _fragmenter_auto_anon_out_a_bits_corrupt; // @[Fragmenter.scala:345:34] wire _fragmenter_auto_anon_out_d_ready; // @[Fragmenter.scala:345:34] wire _fixer_auto_anon_in_a_ready; // @[FIFOFixer.scala:152:27] wire _fixer_auto_anon_in_d_valid; // @[FIFOFixer.scala:152:27] wire [2:0] _fixer_auto_anon_in_d_bits_opcode; // @[FIFOFixer.scala:152:27] wire [1:0] _fixer_auto_anon_in_d_bits_size; // @[FIFOFixer.scala:152:27] wire [10:0] _fixer_auto_anon_in_d_bits_source; // @[FIFOFixer.scala:152:27] wire [63:0] _fixer_auto_anon_in_d_bits_data; // @[FIFOFixer.scala:152:27] wire _fixer_auto_anon_out_a_valid; // @[FIFOFixer.scala:152:27] wire [2:0] _fixer_auto_anon_out_a_bits_opcode; // @[FIFOFixer.scala:152:27] wire [2:0] _fixer_auto_anon_out_a_bits_param; // @[FIFOFixer.scala:152:27] wire [1:0] _fixer_auto_anon_out_a_bits_size; // @[FIFOFixer.scala:152:27] wire [10:0] _fixer_auto_anon_out_a_bits_source; // @[FIFOFixer.scala:152:27] wire [13:0] _fixer_auto_anon_out_a_bits_address; // @[FIFOFixer.scala:152:27] wire [7:0] _fixer_auto_anon_out_a_bits_mask; // @[FIFOFixer.scala:152:27] wire [63:0] _fixer_auto_anon_out_a_bits_data; // @[FIFOFixer.scala:152:27] wire _fixer_auto_anon_out_a_bits_corrupt; // @[FIFOFixer.scala:152:27] wire _fixer_auto_anon_out_d_ready; // @[FIFOFixer.scala:152:27] wire _streamingPassthroughChain_auto_bus_anon_in_a_ready; // @[StreamingPassthrough.scala:136:58] wire _streamingPassthroughChain_auto_bus_anon_in_d_valid; // @[StreamingPassthrough.scala:136:58] wire [2:0] _streamingPassthroughChain_auto_bus_anon_in_d_bits_opcode; // @[StreamingPassthrough.scala:136:58] wire [1:0] _streamingPassthroughChain_auto_bus_anon_in_d_bits_size; // @[StreamingPassthrough.scala:136:58] wire [10:0] _streamingPassthroughChain_auto_bus_anon_in_d_bits_source; // @[StreamingPassthrough.scala:136:58] wire [63:0] _streamingPassthroughChain_auto_bus_anon_in_d_bits_data; // @[StreamingPassthrough.scala:136:58] TLStreamingPassthroughChain streamingPassthroughChain ( // @[StreamingPassthrough.scala:136:58] .clock (auto_clock_in_clock), .reset (auto_clock_in_reset), .auto_bus_anon_in_a_ready (_streamingPassthroughChain_auto_bus_anon_in_a_ready), .auto_bus_anon_in_a_valid (_fixer_auto_anon_out_a_valid), // @[FIFOFixer.scala:152:27] .auto_bus_anon_in_a_bits_opcode (_fixer_auto_anon_out_a_bits_opcode), // @[FIFOFixer.scala:152:27] .auto_bus_anon_in_a_bits_param (_fixer_auto_anon_out_a_bits_param), // @[FIFOFixer.scala:152:27] .auto_bus_anon_in_a_bits_size (_fixer_auto_anon_out_a_bits_size), // @[FIFOFixer.scala:152:27] .auto_bus_anon_in_a_bits_source (_fixer_auto_anon_out_a_bits_source), // @[FIFOFixer.scala:152:27] .auto_bus_anon_in_a_bits_address (_fixer_auto_anon_out_a_bits_address), // @[FIFOFixer.scala:152:27] .auto_bus_anon_in_a_bits_mask (_fixer_auto_anon_out_a_bits_mask), // @[FIFOFixer.scala:152:27] .auto_bus_anon_in_a_bits_data (_fixer_auto_anon_out_a_bits_data), // @[FIFOFixer.scala:152:27] .auto_bus_anon_in_a_bits_corrupt (_fixer_auto_anon_out_a_bits_corrupt), // @[FIFOFixer.scala:152:27] .auto_bus_anon_in_d_ready (_fixer_auto_anon_out_d_ready), // @[FIFOFixer.scala:152:27] .auto_bus_anon_in_d_valid (_streamingPassthroughChain_auto_bus_anon_in_d_valid), .auto_bus_anon_in_d_bits_opcode (_streamingPassthroughChain_auto_bus_anon_in_d_bits_opcode), .auto_bus_anon_in_d_bits_size (_streamingPassthroughChain_auto_bus_anon_in_d_bits_size), .auto_bus_anon_in_d_bits_source (_streamingPassthroughChain_auto_bus_anon_in_d_bits_source), .auto_bus_anon_in_d_bits_data (_streamingPassthroughChain_auto_bus_anon_in_d_bits_data) ); // @[StreamingPassthrough.scala:136:58] TLFIFOFixer_5 fixer ( // @[FIFOFixer.scala:152:27] .clock (auto_clock_in_clock), .reset (auto_clock_in_reset), .auto_anon_in_a_ready (_fixer_auto_anon_in_a_ready), .auto_anon_in_a_valid (_fragmenter_auto_anon_out_a_valid), // @[Fragmenter.scala:345:34] .auto_anon_in_a_bits_opcode (_fragmenter_auto_anon_out_a_bits_opcode), // @[Fragmenter.scala:345:34] .auto_anon_in_a_bits_param (_fragmenter_auto_anon_out_a_bits_param), // @[Fragmenter.scala:345:34] .auto_anon_in_a_bits_size (_fragmenter_auto_anon_out_a_bits_size), // @[Fragmenter.scala:345:34] .auto_anon_in_a_bits_source (_fragmenter_auto_anon_out_a_bits_source), // @[Fragmenter.scala:345:34] .auto_anon_in_a_bits_address (_fragmenter_auto_anon_out_a_bits_address), // @[Fragmenter.scala:345:34] .auto_anon_in_a_bits_mask (_fragmenter_auto_anon_out_a_bits_mask), // @[Fragmenter.scala:345:34] .auto_anon_in_a_bits_data (_fragmenter_auto_anon_out_a_bits_data), // @[Fragmenter.scala:345:34] .auto_anon_in_a_bits_corrupt (_fragmenter_auto_anon_out_a_bits_corrupt), // @[Fragmenter.scala:345:34] .auto_anon_in_d_ready (_fragmenter_auto_anon_out_d_ready), // @[Fragmenter.scala:345:34] .auto_anon_in_d_valid (_fixer_auto_anon_in_d_valid), .auto_anon_in_d_bits_opcode (_fixer_auto_anon_in_d_bits_opcode), .auto_anon_in_d_bits_size (_fixer_auto_anon_in_d_bits_size), .auto_anon_in_d_bits_source (_fixer_auto_anon_in_d_bits_source), .auto_anon_in_d_bits_data (_fixer_auto_anon_in_d_bits_data), .auto_anon_out_a_ready (_streamingPassthroughChain_auto_bus_anon_in_a_ready), // @[StreamingPassthrough.scala:136:58] .auto_anon_out_a_valid (_fixer_auto_anon_out_a_valid), .auto_anon_out_a_bits_opcode (_fixer_auto_anon_out_a_bits_opcode), .auto_anon_out_a_bits_param (_fixer_auto_anon_out_a_bits_param), .auto_anon_out_a_bits_size (_fixer_auto_anon_out_a_bits_size), .auto_anon_out_a_bits_source (_fixer_auto_anon_out_a_bits_source), .auto_anon_out_a_bits_address (_fixer_auto_anon_out_a_bits_address), .auto_anon_out_a_bits_mask (_fixer_auto_anon_out_a_bits_mask), .auto_anon_out_a_bits_data (_fixer_auto_anon_out_a_bits_data), .auto_anon_out_a_bits_corrupt (_fixer_auto_anon_out_a_bits_corrupt), .auto_anon_out_d_ready (_fixer_auto_anon_out_d_ready), .auto_anon_out_d_valid (_streamingPassthroughChain_auto_bus_anon_in_d_valid), // @[StreamingPassthrough.scala:136:58] .auto_anon_out_d_bits_opcode (_streamingPassthroughChain_auto_bus_anon_in_d_bits_opcode), // @[StreamingPassthrough.scala:136:58] .auto_anon_out_d_bits_size (_streamingPassthroughChain_auto_bus_anon_in_d_bits_size), // @[StreamingPassthrough.scala:136:58] .auto_anon_out_d_bits_source (_streamingPassthroughChain_auto_bus_anon_in_d_bits_source), // @[StreamingPassthrough.scala:136:58] .auto_anon_out_d_bits_data (_streamingPassthroughChain_auto_bus_anon_in_d_bits_data) // @[StreamingPassthrough.scala:136:58] ); // @[FIFOFixer.scala:152:27] TLFragmenter_1 fragmenter ( // @[Fragmenter.scala:345:34] .clock (auto_clock_in_clock), .reset (auto_clock_in_reset), .auto_anon_in_a_ready (auto_fragmenter_anon_in_a_ready), .auto_anon_in_a_valid (auto_fragmenter_anon_in_a_valid), .auto_anon_in_a_bits_opcode (auto_fragmenter_anon_in_a_bits_opcode), .auto_anon_in_a_bits_param (auto_fragmenter_anon_in_a_bits_param), .auto_anon_in_a_bits_size (auto_fragmenter_anon_in_a_bits_size), .auto_anon_in_a_bits_source (auto_fragmenter_anon_in_a_bits_source), .auto_anon_in_a_bits_address (auto_fragmenter_anon_in_a_bits_address), .auto_anon_in_a_bits_mask (auto_fragmenter_anon_in_a_bits_mask), .auto_anon_in_a_bits_data (auto_fragmenter_anon_in_a_bits_data), .auto_anon_in_a_bits_corrupt (auto_fragmenter_anon_in_a_bits_corrupt), .auto_anon_in_d_ready (auto_fragmenter_anon_in_d_ready), .auto_anon_in_d_valid (auto_fragmenter_anon_in_d_valid), .auto_anon_in_d_bits_opcode (auto_fragmenter_anon_in_d_bits_opcode), .auto_anon_in_d_bits_size (auto_fragmenter_anon_in_d_bits_size), .auto_anon_in_d_bits_source (auto_fragmenter_anon_in_d_bits_source), .auto_anon_in_d_bits_data (auto_fragmenter_anon_in_d_bits_data), .auto_anon_out_a_ready (_fixer_auto_anon_in_a_ready), // @[FIFOFixer.scala:152:27] .auto_anon_out_a_valid (_fragmenter_auto_anon_out_a_valid), .auto_anon_out_a_bits_opcode (_fragmenter_auto_anon_out_a_bits_opcode), .auto_anon_out_a_bits_param (_fragmenter_auto_anon_out_a_bits_param), .auto_anon_out_a_bits_size (_fragmenter_auto_anon_out_a_bits_size), .auto_anon_out_a_bits_source (_fragmenter_auto_anon_out_a_bits_source), .auto_anon_out_a_bits_address (_fragmenter_auto_anon_out_a_bits_address), .auto_anon_out_a_bits_mask (_fragmenter_auto_anon_out_a_bits_mask), .auto_anon_out_a_bits_data (_fragmenter_auto_anon_out_a_bits_data), .auto_anon_out_a_bits_corrupt (_fragmenter_auto_anon_out_a_bits_corrupt), .auto_anon_out_d_ready (_fragmenter_auto_anon_out_d_ready), .auto_anon_out_d_valid (_fixer_auto_anon_in_d_valid), // @[FIFOFixer.scala:152:27] .auto_anon_out_d_bits_opcode (_fixer_auto_anon_in_d_bits_opcode), // @[FIFOFixer.scala:152:27] .auto_anon_out_d_bits_size (_fixer_auto_anon_in_d_bits_size), // @[FIFOFixer.scala:152:27] .auto_anon_out_d_bits_source (_fixer_auto_anon_in_d_bits_source), // @[FIFOFixer.scala:152:27] .auto_anon_out_d_bits_data (_fixer_auto_anon_in_d_bits_data) // @[FIFOFixer.scala:152:27] ); // @[Fragmenter.scala:345:34] endmodule
Generate the Verilog code corresponding to the following Chisel files. File RecFNToRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import consts._ class RecFNToRecFN( inExpWidth: Int, inSigWidth: Int, outExpWidth: Int, outSigWidth: Int) extends chisel3.RawModule { val io = IO(new Bundle { val in = Input(Bits((inExpWidth + inSigWidth + 1).W)) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((outExpWidth + outSigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val rawIn = rawFloatFromRecFN(inExpWidth, inSigWidth, io.in); if ((inExpWidth == outExpWidth) && (inSigWidth <= outSigWidth)) { //-------------------------------------------------------------------- //-------------------------------------------------------------------- io.out := io.in<<(outSigWidth - inSigWidth) io.exceptionFlags := isSigNaNRawFloat(rawIn) ## 0.U(4.W) } else { //-------------------------------------------------------------------- //-------------------------------------------------------------------- val roundAnyRawFNToRecFN = Module( new RoundAnyRawFNToRecFN( inExpWidth, inSigWidth, outExpWidth, outSigWidth, flRoundOpt_sigMSBitAlwaysZero )) roundAnyRawFNToRecFN.io.invalidExc := isSigNaNRawFloat(rawIn) roundAnyRawFNToRecFN.io.infiniteExc := false.B roundAnyRawFNToRecFN.io.in := rawIn roundAnyRawFNToRecFN.io.roundingMode := io.roundingMode roundAnyRawFNToRecFN.io.detectTininess := io.detectTininess io.out := roundAnyRawFNToRecFN.io.out io.exceptionFlags := roundAnyRawFNToRecFN.io.exceptionFlags } } File rawFloatFromRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ /*---------------------------------------------------------------------------- | In the result, no more than one of 'isNaN', 'isInf', and 'isZero' will be | set. *----------------------------------------------------------------------------*/ object rawFloatFromRecFN { def apply(expWidth: Int, sigWidth: Int, in: Bits): RawFloat = { val exp = in(expWidth + sigWidth - 1, sigWidth - 1) val isZero = exp(expWidth, expWidth - 2) === 0.U val isSpecial = exp(expWidth, expWidth - 1) === 3.U val out = Wire(new RawFloat(expWidth, sigWidth)) out.isNaN := isSpecial && exp(expWidth - 2) out.isInf := isSpecial && ! exp(expWidth - 2) out.isZero := isZero out.sign := in(expWidth + sigWidth) out.sExp := exp.zext out.sig := 0.U(1.W) ## ! isZero ## in(sigWidth - 2, 0) out } }
module RecFNToRecFN_258( // @[RecFNToRecFN.scala:44:5] input [32:0] io_in, // @[RecFNToRecFN.scala:48:16] output [32:0] io_out // @[RecFNToRecFN.scala:48:16] ); wire [32:0] io_in_0 = io_in; // @[RecFNToRecFN.scala:44:5] wire io_detectTininess = 1'h1; // @[RecFNToRecFN.scala:44:5, :48:16] wire [2:0] io_roundingMode = 3'h0; // @[RecFNToRecFN.scala:44:5, :48:16] wire [32:0] _io_out_T = io_in_0; // @[RecFNToRecFN.scala:44:5, :64:35] wire [4:0] _io_exceptionFlags_T_3; // @[RecFNToRecFN.scala:65:54] wire [32:0] io_out_0; // @[RecFNToRecFN.scala:44:5] wire [4:0] io_exceptionFlags; // @[RecFNToRecFN.scala:44:5] wire [8:0] rawIn_exp = io_in_0[31:23]; // @[rawFloatFromRecFN.scala:51:21] wire [2:0] _rawIn_isZero_T = rawIn_exp[8:6]; // @[rawFloatFromRecFN.scala:51:21, :52:28] wire rawIn_isZero = _rawIn_isZero_T == 3'h0; // @[rawFloatFromRecFN.scala:52:{28,53}] wire rawIn_isZero_0 = rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :55:23] wire [1:0] _rawIn_isSpecial_T = rawIn_exp[8:7]; // @[rawFloatFromRecFN.scala:51:21, :53:28] wire rawIn_isSpecial = &_rawIn_isSpecial_T; // @[rawFloatFromRecFN.scala:53:{28,53}] wire _rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:56:33] wire _rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:57:33] wire _rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:59:25] wire [9:0] _rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:60:27] wire [24:0] _rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:61:44] wire rawIn_isNaN; // @[rawFloatFromRecFN.scala:55:23] wire rawIn_isInf; // @[rawFloatFromRecFN.scala:55:23] wire rawIn_sign; // @[rawFloatFromRecFN.scala:55:23] wire [9:0] rawIn_sExp; // @[rawFloatFromRecFN.scala:55:23] wire [24:0] rawIn_sig; // @[rawFloatFromRecFN.scala:55:23] wire _rawIn_out_isNaN_T = rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41] wire _rawIn_out_isInf_T = rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41, :57:41] assign _rawIn_out_isNaN_T_1 = rawIn_isSpecial & _rawIn_out_isNaN_T; // @[rawFloatFromRecFN.scala:53:53, :56:{33,41}] assign rawIn_isNaN = _rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:55:23, :56:33] wire _rawIn_out_isInf_T_1 = ~_rawIn_out_isInf_T; // @[rawFloatFromRecFN.scala:57:{36,41}] assign _rawIn_out_isInf_T_2 = rawIn_isSpecial & _rawIn_out_isInf_T_1; // @[rawFloatFromRecFN.scala:53:53, :57:{33,36}] assign rawIn_isInf = _rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:55:23, :57:33] assign _rawIn_out_sign_T = io_in_0[32]; // @[rawFloatFromRecFN.scala:59:25] assign rawIn_sign = _rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:55:23, :59:25] assign _rawIn_out_sExp_T = {1'h0, rawIn_exp}; // @[rawFloatFromRecFN.scala:51:21, :60:27] assign rawIn_sExp = _rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:55:23, :60:27] wire _rawIn_out_sig_T = ~rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :61:35] wire [1:0] _rawIn_out_sig_T_1 = {1'h0, _rawIn_out_sig_T}; // @[rawFloatFromRecFN.scala:61:{32,35}] wire [22:0] _rawIn_out_sig_T_2 = io_in_0[22:0]; // @[rawFloatFromRecFN.scala:61:49] assign _rawIn_out_sig_T_3 = {_rawIn_out_sig_T_1, _rawIn_out_sig_T_2}; // @[rawFloatFromRecFN.scala:61:{32,44,49}] assign rawIn_sig = _rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:55:23, :61:44] assign io_out_0 = _io_out_T; // @[RecFNToRecFN.scala:44:5, :64:35] wire _io_exceptionFlags_T = rawIn_sig[22]; // @[rawFloatFromRecFN.scala:55:23] wire _io_exceptionFlags_T_1 = ~_io_exceptionFlags_T; // @[common.scala:82:{49,56}] wire _io_exceptionFlags_T_2 = rawIn_isNaN & _io_exceptionFlags_T_1; // @[rawFloatFromRecFN.scala:55:23] assign _io_exceptionFlags_T_3 = {_io_exceptionFlags_T_2, 4'h0}; // @[common.scala:82:46] assign io_exceptionFlags = _io_exceptionFlags_T_3; // @[RecFNToRecFN.scala:44:5, :65:54] assign io_out = io_out_0; // @[RecFNToRecFN.scala:44:5] endmodule
Generate the Verilog code corresponding to the following Chisel files. File RoundAnyRawFNToRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util.Fill import consts._ //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class RoundAnyRawFNToRecFN( inExpWidth: Int, inSigWidth: Int, outExpWidth: Int, outSigWidth: Int, options: Int ) extends RawModule { override def desiredName = s"RoundAnyRawFNToRecFN_ie${inExpWidth}_is${inSigWidth}_oe${outExpWidth}_os${outSigWidth}" val io = IO(new Bundle { val invalidExc = Input(Bool()) // overrides 'infiniteExc' and 'in' val infiniteExc = Input(Bool()) // overrides 'in' except for 'in.sign' val in = Input(new RawFloat(inExpWidth, inSigWidth)) // (allowed exponent range has limits) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((outExpWidth + outSigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sigMSBitAlwaysZero = ((options & flRoundOpt_sigMSBitAlwaysZero) != 0) val effectiveInSigWidth = if (sigMSBitAlwaysZero) inSigWidth else inSigWidth + 1 val neverUnderflows = ((options & (flRoundOpt_neverUnderflows | flRoundOpt_subnormsAlwaysExact) ) != 0) || (inExpWidth < outExpWidth) val neverOverflows = ((options & flRoundOpt_neverOverflows) != 0) || (inExpWidth < outExpWidth) val outNaNExp = BigInt(7)<<(outExpWidth - 2) val outInfExp = BigInt(6)<<(outExpWidth - 2) val outMaxFiniteExp = outInfExp - 1 val outMinNormExp = (BigInt(1)<<(outExpWidth - 1)) + 2 val outMinNonzeroExp = outMinNormExp - outSigWidth + 1 //------------------------------------------------------------------------ //------------------------------------------------------------------------ val roundingMode_near_even = (io.roundingMode === round_near_even) val roundingMode_minMag = (io.roundingMode === round_minMag) val roundingMode_min = (io.roundingMode === round_min) val roundingMode_max = (io.roundingMode === round_max) val roundingMode_near_maxMag = (io.roundingMode === round_near_maxMag) val roundingMode_odd = (io.roundingMode === round_odd) val roundMagUp = (roundingMode_min && io.in.sign) || (roundingMode_max && ! io.in.sign) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sAdjustedExp = if (inExpWidth < outExpWidth) (io.in.sExp +& ((BigInt(1)<<outExpWidth) - (BigInt(1)<<inExpWidth)).S )(outExpWidth, 0).zext else if (inExpWidth == outExpWidth) io.in.sExp else io.in.sExp +& ((BigInt(1)<<outExpWidth) - (BigInt(1)<<inExpWidth)).S val adjustedSig = if (inSigWidth <= outSigWidth + 2) io.in.sig<<(outSigWidth - inSigWidth + 2) else (io.in.sig(inSigWidth, inSigWidth - outSigWidth - 1) ## io.in.sig(inSigWidth - outSigWidth - 2, 0).orR ) val doShiftSigDown1 = if (sigMSBitAlwaysZero) false.B else adjustedSig(outSigWidth + 2) val common_expOut = Wire(UInt((outExpWidth + 1).W)) val common_fractOut = Wire(UInt((outSigWidth - 1).W)) val common_overflow = Wire(Bool()) val common_totalUnderflow = Wire(Bool()) val common_underflow = Wire(Bool()) val common_inexact = Wire(Bool()) if ( neverOverflows && neverUnderflows && (effectiveInSigWidth <= outSigWidth) ) { //-------------------------------------------------------------------- //-------------------------------------------------------------------- common_expOut := sAdjustedExp(outExpWidth, 0) + doShiftSigDown1 common_fractOut := Mux(doShiftSigDown1, adjustedSig(outSigWidth + 1, 3), adjustedSig(outSigWidth, 2) ) common_overflow := false.B common_totalUnderflow := false.B common_underflow := false.B common_inexact := false.B } else { //-------------------------------------------------------------------- //-------------------------------------------------------------------- val roundMask = if (neverUnderflows) 0.U(outSigWidth.W) ## doShiftSigDown1 ## 3.U(2.W) else (lowMask( sAdjustedExp(outExpWidth, 0), outMinNormExp - outSigWidth - 1, outMinNormExp ) | doShiftSigDown1) ## 3.U(2.W) val shiftedRoundMask = 0.U(1.W) ## roundMask>>1 val roundPosMask = ~shiftedRoundMask & roundMask val roundPosBit = (adjustedSig & roundPosMask).orR val anyRoundExtra = (adjustedSig & shiftedRoundMask).orR val anyRound = roundPosBit || anyRoundExtra val roundIncr = ((roundingMode_near_even || roundingMode_near_maxMag) && roundPosBit) || (roundMagUp && anyRound) val roundedSig: Bits = Mux(roundIncr, (((adjustedSig | roundMask)>>2) +& 1.U) & ~Mux(roundingMode_near_even && roundPosBit && ! anyRoundExtra, roundMask>>1, 0.U((outSigWidth + 2).W) ), (adjustedSig & ~roundMask)>>2 | Mux(roundingMode_odd && anyRound, roundPosMask>>1, 0.U) ) //*** IF SIG WIDTH IS VERY NARROW, NEED TO ACCOUNT FOR ROUND-EVEN ZEROING //*** M.S. BIT OF SUBNORMAL SIG? val sRoundedExp = sAdjustedExp +& (roundedSig>>outSigWidth).asUInt.zext common_expOut := sRoundedExp(outExpWidth, 0) common_fractOut := Mux(doShiftSigDown1, roundedSig(outSigWidth - 1, 1), roundedSig(outSigWidth - 2, 0) ) common_overflow := (if (neverOverflows) false.B else //*** REWRITE BASED ON BEFORE-ROUNDING EXPONENT?: (sRoundedExp>>(outExpWidth - 1) >= 3.S)) common_totalUnderflow := (if (neverUnderflows) false.B else //*** WOULD BE GOOD ENOUGH TO USE EXPONENT BEFORE ROUNDING?: (sRoundedExp < outMinNonzeroExp.S)) val unboundedRange_roundPosBit = Mux(doShiftSigDown1, adjustedSig(2), adjustedSig(1)) val unboundedRange_anyRound = (doShiftSigDown1 && adjustedSig(2)) || adjustedSig(1, 0).orR val unboundedRange_roundIncr = ((roundingMode_near_even || roundingMode_near_maxMag) && unboundedRange_roundPosBit) || (roundMagUp && unboundedRange_anyRound) val roundCarry = Mux(doShiftSigDown1, roundedSig(outSigWidth + 1), roundedSig(outSigWidth) ) common_underflow := (if (neverUnderflows) false.B else common_totalUnderflow || //*** IF SIG WIDTH IS VERY NARROW, NEED TO ACCOUNT FOR ROUND-EVEN ZEROING //*** M.S. BIT OF SUBNORMAL SIG? (anyRound && ((sAdjustedExp>>outExpWidth) <= 0.S) && Mux(doShiftSigDown1, roundMask(3), roundMask(2)) && ! ((io.detectTininess === tininess_afterRounding) && ! Mux(doShiftSigDown1, roundMask(4), roundMask(3) ) && roundCarry && roundPosBit && unboundedRange_roundIncr))) common_inexact := common_totalUnderflow || anyRound } //------------------------------------------------------------------------ //------------------------------------------------------------------------ val isNaNOut = io.invalidExc || io.in.isNaN val notNaN_isSpecialInfOut = io.infiniteExc || io.in.isInf val commonCase = ! isNaNOut && ! notNaN_isSpecialInfOut && ! io.in.isZero val overflow = commonCase && common_overflow val underflow = commonCase && common_underflow val inexact = overflow || (commonCase && common_inexact) val overflow_roundMagUp = roundingMode_near_even || roundingMode_near_maxMag || roundMagUp val pegMinNonzeroMagOut = commonCase && common_totalUnderflow && (roundMagUp || roundingMode_odd) val pegMaxFiniteMagOut = overflow && ! overflow_roundMagUp val notNaN_isInfOut = notNaN_isSpecialInfOut || (overflow && overflow_roundMagUp) val signOut = Mux(isNaNOut, false.B, io.in.sign) val expOut = (common_expOut & ~Mux(io.in.isZero || common_totalUnderflow, (BigInt(7)<<(outExpWidth - 2)).U((outExpWidth + 1).W), 0.U ) & ~Mux(pegMinNonzeroMagOut, ~outMinNonzeroExp.U((outExpWidth + 1).W), 0.U ) & ~Mux(pegMaxFiniteMagOut, (BigInt(1)<<(outExpWidth - 1)).U((outExpWidth + 1).W), 0.U ) & ~Mux(notNaN_isInfOut, (BigInt(1)<<(outExpWidth - 2)).U((outExpWidth + 1).W), 0.U )) | Mux(pegMinNonzeroMagOut, outMinNonzeroExp.U((outExpWidth + 1).W), 0.U ) | Mux(pegMaxFiniteMagOut, outMaxFiniteExp.U((outExpWidth + 1).W), 0.U ) | Mux(notNaN_isInfOut, outInfExp.U((outExpWidth + 1).W), 0.U) | Mux(isNaNOut, outNaNExp.U((outExpWidth + 1).W), 0.U) val fractOut = Mux(isNaNOut || io.in.isZero || common_totalUnderflow, Mux(isNaNOut, (BigInt(1)<<(outSigWidth - 2)).U, 0.U), common_fractOut ) | Fill(outSigWidth - 1, pegMaxFiniteMagOut) io.out := signOut ## expOut ## fractOut io.exceptionFlags := io.invalidExc ## io.infiniteExc ## overflow ## underflow ## inexact } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class RoundRawFNToRecFN(expWidth: Int, sigWidth: Int, options: Int) extends RawModule { override def desiredName = s"RoundRawFNToRecFN_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val invalidExc = Input(Bool()) // overrides 'infiniteExc' and 'in' val infiniteExc = Input(Bool()) // overrides 'in' except for 'in.sign' val in = Input(new RawFloat(expWidth, sigWidth + 2)) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((expWidth + sigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) val roundAnyRawFNToRecFN = Module( new RoundAnyRawFNToRecFN( expWidth, sigWidth + 2, expWidth, sigWidth, options)) roundAnyRawFNToRecFN.io.invalidExc := io.invalidExc roundAnyRawFNToRecFN.io.infiniteExc := io.infiniteExc roundAnyRawFNToRecFN.io.in := io.in roundAnyRawFNToRecFN.io.roundingMode := io.roundingMode roundAnyRawFNToRecFN.io.detectTininess := io.detectTininess io.out := roundAnyRawFNToRecFN.io.out io.exceptionFlags := roundAnyRawFNToRecFN.io.exceptionFlags }
module RoundRawFNToRecFN_e8_s24_85( // @[RoundAnyRawFNToRecFN.scala:295:5] input io_invalidExc, // @[RoundAnyRawFNToRecFN.scala:299:16] input io_in_isNaN, // @[RoundAnyRawFNToRecFN.scala:299:16] input io_in_isInf, // @[RoundAnyRawFNToRecFN.scala:299:16] input io_in_isZero, // @[RoundAnyRawFNToRecFN.scala:299:16] input io_in_sign, // @[RoundAnyRawFNToRecFN.scala:299:16] input [9:0] io_in_sExp, // @[RoundAnyRawFNToRecFN.scala:299:16] input [26:0] io_in_sig, // @[RoundAnyRawFNToRecFN.scala:299:16] output [32:0] io_out, // @[RoundAnyRawFNToRecFN.scala:299:16] output [4:0] io_exceptionFlags // @[RoundAnyRawFNToRecFN.scala:299:16] ); wire io_invalidExc_0 = io_invalidExc; // @[RoundAnyRawFNToRecFN.scala:295:5] wire io_in_isNaN_0 = io_in_isNaN; // @[RoundAnyRawFNToRecFN.scala:295:5] wire io_in_isInf_0 = io_in_isInf; // @[RoundAnyRawFNToRecFN.scala:295:5] wire io_in_isZero_0 = io_in_isZero; // @[RoundAnyRawFNToRecFN.scala:295:5] wire io_in_sign_0 = io_in_sign; // @[RoundAnyRawFNToRecFN.scala:295:5] wire [9:0] io_in_sExp_0 = io_in_sExp; // @[RoundAnyRawFNToRecFN.scala:295:5] wire [26:0] io_in_sig_0 = io_in_sig; // @[RoundAnyRawFNToRecFN.scala:295:5] wire io_detectTininess = 1'h1; // @[RoundAnyRawFNToRecFN.scala:295:5, :299:16, :310:15] wire [2:0] io_roundingMode = 3'h0; // @[RoundAnyRawFNToRecFN.scala:295:5, :299:16, :310:15] wire io_infiniteExc = 1'h0; // @[RoundAnyRawFNToRecFN.scala:295:5, :299:16, :310:15] wire [32:0] io_out_0; // @[RoundAnyRawFNToRecFN.scala:295:5] wire [4:0] io_exceptionFlags_0; // @[RoundAnyRawFNToRecFN.scala:295:5] RoundAnyRawFNToRecFN_ie8_is26_oe8_os24_85 roundAnyRawFNToRecFN ( // @[RoundAnyRawFNToRecFN.scala:310:15] .io_invalidExc (io_invalidExc_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_in_isNaN (io_in_isNaN_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_in_isInf (io_in_isInf_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_in_isZero (io_in_isZero_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_in_sign (io_in_sign_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_in_sExp (io_in_sExp_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_in_sig (io_in_sig_0), // @[RoundAnyRawFNToRecFN.scala:295:5] .io_out (io_out_0), .io_exceptionFlags (io_exceptionFlags_0) ); // @[RoundAnyRawFNToRecFN.scala:310:15] assign io_out = io_out_0; // @[RoundAnyRawFNToRecFN.scala:295:5] assign io_exceptionFlags = io_exceptionFlags_0; // @[RoundAnyRawFNToRecFN.scala:295:5] endmodule
Generate the Verilog code corresponding to the following Chisel files. File RoundAnyRawFNToRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util.Fill import consts._ //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class RoundAnyRawFNToRecFN( inExpWidth: Int, inSigWidth: Int, outExpWidth: Int, outSigWidth: Int, options: Int ) extends RawModule { override def desiredName = s"RoundAnyRawFNToRecFN_ie${inExpWidth}_is${inSigWidth}_oe${outExpWidth}_os${outSigWidth}" val io = IO(new Bundle { val invalidExc = Input(Bool()) // overrides 'infiniteExc' and 'in' val infiniteExc = Input(Bool()) // overrides 'in' except for 'in.sign' val in = Input(new RawFloat(inExpWidth, inSigWidth)) // (allowed exponent range has limits) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((outExpWidth + outSigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sigMSBitAlwaysZero = ((options & flRoundOpt_sigMSBitAlwaysZero) != 0) val effectiveInSigWidth = if (sigMSBitAlwaysZero) inSigWidth else inSigWidth + 1 val neverUnderflows = ((options & (flRoundOpt_neverUnderflows | flRoundOpt_subnormsAlwaysExact) ) != 0) || (inExpWidth < outExpWidth) val neverOverflows = ((options & flRoundOpt_neverOverflows) != 0) || (inExpWidth < outExpWidth) val outNaNExp = BigInt(7)<<(outExpWidth - 2) val outInfExp = BigInt(6)<<(outExpWidth - 2) val outMaxFiniteExp = outInfExp - 1 val outMinNormExp = (BigInt(1)<<(outExpWidth - 1)) + 2 val outMinNonzeroExp = outMinNormExp - outSigWidth + 1 //------------------------------------------------------------------------ //------------------------------------------------------------------------ val roundingMode_near_even = (io.roundingMode === round_near_even) val roundingMode_minMag = (io.roundingMode === round_minMag) val roundingMode_min = (io.roundingMode === round_min) val roundingMode_max = (io.roundingMode === round_max) val roundingMode_near_maxMag = (io.roundingMode === round_near_maxMag) val roundingMode_odd = (io.roundingMode === round_odd) val roundMagUp = (roundingMode_min && io.in.sign) || (roundingMode_max && ! io.in.sign) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sAdjustedExp = if (inExpWidth < outExpWidth) (io.in.sExp +& ((BigInt(1)<<outExpWidth) - (BigInt(1)<<inExpWidth)).S )(outExpWidth, 0).zext else if (inExpWidth == outExpWidth) io.in.sExp else io.in.sExp +& ((BigInt(1)<<outExpWidth) - (BigInt(1)<<inExpWidth)).S val adjustedSig = if (inSigWidth <= outSigWidth + 2) io.in.sig<<(outSigWidth - inSigWidth + 2) else (io.in.sig(inSigWidth, inSigWidth - outSigWidth - 1) ## io.in.sig(inSigWidth - outSigWidth - 2, 0).orR ) val doShiftSigDown1 = if (sigMSBitAlwaysZero) false.B else adjustedSig(outSigWidth + 2) val common_expOut = Wire(UInt((outExpWidth + 1).W)) val common_fractOut = Wire(UInt((outSigWidth - 1).W)) val common_overflow = Wire(Bool()) val common_totalUnderflow = Wire(Bool()) val common_underflow = Wire(Bool()) val common_inexact = Wire(Bool()) if ( neverOverflows && neverUnderflows && (effectiveInSigWidth <= outSigWidth) ) { //-------------------------------------------------------------------- //-------------------------------------------------------------------- common_expOut := sAdjustedExp(outExpWidth, 0) + doShiftSigDown1 common_fractOut := Mux(doShiftSigDown1, adjustedSig(outSigWidth + 1, 3), adjustedSig(outSigWidth, 2) ) common_overflow := false.B common_totalUnderflow := false.B common_underflow := false.B common_inexact := false.B } else { //-------------------------------------------------------------------- //-------------------------------------------------------------------- val roundMask = if (neverUnderflows) 0.U(outSigWidth.W) ## doShiftSigDown1 ## 3.U(2.W) else (lowMask( sAdjustedExp(outExpWidth, 0), outMinNormExp - outSigWidth - 1, outMinNormExp ) | doShiftSigDown1) ## 3.U(2.W) val shiftedRoundMask = 0.U(1.W) ## roundMask>>1 val roundPosMask = ~shiftedRoundMask & roundMask val roundPosBit = (adjustedSig & roundPosMask).orR val anyRoundExtra = (adjustedSig & shiftedRoundMask).orR val anyRound = roundPosBit || anyRoundExtra val roundIncr = ((roundingMode_near_even || roundingMode_near_maxMag) && roundPosBit) || (roundMagUp && anyRound) val roundedSig: Bits = Mux(roundIncr, (((adjustedSig | roundMask)>>2) +& 1.U) & ~Mux(roundingMode_near_even && roundPosBit && ! anyRoundExtra, roundMask>>1, 0.U((outSigWidth + 2).W) ), (adjustedSig & ~roundMask)>>2 | Mux(roundingMode_odd && anyRound, roundPosMask>>1, 0.U) ) //*** IF SIG WIDTH IS VERY NARROW, NEED TO ACCOUNT FOR ROUND-EVEN ZEROING //*** M.S. BIT OF SUBNORMAL SIG? val sRoundedExp = sAdjustedExp +& (roundedSig>>outSigWidth).asUInt.zext common_expOut := sRoundedExp(outExpWidth, 0) common_fractOut := Mux(doShiftSigDown1, roundedSig(outSigWidth - 1, 1), roundedSig(outSigWidth - 2, 0) ) common_overflow := (if (neverOverflows) false.B else //*** REWRITE BASED ON BEFORE-ROUNDING EXPONENT?: (sRoundedExp>>(outExpWidth - 1) >= 3.S)) common_totalUnderflow := (if (neverUnderflows) false.B else //*** WOULD BE GOOD ENOUGH TO USE EXPONENT BEFORE ROUNDING?: (sRoundedExp < outMinNonzeroExp.S)) val unboundedRange_roundPosBit = Mux(doShiftSigDown1, adjustedSig(2), adjustedSig(1)) val unboundedRange_anyRound = (doShiftSigDown1 && adjustedSig(2)) || adjustedSig(1, 0).orR val unboundedRange_roundIncr = ((roundingMode_near_even || roundingMode_near_maxMag) && unboundedRange_roundPosBit) || (roundMagUp && unboundedRange_anyRound) val roundCarry = Mux(doShiftSigDown1, roundedSig(outSigWidth + 1), roundedSig(outSigWidth) ) common_underflow := (if (neverUnderflows) false.B else common_totalUnderflow || //*** IF SIG WIDTH IS VERY NARROW, NEED TO ACCOUNT FOR ROUND-EVEN ZEROING //*** M.S. BIT OF SUBNORMAL SIG? (anyRound && ((sAdjustedExp>>outExpWidth) <= 0.S) && Mux(doShiftSigDown1, roundMask(3), roundMask(2)) && ! ((io.detectTininess === tininess_afterRounding) && ! Mux(doShiftSigDown1, roundMask(4), roundMask(3) ) && roundCarry && roundPosBit && unboundedRange_roundIncr))) common_inexact := common_totalUnderflow || anyRound } //------------------------------------------------------------------------ //------------------------------------------------------------------------ val isNaNOut = io.invalidExc || io.in.isNaN val notNaN_isSpecialInfOut = io.infiniteExc || io.in.isInf val commonCase = ! isNaNOut && ! notNaN_isSpecialInfOut && ! io.in.isZero val overflow = commonCase && common_overflow val underflow = commonCase && common_underflow val inexact = overflow || (commonCase && common_inexact) val overflow_roundMagUp = roundingMode_near_even || roundingMode_near_maxMag || roundMagUp val pegMinNonzeroMagOut = commonCase && common_totalUnderflow && (roundMagUp || roundingMode_odd) val pegMaxFiniteMagOut = overflow && ! overflow_roundMagUp val notNaN_isInfOut = notNaN_isSpecialInfOut || (overflow && overflow_roundMagUp) val signOut = Mux(isNaNOut, false.B, io.in.sign) val expOut = (common_expOut & ~Mux(io.in.isZero || common_totalUnderflow, (BigInt(7)<<(outExpWidth - 2)).U((outExpWidth + 1).W), 0.U ) & ~Mux(pegMinNonzeroMagOut, ~outMinNonzeroExp.U((outExpWidth + 1).W), 0.U ) & ~Mux(pegMaxFiniteMagOut, (BigInt(1)<<(outExpWidth - 1)).U((outExpWidth + 1).W), 0.U ) & ~Mux(notNaN_isInfOut, (BigInt(1)<<(outExpWidth - 2)).U((outExpWidth + 1).W), 0.U )) | Mux(pegMinNonzeroMagOut, outMinNonzeroExp.U((outExpWidth + 1).W), 0.U ) | Mux(pegMaxFiniteMagOut, outMaxFiniteExp.U((outExpWidth + 1).W), 0.U ) | Mux(notNaN_isInfOut, outInfExp.U((outExpWidth + 1).W), 0.U) | Mux(isNaNOut, outNaNExp.U((outExpWidth + 1).W), 0.U) val fractOut = Mux(isNaNOut || io.in.isZero || common_totalUnderflow, Mux(isNaNOut, (BigInt(1)<<(outSigWidth - 2)).U, 0.U), common_fractOut ) | Fill(outSigWidth - 1, pegMaxFiniteMagOut) io.out := signOut ## expOut ## fractOut io.exceptionFlags := io.invalidExc ## io.infiniteExc ## overflow ## underflow ## inexact } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class RoundRawFNToRecFN(expWidth: Int, sigWidth: Int, options: Int) extends RawModule { override def desiredName = s"RoundRawFNToRecFN_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val invalidExc = Input(Bool()) // overrides 'infiniteExc' and 'in' val infiniteExc = Input(Bool()) // overrides 'in' except for 'in.sign' val in = Input(new RawFloat(expWidth, sigWidth + 2)) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((expWidth + sigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) val roundAnyRawFNToRecFN = Module( new RoundAnyRawFNToRecFN( expWidth, sigWidth + 2, expWidth, sigWidth, options)) roundAnyRawFNToRecFN.io.invalidExc := io.invalidExc roundAnyRawFNToRecFN.io.infiniteExc := io.infiniteExc roundAnyRawFNToRecFN.io.in := io.in roundAnyRawFNToRecFN.io.roundingMode := io.roundingMode roundAnyRawFNToRecFN.io.detectTininess := io.detectTininess io.out := roundAnyRawFNToRecFN.io.out io.exceptionFlags := roundAnyRawFNToRecFN.io.exceptionFlags }
module RoundAnyRawFNToRecFN_ie8_is24_oe11_os53_2( // @[RoundAnyRawFNToRecFN.scala:48:5] input io_invalidExc, // @[RoundAnyRawFNToRecFN.scala:58:16] input io_in_isNaN, // @[RoundAnyRawFNToRecFN.scala:58:16] input io_in_isInf, // @[RoundAnyRawFNToRecFN.scala:58:16] input io_in_isZero, // @[RoundAnyRawFNToRecFN.scala:58:16] input io_in_sign, // @[RoundAnyRawFNToRecFN.scala:58:16] input [9:0] io_in_sExp, // @[RoundAnyRawFNToRecFN.scala:58:16] input [24:0] io_in_sig, // @[RoundAnyRawFNToRecFN.scala:58:16] output [64:0] io_out, // @[RoundAnyRawFNToRecFN.scala:58:16] output [4:0] io_exceptionFlags // @[RoundAnyRawFNToRecFN.scala:58:16] ); wire io_invalidExc_0 = io_invalidExc; // @[RoundAnyRawFNToRecFN.scala:48:5] wire io_in_isNaN_0 = io_in_isNaN; // @[RoundAnyRawFNToRecFN.scala:48:5] wire io_in_isInf_0 = io_in_isInf; // @[RoundAnyRawFNToRecFN.scala:48:5] wire io_in_isZero_0 = io_in_isZero; // @[RoundAnyRawFNToRecFN.scala:48:5] wire io_in_sign_0 = io_in_sign; // @[RoundAnyRawFNToRecFN.scala:48:5] wire [9:0] io_in_sExp_0 = io_in_sExp; // @[RoundAnyRawFNToRecFN.scala:48:5] wire [24:0] io_in_sig_0 = io_in_sig; // @[RoundAnyRawFNToRecFN.scala:48:5] wire [11:0] _expOut_T_4 = 12'hC31; // @[RoundAnyRawFNToRecFN.scala:258:19] wire roundingMode_near_even = 1'h1; // @[RoundAnyRawFNToRecFN.scala:90:53] wire _overflow_roundMagUp_T = 1'h1; // @[RoundAnyRawFNToRecFN.scala:243:32] wire overflow_roundMagUp = 1'h1; // @[RoundAnyRawFNToRecFN.scala:243:60] wire [11:0] _expOut_T_6 = 12'hFFF; // @[RoundAnyRawFNToRecFN.scala:257:14, :261:14] wire [11:0] _expOut_T_9 = 12'hFFF; // @[RoundAnyRawFNToRecFN.scala:257:14, :261:14] wire [11:0] _expOut_T_5 = 12'h0; // @[RoundAnyRawFNToRecFN.scala:257:18] wire [11:0] _expOut_T_8 = 12'h0; // @[RoundAnyRawFNToRecFN.scala:261:18] wire [11:0] _expOut_T_14 = 12'h0; // @[RoundAnyRawFNToRecFN.scala:269:16] wire [11:0] _expOut_T_16 = 12'h0; // @[RoundAnyRawFNToRecFN.scala:273:16] wire [51:0] _fractOut_T_4 = 52'h0; // @[RoundAnyRawFNToRecFN.scala:284:13] wire [2:0] io_roundingMode = 3'h0; // @[RoundAnyRawFNToRecFN.scala:48:5, :58:16] wire io_infiniteExc = 1'h0; // @[RoundAnyRawFNToRecFN.scala:48:5] wire io_detectTininess = 1'h0; // @[RoundAnyRawFNToRecFN.scala:48:5] wire roundingMode_minMag = 1'h0; // @[RoundAnyRawFNToRecFN.scala:91:53] wire roundingMode_min = 1'h0; // @[RoundAnyRawFNToRecFN.scala:92:53] wire roundingMode_max = 1'h0; // @[RoundAnyRawFNToRecFN.scala:93:53] wire roundingMode_near_maxMag = 1'h0; // @[RoundAnyRawFNToRecFN.scala:94:53] wire roundingMode_odd = 1'h0; // @[RoundAnyRawFNToRecFN.scala:95:53] wire _roundMagUp_T = 1'h0; // @[RoundAnyRawFNToRecFN.scala:98:27] wire _roundMagUp_T_2 = 1'h0; // @[RoundAnyRawFNToRecFN.scala:98:63] wire roundMagUp = 1'h0; // @[RoundAnyRawFNToRecFN.scala:98:42] wire common_overflow = 1'h0; // @[RoundAnyRawFNToRecFN.scala:124:37] wire common_totalUnderflow = 1'h0; // @[RoundAnyRawFNToRecFN.scala:125:37] wire common_underflow = 1'h0; // @[RoundAnyRawFNToRecFN.scala:126:37] wire common_inexact = 1'h0; // @[RoundAnyRawFNToRecFN.scala:127:37] wire overflow = 1'h0; // @[RoundAnyRawFNToRecFN.scala:238:32] wire underflow = 1'h0; // @[RoundAnyRawFNToRecFN.scala:239:32] wire _inexact_T = 1'h0; // @[RoundAnyRawFNToRecFN.scala:240:43] wire inexact = 1'h0; // @[RoundAnyRawFNToRecFN.scala:240:28] wire _pegMinNonzeroMagOut_T = 1'h0; // @[RoundAnyRawFNToRecFN.scala:245:20] wire _pegMinNonzeroMagOut_T_1 = 1'h0; // @[RoundAnyRawFNToRecFN.scala:245:60] wire pegMinNonzeroMagOut = 1'h0; // @[RoundAnyRawFNToRecFN.scala:245:45] wire _pegMaxFiniteMagOut_T = 1'h0; // @[RoundAnyRawFNToRecFN.scala:246:42] wire pegMaxFiniteMagOut = 1'h0; // @[RoundAnyRawFNToRecFN.scala:246:39] wire _notNaN_isInfOut_T = 1'h0; // @[RoundAnyRawFNToRecFN.scala:248:45] wire notNaN_isSpecialInfOut = io_in_isInf_0; // @[RoundAnyRawFNToRecFN.scala:48:5, :236:49] wire _expOut_T = io_in_isZero_0; // @[RoundAnyRawFNToRecFN.scala:48:5, :253:32] wire [64:0] _io_out_T_1; // @[RoundAnyRawFNToRecFN.scala:286:33] wire [4:0] _io_exceptionFlags_T_3; // @[RoundAnyRawFNToRecFN.scala:288:66] wire [64:0] io_out_0; // @[RoundAnyRawFNToRecFN.scala:48:5] wire [4:0] io_exceptionFlags_0; // @[RoundAnyRawFNToRecFN.scala:48:5] wire _roundMagUp_T_1 = ~io_in_sign_0; // @[RoundAnyRawFNToRecFN.scala:48:5, :98:66] wire [12:0] _sAdjustedExp_T = {{3{io_in_sExp_0[9]}}, io_in_sExp_0} + 13'h700; // @[RoundAnyRawFNToRecFN.scala:48:5, :104:25] wire [11:0] _sAdjustedExp_T_1 = _sAdjustedExp_T[11:0]; // @[RoundAnyRawFNToRecFN.scala:104:25, :106:14] wire [12:0] sAdjustedExp = {1'h0, _sAdjustedExp_T_1}; // @[RoundAnyRawFNToRecFN.scala:106:{14,31}] wire [55:0] adjustedSig = {io_in_sig_0, 31'h0}; // @[RoundAnyRawFNToRecFN.scala:48:5, :114:22] wire [11:0] _common_expOut_T_2; // @[RoundAnyRawFNToRecFN.scala:136:55] wire [11:0] common_expOut; // @[RoundAnyRawFNToRecFN.scala:122:31] wire [51:0] _common_fractOut_T_2; // @[RoundAnyRawFNToRecFN.scala:138:16] wire [51:0] common_fractOut; // @[RoundAnyRawFNToRecFN.scala:123:31] wire [11:0] _common_expOut_T = sAdjustedExp[11:0]; // @[RoundAnyRawFNToRecFN.scala:106:31, :136:38] wire [12:0] _common_expOut_T_1 = {1'h0, _common_expOut_T}; // @[RoundAnyRawFNToRecFN.scala:136:{38,55}] assign _common_expOut_T_2 = _common_expOut_T_1[11:0]; // @[RoundAnyRawFNToRecFN.scala:136:55] assign common_expOut = _common_expOut_T_2; // @[RoundAnyRawFNToRecFN.scala:122:31, :136:55] wire [51:0] _common_fractOut_T = adjustedSig[54:3]; // @[RoundAnyRawFNToRecFN.scala:114:22, :139:28] wire [51:0] _common_fractOut_T_1 = adjustedSig[53:2]; // @[RoundAnyRawFNToRecFN.scala:114:22, :140:28] assign _common_fractOut_T_2 = _common_fractOut_T_1; // @[RoundAnyRawFNToRecFN.scala:138:16, :140:28] assign common_fractOut = _common_fractOut_T_2; // @[RoundAnyRawFNToRecFN.scala:123:31, :138:16] wire isNaNOut = io_invalidExc_0 | io_in_isNaN_0; // @[RoundAnyRawFNToRecFN.scala:48:5, :235:34] wire notNaN_isInfOut = notNaN_isSpecialInfOut; // @[RoundAnyRawFNToRecFN.scala:236:49, :248:32] wire _commonCase_T = ~isNaNOut; // @[RoundAnyRawFNToRecFN.scala:235:34, :237:22] wire _commonCase_T_1 = ~notNaN_isSpecialInfOut; // @[RoundAnyRawFNToRecFN.scala:236:49, :237:36] wire _commonCase_T_2 = _commonCase_T & _commonCase_T_1; // @[RoundAnyRawFNToRecFN.scala:237:{22,33,36}] wire _commonCase_T_3 = ~io_in_isZero_0; // @[RoundAnyRawFNToRecFN.scala:48:5, :237:64] wire commonCase = _commonCase_T_2 & _commonCase_T_3; // @[RoundAnyRawFNToRecFN.scala:237:{33,61,64}] wire signOut = ~isNaNOut & io_in_sign_0; // @[RoundAnyRawFNToRecFN.scala:48:5, :235:34, :250:22] wire [11:0] _expOut_T_1 = _expOut_T ? 12'hE00 : 12'h0; // @[RoundAnyRawFNToRecFN.scala:253:{18,32}] wire [11:0] _expOut_T_2 = ~_expOut_T_1; // @[RoundAnyRawFNToRecFN.scala:253:{14,18}] wire [11:0] _expOut_T_3 = common_expOut & _expOut_T_2; // @[RoundAnyRawFNToRecFN.scala:122:31, :252:24, :253:14] wire [11:0] _expOut_T_7 = _expOut_T_3; // @[RoundAnyRawFNToRecFN.scala:252:24, :256:17] wire [11:0] _expOut_T_10 = _expOut_T_7; // @[RoundAnyRawFNToRecFN.scala:256:17, :260:17] wire [11:0] _expOut_T_11 = {2'h0, notNaN_isInfOut, 9'h0}; // @[RoundAnyRawFNToRecFN.scala:248:32, :265:18] wire [11:0] _expOut_T_12 = ~_expOut_T_11; // @[RoundAnyRawFNToRecFN.scala:265:{14,18}] wire [11:0] _expOut_T_13 = _expOut_T_10 & _expOut_T_12; // @[RoundAnyRawFNToRecFN.scala:260:17, :264:17, :265:14] wire [11:0] _expOut_T_15 = _expOut_T_13; // @[RoundAnyRawFNToRecFN.scala:264:17, :268:18] wire [11:0] _expOut_T_17 = _expOut_T_15; // @[RoundAnyRawFNToRecFN.scala:268:18, :272:15] wire [11:0] _expOut_T_18 = notNaN_isInfOut ? 12'hC00 : 12'h0; // @[RoundAnyRawFNToRecFN.scala:248:32, :277:16] wire [11:0] _expOut_T_19 = _expOut_T_17 | _expOut_T_18; // @[RoundAnyRawFNToRecFN.scala:272:15, :276:15, :277:16] wire [11:0] _expOut_T_20 = isNaNOut ? 12'hE00 : 12'h0; // @[RoundAnyRawFNToRecFN.scala:235:34, :278:16] wire [11:0] expOut = _expOut_T_19 | _expOut_T_20; // @[RoundAnyRawFNToRecFN.scala:276:15, :277:73, :278:16] wire _fractOut_T = isNaNOut | io_in_isZero_0; // @[RoundAnyRawFNToRecFN.scala:48:5, :235:34, :280:22] wire _fractOut_T_1 = _fractOut_T; // @[RoundAnyRawFNToRecFN.scala:280:{22,38}] wire [51:0] _fractOut_T_2 = {isNaNOut, 51'h0}; // @[RoundAnyRawFNToRecFN.scala:235:34, :281:16] wire [51:0] _fractOut_T_3 = _fractOut_T_1 ? _fractOut_T_2 : common_fractOut; // @[RoundAnyRawFNToRecFN.scala:123:31, :280:{12,38}, :281:16] wire [51:0] fractOut = _fractOut_T_3; // @[RoundAnyRawFNToRecFN.scala:280:12, :283:11] wire [12:0] _io_out_T = {signOut, expOut}; // @[RoundAnyRawFNToRecFN.scala:250:22, :277:73, :286:23] assign _io_out_T_1 = {_io_out_T, fractOut}; // @[RoundAnyRawFNToRecFN.scala:283:11, :286:{23,33}] assign io_out_0 = _io_out_T_1; // @[RoundAnyRawFNToRecFN.scala:48:5, :286:33] wire [1:0] _io_exceptionFlags_T = {io_invalidExc_0, 1'h0}; // @[RoundAnyRawFNToRecFN.scala:48:5, :288:23] wire [2:0] _io_exceptionFlags_T_1 = {_io_exceptionFlags_T, 1'h0}; // @[RoundAnyRawFNToRecFN.scala:288:{23,41}] wire [3:0] _io_exceptionFlags_T_2 = {_io_exceptionFlags_T_1, 1'h0}; // @[RoundAnyRawFNToRecFN.scala:288:{41,53}] assign _io_exceptionFlags_T_3 = {_io_exceptionFlags_T_2, 1'h0}; // @[RoundAnyRawFNToRecFN.scala:288:{53,66}] assign io_exceptionFlags_0 = _io_exceptionFlags_T_3; // @[RoundAnyRawFNToRecFN.scala:48:5, :288:66] assign io_out = io_out_0; // @[RoundAnyRawFNToRecFN.scala:48:5] assign io_exceptionFlags = io_exceptionFlags_0; // @[RoundAnyRawFNToRecFN.scala:48:5] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Tile.scala: // See README.md for license details. package gemmini import chisel3._ import chisel3.util._ import Util._ /** * A Tile is a purely combinational 2D array of passThrough PEs. * a, b, s, and in_propag are broadcast across the entire array and are passed through to the Tile's outputs * @param width The data width of each PE in bits * @param rows Number of PEs on each row * @param columns Number of PEs on each column */ class Tile[T <: Data](inputType: T, outputType: T, accType: T, df: Dataflow.Value, tree_reduction: Boolean, max_simultaneous_matmuls: Int, val rows: Int, val columns: Int)(implicit ev: Arithmetic[T]) extends Module { val io = IO(new Bundle { val in_a = Input(Vec(rows, inputType)) val in_b = Input(Vec(columns, outputType)) // This is the output of the tile next to it val in_d = Input(Vec(columns, outputType)) val in_control = Input(Vec(columns, new PEControl(accType))) val in_id = Input(Vec(columns, UInt(log2Up(max_simultaneous_matmuls).W))) val in_last = Input(Vec(columns, Bool())) val out_a = Output(Vec(rows, inputType)) val out_c = Output(Vec(columns, outputType)) val out_b = Output(Vec(columns, outputType)) val out_control = Output(Vec(columns, new PEControl(accType))) val out_id = Output(Vec(columns, UInt(log2Up(max_simultaneous_matmuls).W))) val out_last = Output(Vec(columns, Bool())) val in_valid = Input(Vec(columns, Bool())) val out_valid = Output(Vec(columns, Bool())) val bad_dataflow = Output(Bool()) }) import ev._ val tile = Seq.fill(rows, columns)(Module(new PE(inputType, outputType, accType, df, max_simultaneous_matmuls))) val tileT = tile.transpose // TODO: abstract hori/vert broadcast, all these connections look the same // Broadcast 'a' horizontally across the Tile for (r <- 0 until rows) { tile(r).foldLeft(io.in_a(r)) { case (in_a, pe) => pe.io.in_a := in_a pe.io.out_a } } // Broadcast 'b' vertically across the Tile for (c <- 0 until columns) { tileT(c).foldLeft(io.in_b(c)) { case (in_b, pe) => pe.io.in_b := (if (tree_reduction) in_b.zero else in_b) pe.io.out_b } } // Broadcast 'd' vertically across the Tile for (c <- 0 until columns) { tileT(c).foldLeft(io.in_d(c)) { case (in_d, pe) => pe.io.in_d := in_d pe.io.out_c } } // Broadcast 'control' vertically across the Tile for (c <- 0 until columns) { tileT(c).foldLeft(io.in_control(c)) { case (in_ctrl, pe) => pe.io.in_control := in_ctrl pe.io.out_control } } // Broadcast 'garbage' vertically across the Tile for (c <- 0 until columns) { tileT(c).foldLeft(io.in_valid(c)) { case (v, pe) => pe.io.in_valid := v pe.io.out_valid } } // Broadcast 'id' vertically across the Tile for (c <- 0 until columns) { tileT(c).foldLeft(io.in_id(c)) { case (id, pe) => pe.io.in_id := id pe.io.out_id } } // Broadcast 'last' vertically across the Tile for (c <- 0 until columns) { tileT(c).foldLeft(io.in_last(c)) { case (last, pe) => pe.io.in_last := last pe.io.out_last } } // Drive the Tile's bottom IO for (c <- 0 until columns) { io.out_c(c) := tile(rows-1)(c).io.out_c io.out_control(c) := tile(rows-1)(c).io.out_control io.out_id(c) := tile(rows-1)(c).io.out_id io.out_last(c) := tile(rows-1)(c).io.out_last io.out_valid(c) := tile(rows-1)(c).io.out_valid io.out_b(c) := { if (tree_reduction) { val prods = tileT(c).map(_.io.out_b) accumulateTree(prods :+ io.in_b(c)) } else { tile(rows - 1)(c).io.out_b } } } io.bad_dataflow := tile.map(_.map(_.io.bad_dataflow).reduce(_||_)).reduce(_||_) // Drive the Tile's right IO for (r <- 0 until rows) { io.out_a(r) := tile(r)(columns-1).io.out_a } }
module Tile_25( // @[Tile.scala:16:7] input clock, // @[Tile.scala:16:7] input reset, // @[Tile.scala:16:7] input [7:0] io_in_a_0, // @[Tile.scala:17:14] input [19:0] io_in_b_0, // @[Tile.scala:17:14] input [19:0] io_in_d_0, // @[Tile.scala:17:14] input io_in_control_0_dataflow, // @[Tile.scala:17:14] input io_in_control_0_propagate, // @[Tile.scala:17:14] input [4:0] io_in_control_0_shift, // @[Tile.scala:17:14] input [2:0] io_in_id_0, // @[Tile.scala:17:14] input io_in_last_0, // @[Tile.scala:17:14] output [7:0] io_out_a_0, // @[Tile.scala:17:14] output [19:0] io_out_c_0, // @[Tile.scala:17:14] output [19:0] io_out_b_0, // @[Tile.scala:17:14] output io_out_control_0_dataflow, // @[Tile.scala:17:14] output io_out_control_0_propagate, // @[Tile.scala:17:14] output [4:0] io_out_control_0_shift, // @[Tile.scala:17:14] output [2:0] io_out_id_0, // @[Tile.scala:17:14] output io_out_last_0, // @[Tile.scala:17:14] input io_in_valid_0, // @[Tile.scala:17:14] output io_out_valid_0 // @[Tile.scala:17:14] ); wire [7:0] io_in_a_0_0 = io_in_a_0; // @[Tile.scala:16:7] wire [19:0] io_in_b_0_0 = io_in_b_0; // @[Tile.scala:16:7] wire [19:0] io_in_d_0_0 = io_in_d_0; // @[Tile.scala:16:7] wire io_in_control_0_dataflow_0 = io_in_control_0_dataflow; // @[Tile.scala:16:7] wire io_in_control_0_propagate_0 = io_in_control_0_propagate; // @[Tile.scala:16:7] wire [4:0] io_in_control_0_shift_0 = io_in_control_0_shift; // @[Tile.scala:16:7] wire [2:0] io_in_id_0_0 = io_in_id_0; // @[Tile.scala:16:7] wire io_in_last_0_0 = io_in_last_0; // @[Tile.scala:16:7] wire io_in_valid_0_0 = io_in_valid_0; // @[Tile.scala:16:7] wire io_bad_dataflow = 1'h0; // @[Tile.scala:16:7, :17:14, :42:44] wire [7:0] io_out_a_0_0; // @[Tile.scala:16:7] wire [19:0] io_out_c_0_0; // @[Tile.scala:16:7] wire [19:0] io_out_b_0_0; // @[Tile.scala:16:7] wire io_out_control_0_dataflow_0; // @[Tile.scala:16:7] wire io_out_control_0_propagate_0; // @[Tile.scala:16:7] wire [4:0] io_out_control_0_shift_0; // @[Tile.scala:16:7] wire [2:0] io_out_id_0_0; // @[Tile.scala:16:7] wire io_out_last_0_0; // @[Tile.scala:16:7] wire io_out_valid_0_0; // @[Tile.scala:16:7] PE_281 tile_0_0 ( // @[Tile.scala:42:44] .clock (clock), .reset (reset), .io_in_a (io_in_a_0_0), // @[Tile.scala:16:7] .io_in_b (io_in_b_0_0), // @[Tile.scala:16:7] .io_in_d (io_in_d_0_0), // @[Tile.scala:16:7] .io_out_a (io_out_a_0_0), .io_out_b (io_out_b_0_0), .io_out_c (io_out_c_0_0), .io_in_control_dataflow (io_in_control_0_dataflow_0), // @[Tile.scala:16:7] .io_in_control_propagate (io_in_control_0_propagate_0), // @[Tile.scala:16:7] .io_in_control_shift (io_in_control_0_shift_0), // @[Tile.scala:16:7] .io_out_control_dataflow (io_out_control_0_dataflow_0), .io_out_control_propagate (io_out_control_0_propagate_0), .io_out_control_shift (io_out_control_0_shift_0), .io_in_id (io_in_id_0_0), // @[Tile.scala:16:7] .io_out_id (io_out_id_0_0), .io_in_last (io_in_last_0_0), // @[Tile.scala:16:7] .io_out_last (io_out_last_0_0), .io_in_valid (io_in_valid_0_0), // @[Tile.scala:16:7] .io_out_valid (io_out_valid_0_0) ); // @[Tile.scala:42:44] assign io_out_a_0 = io_out_a_0_0; // @[Tile.scala:16:7] assign io_out_c_0 = io_out_c_0_0; // @[Tile.scala:16:7] assign io_out_b_0 = io_out_b_0_0; // @[Tile.scala:16:7] assign io_out_control_0_dataflow = io_out_control_0_dataflow_0; // @[Tile.scala:16:7] assign io_out_control_0_propagate = io_out_control_0_propagate_0; // @[Tile.scala:16:7] assign io_out_control_0_shift = io_out_control_0_shift_0; // @[Tile.scala:16:7] assign io_out_id_0 = io_out_id_0_0; // @[Tile.scala:16:7] assign io_out_last_0 = io_out_last_0_0; // @[Tile.scala:16:7] assign io_out_valid_0 = io_out_valid_0_0; // @[Tile.scala:16:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Nodes.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.util.{AsyncQueueParams,RationalDirection} case object TLMonitorBuilder extends Field[TLMonitorArgs => TLMonitorBase](args => new TLMonitor(args)) object TLImp extends NodeImp[TLMasterPortParameters, TLSlavePortParameters, TLEdgeOut, TLEdgeIn, TLBundle] { def edgeO(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeOut(pd, pu, p, sourceInfo) def edgeI(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeIn (pd, pu, p, sourceInfo) def bundleO(eo: TLEdgeOut) = TLBundle(eo.bundle) def bundleI(ei: TLEdgeIn) = TLBundle(ei.bundle) def render(ei: TLEdgeIn) = RenderedEdge(colour = "#000000" /* black */, label = (ei.manager.beatBytes * 8).toString) override def monitor(bundle: TLBundle, edge: TLEdgeIn): Unit = { val monitor = Module(edge.params(TLMonitorBuilder)(TLMonitorArgs(edge))) monitor.io.in := bundle } override def mixO(pd: TLMasterPortParameters, node: OutwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLMasterPortParameters = pd.v1copy(clients = pd.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) }) override def mixI(pu: TLSlavePortParameters, node: InwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLSlavePortParameters = pu.v1copy(managers = pu.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) }) } trait TLFormatNode extends FormatNode[TLEdgeIn, TLEdgeOut] case class TLClientNode(portParams: Seq[TLMasterPortParameters])(implicit valName: ValName) extends SourceNode(TLImp)(portParams) with TLFormatNode case class TLManagerNode(portParams: Seq[TLSlavePortParameters])(implicit valName: ValName) extends SinkNode(TLImp)(portParams) with TLFormatNode case class TLAdapterNode( clientFn: TLMasterPortParameters => TLMasterPortParameters = { s => s }, managerFn: TLSlavePortParameters => TLSlavePortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLJunctionNode( clientFn: Seq[TLMasterPortParameters] => Seq[TLMasterPortParameters], managerFn: Seq[TLSlavePortParameters] => Seq[TLSlavePortParameters])( implicit valName: ValName) extends JunctionNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLIdentityNode()(implicit valName: ValName) extends IdentityNode(TLImp)() with TLFormatNode object TLNameNode { def apply(name: ValName) = TLIdentityNode()(name) def apply(name: Option[String]): TLIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLIdentityNode = apply(Some(name)) } case class TLEphemeralNode()(implicit valName: ValName) extends EphemeralNode(TLImp)() object TLTempNode { def apply(): TLEphemeralNode = TLEphemeralNode()(ValName("temp")) } case class TLNexusNode( clientFn: Seq[TLMasterPortParameters] => TLMasterPortParameters, managerFn: Seq[TLSlavePortParameters] => TLSlavePortParameters)( implicit valName: ValName) extends NexusNode(TLImp)(clientFn, managerFn) with TLFormatNode abstract class TLCustomNode(implicit valName: ValName) extends CustomNode(TLImp) with TLFormatNode // Asynchronous crossings trait TLAsyncFormatNode extends FormatNode[TLAsyncEdgeParameters, TLAsyncEdgeParameters] object TLAsyncImp extends SimpleNodeImp[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncEdgeParameters, TLAsyncBundle] { def edge(pd: TLAsyncClientPortParameters, pu: TLAsyncManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLAsyncEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLAsyncEdgeParameters) = new TLAsyncBundle(e.bundle) def render(e: TLAsyncEdgeParameters) = RenderedEdge(colour = "#ff0000" /* red */, label = e.manager.async.depth.toString) override def mixO(pd: TLAsyncClientPortParameters, node: OutwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLAsyncManagerPortParameters, node: InwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLAsyncAdapterNode( clientFn: TLAsyncClientPortParameters => TLAsyncClientPortParameters = { s => s }, managerFn: TLAsyncManagerPortParameters => TLAsyncManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLAsyncImp)(clientFn, managerFn) with TLAsyncFormatNode case class TLAsyncIdentityNode()(implicit valName: ValName) extends IdentityNode(TLAsyncImp)() with TLAsyncFormatNode object TLAsyncNameNode { def apply(name: ValName) = TLAsyncIdentityNode()(name) def apply(name: Option[String]): TLAsyncIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLAsyncIdentityNode = apply(Some(name)) } case class TLAsyncSourceNode(sync: Option[Int])(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLAsyncImp)( dFn = { p => TLAsyncClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = p.base.minLatency + sync.getOrElse(p.async.sync)) }) with FormatNode[TLEdgeIn, TLAsyncEdgeParameters] // discard cycles in other clock domain case class TLAsyncSinkNode(async: AsyncQueueParams)(implicit valName: ValName) extends MixedAdapterNode(TLAsyncImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = p.base.minLatency + async.sync) }, uFn = { p => TLAsyncManagerPortParameters(async, p) }) with FormatNode[TLAsyncEdgeParameters, TLEdgeOut] // Rationally related crossings trait TLRationalFormatNode extends FormatNode[TLRationalEdgeParameters, TLRationalEdgeParameters] object TLRationalImp extends SimpleNodeImp[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalEdgeParameters, TLRationalBundle] { def edge(pd: TLRationalClientPortParameters, pu: TLRationalManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLRationalEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLRationalEdgeParameters) = new TLRationalBundle(e.bundle) def render(e: TLRationalEdgeParameters) = RenderedEdge(colour = "#00ff00" /* green */) override def mixO(pd: TLRationalClientPortParameters, node: OutwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLRationalManagerPortParameters, node: InwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLRationalAdapterNode( clientFn: TLRationalClientPortParameters => TLRationalClientPortParameters = { s => s }, managerFn: TLRationalManagerPortParameters => TLRationalManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLRationalImp)(clientFn, managerFn) with TLRationalFormatNode case class TLRationalIdentityNode()(implicit valName: ValName) extends IdentityNode(TLRationalImp)() with TLRationalFormatNode object TLRationalNameNode { def apply(name: ValName) = TLRationalIdentityNode()(name) def apply(name: Option[String]): TLRationalIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLRationalIdentityNode = apply(Some(name)) } case class TLRationalSourceNode()(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLRationalImp)( dFn = { p => TLRationalClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLRationalEdgeParameters] // discard cycles from other clock domain case class TLRationalSinkNode(direction: RationalDirection)(implicit valName: ValName) extends MixedAdapterNode(TLRationalImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLRationalManagerPortParameters(direction, p) }) with FormatNode[TLRationalEdgeParameters, TLEdgeOut] // Credited version of TileLink channels trait TLCreditedFormatNode extends FormatNode[TLCreditedEdgeParameters, TLCreditedEdgeParameters] object TLCreditedImp extends SimpleNodeImp[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedEdgeParameters, TLCreditedBundle] { def edge(pd: TLCreditedClientPortParameters, pu: TLCreditedManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLCreditedEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLCreditedEdgeParameters) = new TLCreditedBundle(e.bundle) def render(e: TLCreditedEdgeParameters) = RenderedEdge(colour = "#ffff00" /* yellow */, e.delay.toString) override def mixO(pd: TLCreditedClientPortParameters, node: OutwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLCreditedManagerPortParameters, node: InwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLCreditedAdapterNode( clientFn: TLCreditedClientPortParameters => TLCreditedClientPortParameters = { s => s }, managerFn: TLCreditedManagerPortParameters => TLCreditedManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLCreditedImp)(clientFn, managerFn) with TLCreditedFormatNode case class TLCreditedIdentityNode()(implicit valName: ValName) extends IdentityNode(TLCreditedImp)() with TLCreditedFormatNode object TLCreditedNameNode { def apply(name: ValName) = TLCreditedIdentityNode()(name) def apply(name: Option[String]): TLCreditedIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLCreditedIdentityNode = apply(Some(name)) } case class TLCreditedSourceNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLCreditedImp)( dFn = { p => TLCreditedClientPortParameters(delay, p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLCreditedEdgeParameters] // discard cycles from other clock domain case class TLCreditedSinkNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLCreditedImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLCreditedManagerPortParameters(delay, p) }) with FormatNode[TLCreditedEdgeParameters, TLEdgeOut] File WidthWidget.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.AddressSet import freechips.rocketchip.util.{Repeater, UIntToOH1} // innBeatBytes => the new client-facing bus width class TLWidthWidget(innerBeatBytes: Int)(implicit p: Parameters) extends LazyModule { private def noChangeRequired(manager: TLManagerPortParameters) = manager.beatBytes == innerBeatBytes val node = new TLAdapterNode( clientFn = { case c => c }, managerFn = { case m => m.v1copy(beatBytes = innerBeatBytes) }){ override def circuitIdentity = edges.out.map(_.manager).forall(noChangeRequired) } override lazy val desiredName = s"TLWidthWidget$innerBeatBytes" lazy val module = new Impl class Impl extends LazyModuleImp(this) { def merge[T <: TLDataChannel](edgeIn: TLEdge, in: DecoupledIO[T], edgeOut: TLEdge, out: DecoupledIO[T]) = { val inBytes = edgeIn.manager.beatBytes val outBytes = edgeOut.manager.beatBytes val ratio = outBytes / inBytes val keepBits = log2Ceil(outBytes) val dropBits = log2Ceil(inBytes) val countBits = log2Ceil(ratio) val size = edgeIn.size(in.bits) val hasData = edgeIn.hasData(in.bits) val limit = UIntToOH1(size, keepBits) >> dropBits val count = RegInit(0.U(countBits.W)) val first = count === 0.U val last = count === limit || !hasData val enable = Seq.tabulate(ratio) { i => !((count ^ i.U) & limit).orR } val corrupt_reg = RegInit(false.B) val corrupt_in = edgeIn.corrupt(in.bits) val corrupt_out = corrupt_in || corrupt_reg when (in.fire) { count := count + 1.U corrupt_reg := corrupt_out when (last) { count := 0.U corrupt_reg := false.B } } def helper(idata: UInt): UInt = { // rdata is X until the first time a multi-beat write occurs. // Prevent the X from leaking outside by jamming the mux control until // the first time rdata is written (and hence no longer X). val rdata_written_once = RegInit(false.B) val masked_enable = enable.map(_ || !rdata_written_once) val odata = Seq.fill(ratio) { WireInit(idata) } val rdata = Reg(Vec(ratio-1, chiselTypeOf(idata))) val pdata = rdata :+ idata val mdata = (masked_enable zip (odata zip pdata)) map { case (e, (o, p)) => Mux(e, o, p) } when (in.fire && !last) { rdata_written_once := true.B (rdata zip mdata) foreach { case (r, m) => r := m } } Cat(mdata.reverse) } in.ready := out.ready || !last out.valid := in.valid && last out.bits := in.bits // Don't put down hardware if we never carry data edgeOut.data(out.bits) := (if (edgeIn.staticHasData(in.bits) == Some(false)) 0.U else helper(edgeIn.data(in.bits))) edgeOut.corrupt(out.bits) := corrupt_out (out.bits, in.bits) match { case (o: TLBundleA, i: TLBundleA) => o.mask := edgeOut.mask(o.address, o.size) & Mux(hasData, helper(i.mask), ~0.U(outBytes.W)) case (o: TLBundleB, i: TLBundleB) => o.mask := edgeOut.mask(o.address, o.size) & Mux(hasData, helper(i.mask), ~0.U(outBytes.W)) case (o: TLBundleC, i: TLBundleC) => () case (o: TLBundleD, i: TLBundleD) => () case _ => require(false, "Impossible bundle combination in WidthWidget") } } def split[T <: TLDataChannel](edgeIn: TLEdge, in: DecoupledIO[T], edgeOut: TLEdge, out: DecoupledIO[T], sourceMap: UInt => UInt) = { val inBytes = edgeIn.manager.beatBytes val outBytes = edgeOut.manager.beatBytes val ratio = inBytes / outBytes val keepBits = log2Ceil(inBytes) val dropBits = log2Ceil(outBytes) val countBits = log2Ceil(ratio) val size = edgeIn.size(in.bits) val hasData = edgeIn.hasData(in.bits) val limit = UIntToOH1(size, keepBits) >> dropBits val count = RegInit(0.U(countBits.W)) val first = count === 0.U val last = count === limit || !hasData when (out.fire) { count := count + 1.U when (last) { count := 0.U } } // For sub-beat transfer, extract which part matters val sel = in.bits match { case a: TLBundleA => a.address(keepBits-1, dropBits) case b: TLBundleB => b.address(keepBits-1, dropBits) case c: TLBundleC => c.address(keepBits-1, dropBits) case d: TLBundleD => { val sel = sourceMap(d.source) val hold = Mux(first, sel, RegEnable(sel, first)) // a_first is not for whole xfer hold & ~limit // if more than one a_first/xfer, the address must be aligned anyway } } val index = sel | count def helper(idata: UInt, width: Int): UInt = { val mux = VecInit.tabulate(ratio) { i => idata((i+1)*outBytes*width-1, i*outBytes*width) } mux(index) } out.bits := in.bits out.valid := in.valid in.ready := out.ready // Don't put down hardware if we never carry data edgeOut.data(out.bits) := (if (edgeIn.staticHasData(in.bits) == Some(false)) 0.U else helper(edgeIn.data(in.bits), 8)) (out.bits, in.bits) match { case (o: TLBundleA, i: TLBundleA) => o.mask := helper(i.mask, 1) case (o: TLBundleB, i: TLBundleB) => o.mask := helper(i.mask, 1) case (o: TLBundleC, i: TLBundleC) => () // replicating corrupt to all beats is ok case (o: TLBundleD, i: TLBundleD) => () case _ => require(false, "Impossbile bundle combination in WidthWidget") } // Repeat the input if we're not last !last } def splice[T <: TLDataChannel](edgeIn: TLEdge, in: DecoupledIO[T], edgeOut: TLEdge, out: DecoupledIO[T], sourceMap: UInt => UInt) = { if (edgeIn.manager.beatBytes == edgeOut.manager.beatBytes) { // nothing to do; pass it through out.bits := in.bits out.valid := in.valid in.ready := out.ready } else if (edgeIn.manager.beatBytes > edgeOut.manager.beatBytes) { // split input to output val repeat = Wire(Bool()) val repeated = Repeater(in, repeat) val cated = Wire(chiselTypeOf(repeated)) cated <> repeated edgeIn.data(cated.bits) := Cat( edgeIn.data(repeated.bits)(edgeIn.manager.beatBytes*8-1, edgeOut.manager.beatBytes*8), edgeIn.data(in.bits)(edgeOut.manager.beatBytes*8-1, 0)) repeat := split(edgeIn, cated, edgeOut, out, sourceMap) } else { // merge input to output merge(edgeIn, in, edgeOut, out) } } (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => // If the master is narrower than the slave, the D channel must be narrowed. // This is tricky, because the D channel has no address data. // Thus, you don't know which part of a sub-beat transfer to extract. // To fix this, we record the relevant address bits for all sources. // The assumption is that this sort of situation happens only where // you connect a narrow master to the system bus, so there are few sources. def sourceMap(source_bits: UInt) = { val source = if (edgeIn.client.endSourceId == 1) 0.U(0.W) else source_bits require (edgeOut.manager.beatBytes > edgeIn.manager.beatBytes) val keepBits = log2Ceil(edgeOut.manager.beatBytes) val dropBits = log2Ceil(edgeIn.manager.beatBytes) val sources = Reg(Vec(edgeIn.client.endSourceId, UInt((keepBits-dropBits).W))) val a_sel = in.a.bits.address(keepBits-1, dropBits) when (in.a.fire) { if (edgeIn.client.endSourceId == 1) { // avoid extraction-index-width warning sources(0) := a_sel } else { sources(in.a.bits.source) := a_sel } } // depopulate unused source registers: edgeIn.client.unusedSources.foreach { id => sources(id) := 0.U } val bypass = in.a.valid && in.a.bits.source === source if (edgeIn.manager.minLatency > 0) sources(source) else Mux(bypass, a_sel, sources(source)) } splice(edgeIn, in.a, edgeOut, out.a, sourceMap) splice(edgeOut, out.d, edgeIn, in.d, sourceMap) if (edgeOut.manager.anySupportAcquireB && edgeIn.client.anySupportProbe) { splice(edgeOut, out.b, edgeIn, in.b, sourceMap) splice(edgeIn, in.c, edgeOut, out.c, sourceMap) out.e.valid := in.e.valid out.e.bits := in.e.bits in.e.ready := out.e.ready } else { in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } } } } object TLWidthWidget { def apply(innerBeatBytes: Int)(implicit p: Parameters): TLNode = { val widget = LazyModule(new TLWidthWidget(innerBeatBytes)) widget.node } def apply(wrapper: TLBusWrapper)(implicit p: Parameters): TLNode = apply(wrapper.beatBytes) } // Synthesizable unit tests import freechips.rocketchip.unittest._ class TLRAMWidthWidget(first: Int, second: Int, txns: Int)(implicit p: Parameters) extends LazyModule { val fuzz = LazyModule(new TLFuzzer(txns)) val model = LazyModule(new TLRAMModel("WidthWidget")) val ram = LazyModule(new TLRAM(AddressSet(0x0, 0x3ff))) (ram.node := TLDelayer(0.1) := TLFragmenter(4, 256) := TLWidthWidget(second) := TLWidthWidget(first) := TLDelayer(0.1) := model.node := fuzz.node) lazy val module = new Impl class Impl extends LazyModuleImp(this) with UnitTestModule { io.finished := fuzz.module.io.finished } } class TLRAMWidthWidgetTest(little: Int, big: Int, txns: Int = 5000, timeout: Int = 500000)(implicit p: Parameters) extends UnitTest(timeout) { val dut = Module(LazyModule(new TLRAMWidthWidget(little,big,txns)).module) dut.io.start := DontCare io.finished := dut.io.finished } File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File Repeater.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util.{Decoupled, DecoupledIO} // A Repeater passes its input to its output, unless repeat is asserted. // When repeat is asserted, the Repeater copies the input and repeats it next cycle. class Repeater[T <: Data](gen: T) extends Module { override def desiredName = s"Repeater_${gen.typeName}" val io = IO( new Bundle { val repeat = Input(Bool()) val full = Output(Bool()) val enq = Flipped(Decoupled(gen.cloneType)) val deq = Decoupled(gen.cloneType) } ) val full = RegInit(false.B) val saved = Reg(gen.cloneType) // When !full, a repeater is pass-through io.deq.valid := io.enq.valid || full io.enq.ready := io.deq.ready && !full io.deq.bits := Mux(full, saved, io.enq.bits) io.full := full when (io.enq.fire && io.repeat) { full := true.B; saved := io.enq.bits } when (io.deq.fire && !io.repeat) { full := false.B } } object Repeater { def apply[T <: Data](enq: DecoupledIO[T], repeat: Bool): DecoupledIO[T] = { val repeater = Module(new Repeater(chiselTypeOf(enq.bits))) repeater.io.repeat := repeat repeater.io.enq <> enq repeater.io.deq } }
module TLWidthWidget8_5( // @[WidthWidget.scala:27:9] input clock, // @[WidthWidget.scala:27:9] input reset, // @[WidthWidget.scala:27:9] output auto_anon_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_anon_in_a_valid, // @[LazyModuleImp.scala:107:25] input [31:0] auto_anon_in_a_bits_address, // @[LazyModuleImp.scala:107:25] output auto_anon_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [3:0] auto_anon_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output [63:0] auto_anon_in_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_anon_out_a_ready, // @[LazyModuleImp.scala:107:25] output auto_anon_out_a_valid, // @[LazyModuleImp.scala:107:25] output [31:0] auto_anon_out_a_bits_address, // @[LazyModuleImp.scala:107:25] output auto_anon_out_d_ready, // @[LazyModuleImp.scala:107:25] input auto_anon_out_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_out_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_anon_out_d_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_anon_out_d_bits_size, // @[LazyModuleImp.scala:107:25] input auto_anon_out_d_bits_source, // @[LazyModuleImp.scala:107:25] input [3:0] auto_anon_out_d_bits_sink, // @[LazyModuleImp.scala:107:25] input auto_anon_out_d_bits_denied, // @[LazyModuleImp.scala:107:25] input [127:0] auto_anon_out_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_anon_out_d_bits_corrupt // @[LazyModuleImp.scala:107:25] ); wire _repeated_repeater_io_deq_valid; // @[Repeater.scala:36:26] wire [2:0] _repeated_repeater_io_deq_bits_opcode; // @[Repeater.scala:36:26] wire [1:0] _repeated_repeater_io_deq_bits_param; // @[Repeater.scala:36:26] wire [3:0] _repeated_repeater_io_deq_bits_size; // @[Repeater.scala:36:26] wire _repeated_repeater_io_deq_bits_source; // @[Repeater.scala:36:26] wire [3:0] _repeated_repeater_io_deq_bits_sink; // @[Repeater.scala:36:26] wire _repeated_repeater_io_deq_bits_denied; // @[Repeater.scala:36:26] wire [127:0] _repeated_repeater_io_deq_bits_data; // @[Repeater.scala:36:26] wire _repeated_repeater_io_deq_bits_corrupt; // @[Repeater.scala:36:26] wire [18:0] _repeat_limit_T = 19'hF << _repeated_repeater_io_deq_bits_size; // @[package.scala:243:71] reg repeat_count; // @[WidthWidget.scala:105:26] wire repeat_last = repeat_count == ~(_repeat_limit_T[3]) | ~(_repeated_repeater_io_deq_bits_opcode[0]); // @[package.scala:243:{46,71,76}] reg repeat_sel_sel_sources_0; // @[WidthWidget.scala:187:27] reg repeat_sel_hold_r; // @[WidthWidget.scala:121:47] always @(posedge clock) begin // @[WidthWidget.scala:27:9] if (reset) // @[WidthWidget.scala:27:9] repeat_count <= 1'h0; // @[WidthWidget.scala:105:26] else if (_repeated_repeater_io_deq_valid) // @[Repeater.scala:36:26] repeat_count <= ~repeat_last & repeat_count - 1'h1; // @[WidthWidget.scala:105:26, :107:35, :110:{15,24}, :111:{21,29}] if (auto_anon_out_a_ready & auto_anon_in_a_valid) // @[Decoupled.scala:51:35] repeat_sel_sel_sources_0 <= auto_anon_in_a_bits_address[3]; // @[WidthWidget.scala:187:27, :188:38] if (repeat_count) begin // @[WidthWidget.scala:105:26] end else // @[WidthWidget.scala:105:26] repeat_sel_hold_r <= repeat_sel_sel_sources_0; // @[WidthWidget.scala:121:47, :187:27] always @(posedge)
Generate the Verilog code corresponding to the following Chisel files. File Fragmenter.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.{AddressSet, BufferParams, IdRange, TransferSizes} import freechips.rocketchip.util.{Repeater, OH1ToUInt, UIntToOH1} import scala.math.min import freechips.rocketchip.util.DataToAugmentedData object EarlyAck { sealed trait T case object AllPuts extends T case object PutFulls extends T case object None extends T } // minSize: minimum size of transfers supported by all outward managers // maxSize: maximum size of transfers supported after the Fragmenter is applied // alwaysMin: fragment all requests down to minSize (else fragment to maximum supported by manager) // earlyAck: should a multibeat Put should be acknowledged on the first beat or last beat // holdFirstDeny: allow the Fragmenter to unsafely combine multibeat Gets by taking the first denied for the whole burst // nameSuffix: appends a suffix to the module name // Fragmenter modifies: PutFull, PutPartial, LogicalData, Get, Hint // Fragmenter passes: ArithmeticData (truncated to minSize if alwaysMin) // Fragmenter cannot modify acquire (could livelock); thus it is unsafe to put caches on both sides class TLFragmenter(val minSize: Int, val maxSize: Int, val alwaysMin: Boolean = false, val earlyAck: EarlyAck.T = EarlyAck.None, val holdFirstDeny: Boolean = false, val nameSuffix: Option[String] = None)(implicit p: Parameters) extends LazyModule { require(isPow2 (maxSize), s"TLFragmenter expects pow2(maxSize), but got $maxSize") require(isPow2 (minSize), s"TLFragmenter expects pow2(minSize), but got $minSize") require(minSize <= maxSize, s"TLFragmenter expects min <= max, but got $minSize > $maxSize") val fragmentBits = log2Ceil(maxSize / minSize) val fullBits = if (earlyAck == EarlyAck.PutFulls) 1 else 0 val toggleBits = 1 val addedBits = fragmentBits + toggleBits + fullBits def expandTransfer(x: TransferSizes, op: String) = if (!x) x else { // validate that we can apply the fragmenter correctly require (x.max >= minSize, s"TLFragmenter (with parent $parent) max transfer size $op(${x.max}) must be >= min transfer size (${minSize})") TransferSizes(x.min, maxSize) } private def noChangeRequired = minSize == maxSize private def shrinkTransfer(x: TransferSizes) = if (!alwaysMin) x else if (x.min <= minSize) TransferSizes(x.min, min(minSize, x.max)) else TransferSizes.none private def mapManager(m: TLSlaveParameters) = m.v1copy( supportsArithmetic = shrinkTransfer(m.supportsArithmetic), supportsLogical = shrinkTransfer(m.supportsLogical), supportsGet = expandTransfer(m.supportsGet, "Get"), supportsPutFull = expandTransfer(m.supportsPutFull, "PutFull"), supportsPutPartial = expandTransfer(m.supportsPutPartial, "PutParital"), supportsHint = expandTransfer(m.supportsHint, "Hint")) val node = new TLAdapterNode( // We require that all the responses are mutually FIFO // Thus we need to compact all of the masters into one big master clientFn = { c => (if (noChangeRequired) c else c.v2copy( masters = Seq(TLMasterParameters.v2( name = "TLFragmenter", sourceId = IdRange(0, if (minSize == maxSize) c.endSourceId else (c.endSourceId << addedBits)), requestFifo = true, emits = TLMasterToSlaveTransferSizes( acquireT = shrinkTransfer(c.masters.map(_.emits.acquireT) .reduce(_ mincover _)), acquireB = shrinkTransfer(c.masters.map(_.emits.acquireB) .reduce(_ mincover _)), arithmetic = shrinkTransfer(c.masters.map(_.emits.arithmetic).reduce(_ mincover _)), logical = shrinkTransfer(c.masters.map(_.emits.logical) .reduce(_ mincover _)), get = shrinkTransfer(c.masters.map(_.emits.get) .reduce(_ mincover _)), putFull = shrinkTransfer(c.masters.map(_.emits.putFull) .reduce(_ mincover _)), putPartial = shrinkTransfer(c.masters.map(_.emits.putPartial).reduce(_ mincover _)), hint = shrinkTransfer(c.masters.map(_.emits.hint) .reduce(_ mincover _)) ) )) ))}, managerFn = { m => if (noChangeRequired) m else m.v2copy(slaves = m.slaves.map(mapManager)) } ) { override def circuitIdentity = noChangeRequired } lazy val module = new Impl class Impl extends LazyModuleImp(this) { override def desiredName = (Seq("TLFragmenter") ++ nameSuffix).mkString("_") (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => if (noChangeRequired) { out <> in } else { // All managers must share a common FIFO domain (responses might end up interleaved) val manager = edgeOut.manager val managers = manager.managers val beatBytes = manager.beatBytes val fifoId = managers(0).fifoId require (fifoId.isDefined && managers.map(_.fifoId == fifoId).reduce(_ && _)) require (!manager.anySupportAcquireB || !edgeOut.client.anySupportProbe, s"TLFragmenter (with parent $parent) can't fragment a caching client's requests into a cacheable region") require (minSize >= beatBytes, s"TLFragmenter (with parent $parent) can't support fragmenting ($minSize) to sub-beat ($beatBytes) accesses") // We can't support devices which are cached on both sides of us require (!edgeOut.manager.anySupportAcquireB || !edgeIn.client.anySupportProbe) // We can't support denied because we reassemble fragments require (!edgeOut.manager.mayDenyGet || holdFirstDeny, s"TLFragmenter (with parent $parent) can't support denials without holdFirstDeny=true") require (!edgeOut.manager.mayDenyPut || earlyAck == EarlyAck.None) /* The Fragmenter is a bit tricky, because there are 5 sizes in play: * max size -- the maximum transfer size possible * orig size -- the original pre-fragmenter size * frag size -- the modified post-fragmenter size * min size -- the threshold below which frag=orig * beat size -- the amount transfered on any given beat * * The relationships are as follows: * max >= orig >= frag * max > min >= beat * It IS possible that orig <= min (then frag=orig; ie: no fragmentation) * * The fragment# (sent via TL.source) is measured in multiples of min size. * Meanwhile, to track the progress, counters measure in multiples of beat size. * * Here is an example of a bus with max=256, min=8, beat=4 and a device supporting 16. * * in.A out.A (frag#) out.D (frag#) in.D gen# ack# * get64 get16 6 ackD16 6 ackD64 12 15 * ackD16 6 ackD64 14 * ackD16 6 ackD64 13 * ackD16 6 ackD64 12 * get16 4 ackD16 4 ackD64 8 11 * ackD16 4 ackD64 10 * ackD16 4 ackD64 9 * ackD16 4 ackD64 8 * get16 2 ackD16 2 ackD64 4 7 * ackD16 2 ackD64 6 * ackD16 2 ackD64 5 * ackD16 2 ackD64 4 * get16 0 ackD16 0 ackD64 0 3 * ackD16 0 ackD64 2 * ackD16 0 ackD64 1 * ackD16 0 ackD64 0 * * get8 get8 0 ackD8 0 ackD8 0 1 * ackD8 0 ackD8 0 * * get4 get4 0 ackD4 0 ackD4 0 0 * get1 get1 0 ackD1 0 ackD1 0 0 * * put64 put16 6 15 * put64 put16 6 14 * put64 put16 6 13 * put64 put16 6 ack16 6 12 12 * put64 put16 4 11 * put64 put16 4 10 * put64 put16 4 9 * put64 put16 4 ack16 4 8 8 * put64 put16 2 7 * put64 put16 2 6 * put64 put16 2 5 * put64 put16 2 ack16 2 4 4 * put64 put16 0 3 * put64 put16 0 2 * put64 put16 0 1 * put64 put16 0 ack16 0 ack64 0 0 * * put8 put8 0 1 * put8 put8 0 ack8 0 ack8 0 0 * * put4 put4 0 ack4 0 ack4 0 0 * put1 put1 0 ack1 0 ack1 0 0 */ val counterBits = log2Up(maxSize/beatBytes) val maxDownSize = if (alwaysMin) minSize else min(manager.maxTransfer, maxSize) // Consider the following waveform for two 4-beat bursts: // ---A----A------------ // -------D-----DDD-DDDD // Under TL rules, the second A can use the same source as the first A, // because the source is released for reuse on the first response beat. // // However, if we fragment the requests, it looks like this: // ---3210-3210--------- // -------3-----210-3210 // ... now we've broken the rules because 210 are twice inflight. // // This phenomenon means we can have essentially 2*maxSize/minSize-1 // fragmented transactions in flight per original transaction source. // // To keep the source unique, we encode the beat counter in the low // bits of the source. To solve the overlap, we use a toggle bit. // Whatever toggle bit the D is reassembling, A will use the opposite. // First, handle the return path val acknum = RegInit(0.U(counterBits.W)) val dOrig = Reg(UInt()) val dToggle = RegInit(false.B) val dFragnum = out.d.bits.source(fragmentBits-1, 0) val dFirst = acknum === 0.U val dLast = dFragnum === 0.U // only for AccessAck (!Data) val dsizeOH = UIntToOH (out.d.bits.size, log2Ceil(maxDownSize)+1) val dsizeOH1 = UIntToOH1(out.d.bits.size, log2Up(maxDownSize)) val dHasData = edgeOut.hasData(out.d.bits) // calculate new acknum val acknum_fragment = dFragnum << log2Ceil(minSize/beatBytes) val acknum_size = dsizeOH1 >> log2Ceil(beatBytes) assert (!out.d.valid || (acknum_fragment & acknum_size) === 0.U) val dFirst_acknum = acknum_fragment | Mux(dHasData, acknum_size, 0.U) val ack_decrement = Mux(dHasData, 1.U, dsizeOH >> log2Ceil(beatBytes)) // calculate the original size val dFirst_size = OH1ToUInt((dFragnum << log2Ceil(minSize)) | dsizeOH1) when (out.d.fire) { acknum := Mux(dFirst, dFirst_acknum, acknum - ack_decrement) when (dFirst) { dOrig := dFirst_size dToggle := out.d.bits.source(fragmentBits) } } // Swallow up non-data ack fragments val doEarlyAck = earlyAck match { case EarlyAck.AllPuts => true.B case EarlyAck.PutFulls => out.d.bits.source(fragmentBits+1) case EarlyAck.None => false.B } val drop = !dHasData && !Mux(doEarlyAck, dFirst, dLast) out.d.ready := in.d.ready || drop in.d.valid := out.d.valid && !drop in.d.bits := out.d.bits // pass most stuff unchanged in.d.bits.source := out.d.bits.source >> addedBits in.d.bits.size := Mux(dFirst, dFirst_size, dOrig) if (edgeOut.manager.mayDenyPut) { val r_denied = Reg(Bool()) val d_denied = (!dFirst && r_denied) || out.d.bits.denied when (out.d.fire) { r_denied := d_denied } in.d.bits.denied := d_denied } if (edgeOut.manager.mayDenyGet) { // Take denied only from the first beat and hold that value val d_denied = out.d.bits.denied holdUnless dFirst when (dHasData) { in.d.bits.denied := d_denied in.d.bits.corrupt := d_denied || out.d.bits.corrupt } } // What maximum transfer sizes do downstream devices support? val maxArithmetics = managers.map(_.supportsArithmetic.max) val maxLogicals = managers.map(_.supportsLogical.max) val maxGets = managers.map(_.supportsGet.max) val maxPutFulls = managers.map(_.supportsPutFull.max) val maxPutPartials = managers.map(_.supportsPutPartial.max) val maxHints = managers.map(m => if (m.supportsHint) maxDownSize else 0) // We assume that the request is valid => size 0 is impossible val lgMinSize = log2Ceil(minSize).U val maxLgArithmetics = maxArithmetics.map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgLogicals = maxLogicals .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgGets = maxGets .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgPutFulls = maxPutFulls .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgPutPartials = maxPutPartials.map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgHints = maxHints .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) // Make the request repeatable val repeater = Module(new Repeater(in.a.bits)) repeater.io.enq <> in.a val in_a = repeater.io.deq // If this is infront of a single manager, these become constants val find = manager.findFast(edgeIn.address(in_a.bits)) val maxLgArithmetic = Mux1H(find, maxLgArithmetics) val maxLgLogical = Mux1H(find, maxLgLogicals) val maxLgGet = Mux1H(find, maxLgGets) val maxLgPutFull = Mux1H(find, maxLgPutFulls) val maxLgPutPartial = Mux1H(find, maxLgPutPartials) val maxLgHint = Mux1H(find, maxLgHints) val limit = if (alwaysMin) lgMinSize else MuxLookup(in_a.bits.opcode, lgMinSize)(Array( TLMessages.PutFullData -> maxLgPutFull, TLMessages.PutPartialData -> maxLgPutPartial, TLMessages.ArithmeticData -> maxLgArithmetic, TLMessages.LogicalData -> maxLgLogical, TLMessages.Get -> maxLgGet, TLMessages.Hint -> maxLgHint)) val aOrig = in_a.bits.size val aFrag = Mux(aOrig > limit, limit, aOrig) val aOrigOH1 = UIntToOH1(aOrig, log2Ceil(maxSize)) val aFragOH1 = UIntToOH1(aFrag, log2Up(maxDownSize)) val aHasData = edgeIn.hasData(in_a.bits) val aMask = Mux(aHasData, 0.U, aFragOH1) val gennum = RegInit(0.U(counterBits.W)) val aFirst = gennum === 0.U val old_gennum1 = Mux(aFirst, aOrigOH1 >> log2Ceil(beatBytes), gennum - 1.U) val new_gennum = ~(~old_gennum1 | (aMask >> log2Ceil(beatBytes))) // ~(~x|y) is width safe val aFragnum = ~(~(old_gennum1 >> log2Ceil(minSize/beatBytes)) | (aFragOH1 >> log2Ceil(minSize))) val aLast = aFragnum === 0.U val aToggle = !Mux(aFirst, dToggle, RegEnable(dToggle, aFirst)) val aFull = if (earlyAck == EarlyAck.PutFulls) Some(in_a.bits.opcode === TLMessages.PutFullData) else None when (out.a.fire) { gennum := new_gennum } repeater.io.repeat := !aHasData && aFragnum =/= 0.U out.a <> in_a out.a.bits.address := in_a.bits.address | ~(old_gennum1 << log2Ceil(beatBytes) | ~aOrigOH1 | aFragOH1 | (minSize-1).U) out.a.bits.source := Cat(Seq(in_a.bits.source) ++ aFull ++ Seq(aToggle.asUInt, aFragnum)) out.a.bits.size := aFrag // Optimize away some of the Repeater's registers assert (!repeater.io.full || !aHasData) out.a.bits.data := in.a.bits.data val fullMask = ((BigInt(1) << beatBytes) - 1).U assert (!repeater.io.full || in_a.bits.mask === fullMask) out.a.bits.mask := Mux(repeater.io.full, fullMask, in.a.bits.mask) out.a.bits.user.waiveAll :<= in.a.bits.user.subset(_.isData) // Tie off unused channels in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } } } } object TLFragmenter { def apply(minSize: Int, maxSize: Int, alwaysMin: Boolean = false, earlyAck: EarlyAck.T = EarlyAck.None, holdFirstDeny: Boolean = false, nameSuffix: Option[String] = None)(implicit p: Parameters): TLNode = { if (minSize <= maxSize) { val fragmenter = LazyModule(new TLFragmenter(minSize, maxSize, alwaysMin, earlyAck, holdFirstDeny, nameSuffix)) fragmenter.node } else { TLEphemeralNode()(ValName("no_fragmenter")) } } def apply(wrapper: TLBusWrapper, nameSuffix: Option[String])(implicit p: Parameters): TLNode = apply(wrapper.beatBytes, wrapper.blockBytes, nameSuffix = nameSuffix) def apply(wrapper: TLBusWrapper)(implicit p: Parameters): TLNode = apply(wrapper, None) } // Synthesizable unit tests import freechips.rocketchip.unittest._ class TLRAMFragmenter(ramBeatBytes: Int, maxSize: Int, txns: Int)(implicit p: Parameters) extends LazyModule { val fuzz = LazyModule(new TLFuzzer(txns)) val model = LazyModule(new TLRAMModel("Fragmenter")) val ram = LazyModule(new TLRAM(AddressSet(0x0, 0x3ff), beatBytes = ramBeatBytes)) (ram.node := TLDelayer(0.1) := TLBuffer(BufferParams.flow) := TLDelayer(0.1) := TLFragmenter(ramBeatBytes, maxSize, earlyAck = EarlyAck.AllPuts) := TLDelayer(0.1) := TLBuffer(BufferParams.flow) := TLFragmenter(ramBeatBytes, maxSize/2) := TLDelayer(0.1) := TLBuffer(BufferParams.flow) := model.node := fuzz.node) lazy val module = new Impl class Impl extends LazyModuleImp(this) with UnitTestModule { io.finished := fuzz.module.io.finished } } class TLRAMFragmenterTest(ramBeatBytes: Int, maxSize: Int, txns: Int = 5000, timeout: Int = 500000)(implicit p: Parameters) extends UnitTest(timeout) { val dut = Module(LazyModule(new TLRAMFragmenter(ramBeatBytes,maxSize,txns)).module) io.finished := dut.io.finished dut.io.start := io.start } File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } }
module TLInterconnectCoupler_pbus_to_bootaddressreg( // @[LazyModuleImp.scala:138:7] input clock, // @[LazyModuleImp.scala:138:7] input reset, // @[LazyModuleImp.scala:138:7] input auto_fragmenter_anon_out_a_ready, // @[LazyModuleImp.scala:107:25] output auto_fragmenter_anon_out_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_fragmenter_anon_out_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_fragmenter_anon_out_a_bits_param, // @[LazyModuleImp.scala:107:25] output [1:0] auto_fragmenter_anon_out_a_bits_size, // @[LazyModuleImp.scala:107:25] output [11:0] auto_fragmenter_anon_out_a_bits_source, // @[LazyModuleImp.scala:107:25] output [12:0] auto_fragmenter_anon_out_a_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_fragmenter_anon_out_a_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_fragmenter_anon_out_a_bits_data, // @[LazyModuleImp.scala:107:25] output auto_fragmenter_anon_out_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_fragmenter_anon_out_d_ready, // @[LazyModuleImp.scala:107:25] input auto_fragmenter_anon_out_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_fragmenter_anon_out_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_fragmenter_anon_out_d_bits_size, // @[LazyModuleImp.scala:107:25] input [11:0] auto_fragmenter_anon_out_d_bits_source, // @[LazyModuleImp.scala:107:25] input [63:0] auto_fragmenter_anon_out_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_tl_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_tl_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_tl_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_tl_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_tl_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input [7:0] auto_tl_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [12:0] auto_tl_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_tl_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_tl_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_tl_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_tl_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_tl_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_tl_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_tl_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output [7:0] auto_tl_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output [63:0] auto_tl_in_d_bits_data // @[LazyModuleImp.scala:107:25] ); TLFragmenter_BootAddrReg fragmenter ( // @[Fragmenter.scala:345:34] .clock (clock), .reset (reset), .auto_anon_in_a_ready (auto_tl_in_a_ready), .auto_anon_in_a_valid (auto_tl_in_a_valid), .auto_anon_in_a_bits_opcode (auto_tl_in_a_bits_opcode), .auto_anon_in_a_bits_param (auto_tl_in_a_bits_param), .auto_anon_in_a_bits_size (auto_tl_in_a_bits_size), .auto_anon_in_a_bits_source (auto_tl_in_a_bits_source), .auto_anon_in_a_bits_address (auto_tl_in_a_bits_address), .auto_anon_in_a_bits_mask (auto_tl_in_a_bits_mask), .auto_anon_in_a_bits_data (auto_tl_in_a_bits_data), .auto_anon_in_a_bits_corrupt (auto_tl_in_a_bits_corrupt), .auto_anon_in_d_ready (auto_tl_in_d_ready), .auto_anon_in_d_valid (auto_tl_in_d_valid), .auto_anon_in_d_bits_opcode (auto_tl_in_d_bits_opcode), .auto_anon_in_d_bits_size (auto_tl_in_d_bits_size), .auto_anon_in_d_bits_source (auto_tl_in_d_bits_source), .auto_anon_in_d_bits_data (auto_tl_in_d_bits_data), .auto_anon_out_a_ready (auto_fragmenter_anon_out_a_ready), .auto_anon_out_a_valid (auto_fragmenter_anon_out_a_valid), .auto_anon_out_a_bits_opcode (auto_fragmenter_anon_out_a_bits_opcode), .auto_anon_out_a_bits_param (auto_fragmenter_anon_out_a_bits_param), .auto_anon_out_a_bits_size (auto_fragmenter_anon_out_a_bits_size), .auto_anon_out_a_bits_source (auto_fragmenter_anon_out_a_bits_source), .auto_anon_out_a_bits_address (auto_fragmenter_anon_out_a_bits_address), .auto_anon_out_a_bits_mask (auto_fragmenter_anon_out_a_bits_mask), .auto_anon_out_a_bits_data (auto_fragmenter_anon_out_a_bits_data), .auto_anon_out_a_bits_corrupt (auto_fragmenter_anon_out_a_bits_corrupt), .auto_anon_out_d_ready (auto_fragmenter_anon_out_d_ready), .auto_anon_out_d_valid (auto_fragmenter_anon_out_d_valid), .auto_anon_out_d_bits_opcode (auto_fragmenter_anon_out_d_bits_opcode), .auto_anon_out_d_bits_size (auto_fragmenter_anon_out_d_bits_size), .auto_anon_out_d_bits_source (auto_fragmenter_anon_out_d_bits_source), .auto_anon_out_d_bits_data (auto_fragmenter_anon_out_d_bits_data) ); // @[Fragmenter.scala:345:34] endmodule
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File SynchronizerReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util.{RegEnable, Cat} /** These wrap behavioral * shift and next registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * * These are built up of *ResetSynchronizerPrimitiveShiftReg, * intended to be replaced by the integrator's metastable flops chains or replaced * at this level if they have a multi-bit wide synchronizer primitive. * The different types vary in their reset behavior: * NonSyncResetSynchronizerShiftReg -- Register array which does not have a reset pin * AsyncResetSynchronizerShiftReg -- Asynchronously reset register array, constructed from W instantiations of D deep * 1-bit-wide shift registers. * SyncResetSynchronizerShiftReg -- Synchronously reset register array, constructed similarly to AsyncResetSynchronizerShiftReg * * [Inferred]ResetSynchronizerShiftReg -- TBD reset type by chisel3 reset inference. * * ClockCrossingReg -- Not made up of SynchronizerPrimitiveShiftReg. This is for single-deep flops which cross * Clock Domains. */ object SynchronizerResetType extends Enumeration { val NonSync, Inferred, Sync, Async = Value } // Note: this should not be used directly. // Use the companion object to generate this with the correct reset type mixin. private class SynchronizerPrimitiveShiftReg( sync: Int, init: Boolean, resetType: SynchronizerResetType.Value) extends AbstractPipelineReg(1) { val initInt = if (init) 1 else 0 val initPostfix = resetType match { case SynchronizerResetType.NonSync => "" case _ => s"_i${initInt}" } override def desiredName = s"${resetType.toString}ResetSynchronizerPrimitiveShiftReg_d${sync}${initPostfix}" val chain = List.tabulate(sync) { i => val reg = if (resetType == SynchronizerResetType.NonSync) Reg(Bool()) else RegInit(init.B) reg.suggestName(s"sync_$i") } chain.last := io.d.asBool (chain.init zip chain.tail).foreach { case (sink, source) => sink := source } io.q := chain.head.asUInt } private object SynchronizerPrimitiveShiftReg { def apply (in: Bool, sync: Int, init: Boolean, resetType: SynchronizerResetType.Value): Bool = { val gen: () => SynchronizerPrimitiveShiftReg = resetType match { case SynchronizerResetType.NonSync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) case SynchronizerResetType.Async => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireAsyncReset case SynchronizerResetType.Sync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireSyncReset case SynchronizerResetType.Inferred => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) } AbstractPipelineReg(gen(), in) } } // Note: This module may end up with a non-AsyncReset type reset. // But the Primitives within will always have AsyncReset type. class AsyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"AsyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asAsyncReset){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Async) } } io.q := Cat(output.reverse) } object AsyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } // Note: This module may end up with a non-Bool type reset. // But the Primitives within will always have Bool reset type. @deprecated("SyncResetSynchronizerShiftReg is unecessary with Chisel3 inferred resets. Use ResetSynchronizerShiftReg which will use the inferred reset type.", "rocket-chip 1.2") class SyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asBool){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Sync) } } io.q := Cat(output.reverse) } object SyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class ResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"ResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Inferred) } io.q := Cat(output.reverse) } object ResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new ResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class SynchronizerShiftReg(w: Int = 1, sync: Int = 3) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SynchronizerShiftReg_w${w}_d${sync}" val output = Seq.tabulate(w) { i => SynchronizerPrimitiveShiftReg(io.d(i), sync, false, SynchronizerResetType.NonSync) } io.q := Cat(output.reverse) } object SynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SynchronizerShiftReg(in.getWidth, sync), in, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, None) def apply [T <: Data](in: T): T = apply (in, 3, None) } class ClockCrossingReg(w: Int = 1, doInit: Boolean) extends Module { override def desiredName = s"ClockCrossingReg_w${w}" val io = IO(new Bundle{ val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) val en = Input(Bool()) }) val cdc_reg = if (doInit) RegEnable(io.d, 0.U(w.W), io.en) else RegEnable(io.d, io.en) io.q := cdc_reg } object ClockCrossingReg { def apply [T <: Data](in: T, en: Bool, doInit: Boolean, name: Option[String] = None): T = { val cdc_reg = Module(new ClockCrossingReg(in.getWidth, doInit)) name.foreach{ cdc_reg.suggestName(_) } cdc_reg.io.d := in.asUInt cdc_reg.io.en := en cdc_reg.io.q.asTypeOf(in) } }
module AsyncResetSynchronizerShiftReg_w4_d3_i0_8( // @[SynchronizerReg.scala:80:7] input clock, // @[SynchronizerReg.scala:80:7] input reset, // @[SynchronizerReg.scala:80:7] input [3:0] io_d, // @[ShiftReg.scala:36:14] output [3:0] io_q // @[ShiftReg.scala:36:14] ); wire [3:0] io_d_0 = io_d; // @[SynchronizerReg.scala:80:7] wire _output_T = reset; // @[SynchronizerReg.scala:86:21] wire _output_T_2 = reset; // @[SynchronizerReg.scala:86:21] wire _output_T_4 = reset; // @[SynchronizerReg.scala:86:21] wire _output_T_6 = reset; // @[SynchronizerReg.scala:86:21] wire [3:0] _io_q_T; // @[SynchronizerReg.scala:90:14] wire [3:0] io_q_0; // @[SynchronizerReg.scala:80:7] wire _output_T_1 = io_d_0[0]; // @[SynchronizerReg.scala:80:7, :87:41] wire output_0; // @[ShiftReg.scala:48:24] wire _output_T_3 = io_d_0[1]; // @[SynchronizerReg.scala:80:7, :87:41] wire output_1; // @[ShiftReg.scala:48:24] wire _output_T_5 = io_d_0[2]; // @[SynchronizerReg.scala:80:7, :87:41] wire output_2; // @[ShiftReg.scala:48:24] wire _output_T_7 = io_d_0[3]; // @[SynchronizerReg.scala:80:7, :87:41] wire output_3; // @[ShiftReg.scala:48:24] wire [1:0] io_q_lo = {output_1, output_0}; // @[SynchronizerReg.scala:90:14] wire [1:0] io_q_hi = {output_3, output_2}; // @[SynchronizerReg.scala:90:14] assign _io_q_T = {io_q_hi, io_q_lo}; // @[SynchronizerReg.scala:90:14] assign io_q_0 = _io_q_T; // @[SynchronizerReg.scala:80:7, :90:14] AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_98 output_chain ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (_output_T), // @[SynchronizerReg.scala:86:21] .io_d (_output_T_1), // @[SynchronizerReg.scala:87:41] .io_q (output_0) ); // @[ShiftReg.scala:45:23] AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_99 output_chain_1 ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (_output_T_2), // @[SynchronizerReg.scala:86:21] .io_d (_output_T_3), // @[SynchronizerReg.scala:87:41] .io_q (output_1) ); // @[ShiftReg.scala:45:23] AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_100 output_chain_2 ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (_output_T_4), // @[SynchronizerReg.scala:86:21] .io_d (_output_T_5), // @[SynchronizerReg.scala:87:41] .io_q (output_2) ); // @[ShiftReg.scala:45:23] AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_101 output_chain_3 ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (_output_T_6), // @[SynchronizerReg.scala:86:21] .io_d (_output_T_7), // @[SynchronizerReg.scala:87:41] .io_q (output_3) ); // @[ShiftReg.scala:45:23] assign io_q = io_q_0; // @[SynchronizerReg.scala:80:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File Nodes.scala: package constellation.channel import chisel3._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.{Parameters, Field} import freechips.rocketchip.diplomacy._ case class EmptyParams() case class ChannelEdgeParams(cp: ChannelParams, p: Parameters) object ChannelImp extends SimpleNodeImp[EmptyParams, ChannelParams, ChannelEdgeParams, Channel] { def edge(pd: EmptyParams, pu: ChannelParams, p: Parameters, sourceInfo: SourceInfo) = { ChannelEdgeParams(pu, p) } def bundle(e: ChannelEdgeParams) = new Channel(e.cp)(e.p) def render(e: ChannelEdgeParams) = if (e.cp.possibleFlows.size == 0) { RenderedEdge(colour = "ffffff", label = "X") } else { RenderedEdge(colour = "#0000ff", label = e.cp.payloadBits.toString) } override def monitor(bundle: Channel, edge: ChannelEdgeParams): Unit = { val monitor = Module(new NoCMonitor(edge.cp)(edge.p)) monitor.io.in := bundle } // TODO: Add nodepath stuff? override def mixO, override def mixI } case class ChannelSourceNode(val destId: Int)(implicit valName: ValName) extends SourceNode(ChannelImp)(Seq(EmptyParams())) case class ChannelDestNode(val destParams: ChannelParams)(implicit valName: ValName) extends SinkNode(ChannelImp)(Seq(destParams)) case class ChannelAdapterNode( slaveFn: ChannelParams => ChannelParams = { d => d })( implicit valName: ValName) extends AdapterNode(ChannelImp)((e: EmptyParams) => e, slaveFn) case class ChannelIdentityNode()(implicit valName: ValName) extends IdentityNode(ChannelImp)() case class ChannelEphemeralNode()(implicit valName: ValName) extends EphemeralNode(ChannelImp)() case class IngressChannelEdgeParams(cp: IngressChannelParams, p: Parameters) case class EgressChannelEdgeParams(cp: EgressChannelParams, p: Parameters) object IngressChannelImp extends SimpleNodeImp[EmptyParams, IngressChannelParams, IngressChannelEdgeParams, IngressChannel] { def edge(pd: EmptyParams, pu: IngressChannelParams, p: Parameters, sourceInfo: SourceInfo) = { IngressChannelEdgeParams(pu, p) } def bundle(e: IngressChannelEdgeParams) = new IngressChannel(e.cp)(e.p) def render(e: IngressChannelEdgeParams) = if (e.cp.possibleFlows.size == 0) { RenderedEdge(colour = "ffffff", label = "X") } else { RenderedEdge(colour = "#00ff00", label = e.cp.payloadBits.toString) } } object EgressChannelImp extends SimpleNodeImp[EmptyParams, EgressChannelParams, EgressChannelEdgeParams, EgressChannel] { def edge(pd: EmptyParams, pu: EgressChannelParams, p: Parameters, sourceInfo: SourceInfo) = { EgressChannelEdgeParams(pu, p) } def bundle(e: EgressChannelEdgeParams) = new EgressChannel(e.cp)(e.p) def render(e: EgressChannelEdgeParams) = if (e.cp.possibleFlows.size == 0) { RenderedEdge(colour = "ffffff", label = "X") } else { RenderedEdge(colour = "#ff0000", label = e.cp.payloadBits.toString) } } case class IngressChannelSourceNode(val destId: Int)(implicit valName: ValName) extends SourceNode(IngressChannelImp)(Seq(EmptyParams())) case class IngressChannelDestNode(val destParams: IngressChannelParams)(implicit valName: ValName) extends SinkNode(IngressChannelImp)(Seq(destParams)) case class EgressChannelSourceNode(val egressId: Int)(implicit valName: ValName) extends SourceNode(EgressChannelImp)(Seq(EmptyParams())) case class EgressChannelDestNode(val destParams: EgressChannelParams)(implicit valName: ValName) extends SinkNode(EgressChannelImp)(Seq(destParams)) case class IngressChannelAdapterNode( slaveFn: IngressChannelParams => IngressChannelParams = { d => d })( implicit valName: ValName) extends AdapterNode(IngressChannelImp)(m => m, slaveFn) case class EgressChannelAdapterNode( slaveFn: EgressChannelParams => EgressChannelParams = { d => d })( implicit valName: ValName) extends AdapterNode(EgressChannelImp)(m => m, slaveFn) case class IngressChannelIdentityNode()(implicit valName: ValName) extends IdentityNode(IngressChannelImp)() case class EgressChannelIdentityNode()(implicit valName: ValName) extends IdentityNode(EgressChannelImp)() case class IngressChannelEphemeralNode()(implicit valName: ValName) extends EphemeralNode(IngressChannelImp)() case class EgressChannelEphemeralNode()(implicit valName: ValName) extends EphemeralNode(EgressChannelImp)() File Router.scala: package constellation.router import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.{Field, Parameters} import freechips.rocketchip.diplomacy._ import freechips.rocketchip.util._ import constellation.channel._ import constellation.routing.{RoutingRelation} import constellation.noc.{HasNoCParams} case class UserRouterParams( // Payload width. Must match payload width on all channels attached to this routing node payloadBits: Int = 64, // Combines SA and ST stages (removes pipeline register) combineSAST: Boolean = false, // Combines RC and VA stages (removes pipeline register) combineRCVA: Boolean = false, // Adds combinational path from SA to VA coupleSAVA: Boolean = false, vcAllocator: VCAllocatorParams => Parameters => VCAllocator = (vP) => (p) => new RotatingSingleVCAllocator(vP)(p) ) case class RouterParams( nodeId: Int, nIngress: Int, nEgress: Int, user: UserRouterParams ) trait HasRouterOutputParams { def outParams: Seq[ChannelParams] def egressParams: Seq[EgressChannelParams] def allOutParams = outParams ++ egressParams def nOutputs = outParams.size def nEgress = egressParams.size def nAllOutputs = allOutParams.size } trait HasRouterInputParams { def inParams: Seq[ChannelParams] def ingressParams: Seq[IngressChannelParams] def allInParams = inParams ++ ingressParams def nInputs = inParams.size def nIngress = ingressParams.size def nAllInputs = allInParams.size } trait HasRouterParams { def routerParams: RouterParams def nodeId = routerParams.nodeId def payloadBits = routerParams.user.payloadBits } class DebugBundle(val nIn: Int) extends Bundle { val va_stall = Vec(nIn, UInt()) val sa_stall = Vec(nIn, UInt()) } class Router( val routerParams: RouterParams, preDiplomaticInParams: Seq[ChannelParams], preDiplomaticIngressParams: Seq[IngressChannelParams], outDests: Seq[Int], egressIds: Seq[Int] )(implicit p: Parameters) extends LazyModule with HasNoCParams with HasRouterParams { val allPreDiplomaticInParams = preDiplomaticInParams ++ preDiplomaticIngressParams val destNodes = preDiplomaticInParams.map(u => ChannelDestNode(u)) val sourceNodes = outDests.map(u => ChannelSourceNode(u)) val ingressNodes = preDiplomaticIngressParams.map(u => IngressChannelDestNode(u)) val egressNodes = egressIds.map(u => EgressChannelSourceNode(u)) val debugNode = BundleBridgeSource(() => new DebugBundle(allPreDiplomaticInParams.size)) val ctrlNode = if (hasCtrl) Some(BundleBridgeSource(() => new RouterCtrlBundle)) else None def inParams = module.inParams def outParams = module.outParams def ingressParams = module.ingressParams def egressParams = module.egressParams lazy val module = new LazyModuleImp(this) with HasRouterInputParams with HasRouterOutputParams { val (io_in, edgesIn) = destNodes.map(_.in(0)).unzip val (io_out, edgesOut) = sourceNodes.map(_.out(0)).unzip val (io_ingress, edgesIngress) = ingressNodes.map(_.in(0)).unzip val (io_egress, edgesEgress) = egressNodes.map(_.out(0)).unzip val io_debug = debugNode.out(0)._1 val inParams = edgesIn.map(_.cp) val outParams = edgesOut.map(_.cp) val ingressParams = edgesIngress.map(_.cp) val egressParams = edgesEgress.map(_.cp) allOutParams.foreach(u => require(u.srcId == nodeId && u.payloadBits == routerParams.user.payloadBits)) allInParams.foreach(u => require(u.destId == nodeId && u.payloadBits == routerParams.user.payloadBits)) require(nIngress == routerParams.nIngress) require(nEgress == routerParams.nEgress) require(nAllInputs >= 1) require(nAllOutputs >= 1) require(nodeId < (1 << nodeIdBits)) val input_units = inParams.zipWithIndex.map { case (u,i) => Module(new InputUnit(u, outParams, egressParams, routerParams.user.combineRCVA, routerParams.user.combineSAST)) .suggestName(s"input_unit_${i}_from_${u.srcId}") } val ingress_units = ingressParams.zipWithIndex.map { case (u,i) => Module(new IngressUnit(i, u, outParams, egressParams, routerParams.user.combineRCVA, routerParams.user.combineSAST)) .suggestName(s"ingress_unit_${i+nInputs}_from_${u.ingressId}") } val all_input_units = input_units ++ ingress_units val output_units = outParams.zipWithIndex.map { case (u,i) => Module(new OutputUnit(inParams, ingressParams, u)) .suggestName(s"output_unit_${i}_to_${u.destId}")} val egress_units = egressParams.zipWithIndex.map { case (u,i) => Module(new EgressUnit(routerParams.user.coupleSAVA && all_input_units.size == 1, routerParams.user.combineSAST, inParams, ingressParams, u)) .suggestName(s"egress_unit_${i+nOutputs}_to_${u.egressId}")} val all_output_units = output_units ++ egress_units val switch = Module(new Switch(routerParams, inParams, outParams, ingressParams, egressParams)) val switch_allocator = Module(new SwitchAllocator(routerParams, inParams, outParams, ingressParams, egressParams)) val vc_allocator = Module(routerParams.user.vcAllocator( VCAllocatorParams(routerParams, inParams, outParams, ingressParams, egressParams) )(p)) val route_computer = Module(new RouteComputer(routerParams, inParams, outParams, ingressParams, egressParams)) val fires_count = WireInit(PopCount(vc_allocator.io.req.map(_.fire))) dontTouch(fires_count) (io_in zip input_units ).foreach { case (i,u) => u.io.in <> i } (io_ingress zip ingress_units).foreach { case (i,u) => u.io.in <> i.flit } (output_units zip io_out ).foreach { case (u,o) => o <> u.io.out } (egress_units zip io_egress).foreach { case (u,o) => o.flit <> u.io.out } (route_computer.io.req zip all_input_units).foreach { case (i,u) => i <> u.io.router_req } (all_input_units zip route_computer.io.resp).foreach { case (u,o) => u.io.router_resp <> o } (vc_allocator.io.req zip all_input_units).foreach { case (i,u) => i <> u.io.vcalloc_req } (all_input_units zip vc_allocator.io.resp).foreach { case (u,o) => u.io.vcalloc_resp <> o } (all_output_units zip vc_allocator.io.out_allocs).foreach { case (u,a) => u.io.allocs <> a } (vc_allocator.io.channel_status zip all_output_units).foreach { case (a,u) => a := u.io.channel_status } all_input_units.foreach(in => all_output_units.zipWithIndex.foreach { case (out,outIdx) => in.io.out_credit_available(outIdx) := out.io.credit_available }) (all_input_units zip switch_allocator.io.req).foreach { case (u,r) => r <> u.io.salloc_req } (all_output_units zip switch_allocator.io.credit_alloc).foreach { case (u,a) => u.io.credit_alloc := a } (switch.io.in zip all_input_units).foreach { case (i,u) => i <> u.io.out } (all_output_units zip switch.io.out).foreach { case (u,o) => u.io.in <> o } switch.io.sel := (if (routerParams.user.combineSAST) { switch_allocator.io.switch_sel } else { RegNext(switch_allocator.io.switch_sel) }) if (hasCtrl) { val io_ctrl = ctrlNode.get.out(0)._1 val ctrl = Module(new RouterControlUnit(routerParams, inParams, outParams, ingressParams, egressParams)) io_ctrl <> ctrl.io.ctrl (all_input_units zip ctrl.io.in_block ).foreach { case (l,r) => l.io.block := r } (all_input_units zip ctrl.io.in_fire ).foreach { case (l,r) => r := l.io.out.map(_.valid) } } else { input_units.foreach(_.io.block := false.B) ingress_units.foreach(_.io.block := false.B) } (io_debug.va_stall zip all_input_units.map(_.io.debug.va_stall)).map { case (l,r) => l := r } (io_debug.sa_stall zip all_input_units.map(_.io.debug.sa_stall)).map { case (l,r) => l := r } val debug_tsc = RegInit(0.U(64.W)) debug_tsc := debug_tsc + 1.U val debug_sample = RegInit(0.U(64.W)) debug_sample := debug_sample + 1.U val sample_rate = PlusArg("noc_util_sample_rate", width=20) when (debug_sample === sample_rate - 1.U) { debug_sample := 0.U } def sample(fire: Bool, s: String) = { val util_ctr = RegInit(0.U(64.W)) val fired = RegInit(false.B) util_ctr := util_ctr + fire fired := fired || fire when (sample_rate =/= 0.U && debug_sample === sample_rate - 1.U && fired) { val fmtStr = s"nocsample %d $s %d\n" printf(fmtStr, debug_tsc, util_ctr); fired := fire } } destNodes.map(_.in(0)).foreach { case (in, edge) => in.flit.map { f => sample(f.fire, s"${edge.cp.srcId} $nodeId") } } ingressNodes.map(_.in(0)).foreach { case (in, edge) => sample(in.flit.fire, s"i${edge.cp.asInstanceOf[IngressChannelParams].ingressId} $nodeId") } egressNodes.map(_.out(0)).foreach { case (out, edge) => sample(out.flit.fire, s"$nodeId e${edge.cp.asInstanceOf[EgressChannelParams].egressId}") } } } File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } }
module Router_4( // @[Router.scala:89:25] input clock, // @[Router.scala:89:25] input reset, // @[Router.scala:89:25] output [2:0] auto_debug_out_va_stall_0, // @[LazyModuleImp.scala:107:25] output [2:0] auto_debug_out_va_stall_1, // @[LazyModuleImp.scala:107:25] output [2:0] auto_debug_out_va_stall_2, // @[LazyModuleImp.scala:107:25] output [2:0] auto_debug_out_va_stall_3, // @[LazyModuleImp.scala:107:25] output [2:0] auto_debug_out_sa_stall_0, // @[LazyModuleImp.scala:107:25] output [2:0] auto_debug_out_sa_stall_1, // @[LazyModuleImp.scala:107:25] output [2:0] auto_debug_out_sa_stall_2, // @[LazyModuleImp.scala:107:25] output [2:0] auto_debug_out_sa_stall_3, // @[LazyModuleImp.scala:107:25] input auto_egress_nodes_out_1_flit_ready, // @[LazyModuleImp.scala:107:25] output auto_egress_nodes_out_1_flit_valid, // @[LazyModuleImp.scala:107:25] output auto_egress_nodes_out_1_flit_bits_head, // @[LazyModuleImp.scala:107:25] output auto_egress_nodes_out_1_flit_bits_tail, // @[LazyModuleImp.scala:107:25] output [72:0] auto_egress_nodes_out_1_flit_bits_payload, // @[LazyModuleImp.scala:107:25] input auto_egress_nodes_out_0_flit_ready, // @[LazyModuleImp.scala:107:25] output auto_egress_nodes_out_0_flit_valid, // @[LazyModuleImp.scala:107:25] output auto_egress_nodes_out_0_flit_bits_head, // @[LazyModuleImp.scala:107:25] output auto_egress_nodes_out_0_flit_bits_tail, // @[LazyModuleImp.scala:107:25] output [72:0] auto_egress_nodes_out_0_flit_bits_payload, // @[LazyModuleImp.scala:107:25] output auto_ingress_nodes_in_2_flit_ready, // @[LazyModuleImp.scala:107:25] input auto_ingress_nodes_in_2_flit_valid, // @[LazyModuleImp.scala:107:25] input auto_ingress_nodes_in_2_flit_bits_head, // @[LazyModuleImp.scala:107:25] input [72:0] auto_ingress_nodes_in_2_flit_bits_payload, // @[LazyModuleImp.scala:107:25] input [5:0] auto_ingress_nodes_in_2_flit_bits_egress_id, // @[LazyModuleImp.scala:107:25] output auto_ingress_nodes_in_1_flit_ready, // @[LazyModuleImp.scala:107:25] input auto_ingress_nodes_in_1_flit_valid, // @[LazyModuleImp.scala:107:25] input auto_ingress_nodes_in_1_flit_bits_head, // @[LazyModuleImp.scala:107:25] input auto_ingress_nodes_in_1_flit_bits_tail, // @[LazyModuleImp.scala:107:25] input [72:0] auto_ingress_nodes_in_1_flit_bits_payload, // @[LazyModuleImp.scala:107:25] input [4:0] auto_ingress_nodes_in_1_flit_bits_egress_id, // @[LazyModuleImp.scala:107:25] output auto_ingress_nodes_in_0_flit_ready, // @[LazyModuleImp.scala:107:25] input auto_ingress_nodes_in_0_flit_valid, // @[LazyModuleImp.scala:107:25] input auto_ingress_nodes_in_0_flit_bits_head, // @[LazyModuleImp.scala:107:25] input auto_ingress_nodes_in_0_flit_bits_tail, // @[LazyModuleImp.scala:107:25] input [72:0] auto_ingress_nodes_in_0_flit_bits_payload, // @[LazyModuleImp.scala:107:25] input [4:0] auto_ingress_nodes_in_0_flit_bits_egress_id, // @[LazyModuleImp.scala:107:25] output auto_source_nodes_out_flit_0_valid, // @[LazyModuleImp.scala:107:25] output auto_source_nodes_out_flit_0_bits_head, // @[LazyModuleImp.scala:107:25] output auto_source_nodes_out_flit_0_bits_tail, // @[LazyModuleImp.scala:107:25] output [72:0] auto_source_nodes_out_flit_0_bits_payload, // @[LazyModuleImp.scala:107:25] output [2:0] auto_source_nodes_out_flit_0_bits_flow_vnet_id, // @[LazyModuleImp.scala:107:25] output [4:0] auto_source_nodes_out_flit_0_bits_flow_ingress_node, // @[LazyModuleImp.scala:107:25] output [1:0] auto_source_nodes_out_flit_0_bits_flow_ingress_node_id, // @[LazyModuleImp.scala:107:25] output [4:0] auto_source_nodes_out_flit_0_bits_flow_egress_node, // @[LazyModuleImp.scala:107:25] output [1:0] auto_source_nodes_out_flit_0_bits_flow_egress_node_id, // @[LazyModuleImp.scala:107:25] output [2:0] auto_source_nodes_out_flit_0_bits_virt_channel_id, // @[LazyModuleImp.scala:107:25] input [7:0] auto_source_nodes_out_credit_return, // @[LazyModuleImp.scala:107:25] input [7:0] auto_source_nodes_out_vc_free, // @[LazyModuleImp.scala:107:25] input auto_dest_nodes_in_flit_0_valid, // @[LazyModuleImp.scala:107:25] input auto_dest_nodes_in_flit_0_bits_head, // @[LazyModuleImp.scala:107:25] input auto_dest_nodes_in_flit_0_bits_tail, // @[LazyModuleImp.scala:107:25] input [72:0] auto_dest_nodes_in_flit_0_bits_payload, // @[LazyModuleImp.scala:107:25] input [2:0] auto_dest_nodes_in_flit_0_bits_flow_vnet_id, // @[LazyModuleImp.scala:107:25] input [4:0] auto_dest_nodes_in_flit_0_bits_flow_ingress_node, // @[LazyModuleImp.scala:107:25] input [1:0] auto_dest_nodes_in_flit_0_bits_flow_ingress_node_id, // @[LazyModuleImp.scala:107:25] input [4:0] auto_dest_nodes_in_flit_0_bits_flow_egress_node, // @[LazyModuleImp.scala:107:25] input [1:0] auto_dest_nodes_in_flit_0_bits_flow_egress_node_id, // @[LazyModuleImp.scala:107:25] input [2:0] auto_dest_nodes_in_flit_0_bits_virt_channel_id, // @[LazyModuleImp.scala:107:25] output [7:0] auto_dest_nodes_in_credit_return, // @[LazyModuleImp.scala:107:25] output [7:0] auto_dest_nodes_in_vc_free // @[LazyModuleImp.scala:107:25] ); wire [19:0] _plusarg_reader_out; // @[PlusArg.scala:80:11] wire _vc_allocator_io_req_3_ready; // @[Router.scala:133:30] wire _vc_allocator_io_req_2_ready; // @[Router.scala:133:30] wire _vc_allocator_io_req_1_ready; // @[Router.scala:133:30] wire _vc_allocator_io_req_0_ready; // @[Router.scala:133:30] wire _vc_allocator_io_resp_3_vc_sel_2_0; // @[Router.scala:133:30] wire _vc_allocator_io_resp_3_vc_sel_1_0; // @[Router.scala:133:30] wire _vc_allocator_io_resp_3_vc_sel_0_0; // @[Router.scala:133:30] wire _vc_allocator_io_resp_3_vc_sel_0_1; // @[Router.scala:133:30] wire _vc_allocator_io_resp_3_vc_sel_0_2; // @[Router.scala:133:30] wire _vc_allocator_io_resp_3_vc_sel_0_3; // @[Router.scala:133:30] wire _vc_allocator_io_resp_3_vc_sel_0_4; // @[Router.scala:133:30] wire _vc_allocator_io_resp_3_vc_sel_0_5; // @[Router.scala:133:30] wire _vc_allocator_io_resp_3_vc_sel_0_6; // @[Router.scala:133:30] wire _vc_allocator_io_resp_3_vc_sel_0_7; // @[Router.scala:133:30] wire _vc_allocator_io_resp_2_vc_sel_2_0; // @[Router.scala:133:30] wire _vc_allocator_io_resp_2_vc_sel_1_0; // @[Router.scala:133:30] wire _vc_allocator_io_resp_2_vc_sel_0_0; // @[Router.scala:133:30] wire _vc_allocator_io_resp_2_vc_sel_0_1; // @[Router.scala:133:30] wire _vc_allocator_io_resp_2_vc_sel_0_2; // @[Router.scala:133:30] wire _vc_allocator_io_resp_2_vc_sel_0_3; // @[Router.scala:133:30] wire _vc_allocator_io_resp_2_vc_sel_0_4; // @[Router.scala:133:30] wire _vc_allocator_io_resp_2_vc_sel_0_5; // @[Router.scala:133:30] wire _vc_allocator_io_resp_2_vc_sel_0_6; // @[Router.scala:133:30] wire _vc_allocator_io_resp_2_vc_sel_0_7; // @[Router.scala:133:30] wire _vc_allocator_io_resp_1_vc_sel_2_0; // @[Router.scala:133:30] wire _vc_allocator_io_resp_1_vc_sel_1_0; // @[Router.scala:133:30] wire _vc_allocator_io_resp_1_vc_sel_0_0; // @[Router.scala:133:30] wire _vc_allocator_io_resp_1_vc_sel_0_1; // @[Router.scala:133:30] wire _vc_allocator_io_resp_1_vc_sel_0_2; // @[Router.scala:133:30] wire _vc_allocator_io_resp_1_vc_sel_0_3; // @[Router.scala:133:30] wire _vc_allocator_io_resp_1_vc_sel_0_4; // @[Router.scala:133:30] wire _vc_allocator_io_resp_1_vc_sel_0_5; // @[Router.scala:133:30] wire _vc_allocator_io_resp_1_vc_sel_0_6; // @[Router.scala:133:30] wire _vc_allocator_io_resp_1_vc_sel_0_7; // @[Router.scala:133:30] wire _vc_allocator_io_resp_0_vc_sel_2_0; // @[Router.scala:133:30] wire _vc_allocator_io_resp_0_vc_sel_1_0; // @[Router.scala:133:30] wire _vc_allocator_io_out_allocs_2_0_alloc; // @[Router.scala:133:30] wire _vc_allocator_io_out_allocs_1_0_alloc; // @[Router.scala:133:30] wire _vc_allocator_io_out_allocs_0_0_alloc; // @[Router.scala:133:30] wire _vc_allocator_io_out_allocs_0_1_alloc; // @[Router.scala:133:30] wire _vc_allocator_io_out_allocs_0_2_alloc; // @[Router.scala:133:30] wire _vc_allocator_io_out_allocs_0_3_alloc; // @[Router.scala:133:30] wire _vc_allocator_io_out_allocs_0_4_alloc; // @[Router.scala:133:30] wire _vc_allocator_io_out_allocs_0_5_alloc; // @[Router.scala:133:30] wire _vc_allocator_io_out_allocs_0_6_alloc; // @[Router.scala:133:30] wire _vc_allocator_io_out_allocs_0_7_alloc; // @[Router.scala:133:30] wire _switch_allocator_io_req_3_0_ready; // @[Router.scala:132:34] wire _switch_allocator_io_req_2_0_ready; // @[Router.scala:132:34] wire _switch_allocator_io_req_1_0_ready; // @[Router.scala:132:34] wire _switch_allocator_io_req_0_0_ready; // @[Router.scala:132:34] wire _switch_allocator_io_credit_alloc_2_0_alloc; // @[Router.scala:132:34] wire _switch_allocator_io_credit_alloc_2_0_tail; // @[Router.scala:132:34] wire _switch_allocator_io_credit_alloc_1_0_alloc; // @[Router.scala:132:34] wire _switch_allocator_io_credit_alloc_1_0_tail; // @[Router.scala:132:34] wire _switch_allocator_io_credit_alloc_0_0_alloc; // @[Router.scala:132:34] wire _switch_allocator_io_credit_alloc_0_1_alloc; // @[Router.scala:132:34] wire _switch_allocator_io_credit_alloc_0_2_alloc; // @[Router.scala:132:34] wire _switch_allocator_io_credit_alloc_0_3_alloc; // @[Router.scala:132:34] wire _switch_allocator_io_credit_alloc_0_4_alloc; // @[Router.scala:132:34] wire _switch_allocator_io_credit_alloc_0_5_alloc; // @[Router.scala:132:34] wire _switch_allocator_io_credit_alloc_0_6_alloc; // @[Router.scala:132:34] wire _switch_allocator_io_credit_alloc_0_7_alloc; // @[Router.scala:132:34] wire _switch_allocator_io_switch_sel_2_0_3_0; // @[Router.scala:132:34] wire _switch_allocator_io_switch_sel_2_0_2_0; // @[Router.scala:132:34] wire _switch_allocator_io_switch_sel_2_0_1_0; // @[Router.scala:132:34] wire _switch_allocator_io_switch_sel_2_0_0_0; // @[Router.scala:132:34] wire _switch_allocator_io_switch_sel_1_0_3_0; // @[Router.scala:132:34] wire _switch_allocator_io_switch_sel_1_0_2_0; // @[Router.scala:132:34] wire _switch_allocator_io_switch_sel_1_0_1_0; // @[Router.scala:132:34] wire _switch_allocator_io_switch_sel_1_0_0_0; // @[Router.scala:132:34] wire _switch_allocator_io_switch_sel_0_0_3_0; // @[Router.scala:132:34] wire _switch_allocator_io_switch_sel_0_0_2_0; // @[Router.scala:132:34] wire _switch_allocator_io_switch_sel_0_0_1_0; // @[Router.scala:132:34] wire _switch_io_out_2_0_valid; // @[Router.scala:131:24] wire _switch_io_out_2_0_bits_head; // @[Router.scala:131:24] wire _switch_io_out_2_0_bits_tail; // @[Router.scala:131:24] wire [72:0] _switch_io_out_2_0_bits_payload; // @[Router.scala:131:24] wire [4:0] _switch_io_out_2_0_bits_flow_ingress_node; // @[Router.scala:131:24] wire [1:0] _switch_io_out_2_0_bits_flow_ingress_node_id; // @[Router.scala:131:24] wire _switch_io_out_1_0_valid; // @[Router.scala:131:24] wire _switch_io_out_1_0_bits_head; // @[Router.scala:131:24] wire _switch_io_out_1_0_bits_tail; // @[Router.scala:131:24] wire [72:0] _switch_io_out_1_0_bits_payload; // @[Router.scala:131:24] wire [4:0] _switch_io_out_1_0_bits_flow_ingress_node; // @[Router.scala:131:24] wire [1:0] _switch_io_out_1_0_bits_flow_ingress_node_id; // @[Router.scala:131:24] wire _switch_io_out_0_0_valid; // @[Router.scala:131:24] wire _switch_io_out_0_0_bits_head; // @[Router.scala:131:24] wire _switch_io_out_0_0_bits_tail; // @[Router.scala:131:24] wire [72:0] _switch_io_out_0_0_bits_payload; // @[Router.scala:131:24] wire [2:0] _switch_io_out_0_0_bits_flow_vnet_id; // @[Router.scala:131:24] wire [4:0] _switch_io_out_0_0_bits_flow_ingress_node; // @[Router.scala:131:24] wire [1:0] _switch_io_out_0_0_bits_flow_ingress_node_id; // @[Router.scala:131:24] wire [4:0] _switch_io_out_0_0_bits_flow_egress_node; // @[Router.scala:131:24] wire [1:0] _switch_io_out_0_0_bits_flow_egress_node_id; // @[Router.scala:131:24] wire [2:0] _switch_io_out_0_0_bits_virt_channel_id; // @[Router.scala:131:24] wire _egress_unit_2_to_7_io_credit_available_0; // @[Router.scala:125:13] wire _egress_unit_2_to_7_io_channel_status_0_occupied; // @[Router.scala:125:13] wire _egress_unit_2_to_7_io_out_valid; // @[Router.scala:125:13] wire _egress_unit_1_to_6_io_credit_available_0; // @[Router.scala:125:13] wire _egress_unit_1_to_6_io_channel_status_0_occupied; // @[Router.scala:125:13] wire _egress_unit_1_to_6_io_out_valid; // @[Router.scala:125:13] wire _output_unit_0_to_20_io_credit_available_0; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_credit_available_1; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_credit_available_2; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_credit_available_3; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_credit_available_4; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_credit_available_5; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_credit_available_6; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_credit_available_7; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_channel_status_0_occupied; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_channel_status_1_occupied; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_channel_status_2_occupied; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_channel_status_3_occupied; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_channel_status_4_occupied; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_channel_status_5_occupied; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_channel_status_6_occupied; // @[Router.scala:122:13] wire _output_unit_0_to_20_io_channel_status_7_occupied; // @[Router.scala:122:13] wire _ingress_unit_3_from_11_io_vcalloc_req_valid; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_vcalloc_req_bits_vc_sel_2_0; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_vcalloc_req_bits_vc_sel_1_0; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_vcalloc_req_bits_vc_sel_0_0; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_vcalloc_req_bits_vc_sel_0_1; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_vcalloc_req_bits_vc_sel_0_2; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_vcalloc_req_bits_vc_sel_0_3; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_vcalloc_req_bits_vc_sel_0_4; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_vcalloc_req_bits_vc_sel_0_5; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_vcalloc_req_bits_vc_sel_0_6; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_vcalloc_req_bits_vc_sel_0_7; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_salloc_req_0_valid; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_salloc_req_0_bits_vc_sel_2_0; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_salloc_req_0_bits_vc_sel_1_0; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_salloc_req_0_bits_vc_sel_0_0; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_salloc_req_0_bits_vc_sel_0_1; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_salloc_req_0_bits_vc_sel_0_2; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_salloc_req_0_bits_vc_sel_0_3; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_salloc_req_0_bits_vc_sel_0_4; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_salloc_req_0_bits_vc_sel_0_5; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_salloc_req_0_bits_vc_sel_0_6; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_salloc_req_0_bits_vc_sel_0_7; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_salloc_req_0_bits_tail; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_out_0_valid; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_out_0_bits_flit_head; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_out_0_bits_flit_tail; // @[Router.scala:116:13] wire [72:0] _ingress_unit_3_from_11_io_out_0_bits_flit_payload; // @[Router.scala:116:13] wire [2:0] _ingress_unit_3_from_11_io_out_0_bits_flit_flow_vnet_id; // @[Router.scala:116:13] wire [4:0] _ingress_unit_3_from_11_io_out_0_bits_flit_flow_ingress_node; // @[Router.scala:116:13] wire [1:0] _ingress_unit_3_from_11_io_out_0_bits_flit_flow_ingress_node_id; // @[Router.scala:116:13] wire [4:0] _ingress_unit_3_from_11_io_out_0_bits_flit_flow_egress_node; // @[Router.scala:116:13] wire [1:0] _ingress_unit_3_from_11_io_out_0_bits_flit_flow_egress_node_id; // @[Router.scala:116:13] wire [2:0] _ingress_unit_3_from_11_io_out_0_bits_out_virt_channel; // @[Router.scala:116:13] wire _ingress_unit_3_from_11_io_in_ready; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_vcalloc_req_valid; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_vcalloc_req_bits_vc_sel_2_0; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_vcalloc_req_bits_vc_sel_1_0; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_vcalloc_req_bits_vc_sel_0_0; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_vcalloc_req_bits_vc_sel_0_1; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_vcalloc_req_bits_vc_sel_0_2; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_vcalloc_req_bits_vc_sel_0_3; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_vcalloc_req_bits_vc_sel_0_4; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_vcalloc_req_bits_vc_sel_0_5; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_vcalloc_req_bits_vc_sel_0_6; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_vcalloc_req_bits_vc_sel_0_7; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_salloc_req_0_valid; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_salloc_req_0_bits_vc_sel_2_0; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_salloc_req_0_bits_vc_sel_1_0; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_salloc_req_0_bits_vc_sel_0_0; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_salloc_req_0_bits_vc_sel_0_1; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_salloc_req_0_bits_vc_sel_0_2; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_salloc_req_0_bits_vc_sel_0_3; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_salloc_req_0_bits_vc_sel_0_4; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_salloc_req_0_bits_vc_sel_0_5; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_salloc_req_0_bits_vc_sel_0_6; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_salloc_req_0_bits_vc_sel_0_7; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_salloc_req_0_bits_tail; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_out_0_valid; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_out_0_bits_flit_head; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_out_0_bits_flit_tail; // @[Router.scala:116:13] wire [72:0] _ingress_unit_2_from_10_io_out_0_bits_flit_payload; // @[Router.scala:116:13] wire [2:0] _ingress_unit_2_from_10_io_out_0_bits_flit_flow_vnet_id; // @[Router.scala:116:13] wire [4:0] _ingress_unit_2_from_10_io_out_0_bits_flit_flow_ingress_node; // @[Router.scala:116:13] wire [1:0] _ingress_unit_2_from_10_io_out_0_bits_flit_flow_ingress_node_id; // @[Router.scala:116:13] wire [4:0] _ingress_unit_2_from_10_io_out_0_bits_flit_flow_egress_node; // @[Router.scala:116:13] wire [1:0] _ingress_unit_2_from_10_io_out_0_bits_flit_flow_egress_node_id; // @[Router.scala:116:13] wire [2:0] _ingress_unit_2_from_10_io_out_0_bits_out_virt_channel; // @[Router.scala:116:13] wire _ingress_unit_2_from_10_io_in_ready; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_vcalloc_req_valid; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_vcalloc_req_bits_vc_sel_2_0; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_vcalloc_req_bits_vc_sel_1_0; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_vcalloc_req_bits_vc_sel_0_0; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_vcalloc_req_bits_vc_sel_0_1; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_vcalloc_req_bits_vc_sel_0_2; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_vcalloc_req_bits_vc_sel_0_3; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_vcalloc_req_bits_vc_sel_0_4; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_vcalloc_req_bits_vc_sel_0_5; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_vcalloc_req_bits_vc_sel_0_6; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_vcalloc_req_bits_vc_sel_0_7; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_salloc_req_0_valid; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_salloc_req_0_bits_vc_sel_2_0; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_salloc_req_0_bits_vc_sel_1_0; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_salloc_req_0_bits_vc_sel_0_0; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_salloc_req_0_bits_vc_sel_0_1; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_salloc_req_0_bits_vc_sel_0_2; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_salloc_req_0_bits_vc_sel_0_3; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_salloc_req_0_bits_vc_sel_0_4; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_salloc_req_0_bits_vc_sel_0_5; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_salloc_req_0_bits_vc_sel_0_6; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_salloc_req_0_bits_vc_sel_0_7; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_salloc_req_0_bits_tail; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_out_0_valid; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_out_0_bits_flit_head; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_out_0_bits_flit_tail; // @[Router.scala:116:13] wire [72:0] _ingress_unit_1_from_9_io_out_0_bits_flit_payload; // @[Router.scala:116:13] wire [2:0] _ingress_unit_1_from_9_io_out_0_bits_flit_flow_vnet_id; // @[Router.scala:116:13] wire [4:0] _ingress_unit_1_from_9_io_out_0_bits_flit_flow_ingress_node; // @[Router.scala:116:13] wire [1:0] _ingress_unit_1_from_9_io_out_0_bits_flit_flow_ingress_node_id; // @[Router.scala:116:13] wire [4:0] _ingress_unit_1_from_9_io_out_0_bits_flit_flow_egress_node; // @[Router.scala:116:13] wire [1:0] _ingress_unit_1_from_9_io_out_0_bits_flit_flow_egress_node_id; // @[Router.scala:116:13] wire [2:0] _ingress_unit_1_from_9_io_out_0_bits_out_virt_channel; // @[Router.scala:116:13] wire _ingress_unit_1_from_9_io_in_ready; // @[Router.scala:116:13] wire _input_unit_0_from_20_io_vcalloc_req_valid; // @[Router.scala:112:13] wire _input_unit_0_from_20_io_vcalloc_req_bits_vc_sel_2_0; // @[Router.scala:112:13] wire _input_unit_0_from_20_io_vcalloc_req_bits_vc_sel_1_0; // @[Router.scala:112:13] wire _input_unit_0_from_20_io_salloc_req_0_valid; // @[Router.scala:112:13] wire _input_unit_0_from_20_io_salloc_req_0_bits_vc_sel_2_0; // @[Router.scala:112:13] wire _input_unit_0_from_20_io_salloc_req_0_bits_vc_sel_1_0; // @[Router.scala:112:13] wire _input_unit_0_from_20_io_salloc_req_0_bits_tail; // @[Router.scala:112:13] wire _input_unit_0_from_20_io_out_0_valid; // @[Router.scala:112:13] wire _input_unit_0_from_20_io_out_0_bits_flit_head; // @[Router.scala:112:13] wire _input_unit_0_from_20_io_out_0_bits_flit_tail; // @[Router.scala:112:13] wire [72:0] _input_unit_0_from_20_io_out_0_bits_flit_payload; // @[Router.scala:112:13] wire [2:0] _input_unit_0_from_20_io_out_0_bits_flit_flow_vnet_id; // @[Router.scala:112:13] wire [4:0] _input_unit_0_from_20_io_out_0_bits_flit_flow_ingress_node; // @[Router.scala:112:13] wire [1:0] _input_unit_0_from_20_io_out_0_bits_flit_flow_ingress_node_id; // @[Router.scala:112:13] wire [4:0] _input_unit_0_from_20_io_out_0_bits_flit_flow_egress_node; // @[Router.scala:112:13] wire [1:0] _input_unit_0_from_20_io_out_0_bits_flit_flow_egress_node_id; // @[Router.scala:112:13] wire [2:0] fires_count = {1'h0, {1'h0, _vc_allocator_io_req_0_ready & _input_unit_0_from_20_io_vcalloc_req_valid} + {1'h0, _vc_allocator_io_req_1_ready & _ingress_unit_1_from_9_io_vcalloc_req_valid}} + {1'h0, {1'h0, _vc_allocator_io_req_2_ready & _ingress_unit_2_from_10_io_vcalloc_req_valid} + {1'h0, _vc_allocator_io_req_3_ready & _ingress_unit_3_from_11_io_vcalloc_req_valid}}; // @[Decoupled.scala:51:35] reg REG_2_0_3_0; // @[Router.scala:178:14] reg REG_2_0_2_0; // @[Router.scala:178:14] reg REG_2_0_1_0; // @[Router.scala:178:14] reg REG_2_0_0_0; // @[Router.scala:178:14] reg REG_1_0_3_0; // @[Router.scala:178:14] reg REG_1_0_2_0; // @[Router.scala:178:14] reg REG_1_0_1_0; // @[Router.scala:178:14] reg REG_1_0_0_0; // @[Router.scala:178:14] reg REG_0_0_3_0; // @[Router.scala:178:14] reg REG_0_0_2_0; // @[Router.scala:178:14] reg REG_0_0_1_0; // @[Router.scala:178:14] reg [63:0] debug_tsc; // @[Router.scala:195:28] reg [63:0] debug_sample; // @[Router.scala:197:31] wire _GEN = debug_sample == {44'h0, _plusarg_reader_out - 20'h1}; // @[PlusArg.scala:80:11] reg [63:0] util_ctr; // @[Router.scala:203:29] reg fired; // @[Router.scala:204:26] wire _GEN_0 = (|_plusarg_reader_out) & _GEN; // @[PlusArg.scala:80:11] wire _GEN_1 = _GEN_0 & fired; // @[Router.scala:204:26, :207:{33,71}] reg [63:0] util_ctr_1; // @[Router.scala:203:29] reg fired_1; // @[Router.scala:204:26] wire _GEN_2 = _GEN_0 & fired_1; // @[Router.scala:204:26, :207:{33,71}] reg [63:0] util_ctr_2; // @[Router.scala:203:29] reg fired_2; // @[Router.scala:204:26] wire _GEN_3 = _GEN_0 & fired_2; // @[Router.scala:204:26, :207:{33,71}] reg [63:0] util_ctr_3; // @[Router.scala:203:29] reg fired_3; // @[Router.scala:204:26] wire _GEN_4 = _GEN_0 & fired_3; // @[Router.scala:204:26, :207:{33,71}] reg [63:0] util_ctr_4; // @[Router.scala:203:29] reg fired_4; // @[Router.scala:204:26] wire _GEN_5 = _GEN_0 & fired_4; // @[Router.scala:204:26, :207:{33,71}] reg [63:0] util_ctr_5; // @[Router.scala:203:29] reg fired_5; // @[Router.scala:204:26] wire _GEN_6 = _GEN_0 & fired_5; // @[Router.scala:204:26, :207:{33,71}]
Generate the Verilog code corresponding to the following Chisel files. File primitives.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object lowMask { def apply(in: UInt, topBound: BigInt, bottomBound: BigInt): UInt = { require(topBound != bottomBound) val numInVals = BigInt(1)<<in.getWidth if (topBound < bottomBound) { lowMask(~in, numInVals - 1 - topBound, numInVals - 1 - bottomBound) } else if (numInVals > 64 /* Empirical */) { // For simulation performance, we should avoid generating // exteremely wide shifters, so we divide and conquer. // Empirically, this does not impact synthesis QoR. val mid = numInVals / 2 val msb = in(in.getWidth - 1) val lsbs = in(in.getWidth - 2, 0) if (mid < topBound) { if (mid <= bottomBound) { Mux(msb, lowMask(lsbs, topBound - mid, bottomBound - mid), 0.U ) } else { Mux(msb, lowMask(lsbs, topBound - mid, 0) ## ((BigInt(1)<<(mid - bottomBound).toInt) - 1).U, lowMask(lsbs, mid, bottomBound) ) } } else { ~Mux(msb, 0.U, ~lowMask(lsbs, topBound, bottomBound)) } } else { val shift = (BigInt(-1)<<numInVals.toInt).S>>in Reverse( shift( (numInVals - 1 - bottomBound).toInt, (numInVals - topBound).toInt ) ) } } } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object countLeadingZeros { def apply(in: UInt): UInt = PriorityEncoder(in.asBools.reverse) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object orReduceBy2 { def apply(in: UInt): UInt = { val reducedWidth = (in.getWidth + 1)>>1 val reducedVec = Wire(Vec(reducedWidth, Bool())) for (ix <- 0 until reducedWidth - 1) { reducedVec(ix) := in(ix * 2 + 1, ix * 2).orR } reducedVec(reducedWidth - 1) := in(in.getWidth - 1, (reducedWidth - 1) * 2).orR reducedVec.asUInt } } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object orReduceBy4 { def apply(in: UInt): UInt = { val reducedWidth = (in.getWidth + 3)>>2 val reducedVec = Wire(Vec(reducedWidth, Bool())) for (ix <- 0 until reducedWidth - 1) { reducedVec(ix) := in(ix * 4 + 3, ix * 4).orR } reducedVec(reducedWidth - 1) := in(in.getWidth - 1, (reducedWidth - 1) * 4).orR reducedVec.asUInt } } File MulAddRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ import consts._ //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFN_interIo(expWidth: Int, sigWidth: Int) extends Bundle { //*** ENCODE SOME OF THESE CASES IN FEWER BITS?: val isSigNaNAny = Bool() val isNaNAOrB = Bool() val isInfA = Bool() val isZeroA = Bool() val isInfB = Bool() val isZeroB = Bool() val signProd = Bool() val isNaNC = Bool() val isInfC = Bool() val isZeroC = Bool() val sExpSum = SInt((expWidth + 2).W) val doSubMags = Bool() val CIsDominant = Bool() val CDom_CAlignDist = UInt(log2Ceil(sigWidth + 1).W) val highAlignedSigC = UInt((sigWidth + 2).W) val bit0AlignedSigC = UInt(1.W) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFNToRaw_preMul(expWidth: Int, sigWidth: Int) extends RawModule { override def desiredName = s"MulAddRecFNToRaw_preMul_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val op = Input(Bits(2.W)) val a = Input(Bits((expWidth + sigWidth + 1).W)) val b = Input(Bits((expWidth + sigWidth + 1).W)) val c = Input(Bits((expWidth + sigWidth + 1).W)) val mulAddA = Output(UInt(sigWidth.W)) val mulAddB = Output(UInt(sigWidth.W)) val mulAddC = Output(UInt((sigWidth * 2).W)) val toPostMul = Output(new MulAddRecFN_interIo(expWidth, sigWidth)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ //*** POSSIBLE TO REDUCE THIS BY 1 OR 2 BITS? (CURRENTLY 2 BITS BETWEEN //*** UNSHIFTED C AND PRODUCT): val sigSumWidth = sigWidth * 3 + 3 //------------------------------------------------------------------------ //------------------------------------------------------------------------ val rawA = rawFloatFromRecFN(expWidth, sigWidth, io.a) val rawB = rawFloatFromRecFN(expWidth, sigWidth, io.b) val rawC = rawFloatFromRecFN(expWidth, sigWidth, io.c) val signProd = rawA.sign ^ rawB.sign ^ io.op(1) //*** REVIEW THE BIAS FOR 'sExpAlignedProd': val sExpAlignedProd = rawA.sExp +& rawB.sExp + (-(BigInt(1)<<expWidth) + sigWidth + 3).S val doSubMags = signProd ^ rawC.sign ^ io.op(0) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sNatCAlignDist = sExpAlignedProd - rawC.sExp val posNatCAlignDist = sNatCAlignDist(expWidth + 1, 0) val isMinCAlign = rawA.isZero || rawB.isZero || (sNatCAlignDist < 0.S) val CIsDominant = ! rawC.isZero && (isMinCAlign || (posNatCAlignDist <= sigWidth.U)) val CAlignDist = Mux(isMinCAlign, 0.U, Mux(posNatCAlignDist < (sigSumWidth - 1).U, posNatCAlignDist(log2Ceil(sigSumWidth) - 1, 0), (sigSumWidth - 1).U ) ) val mainAlignedSigC = (Mux(doSubMags, ~rawC.sig, rawC.sig) ## Fill(sigSumWidth - sigWidth + 2, doSubMags)).asSInt>>CAlignDist val reduced4CExtra = (orReduceBy4(rawC.sig<<((sigSumWidth - sigWidth - 1) & 3)) & lowMask( CAlignDist>>2, //*** NOT NEEDED?: // (sigSumWidth + 2)>>2, (sigSumWidth - 1)>>2, (sigSumWidth - sigWidth - 1)>>2 ) ).orR val alignedSigC = Cat(mainAlignedSigC>>3, Mux(doSubMags, mainAlignedSigC(2, 0).andR && ! reduced4CExtra, mainAlignedSigC(2, 0).orR || reduced4CExtra ) ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ io.mulAddA := rawA.sig io.mulAddB := rawB.sig io.mulAddC := alignedSigC(sigWidth * 2, 1) io.toPostMul.isSigNaNAny := isSigNaNRawFloat(rawA) || isSigNaNRawFloat(rawB) || isSigNaNRawFloat(rawC) io.toPostMul.isNaNAOrB := rawA.isNaN || rawB.isNaN io.toPostMul.isInfA := rawA.isInf io.toPostMul.isZeroA := rawA.isZero io.toPostMul.isInfB := rawB.isInf io.toPostMul.isZeroB := rawB.isZero io.toPostMul.signProd := signProd io.toPostMul.isNaNC := rawC.isNaN io.toPostMul.isInfC := rawC.isInf io.toPostMul.isZeroC := rawC.isZero io.toPostMul.sExpSum := Mux(CIsDominant, rawC.sExp, sExpAlignedProd - sigWidth.S) io.toPostMul.doSubMags := doSubMags io.toPostMul.CIsDominant := CIsDominant io.toPostMul.CDom_CAlignDist := CAlignDist(log2Ceil(sigWidth + 1) - 1, 0) io.toPostMul.highAlignedSigC := alignedSigC(sigSumWidth - 1, sigWidth * 2 + 1) io.toPostMul.bit0AlignedSigC := alignedSigC(0) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFNToRaw_postMul(expWidth: Int, sigWidth: Int) extends RawModule { override def desiredName = s"MulAddRecFNToRaw_postMul_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val fromPreMul = Input(new MulAddRecFN_interIo(expWidth, sigWidth)) val mulAddResult = Input(UInt((sigWidth * 2 + 1).W)) val roundingMode = Input(UInt(3.W)) val invalidExc = Output(Bool()) val rawOut = Output(new RawFloat(expWidth, sigWidth + 2)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sigSumWidth = sigWidth * 3 + 3 //------------------------------------------------------------------------ //------------------------------------------------------------------------ val roundingMode_min = (io.roundingMode === round_min) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val opSignC = io.fromPreMul.signProd ^ io.fromPreMul.doSubMags val sigSum = Cat(Mux(io.mulAddResult(sigWidth * 2), io.fromPreMul.highAlignedSigC + 1.U, io.fromPreMul.highAlignedSigC ), io.mulAddResult(sigWidth * 2 - 1, 0), io.fromPreMul.bit0AlignedSigC ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val CDom_sign = opSignC val CDom_sExp = io.fromPreMul.sExpSum - io.fromPreMul.doSubMags.zext val CDom_absSigSum = Mux(io.fromPreMul.doSubMags, ~sigSum(sigSumWidth - 1, sigWidth + 1), 0.U(1.W) ## //*** IF GAP IS REDUCED TO 1 BIT, MUST REDUCE THIS COMPONENT TO 1 BIT TOO: io.fromPreMul.highAlignedSigC(sigWidth + 1, sigWidth) ## sigSum(sigSumWidth - 3, sigWidth + 2) ) val CDom_absSigSumExtra = Mux(io.fromPreMul.doSubMags, (~sigSum(sigWidth, 1)).orR, sigSum(sigWidth + 1, 1).orR ) val CDom_mainSig = (CDom_absSigSum<<io.fromPreMul.CDom_CAlignDist)( sigWidth * 2 + 1, sigWidth - 3) val CDom_reduced4SigExtra = (orReduceBy4(CDom_absSigSum(sigWidth - 1, 0)<<(~sigWidth & 3)) & lowMask(io.fromPreMul.CDom_CAlignDist>>2, 0, sigWidth>>2)).orR val CDom_sig = Cat(CDom_mainSig>>3, CDom_mainSig(2, 0).orR || CDom_reduced4SigExtra || CDom_absSigSumExtra ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val notCDom_signSigSum = sigSum(sigWidth * 2 + 3) val notCDom_absSigSum = Mux(notCDom_signSigSum, ~sigSum(sigWidth * 2 + 2, 0), sigSum(sigWidth * 2 + 2, 0) + io.fromPreMul.doSubMags ) val notCDom_reduced2AbsSigSum = orReduceBy2(notCDom_absSigSum) val notCDom_normDistReduced2 = countLeadingZeros(notCDom_reduced2AbsSigSum) val notCDom_nearNormDist = notCDom_normDistReduced2<<1 val notCDom_sExp = io.fromPreMul.sExpSum - notCDom_nearNormDist.asUInt.zext val notCDom_mainSig = (notCDom_absSigSum<<notCDom_nearNormDist)( sigWidth * 2 + 3, sigWidth - 1) val notCDom_reduced4SigExtra = (orReduceBy2( notCDom_reduced2AbsSigSum(sigWidth>>1, 0)<<((sigWidth>>1) & 1)) & lowMask(notCDom_normDistReduced2>>1, 0, (sigWidth + 2)>>2) ).orR val notCDom_sig = Cat(notCDom_mainSig>>3, notCDom_mainSig(2, 0).orR || notCDom_reduced4SigExtra ) val notCDom_completeCancellation = (notCDom_sig(sigWidth + 2, sigWidth + 1) === 0.U) val notCDom_sign = Mux(notCDom_completeCancellation, roundingMode_min, io.fromPreMul.signProd ^ notCDom_signSigSum ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val notNaN_isInfProd = io.fromPreMul.isInfA || io.fromPreMul.isInfB val notNaN_isInfOut = notNaN_isInfProd || io.fromPreMul.isInfC val notNaN_addZeros = (io.fromPreMul.isZeroA || io.fromPreMul.isZeroB) && io.fromPreMul.isZeroC io.invalidExc := io.fromPreMul.isSigNaNAny || (io.fromPreMul.isInfA && io.fromPreMul.isZeroB) || (io.fromPreMul.isZeroA && io.fromPreMul.isInfB) || (! io.fromPreMul.isNaNAOrB && (io.fromPreMul.isInfA || io.fromPreMul.isInfB) && io.fromPreMul.isInfC && io.fromPreMul.doSubMags) io.rawOut.isNaN := io.fromPreMul.isNaNAOrB || io.fromPreMul.isNaNC io.rawOut.isInf := notNaN_isInfOut //*** IMPROVE?: io.rawOut.isZero := notNaN_addZeros || (! io.fromPreMul.CIsDominant && notCDom_completeCancellation) io.rawOut.sign := (notNaN_isInfProd && io.fromPreMul.signProd) || (io.fromPreMul.isInfC && opSignC) || (notNaN_addZeros && ! roundingMode_min && io.fromPreMul.signProd && opSignC) || (notNaN_addZeros && roundingMode_min && (io.fromPreMul.signProd || opSignC)) || (! notNaN_isInfOut && ! notNaN_addZeros && Mux(io.fromPreMul.CIsDominant, CDom_sign, notCDom_sign)) io.rawOut.sExp := Mux(io.fromPreMul.CIsDominant, CDom_sExp, notCDom_sExp) io.rawOut.sig := Mux(io.fromPreMul.CIsDominant, CDom_sig, notCDom_sig) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFN(expWidth: Int, sigWidth: Int) extends RawModule { override def desiredName = s"MulAddRecFN_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val op = Input(Bits(2.W)) val a = Input(Bits((expWidth + sigWidth + 1).W)) val b = Input(Bits((expWidth + sigWidth + 1).W)) val c = Input(Bits((expWidth + sigWidth + 1).W)) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((expWidth + sigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val mulAddRecFNToRaw_preMul = Module(new MulAddRecFNToRaw_preMul(expWidth, sigWidth)) val mulAddRecFNToRaw_postMul = Module(new MulAddRecFNToRaw_postMul(expWidth, sigWidth)) mulAddRecFNToRaw_preMul.io.op := io.op mulAddRecFNToRaw_preMul.io.a := io.a mulAddRecFNToRaw_preMul.io.b := io.b mulAddRecFNToRaw_preMul.io.c := io.c val mulAddResult = (mulAddRecFNToRaw_preMul.io.mulAddA * mulAddRecFNToRaw_preMul.io.mulAddB) +& mulAddRecFNToRaw_preMul.io.mulAddC mulAddRecFNToRaw_postMul.io.fromPreMul := mulAddRecFNToRaw_preMul.io.toPostMul mulAddRecFNToRaw_postMul.io.mulAddResult := mulAddResult mulAddRecFNToRaw_postMul.io.roundingMode := io.roundingMode //------------------------------------------------------------------------ //------------------------------------------------------------------------ val roundRawFNToRecFN = Module(new RoundRawFNToRecFN(expWidth, sigWidth, 0)) roundRawFNToRecFN.io.invalidExc := mulAddRecFNToRaw_postMul.io.invalidExc roundRawFNToRecFN.io.infiniteExc := false.B roundRawFNToRecFN.io.in := mulAddRecFNToRaw_postMul.io.rawOut roundRawFNToRecFN.io.roundingMode := io.roundingMode roundRawFNToRecFN.io.detectTininess := io.detectTininess io.out := roundRawFNToRecFN.io.out io.exceptionFlags := roundRawFNToRecFN.io.exceptionFlags }
module MulAddRecFNToRaw_postMul_e8_s24_12( // @[MulAddRecFN.scala:169:7] input io_fromPreMul_isSigNaNAny, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_isNaNAOrB, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_isInfA, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_isZeroA, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_signProd, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_isNaNC, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_isInfC, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_isZeroC, // @[MulAddRecFN.scala:172:16] input [9:0] io_fromPreMul_sExpSum, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_doSubMags, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_CIsDominant, // @[MulAddRecFN.scala:172:16] input [4:0] io_fromPreMul_CDom_CAlignDist, // @[MulAddRecFN.scala:172:16] input [25:0] io_fromPreMul_highAlignedSigC, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_bit0AlignedSigC, // @[MulAddRecFN.scala:172:16] input [48:0] io_mulAddResult, // @[MulAddRecFN.scala:172:16] output io_invalidExc, // @[MulAddRecFN.scala:172:16] output io_rawOut_isNaN, // @[MulAddRecFN.scala:172:16] output io_rawOut_isInf, // @[MulAddRecFN.scala:172:16] output io_rawOut_isZero, // @[MulAddRecFN.scala:172:16] output io_rawOut_sign, // @[MulAddRecFN.scala:172:16] output [9:0] io_rawOut_sExp, // @[MulAddRecFN.scala:172:16] output [26:0] io_rawOut_sig // @[MulAddRecFN.scala:172:16] ); wire io_fromPreMul_isSigNaNAny_0 = io_fromPreMul_isSigNaNAny; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isNaNAOrB_0 = io_fromPreMul_isNaNAOrB; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isInfA_0 = io_fromPreMul_isInfA; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isZeroA_0 = io_fromPreMul_isZeroA; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_signProd_0 = io_fromPreMul_signProd; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isNaNC_0 = io_fromPreMul_isNaNC; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isInfC_0 = io_fromPreMul_isInfC; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isZeroC_0 = io_fromPreMul_isZeroC; // @[MulAddRecFN.scala:169:7] wire [9:0] io_fromPreMul_sExpSum_0 = io_fromPreMul_sExpSum; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_doSubMags_0 = io_fromPreMul_doSubMags; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_CIsDominant_0 = io_fromPreMul_CIsDominant; // @[MulAddRecFN.scala:169:7] wire [4:0] io_fromPreMul_CDom_CAlignDist_0 = io_fromPreMul_CDom_CAlignDist; // @[MulAddRecFN.scala:169:7] wire [25:0] io_fromPreMul_highAlignedSigC_0 = io_fromPreMul_highAlignedSigC; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_bit0AlignedSigC_0 = io_fromPreMul_bit0AlignedSigC; // @[MulAddRecFN.scala:169:7] wire [48:0] io_mulAddResult_0 = io_mulAddResult; // @[MulAddRecFN.scala:169:7] wire _io_rawOut_sign_T_3 = 1'h1; // @[MulAddRecFN.scala:287:29] wire [2:0] io_roundingMode = 3'h0; // @[MulAddRecFN.scala:169:7, :172:16] wire io_fromPreMul_isInfB = 1'h0; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isZeroB = 1'h0; // @[MulAddRecFN.scala:169:7] wire roundingMode_min = 1'h0; // @[MulAddRecFN.scala:186:45] wire _io_invalidExc_T = 1'h0; // @[MulAddRecFN.scala:272:31] wire _io_invalidExc_T_2 = 1'h0; // @[MulAddRecFN.scala:273:32] wire _io_rawOut_sign_T_8 = 1'h0; // @[MulAddRecFN.scala:289:26] wire _io_rawOut_sign_T_10 = 1'h0; // @[MulAddRecFN.scala:289:46] wire _io_invalidExc_T_1 = io_fromPreMul_isSigNaNAny_0; // @[MulAddRecFN.scala:169:7, :271:35] wire notNaN_isInfProd = io_fromPreMul_isInfA_0; // @[MulAddRecFN.scala:169:7, :264:49] wire _io_invalidExc_T_5 = io_fromPreMul_isInfA_0; // @[MulAddRecFN.scala:169:7, :275:36] wire _notNaN_addZeros_T = io_fromPreMul_isZeroA_0; // @[MulAddRecFN.scala:169:7, :267:32] wire _io_invalidExc_T_9; // @[MulAddRecFN.scala:273:57] wire _io_rawOut_isNaN_T; // @[MulAddRecFN.scala:278:48] wire notNaN_isInfOut; // @[MulAddRecFN.scala:265:44] wire _io_rawOut_isZero_T_2; // @[MulAddRecFN.scala:282:25] wire _io_rawOut_sign_T_17; // @[MulAddRecFN.scala:290:50] wire [9:0] _io_rawOut_sExp_T; // @[MulAddRecFN.scala:293:26] wire [26:0] _io_rawOut_sig_T; // @[MulAddRecFN.scala:294:25] wire io_rawOut_isNaN_0; // @[MulAddRecFN.scala:169:7] wire io_rawOut_isInf_0; // @[MulAddRecFN.scala:169:7] wire io_rawOut_isZero_0; // @[MulAddRecFN.scala:169:7] wire io_rawOut_sign_0; // @[MulAddRecFN.scala:169:7] wire [9:0] io_rawOut_sExp_0; // @[MulAddRecFN.scala:169:7] wire [26:0] io_rawOut_sig_0; // @[MulAddRecFN.scala:169:7] wire io_invalidExc_0; // @[MulAddRecFN.scala:169:7] wire opSignC = io_fromPreMul_signProd_0 ^ io_fromPreMul_doSubMags_0; // @[MulAddRecFN.scala:169:7, :190:42] wire _sigSum_T = io_mulAddResult_0[48]; // @[MulAddRecFN.scala:169:7, :192:32] wire [26:0] _sigSum_T_1 = {1'h0, io_fromPreMul_highAlignedSigC_0} + 27'h1; // @[MulAddRecFN.scala:169:7, :193:47] wire [25:0] _sigSum_T_2 = _sigSum_T_1[25:0]; // @[MulAddRecFN.scala:193:47] wire [25:0] _sigSum_T_3 = _sigSum_T ? _sigSum_T_2 : io_fromPreMul_highAlignedSigC_0; // @[MulAddRecFN.scala:169:7, :192:{16,32}, :193:47] wire [47:0] _sigSum_T_4 = io_mulAddResult_0[47:0]; // @[MulAddRecFN.scala:169:7, :196:28] wire [73:0] sigSum_hi = {_sigSum_T_3, _sigSum_T_4}; // @[MulAddRecFN.scala:192:{12,16}, :196:28] wire [74:0] sigSum = {sigSum_hi, io_fromPreMul_bit0AlignedSigC_0}; // @[MulAddRecFN.scala:169:7, :192:12] wire [1:0] _CDom_sExp_T = {1'h0, io_fromPreMul_doSubMags_0}; // @[MulAddRecFN.scala:169:7, :203:69] wire [10:0] _GEN = {io_fromPreMul_sExpSum_0[9], io_fromPreMul_sExpSum_0}; // @[MulAddRecFN.scala:169:7, :203:43] wire [10:0] _CDom_sExp_T_1 = _GEN - {{9{_CDom_sExp_T[1]}}, _CDom_sExp_T}; // @[MulAddRecFN.scala:203:{43,69}] wire [9:0] _CDom_sExp_T_2 = _CDom_sExp_T_1[9:0]; // @[MulAddRecFN.scala:203:43] wire [9:0] CDom_sExp = _CDom_sExp_T_2; // @[MulAddRecFN.scala:203:43] wire [49:0] _CDom_absSigSum_T = sigSum[74:25]; // @[MulAddRecFN.scala:192:12, :206:20] wire [49:0] _CDom_absSigSum_T_1 = ~_CDom_absSigSum_T; // @[MulAddRecFN.scala:206:{13,20}] wire [1:0] _CDom_absSigSum_T_2 = io_fromPreMul_highAlignedSigC_0[25:24]; // @[MulAddRecFN.scala:169:7, :209:46] wire [2:0] _CDom_absSigSum_T_3 = {1'h0, _CDom_absSigSum_T_2}; // @[MulAddRecFN.scala:207:22, :209:46] wire [46:0] _CDom_absSigSum_T_4 = sigSum[72:26]; // @[MulAddRecFN.scala:192:12, :210:23] wire [49:0] _CDom_absSigSum_T_5 = {_CDom_absSigSum_T_3, _CDom_absSigSum_T_4}; // @[MulAddRecFN.scala:207:22, :209:71, :210:23] wire [49:0] CDom_absSigSum = io_fromPreMul_doSubMags_0 ? _CDom_absSigSum_T_1 : _CDom_absSigSum_T_5; // @[MulAddRecFN.scala:169:7, :205:12, :206:13, :209:71] wire [23:0] _CDom_absSigSumExtra_T = sigSum[24:1]; // @[MulAddRecFN.scala:192:12, :215:21] wire [23:0] _CDom_absSigSumExtra_T_1 = ~_CDom_absSigSumExtra_T; // @[MulAddRecFN.scala:215:{14,21}] wire _CDom_absSigSumExtra_T_2 = |_CDom_absSigSumExtra_T_1; // @[MulAddRecFN.scala:215:{14,36}] wire [24:0] _CDom_absSigSumExtra_T_3 = sigSum[25:1]; // @[MulAddRecFN.scala:192:12, :216:19] wire _CDom_absSigSumExtra_T_4 = |_CDom_absSigSumExtra_T_3; // @[MulAddRecFN.scala:216:{19,37}] wire CDom_absSigSumExtra = io_fromPreMul_doSubMags_0 ? _CDom_absSigSumExtra_T_2 : _CDom_absSigSumExtra_T_4; // @[MulAddRecFN.scala:169:7, :214:12, :215:36, :216:37] wire [80:0] _CDom_mainSig_T = {31'h0, CDom_absSigSum} << io_fromPreMul_CDom_CAlignDist_0; // @[MulAddRecFN.scala:169:7, :205:12, :219:24] wire [28:0] CDom_mainSig = _CDom_mainSig_T[49:21]; // @[MulAddRecFN.scala:219:{24,56}] wire [23:0] _CDom_reduced4SigExtra_T = CDom_absSigSum[23:0]; // @[MulAddRecFN.scala:205:12, :222:36] wire [26:0] _CDom_reduced4SigExtra_T_1 = {_CDom_reduced4SigExtra_T, 3'h0}; // @[MulAddRecFN.scala:169:7, :172:16, :222:{36,53}] wire _CDom_reduced4SigExtra_reducedVec_0_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_1_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_2_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_3_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_4_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_5_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_6_T_1; // @[primitives.scala:123:57] wire CDom_reduced4SigExtra_reducedVec_0; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_1; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_2; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_3; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_4; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_5; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_6; // @[primitives.scala:118:30] wire [3:0] _CDom_reduced4SigExtra_reducedVec_0_T = _CDom_reduced4SigExtra_T_1[3:0]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_0_T_1 = |_CDom_reduced4SigExtra_reducedVec_0_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_0 = _CDom_reduced4SigExtra_reducedVec_0_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_1_T = _CDom_reduced4SigExtra_T_1[7:4]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_1_T_1 = |_CDom_reduced4SigExtra_reducedVec_1_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_1 = _CDom_reduced4SigExtra_reducedVec_1_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_2_T = _CDom_reduced4SigExtra_T_1[11:8]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_2_T_1 = |_CDom_reduced4SigExtra_reducedVec_2_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_2 = _CDom_reduced4SigExtra_reducedVec_2_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_3_T = _CDom_reduced4SigExtra_T_1[15:12]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_3_T_1 = |_CDom_reduced4SigExtra_reducedVec_3_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_3 = _CDom_reduced4SigExtra_reducedVec_3_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_4_T = _CDom_reduced4SigExtra_T_1[19:16]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_4_T_1 = |_CDom_reduced4SigExtra_reducedVec_4_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_4 = _CDom_reduced4SigExtra_reducedVec_4_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_5_T = _CDom_reduced4SigExtra_T_1[23:20]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_5_T_1 = |_CDom_reduced4SigExtra_reducedVec_5_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_5 = _CDom_reduced4SigExtra_reducedVec_5_T_1; // @[primitives.scala:118:30, :120:54] wire [2:0] _CDom_reduced4SigExtra_reducedVec_6_T = _CDom_reduced4SigExtra_T_1[26:24]; // @[primitives.scala:123:15] assign _CDom_reduced4SigExtra_reducedVec_6_T_1 = |_CDom_reduced4SigExtra_reducedVec_6_T; // @[primitives.scala:123:{15,57}] assign CDom_reduced4SigExtra_reducedVec_6 = _CDom_reduced4SigExtra_reducedVec_6_T_1; // @[primitives.scala:118:30, :123:57] wire [1:0] CDom_reduced4SigExtra_lo_hi = {CDom_reduced4SigExtra_reducedVec_2, CDom_reduced4SigExtra_reducedVec_1}; // @[primitives.scala:118:30, :124:20] wire [2:0] CDom_reduced4SigExtra_lo = {CDom_reduced4SigExtra_lo_hi, CDom_reduced4SigExtra_reducedVec_0}; // @[primitives.scala:118:30, :124:20] wire [1:0] CDom_reduced4SigExtra_hi_lo = {CDom_reduced4SigExtra_reducedVec_4, CDom_reduced4SigExtra_reducedVec_3}; // @[primitives.scala:118:30, :124:20] wire [1:0] CDom_reduced4SigExtra_hi_hi = {CDom_reduced4SigExtra_reducedVec_6, CDom_reduced4SigExtra_reducedVec_5}; // @[primitives.scala:118:30, :124:20] wire [3:0] CDom_reduced4SigExtra_hi = {CDom_reduced4SigExtra_hi_hi, CDom_reduced4SigExtra_hi_lo}; // @[primitives.scala:124:20] wire [6:0] _CDom_reduced4SigExtra_T_2 = {CDom_reduced4SigExtra_hi, CDom_reduced4SigExtra_lo}; // @[primitives.scala:124:20] wire [2:0] _CDom_reduced4SigExtra_T_3 = io_fromPreMul_CDom_CAlignDist_0[4:2]; // @[MulAddRecFN.scala:169:7, :223:51] wire [2:0] _CDom_reduced4SigExtra_T_4 = ~_CDom_reduced4SigExtra_T_3; // @[primitives.scala:52:21] wire [8:0] CDom_reduced4SigExtra_shift = $signed(9'sh100 >>> _CDom_reduced4SigExtra_T_4); // @[primitives.scala:52:21, :76:56] wire [5:0] _CDom_reduced4SigExtra_T_5 = CDom_reduced4SigExtra_shift[6:1]; // @[primitives.scala:76:56, :78:22] wire [3:0] _CDom_reduced4SigExtra_T_6 = _CDom_reduced4SigExtra_T_5[3:0]; // @[primitives.scala:77:20, :78:22] wire [1:0] _CDom_reduced4SigExtra_T_7 = _CDom_reduced4SigExtra_T_6[1:0]; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_8 = _CDom_reduced4SigExtra_T_7[0]; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_9 = _CDom_reduced4SigExtra_T_7[1]; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_10 = {_CDom_reduced4SigExtra_T_8, _CDom_reduced4SigExtra_T_9}; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_11 = _CDom_reduced4SigExtra_T_6[3:2]; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_12 = _CDom_reduced4SigExtra_T_11[0]; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_13 = _CDom_reduced4SigExtra_T_11[1]; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_14 = {_CDom_reduced4SigExtra_T_12, _CDom_reduced4SigExtra_T_13}; // @[primitives.scala:77:20] wire [3:0] _CDom_reduced4SigExtra_T_15 = {_CDom_reduced4SigExtra_T_10, _CDom_reduced4SigExtra_T_14}; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_16 = _CDom_reduced4SigExtra_T_5[5:4]; // @[primitives.scala:77:20, :78:22] wire _CDom_reduced4SigExtra_T_17 = _CDom_reduced4SigExtra_T_16[0]; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_18 = _CDom_reduced4SigExtra_T_16[1]; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_19 = {_CDom_reduced4SigExtra_T_17, _CDom_reduced4SigExtra_T_18}; // @[primitives.scala:77:20] wire [5:0] _CDom_reduced4SigExtra_T_20 = {_CDom_reduced4SigExtra_T_15, _CDom_reduced4SigExtra_T_19}; // @[primitives.scala:77:20] wire [6:0] _CDom_reduced4SigExtra_T_21 = {1'h0, _CDom_reduced4SigExtra_T_2[5:0] & _CDom_reduced4SigExtra_T_20}; // @[primitives.scala:77:20, :124:20] wire CDom_reduced4SigExtra = |_CDom_reduced4SigExtra_T_21; // @[MulAddRecFN.scala:222:72, :223:73] wire [25:0] _CDom_sig_T = CDom_mainSig[28:3]; // @[MulAddRecFN.scala:219:56, :225:25] wire [2:0] _CDom_sig_T_1 = CDom_mainSig[2:0]; // @[MulAddRecFN.scala:219:56, :226:25] wire _CDom_sig_T_2 = |_CDom_sig_T_1; // @[MulAddRecFN.scala:226:{25,32}] wire _CDom_sig_T_3 = _CDom_sig_T_2 | CDom_reduced4SigExtra; // @[MulAddRecFN.scala:223:73, :226:{32,36}] wire _CDom_sig_T_4 = _CDom_sig_T_3 | CDom_absSigSumExtra; // @[MulAddRecFN.scala:214:12, :226:{36,61}] wire [26:0] CDom_sig = {_CDom_sig_T, _CDom_sig_T_4}; // @[MulAddRecFN.scala:225:{12,25}, :226:61] wire notCDom_signSigSum = sigSum[51]; // @[MulAddRecFN.scala:192:12, :232:36] wire [50:0] _notCDom_absSigSum_T = sigSum[50:0]; // @[MulAddRecFN.scala:192:12, :235:20] wire [50:0] _notCDom_absSigSum_T_2 = sigSum[50:0]; // @[MulAddRecFN.scala:192:12, :235:20, :236:19] wire [50:0] _notCDom_absSigSum_T_1 = ~_notCDom_absSigSum_T; // @[MulAddRecFN.scala:235:{13,20}] wire [51:0] _notCDom_absSigSum_T_3 = {1'h0, _notCDom_absSigSum_T_2} + {51'h0, io_fromPreMul_doSubMags_0}; // @[MulAddRecFN.scala:169:7, :236:{19,41}] wire [50:0] _notCDom_absSigSum_T_4 = _notCDom_absSigSum_T_3[50:0]; // @[MulAddRecFN.scala:236:41] wire [50:0] notCDom_absSigSum = notCDom_signSigSum ? _notCDom_absSigSum_T_1 : _notCDom_absSigSum_T_4; // @[MulAddRecFN.scala:232:36, :234:12, :235:13, :236:41] wire _notCDom_reduced2AbsSigSum_reducedVec_0_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_1_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_2_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_3_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_4_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_5_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_6_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_7_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_8_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_9_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_10_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_11_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_12_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_13_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_14_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_15_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_16_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_17_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_18_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_19_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_20_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_21_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_22_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_23_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_24_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_25_T_1; // @[primitives.scala:106:57] wire notCDom_reduced2AbsSigSum_reducedVec_0; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_1; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_2; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_3; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_4; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_5; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_6; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_7; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_8; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_9; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_10; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_11; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_12; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_13; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_14; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_15; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_16; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_17; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_18; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_19; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_20; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_21; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_22; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_23; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_24; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_25; // @[primitives.scala:101:30] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_0_T = notCDom_absSigSum[1:0]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_0_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_0_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_0 = _notCDom_reduced2AbsSigSum_reducedVec_0_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_1_T = notCDom_absSigSum[3:2]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_1_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_1_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_1 = _notCDom_reduced2AbsSigSum_reducedVec_1_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_2_T = notCDom_absSigSum[5:4]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_2_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_2_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_2 = _notCDom_reduced2AbsSigSum_reducedVec_2_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_3_T = notCDom_absSigSum[7:6]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_3_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_3_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_3 = _notCDom_reduced2AbsSigSum_reducedVec_3_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_4_T = notCDom_absSigSum[9:8]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_4_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_4_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_4 = _notCDom_reduced2AbsSigSum_reducedVec_4_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_5_T = notCDom_absSigSum[11:10]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_5_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_5_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_5 = _notCDom_reduced2AbsSigSum_reducedVec_5_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_6_T = notCDom_absSigSum[13:12]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_6_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_6_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_6 = _notCDom_reduced2AbsSigSum_reducedVec_6_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_7_T = notCDom_absSigSum[15:14]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_7_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_7_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_7 = _notCDom_reduced2AbsSigSum_reducedVec_7_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_8_T = notCDom_absSigSum[17:16]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_8_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_8_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_8 = _notCDom_reduced2AbsSigSum_reducedVec_8_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_9_T = notCDom_absSigSum[19:18]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_9_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_9_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_9 = _notCDom_reduced2AbsSigSum_reducedVec_9_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_10_T = notCDom_absSigSum[21:20]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_10_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_10_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_10 = _notCDom_reduced2AbsSigSum_reducedVec_10_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_11_T = notCDom_absSigSum[23:22]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_11_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_11_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_11 = _notCDom_reduced2AbsSigSum_reducedVec_11_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_12_T = notCDom_absSigSum[25:24]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_12_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_12_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_12 = _notCDom_reduced2AbsSigSum_reducedVec_12_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_13_T = notCDom_absSigSum[27:26]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_13_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_13_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_13 = _notCDom_reduced2AbsSigSum_reducedVec_13_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_14_T = notCDom_absSigSum[29:28]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_14_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_14_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_14 = _notCDom_reduced2AbsSigSum_reducedVec_14_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_15_T = notCDom_absSigSum[31:30]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_15_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_15_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_15 = _notCDom_reduced2AbsSigSum_reducedVec_15_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_16_T = notCDom_absSigSum[33:32]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_16_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_16_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_16 = _notCDom_reduced2AbsSigSum_reducedVec_16_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_17_T = notCDom_absSigSum[35:34]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_17_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_17_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_17 = _notCDom_reduced2AbsSigSum_reducedVec_17_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_18_T = notCDom_absSigSum[37:36]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_18_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_18_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_18 = _notCDom_reduced2AbsSigSum_reducedVec_18_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_19_T = notCDom_absSigSum[39:38]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_19_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_19_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_19 = _notCDom_reduced2AbsSigSum_reducedVec_19_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_20_T = notCDom_absSigSum[41:40]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_20_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_20_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_20 = _notCDom_reduced2AbsSigSum_reducedVec_20_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_21_T = notCDom_absSigSum[43:42]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_21_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_21_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_21 = _notCDom_reduced2AbsSigSum_reducedVec_21_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_22_T = notCDom_absSigSum[45:44]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_22_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_22_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_22 = _notCDom_reduced2AbsSigSum_reducedVec_22_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_23_T = notCDom_absSigSum[47:46]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_23_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_23_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_23 = _notCDom_reduced2AbsSigSum_reducedVec_23_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_24_T = notCDom_absSigSum[49:48]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_24_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_24_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_24 = _notCDom_reduced2AbsSigSum_reducedVec_24_T_1; // @[primitives.scala:101:30, :103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_25_T = notCDom_absSigSum[50]; // @[primitives.scala:106:15] assign _notCDom_reduced2AbsSigSum_reducedVec_25_T_1 = _notCDom_reduced2AbsSigSum_reducedVec_25_T; // @[primitives.scala:106:{15,57}] assign notCDom_reduced2AbsSigSum_reducedVec_25 = _notCDom_reduced2AbsSigSum_reducedVec_25_T_1; // @[primitives.scala:101:30, :106:57] wire [1:0] notCDom_reduced2AbsSigSum_lo_lo_lo_hi = {notCDom_reduced2AbsSigSum_reducedVec_2, notCDom_reduced2AbsSigSum_reducedVec_1}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_lo_lo_lo = {notCDom_reduced2AbsSigSum_lo_lo_lo_hi, notCDom_reduced2AbsSigSum_reducedVec_0}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_lo_lo_hi_hi = {notCDom_reduced2AbsSigSum_reducedVec_5, notCDom_reduced2AbsSigSum_reducedVec_4}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_lo_lo_hi = {notCDom_reduced2AbsSigSum_lo_lo_hi_hi, notCDom_reduced2AbsSigSum_reducedVec_3}; // @[primitives.scala:101:30, :107:20] wire [5:0] notCDom_reduced2AbsSigSum_lo_lo = {notCDom_reduced2AbsSigSum_lo_lo_hi, notCDom_reduced2AbsSigSum_lo_lo_lo}; // @[primitives.scala:107:20] wire [1:0] notCDom_reduced2AbsSigSum_lo_hi_lo_hi = {notCDom_reduced2AbsSigSum_reducedVec_8, notCDom_reduced2AbsSigSum_reducedVec_7}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_lo_hi_lo = {notCDom_reduced2AbsSigSum_lo_hi_lo_hi, notCDom_reduced2AbsSigSum_reducedVec_6}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_lo_hi_hi_lo = {notCDom_reduced2AbsSigSum_reducedVec_10, notCDom_reduced2AbsSigSum_reducedVec_9}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_lo_hi_hi_hi = {notCDom_reduced2AbsSigSum_reducedVec_12, notCDom_reduced2AbsSigSum_reducedVec_11}; // @[primitives.scala:101:30, :107:20] wire [3:0] notCDom_reduced2AbsSigSum_lo_hi_hi = {notCDom_reduced2AbsSigSum_lo_hi_hi_hi, notCDom_reduced2AbsSigSum_lo_hi_hi_lo}; // @[primitives.scala:107:20] wire [6:0] notCDom_reduced2AbsSigSum_lo_hi = {notCDom_reduced2AbsSigSum_lo_hi_hi, notCDom_reduced2AbsSigSum_lo_hi_lo}; // @[primitives.scala:107:20] wire [12:0] notCDom_reduced2AbsSigSum_lo = {notCDom_reduced2AbsSigSum_lo_hi, notCDom_reduced2AbsSigSum_lo_lo}; // @[primitives.scala:107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_lo_lo_hi = {notCDom_reduced2AbsSigSum_reducedVec_15, notCDom_reduced2AbsSigSum_reducedVec_14}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_hi_lo_lo = {notCDom_reduced2AbsSigSum_hi_lo_lo_hi, notCDom_reduced2AbsSigSum_reducedVec_13}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_lo_hi_hi = {notCDom_reduced2AbsSigSum_reducedVec_18, notCDom_reduced2AbsSigSum_reducedVec_17}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_hi_lo_hi = {notCDom_reduced2AbsSigSum_hi_lo_hi_hi, notCDom_reduced2AbsSigSum_reducedVec_16}; // @[primitives.scala:101:30, :107:20] wire [5:0] notCDom_reduced2AbsSigSum_hi_lo = {notCDom_reduced2AbsSigSum_hi_lo_hi, notCDom_reduced2AbsSigSum_hi_lo_lo}; // @[primitives.scala:107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_hi_lo_hi = {notCDom_reduced2AbsSigSum_reducedVec_21, notCDom_reduced2AbsSigSum_reducedVec_20}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_hi_hi_lo = {notCDom_reduced2AbsSigSum_hi_hi_lo_hi, notCDom_reduced2AbsSigSum_reducedVec_19}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_hi_hi_lo = {notCDom_reduced2AbsSigSum_reducedVec_23, notCDom_reduced2AbsSigSum_reducedVec_22}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_hi_hi_hi = {notCDom_reduced2AbsSigSum_reducedVec_25, notCDom_reduced2AbsSigSum_reducedVec_24}; // @[primitives.scala:101:30, :107:20] wire [3:0] notCDom_reduced2AbsSigSum_hi_hi_hi = {notCDom_reduced2AbsSigSum_hi_hi_hi_hi, notCDom_reduced2AbsSigSum_hi_hi_hi_lo}; // @[primitives.scala:107:20] wire [6:0] notCDom_reduced2AbsSigSum_hi_hi = {notCDom_reduced2AbsSigSum_hi_hi_hi, notCDom_reduced2AbsSigSum_hi_hi_lo}; // @[primitives.scala:107:20] wire [12:0] notCDom_reduced2AbsSigSum_hi = {notCDom_reduced2AbsSigSum_hi_hi, notCDom_reduced2AbsSigSum_hi_lo}; // @[primitives.scala:107:20] wire [25:0] notCDom_reduced2AbsSigSum = {notCDom_reduced2AbsSigSum_hi, notCDom_reduced2AbsSigSum_lo}; // @[primitives.scala:107:20] wire _notCDom_normDistReduced2_T = notCDom_reduced2AbsSigSum[0]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_1 = notCDom_reduced2AbsSigSum[1]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_2 = notCDom_reduced2AbsSigSum[2]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_3 = notCDom_reduced2AbsSigSum[3]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_4 = notCDom_reduced2AbsSigSum[4]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_5 = notCDom_reduced2AbsSigSum[5]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_6 = notCDom_reduced2AbsSigSum[6]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_7 = notCDom_reduced2AbsSigSum[7]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_8 = notCDom_reduced2AbsSigSum[8]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_9 = notCDom_reduced2AbsSigSum[9]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_10 = notCDom_reduced2AbsSigSum[10]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_11 = notCDom_reduced2AbsSigSum[11]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_12 = notCDom_reduced2AbsSigSum[12]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_13 = notCDom_reduced2AbsSigSum[13]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_14 = notCDom_reduced2AbsSigSum[14]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_15 = notCDom_reduced2AbsSigSum[15]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_16 = notCDom_reduced2AbsSigSum[16]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_17 = notCDom_reduced2AbsSigSum[17]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_18 = notCDom_reduced2AbsSigSum[18]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_19 = notCDom_reduced2AbsSigSum[19]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_20 = notCDom_reduced2AbsSigSum[20]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_21 = notCDom_reduced2AbsSigSum[21]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_22 = notCDom_reduced2AbsSigSum[22]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_23 = notCDom_reduced2AbsSigSum[23]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_24 = notCDom_reduced2AbsSigSum[24]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_25 = notCDom_reduced2AbsSigSum[25]; // @[primitives.scala:91:52, :107:20] wire [4:0] _notCDom_normDistReduced2_T_26 = {4'hC, ~_notCDom_normDistReduced2_T_1}; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_27 = _notCDom_normDistReduced2_T_2 ? 5'h17 : _notCDom_normDistReduced2_T_26; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_28 = _notCDom_normDistReduced2_T_3 ? 5'h16 : _notCDom_normDistReduced2_T_27; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_29 = _notCDom_normDistReduced2_T_4 ? 5'h15 : _notCDom_normDistReduced2_T_28; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_30 = _notCDom_normDistReduced2_T_5 ? 5'h14 : _notCDom_normDistReduced2_T_29; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_31 = _notCDom_normDistReduced2_T_6 ? 5'h13 : _notCDom_normDistReduced2_T_30; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_32 = _notCDom_normDistReduced2_T_7 ? 5'h12 : _notCDom_normDistReduced2_T_31; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_33 = _notCDom_normDistReduced2_T_8 ? 5'h11 : _notCDom_normDistReduced2_T_32; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_34 = _notCDom_normDistReduced2_T_9 ? 5'h10 : _notCDom_normDistReduced2_T_33; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_35 = _notCDom_normDistReduced2_T_10 ? 5'hF : _notCDom_normDistReduced2_T_34; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_36 = _notCDom_normDistReduced2_T_11 ? 5'hE : _notCDom_normDistReduced2_T_35; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_37 = _notCDom_normDistReduced2_T_12 ? 5'hD : _notCDom_normDistReduced2_T_36; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_38 = _notCDom_normDistReduced2_T_13 ? 5'hC : _notCDom_normDistReduced2_T_37; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_39 = _notCDom_normDistReduced2_T_14 ? 5'hB : _notCDom_normDistReduced2_T_38; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_40 = _notCDom_normDistReduced2_T_15 ? 5'hA : _notCDom_normDistReduced2_T_39; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_41 = _notCDom_normDistReduced2_T_16 ? 5'h9 : _notCDom_normDistReduced2_T_40; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_42 = _notCDom_normDistReduced2_T_17 ? 5'h8 : _notCDom_normDistReduced2_T_41; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_43 = _notCDom_normDistReduced2_T_18 ? 5'h7 : _notCDom_normDistReduced2_T_42; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_44 = _notCDom_normDistReduced2_T_19 ? 5'h6 : _notCDom_normDistReduced2_T_43; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_45 = _notCDom_normDistReduced2_T_20 ? 5'h5 : _notCDom_normDistReduced2_T_44; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_46 = _notCDom_normDistReduced2_T_21 ? 5'h4 : _notCDom_normDistReduced2_T_45; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_47 = _notCDom_normDistReduced2_T_22 ? 5'h3 : _notCDom_normDistReduced2_T_46; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_48 = _notCDom_normDistReduced2_T_23 ? 5'h2 : _notCDom_normDistReduced2_T_47; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_49 = _notCDom_normDistReduced2_T_24 ? 5'h1 : _notCDom_normDistReduced2_T_48; // @[Mux.scala:50:70] wire [4:0] notCDom_normDistReduced2 = _notCDom_normDistReduced2_T_25 ? 5'h0 : _notCDom_normDistReduced2_T_49; // @[Mux.scala:50:70] wire [5:0] notCDom_nearNormDist = {notCDom_normDistReduced2, 1'h0}; // @[Mux.scala:50:70] wire [6:0] _notCDom_sExp_T = {1'h0, notCDom_nearNormDist}; // @[MulAddRecFN.scala:240:56, :241:76] wire [10:0] _notCDom_sExp_T_1 = _GEN - {{4{_notCDom_sExp_T[6]}}, _notCDom_sExp_T}; // @[MulAddRecFN.scala:203:43, :241:{46,76}] wire [9:0] _notCDom_sExp_T_2 = _notCDom_sExp_T_1[9:0]; // @[MulAddRecFN.scala:241:46] wire [9:0] notCDom_sExp = _notCDom_sExp_T_2; // @[MulAddRecFN.scala:241:46] wire [113:0] _notCDom_mainSig_T = {63'h0, notCDom_absSigSum} << notCDom_nearNormDist; // @[MulAddRecFN.scala:234:12, :240:56, :243:27] wire [28:0] notCDom_mainSig = _notCDom_mainSig_T[51:23]; // @[MulAddRecFN.scala:243:{27,50}] wire [12:0] _notCDom_reduced4SigExtra_T = notCDom_reduced2AbsSigSum[12:0]; // @[primitives.scala:107:20] wire [12:0] _notCDom_reduced4SigExtra_T_1 = _notCDom_reduced4SigExtra_T; // @[MulAddRecFN.scala:247:{39,55}] wire _notCDom_reduced4SigExtra_reducedVec_0_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_1_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_2_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_3_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_4_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_5_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_6_T_1; // @[primitives.scala:106:57] wire notCDom_reduced4SigExtra_reducedVec_0; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_1; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_2; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_3; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_4; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_5; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_6; // @[primitives.scala:101:30] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_0_T = _notCDom_reduced4SigExtra_T_1[1:0]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_0_T_1 = |_notCDom_reduced4SigExtra_reducedVec_0_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_0 = _notCDom_reduced4SigExtra_reducedVec_0_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_1_T = _notCDom_reduced4SigExtra_T_1[3:2]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_1_T_1 = |_notCDom_reduced4SigExtra_reducedVec_1_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_1 = _notCDom_reduced4SigExtra_reducedVec_1_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_2_T = _notCDom_reduced4SigExtra_T_1[5:4]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_2_T_1 = |_notCDom_reduced4SigExtra_reducedVec_2_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_2 = _notCDom_reduced4SigExtra_reducedVec_2_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_3_T = _notCDom_reduced4SigExtra_T_1[7:6]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_3_T_1 = |_notCDom_reduced4SigExtra_reducedVec_3_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_3 = _notCDom_reduced4SigExtra_reducedVec_3_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_4_T = _notCDom_reduced4SigExtra_T_1[9:8]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_4_T_1 = |_notCDom_reduced4SigExtra_reducedVec_4_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_4 = _notCDom_reduced4SigExtra_reducedVec_4_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_5_T = _notCDom_reduced4SigExtra_T_1[11:10]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_5_T_1 = |_notCDom_reduced4SigExtra_reducedVec_5_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_5 = _notCDom_reduced4SigExtra_reducedVec_5_T_1; // @[primitives.scala:101:30, :103:54] wire _notCDom_reduced4SigExtra_reducedVec_6_T = _notCDom_reduced4SigExtra_T_1[12]; // @[primitives.scala:106:15] assign _notCDom_reduced4SigExtra_reducedVec_6_T_1 = _notCDom_reduced4SigExtra_reducedVec_6_T; // @[primitives.scala:106:{15,57}] assign notCDom_reduced4SigExtra_reducedVec_6 = _notCDom_reduced4SigExtra_reducedVec_6_T_1; // @[primitives.scala:101:30, :106:57] wire [1:0] notCDom_reduced4SigExtra_lo_hi = {notCDom_reduced4SigExtra_reducedVec_2, notCDom_reduced4SigExtra_reducedVec_1}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced4SigExtra_lo = {notCDom_reduced4SigExtra_lo_hi, notCDom_reduced4SigExtra_reducedVec_0}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced4SigExtra_hi_lo = {notCDom_reduced4SigExtra_reducedVec_4, notCDom_reduced4SigExtra_reducedVec_3}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced4SigExtra_hi_hi = {notCDom_reduced4SigExtra_reducedVec_6, notCDom_reduced4SigExtra_reducedVec_5}; // @[primitives.scala:101:30, :107:20] wire [3:0] notCDom_reduced4SigExtra_hi = {notCDom_reduced4SigExtra_hi_hi, notCDom_reduced4SigExtra_hi_lo}; // @[primitives.scala:107:20] wire [6:0] _notCDom_reduced4SigExtra_T_2 = {notCDom_reduced4SigExtra_hi, notCDom_reduced4SigExtra_lo}; // @[primitives.scala:107:20] wire [3:0] _notCDom_reduced4SigExtra_T_3 = notCDom_normDistReduced2[4:1]; // @[Mux.scala:50:70] wire [3:0] _notCDom_reduced4SigExtra_T_4 = ~_notCDom_reduced4SigExtra_T_3; // @[primitives.scala:52:21] wire [16:0] notCDom_reduced4SigExtra_shift = $signed(17'sh10000 >>> _notCDom_reduced4SigExtra_T_4); // @[primitives.scala:52:21, :76:56] wire [5:0] _notCDom_reduced4SigExtra_T_5 = notCDom_reduced4SigExtra_shift[6:1]; // @[primitives.scala:76:56, :78:22] wire [3:0] _notCDom_reduced4SigExtra_T_6 = _notCDom_reduced4SigExtra_T_5[3:0]; // @[primitives.scala:77:20, :78:22] wire [1:0] _notCDom_reduced4SigExtra_T_7 = _notCDom_reduced4SigExtra_T_6[1:0]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_8 = _notCDom_reduced4SigExtra_T_7[0]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_9 = _notCDom_reduced4SigExtra_T_7[1]; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_10 = {_notCDom_reduced4SigExtra_T_8, _notCDom_reduced4SigExtra_T_9}; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_11 = _notCDom_reduced4SigExtra_T_6[3:2]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_12 = _notCDom_reduced4SigExtra_T_11[0]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_13 = _notCDom_reduced4SigExtra_T_11[1]; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_14 = {_notCDom_reduced4SigExtra_T_12, _notCDom_reduced4SigExtra_T_13}; // @[primitives.scala:77:20] wire [3:0] _notCDom_reduced4SigExtra_T_15 = {_notCDom_reduced4SigExtra_T_10, _notCDom_reduced4SigExtra_T_14}; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_16 = _notCDom_reduced4SigExtra_T_5[5:4]; // @[primitives.scala:77:20, :78:22] wire _notCDom_reduced4SigExtra_T_17 = _notCDom_reduced4SigExtra_T_16[0]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_18 = _notCDom_reduced4SigExtra_T_16[1]; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_19 = {_notCDom_reduced4SigExtra_T_17, _notCDom_reduced4SigExtra_T_18}; // @[primitives.scala:77:20] wire [5:0] _notCDom_reduced4SigExtra_T_20 = {_notCDom_reduced4SigExtra_T_15, _notCDom_reduced4SigExtra_T_19}; // @[primitives.scala:77:20] wire [6:0] _notCDom_reduced4SigExtra_T_21 = {1'h0, _notCDom_reduced4SigExtra_T_2[5:0] & _notCDom_reduced4SigExtra_T_20}; // @[primitives.scala:77:20, :107:20] wire notCDom_reduced4SigExtra = |_notCDom_reduced4SigExtra_T_21; // @[MulAddRecFN.scala:247:78, :249:11] wire [25:0] _notCDom_sig_T = notCDom_mainSig[28:3]; // @[MulAddRecFN.scala:243:50, :251:28] wire [2:0] _notCDom_sig_T_1 = notCDom_mainSig[2:0]; // @[MulAddRecFN.scala:243:50, :252:28] wire _notCDom_sig_T_2 = |_notCDom_sig_T_1; // @[MulAddRecFN.scala:252:{28,35}] wire _notCDom_sig_T_3 = _notCDom_sig_T_2 | notCDom_reduced4SigExtra; // @[MulAddRecFN.scala:249:11, :252:{35,39}] wire [26:0] notCDom_sig = {_notCDom_sig_T, _notCDom_sig_T_3}; // @[MulAddRecFN.scala:251:{12,28}, :252:39] wire [1:0] _notCDom_completeCancellation_T = notCDom_sig[26:25]; // @[MulAddRecFN.scala:251:12, :255:21] wire notCDom_completeCancellation = _notCDom_completeCancellation_T == 2'h0; // @[primitives.scala:103:54] wire _notCDom_sign_T = io_fromPreMul_signProd_0 ^ notCDom_signSigSum; // @[MulAddRecFN.scala:169:7, :232:36, :259:36] wire notCDom_sign = ~notCDom_completeCancellation & _notCDom_sign_T; // @[MulAddRecFN.scala:255:50, :257:12, :259:36] assign notNaN_isInfOut = notNaN_isInfProd | io_fromPreMul_isInfC_0; // @[MulAddRecFN.scala:169:7, :264:49, :265:44] assign io_rawOut_isInf_0 = notNaN_isInfOut; // @[MulAddRecFN.scala:169:7, :265:44] wire notNaN_addZeros = _notNaN_addZeros_T & io_fromPreMul_isZeroC_0; // @[MulAddRecFN.scala:169:7, :267:{32,58}] wire _io_rawOut_sign_T_4 = notNaN_addZeros; // @[MulAddRecFN.scala:267:58, :287:26] wire _io_invalidExc_T_3 = _io_invalidExc_T_1; // @[MulAddRecFN.scala:271:35, :272:57] wire _io_invalidExc_T_4 = ~io_fromPreMul_isNaNAOrB_0; // @[MulAddRecFN.scala:169:7, :274:10] wire _io_invalidExc_T_6 = _io_invalidExc_T_4 & _io_invalidExc_T_5; // @[MulAddRecFN.scala:274:{10,36}, :275:36] wire _io_invalidExc_T_7 = _io_invalidExc_T_6 & io_fromPreMul_isInfC_0; // @[MulAddRecFN.scala:169:7, :274:36, :275:61] wire _io_invalidExc_T_8 = _io_invalidExc_T_7 & io_fromPreMul_doSubMags_0; // @[MulAddRecFN.scala:169:7, :275:61, :276:35] assign _io_invalidExc_T_9 = _io_invalidExc_T_3 | _io_invalidExc_T_8; // @[MulAddRecFN.scala:272:57, :273:57, :276:35] assign io_invalidExc_0 = _io_invalidExc_T_9; // @[MulAddRecFN.scala:169:7, :273:57] assign _io_rawOut_isNaN_T = io_fromPreMul_isNaNAOrB_0 | io_fromPreMul_isNaNC_0; // @[MulAddRecFN.scala:169:7, :278:48] assign io_rawOut_isNaN_0 = _io_rawOut_isNaN_T; // @[MulAddRecFN.scala:169:7, :278:48] wire _io_rawOut_isZero_T = ~io_fromPreMul_CIsDominant_0; // @[MulAddRecFN.scala:169:7, :283:14] wire _io_rawOut_isZero_T_1 = _io_rawOut_isZero_T & notCDom_completeCancellation; // @[MulAddRecFN.scala:255:50, :283:{14,42}] assign _io_rawOut_isZero_T_2 = notNaN_addZeros | _io_rawOut_isZero_T_1; // @[MulAddRecFN.scala:267:58, :282:25, :283:42] assign io_rawOut_isZero_0 = _io_rawOut_isZero_T_2; // @[MulAddRecFN.scala:169:7, :282:25] wire _io_rawOut_sign_T = notNaN_isInfProd & io_fromPreMul_signProd_0; // @[MulAddRecFN.scala:169:7, :264:49, :285:27] wire _io_rawOut_sign_T_1 = io_fromPreMul_isInfC_0 & opSignC; // @[MulAddRecFN.scala:169:7, :190:42, :286:31] wire _io_rawOut_sign_T_2 = _io_rawOut_sign_T | _io_rawOut_sign_T_1; // @[MulAddRecFN.scala:285:{27,54}, :286:31] wire _io_rawOut_sign_T_5 = _io_rawOut_sign_T_4 & io_fromPreMul_signProd_0; // @[MulAddRecFN.scala:169:7, :287:{26,48}] wire _io_rawOut_sign_T_6 = _io_rawOut_sign_T_5 & opSignC; // @[MulAddRecFN.scala:190:42, :287:48, :288:36] wire _io_rawOut_sign_T_7 = _io_rawOut_sign_T_2 | _io_rawOut_sign_T_6; // @[MulAddRecFN.scala:285:54, :286:43, :288:36] wire _io_rawOut_sign_T_11 = _io_rawOut_sign_T_7; // @[MulAddRecFN.scala:286:43, :288:48] wire _io_rawOut_sign_T_9 = io_fromPreMul_signProd_0 | opSignC; // @[MulAddRecFN.scala:169:7, :190:42, :290:37] wire _io_rawOut_sign_T_12 = ~notNaN_isInfOut; // @[MulAddRecFN.scala:265:44, :291:10] wire _io_rawOut_sign_T_13 = ~notNaN_addZeros; // @[MulAddRecFN.scala:267:58, :291:31] wire _io_rawOut_sign_T_14 = _io_rawOut_sign_T_12 & _io_rawOut_sign_T_13; // @[MulAddRecFN.scala:291:{10,28,31}] wire _io_rawOut_sign_T_15 = io_fromPreMul_CIsDominant_0 ? opSignC : notCDom_sign; // @[MulAddRecFN.scala:169:7, :190:42, :257:12, :292:17] wire _io_rawOut_sign_T_16 = _io_rawOut_sign_T_14 & _io_rawOut_sign_T_15; // @[MulAddRecFN.scala:291:{28,49}, :292:17] assign _io_rawOut_sign_T_17 = _io_rawOut_sign_T_11 | _io_rawOut_sign_T_16; // @[MulAddRecFN.scala:288:48, :290:50, :291:49] assign io_rawOut_sign_0 = _io_rawOut_sign_T_17; // @[MulAddRecFN.scala:169:7, :290:50] assign _io_rawOut_sExp_T = io_fromPreMul_CIsDominant_0 ? CDom_sExp : notCDom_sExp; // @[MulAddRecFN.scala:169:7, :203:43, :241:46, :293:26] assign io_rawOut_sExp_0 = _io_rawOut_sExp_T; // @[MulAddRecFN.scala:169:7, :293:26] assign _io_rawOut_sig_T = io_fromPreMul_CIsDominant_0 ? CDom_sig : notCDom_sig; // @[MulAddRecFN.scala:169:7, :225:12, :251:12, :294:25] assign io_rawOut_sig_0 = _io_rawOut_sig_T; // @[MulAddRecFN.scala:169:7, :294:25] assign io_invalidExc = io_invalidExc_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_isNaN = io_rawOut_isNaN_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_isInf = io_rawOut_isInf_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_isZero = io_rawOut_isZero_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_sign = io_rawOut_sign_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_sExp = io_rawOut_sExp_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_sig = io_rawOut_sig_0; // @[MulAddRecFN.scala:169:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Buffer.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.BufferParams class TLBufferNode ( a: BufferParams, b: BufferParams, c: BufferParams, d: BufferParams, e: BufferParams)(implicit valName: ValName) extends TLAdapterNode( clientFn = { p => p.v1copy(minLatency = p.minLatency + b.latency + c.latency) }, managerFn = { p => p.v1copy(minLatency = p.minLatency + a.latency + d.latency) } ) { override lazy val nodedebugstring = s"a:${a.toString}, b:${b.toString}, c:${c.toString}, d:${d.toString}, e:${e.toString}" override def circuitIdentity = List(a,b,c,d,e).forall(_ == BufferParams.none) } class TLBuffer( a: BufferParams, b: BufferParams, c: BufferParams, d: BufferParams, e: BufferParams)(implicit p: Parameters) extends LazyModule { def this(ace: BufferParams, bd: BufferParams)(implicit p: Parameters) = this(ace, bd, ace, bd, ace) def this(abcde: BufferParams)(implicit p: Parameters) = this(abcde, abcde) def this()(implicit p: Parameters) = this(BufferParams.default) val node = new TLBufferNode(a, b, c, d, e) lazy val module = new Impl class Impl extends LazyModuleImp(this) { def headBundle = node.out.head._2.bundle override def desiredName = (Seq("TLBuffer") ++ node.out.headOption.map(_._2.bundle.shortName)).mkString("_") (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out.a <> a(in .a) in .d <> d(out.d) if (edgeOut.manager.anySupportAcquireB && edgeOut.client.anySupportProbe) { in .b <> b(out.b) out.c <> c(in .c) out.e <> e(in .e) } else { in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } } } } object TLBuffer { def apply() (implicit p: Parameters): TLNode = apply(BufferParams.default) def apply(abcde: BufferParams) (implicit p: Parameters): TLNode = apply(abcde, abcde) def apply(ace: BufferParams, bd: BufferParams)(implicit p: Parameters): TLNode = apply(ace, bd, ace, bd, ace) def apply( a: BufferParams, b: BufferParams, c: BufferParams, d: BufferParams, e: BufferParams)(implicit p: Parameters): TLNode = { val buffer = LazyModule(new TLBuffer(a, b, c, d, e)) buffer.node } def chain(depth: Int, name: Option[String] = None)(implicit p: Parameters): Seq[TLNode] = { val buffers = Seq.fill(depth) { LazyModule(new TLBuffer()) } name.foreach { n => buffers.zipWithIndex.foreach { case (b, i) => b.suggestName(s"${n}_${i}") } } buffers.map(_.node) } def chainNode(depth: Int, name: Option[String] = None)(implicit p: Parameters): TLNode = { chain(depth, name) .reduceLeftOption(_ :*=* _) .getOrElse(TLNameNode("no_buffer")) } } File Crossing.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.interrupts import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.util.{SynchronizerShiftReg, AsyncResetReg} @deprecated("IntXing does not ensure interrupt source is glitch free. Use IntSyncSource and IntSyncSink", "rocket-chip 1.2") class IntXing(sync: Int = 3)(implicit p: Parameters) extends LazyModule { val intnode = IntAdapterNode() lazy val module = new Impl class Impl extends LazyModuleImp(this) { (intnode.in zip intnode.out) foreach { case ((in, _), (out, _)) => out := SynchronizerShiftReg(in, sync) } } } object IntSyncCrossingSource { def apply(alreadyRegistered: Boolean = false)(implicit p: Parameters) = { val intsource = LazyModule(new IntSyncCrossingSource(alreadyRegistered)) intsource.node } } class IntSyncCrossingSource(alreadyRegistered: Boolean = false)(implicit p: Parameters) extends LazyModule { val node = IntSyncSourceNode(alreadyRegistered) lazy val module = if (alreadyRegistered) (new ImplRegistered) else (new Impl) class Impl extends LazyModuleImp(this) { def outSize = node.out.headOption.map(_._1.sync.size).getOrElse(0) override def desiredName = s"IntSyncCrossingSource_n${node.out.size}x${outSize}" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out.sync := AsyncResetReg(Cat(in.reverse)).asBools } } class ImplRegistered extends LazyRawModuleImp(this) { def outSize = node.out.headOption.map(_._1.sync.size).getOrElse(0) override def desiredName = s"IntSyncCrossingSource_n${node.out.size}x${outSize}_Registered" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out.sync := in } } } object IntSyncCrossingSink { @deprecated("IntSyncCrossingSink which used the `sync` parameter to determine crossing type is deprecated. Use IntSyncAsyncCrossingSink, IntSyncRationalCrossingSink, or IntSyncSyncCrossingSink instead for > 1, 1, and 0 sync values respectively", "rocket-chip 1.2") def apply(sync: Int = 3)(implicit p: Parameters) = { val intsink = LazyModule(new IntSyncAsyncCrossingSink(sync)) intsink.node } } class IntSyncAsyncCrossingSink(sync: Int = 3)(implicit p: Parameters) extends LazyModule { val node = IntSyncSinkNode(sync) lazy val module = new Impl class Impl extends LazyModuleImp(this) { override def desiredName = s"IntSyncAsyncCrossingSink_n${node.out.size}x${node.out.head._1.size}" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out := SynchronizerShiftReg(in.sync, sync) } } } object IntSyncAsyncCrossingSink { def apply(sync: Int = 3)(implicit p: Parameters) = { val intsink = LazyModule(new IntSyncAsyncCrossingSink(sync)) intsink.node } } class IntSyncSyncCrossingSink()(implicit p: Parameters) extends LazyModule { val node = IntSyncSinkNode(0) lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { def outSize = node.out.headOption.map(_._1.size).getOrElse(0) override def desiredName = s"IntSyncSyncCrossingSink_n${node.out.size}x${outSize}" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out := in.sync } } } object IntSyncSyncCrossingSink { def apply()(implicit p: Parameters) = { val intsink = LazyModule(new IntSyncSyncCrossingSink()) intsink.node } } class IntSyncRationalCrossingSink()(implicit p: Parameters) extends LazyModule { val node = IntSyncSinkNode(1) lazy val module = new Impl class Impl extends LazyModuleImp(this) { def outSize = node.out.headOption.map(_._1.size).getOrElse(0) override def desiredName = s"IntSyncRationalCrossingSink_n${node.out.size}x${outSize}" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out := RegNext(in.sync) } } } object IntSyncRationalCrossingSink { def apply()(implicit p: Parameters) = { val intsink = LazyModule(new IntSyncRationalCrossingSink()) intsink.node } } File ClockDomain.scala: package freechips.rocketchip.prci import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ abstract class Domain(implicit p: Parameters) extends LazyModule with HasDomainCrossing { def clockBundle: ClockBundle lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { childClock := clockBundle.clock childReset := clockBundle.reset override def provideImplicitClockToLazyChildren = true // these are just for backwards compatibility with external devices // that were manually wiring themselves to the domain's clock/reset input: val clock = IO(Output(chiselTypeOf(clockBundle.clock))) val reset = IO(Output(chiselTypeOf(clockBundle.reset))) clock := clockBundle.clock reset := clockBundle.reset } } abstract class ClockDomain(implicit p: Parameters) extends Domain with HasClockDomainCrossing class ClockSinkDomain(val clockSinkParams: ClockSinkParameters)(implicit p: Parameters) extends ClockDomain { def this(take: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSinkParameters(take = take, name = name)) val clockNode = ClockSinkNode(Seq(clockSinkParams)) def clockBundle = clockNode.in.head._1 override lazy val desiredName = (clockSinkParams.name.toSeq :+ "ClockSinkDomain").mkString } class ClockSourceDomain(val clockSourceParams: ClockSourceParameters)(implicit p: Parameters) extends ClockDomain { def this(give: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSourceParameters(give = give, name = name)) val clockNode = ClockSourceNode(Seq(clockSourceParams)) def clockBundle = clockNode.out.head._1 override lazy val desiredName = (clockSourceParams.name.toSeq :+ "ClockSourceDomain").mkString } abstract class ResetDomain(implicit p: Parameters) extends Domain with HasResetDomainCrossing File HasTiles.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.subsystem import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.bundlebridge._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.devices.debug.TLDebugModule import freechips.rocketchip.diplomacy.{DisableMonitors, FlipRendering} import freechips.rocketchip.interrupts.{IntXbar, IntSinkNode, IntSinkPortSimple, IntSyncAsyncCrossingSink} import freechips.rocketchip.tile.{MaxHartIdBits, BaseTile, InstantiableTileParams, TileParams, TilePRCIDomain, TraceBundle, PriorityMuxHartIdFromSeq} import freechips.rocketchip.tilelink.TLWidthWidget import freechips.rocketchip.prci.{ClockGroup, BundleBridgeBlockDuringReset, NoCrossing, SynchronousCrossing, CreditedCrossing, RationalCrossing, AsynchronousCrossing} import freechips.rocketchip.rocket.TracedInstruction import freechips.rocketchip.util.TraceCoreInterface import scala.collection.immutable.SortedMap /** Entry point for Config-uring the presence of Tiles */ case class TilesLocated(loc: HierarchicalLocation) extends Field[Seq[CanAttachTile]](Nil) /** List of HierarchicalLocations which might contain a Tile */ case object PossibleTileLocations extends Field[Seq[HierarchicalLocation]](Nil) /** For determining static tile id */ case object NumTiles extends Field[Int](0) /** Whether to add timing-closure registers along the path of the hart id * as it propagates through the subsystem and into the tile. * * These are typically only desirable when a dynamically programmable prefix is being combined * with the static hart id via [[freechips.rocketchip.subsystem.HasTiles.tileHartIdNexusNode]]. */ case object InsertTimingClosureRegistersOnHartIds extends Field[Boolean](false) /** Whether per-tile hart ids are going to be driven as inputs into a HasTiles block, * and if so, what their width should be. */ case object HasTilesExternalHartIdWidthKey extends Field[Option[Int]](None) /** Whether per-tile reset vectors are going to be driven as inputs into a HasTiles block. * * Unlike the hart ids, the reset vector width is determined by the sinks within the tiles, * based on the size of the address map visible to the tiles. */ case object HasTilesExternalResetVectorKey extends Field[Boolean](true) /** These are sources of "constants" that are driven into the tile. * * While they are not expected to change dyanmically while the tile is executing code, * they may be either tied to a contant value or programmed during boot or reset. * They need to be instantiated before tiles are attached within the subsystem containing them. */ trait HasTileInputConstants { this: LazyModule with Attachable with InstantiatesHierarchicalElements => /** tileHartIdNode is used to collect publishers and subscribers of hartids. */ val tileHartIdNodes: SortedMap[Int, BundleBridgeEphemeralNode[UInt]] = (0 until nTotalTiles).map { i => (i, BundleBridgeEphemeralNode[UInt]()) }.to(SortedMap) /** tileHartIdNexusNode is a BundleBridgeNexus that collects dynamic hart prefixes. * * Each "prefix" input is actually the same full width as the outer hart id; the expected usage * is that each prefix source would set only some non-overlapping portion of the bits to non-zero values. * This node orReduces them, and further combines the reduction with the static ids assigned to each tile, * producing a unique, dynamic hart id for each tile. * * If p(InsertTimingClosureRegistersOnHartIds) is set, the input and output values are registered. * * The output values are [[dontTouch]]'d to prevent constant propagation from pulling the values into * the tiles if they are constant, which would ruin deduplication of tiles that are otherwise homogeneous. */ val tileHartIdNexusNode = LazyModule(new BundleBridgeNexus[UInt]( inputFn = BundleBridgeNexus.orReduction[UInt](registered = p(InsertTimingClosureRegistersOnHartIds)) _, outputFn = (prefix: UInt, n: Int) => Seq.tabulate(n) { i => val y = dontTouch(prefix | totalTileIdList(i).U(p(MaxHartIdBits).W)) // dontTouch to keep constant prop from breaking tile dedup if (p(InsertTimingClosureRegistersOnHartIds)) BundleBridgeNexus.safeRegNext(y) else y }, default = Some(() => 0.U(p(MaxHartIdBits).W)), inputRequiresOutput = true, // guard against this being driven but then ignored in tileHartIdIONodes below shouldBeInlined = false // can't inline something whose output we are are dontTouching )).node // TODO: Replace the DebugModuleHartSelFuncs config key with logic to consume the dynamic hart IDs /** tileResetVectorNode is used to collect publishers and subscribers of tile reset vector addresses. */ val tileResetVectorNodes: SortedMap[Int, BundleBridgeEphemeralNode[UInt]] = (0 until nTotalTiles).map { i => (i, BundleBridgeEphemeralNode[UInt]()) }.to(SortedMap) /** tileResetVectorNexusNode is a BundleBridgeNexus that accepts a single reset vector source, and broadcasts it to all tiles. */ val tileResetVectorNexusNode = BundleBroadcast[UInt]( inputRequiresOutput = true // guard against this being driven but ignored in tileResetVectorIONodes below ) /** tileHartIdIONodes may generate subsystem IOs, one per tile, allowing the parent to assign unique hart ids. * * Or, if such IOs are not configured to exist, tileHartIdNexusNode is used to supply an id to each tile. */ val tileHartIdIONodes: Seq[BundleBridgeSource[UInt]] = p(HasTilesExternalHartIdWidthKey) match { case Some(w) => (0 until nTotalTiles).map { i => val hartIdSource = BundleBridgeSource(() => UInt(w.W)) tileHartIdNodes(i) := hartIdSource hartIdSource } case None => { (0 until nTotalTiles).map { i => tileHartIdNodes(i) :*= tileHartIdNexusNode } Nil } } /** tileResetVectorIONodes may generate subsystem IOs, one per tile, allowing the parent to assign unique reset vectors. * * Or, if such IOs are not configured to exist, tileResetVectorNexusNode is used to supply a single reset vector to every tile. */ val tileResetVectorIONodes: Seq[BundleBridgeSource[UInt]] = p(HasTilesExternalResetVectorKey) match { case true => (0 until nTotalTiles).map { i => val resetVectorSource = BundleBridgeSource[UInt]() tileResetVectorNodes(i) := resetVectorSource resetVectorSource } case false => { (0 until nTotalTiles).map { i => tileResetVectorNodes(i) :*= tileResetVectorNexusNode } Nil } } } /** These are sinks of notifications that are driven out from the tile. * * They need to be instantiated before tiles are attached to the subsystem containing them. */ trait HasTileNotificationSinks { this: LazyModule => val tileHaltXbarNode = IntXbar() val tileHaltSinkNode = IntSinkNode(IntSinkPortSimple()) tileHaltSinkNode := tileHaltXbarNode val tileWFIXbarNode = IntXbar() val tileWFISinkNode = IntSinkNode(IntSinkPortSimple()) tileWFISinkNode := tileWFIXbarNode val tileCeaseXbarNode = IntXbar() val tileCeaseSinkNode = IntSinkNode(IntSinkPortSimple()) tileCeaseSinkNode := tileCeaseXbarNode } /** Standardized interface by which parameterized tiles can be attached to contexts containing interconnect resources. * * Sub-classes of this trait can optionally override the individual connect functions in order to specialize * their attachment behaviors, but most use cases should be be handled simply by changing the implementation * of the injectNode functions in crossingParams. */ trait CanAttachTile { type TileType <: BaseTile type TileContextType <: DefaultHierarchicalElementContextType def tileParams: InstantiableTileParams[TileType] def crossingParams: HierarchicalElementCrossingParamsLike /** Narrow waist through which all tiles are intended to pass while being instantiated. */ def instantiate(allTileParams: Seq[TileParams], instantiatedTiles: SortedMap[Int, TilePRCIDomain[_]])(implicit p: Parameters): TilePRCIDomain[TileType] = { val clockSinkParams = tileParams.clockSinkParams.copy(name = Some(tileParams.uniqueName)) val tile_prci_domain = LazyModule(new TilePRCIDomain[TileType](clockSinkParams, crossingParams) { self => val element = self.element_reset_domain { LazyModule(tileParams.instantiate(crossingParams, PriorityMuxHartIdFromSeq(allTileParams))) } }) tile_prci_domain } /** A default set of connections that need to occur for most tile types */ def connect(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { connectMasterPorts(domain, context) connectSlavePorts(domain, context) connectInterrupts(domain, context) connectPRC(domain, context) connectOutputNotifications(domain, context) connectInputConstants(domain, context) connectTrace(domain, context) } /** Connect the port where the tile is the master to a TileLink interconnect. */ def connectMasterPorts(domain: TilePRCIDomain[TileType], context: Attachable): Unit = { implicit val p = context.p val dataBus = context.locateTLBusWrapper(crossingParams.master.where) dataBus.coupleFrom(tileParams.baseName) { bus => bus :=* crossingParams.master.injectNode(context) :=* domain.crossMasterPort(crossingParams.crossingType) } } /** Connect the port where the tile is the slave to a TileLink interconnect. */ def connectSlavePorts(domain: TilePRCIDomain[TileType], context: Attachable): Unit = { implicit val p = context.p DisableMonitors { implicit p => val controlBus = context.locateTLBusWrapper(crossingParams.slave.where) controlBus.coupleTo(tileParams.baseName) { bus => domain.crossSlavePort(crossingParams.crossingType) :*= crossingParams.slave.injectNode(context) :*= TLWidthWidget(controlBus.beatBytes) :*= bus } } } /** Connect the various interrupts sent to and and raised by the tile. */ def connectInterrupts(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p // NOTE: The order of calls to := matters! They must match how interrupts // are decoded from tile.intInwardNode inside the tile. For this reason, // we stub out missing interrupts with constant sources here. // 1. Debug interrupt is definitely asynchronous in all cases. domain.element.intInwardNode := domain { IntSyncAsyncCrossingSink(3) } := context.debugNodes(domain.element.tileId) // 2. The CLINT and PLIC output interrupts are synchronous to the CLINT/PLIC respectively, // so might need to be synchronized depending on the Tile's crossing type. // From CLINT: "msip" and "mtip" context.msipDomain { domain.crossIntIn(crossingParams.crossingType, domain.element.intInwardNode) := context.msipNodes(domain.element.tileId) } // From PLIC: "meip" context.meipDomain { domain.crossIntIn(crossingParams.crossingType, domain.element.intInwardNode) := context.meipNodes(domain.element.tileId) } // From PLIC: "seip" (only if supervisor mode is enabled) if (domain.element.tileParams.core.hasSupervisorMode) { context.seipDomain { domain.crossIntIn(crossingParams.crossingType, domain.element.intInwardNode) := context.seipNodes(domain.element.tileId) } } // 3. Local Interrupts ("lip") are required to already be synchronous to the Tile's clock. // (they are connected to domain.element.intInwardNode in a seperate trait) // 4. Interrupts coming out of the tile are sent to the PLIC, // so might need to be synchronized depending on the Tile's crossing type. context.tileToPlicNodes.get(domain.element.tileId).foreach { node => FlipRendering { implicit p => domain.element.intOutwardNode.foreach { out => context.toPlicDomain { node := domain.crossIntOut(crossingParams.crossingType, out) } }} } // 5. Connect NMI inputs to the tile. These inputs are synchronous to the respective core_clock. domain.element.nmiNode.foreach(_ := context.nmiNodes(domain.element.tileId)) } /** Notifications of tile status are connected to be broadcast without needing to be clock-crossed. */ def connectOutputNotifications(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p domain { context.tileHaltXbarNode :=* domain.crossIntOut(NoCrossing, domain.element.haltNode) context.tileWFIXbarNode :=* domain.crossIntOut(NoCrossing, domain.element.wfiNode) context.tileCeaseXbarNode :=* domain.crossIntOut(NoCrossing, domain.element.ceaseNode) } // TODO should context be forced to have a trace sink connected here? // for now this just ensures domain.trace[Core]Node has been crossed without connecting it externally } /** Connect inputs to the tile that are assumed to be constant during normal operation, and so are not clock-crossed. */ def connectInputConstants(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p val tlBusToGetPrefixFrom = context.locateTLBusWrapper(crossingParams.mmioBaseAddressPrefixWhere) domain.element.hartIdNode := context.tileHartIdNodes(domain.element.tileId) domain.element.resetVectorNode := context.tileResetVectorNodes(domain.element.tileId) tlBusToGetPrefixFrom.prefixNode.foreach { domain.element.mmioAddressPrefixNode := _ } } /** Connect power/reset/clock resources. */ def connectPRC(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p val tlBusToGetClockDriverFrom = context.locateTLBusWrapper(crossingParams.master.where) (crossingParams.crossingType match { case _: SynchronousCrossing | _: CreditedCrossing => if (crossingParams.forceSeparateClockReset) { domain.clockNode := tlBusToGetClockDriverFrom.clockNode } else { domain.clockNode := tlBusToGetClockDriverFrom.fixedClockNode } case _: RationalCrossing => domain.clockNode := tlBusToGetClockDriverFrom.clockNode case _: AsynchronousCrossing => { val tileClockGroup = ClockGroup() tileClockGroup := context.allClockGroupsNode domain.clockNode := tileClockGroup } }) domain { domain.element_reset_domain.clockNode := crossingParams.resetCrossingType.injectClockNode := domain.clockNode } } /** Function to handle all trace crossings when tile is instantiated inside domains */ def connectTrace(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p val traceCrossingNode = BundleBridgeBlockDuringReset[TraceBundle]( resetCrossingType = crossingParams.resetCrossingType) context.traceNodes(domain.element.tileId) := traceCrossingNode := domain.element.traceNode val traceCoreCrossingNode = BundleBridgeBlockDuringReset[TraceCoreInterface]( resetCrossingType = crossingParams.resetCrossingType) context.traceCoreNodes(domain.element.tileId) :*= traceCoreCrossingNode := domain.element.traceCoreNode } } case class CloneTileAttachParams( sourceTileId: Int, cloneParams: CanAttachTile ) extends CanAttachTile { type TileType = cloneParams.TileType type TileContextType = cloneParams.TileContextType def tileParams = cloneParams.tileParams def crossingParams = cloneParams.crossingParams override def instantiate(allTileParams: Seq[TileParams], instantiatedTiles: SortedMap[Int, TilePRCIDomain[_]])(implicit p: Parameters): TilePRCIDomain[TileType] = { require(instantiatedTiles.contains(sourceTileId)) val clockSinkParams = tileParams.clockSinkParams.copy(name = Some(tileParams.uniqueName)) val tile_prci_domain = CloneLazyModule( new TilePRCIDomain[TileType](clockSinkParams, crossingParams) { self => val element = self.element_reset_domain { LazyModule(tileParams.instantiate(crossingParams, PriorityMuxHartIdFromSeq(allTileParams))) } }, instantiatedTiles(sourceTileId).asInstanceOf[TilePRCIDomain[TileType]] ) tile_prci_domain } } File ClockGroup.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.prci import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.lazymodule._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.resources.FixedClockResource case class ClockGroupingNode(groupName: String)(implicit valName: ValName) extends MixedNexusNode(ClockGroupImp, ClockImp)( dFn = { _ => ClockSourceParameters() }, uFn = { seq => ClockGroupSinkParameters(name = groupName, members = seq) }) { override def circuitIdentity = outputs.size == 1 } class ClockGroup(groupName: String)(implicit p: Parameters) extends LazyModule { val node = ClockGroupingNode(groupName) lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { val (in, _) = node.in(0) val (out, _) = node.out.unzip require (node.in.size == 1) require (in.member.size == out.size) (in.member.data zip out) foreach { case (i, o) => o := i } } } object ClockGroup { def apply()(implicit p: Parameters, valName: ValName) = LazyModule(new ClockGroup(valName.name)).node } case class ClockGroupAggregateNode(groupName: String)(implicit valName: ValName) extends NexusNode(ClockGroupImp)( dFn = { _ => ClockGroupSourceParameters() }, uFn = { seq => ClockGroupSinkParameters(name = groupName, members = seq.flatMap(_.members))}) { override def circuitIdentity = outputs.size == 1 } class ClockGroupAggregator(groupName: String)(implicit p: Parameters) extends LazyModule { val node = ClockGroupAggregateNode(groupName) override lazy val desiredName = s"ClockGroupAggregator_$groupName" lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { val (in, _) = node.in.unzip val (out, _) = node.out.unzip val outputs = out.flatMap(_.member.data) require (node.in.size == 1, s"Aggregator for groupName: ${groupName} had ${node.in.size} inward edges instead of 1") require (in.head.member.size == outputs.size) in.head.member.data.zip(outputs).foreach { case (i, o) => o := i } } } object ClockGroupAggregator { def apply()(implicit p: Parameters, valName: ValName) = LazyModule(new ClockGroupAggregator(valName.name)).node } class SimpleClockGroupSource(numSources: Int = 1)(implicit p: Parameters) extends LazyModule { val node = ClockGroupSourceNode(List.fill(numSources) { ClockGroupSourceParameters() }) lazy val module = new Impl class Impl extends LazyModuleImp(this) { val (out, _) = node.out.unzip out.map { out: ClockGroupBundle => out.member.data.foreach { o => o.clock := clock; o.reset := reset } } } } object SimpleClockGroupSource { def apply(num: Int = 1)(implicit p: Parameters, valName: ValName) = LazyModule(new SimpleClockGroupSource(num)).node } case class FixedClockBroadcastNode(fixedClockOpt: Option[ClockParameters])(implicit valName: ValName) extends NexusNode(ClockImp)( dFn = { seq => fixedClockOpt.map(_ => ClockSourceParameters(give = fixedClockOpt)).orElse(seq.headOption).getOrElse(ClockSourceParameters()) }, uFn = { seq => fixedClockOpt.map(_ => ClockSinkParameters(take = fixedClockOpt)).orElse(seq.headOption).getOrElse(ClockSinkParameters()) }, inputRequiresOutput = false) { def fixedClockResources(name: String, prefix: String = "soc/"): Seq[Option[FixedClockResource]] = Seq(fixedClockOpt.map(t => new FixedClockResource(name, t.freqMHz, prefix))) } class FixedClockBroadcast(fixedClockOpt: Option[ClockParameters])(implicit p: Parameters) extends LazyModule { val node = new FixedClockBroadcastNode(fixedClockOpt) { override def circuitIdentity = outputs.size == 1 } lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { val (in, _) = node.in(0) val (out, _) = node.out.unzip override def desiredName = s"FixedClockBroadcast_${out.size}" require (node.in.size == 1, "FixedClockBroadcast can only broadcast a single clock") out.foreach { _ := in } } } object FixedClockBroadcast { def apply(fixedClockOpt: Option[ClockParameters] = None)(implicit p: Parameters, valName: ValName) = LazyModule(new FixedClockBroadcast(fixedClockOpt)).node } case class PRCIClockGroupNode()(implicit valName: ValName) extends NexusNode(ClockGroupImp)( dFn = { _ => ClockGroupSourceParameters() }, uFn = { _ => ClockGroupSinkParameters("prci", Nil) }, outputRequiresInput = false) File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File MixedNode.scala: package org.chipsalliance.diplomacy.nodes import chisel3.{Data, DontCare, Wire} import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.{Field, Parameters} import org.chipsalliance.diplomacy.ValName import org.chipsalliance.diplomacy.sourceLine /** One side metadata of a [[Dangle]]. * * Describes one side of an edge going into or out of a [[BaseNode]]. * * @param serial * the global [[BaseNode.serial]] number of the [[BaseNode]] that this [[HalfEdge]] connects to. * @param index * the `index` in the [[BaseNode]]'s input or output port list that this [[HalfEdge]] belongs to. */ case class HalfEdge(serial: Int, index: Int) extends Ordered[HalfEdge] { import scala.math.Ordered.orderingToOrdered def compare(that: HalfEdge): Int = HalfEdge.unapply(this).compare(HalfEdge.unapply(that)) } /** [[Dangle]] captures the `IO` information of a [[LazyModule]] and which two [[BaseNode]]s the [[Edges]]/[[Bundle]] * connects. * * [[Dangle]]s are generated by [[BaseNode.instantiate]] using [[MixedNode.danglesOut]] and [[MixedNode.danglesIn]] , * [[LazyModuleImp.instantiate]] connects those that go to internal or explicit IO connections in a [[LazyModule]]. * * @param source * the source [[HalfEdge]] of this [[Dangle]], which captures the source [[BaseNode]] and the port `index` within * that [[BaseNode]]. * @param sink * sink [[HalfEdge]] of this [[Dangle]], which captures the sink [[BaseNode]] and the port `index` within that * [[BaseNode]]. * @param flipped * flip or not in [[AutoBundle.makeElements]]. If true this corresponds to `danglesOut`, if false it corresponds to * `danglesIn`. * @param dataOpt * actual [[Data]] for the hardware connection. Can be empty if this belongs to a cloned module */ case class Dangle(source: HalfEdge, sink: HalfEdge, flipped: Boolean, name: String, dataOpt: Option[Data]) { def data = dataOpt.get } /** [[Edges]] is a collection of parameters describing the functionality and connection for an interface, which is often * derived from the interconnection protocol and can inform the parameterization of the hardware bundles that actually * implement the protocol. */ case class Edges[EI, EO](in: Seq[EI], out: Seq[EO]) /** A field available in [[Parameters]] used to determine whether [[InwardNodeImp.monitor]] will be called. */ case object MonitorsEnabled extends Field[Boolean](true) /** When rendering the edge in a graphical format, flip the order in which the edges' source and sink are presented. * * For example, when rendering graphML, yEd by default tries to put the source node vertically above the sink node, but * [[RenderFlipped]] inverts this relationship. When a particular [[LazyModule]] contains both source nodes and sink * nodes, flipping the rendering of one node's edge will usual produce a more concise visual layout for the * [[LazyModule]]. */ case object RenderFlipped extends Field[Boolean](false) /** The sealed node class in the package, all node are derived from it. * * @param inner * Sink interface implementation. * @param outer * Source interface implementation. * @param valName * val name of this node. * @tparam DI * Downward-flowing parameters received on the inner side of the node. It is usually a brunch of parameters * describing the protocol parameters from a source. For an [[InwardNode]], it is determined by the connected * [[OutwardNode]]. Since it can be connected to multiple sources, this parameter is always a Seq of source port * parameters. * @tparam UI * Upward-flowing parameters generated by the inner side of the node. It is usually a brunch of parameters describing * the protocol parameters of a sink. For an [[InwardNode]], it is determined itself. * @tparam EI * Edge Parameters describing a connection on the inner side of the node. It is usually a brunch of transfers * specified for a sink according to protocol. * @tparam BI * Bundle type used when connecting to the inner side of the node. It is a hardware interface of this sink interface. * It should extends from [[chisel3.Data]], which represents the real hardware. * @tparam DO * Downward-flowing parameters generated on the outer side of the node. It is usually a brunch of parameters * describing the protocol parameters of a source. For an [[OutwardNode]], it is determined itself. * @tparam UO * Upward-flowing parameters received by the outer side of the node. It is usually a brunch of parameters describing * the protocol parameters from a sink. For an [[OutwardNode]], it is determined by the connected [[InwardNode]]. * Since it can be connected to multiple sinks, this parameter is always a Seq of sink port parameters. * @tparam EO * Edge Parameters describing a connection on the outer side of the node. It is usually a brunch of transfers * specified for a source according to protocol. * @tparam BO * Bundle type used when connecting to the outer side of the node. It is a hardware interface of this source * interface. It should extends from [[chisel3.Data]], which represents the real hardware. * * @note * Call Graph of [[MixedNode]] * - line `─`: source is process by a function and generate pass to others * - Arrow `β†’`: target of arrow is generated by source * * {{{ * (from the other node) * β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€[[InwardNode.uiParams]]─────────────┐ * ↓ β”‚ * (binding node when elaboration) [[OutwardNode.uoParams]]────────────────────────[[MixedNode.mapParamsU]]→──────────┐ β”‚ * [[InwardNode.accPI]] β”‚ β”‚ β”‚ * β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ ↓ β”‚ * ↓ β”‚ β”‚ β”‚ * (immobilize after elaboration) (inward port from [[OutwardNode]]) β”‚ ↓ β”‚ * [[InwardNode.iBindings]]──┐ [[MixedNode.iDirectPorts]]────────────────────→[[MixedNode.iPorts]] [[InwardNode.uiParams]] β”‚ * β”‚ β”‚ ↑ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[OutwardNode.doParams]] β”‚ β”‚ * β”‚ β”‚ β”‚ (from the other node) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ └────────┬─────────────── β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ (from the other node) β”‚ ↓ β”‚ * β”‚ └───[[OutwardNode.oPortMapping]] [[OutwardNode.oStar]] β”‚ [[MixedNode.edgesIn]]───┐ β”‚ * β”‚ ↑ ↑ β”‚ β”‚ ↓ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ [[MixedNode.in]] β”‚ * β”‚ β”‚ β”‚ β”‚ ↓ ↑ β”‚ * β”‚ (solve star connection) β”‚ β”‚ β”‚ [[MixedNode.bundleIn]]β”€β”€β”˜ β”‚ * β”œβ”€β”€β”€[[MixedNode.resolveStar]]→─┼────────────────────────────── └────────────────────────────────────┐ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.bundleOut]]─┐ β”‚ β”‚ * β”‚ β”‚ β”‚ ↑ ↓ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.out]] β”‚ β”‚ * β”‚ ↓ ↓ β”‚ ↑ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€[[InwardNode.iPortMapping]] [[InwardNode.iStar]] [[MixedNode.edgesOut]]β”€β”€β”˜ β”‚ β”‚ * β”‚ β”‚ (from the other node) ↑ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.outer.edgeO]] β”‚ β”‚ * β”‚ β”‚ β”‚ (based on protocol) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * (immobilize after elaboration)β”‚ ↓ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.oBindings]]β”€β”˜ [[MixedNode.oDirectPorts]]───→[[MixedNode.oPorts]] [[OutwardNode.doParams]] β”‚ β”‚ * ↑ (inward port from [[OutwardNode]]) β”‚ β”‚ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.accPO]] β”‚ ↓ β”‚ β”‚ β”‚ * (binding node when elaboration) β”‚ [[InwardNode.diParams]]─────→[[MixedNode.mapParamsD]]β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ β”‚ * β”‚ ↑ β”‚ β”‚ * β”‚ β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ * β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ * }}} */ abstract class MixedNode[DI, UI, EI, BI <: Data, DO, UO, EO, BO <: Data]( val inner: InwardNodeImp[DI, UI, EI, BI], val outer: OutwardNodeImp[DO, UO, EO, BO] )( implicit valName: ValName) extends BaseNode with NodeHandle[DI, UI, EI, BI, DO, UO, EO, BO] with InwardNode[DI, UI, BI] with OutwardNode[DO, UO, BO] { // Generate a [[NodeHandle]] with inward and outward node are both this node. val inward = this val outward = this /** Debug info of nodes binding. */ def bindingInfo: String = s"""$iBindingInfo |$oBindingInfo |""".stripMargin /** Debug info of ports connecting. */ def connectedPortsInfo: String = s"""${oPorts.size} outward ports connected: [${oPorts.map(_._2.name).mkString(",")}] |${iPorts.size} inward ports connected: [${iPorts.map(_._2.name).mkString(",")}] |""".stripMargin /** Debug info of parameters propagations. */ def parametersInfo: String = s"""${doParams.size} downstream outward parameters: [${doParams.mkString(",")}] |${uoParams.size} upstream outward parameters: [${uoParams.mkString(",")}] |${diParams.size} downstream inward parameters: [${diParams.mkString(",")}] |${uiParams.size} upstream inward parameters: [${uiParams.mkString(",")}] |""".stripMargin /** For a given node, converts [[OutwardNode.accPO]] and [[InwardNode.accPI]] to [[MixedNode.oPortMapping]] and * [[MixedNode.iPortMapping]]. * * Given counts of known inward and outward binding and inward and outward star bindings, return the resolved inward * stars and outward stars. * * This method will also validate the arguments and throw a runtime error if the values are unsuitable for this type * of node. * * @param iKnown * Number of known-size ([[BIND_ONCE]]) input bindings. * @param oKnown * Number of known-size ([[BIND_ONCE]]) output bindings. * @param iStar * Number of unknown size ([[BIND_STAR]]) input bindings. * @param oStar * Number of unknown size ([[BIND_STAR]]) output bindings. * @return * A Tuple of the resolved number of input and output connections. */ protected[diplomacy] def resolveStar(iKnown: Int, oKnown: Int, iStar: Int, oStar: Int): (Int, Int) /** Function to generate downward-flowing outward params from the downward-flowing input params and the current output * ports. * * @param n * The size of the output sequence to generate. * @param p * Sequence of downward-flowing input parameters of this node. * @return * A `n`-sized sequence of downward-flowing output edge parameters. */ protected[diplomacy] def mapParamsD(n: Int, p: Seq[DI]): Seq[DO] /** Function to generate upward-flowing input parameters from the upward-flowing output parameters [[uiParams]]. * * @param n * Size of the output sequence. * @param p * Upward-flowing output edge parameters. * @return * A n-sized sequence of upward-flowing input edge parameters. */ protected[diplomacy] def mapParamsU(n: Int, p: Seq[UO]): Seq[UI] /** @return * The sink cardinality of the node, the number of outputs bound with [[BIND_QUERY]] summed with inputs bound with * [[BIND_STAR]]. */ protected[diplomacy] lazy val sinkCard: Int = oBindings.count(_._3 == BIND_QUERY) + iBindings.count(_._3 == BIND_STAR) /** @return * The source cardinality of this node, the number of inputs bound with [[BIND_QUERY]] summed with the number of * output bindings bound with [[BIND_STAR]]. */ protected[diplomacy] lazy val sourceCard: Int = iBindings.count(_._3 == BIND_QUERY) + oBindings.count(_._3 == BIND_STAR) /** @return list of nodes involved in flex bindings with this node. */ protected[diplomacy] lazy val flexes: Seq[BaseNode] = oBindings.filter(_._3 == BIND_FLEX).map(_._2) ++ iBindings.filter(_._3 == BIND_FLEX).map(_._2) /** Resolves the flex to be either source or sink and returns the offset where the [[BIND_STAR]] operators begin * greedily taking up the remaining connections. * * @return * A value >= 0 if it is sink cardinality, a negative value for source cardinality. The magnitude of the return * value is not relevant. */ protected[diplomacy] lazy val flexOffset: Int = { /** Recursively performs a depth-first search of the [[flexes]], [[BaseNode]]s connected to this node with flex * operators. The algorithm bottoms out when we either get to a node we have already visited or when we get to a * connection that is not a flex and can set the direction for us. Otherwise, recurse by visiting the `flexes` of * each node in the current set and decide whether they should be added to the set or not. * * @return * the mapping of [[BaseNode]] indexed by their serial numbers. */ def DFS(v: BaseNode, visited: Map[Int, BaseNode]): Map[Int, BaseNode] = { if (visited.contains(v.serial) || !v.flexibleArityDirection) { visited } else { v.flexes.foldLeft(visited + (v.serial -> v))((sum, n) => DFS(n, sum)) } } /** Determine which [[BaseNode]] are involved in resolving the flex connections to/from this node. * * @example * {{{ * a :*=* b :*=* c * d :*=* b * e :*=* f * }}} * * `flexSet` for `a`, `b`, `c`, or `d` will be `Set(a, b, c, d)` `flexSet` for `e` or `f` will be `Set(e,f)` */ val flexSet = DFS(this, Map()).values /** The total number of :*= operators where we're on the left. */ val allSink = flexSet.map(_.sinkCard).sum /** The total number of :=* operators used when we're on the right. */ val allSource = flexSet.map(_.sourceCard).sum require( allSink == 0 || allSource == 0, s"The nodes ${flexSet.map(_.name)} which are inter-connected by :*=* have ${allSink} :*= operators and ${allSource} :=* operators connected to them, making it impossible to determine cardinality inference direction." ) allSink - allSource } /** @return A value >= 0 if it is sink cardinality, a negative value for source cardinality. */ protected[diplomacy] def edgeArityDirection(n: BaseNode): Int = { if (flexibleArityDirection) flexOffset else if (n.flexibleArityDirection) n.flexOffset else 0 } /** For a node which is connected between two nodes, select the one that will influence the direction of the flex * resolution. */ protected[diplomacy] def edgeAritySelect(n: BaseNode, l: => Int, r: => Int): Int = { val dir = edgeArityDirection(n) if (dir < 0) l else if (dir > 0) r else 1 } /** Ensure that the same node is not visited twice in resolving `:*=`, etc operators. */ private var starCycleGuard = false /** Resolve all the star operators into concrete indicies. As connections are being made, some may be "star" * connections which need to be resolved. In some way to determine how many actual edges they correspond to. We also * need to build up the ranges of edges which correspond to each binding operator, so that We can apply the correct * edge parameters and later build up correct bundle connections. * * [[oPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that oPort (binding * operator). [[iPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that iPort * (binding operator). [[oStar]]: `Int` the value to return for this node `N` for any `N :*= foo` or `N :*=* foo :*= * bar` [[iStar]]: `Int` the value to return for this node `N` for any `foo :=* N` or `bar :=* foo :*=* N` */ protected[diplomacy] lazy val ( oPortMapping: Seq[(Int, Int)], iPortMapping: Seq[(Int, Int)], oStar: Int, iStar: Int ) = { try { if (starCycleGuard) throw StarCycleException() starCycleGuard = true // For a given node N... // Number of foo :=* N // + Number of bar :=* foo :*=* N val oStars = oBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) < 0) } // Number of N :*= foo // + Number of N :*=* foo :*= bar val iStars = iBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) > 0) } // 1 for foo := N // + bar.iStar for bar :*= foo :*=* N // + foo.iStar for foo :*= N // + 0 for foo :=* N val oKnown = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, 0, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => 0 } }.sum // 1 for N := foo // + bar.oStar for N :*=* foo :=* bar // + foo.oStar for N :=* foo // + 0 for N :*= foo val iKnown = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, 0) case BIND_QUERY => n.oStar case BIND_STAR => 0 } }.sum // Resolve star depends on the node subclass to implement the algorithm for this. val (iStar, oStar) = resolveStar(iKnown, oKnown, iStars, oStars) // Cumulative list of resolved outward binding range starting points val oSum = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, oStar, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => oStar } }.scanLeft(0)(_ + _) // Cumulative list of resolved inward binding range starting points val iSum = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, iStar) case BIND_QUERY => n.oStar case BIND_STAR => iStar } }.scanLeft(0)(_ + _) // Create ranges for each binding based on the running sums and return // those along with resolved values for the star operations. (oSum.init.zip(oSum.tail), iSum.init.zip(iSum.tail), oStar, iStar) } catch { case c: StarCycleException => throw c.copy(loop = context +: c.loop) } } /** Sequence of inward ports. * * This should be called after all star bindings are resolved. * * Each element is: `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. * `n` Instance of inward node. `p` View of [[Parameters]] where this connection was made. `s` Source info where this * connection was made in the source code. */ protected[diplomacy] lazy val oDirectPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oBindings.flatMap { case (i, n, _, p, s) => // for each binding operator in this node, look at what it connects to val (start, end) = n.iPortMapping(i) (start until end).map { j => (j, n, p, s) } } /** Sequence of outward ports. * * This should be called after all star bindings are resolved. * * `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. `n` Instance of * outward node. `p` View of [[Parameters]] where this connection was made. `s` [[SourceInfo]] where this connection * was made in the source code. */ protected[diplomacy] lazy val iDirectPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iBindings.flatMap { case (i, n, _, p, s) => // query this port index range of this node in the other side of node. val (start, end) = n.oPortMapping(i) (start until end).map { j => (j, n, p, s) } } // Ephemeral nodes ( which have non-None iForward/oForward) have in_degree = out_degree // Thus, there must exist an Eulerian path and the below algorithms terminate @scala.annotation.tailrec private def oTrace( tuple: (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) ): (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.iForward(i) match { case None => (i, n, p, s) case Some((j, m)) => oTrace((j, m, p, s)) } } @scala.annotation.tailrec private def iTrace( tuple: (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) ): (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.oForward(i) match { case None => (i, n, p, s) case Some((j, m)) => iTrace((j, m, p, s)) } } /** Final output ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - Numeric index of this binding in the [[InwardNode]] on the other end. * - [[InwardNode]] on the other end of this binding. * - A view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val oPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oDirectPorts.map(oTrace) /** Final input ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - numeric index of this binding in [[OutwardNode]] on the other end. * - [[OutwardNode]] on the other end of this binding. * - a view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val iPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iDirectPorts.map(iTrace) private var oParamsCycleGuard = false protected[diplomacy] lazy val diParams: Seq[DI] = iPorts.map { case (i, n, _, _) => n.doParams(i) } protected[diplomacy] lazy val doParams: Seq[DO] = { try { if (oParamsCycleGuard) throw DownwardCycleException() oParamsCycleGuard = true val o = mapParamsD(oPorts.size, diParams) require( o.size == oPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of outward ports should equal the number of produced outward parameters. |$context |$connectedPortsInfo |Downstreamed inward parameters: [${diParams.mkString(",")}] |Produced outward parameters: [${o.mkString(",")}] |""".stripMargin ) o.map(outer.mixO(_, this)) } catch { case c: DownwardCycleException => throw c.copy(loop = context +: c.loop) } } private var iParamsCycleGuard = false protected[diplomacy] lazy val uoParams: Seq[UO] = oPorts.map { case (o, n, _, _) => n.uiParams(o) } protected[diplomacy] lazy val uiParams: Seq[UI] = { try { if (iParamsCycleGuard) throw UpwardCycleException() iParamsCycleGuard = true val i = mapParamsU(iPorts.size, uoParams) require( i.size == iPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of inward ports should equal the number of produced inward parameters. |$context |$connectedPortsInfo |Upstreamed outward parameters: [${uoParams.mkString(",")}] |Produced inward parameters: [${i.mkString(",")}] |""".stripMargin ) i.map(inner.mixI(_, this)) } catch { case c: UpwardCycleException => throw c.copy(loop = context +: c.loop) } } /** Outward edge parameters. */ protected[diplomacy] lazy val edgesOut: Seq[EO] = (oPorts.zip(doParams)).map { case ((i, n, p, s), o) => outer.edgeO(o, n.uiParams(i), p, s) } /** Inward edge parameters. */ protected[diplomacy] lazy val edgesIn: Seq[EI] = (iPorts.zip(uiParams)).map { case ((o, n, p, s), i) => inner.edgeI(n.doParams(o), i, p, s) } /** A tuple of the input edge parameters and output edge parameters for the edges bound to this node. * * If you need to access to the edges of a foreign Node, use this method (in/out create bundles). */ lazy val edges: Edges[EI, EO] = Edges(edgesIn, edgesOut) /** Create actual Wires corresponding to the Bundles parameterized by the outward edges of this node. */ protected[diplomacy] lazy val bundleOut: Seq[BO] = edgesOut.map { e => val x = Wire(outer.bundleO(e)).suggestName(s"${valName.value}Out") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } /** Create actual Wires corresponding to the Bundles parameterized by the inward edges of this node. */ protected[diplomacy] lazy val bundleIn: Seq[BI] = edgesIn.map { e => val x = Wire(inner.bundleI(e)).suggestName(s"${valName.value}In") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } private def emptyDanglesOut: Seq[Dangle] = oPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(serial, i), sink = HalfEdge(n.serial, j), flipped = false, name = wirePrefix + "out", dataOpt = None ) } private def emptyDanglesIn: Seq[Dangle] = iPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(n.serial, j), sink = HalfEdge(serial, i), flipped = true, name = wirePrefix + "in", dataOpt = None ) } /** Create the [[Dangle]]s which describe the connections from this node output to other nodes inputs. */ protected[diplomacy] def danglesOut: Seq[Dangle] = emptyDanglesOut.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleOut(i))) } /** Create the [[Dangle]]s which describe the connections from this node input from other nodes outputs. */ protected[diplomacy] def danglesIn: Seq[Dangle] = emptyDanglesIn.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleIn(i))) } private[diplomacy] var instantiated = false /** Gather Bundle and edge parameters of outward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def out: Seq[(BO, EO)] = { require( instantiated, s"$name.out should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleOut.zip(edgesOut) } /** Gather Bundle and edge parameters of inward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def in: Seq[(BI, EI)] = { require( instantiated, s"$name.in should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleIn.zip(edgesIn) } /** Actually instantiate this node during [[LazyModuleImp]] evaluation. Mark that it's safe to use the Bundle wires, * instantiate monitors on all input ports if appropriate, and return all the dangles of this node. */ protected[diplomacy] def instantiate(): Seq[Dangle] = { instantiated = true if (!circuitIdentity) { (iPorts.zip(in)).foreach { case ((_, _, p, _), (b, e)) => if (p(MonitorsEnabled)) inner.monitor(b, e) } } danglesOut ++ danglesIn } protected[diplomacy] def cloneDangles(): Seq[Dangle] = emptyDanglesOut ++ emptyDanglesIn /** Connects the outward part of a node with the inward part of this node. */ protected[diplomacy] def bind( h: OutwardNode[DI, UI, BI], binding: NodeBinding )( implicit p: Parameters, sourceInfo: SourceInfo ): Unit = { val x = this // x := y val y = h sourceLine(sourceInfo, " at ", "") val i = x.iPushed val o = y.oPushed y.oPush( i, x, binding match { case BIND_ONCE => BIND_ONCE case BIND_FLEX => BIND_FLEX case BIND_STAR => BIND_QUERY case BIND_QUERY => BIND_STAR } ) x.iPush(o, y, binding) } /* Metadata for printing the node graph. */ def inputs: Seq[(OutwardNode[DI, UI, BI], RenderedEdge)] = (iPorts.zip(edgesIn)).map { case ((_, n, p, _), e) => val re = inner.render(e) (n, re.copy(flipped = re.flipped != p(RenderFlipped))) } /** Metadata for printing the node graph */ def outputs: Seq[(InwardNode[DO, UO, BO], RenderedEdge)] = oPorts.map { case (i, n, _, _) => (n, n.inputs(i)._2) } }
module TilePRCIDomain( // @[ClockDomain.scala:14:9] output auto_intsink_out_1_0, // @[LazyModuleImp.scala:107:25] input auto_intsink_in_sync_0, // @[LazyModuleImp.scala:107:25] output auto_element_reset_domain_rockettile_trace_source_out_insns_0_valid, // @[LazyModuleImp.scala:107:25] output [39:0] auto_element_reset_domain_rockettile_trace_source_out_insns_0_iaddr, // @[LazyModuleImp.scala:107:25] output [31:0] auto_element_reset_domain_rockettile_trace_source_out_insns_0_insn, // @[LazyModuleImp.scala:107:25] output [2:0] auto_element_reset_domain_rockettile_trace_source_out_insns_0_priv, // @[LazyModuleImp.scala:107:25] output auto_element_reset_domain_rockettile_trace_source_out_insns_0_exception, // @[LazyModuleImp.scala:107:25] output auto_element_reset_domain_rockettile_trace_source_out_insns_0_interrupt, // @[LazyModuleImp.scala:107:25] output [63:0] auto_element_reset_domain_rockettile_trace_source_out_insns_0_cause, // @[LazyModuleImp.scala:107:25] output [39:0] auto_element_reset_domain_rockettile_trace_source_out_insns_0_tval, // @[LazyModuleImp.scala:107:25] output [63:0] auto_element_reset_domain_rockettile_trace_source_out_time, // @[LazyModuleImp.scala:107:25] input auto_element_reset_domain_rockettile_hartid_in, // @[LazyModuleImp.scala:107:25] input auto_int_in_clock_xing_in_2_sync_0, // @[LazyModuleImp.scala:107:25] input auto_int_in_clock_xing_in_1_sync_0, // @[LazyModuleImp.scala:107:25] input auto_int_in_clock_xing_in_0_sync_0, // @[LazyModuleImp.scala:107:25] input auto_int_in_clock_xing_in_0_sync_1, // @[LazyModuleImp.scala:107:25] input auto_tl_master_clock_xing_out_a_ready, // @[LazyModuleImp.scala:107:25] output auto_tl_master_clock_xing_out_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_tl_master_clock_xing_out_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_tl_master_clock_xing_out_a_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_tl_master_clock_xing_out_a_bits_size, // @[LazyModuleImp.scala:107:25] output [5:0] auto_tl_master_clock_xing_out_a_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_tl_master_clock_xing_out_a_bits_address, // @[LazyModuleImp.scala:107:25] output [15:0] auto_tl_master_clock_xing_out_a_bits_mask, // @[LazyModuleImp.scala:107:25] output [127:0] auto_tl_master_clock_xing_out_a_bits_data, // @[LazyModuleImp.scala:107:25] output auto_tl_master_clock_xing_out_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_tl_master_clock_xing_out_b_ready, // @[LazyModuleImp.scala:107:25] input auto_tl_master_clock_xing_out_b_valid, // @[LazyModuleImp.scala:107:25] input [1:0] auto_tl_master_clock_xing_out_b_bits_param, // @[LazyModuleImp.scala:107:25] input [31:0] auto_tl_master_clock_xing_out_b_bits_address, // @[LazyModuleImp.scala:107:25] input auto_tl_master_clock_xing_out_c_ready, // @[LazyModuleImp.scala:107:25] output auto_tl_master_clock_xing_out_c_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_tl_master_clock_xing_out_c_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_tl_master_clock_xing_out_c_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_tl_master_clock_xing_out_c_bits_size, // @[LazyModuleImp.scala:107:25] output [5:0] auto_tl_master_clock_xing_out_c_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_tl_master_clock_xing_out_c_bits_address, // @[LazyModuleImp.scala:107:25] output [127:0] auto_tl_master_clock_xing_out_c_bits_data, // @[LazyModuleImp.scala:107:25] output auto_tl_master_clock_xing_out_c_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_tl_master_clock_xing_out_d_ready, // @[LazyModuleImp.scala:107:25] input auto_tl_master_clock_xing_out_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_tl_master_clock_xing_out_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_tl_master_clock_xing_out_d_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_tl_master_clock_xing_out_d_bits_size, // @[LazyModuleImp.scala:107:25] input [5:0] auto_tl_master_clock_xing_out_d_bits_source, // @[LazyModuleImp.scala:107:25] input [3:0] auto_tl_master_clock_xing_out_d_bits_sink, // @[LazyModuleImp.scala:107:25] input auto_tl_master_clock_xing_out_d_bits_denied, // @[LazyModuleImp.scala:107:25] input [127:0] auto_tl_master_clock_xing_out_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_tl_master_clock_xing_out_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_tl_master_clock_xing_out_e_valid, // @[LazyModuleImp.scala:107:25] output [3:0] auto_tl_master_clock_xing_out_e_bits_sink, // @[LazyModuleImp.scala:107:25] input auto_tap_clock_in_clock, // @[LazyModuleImp.scala:107:25] input auto_tap_clock_in_reset // @[LazyModuleImp.scala:107:25] ); wire clockNode_auto_anon_in_reset; // @[ClockGroup.scala:104:9] wire clockNode_auto_anon_in_clock; // @[ClockGroup.scala:104:9] wire element_reset_domain_auto_clock_in_reset; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_clock_in_clock; // @[ClockDomain.scala:14:9] wire auto_intsink_in_sync_0_0 = auto_intsink_in_sync_0; // @[ClockDomain.scala:14:9] wire auto_element_reset_domain_rockettile_hartid_in_0 = auto_element_reset_domain_rockettile_hartid_in; // @[ClockDomain.scala:14:9] wire auto_int_in_clock_xing_in_2_sync_0_0 = auto_int_in_clock_xing_in_2_sync_0; // @[ClockDomain.scala:14:9] wire auto_int_in_clock_xing_in_1_sync_0_0 = auto_int_in_clock_xing_in_1_sync_0; // @[ClockDomain.scala:14:9] wire auto_int_in_clock_xing_in_0_sync_0_0 = auto_int_in_clock_xing_in_0_sync_0; // @[ClockDomain.scala:14:9] wire auto_int_in_clock_xing_in_0_sync_1_0 = auto_int_in_clock_xing_in_0_sync_1; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_a_ready_0 = auto_tl_master_clock_xing_out_a_ready; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_b_valid_0 = auto_tl_master_clock_xing_out_b_valid; // @[ClockDomain.scala:14:9] wire [1:0] auto_tl_master_clock_xing_out_b_bits_param_0 = auto_tl_master_clock_xing_out_b_bits_param; // @[ClockDomain.scala:14:9] wire [31:0] auto_tl_master_clock_xing_out_b_bits_address_0 = auto_tl_master_clock_xing_out_b_bits_address; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_c_ready_0 = auto_tl_master_clock_xing_out_c_ready; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_d_valid_0 = auto_tl_master_clock_xing_out_d_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_tl_master_clock_xing_out_d_bits_opcode_0 = auto_tl_master_clock_xing_out_d_bits_opcode; // @[ClockDomain.scala:14:9] wire [1:0] auto_tl_master_clock_xing_out_d_bits_param_0 = auto_tl_master_clock_xing_out_d_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_tl_master_clock_xing_out_d_bits_size_0 = auto_tl_master_clock_xing_out_d_bits_size; // @[ClockDomain.scala:14:9] wire [5:0] auto_tl_master_clock_xing_out_d_bits_source_0 = auto_tl_master_clock_xing_out_d_bits_source; // @[ClockDomain.scala:14:9] wire [3:0] auto_tl_master_clock_xing_out_d_bits_sink_0 = auto_tl_master_clock_xing_out_d_bits_sink; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_d_bits_denied_0 = auto_tl_master_clock_xing_out_d_bits_denied; // @[ClockDomain.scala:14:9] wire [127:0] auto_tl_master_clock_xing_out_d_bits_data_0 = auto_tl_master_clock_xing_out_d_bits_data; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_d_bits_corrupt_0 = auto_tl_master_clock_xing_out_d_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_tap_clock_in_clock_0 = auto_tap_clock_in_clock; // @[ClockDomain.scala:14:9] wire auto_tap_clock_in_reset_0 = auto_tap_clock_in_reset; // @[ClockDomain.scala:14:9] wire [31:0] auto_element_reset_domain_rockettile_trace_core_source_out_group_0_iaddr = 32'h0; // @[ClockDomain.scala:14:9] wire [31:0] auto_element_reset_domain_rockettile_trace_core_source_out_tval = 32'h0; // @[ClockDomain.scala:14:9] wire [31:0] auto_element_reset_domain_rockettile_trace_core_source_out_cause = 32'h0; // @[ClockDomain.scala:14:9] wire [31:0] element_reset_domain_auto_rockettile_trace_core_source_out_group_0_iaddr = 32'h0; // @[ClockDomain.scala:14:9] wire [31:0] element_reset_domain_auto_rockettile_trace_core_source_out_tval = 32'h0; // @[ClockDomain.scala:14:9] wire [31:0] element_reset_domain_auto_rockettile_trace_core_source_out_cause = 32'h0; // @[ClockDomain.scala:14:9] wire [3:0] auto_element_reset_domain_rockettile_trace_core_source_out_group_0_itype = 4'h0; // @[ClockDomain.scala:14:9] wire [3:0] auto_element_reset_domain_rockettile_trace_core_source_out_priv = 4'h0; // @[ClockDomain.scala:14:9] wire [3:0] element_reset_domain_auto_rockettile_trace_core_source_out_group_0_itype = 4'h0; // @[ClockDomain.scala:14:9] wire [3:0] element_reset_domain_auto_rockettile_trace_core_source_out_priv = 4'h0; // @[ClockDomain.scala:14:9] wire [31:0] auto_element_reset_domain_rockettile_reset_vector_in = 32'h10000; // @[ClockDomain.scala:14:9] wire [31:0] element_reset_domain_auto_rockettile_reset_vector_in = 32'h10000; // @[ClockDomain.scala:14:9] wire [2:0] auto_tl_master_clock_xing_out_b_bits_opcode = 3'h6; // @[ClockDomain.scala:14:9] wire [2:0] tlMasterClockXingOut_b_bits_opcode = 3'h6; // @[MixedNode.scala:542:17] wire [2:0] tlMasterClockXingIn_b_bits_opcode = 3'h6; // @[MixedNode.scala:551:17] wire [3:0] auto_tl_master_clock_xing_out_b_bits_size = 4'h6; // @[ClockDomain.scala:14:9] wire [3:0] tlMasterClockXingOut_b_bits_size = 4'h6; // @[MixedNode.scala:542:17] wire [3:0] tlMasterClockXingIn_b_bits_size = 4'h6; // @[MixedNode.scala:551:17] wire [5:0] auto_tl_master_clock_xing_out_b_bits_source = 6'h20; // @[ClockDomain.scala:14:9] wire [5:0] tlMasterClockXingOut_b_bits_source = 6'h20; // @[MixedNode.scala:542:17] wire [5:0] tlMasterClockXingIn_b_bits_source = 6'h20; // @[MixedNode.scala:551:17] wire [15:0] auto_tl_master_clock_xing_out_b_bits_mask = 16'hFFFF; // @[ClockDomain.scala:14:9] wire [15:0] tlMasterClockXingOut_b_bits_mask = 16'hFFFF; // @[MixedNode.scala:542:17] wire [15:0] tlMasterClockXingIn_b_bits_mask = 16'hFFFF; // @[MixedNode.scala:551:17] wire [127:0] auto_tl_master_clock_xing_out_b_bits_data = 128'h0; // @[ClockDomain.scala:14:9] wire [127:0] tlMasterClockXingOut_b_bits_data = 128'h0; // @[MixedNode.scala:542:17] wire [127:0] tlMasterClockXingIn_b_bits_data = 128'h0; // @[MixedNode.scala:551:17] wire auto_tl_master_clock_xing_out_e_ready = 1'h1; // @[ClockDomain.scala:14:9] wire tlMasterClockXingOut_e_ready = 1'h1; // @[MixedNode.scala:542:17] wire tlMasterClockXingIn_e_ready = 1'h1; // @[MixedNode.scala:551:17] wire auto_intsink_out_2_0 = 1'h0; // @[ClockDomain.scala:14:9] wire auto_intsink_out_0_0 = 1'h0; // @[ClockDomain.scala:14:9] wire auto_element_reset_domain_rockettile_trace_core_source_out_group_0_iretire = 1'h0; // @[ClockDomain.scala:14:9] wire auto_element_reset_domain_rockettile_trace_core_source_out_group_0_ilastsize = 1'h0; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_b_bits_corrupt = 1'h0; // @[ClockDomain.scala:14:9] wire _childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire element_reset_domain_auto_rockettile_buffer_out_c_bits_corrupt = 1'h0; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_cease_out_0 = 1'h0; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_halt_out_0 = 1'h0; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_trace_core_source_out_group_0_iretire = 1'h0; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_trace_core_source_out_group_0_ilastsize = 1'h0; // @[ClockDomain.scala:14:9] wire element_reset_domain__childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire clockNode_childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire clockNode_childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire clockNode__childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire tlMasterClockXingOut_b_bits_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire tlMasterClockXingIn_b_bits_corrupt = 1'h0; // @[MixedNode.scala:551:17] wire intOutClockXingOut_sync_0 = 1'h0; // @[MixedNode.scala:542:17] wire intOutClockXingIn_sync_0 = 1'h0; // @[MixedNode.scala:551:17] wire intOutClockXingOut_1_sync_0 = 1'h0; // @[MixedNode.scala:542:17] wire intOutClockXingIn_1_sync_0 = 1'h0; // @[MixedNode.scala:551:17] wire intOutClockXingOut_4_sync_0 = 1'h0; // @[MixedNode.scala:542:17] wire intOutClockXingIn_4_sync_0 = 1'h0; // @[MixedNode.scala:551:17] wire intOutClockXingOut_5_sync_0 = 1'h0; // @[MixedNode.scala:542:17] wire intOutClockXingIn_5_sync_0 = 1'h0; // @[MixedNode.scala:551:17] wire element_reset_domain_auto_rockettile_trace_source_out_insns_0_valid; // @[ClockDomain.scala:14:9] wire [39:0] element_reset_domain_auto_rockettile_trace_source_out_insns_0_iaddr; // @[ClockDomain.scala:14:9] wire [31:0] element_reset_domain_auto_rockettile_trace_source_out_insns_0_insn; // @[ClockDomain.scala:14:9] wire [2:0] element_reset_domain_auto_rockettile_trace_source_out_insns_0_priv; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_trace_source_out_insns_0_exception; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_trace_source_out_insns_0_interrupt; // @[ClockDomain.scala:14:9] wire [63:0] element_reset_domain_auto_rockettile_trace_source_out_insns_0_cause; // @[ClockDomain.scala:14:9] wire [39:0] element_reset_domain_auto_rockettile_trace_source_out_insns_0_tval; // @[ClockDomain.scala:14:9] wire [63:0] element_reset_domain_auto_rockettile_trace_source_out_time; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_hartid_in = auto_element_reset_domain_rockettile_hartid_in_0; // @[ClockDomain.scala:14:9] wire intInClockXingIn_2_sync_0 = auto_int_in_clock_xing_in_2_sync_0_0; // @[ClockDomain.scala:14:9] wire intInClockXingIn_1_sync_0 = auto_int_in_clock_xing_in_1_sync_0_0; // @[ClockDomain.scala:14:9] wire intInClockXingIn_sync_0 = auto_int_in_clock_xing_in_0_sync_0_0; // @[ClockDomain.scala:14:9] wire intInClockXingIn_sync_1 = auto_int_in_clock_xing_in_0_sync_1_0; // @[ClockDomain.scala:14:9] wire tlMasterClockXingOut_a_ready = auto_tl_master_clock_xing_out_a_ready_0; // @[ClockDomain.scala:14:9] wire tlMasterClockXingOut_a_valid; // @[MixedNode.scala:542:17] wire [2:0] tlMasterClockXingOut_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] tlMasterClockXingOut_a_bits_param; // @[MixedNode.scala:542:17] wire [3:0] tlMasterClockXingOut_a_bits_size; // @[MixedNode.scala:542:17] wire [5:0] tlMasterClockXingOut_a_bits_source; // @[MixedNode.scala:542:17] wire [31:0] tlMasterClockXingOut_a_bits_address; // @[MixedNode.scala:542:17] wire [15:0] tlMasterClockXingOut_a_bits_mask; // @[MixedNode.scala:542:17] wire [127:0] tlMasterClockXingOut_a_bits_data; // @[MixedNode.scala:542:17] wire tlMasterClockXingOut_a_bits_corrupt; // @[MixedNode.scala:542:17] wire tlMasterClockXingOut_b_ready; // @[MixedNode.scala:542:17] wire tlMasterClockXingOut_b_valid = auto_tl_master_clock_xing_out_b_valid_0; // @[ClockDomain.scala:14:9] wire [1:0] tlMasterClockXingOut_b_bits_param = auto_tl_master_clock_xing_out_b_bits_param_0; // @[ClockDomain.scala:14:9] wire [31:0] tlMasterClockXingOut_b_bits_address = auto_tl_master_clock_xing_out_b_bits_address_0; // @[ClockDomain.scala:14:9] wire tlMasterClockXingOut_c_ready = auto_tl_master_clock_xing_out_c_ready_0; // @[ClockDomain.scala:14:9] wire tlMasterClockXingOut_c_valid; // @[MixedNode.scala:542:17] wire [2:0] tlMasterClockXingOut_c_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] tlMasterClockXingOut_c_bits_param; // @[MixedNode.scala:542:17] wire [3:0] tlMasterClockXingOut_c_bits_size; // @[MixedNode.scala:542:17] wire [5:0] tlMasterClockXingOut_c_bits_source; // @[MixedNode.scala:542:17] wire [31:0] tlMasterClockXingOut_c_bits_address; // @[MixedNode.scala:542:17] wire [127:0] tlMasterClockXingOut_c_bits_data; // @[MixedNode.scala:542:17] wire tlMasterClockXingOut_c_bits_corrupt; // @[MixedNode.scala:542:17] wire tlMasterClockXingOut_d_ready; // @[MixedNode.scala:542:17] wire tlMasterClockXingOut_d_valid = auto_tl_master_clock_xing_out_d_valid_0; // @[ClockDomain.scala:14:9] wire [2:0] tlMasterClockXingOut_d_bits_opcode = auto_tl_master_clock_xing_out_d_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] tlMasterClockXingOut_d_bits_param = auto_tl_master_clock_xing_out_d_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] tlMasterClockXingOut_d_bits_size = auto_tl_master_clock_xing_out_d_bits_size_0; // @[ClockDomain.scala:14:9] wire [5:0] tlMasterClockXingOut_d_bits_source = auto_tl_master_clock_xing_out_d_bits_source_0; // @[ClockDomain.scala:14:9] wire [3:0] tlMasterClockXingOut_d_bits_sink = auto_tl_master_clock_xing_out_d_bits_sink_0; // @[ClockDomain.scala:14:9] wire tlMasterClockXingOut_d_bits_denied = auto_tl_master_clock_xing_out_d_bits_denied_0; // @[ClockDomain.scala:14:9] wire [127:0] tlMasterClockXingOut_d_bits_data = auto_tl_master_clock_xing_out_d_bits_data_0; // @[ClockDomain.scala:14:9] wire tlMasterClockXingOut_d_bits_corrupt = auto_tl_master_clock_xing_out_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire tlMasterClockXingOut_e_valid; // @[MixedNode.scala:542:17] wire [3:0] tlMasterClockXingOut_e_bits_sink; // @[MixedNode.scala:542:17] wire tapClockNodeIn_clock = auto_tap_clock_in_clock_0; // @[ClockDomain.scala:14:9] wire tapClockNodeIn_reset = auto_tap_clock_in_reset_0; // @[ClockDomain.scala:14:9] wire auto_intsink_out_1_0_0; // @[ClockDomain.scala:14:9] wire auto_element_reset_domain_rockettile_trace_source_out_insns_0_valid_0; // @[ClockDomain.scala:14:9] wire [39:0] auto_element_reset_domain_rockettile_trace_source_out_insns_0_iaddr_0; // @[ClockDomain.scala:14:9] wire [31:0] auto_element_reset_domain_rockettile_trace_source_out_insns_0_insn_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_element_reset_domain_rockettile_trace_source_out_insns_0_priv_0; // @[ClockDomain.scala:14:9] wire auto_element_reset_domain_rockettile_trace_source_out_insns_0_exception_0; // @[ClockDomain.scala:14:9] wire auto_element_reset_domain_rockettile_trace_source_out_insns_0_interrupt_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_element_reset_domain_rockettile_trace_source_out_insns_0_cause_0; // @[ClockDomain.scala:14:9] wire [39:0] auto_element_reset_domain_rockettile_trace_source_out_insns_0_tval_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_element_reset_domain_rockettile_trace_source_out_time_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_tl_master_clock_xing_out_a_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_tl_master_clock_xing_out_a_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_tl_master_clock_xing_out_a_bits_size_0; // @[ClockDomain.scala:14:9] wire [5:0] auto_tl_master_clock_xing_out_a_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] auto_tl_master_clock_xing_out_a_bits_address_0; // @[ClockDomain.scala:14:9] wire [15:0] auto_tl_master_clock_xing_out_a_bits_mask_0; // @[ClockDomain.scala:14:9] wire [127:0] auto_tl_master_clock_xing_out_a_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_a_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_a_valid_0; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_b_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_tl_master_clock_xing_out_c_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_tl_master_clock_xing_out_c_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_tl_master_clock_xing_out_c_bits_size_0; // @[ClockDomain.scala:14:9] wire [5:0] auto_tl_master_clock_xing_out_c_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] auto_tl_master_clock_xing_out_c_bits_address_0; // @[ClockDomain.scala:14:9] wire [127:0] auto_tl_master_clock_xing_out_c_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_c_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_c_valid_0; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_d_ready_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_tl_master_clock_xing_out_e_bits_sink_0; // @[ClockDomain.scala:14:9] wire auto_tl_master_clock_xing_out_e_valid_0; // @[ClockDomain.scala:14:9] wire childClock; // @[LazyModuleImp.scala:155:31] wire childReset; // @[LazyModuleImp.scala:158:31] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_valid_0 = element_reset_domain_auto_rockettile_trace_source_out_insns_0_valid; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_iaddr_0 = element_reset_domain_auto_rockettile_trace_source_out_insns_0_iaddr; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_insn_0 = element_reset_domain_auto_rockettile_trace_source_out_insns_0_insn; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_priv_0 = element_reset_domain_auto_rockettile_trace_source_out_insns_0_priv; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_exception_0 = element_reset_domain_auto_rockettile_trace_source_out_insns_0_exception; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_interrupt_0 = element_reset_domain_auto_rockettile_trace_source_out_insns_0_interrupt; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_cause_0 = element_reset_domain_auto_rockettile_trace_source_out_insns_0_cause; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_tval_0 = element_reset_domain_auto_rockettile_trace_source_out_insns_0_tval; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_time_0 = element_reset_domain_auto_rockettile_trace_source_out_time; // @[ClockDomain.scala:14:9] wire clockNode_auto_anon_out_clock; // @[ClockGroup.scala:104:9] wire element_reset_domain_clockNodeIn_clock = element_reset_domain_auto_clock_in_clock; // @[ClockDomain.scala:14:9] wire clockNode_auto_anon_out_reset; // @[ClockGroup.scala:104:9] wire [2:0] element_reset_domain_auto_rockettile_buffer_out_a_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] element_reset_domain_auto_rockettile_buffer_out_a_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] element_reset_domain_auto_rockettile_buffer_out_a_bits_size; // @[ClockDomain.scala:14:9] wire [5:0] element_reset_domain_auto_rockettile_buffer_out_a_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] element_reset_domain_auto_rockettile_buffer_out_a_bits_address; // @[ClockDomain.scala:14:9] wire [15:0] element_reset_domain_auto_rockettile_buffer_out_a_bits_mask; // @[ClockDomain.scala:14:9] wire [127:0] element_reset_domain_auto_rockettile_buffer_out_a_bits_data; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_a_bits_corrupt; // @[ClockDomain.scala:14:9] wire element_reset_domain_clockNodeIn_reset = element_reset_domain_auto_clock_in_reset; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_a_ready; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_a_valid; // @[ClockDomain.scala:14:9] wire [2:0] element_reset_domain_auto_rockettile_buffer_out_b_bits_opcode; // @[ClockDomain.scala:14:9] wire [1:0] element_reset_domain_auto_rockettile_buffer_out_b_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] element_reset_domain_auto_rockettile_buffer_out_b_bits_size; // @[ClockDomain.scala:14:9] wire [5:0] element_reset_domain_auto_rockettile_buffer_out_b_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] element_reset_domain_auto_rockettile_buffer_out_b_bits_address; // @[ClockDomain.scala:14:9] wire [15:0] element_reset_domain_auto_rockettile_buffer_out_b_bits_mask; // @[ClockDomain.scala:14:9] wire [127:0] element_reset_domain_auto_rockettile_buffer_out_b_bits_data; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_b_bits_corrupt; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_b_ready; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_b_valid; // @[ClockDomain.scala:14:9] wire [2:0] element_reset_domain_auto_rockettile_buffer_out_c_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] element_reset_domain_auto_rockettile_buffer_out_c_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] element_reset_domain_auto_rockettile_buffer_out_c_bits_size; // @[ClockDomain.scala:14:9] wire [5:0] element_reset_domain_auto_rockettile_buffer_out_c_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] element_reset_domain_auto_rockettile_buffer_out_c_bits_address; // @[ClockDomain.scala:14:9] wire [127:0] element_reset_domain_auto_rockettile_buffer_out_c_bits_data; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_c_ready; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_c_valid; // @[ClockDomain.scala:14:9] wire [2:0] element_reset_domain_auto_rockettile_buffer_out_d_bits_opcode; // @[ClockDomain.scala:14:9] wire [1:0] element_reset_domain_auto_rockettile_buffer_out_d_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] element_reset_domain_auto_rockettile_buffer_out_d_bits_size; // @[ClockDomain.scala:14:9] wire [5:0] element_reset_domain_auto_rockettile_buffer_out_d_bits_source; // @[ClockDomain.scala:14:9] wire [3:0] element_reset_domain_auto_rockettile_buffer_out_d_bits_sink; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_d_bits_denied; // @[ClockDomain.scala:14:9] wire [127:0] element_reset_domain_auto_rockettile_buffer_out_d_bits_data; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_d_bits_corrupt; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_d_ready; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_d_valid; // @[ClockDomain.scala:14:9] wire [3:0] element_reset_domain_auto_rockettile_buffer_out_e_bits_sink; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_e_ready; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_buffer_out_e_valid; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_wfi_out_0; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_int_local_in_3_0; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_int_local_in_2_0; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_int_local_in_1_0; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_int_local_in_1_1; // @[ClockDomain.scala:14:9] wire element_reset_domain_auto_rockettile_int_local_in_0_0; // @[ClockDomain.scala:14:9] wire element_reset_domain_childClock; // @[LazyModuleImp.scala:155:31] wire element_reset_domain_childReset; // @[LazyModuleImp.scala:158:31] assign element_reset_domain_childClock = element_reset_domain_clockNodeIn_clock; // @[MixedNode.scala:551:17] assign element_reset_domain_childReset = element_reset_domain_clockNodeIn_reset; // @[MixedNode.scala:551:17] wire tapClockNodeOut_clock; // @[MixedNode.scala:542:17] wire clockNode_anonIn_clock = clockNode_auto_anon_in_clock; // @[ClockGroup.scala:104:9] wire tapClockNodeOut_reset; // @[MixedNode.scala:542:17] wire clockNode_anonOut_clock; // @[MixedNode.scala:542:17] wire clockNode_anonIn_reset = clockNode_auto_anon_in_reset; // @[ClockGroup.scala:104:9] assign element_reset_domain_auto_clock_in_clock = clockNode_auto_anon_out_clock; // @[ClockGroup.scala:104:9] wire clockNode_anonOut_reset; // @[MixedNode.scala:542:17] assign element_reset_domain_auto_clock_in_reset = clockNode_auto_anon_out_reset; // @[ClockGroup.scala:104:9] assign clockNode_auto_anon_out_clock = clockNode_anonOut_clock; // @[ClockGroup.scala:104:9] assign clockNode_auto_anon_out_reset = clockNode_anonOut_reset; // @[ClockGroup.scala:104:9] assign clockNode_anonOut_clock = clockNode_anonIn_clock; // @[MixedNode.scala:542:17, :551:17] assign clockNode_anonOut_reset = clockNode_anonIn_reset; // @[MixedNode.scala:542:17, :551:17] assign clockNode_auto_anon_in_clock = tapClockNodeOut_clock; // @[ClockGroup.scala:104:9] assign clockNode_auto_anon_in_reset = tapClockNodeOut_reset; // @[ClockGroup.scala:104:9] assign childClock = tapClockNodeIn_clock; // @[MixedNode.scala:551:17] assign tapClockNodeOut_clock = tapClockNodeIn_clock; // @[MixedNode.scala:542:17, :551:17] assign childReset = tapClockNodeIn_reset; // @[MixedNode.scala:551:17] assign tapClockNodeOut_reset = tapClockNodeIn_reset; // @[MixedNode.scala:542:17, :551:17] wire tlMasterClockXingIn_a_ready = tlMasterClockXingOut_a_ready; // @[MixedNode.scala:542:17, :551:17] wire tlMasterClockXingIn_a_valid; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_a_valid_0 = tlMasterClockXingOut_a_valid; // @[ClockDomain.scala:14:9] wire [2:0] tlMasterClockXingIn_a_bits_opcode; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_a_bits_opcode_0 = tlMasterClockXingOut_a_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] tlMasterClockXingIn_a_bits_param; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_a_bits_param_0 = tlMasterClockXingOut_a_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] tlMasterClockXingIn_a_bits_size; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_a_bits_size_0 = tlMasterClockXingOut_a_bits_size; // @[ClockDomain.scala:14:9] wire [5:0] tlMasterClockXingIn_a_bits_source; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_a_bits_source_0 = tlMasterClockXingOut_a_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] tlMasterClockXingIn_a_bits_address; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_a_bits_address_0 = tlMasterClockXingOut_a_bits_address; // @[ClockDomain.scala:14:9] wire [15:0] tlMasterClockXingIn_a_bits_mask; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_a_bits_mask_0 = tlMasterClockXingOut_a_bits_mask; // @[ClockDomain.scala:14:9] wire [127:0] tlMasterClockXingIn_a_bits_data; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_a_bits_data_0 = tlMasterClockXingOut_a_bits_data; // @[ClockDomain.scala:14:9] wire tlMasterClockXingIn_a_bits_corrupt; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_a_bits_corrupt_0 = tlMasterClockXingOut_a_bits_corrupt; // @[ClockDomain.scala:14:9] wire tlMasterClockXingIn_b_ready; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_b_ready_0 = tlMasterClockXingOut_b_ready; // @[ClockDomain.scala:14:9] wire tlMasterClockXingIn_b_valid = tlMasterClockXingOut_b_valid; // @[MixedNode.scala:542:17, :551:17] wire [1:0] tlMasterClockXingIn_b_bits_param = tlMasterClockXingOut_b_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [31:0] tlMasterClockXingIn_b_bits_address = tlMasterClockXingOut_b_bits_address; // @[MixedNode.scala:542:17, :551:17] wire tlMasterClockXingIn_c_ready = tlMasterClockXingOut_c_ready; // @[MixedNode.scala:542:17, :551:17] wire tlMasterClockXingIn_c_valid; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_c_valid_0 = tlMasterClockXingOut_c_valid; // @[ClockDomain.scala:14:9] wire [2:0] tlMasterClockXingIn_c_bits_opcode; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_c_bits_opcode_0 = tlMasterClockXingOut_c_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] tlMasterClockXingIn_c_bits_param; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_c_bits_param_0 = tlMasterClockXingOut_c_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] tlMasterClockXingIn_c_bits_size; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_c_bits_size_0 = tlMasterClockXingOut_c_bits_size; // @[ClockDomain.scala:14:9] wire [5:0] tlMasterClockXingIn_c_bits_source; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_c_bits_source_0 = tlMasterClockXingOut_c_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] tlMasterClockXingIn_c_bits_address; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_c_bits_address_0 = tlMasterClockXingOut_c_bits_address; // @[ClockDomain.scala:14:9] wire [127:0] tlMasterClockXingIn_c_bits_data; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_c_bits_data_0 = tlMasterClockXingOut_c_bits_data; // @[ClockDomain.scala:14:9] wire tlMasterClockXingIn_c_bits_corrupt; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_c_bits_corrupt_0 = tlMasterClockXingOut_c_bits_corrupt; // @[ClockDomain.scala:14:9] wire tlMasterClockXingIn_d_ready; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_d_ready_0 = tlMasterClockXingOut_d_ready; // @[ClockDomain.scala:14:9] wire tlMasterClockXingIn_d_valid = tlMasterClockXingOut_d_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] tlMasterClockXingIn_d_bits_opcode = tlMasterClockXingOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [1:0] tlMasterClockXingIn_d_bits_param = tlMasterClockXingOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [3:0] tlMasterClockXingIn_d_bits_size = tlMasterClockXingOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [5:0] tlMasterClockXingIn_d_bits_source = tlMasterClockXingOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [3:0] tlMasterClockXingIn_d_bits_sink = tlMasterClockXingOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] wire tlMasterClockXingIn_d_bits_denied = tlMasterClockXingOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] wire [127:0] tlMasterClockXingIn_d_bits_data = tlMasterClockXingOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] wire tlMasterClockXingIn_d_bits_corrupt = tlMasterClockXingOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire tlMasterClockXingIn_e_valid; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_e_valid_0 = tlMasterClockXingOut_e_valid; // @[ClockDomain.scala:14:9] wire [3:0] tlMasterClockXingIn_e_bits_sink; // @[MixedNode.scala:551:17] assign auto_tl_master_clock_xing_out_e_bits_sink_0 = tlMasterClockXingOut_e_bits_sink; // @[ClockDomain.scala:14:9] assign tlMasterClockXingOut_a_valid = tlMasterClockXingIn_a_valid; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_a_bits_opcode = tlMasterClockXingIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_a_bits_param = tlMasterClockXingIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_a_bits_size = tlMasterClockXingIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_a_bits_source = tlMasterClockXingIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_a_bits_address = tlMasterClockXingIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_a_bits_mask = tlMasterClockXingIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_a_bits_data = tlMasterClockXingIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_a_bits_corrupt = tlMasterClockXingIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_b_ready = tlMasterClockXingIn_b_ready; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_c_valid = tlMasterClockXingIn_c_valid; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_c_bits_opcode = tlMasterClockXingIn_c_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_c_bits_param = tlMasterClockXingIn_c_bits_param; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_c_bits_size = tlMasterClockXingIn_c_bits_size; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_c_bits_source = tlMasterClockXingIn_c_bits_source; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_c_bits_address = tlMasterClockXingIn_c_bits_address; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_c_bits_data = tlMasterClockXingIn_c_bits_data; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_c_bits_corrupt = tlMasterClockXingIn_c_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_d_ready = tlMasterClockXingIn_d_ready; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_e_valid = tlMasterClockXingIn_e_valid; // @[MixedNode.scala:542:17, :551:17] assign tlMasterClockXingOut_e_bits_sink = tlMasterClockXingIn_e_bits_sink; // @[MixedNode.scala:542:17, :551:17] wire intInClockXingOut_sync_0; // @[MixedNode.scala:542:17] wire intInClockXingOut_sync_1; // @[MixedNode.scala:542:17] assign intInClockXingOut_sync_0 = intInClockXingIn_sync_0; // @[MixedNode.scala:542:17, :551:17] assign intInClockXingOut_sync_1 = intInClockXingIn_sync_1; // @[MixedNode.scala:542:17, :551:17] wire intInClockXingOut_1_sync_0; // @[MixedNode.scala:542:17] assign intInClockXingOut_1_sync_0 = intInClockXingIn_1_sync_0; // @[MixedNode.scala:542:17, :551:17] wire intInClockXingOut_2_sync_0; // @[MixedNode.scala:542:17] assign intInClockXingOut_2_sync_0 = intInClockXingIn_2_sync_0; // @[MixedNode.scala:542:17, :551:17] wire intOutClockXingIn_2_sync_0; // @[MixedNode.scala:551:17] wire intOutClockXingOut_2_sync_0; // @[MixedNode.scala:542:17] wire intOutClockXingOut_3_sync_0; // @[MixedNode.scala:542:17] assign intOutClockXingOut_2_sync_0 = intOutClockXingIn_2_sync_0; // @[MixedNode.scala:542:17, :551:17] wire intOutClockXingIn_3_sync_0; // @[MixedNode.scala:551:17] assign intOutClockXingIn_2_sync_0 = intOutClockXingOut_3_sync_0; // @[MixedNode.scala:542:17, :551:17] assign intOutClockXingOut_3_sync_0 = intOutClockXingIn_3_sync_0; // @[MixedNode.scala:542:17, :551:17] RocketTile element_reset_domain_rockettile ( // @[HasTiles.scala:164:59] .clock (element_reset_domain_childClock), // @[LazyModuleImp.scala:155:31] .reset (element_reset_domain_childReset), // @[LazyModuleImp.scala:158:31] .auto_buffer_out_a_ready (element_reset_domain_auto_rockettile_buffer_out_a_ready), // @[ClockDomain.scala:14:9] .auto_buffer_out_a_valid (element_reset_domain_auto_rockettile_buffer_out_a_valid), .auto_buffer_out_a_bits_opcode (element_reset_domain_auto_rockettile_buffer_out_a_bits_opcode), .auto_buffer_out_a_bits_param (element_reset_domain_auto_rockettile_buffer_out_a_bits_param), .auto_buffer_out_a_bits_size (element_reset_domain_auto_rockettile_buffer_out_a_bits_size), .auto_buffer_out_a_bits_source (element_reset_domain_auto_rockettile_buffer_out_a_bits_source), .auto_buffer_out_a_bits_address (element_reset_domain_auto_rockettile_buffer_out_a_bits_address), .auto_buffer_out_a_bits_mask (element_reset_domain_auto_rockettile_buffer_out_a_bits_mask), .auto_buffer_out_a_bits_data (element_reset_domain_auto_rockettile_buffer_out_a_bits_data), .auto_buffer_out_a_bits_corrupt (element_reset_domain_auto_rockettile_buffer_out_a_bits_corrupt), .auto_buffer_out_b_ready (element_reset_domain_auto_rockettile_buffer_out_b_ready), .auto_buffer_out_b_valid (element_reset_domain_auto_rockettile_buffer_out_b_valid), // @[ClockDomain.scala:14:9] .auto_buffer_out_b_bits_opcode (element_reset_domain_auto_rockettile_buffer_out_b_bits_opcode), // @[ClockDomain.scala:14:9] .auto_buffer_out_b_bits_param (element_reset_domain_auto_rockettile_buffer_out_b_bits_param), // @[ClockDomain.scala:14:9] .auto_buffer_out_b_bits_size (element_reset_domain_auto_rockettile_buffer_out_b_bits_size), // @[ClockDomain.scala:14:9] .auto_buffer_out_b_bits_source (element_reset_domain_auto_rockettile_buffer_out_b_bits_source), // @[ClockDomain.scala:14:9] .auto_buffer_out_b_bits_address (element_reset_domain_auto_rockettile_buffer_out_b_bits_address), // @[ClockDomain.scala:14:9] .auto_buffer_out_b_bits_mask (element_reset_domain_auto_rockettile_buffer_out_b_bits_mask), // @[ClockDomain.scala:14:9] .auto_buffer_out_b_bits_data (element_reset_domain_auto_rockettile_buffer_out_b_bits_data), // @[ClockDomain.scala:14:9] .auto_buffer_out_b_bits_corrupt (element_reset_domain_auto_rockettile_buffer_out_b_bits_corrupt), // @[ClockDomain.scala:14:9] .auto_buffer_out_c_ready (element_reset_domain_auto_rockettile_buffer_out_c_ready), // @[ClockDomain.scala:14:9] .auto_buffer_out_c_valid (element_reset_domain_auto_rockettile_buffer_out_c_valid), .auto_buffer_out_c_bits_opcode (element_reset_domain_auto_rockettile_buffer_out_c_bits_opcode), .auto_buffer_out_c_bits_param (element_reset_domain_auto_rockettile_buffer_out_c_bits_param), .auto_buffer_out_c_bits_size (element_reset_domain_auto_rockettile_buffer_out_c_bits_size), .auto_buffer_out_c_bits_source (element_reset_domain_auto_rockettile_buffer_out_c_bits_source), .auto_buffer_out_c_bits_address (element_reset_domain_auto_rockettile_buffer_out_c_bits_address), .auto_buffer_out_c_bits_data (element_reset_domain_auto_rockettile_buffer_out_c_bits_data), .auto_buffer_out_d_ready (element_reset_domain_auto_rockettile_buffer_out_d_ready), .auto_buffer_out_d_valid (element_reset_domain_auto_rockettile_buffer_out_d_valid), // @[ClockDomain.scala:14:9] .auto_buffer_out_d_bits_opcode (element_reset_domain_auto_rockettile_buffer_out_d_bits_opcode), // @[ClockDomain.scala:14:9] .auto_buffer_out_d_bits_param (element_reset_domain_auto_rockettile_buffer_out_d_bits_param), // @[ClockDomain.scala:14:9] .auto_buffer_out_d_bits_size (element_reset_domain_auto_rockettile_buffer_out_d_bits_size), // @[ClockDomain.scala:14:9] .auto_buffer_out_d_bits_source (element_reset_domain_auto_rockettile_buffer_out_d_bits_source), // @[ClockDomain.scala:14:9] .auto_buffer_out_d_bits_sink (element_reset_domain_auto_rockettile_buffer_out_d_bits_sink), // @[ClockDomain.scala:14:9] .auto_buffer_out_d_bits_denied (element_reset_domain_auto_rockettile_buffer_out_d_bits_denied), // @[ClockDomain.scala:14:9] .auto_buffer_out_d_bits_data (element_reset_domain_auto_rockettile_buffer_out_d_bits_data), // @[ClockDomain.scala:14:9] .auto_buffer_out_d_bits_corrupt (element_reset_domain_auto_rockettile_buffer_out_d_bits_corrupt), // @[ClockDomain.scala:14:9] .auto_buffer_out_e_ready (element_reset_domain_auto_rockettile_buffer_out_e_ready), // @[ClockDomain.scala:14:9] .auto_buffer_out_e_valid (element_reset_domain_auto_rockettile_buffer_out_e_valid), .auto_buffer_out_e_bits_sink (element_reset_domain_auto_rockettile_buffer_out_e_bits_sink), .auto_wfi_out_0 (element_reset_domain_auto_rockettile_wfi_out_0), .auto_int_local_in_3_0 (element_reset_domain_auto_rockettile_int_local_in_3_0), // @[ClockDomain.scala:14:9] .auto_int_local_in_2_0 (element_reset_domain_auto_rockettile_int_local_in_2_0), // @[ClockDomain.scala:14:9] .auto_int_local_in_1_0 (element_reset_domain_auto_rockettile_int_local_in_1_0), // @[ClockDomain.scala:14:9] .auto_int_local_in_1_1 (element_reset_domain_auto_rockettile_int_local_in_1_1), // @[ClockDomain.scala:14:9] .auto_int_local_in_0_0 (element_reset_domain_auto_rockettile_int_local_in_0_0), // @[ClockDomain.scala:14:9] .auto_trace_source_out_insns_0_valid (element_reset_domain_auto_rockettile_trace_source_out_insns_0_valid), .auto_trace_source_out_insns_0_iaddr (element_reset_domain_auto_rockettile_trace_source_out_insns_0_iaddr), .auto_trace_source_out_insns_0_insn (element_reset_domain_auto_rockettile_trace_source_out_insns_0_insn), .auto_trace_source_out_insns_0_priv (element_reset_domain_auto_rockettile_trace_source_out_insns_0_priv), .auto_trace_source_out_insns_0_exception (element_reset_domain_auto_rockettile_trace_source_out_insns_0_exception), .auto_trace_source_out_insns_0_interrupt (element_reset_domain_auto_rockettile_trace_source_out_insns_0_interrupt), .auto_trace_source_out_insns_0_cause (element_reset_domain_auto_rockettile_trace_source_out_insns_0_cause), .auto_trace_source_out_insns_0_tval (element_reset_domain_auto_rockettile_trace_source_out_insns_0_tval), .auto_trace_source_out_time (element_reset_domain_auto_rockettile_trace_source_out_time), .auto_hartid_in (element_reset_domain_auto_rockettile_hartid_in) // @[ClockDomain.scala:14:9] ); // @[HasTiles.scala:164:59] TLBuffer_a32d128s6k4z4c_1 buffer ( // @[Buffer.scala:75:28] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset), // @[LazyModuleImp.scala:158:31] .auto_in_a_ready (element_reset_domain_auto_rockettile_buffer_out_a_ready), .auto_in_a_valid (element_reset_domain_auto_rockettile_buffer_out_a_valid), // @[ClockDomain.scala:14:9] .auto_in_a_bits_opcode (element_reset_domain_auto_rockettile_buffer_out_a_bits_opcode), // @[ClockDomain.scala:14:9] .auto_in_a_bits_param (element_reset_domain_auto_rockettile_buffer_out_a_bits_param), // @[ClockDomain.scala:14:9] .auto_in_a_bits_size (element_reset_domain_auto_rockettile_buffer_out_a_bits_size), // @[ClockDomain.scala:14:9] .auto_in_a_bits_source (element_reset_domain_auto_rockettile_buffer_out_a_bits_source), // @[ClockDomain.scala:14:9] .auto_in_a_bits_address (element_reset_domain_auto_rockettile_buffer_out_a_bits_address), // @[ClockDomain.scala:14:9] .auto_in_a_bits_mask (element_reset_domain_auto_rockettile_buffer_out_a_bits_mask), // @[ClockDomain.scala:14:9] .auto_in_a_bits_data (element_reset_domain_auto_rockettile_buffer_out_a_bits_data), // @[ClockDomain.scala:14:9] .auto_in_a_bits_corrupt (element_reset_domain_auto_rockettile_buffer_out_a_bits_corrupt), // @[ClockDomain.scala:14:9] .auto_in_b_ready (element_reset_domain_auto_rockettile_buffer_out_b_ready), // @[ClockDomain.scala:14:9] .auto_in_b_valid (element_reset_domain_auto_rockettile_buffer_out_b_valid), .auto_in_b_bits_opcode (element_reset_domain_auto_rockettile_buffer_out_b_bits_opcode), .auto_in_b_bits_param (element_reset_domain_auto_rockettile_buffer_out_b_bits_param), .auto_in_b_bits_size (element_reset_domain_auto_rockettile_buffer_out_b_bits_size), .auto_in_b_bits_source (element_reset_domain_auto_rockettile_buffer_out_b_bits_source), .auto_in_b_bits_address (element_reset_domain_auto_rockettile_buffer_out_b_bits_address), .auto_in_b_bits_mask (element_reset_domain_auto_rockettile_buffer_out_b_bits_mask), .auto_in_b_bits_data (element_reset_domain_auto_rockettile_buffer_out_b_bits_data), .auto_in_b_bits_corrupt (element_reset_domain_auto_rockettile_buffer_out_b_bits_corrupt), .auto_in_c_ready (element_reset_domain_auto_rockettile_buffer_out_c_ready), .auto_in_c_valid (element_reset_domain_auto_rockettile_buffer_out_c_valid), // @[ClockDomain.scala:14:9] .auto_in_c_bits_opcode (element_reset_domain_auto_rockettile_buffer_out_c_bits_opcode), // @[ClockDomain.scala:14:9] .auto_in_c_bits_param (element_reset_domain_auto_rockettile_buffer_out_c_bits_param), // @[ClockDomain.scala:14:9] .auto_in_c_bits_size (element_reset_domain_auto_rockettile_buffer_out_c_bits_size), // @[ClockDomain.scala:14:9] .auto_in_c_bits_source (element_reset_domain_auto_rockettile_buffer_out_c_bits_source), // @[ClockDomain.scala:14:9] .auto_in_c_bits_address (element_reset_domain_auto_rockettile_buffer_out_c_bits_address), // @[ClockDomain.scala:14:9] .auto_in_c_bits_data (element_reset_domain_auto_rockettile_buffer_out_c_bits_data), // @[ClockDomain.scala:14:9] .auto_in_d_ready (element_reset_domain_auto_rockettile_buffer_out_d_ready), // @[ClockDomain.scala:14:9] .auto_in_d_valid (element_reset_domain_auto_rockettile_buffer_out_d_valid), .auto_in_d_bits_opcode (element_reset_domain_auto_rockettile_buffer_out_d_bits_opcode), .auto_in_d_bits_param (element_reset_domain_auto_rockettile_buffer_out_d_bits_param), .auto_in_d_bits_size (element_reset_domain_auto_rockettile_buffer_out_d_bits_size), .auto_in_d_bits_source (element_reset_domain_auto_rockettile_buffer_out_d_bits_source), .auto_in_d_bits_sink (element_reset_domain_auto_rockettile_buffer_out_d_bits_sink), .auto_in_d_bits_denied (element_reset_domain_auto_rockettile_buffer_out_d_bits_denied), .auto_in_d_bits_data (element_reset_domain_auto_rockettile_buffer_out_d_bits_data), .auto_in_d_bits_corrupt (element_reset_domain_auto_rockettile_buffer_out_d_bits_corrupt), .auto_in_e_ready (element_reset_domain_auto_rockettile_buffer_out_e_ready), .auto_in_e_valid (element_reset_domain_auto_rockettile_buffer_out_e_valid), // @[ClockDomain.scala:14:9] .auto_in_e_bits_sink (element_reset_domain_auto_rockettile_buffer_out_e_bits_sink), // @[ClockDomain.scala:14:9] .auto_out_a_ready (tlMasterClockXingIn_a_ready), // @[MixedNode.scala:551:17] .auto_out_a_valid (tlMasterClockXingIn_a_valid), .auto_out_a_bits_opcode (tlMasterClockXingIn_a_bits_opcode), .auto_out_a_bits_param (tlMasterClockXingIn_a_bits_param), .auto_out_a_bits_size (tlMasterClockXingIn_a_bits_size), .auto_out_a_bits_source (tlMasterClockXingIn_a_bits_source), .auto_out_a_bits_address (tlMasterClockXingIn_a_bits_address), .auto_out_a_bits_mask (tlMasterClockXingIn_a_bits_mask), .auto_out_a_bits_data (tlMasterClockXingIn_a_bits_data), .auto_out_a_bits_corrupt (tlMasterClockXingIn_a_bits_corrupt), .auto_out_b_ready (tlMasterClockXingIn_b_ready), .auto_out_b_valid (tlMasterClockXingIn_b_valid), // @[MixedNode.scala:551:17] .auto_out_b_bits_param (tlMasterClockXingIn_b_bits_param), // @[MixedNode.scala:551:17] .auto_out_b_bits_address (tlMasterClockXingIn_b_bits_address), // @[MixedNode.scala:551:17] .auto_out_c_ready (tlMasterClockXingIn_c_ready), // @[MixedNode.scala:551:17] .auto_out_c_valid (tlMasterClockXingIn_c_valid), .auto_out_c_bits_opcode (tlMasterClockXingIn_c_bits_opcode), .auto_out_c_bits_param (tlMasterClockXingIn_c_bits_param), .auto_out_c_bits_size (tlMasterClockXingIn_c_bits_size), .auto_out_c_bits_source (tlMasterClockXingIn_c_bits_source), .auto_out_c_bits_address (tlMasterClockXingIn_c_bits_address), .auto_out_c_bits_data (tlMasterClockXingIn_c_bits_data), .auto_out_c_bits_corrupt (tlMasterClockXingIn_c_bits_corrupt), .auto_out_d_ready (tlMasterClockXingIn_d_ready), .auto_out_d_valid (tlMasterClockXingIn_d_valid), // @[MixedNode.scala:551:17] .auto_out_d_bits_opcode (tlMasterClockXingIn_d_bits_opcode), // @[MixedNode.scala:551:17] .auto_out_d_bits_param (tlMasterClockXingIn_d_bits_param), // @[MixedNode.scala:551:17] .auto_out_d_bits_size (tlMasterClockXingIn_d_bits_size), // @[MixedNode.scala:551:17] .auto_out_d_bits_source (tlMasterClockXingIn_d_bits_source), // @[MixedNode.scala:551:17] .auto_out_d_bits_sink (tlMasterClockXingIn_d_bits_sink), // @[MixedNode.scala:551:17] .auto_out_d_bits_denied (tlMasterClockXingIn_d_bits_denied), // @[MixedNode.scala:551:17] .auto_out_d_bits_data (tlMasterClockXingIn_d_bits_data), // @[MixedNode.scala:551:17] .auto_out_d_bits_corrupt (tlMasterClockXingIn_d_bits_corrupt), // @[MixedNode.scala:551:17] .auto_out_e_valid (tlMasterClockXingIn_e_valid), .auto_out_e_bits_sink (tlMasterClockXingIn_e_bits_sink) ); // @[Buffer.scala:75:28] TLBuffer_2 buffer_1 ( // @[Buffer.scala:75:28] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset) // @[LazyModuleImp.scala:158:31] ); // @[Buffer.scala:75:28] IntSyncAsyncCrossingSink_n1x1 intsink ( // @[Crossing.scala:86:29] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset), // @[LazyModuleImp.scala:158:31] .auto_in_sync_0 (auto_intsink_in_sync_0_0), // @[ClockDomain.scala:14:9] .auto_out_0 (element_reset_domain_auto_rockettile_int_local_in_0_0) ); // @[Crossing.scala:86:29] IntSyncSyncCrossingSink_n1x2 intsink_1 ( // @[Crossing.scala:109:29] .auto_in_sync_0 (intInClockXingOut_sync_0), // @[MixedNode.scala:542:17] .auto_in_sync_1 (intInClockXingOut_sync_1), // @[MixedNode.scala:542:17] .auto_out_0 (element_reset_domain_auto_rockettile_int_local_in_1_0), .auto_out_1 (element_reset_domain_auto_rockettile_int_local_in_1_1) ); // @[Crossing.scala:109:29] IntSyncSyncCrossingSink_n1x1 intsink_2 ( // @[Crossing.scala:109:29] .auto_in_sync_0 (intInClockXingOut_1_sync_0), // @[MixedNode.scala:542:17] .auto_out_0 (element_reset_domain_auto_rockettile_int_local_in_2_0) ); // @[Crossing.scala:109:29] IntSyncSyncCrossingSink_n1x1_1 intsink_3 ( // @[Crossing.scala:109:29] .auto_in_sync_0 (intInClockXingOut_2_sync_0), // @[MixedNode.scala:542:17] .auto_out_0 (element_reset_domain_auto_rockettile_int_local_in_3_0) ); // @[Crossing.scala:109:29] IntSyncSyncCrossingSink_n1x1_2 intsink_4 (); // @[Crossing.scala:109:29] IntSyncCrossingSource_n1x1 intsource ( // @[Crossing.scala:29:31] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset) // @[LazyModuleImp.scala:158:31] ); // @[Crossing.scala:29:31] IntSyncSyncCrossingSink_n1x1_3 intsink_5 ( // @[Crossing.scala:109:29] .auto_in_sync_0 (intOutClockXingOut_2_sync_0), // @[MixedNode.scala:542:17] .auto_out_0 (auto_intsink_out_1_0_0) ); // @[Crossing.scala:109:29] IntSyncCrossingSource_n1x1_1 intsource_1 ( // @[Crossing.scala:29:31] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset), // @[LazyModuleImp.scala:158:31] .auto_in_0 (element_reset_domain_auto_rockettile_wfi_out_0), // @[ClockDomain.scala:14:9] .auto_out_sync_0 (intOutClockXingIn_3_sync_0) ); // @[Crossing.scala:29:31] IntSyncSyncCrossingSink_n1x1_4 intsink_6 (); // @[Crossing.scala:109:29] IntSyncCrossingSource_n1x1_2 intsource_2 ( // @[Crossing.scala:29:31] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset) // @[LazyModuleImp.scala:158:31] ); // @[Crossing.scala:29:31] assign auto_intsink_out_1_0 = auto_intsink_out_1_0_0; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_valid = auto_element_reset_domain_rockettile_trace_source_out_insns_0_valid_0; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_iaddr = auto_element_reset_domain_rockettile_trace_source_out_insns_0_iaddr_0; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_insn = auto_element_reset_domain_rockettile_trace_source_out_insns_0_insn_0; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_priv = auto_element_reset_domain_rockettile_trace_source_out_insns_0_priv_0; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_exception = auto_element_reset_domain_rockettile_trace_source_out_insns_0_exception_0; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_interrupt = auto_element_reset_domain_rockettile_trace_source_out_insns_0_interrupt_0; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_cause = auto_element_reset_domain_rockettile_trace_source_out_insns_0_cause_0; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_insns_0_tval = auto_element_reset_domain_rockettile_trace_source_out_insns_0_tval_0; // @[ClockDomain.scala:14:9] assign auto_element_reset_domain_rockettile_trace_source_out_time = auto_element_reset_domain_rockettile_trace_source_out_time_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_a_valid = auto_tl_master_clock_xing_out_a_valid_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_a_bits_opcode = auto_tl_master_clock_xing_out_a_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_a_bits_param = auto_tl_master_clock_xing_out_a_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_a_bits_size = auto_tl_master_clock_xing_out_a_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_a_bits_source = auto_tl_master_clock_xing_out_a_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_a_bits_address = auto_tl_master_clock_xing_out_a_bits_address_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_a_bits_mask = auto_tl_master_clock_xing_out_a_bits_mask_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_a_bits_data = auto_tl_master_clock_xing_out_a_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_a_bits_corrupt = auto_tl_master_clock_xing_out_a_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_b_ready = auto_tl_master_clock_xing_out_b_ready_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_c_valid = auto_tl_master_clock_xing_out_c_valid_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_c_bits_opcode = auto_tl_master_clock_xing_out_c_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_c_bits_param = auto_tl_master_clock_xing_out_c_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_c_bits_size = auto_tl_master_clock_xing_out_c_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_c_bits_source = auto_tl_master_clock_xing_out_c_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_c_bits_address = auto_tl_master_clock_xing_out_c_bits_address_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_c_bits_data = auto_tl_master_clock_xing_out_c_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_c_bits_corrupt = auto_tl_master_clock_xing_out_c_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_d_ready = auto_tl_master_clock_xing_out_d_ready_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_e_valid = auto_tl_master_clock_xing_out_e_valid_0; // @[ClockDomain.scala:14:9] assign auto_tl_master_clock_xing_out_e_bits_sink = auto_tl_master_clock_xing_out_e_bits_sink_0; // @[ClockDomain.scala:14:9] endmodule
Generate the Verilog code corresponding to the following Chisel files. File RecFNToRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import consts._ class RecFNToRecFN( inExpWidth: Int, inSigWidth: Int, outExpWidth: Int, outSigWidth: Int) extends chisel3.RawModule { val io = IO(new Bundle { val in = Input(Bits((inExpWidth + inSigWidth + 1).W)) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((outExpWidth + outSigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val rawIn = rawFloatFromRecFN(inExpWidth, inSigWidth, io.in); if ((inExpWidth == outExpWidth) && (inSigWidth <= outSigWidth)) { //-------------------------------------------------------------------- //-------------------------------------------------------------------- io.out := io.in<<(outSigWidth - inSigWidth) io.exceptionFlags := isSigNaNRawFloat(rawIn) ## 0.U(4.W) } else { //-------------------------------------------------------------------- //-------------------------------------------------------------------- val roundAnyRawFNToRecFN = Module( new RoundAnyRawFNToRecFN( inExpWidth, inSigWidth, outExpWidth, outSigWidth, flRoundOpt_sigMSBitAlwaysZero )) roundAnyRawFNToRecFN.io.invalidExc := isSigNaNRawFloat(rawIn) roundAnyRawFNToRecFN.io.infiniteExc := false.B roundAnyRawFNToRecFN.io.in := rawIn roundAnyRawFNToRecFN.io.roundingMode := io.roundingMode roundAnyRawFNToRecFN.io.detectTininess := io.detectTininess io.out := roundAnyRawFNToRecFN.io.out io.exceptionFlags := roundAnyRawFNToRecFN.io.exceptionFlags } } File rawFloatFromRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ /*---------------------------------------------------------------------------- | In the result, no more than one of 'isNaN', 'isInf', and 'isZero' will be | set. *----------------------------------------------------------------------------*/ object rawFloatFromRecFN { def apply(expWidth: Int, sigWidth: Int, in: Bits): RawFloat = { val exp = in(expWidth + sigWidth - 1, sigWidth - 1) val isZero = exp(expWidth, expWidth - 2) === 0.U val isSpecial = exp(expWidth, expWidth - 1) === 3.U val out = Wire(new RawFloat(expWidth, sigWidth)) out.isNaN := isSpecial && exp(expWidth - 2) out.isInf := isSpecial && ! exp(expWidth - 2) out.isZero := isZero out.sign := in(expWidth + sigWidth) out.sExp := exp.zext out.sig := 0.U(1.W) ## ! isZero ## in(sigWidth - 2, 0) out } }
module RecFNToRecFN_166( // @[RecFNToRecFN.scala:44:5] input [32:0] io_in, // @[RecFNToRecFN.scala:48:16] output [32:0] io_out // @[RecFNToRecFN.scala:48:16] ); wire [32:0] io_in_0 = io_in; // @[RecFNToRecFN.scala:44:5] wire io_detectTininess = 1'h1; // @[RecFNToRecFN.scala:44:5, :48:16] wire [2:0] io_roundingMode = 3'h0; // @[RecFNToRecFN.scala:44:5, :48:16] wire [32:0] _io_out_T = io_in_0; // @[RecFNToRecFN.scala:44:5, :64:35] wire [4:0] _io_exceptionFlags_T_3; // @[RecFNToRecFN.scala:65:54] wire [32:0] io_out_0; // @[RecFNToRecFN.scala:44:5] wire [4:0] io_exceptionFlags; // @[RecFNToRecFN.scala:44:5] wire [8:0] rawIn_exp = io_in_0[31:23]; // @[rawFloatFromRecFN.scala:51:21] wire [2:0] _rawIn_isZero_T = rawIn_exp[8:6]; // @[rawFloatFromRecFN.scala:51:21, :52:28] wire rawIn_isZero = _rawIn_isZero_T == 3'h0; // @[rawFloatFromRecFN.scala:52:{28,53}] wire rawIn_isZero_0 = rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :55:23] wire [1:0] _rawIn_isSpecial_T = rawIn_exp[8:7]; // @[rawFloatFromRecFN.scala:51:21, :53:28] wire rawIn_isSpecial = &_rawIn_isSpecial_T; // @[rawFloatFromRecFN.scala:53:{28,53}] wire _rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:56:33] wire _rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:57:33] wire _rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:59:25] wire [9:0] _rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:60:27] wire [24:0] _rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:61:44] wire rawIn_isNaN; // @[rawFloatFromRecFN.scala:55:23] wire rawIn_isInf; // @[rawFloatFromRecFN.scala:55:23] wire rawIn_sign; // @[rawFloatFromRecFN.scala:55:23] wire [9:0] rawIn_sExp; // @[rawFloatFromRecFN.scala:55:23] wire [24:0] rawIn_sig; // @[rawFloatFromRecFN.scala:55:23] wire _rawIn_out_isNaN_T = rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41] wire _rawIn_out_isInf_T = rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41, :57:41] assign _rawIn_out_isNaN_T_1 = rawIn_isSpecial & _rawIn_out_isNaN_T; // @[rawFloatFromRecFN.scala:53:53, :56:{33,41}] assign rawIn_isNaN = _rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:55:23, :56:33] wire _rawIn_out_isInf_T_1 = ~_rawIn_out_isInf_T; // @[rawFloatFromRecFN.scala:57:{36,41}] assign _rawIn_out_isInf_T_2 = rawIn_isSpecial & _rawIn_out_isInf_T_1; // @[rawFloatFromRecFN.scala:53:53, :57:{33,36}] assign rawIn_isInf = _rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:55:23, :57:33] assign _rawIn_out_sign_T = io_in_0[32]; // @[rawFloatFromRecFN.scala:59:25] assign rawIn_sign = _rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:55:23, :59:25] assign _rawIn_out_sExp_T = {1'h0, rawIn_exp}; // @[rawFloatFromRecFN.scala:51:21, :60:27] assign rawIn_sExp = _rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:55:23, :60:27] wire _rawIn_out_sig_T = ~rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :61:35] wire [1:0] _rawIn_out_sig_T_1 = {1'h0, _rawIn_out_sig_T}; // @[rawFloatFromRecFN.scala:61:{32,35}] wire [22:0] _rawIn_out_sig_T_2 = io_in_0[22:0]; // @[rawFloatFromRecFN.scala:61:49] assign _rawIn_out_sig_T_3 = {_rawIn_out_sig_T_1, _rawIn_out_sig_T_2}; // @[rawFloatFromRecFN.scala:61:{32,44,49}] assign rawIn_sig = _rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:55:23, :61:44] assign io_out_0 = _io_out_T; // @[RecFNToRecFN.scala:44:5, :64:35] wire _io_exceptionFlags_T = rawIn_sig[22]; // @[rawFloatFromRecFN.scala:55:23] wire _io_exceptionFlags_T_1 = ~_io_exceptionFlags_T; // @[common.scala:82:{49,56}] wire _io_exceptionFlags_T_2 = rawIn_isNaN & _io_exceptionFlags_T_1; // @[rawFloatFromRecFN.scala:55:23] assign _io_exceptionFlags_T_3 = {_io_exceptionFlags_T_2, 4'h0}; // @[common.scala:82:46] assign io_exceptionFlags = _io_exceptionFlags_T_3; // @[RecFNToRecFN.scala:44:5, :65:54] assign io_out = io_out_0; // @[RecFNToRecFN.scala:44:5] endmodule
Generate the Verilog code corresponding to the following Chisel files. File TagArray.scala: package shuttle.dmem import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.diplomacy._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.util._ import freechips.rocketchip.rocket._ import freechips.rocketchip.tile.{TileKey} class L1MetadataArrayBank[T <: L1Metadata](onReset: () => T, nSets: Int)(implicit p: Parameters) extends L1HellaCacheModule()(p) { val rstVal = onReset() val io = IO(new Bundle { val read = Flipped(Decoupled(new L1MetaReadReq)) val write = Flipped(Decoupled(new L1MetaWriteReq)) val resp = Vec(nWays, Output(rstVal.cloneType)) }) val rst_cnt = RegInit(0.U(log2Up(nSets+1).W)) val rst = rst_cnt < nSets.U val waddr = Mux(rst, rst_cnt, io.write.bits.idx) val wdata = Mux(rst, rstVal, io.write.bits.data).asUInt val wmask = Mux(rst || (nWays == 1).B, ~(0.U(nWays.W)), io.write.bits.way_en).asBools val rmask = Mux(rst || (nWays == 1).B, ~(0.U(nWays.W)), io.read.bits.way_en).asBools when (rst) { rst_cnt := rst_cnt + 1.U } val metabits = rstVal.getWidth val tag_array = SyncReadMem(nSets, Vec(nWays, UInt(metabits.W))) val wen = Wire(Bool()) val ren = Wire(Bool()) val stall_ctr = RegInit(0.U(2.W)) val stall_read = stall_ctr === ~(0.U(2.W)) val force_stall = WireInit(false.B) val rbuf_valid = RegInit(false.B) val rbuf_idx = Reg(UInt(log2Ceil(nSets).W)) val rbuf = Reg(io.resp.cloneType) val forward_from_rbuf = WireInit(false.B) when (io.read.valid && force_stall) { stall_ctr := stall_ctr + 1.U } .otherwise { stall_ctr := 0.U } when (rst) { wen := true.B ren := false.B io.read.ready := false.B io.write.ready := false.B } .otherwise { when (io.read.valid && !stall_read) { when (io.read.bits.idx === rbuf_idx && rbuf_valid) { forward_from_rbuf := true.B ren := false.B wen := io.write.valid io.read.ready := true.B io.write.ready := true.B } .otherwise { ren := true.B wen := false.B io.read.ready := true.B io.write.ready := false.B force_stall := io.write.valid } } .otherwise { ren := false.B wen := io.write.valid io.read.ready := false.B io.write.ready := true.B } } val s1_read_idx = RegEnable(io.read.bits.idx, io.read.valid) when (RegNext(io.read.fire && !forward_from_rbuf) && !(io.write.valid && io.write.bits.idx === s1_read_idx)) { rbuf_valid := true.B rbuf_idx := s1_read_idx rbuf := io.resp } when (io.write.valid && io.write.bits.idx === rbuf_idx) { rbuf_valid := false.B } when (wen) { tag_array.write(waddr, VecInit(Seq.fill(nWays) { wdata }), wmask) } io.resp := tag_array.read(io.read.bits.idx, ren && !wen).map(_.asTypeOf(rstVal)) when (RegNext(forward_from_rbuf)) { io.resp := RegEnable(rbuf, forward_from_rbuf) } } class L1MetadataArrayBanked[T <: L1Metadata](onReset: () => T, nBanks: Int, nReadPorts: Int, nWritePorts: Int)(implicit p: Parameters) extends L1HellaCacheModule()(p) { val rstVal = onReset() val io = IO(new Bundle { val read = Flipped(Vec(nReadPorts, Decoupled(new L1MetaReadReq))) val write = Flipped(Vec(nWritePorts, Decoupled(new L1MetaWriteReq))) val resp = Vec(nReadPorts, Vec(nWays, Output(rstVal.cloneType))) }) // No banking, duplicate the arrays if (nBanks == 0) { val arrays = Seq.fill(nReadPorts) { Module(new L1MetadataArrayBank(onReset, nSets)) } (io.read zip arrays).map { case (r,a) => a.io.read <> r } (io.resp zip arrays).map { case (r,a) => r <> a.io.resp } val write_arb = Module(new Arbiter(new L1MetaWriteReq, nWritePorts)) write_arb.io.in <> io.write write_arb.io.out.ready := arrays.map(_.io.write.ready).reduce(_&&_) arrays.foreach(_.io.write.bits := write_arb.io.out.bits) arrays.zipWithIndex.foreach { case (a,i) => a.io.write.valid := write_arb.io.out.valid && arrays.patch(i, Nil, 1).map(_.io.write.ready).reduce(_&&_) } } else if (nBanks == 1) { val array = Module(new L1MetadataArrayBank(onReset, nSets)) val arb = Module(new Arbiter(new L1MetaReadReq, nReadPorts)) arb.io.in <> io.read array.io.read <> arb.io.out io.resp.foreach(_ <> array.io.resp) val write_arb = Module(new Arbiter(new L1MetaWriteReq, nWritePorts)) write_arb.io.in <> io.write array.io.write <> write_arb.io.out } else { val bankBits = log2Ceil(nBanks) val arrays = Seq.fill(nBanks) { Module(new L1MetadataArrayBank(onReset, nSets/nBanks)) } val arbs = Seq.fill(nBanks) { Module(new Arbiter(new L1MetaReadReq, nReadPorts)) } val write_arbs = Seq.fill(nBanks) { Module(new Arbiter(new L1MetaWriteReq, nWritePorts)) } io.read.foreach(_.ready := false.B) io.resp.foreach(_ := DontCare) for (i <- 0 until nReadPorts) { for (b <- 0 until nBanks) { arbs(b).io.in(i).valid := io.read(i).valid && io.read(i).bits.idx(bankBits-1,0) === b.U arbs(b).io.in(i).bits := io.read(i).bits arbs(b).io.in(i).bits.idx := io.read(i).bits.idx >> bankBits when (io.read(i).bits.idx(bankBits-1,0) === b.U) { io.read(i).ready := arbs(b).io.in(i).ready } } io.resp(i) := Mux1H(UIntToOH(RegNext(io.read(i).bits.idx(bankBits-1,0))), arrays.map(_.io.resp)) } (arbs zip arrays).map { case (r,a) => a.io.read <> r.io.out } io.write.foreach(_.ready := false.B) for (i <- 0 until nWritePorts) { for (b <- 0 until nBanks) { write_arbs(b).io.in(i).valid := io.write(i).valid && io.write(i).bits.idx(bankBits-1,0) === b.U write_arbs(b).io.in(i).bits := io.write(i).bits write_arbs(b).io.in(i).bits.idx := io.write(i).bits.idx >> bankBits when (io.write(i).bits.idx(bankBits-1,0) === b.U) { io.write(i).ready := write_arbs(b).io.in(i).ready } } } (write_arbs zip arrays).map { case (r,a) => a.io.write <> r.io.out } } }
module L1MetadataArrayBank( // @[TagArray.scala:12:7] input clock, // @[TagArray.scala:12:7] input reset, // @[TagArray.scala:12:7] output io_read_ready, // @[TagArray.scala:14:14] input io_read_valid, // @[TagArray.scala:14:14] input [5:0] io_read_bits_idx, // @[TagArray.scala:14:14] output io_write_ready, // @[TagArray.scala:14:14] input io_write_valid, // @[TagArray.scala:14:14] input [5:0] io_write_bits_idx, // @[TagArray.scala:14:14] input [3:0] io_write_bits_way_en, // @[TagArray.scala:14:14] input [1:0] io_write_bits_data_coh_state, // @[TagArray.scala:14:14] input [19:0] io_write_bits_data_tag, // @[TagArray.scala:14:14] output [1:0] io_resp_0_coh_state, // @[TagArray.scala:14:14] output [19:0] io_resp_0_tag, // @[TagArray.scala:14:14] output [1:0] io_resp_1_coh_state, // @[TagArray.scala:14:14] output [19:0] io_resp_1_tag, // @[TagArray.scala:14:14] output [1:0] io_resp_2_coh_state, // @[TagArray.scala:14:14] output [19:0] io_resp_2_tag, // @[TagArray.scala:14:14] output [1:0] io_resp_3_coh_state, // @[TagArray.scala:14:14] output [19:0] io_resp_3_tag // @[TagArray.scala:14:14] ); wire [3:0] tag_array_MPORT_1_addr; // @[TagArray.scala:87:28] wire tag_array_MPORT_1_en; // @[TagArray.scala:47:14, :49:9, :53:41, :54:58, :68:11, :87:51] wire wen; // @[TagArray.scala:47:14, :48:9, :53:41] wire [87:0] _tag_array_RW0_rdata; // @[TagArray.scala:28:30] reg [4:0] rst_cnt; // @[TagArray.scala:19:24] wire [1:0] _wdata_T_coh_state = rst_cnt[4] ? io_write_bits_data_coh_state : 2'h0; // @[TagArray.scala:19:24, :20:21, :22:18] wire [19:0] _wdata_T_tag = rst_cnt[4] ? io_write_bits_data_tag : 20'h0; // @[TagArray.scala:19:24, :20:21, :22:18] reg [1:0] stall_ctr; // @[TagArray.scala:32:26] reg rbuf_valid; // @[TagArray.scala:36:27] reg [3:0] rbuf_idx; // @[TagArray.scala:37:21] reg [1:0] rbuf_0_coh_state; // @[TagArray.scala:38:17] reg [19:0] rbuf_0_tag; // @[TagArray.scala:38:17] reg [1:0] rbuf_1_coh_state; // @[TagArray.scala:38:17] reg [19:0] rbuf_1_tag; // @[TagArray.scala:38:17] reg [1:0] rbuf_2_coh_state; // @[TagArray.scala:38:17] reg [19:0] rbuf_2_tag; // @[TagArray.scala:38:17] reg [1:0] rbuf_3_coh_state; // @[TagArray.scala:38:17] reg [19:0] rbuf_3_tag; // @[TagArray.scala:38:17] wire _GEN = io_read_valid & stall_ctr != 2'h3; // @[TagArray.scala:32:26, :33:30, :53:25] wire [5:0] _GEN_0 = {2'h0, rbuf_idx}; // @[TagArray.scala:37:21, :54:30] wire _GEN_1 = io_read_bits_idx == _GEN_0 & rbuf_valid; // @[TagArray.scala:36:27, :54:{30,43}] wire _GEN_2 = ~_GEN | _GEN_1; // @[TagArray.scala:53:{25,41}, :54:{43,58}, :69:11] assign wen = ~(rst_cnt[4]) | _GEN_2 & io_write_valid; // @[TagArray.scala:19:24, :20:21, :47:14, :48:9, :53:41, :54:58, :69:11] wire io_read_ready_0 = rst_cnt[4] & _GEN; // @[TagArray.scala:19:24, :20:21, :47:14, :50:19, :53:{25,41}] reg [5:0] s1_read_idx; // @[TagArray.scala:74:30] reg REG; // @[TagArray.scala:75:16] assign tag_array_MPORT_1_en = rst_cnt[4] & _GEN & ~_GEN_1 & ~wen; // @[TagArray.scala:19:24, :20:21, :47:14, :48:9, :49:9, :53:{25,41}, :54:{43,58}, :56:13, :61:13, :68:11, :87:{51,54}] assign tag_array_MPORT_1_addr = io_read_bits_idx[3:0]; // @[TagArray.scala:87:28] reg REG_1; // @[TagArray.scala:88:16] reg [1:0] r_0_coh_state; // @[TagArray.scala:89:25] reg [19:0] r_0_tag; // @[TagArray.scala:89:25] reg [1:0] r_1_coh_state; // @[TagArray.scala:89:25] reg [19:0] r_1_tag; // @[TagArray.scala:89:25] reg [1:0] r_2_coh_state; // @[TagArray.scala:89:25] reg [19:0] r_2_tag; // @[TagArray.scala:89:25] reg [1:0] r_3_coh_state; // @[TagArray.scala:89:25] reg [19:0] r_3_tag; // @[TagArray.scala:89:25] wire [1:0] io_resp_0_coh_state_0 = REG_1 ? r_0_coh_state : _tag_array_RW0_rdata[21:20]; // @[TagArray.scala:28:30, :87:{11,74}, :88:{16,37}, :89:{13,25}] wire [19:0] io_resp_0_tag_0 = REG_1 ? r_0_tag : _tag_array_RW0_rdata[19:0]; // @[TagArray.scala:28:30, :87:{11,74}, :88:{16,37}, :89:{13,25}] wire [1:0] io_resp_1_coh_state_0 = REG_1 ? r_1_coh_state : _tag_array_RW0_rdata[43:42]; // @[TagArray.scala:28:30, :87:{11,74}, :88:{16,37}, :89:{13,25}] wire [19:0] io_resp_1_tag_0 = REG_1 ? r_1_tag : _tag_array_RW0_rdata[41:22]; // @[TagArray.scala:28:30, :87:{11,74}, :88:{16,37}, :89:{13,25}] wire [1:0] io_resp_2_coh_state_0 = REG_1 ? r_2_coh_state : _tag_array_RW0_rdata[65:64]; // @[TagArray.scala:28:30, :87:{11,74}, :88:{16,37}, :89:{13,25}] wire [19:0] io_resp_2_tag_0 = REG_1 ? r_2_tag : _tag_array_RW0_rdata[63:44]; // @[TagArray.scala:28:30, :87:{11,74}, :88:{16,37}, :89:{13,25}] wire [1:0] io_resp_3_coh_state_0 = REG_1 ? r_3_coh_state : _tag_array_RW0_rdata[87:86]; // @[TagArray.scala:28:30, :87:{11,74}, :88:{16,37}, :89:{13,25}] wire [19:0] io_resp_3_tag_0 = REG_1 ? r_3_tag : _tag_array_RW0_rdata[85:66]; // @[TagArray.scala:28:30, :87:{11,74}, :88:{16,37}, :89:{13,25}] wire forward_from_rbuf = rst_cnt[4] & _GEN & _GEN_1; // @[TagArray.scala:19:24, :20:21, :39:35, :47:14, :53:{25,41}, :54:{43,58}] wire _GEN_3 = REG & ~(io_write_valid & io_write_bits_idx == s1_read_idx); // @[TagArray.scala:74:30, :75:{16,53,56,73,94}] always @(posedge clock) begin // @[TagArray.scala:12:7] if (reset) begin // @[TagArray.scala:12:7] rst_cnt <= 5'h0; // @[TagArray.scala:19:24] stall_ctr <= 2'h0; // @[TagArray.scala:32:26] rbuf_valid <= 1'h0; // @[TagArray.scala:36:27] end else begin // @[TagArray.scala:12:7] if (rst_cnt[4]) begin // @[TagArray.scala:19:24, :20:21] end else // @[TagArray.scala:20:21] rst_cnt <= rst_cnt + 5'h1; // @[TagArray.scala:19:24, :25:35] stall_ctr <= rst_cnt[4] & _GEN & ~_GEN_1 & io_write_valid ? stall_ctr + 2'h1 : 2'h0; // @[TagArray.scala:19:24, :20:21, :32:26, :34:29, :41:{23,39}, :42:{15,28}, :44:15, :47:14, :53:{25,41}, :54:{43,58}, :65:21] rbuf_valid <= ~(io_write_valid & io_write_bits_idx == _GEN_0) & (_GEN_3 | rbuf_valid); // @[TagArray.scala:36:27, :54:30, :75:{53,112}, :76:16, :80:{24,45,59}, :81:16] end if (_GEN_3) begin // @[TagArray.scala:75:53] rbuf_idx <= s1_read_idx[3:0]; // @[TagArray.scala:37:21, :74:30, :77:14] rbuf_0_coh_state <= io_resp_0_coh_state_0; // @[TagArray.scala:38:17, :87:11, :88:37, :89:13] rbuf_0_tag <= io_resp_0_tag_0; // @[TagArray.scala:38:17, :87:11, :88:37, :89:13] rbuf_1_coh_state <= io_resp_1_coh_state_0; // @[TagArray.scala:38:17, :87:11, :88:37, :89:13] rbuf_1_tag <= io_resp_1_tag_0; // @[TagArray.scala:38:17, :87:11, :88:37, :89:13] rbuf_2_coh_state <= io_resp_2_coh_state_0; // @[TagArray.scala:38:17, :87:11, :88:37, :89:13] rbuf_2_tag <= io_resp_2_tag_0; // @[TagArray.scala:38:17, :87:11, :88:37, :89:13] rbuf_3_coh_state <= io_resp_3_coh_state_0; // @[TagArray.scala:38:17, :87:11, :88:37, :89:13] rbuf_3_tag <= io_resp_3_tag_0; // @[TagArray.scala:38:17, :87:11, :88:37, :89:13] end if (io_read_valid) // @[TagArray.scala:14:14] s1_read_idx <= io_read_bits_idx; // @[TagArray.scala:74:30] REG <= io_read_ready_0 & ~forward_from_rbuf; // @[TagArray.scala:39:35, :47:14, :50:19, :53:41, :54:58, :75:{16,30,33}] REG_1 <= forward_from_rbuf; // @[TagArray.scala:39:35, :47:14, :53:41, :54:58, :88:16] if (forward_from_rbuf) begin // @[TagArray.scala:39:35, :47:14, :53:41, :54:58] r_0_coh_state <= rbuf_0_coh_state; // @[TagArray.scala:38:17, :89:25] r_0_tag <= rbuf_0_tag; // @[TagArray.scala:38:17, :89:25] r_1_coh_state <= rbuf_1_coh_state; // @[TagArray.scala:38:17, :89:25] r_1_tag <= rbuf_1_tag; // @[TagArray.scala:38:17, :89:25] r_2_coh_state <= rbuf_2_coh_state; // @[TagArray.scala:38:17, :89:25] r_2_tag <= rbuf_2_tag; // @[TagArray.scala:38:17, :89:25] r_3_coh_state <= rbuf_3_coh_state; // @[TagArray.scala:38:17, :89:25] r_3_tag <= rbuf_3_tag; // @[TagArray.scala:38:17, :89:25] end always @(posedge)
Generate the Verilog code corresponding to the following Chisel files. File Decode.scala: // See LICENSE.Berkeley for license details. package freechips.rocketchip.rocket import chisel3._ import chisel3.util.BitPat import chisel3.util.experimental.decode._ object DecodeLogic { // TODO This should be a method on BitPat private def hasDontCare(bp: BitPat): Boolean = bp.mask.bitCount != bp.width // Pads BitPats that are safe to pad (no don't cares), errors otherwise private def padBP(bp: BitPat, width: Int): BitPat = { if (bp.width == width) bp else { require(!hasDontCare(bp), s"Cannot pad '$bp' to '$width' bits because it has don't cares") val diff = width - bp.width require(diff > 0, s"Cannot pad '$bp' to '$width' because it is already '${bp.width}' bits wide!") BitPat(0.U(diff.W)) ## bp } } def apply(addr: UInt, default: BitPat, mapping: Iterable[(BitPat, BitPat)]): UInt = chisel3.util.experimental.decode.decoder(QMCMinimizer, addr, TruthTable(mapping, default)) def apply(addr: UInt, default: Seq[BitPat], mappingIn: Iterable[(BitPat, Seq[BitPat])]): Seq[UInt] = { val nElts = default.size require(mappingIn.forall(_._2.size == nElts), s"All Seq[BitPat] must be of the same length, got $nElts vs. ${mappingIn.find(_._2.size != nElts).get}" ) val elementsGrouped = mappingIn.map(_._2).transpose val elementWidths = elementsGrouped.zip(default).map { case (elts, default) => (default :: elts.toList).map(_.getWidth).max } val resultWidth = elementWidths.sum val elementIndices = elementWidths.scan(resultWidth - 1) { case (l, r) => l - r } // All BitPats that correspond to a given element in the result must have the same width in the // chisel3 decoder. We will zero pad any BitPats that are too small so long as they dont have // any don't cares. If there are don't cares, it is an error and the user needs to pad the // BitPat themselves val defaultsPadded = default.zip(elementWidths).map { case (bp, w) => padBP(bp, w) } val mappingInPadded = mappingIn.map { case (in, elts) => in -> elts.zip(elementWidths).map { case (bp, w) => padBP(bp, w) } } val decoded = apply(addr, defaultsPadded.reduce(_ ## _), mappingInPadded.map { case (in, out) => (in, out.reduce(_ ## _)) }) elementIndices.zip(elementIndices.tail).map { case (msb, lsb) => decoded(msb, lsb + 1) }.toList } def apply(addr: UInt, default: Seq[BitPat], mappingIn: List[(UInt, Seq[BitPat])]): Seq[UInt] = apply(addr, default, mappingIn.map(m => (BitPat(m._1), m._2)).asInstanceOf[Iterable[(BitPat, Seq[BitPat])]]) def apply(addr: UInt, trues: Iterable[UInt], falses: Iterable[UInt]): Bool = apply(addr, BitPat.dontCare(1), trues.map(BitPat(_) -> BitPat("b1")) ++ falses.map(BitPat(_) -> BitPat("b0"))).asBool } File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File CustomCSRs.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tile import chisel3._ import org.chipsalliance.cde.config.Parameters case class CustomCSR(id: Int, mask: BigInt, init: Option[BigInt]) object CustomCSR { def constant(id: Int, value: BigInt): CustomCSR = CustomCSR(id, BigInt(0), Some(value)) } class CustomCSRIO(implicit p: Parameters) extends CoreBundle { val ren = Output(Bool()) // set by CSRFile, indicates an instruction is reading the CSR val wen = Output(Bool()) // set by CSRFile, indicates an instruction is writing the CSR val wdata = Output(UInt(xLen.W)) // wdata provided by instruction writing CSR val value = Output(UInt(xLen.W)) // current value of CSR in CSRFile val stall = Input(Bool()) // reads and writes to this CSR should stall (must be bounded) val set = Input(Bool()) // set/sdata enables external agents to set the value of this CSR val sdata = Input(UInt(xLen.W)) } class CustomCSRs(implicit p: Parameters) extends CoreBundle { // Not all cores have these CSRs, but those that do should follow the same // numbering conventions. So we list them here but default them to None. protected def bpmCSRId = 0x7c0 protected def bpmCSR: Option[CustomCSR] = None protected def chickenCSRId = 0x7c1 protected def chickenCSR: Option[CustomCSR] = None // If you override this, you'll want to concatenate super.decls def decls: Seq[CustomCSR] = bpmCSR.toSeq ++ chickenCSR val csrs = Vec(decls.size, new CustomCSRIO) def flushBTB = getOrElse(bpmCSR, _.wen, false.B) def bpmStatic = getOrElse(bpmCSR, _.value(0), false.B) def disableDCacheClockGate = getOrElse(chickenCSR, _.value(0), false.B) def disableICacheClockGate = getOrElse(chickenCSR, _.value(1), false.B) def disableCoreClockGate = getOrElse(chickenCSR, _.value(2), false.B) def disableSpeculativeICacheRefill = getOrElse(chickenCSR, _.value(3), false.B) def suppressCorruptOnGrantData = getOrElse(chickenCSR, _.value(9), false.B) protected def getByIdOrElse[T](id: Int, f: CustomCSRIO => T, alt: T): T = { val idx = decls.indexWhere(_.id == id) if (idx < 0) alt else f(csrs(idx)) } protected def getOrElse[T](csr: Option[CustomCSR], f: CustomCSRIO => T, alt: T): T = csr.map(c => getByIdOrElse(c.id, f, alt)).getOrElse(alt) } File Consts.scala: // See LICENSE.Berkeley for license details. package freechips.rocketchip.rocket.constants import chisel3._ import chisel3.util._ import freechips.rocketchip.util._ trait ScalarOpConstants { val SZ_BR = 3 def BR_X = BitPat("b???") def BR_EQ = 0.U(3.W) def BR_NE = 1.U(3.W) def BR_J = 2.U(3.W) def BR_N = 3.U(3.W) def BR_LT = 4.U(3.W) def BR_GE = 5.U(3.W) def BR_LTU = 6.U(3.W) def BR_GEU = 7.U(3.W) def A1_X = BitPat("b??") def A1_ZERO = 0.U(2.W) def A1_RS1 = 1.U(2.W) def A1_PC = 2.U(2.W) def A1_RS1SHL = 3.U(2.W) def IMM_X = BitPat("b???") def IMM_S = 0.U(3.W) def IMM_SB = 1.U(3.W) def IMM_U = 2.U(3.W) def IMM_UJ = 3.U(3.W) def IMM_I = 4.U(3.W) def IMM_Z = 5.U(3.W) def A2_X = BitPat("b???") def A2_ZERO = 0.U(3.W) def A2_SIZE = 1.U(3.W) def A2_RS2 = 2.U(3.W) def A2_IMM = 3.U(3.W) def A2_RS2OH = 4.U(3.W) def A2_IMMOH = 5.U(3.W) def X = BitPat("b?") def N = BitPat("b0") def Y = BitPat("b1") val SZ_DW = 1 def DW_X = X def DW_32 = false.B def DW_64 = true.B def DW_XPR = DW_64 } trait MemoryOpConstants { val NUM_XA_OPS = 9 val M_SZ = 5 def M_X = BitPat("b?????"); def M_XRD = "b00000".U; // int load def M_XWR = "b00001".U; // int store def M_PFR = "b00010".U; // prefetch with intent to read def M_PFW = "b00011".U; // prefetch with intent to write def M_XA_SWAP = "b00100".U def M_FLUSH_ALL = "b00101".U // flush all lines def M_XLR = "b00110".U def M_XSC = "b00111".U def M_XA_ADD = "b01000".U def M_XA_XOR = "b01001".U def M_XA_OR = "b01010".U def M_XA_AND = "b01011".U def M_XA_MIN = "b01100".U def M_XA_MAX = "b01101".U def M_XA_MINU = "b01110".U def M_XA_MAXU = "b01111".U def M_FLUSH = "b10000".U // write back dirty data and cede R/W permissions def M_PWR = "b10001".U // partial (masked) store def M_PRODUCE = "b10010".U // write back dirty data and cede W permissions def M_CLEAN = "b10011".U // write back dirty data and retain R/W permissions def M_SFENCE = "b10100".U // SFENCE.VMA def M_HFENCEV = "b10101".U // HFENCE.VVMA def M_HFENCEG = "b10110".U // HFENCE.GVMA def M_WOK = "b10111".U // check write permissions but don't perform a write def M_HLVX = "b10000".U // HLVX instruction def isAMOLogical(cmd: UInt) = cmd.isOneOf(M_XA_SWAP, M_XA_XOR, M_XA_OR, M_XA_AND) def isAMOArithmetic(cmd: UInt) = cmd.isOneOf(M_XA_ADD, M_XA_MIN, M_XA_MAX, M_XA_MINU, M_XA_MAXU) def isAMO(cmd: UInt) = isAMOLogical(cmd) || isAMOArithmetic(cmd) def isPrefetch(cmd: UInt) = cmd === M_PFR || cmd === M_PFW def isRead(cmd: UInt) = cmd.isOneOf(M_XRD, M_HLVX, M_XLR, M_XSC) || isAMO(cmd) def isWrite(cmd: UInt) = cmd === M_XWR || cmd === M_PWR || cmd === M_XSC || isAMO(cmd) def isWriteIntent(cmd: UInt) = isWrite(cmd) || cmd === M_PFW || cmd === M_XLR } File Events.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.rocket import chisel3._ import chisel3.util.log2Ceil import freechips.rocketchip.util._ import freechips.rocketchip.util.property class EventSet(val gate: (UInt, UInt) => Bool, val events: Seq[(String, () => Bool)]) { def size = events.size val hits = WireDefault(VecInit(Seq.fill(size)(false.B))) def check(mask: UInt) = { hits := events.map(_._2()) gate(mask, hits.asUInt) } def dump(): Unit = { for (((name, _), i) <- events.zipWithIndex) when (check(1.U << i)) { printf(s"Event $name\n") } } def withCovers: Unit = { events.zipWithIndex.foreach { case ((name, func), i) => property.cover(gate((1.U << i), (func() << i)), name) } } } class EventSets(val eventSets: Seq[EventSet]) { def maskEventSelector(eventSel: UInt): UInt = { // allow full associativity between counters and event sets (for now?) val setMask = (BigInt(1) << eventSetIdBits) - 1 val maskMask = ((BigInt(1) << eventSets.map(_.size).max) - 1) << maxEventSetIdBits eventSel & (setMask | maskMask).U } private def decode(counter: UInt): (UInt, UInt) = { require(eventSets.size <= (1 << maxEventSetIdBits)) require(eventSetIdBits > 0) (counter(eventSetIdBits-1, 0), counter >> maxEventSetIdBits) } def evaluate(eventSel: UInt): Bool = { val (set, mask) = decode(eventSel) val sets = for (e <- eventSets) yield { require(e.hits.getWidth <= mask.getWidth, s"too many events ${e.hits.getWidth} wider than mask ${mask.getWidth}") e check mask } sets(set) } def cover() = eventSets.foreach { _.withCovers } private def eventSetIdBits = log2Ceil(eventSets.size) private def maxEventSetIdBits = 8 require(eventSetIdBits <= maxEventSetIdBits) } class SuperscalarEventSets(val eventSets: Seq[(Seq[EventSet], (UInt, UInt) => UInt)]) { def evaluate(eventSel: UInt): UInt = { val (set, mask) = decode(eventSel) val sets = for ((sets, reducer) <- eventSets) yield { sets.map { set => require(set.hits.getWidth <= mask.getWidth, s"too many events ${set.hits.getWidth} wider than mask ${mask.getWidth}") set.check(mask) }.reduce(reducer) } val zeroPadded = sets.padTo(1 << eventSetIdBits, 0.U) zeroPadded(set) } def toScalarEventSets: EventSets = new EventSets(eventSets.map(_._1.head)) def cover(): Unit = { eventSets.foreach(_._1.foreach(_.withCovers)) } private def decode(counter: UInt): (UInt, UInt) = { require(eventSets.size <= (1 << maxEventSetIdBits)) require(eventSetIdBits > 0) (counter(eventSetIdBits-1, 0), counter >> maxEventSetIdBits) } private def eventSetIdBits = log2Ceil(eventSets.size) private def maxEventSetIdBits = 8 require(eventSets.forall(s => s._1.forall(_.size == s._1.head.size))) require(eventSetIdBits <= maxEventSetIdBits) } File RocketCore.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.rocket import chisel3._ import chisel3.util._ import chisel3.withClock import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.tile._ import freechips.rocketchip.util._ import freechips.rocketchip.util.property import scala.collection.mutable.ArrayBuffer case class RocketCoreParams( xLen: Int = 64, pgLevels: Int = 3, // sv39 default bootFreqHz: BigInt = 0, useVM: Boolean = true, useUser: Boolean = false, useSupervisor: Boolean = false, useHypervisor: Boolean = false, useDebug: Boolean = true, useAtomics: Boolean = true, useAtomicsOnlyForIO: Boolean = false, useCompressed: Boolean = true, useRVE: Boolean = false, useConditionalZero: Boolean = false, useZba: Boolean = false, useZbb: Boolean = false, useZbs: Boolean = false, nLocalInterrupts: Int = 0, useNMI: Boolean = false, nBreakpoints: Int = 1, useBPWatch: Boolean = false, mcontextWidth: Int = 0, scontextWidth: Int = 0, nPMPs: Int = 8, nPerfCounters: Int = 0, haveBasicCounters: Boolean = true, haveCFlush: Boolean = false, misaWritable: Boolean = true, nL2TLBEntries: Int = 0, nL2TLBWays: Int = 1, nPTECacheEntries: Int = 8, mtvecInit: Option[BigInt] = Some(BigInt(0)), mtvecWritable: Boolean = true, fastLoadWord: Boolean = true, fastLoadByte: Boolean = false, branchPredictionModeCSR: Boolean = false, clockGate: Boolean = false, mvendorid: Int = 0, // 0 means non-commercial implementation mimpid: Int = 0x20181004, // release date in BCD mulDiv: Option[MulDivParams] = Some(MulDivParams()), fpu: Option[FPUParams] = Some(FPUParams()), debugROB: Option[DebugROBParams] = None, // if size < 1, SW ROB, else HW ROB haveCease: Boolean = true, // non-standard CEASE instruction haveSimTimeout: Boolean = true, // add plusarg for simulation timeout vector: Option[RocketCoreVectorParams] = None ) extends CoreParams { val lgPauseCycles = 5 val haveFSDirty = false val pmpGranularity: Int = if (useHypervisor) 4096 else 4 val fetchWidth: Int = if (useCompressed) 2 else 1 // fetchWidth doubled, but coreInstBytes halved, for RVC: val decodeWidth: Int = fetchWidth / (if (useCompressed) 2 else 1) val retireWidth: Int = 1 val instBits: Int = if (useCompressed) 16 else 32 val lrscCycles: Int = 80 // worst case is 14 mispredicted branches + slop val traceHasWdata: Boolean = debugROB.isDefined // ooo wb, so no wdata in trace override val useVector = vector.isDefined override val vectorUseDCache = vector.map(_.useDCache).getOrElse(false) override def vLen = vector.map(_.vLen).getOrElse(0) override def eLen = vector.map(_.eLen).getOrElse(0) override def vfLen = vector.map(_.vfLen).getOrElse(0) override def vfh = vector.map(_.vfh).getOrElse(false) override def vExts = vector.map(_.vExts).getOrElse(Nil) override def vMemDataBits = vector.map(_.vMemDataBits).getOrElse(0) override val customIsaExt = Option.when(haveCease)("xrocket") // CEASE instruction override def minFLen: Int = fpu.map(_.minFLen).getOrElse(32) override def customCSRs(implicit p: Parameters) = new RocketCustomCSRs } trait HasRocketCoreParameters extends HasCoreParameters { lazy val rocketParams: RocketCoreParams = tileParams.core.asInstanceOf[RocketCoreParams] val fastLoadWord = rocketParams.fastLoadWord val fastLoadByte = rocketParams.fastLoadByte val mulDivParams = rocketParams.mulDiv.getOrElse(MulDivParams()) // TODO ask andrew about this require(!fastLoadByte || fastLoadWord) require(!rocketParams.haveFSDirty, "rocket doesn't support setting fs dirty from outside, please disable haveFSDirty") } class RocketCustomCSRs(implicit p: Parameters) extends CustomCSRs with HasRocketCoreParameters { override def bpmCSR = { rocketParams.branchPredictionModeCSR.option(CustomCSR(bpmCSRId, BigInt(1), Some(BigInt(0)))) } private def haveDCache = tileParams.dcache.get.scratch.isEmpty override def chickenCSR = { val mask = BigInt( tileParams.dcache.get.clockGate.toInt << 0 | rocketParams.clockGate.toInt << 1 | rocketParams.clockGate.toInt << 2 | 1 << 3 | // disableSpeculativeICacheRefill haveDCache.toInt << 9 | // suppressCorruptOnGrantData tileParams.icache.get.prefetch.toInt << 17 ) Some(CustomCSR(chickenCSRId, mask, Some(mask))) } def disableICachePrefetch = getOrElse(chickenCSR, _.value(17), true.B) def marchid = CustomCSR.constant(CSRs.marchid, BigInt(1)) def mvendorid = CustomCSR.constant(CSRs.mvendorid, BigInt(rocketParams.mvendorid)) // mimpid encodes a release version in the form of a BCD-encoded datestamp. def mimpid = CustomCSR.constant(CSRs.mimpid, BigInt(rocketParams.mimpid)) override def decls = super.decls :+ marchid :+ mvendorid :+ mimpid } class CoreInterrupts(val hasBeu: Boolean)(implicit p: Parameters) extends TileInterrupts()(p) { val buserror = Option.when(hasBeu)(Bool()) } trait HasRocketCoreIO extends HasRocketCoreParameters { implicit val p: Parameters def nTotalRoCCCSRs: Int val io = IO(new CoreBundle()(p) { val hartid = Input(UInt(hartIdLen.W)) val reset_vector = Input(UInt(resetVectorLen.W)) val interrupts = Input(new CoreInterrupts(tileParams.asInstanceOf[RocketTileParams].beuAddr.isDefined)) val imem = new FrontendIO val dmem = new HellaCacheIO val ptw = Flipped(new DatapathPTWIO()) val fpu = Flipped(new FPUCoreIO()) val rocc = Flipped(new RoCCCoreIO(nTotalRoCCCSRs)) val trace = Output(new TraceBundle) val bpwatch = Output(Vec(coreParams.nBreakpoints, new BPWatch(coreParams.retireWidth))) val cease = Output(Bool()) val wfi = Output(Bool()) val traceStall = Input(Bool()) val vector = if (usingVector) Some(Flipped(new VectorCoreIO)) else None }) } class Rocket(tile: RocketTile)(implicit p: Parameters) extends CoreModule()(p) with HasRocketCoreParameters with HasRocketCoreIO { def nTotalRoCCCSRs = tile.roccCSRs.flatten.size import ALU._ val clock_en_reg = RegInit(true.B) val long_latency_stall = Reg(Bool()) val id_reg_pause = Reg(Bool()) val imem_might_request_reg = Reg(Bool()) val clock_en = WireDefault(true.B) val gated_clock = if (!rocketParams.clockGate) clock else ClockGate(clock, clock_en, "rocket_clock_gate") class RocketImpl { // entering gated-clock domain // performance counters def pipelineIDToWB[T <: Data](x: T): T = RegEnable(RegEnable(RegEnable(x, !ctrl_killd), ex_pc_valid), mem_pc_valid) val perfEvents = new EventSets(Seq( new EventSet((mask, hits) => Mux(wb_xcpt, mask(0), wb_valid && pipelineIDToWB((mask & hits).orR)), Seq( ("exception", () => false.B), ("load", () => id_ctrl.mem && id_ctrl.mem_cmd === M_XRD && !id_ctrl.fp), ("store", () => id_ctrl.mem && id_ctrl.mem_cmd === M_XWR && !id_ctrl.fp), ("amo", () => usingAtomics.B && id_ctrl.mem && (isAMO(id_ctrl.mem_cmd) || id_ctrl.mem_cmd.isOneOf(M_XLR, M_XSC))), ("system", () => id_ctrl.csr =/= CSR.N), ("arith", () => id_ctrl.wxd && !(id_ctrl.jal || id_ctrl.jalr || id_ctrl.mem || id_ctrl.fp || id_ctrl.mul || id_ctrl.div || id_ctrl.csr =/= CSR.N)), ("branch", () => id_ctrl.branch), ("jal", () => id_ctrl.jal), ("jalr", () => id_ctrl.jalr)) ++ (if (!usingMulDiv) Seq() else Seq( ("mul", () => if (pipelinedMul) id_ctrl.mul else id_ctrl.div && (id_ctrl.alu_fn & FN_DIV) =/= FN_DIV), ("div", () => if (pipelinedMul) id_ctrl.div else id_ctrl.div && (id_ctrl.alu_fn & FN_DIV) === FN_DIV))) ++ (if (!usingFPU) Seq() else Seq( ("fp load", () => id_ctrl.fp && io.fpu.dec.ldst && io.fpu.dec.wen), ("fp store", () => id_ctrl.fp && io.fpu.dec.ldst && !io.fpu.dec.wen), ("fp add", () => id_ctrl.fp && io.fpu.dec.fma && io.fpu.dec.swap23), ("fp mul", () => id_ctrl.fp && io.fpu.dec.fma && !io.fpu.dec.swap23 && !io.fpu.dec.ren3), ("fp mul-add", () => id_ctrl.fp && io.fpu.dec.fma && io.fpu.dec.ren3), ("fp div/sqrt", () => id_ctrl.fp && (io.fpu.dec.div || io.fpu.dec.sqrt)), ("fp other", () => id_ctrl.fp && !(io.fpu.dec.ldst || io.fpu.dec.fma || io.fpu.dec.div || io.fpu.dec.sqrt))))), new EventSet((mask, hits) => (mask & hits).orR, Seq( ("load-use interlock", () => id_ex_hazard && ex_ctrl.mem || id_mem_hazard && mem_ctrl.mem || id_wb_hazard && wb_ctrl.mem), ("long-latency interlock", () => id_sboard_hazard), ("csr interlock", () => id_ex_hazard && ex_ctrl.csr =/= CSR.N || id_mem_hazard && mem_ctrl.csr =/= CSR.N || id_wb_hazard && wb_ctrl.csr =/= CSR.N), ("I$ blocked", () => icache_blocked), ("D$ blocked", () => id_ctrl.mem && dcache_blocked), ("branch misprediction", () => take_pc_mem && mem_direction_misprediction), ("control-flow target misprediction", () => take_pc_mem && mem_misprediction && mem_cfi && !mem_direction_misprediction && !icache_blocked), ("flush", () => wb_reg_flush_pipe), ("replay", () => replay_wb)) ++ (if (!usingMulDiv) Seq() else Seq( ("mul/div interlock", () => id_ex_hazard && (ex_ctrl.mul || ex_ctrl.div) || id_mem_hazard && (mem_ctrl.mul || mem_ctrl.div) || id_wb_hazard && wb_ctrl.div))) ++ (if (!usingFPU) Seq() else Seq( ("fp interlock", () => id_ex_hazard && ex_ctrl.fp || id_mem_hazard && mem_ctrl.fp || id_wb_hazard && wb_ctrl.fp || id_ctrl.fp && id_stall_fpu)))), new EventSet((mask, hits) => (mask & hits).orR, Seq( ("I$ miss", () => io.imem.perf.acquire), ("D$ miss", () => io.dmem.perf.acquire), ("D$ release", () => io.dmem.perf.release), ("ITLB miss", () => io.imem.perf.tlbMiss), ("DTLB miss", () => io.dmem.perf.tlbMiss), ("L2 TLB miss", () => io.ptw.perf.l2miss))))) val pipelinedMul = usingMulDiv && mulDivParams.mulUnroll == xLen val decode_table = { (if (usingMulDiv) new MDecode(pipelinedMul) +: (xLen > 32).option(new M64Decode(pipelinedMul)).toSeq else Nil) ++: (if (usingAtomics) new ADecode +: (xLen > 32).option(new A64Decode).toSeq else Nil) ++: (if (fLen >= 32) new FDecode +: (xLen > 32).option(new F64Decode).toSeq else Nil) ++: (if (fLen >= 64) new DDecode +: (xLen > 32).option(new D64Decode).toSeq else Nil) ++: (if (minFLen == 16) new HDecode +: (xLen > 32).option(new H64Decode).toSeq ++: (fLen >= 64).option(new HDDecode).toSeq else Nil) ++: (usingRoCC.option(new RoCCDecode)) ++: (if (xLen == 32) new I32Decode else new I64Decode) +: (usingVM.option(new SVMDecode)) ++: (usingSupervisor.option(new SDecode)) ++: (usingHypervisor.option(new HypervisorDecode)) ++: ((usingHypervisor && (xLen == 64)).option(new Hypervisor64Decode)) ++: (usingDebug.option(new DebugDecode)) ++: (usingNMI.option(new NMIDecode)) ++: (usingConditionalZero.option(new ConditionalZeroDecode)) ++: Seq(new FenceIDecode(tile.dcache.flushOnFenceI)) ++: coreParams.haveCFlush.option(new CFlushDecode(tile.dcache.canSupportCFlushLine)) ++: rocketParams.haveCease.option(new CeaseDecode) ++: usingVector.option(new VCFGDecode) ++: (if (coreParams.useZba) new ZbaDecode +: (xLen > 32).option(new Zba64Decode).toSeq else Nil) ++: (if (coreParams.useZbb) Seq(new ZbbDecode, if (xLen == 32) new Zbb32Decode else new Zbb64Decode) else Nil) ++: coreParams.useZbs.option(new ZbsDecode) ++: Seq(new IDecode) } flatMap(_.table) val ex_ctrl = Reg(new IntCtrlSigs) val mem_ctrl = Reg(new IntCtrlSigs) val wb_ctrl = Reg(new IntCtrlSigs) val ex_reg_xcpt_interrupt = Reg(Bool()) val ex_reg_valid = Reg(Bool()) val ex_reg_rvc = Reg(Bool()) val ex_reg_btb_resp = Reg(new BTBResp) val ex_reg_xcpt = Reg(Bool()) val ex_reg_flush_pipe = Reg(Bool()) val ex_reg_load_use = Reg(Bool()) val ex_reg_cause = Reg(UInt()) val ex_reg_replay = Reg(Bool()) val ex_reg_pc = Reg(UInt()) val ex_reg_mem_size = Reg(UInt()) val ex_reg_hls = Reg(Bool()) val ex_reg_inst = Reg(Bits()) val ex_reg_raw_inst = Reg(UInt()) val ex_reg_wphit = Reg(Vec(nBreakpoints, Bool())) val ex_reg_set_vconfig = Reg(Bool()) val mem_reg_xcpt_interrupt = Reg(Bool()) val mem_reg_valid = Reg(Bool()) val mem_reg_rvc = Reg(Bool()) val mem_reg_btb_resp = Reg(new BTBResp) val mem_reg_xcpt = Reg(Bool()) val mem_reg_replay = Reg(Bool()) val mem_reg_flush_pipe = Reg(Bool()) val mem_reg_cause = Reg(UInt()) val mem_reg_slow_bypass = Reg(Bool()) val mem_reg_load = Reg(Bool()) val mem_reg_store = Reg(Bool()) val mem_reg_set_vconfig = Reg(Bool()) val mem_reg_sfence = Reg(Bool()) val mem_reg_pc = Reg(UInt()) val mem_reg_inst = Reg(Bits()) val mem_reg_mem_size = Reg(UInt()) val mem_reg_hls_or_dv = Reg(Bool()) val mem_reg_raw_inst = Reg(UInt()) val mem_reg_wdata = Reg(Bits()) val mem_reg_rs2 = Reg(Bits()) val mem_br_taken = Reg(Bool()) val take_pc_mem = Wire(Bool()) val mem_reg_wphit = Reg(Vec(nBreakpoints, Bool())) val wb_reg_valid = Reg(Bool()) val wb_reg_xcpt = Reg(Bool()) val wb_reg_replay = Reg(Bool()) val wb_reg_flush_pipe = Reg(Bool()) val wb_reg_cause = Reg(UInt()) val wb_reg_set_vconfig = Reg(Bool()) val wb_reg_sfence = Reg(Bool()) val wb_reg_pc = Reg(UInt()) val wb_reg_mem_size = Reg(UInt()) val wb_reg_hls_or_dv = Reg(Bool()) val wb_reg_hfence_v = Reg(Bool()) val wb_reg_hfence_g = Reg(Bool()) val wb_reg_inst = Reg(Bits()) val wb_reg_raw_inst = Reg(UInt()) val wb_reg_wdata = Reg(Bits()) val wb_reg_rs2 = Reg(Bits()) val take_pc_wb = Wire(Bool()) val wb_reg_wphit = Reg(Vec(nBreakpoints, Bool())) val take_pc_mem_wb = take_pc_wb || take_pc_mem val take_pc = take_pc_mem_wb // decode stage val ibuf = Module(new IBuf) val id_expanded_inst = ibuf.io.inst.map(_.bits.inst) val id_raw_inst = ibuf.io.inst.map(_.bits.raw) val id_inst = id_expanded_inst.map(_.bits) ibuf.io.imem <> io.imem.resp ibuf.io.kill := take_pc require(decodeWidth == 1 /* TODO */ && retireWidth == decodeWidth) require(!(coreParams.useRVE && coreParams.fpu.nonEmpty), "Can't select both RVE and floating-point") require(!(coreParams.useRVE && coreParams.useHypervisor), "Can't select both RVE and Hypervisor") val id_ctrl = Wire(new IntCtrlSigs).decode(id_inst(0), decode_table) val lgNXRegs = if (coreParams.useRVE) 4 else 5 val regAddrMask = (1 << lgNXRegs) - 1 def decodeReg(x: UInt) = (x.extract(x.getWidth-1, lgNXRegs).asBool, x(lgNXRegs-1, 0)) val (id_raddr3_illegal, id_raddr3) = decodeReg(id_expanded_inst(0).rs3) val (id_raddr2_illegal, id_raddr2) = decodeReg(id_expanded_inst(0).rs2) val (id_raddr1_illegal, id_raddr1) = decodeReg(id_expanded_inst(0).rs1) val (id_waddr_illegal, id_waddr) = decodeReg(id_expanded_inst(0).rd) val id_load_use = Wire(Bool()) val id_reg_fence = RegInit(false.B) val id_ren = IndexedSeq(id_ctrl.rxs1, id_ctrl.rxs2) val id_raddr = IndexedSeq(id_raddr1, id_raddr2) val rf = new RegFile(regAddrMask, xLen) val id_rs = id_raddr.map(rf.read _) val ctrl_killd = Wire(Bool()) val id_npc = (ibuf.io.pc.asSInt + ImmGen(IMM_UJ, id_inst(0))).asUInt val csr = Module(new CSRFile(perfEvents, coreParams.customCSRs.decls, tile.roccCSRs.flatten, tile.rocketParams.beuAddr.isDefined)) val id_csr_en = id_ctrl.csr.isOneOf(CSR.S, CSR.C, CSR.W) val id_system_insn = id_ctrl.csr === CSR.I val id_csr_ren = id_ctrl.csr.isOneOf(CSR.S, CSR.C) && id_expanded_inst(0).rs1 === 0.U val id_csr = Mux(id_system_insn && id_ctrl.mem, CSR.N, Mux(id_csr_ren, CSR.R, id_ctrl.csr)) val id_csr_flush = id_system_insn || (id_csr_en && !id_csr_ren && csr.io.decode(0).write_flush) val id_set_vconfig = Seq(Instructions.VSETVLI, Instructions.VSETIVLI, Instructions.VSETVL).map(_ === id_inst(0)).orR && usingVector.B id_ctrl.vec := false.B if (usingVector) { val v_decode = rocketParams.vector.get.decoder(p) v_decode.io.inst := id_inst(0) v_decode.io.vconfig := csr.io.vector.get.vconfig when (v_decode.io.legal) { id_ctrl.legal := !csr.io.vector.get.vconfig.vtype.vill id_ctrl.fp := v_decode.io.fp id_ctrl.rocc := false.B id_ctrl.branch := false.B id_ctrl.jal := false.B id_ctrl.jalr := false.B id_ctrl.rxs2 := v_decode.io.read_rs2 id_ctrl.rxs1 := v_decode.io.read_rs1 id_ctrl.mem := false.B id_ctrl.rfs1 := v_decode.io.read_frs1 id_ctrl.rfs2 := false.B id_ctrl.rfs3 := false.B id_ctrl.wfd := v_decode.io.write_frd id_ctrl.mul := false.B id_ctrl.div := false.B id_ctrl.wxd := v_decode.io.write_rd id_ctrl.csr := CSR.N id_ctrl.fence_i := false.B id_ctrl.fence := false.B id_ctrl.amo := false.B id_ctrl.dp := false.B id_ctrl.vec := true.B } } val id_illegal_insn = !id_ctrl.legal || (id_ctrl.mul || id_ctrl.div) && !csr.io.status.isa('m'-'a') || id_ctrl.amo && !csr.io.status.isa('a'-'a') || id_ctrl.fp && (csr.io.decode(0).fp_illegal || (io.fpu.illegal_rm && !id_ctrl.vec)) || (id_ctrl.vec) && (csr.io.decode(0).vector_illegal || csr.io.vector.map(_.vconfig.vtype.vill).getOrElse(false.B)) || id_ctrl.dp && !csr.io.status.isa('d'-'a') || ibuf.io.inst(0).bits.rvc && !csr.io.status.isa('c'-'a') || id_raddr2_illegal && id_ctrl.rxs2 || id_raddr1_illegal && id_ctrl.rxs1 || id_waddr_illegal && id_ctrl.wxd || id_ctrl.rocc && csr.io.decode(0).rocc_illegal || id_csr_en && (csr.io.decode(0).read_illegal || !id_csr_ren && csr.io.decode(0).write_illegal) || !ibuf.io.inst(0).bits.rvc && (id_system_insn && csr.io.decode(0).system_illegal) val id_virtual_insn = id_ctrl.legal && ((id_csr_en && !(!id_csr_ren && csr.io.decode(0).write_illegal) && csr.io.decode(0).virtual_access_illegal) || (!ibuf.io.inst(0).bits.rvc && id_system_insn && csr.io.decode(0).virtual_system_illegal)) // stall decode for fences (now, for AMO.rl; later, for AMO.aq and FENCE) val id_amo_aq = id_inst(0)(26) val id_amo_rl = id_inst(0)(25) val id_fence_pred = id_inst(0)(27,24) val id_fence_succ = id_inst(0)(23,20) val id_fence_next = id_ctrl.fence || id_ctrl.amo && id_amo_aq val id_mem_busy = !io.dmem.ordered || io.dmem.req.valid when (!id_mem_busy) { id_reg_fence := false.B } val id_rocc_busy = usingRoCC.B && (io.rocc.busy || ex_reg_valid && ex_ctrl.rocc || mem_reg_valid && mem_ctrl.rocc || wb_reg_valid && wb_ctrl.rocc) val id_csr_rocc_write = tile.roccCSRs.flatten.map(_.id.U === id_inst(0)(31,20)).orR && id_csr_en && !id_csr_ren val id_vec_busy = io.vector.map(v => v.backend_busy || v.trap_check_busy).getOrElse(false.B) val id_do_fence = WireDefault(id_rocc_busy && (id_ctrl.fence || id_csr_rocc_write) || id_vec_busy && id_ctrl.fence || id_mem_busy && (id_ctrl.amo && id_amo_rl || id_ctrl.fence_i || id_reg_fence && (id_ctrl.mem || id_ctrl.rocc))) val bpu = Module(new BreakpointUnit(nBreakpoints)) bpu.io.status := csr.io.status bpu.io.bp := csr.io.bp bpu.io.pc := ibuf.io.pc bpu.io.ea := mem_reg_wdata bpu.io.mcontext := csr.io.mcontext bpu.io.scontext := csr.io.scontext val id_xcpt0 = ibuf.io.inst(0).bits.xcpt0 val id_xcpt1 = ibuf.io.inst(0).bits.xcpt1 val (id_xcpt, id_cause) = checkExceptions(List( (csr.io.interrupt, csr.io.interrupt_cause), (bpu.io.debug_if, CSR.debugTriggerCause.U), (bpu.io.xcpt_if, Causes.breakpoint.U), (id_xcpt0.pf.inst, Causes.fetch_page_fault.U), (id_xcpt0.gf.inst, Causes.fetch_guest_page_fault.U), (id_xcpt0.ae.inst, Causes.fetch_access.U), (id_xcpt1.pf.inst, Causes.fetch_page_fault.U), (id_xcpt1.gf.inst, Causes.fetch_guest_page_fault.U), (id_xcpt1.ae.inst, Causes.fetch_access.U), (id_virtual_insn, Causes.virtual_instruction.U), (id_illegal_insn, Causes.illegal_instruction.U))) val idCoverCauses = List( (CSR.debugTriggerCause, "DEBUG_TRIGGER"), (Causes.breakpoint, "BREAKPOINT"), (Causes.fetch_access, "FETCH_ACCESS"), (Causes.illegal_instruction, "ILLEGAL_INSTRUCTION") ) ++ (if (usingVM) List( (Causes.fetch_page_fault, "FETCH_PAGE_FAULT") ) else Nil) coverExceptions(id_xcpt, id_cause, "DECODE", idCoverCauses) val dcache_bypass_data = if (fastLoadByte) io.dmem.resp.bits.data(xLen-1, 0) else if (fastLoadWord) io.dmem.resp.bits.data_word_bypass(xLen-1, 0) else wb_reg_wdata // detect bypass opportunities val ex_waddr = ex_reg_inst(11,7) & regAddrMask.U val mem_waddr = mem_reg_inst(11,7) & regAddrMask.U val wb_waddr = wb_reg_inst(11,7) & regAddrMask.U val bypass_sources = IndexedSeq( (true.B, 0.U, 0.U), // treat reading x0 as a bypass (ex_reg_valid && ex_ctrl.wxd, ex_waddr, mem_reg_wdata), (mem_reg_valid && mem_ctrl.wxd && !mem_ctrl.mem, mem_waddr, wb_reg_wdata), (mem_reg_valid && mem_ctrl.wxd, mem_waddr, dcache_bypass_data)) val id_bypass_src = id_raddr.map(raddr => bypass_sources.map(s => s._1 && s._2 === raddr)) // execute stage val bypass_mux = bypass_sources.map(_._3) val ex_reg_rs_bypass = Reg(Vec(id_raddr.size, Bool())) val ex_reg_rs_lsb = Reg(Vec(id_raddr.size, UInt(log2Ceil(bypass_sources.size).W))) val ex_reg_rs_msb = Reg(Vec(id_raddr.size, UInt())) val ex_rs = for (i <- 0 until id_raddr.size) yield Mux(ex_reg_rs_bypass(i), bypass_mux(ex_reg_rs_lsb(i)), Cat(ex_reg_rs_msb(i), ex_reg_rs_lsb(i))) val ex_imm = ImmGen(ex_ctrl.sel_imm, ex_reg_inst) val ex_rs1shl = Mux(ex_reg_inst(3), ex_rs(0)(31,0), ex_rs(0)) << ex_reg_inst(14,13) val ex_op1 = MuxLookup(ex_ctrl.sel_alu1, 0.S)(Seq( A1_RS1 -> ex_rs(0).asSInt, A1_PC -> ex_reg_pc.asSInt, A1_RS1SHL -> (if (rocketParams.useZba) ex_rs1shl.asSInt else 0.S) )) val ex_op2_oh = UIntToOH(Mux(ex_ctrl.sel_alu2(0), (ex_reg_inst >> 20).asUInt, ex_rs(1))(log2Ceil(xLen)-1,0)).asSInt val ex_op2 = MuxLookup(ex_ctrl.sel_alu2, 0.S)(Seq( A2_RS2 -> ex_rs(1).asSInt, A2_IMM -> ex_imm, A2_SIZE -> Mux(ex_reg_rvc, 2.S, 4.S), ) ++ (if (coreParams.useZbs) Seq( A2_RS2OH -> ex_op2_oh, A2_IMMOH -> ex_op2_oh, ) else Nil)) val (ex_new_vl, ex_new_vconfig) = if (usingVector) { val ex_new_vtype = VType.fromUInt(MuxCase(ex_rs(1), Seq( ex_reg_inst(31,30).andR -> ex_reg_inst(29,20), !ex_reg_inst(31) -> ex_reg_inst(30,20)))) val ex_avl = Mux(ex_ctrl.rxs1, Mux(ex_reg_inst(19,15) === 0.U, Mux(ex_reg_inst(11,7) === 0.U, csr.io.vector.get.vconfig.vl, ex_new_vtype.vlMax), ex_rs(0) ), ex_reg_inst(19,15)) val ex_new_vl = ex_new_vtype.vl(ex_avl, csr.io.vector.get.vconfig.vl, false.B, false.B, false.B) val ex_new_vconfig = Wire(new VConfig) ex_new_vconfig.vtype := ex_new_vtype ex_new_vconfig.vl := ex_new_vl (Some(ex_new_vl), Some(ex_new_vconfig)) } else { (None, None) } val alu = Module(new ALU) alu.io.dw := ex_ctrl.alu_dw alu.io.fn := ex_ctrl.alu_fn alu.io.in2 := ex_op2.asUInt alu.io.in1 := ex_op1.asUInt // multiplier and divider val div = Module(new MulDiv(if (pipelinedMul) mulDivParams.copy(mulUnroll = 0) else mulDivParams, width = xLen)) div.io.req.valid := ex_reg_valid && ex_ctrl.div div.io.req.bits.dw := ex_ctrl.alu_dw div.io.req.bits.fn := ex_ctrl.alu_fn div.io.req.bits.in1 := ex_rs(0) div.io.req.bits.in2 := ex_rs(1) div.io.req.bits.tag := ex_waddr val mul = pipelinedMul.option { val m = Module(new PipelinedMultiplier(xLen, 2)) m.io.req.valid := ex_reg_valid && ex_ctrl.mul m.io.req.bits := div.io.req.bits m } ex_reg_valid := !ctrl_killd ex_reg_replay := !take_pc && ibuf.io.inst(0).valid && ibuf.io.inst(0).bits.replay ex_reg_xcpt := !ctrl_killd && id_xcpt ex_reg_xcpt_interrupt := !take_pc && ibuf.io.inst(0).valid && csr.io.interrupt when (!ctrl_killd) { ex_ctrl := id_ctrl ex_reg_rvc := ibuf.io.inst(0).bits.rvc ex_ctrl.csr := id_csr when (id_ctrl.fence && id_fence_succ === 0.U) { id_reg_pause := true.B } when (id_fence_next) { id_reg_fence := true.B } when (id_xcpt) { // pass PC down ALU writeback pipeline for badaddr ex_ctrl.alu_fn := FN_ADD ex_ctrl.alu_dw := DW_XPR ex_ctrl.sel_alu1 := A1_RS1 // badaddr := instruction ex_ctrl.sel_alu2 := A2_ZERO when (id_xcpt1.asUInt.orR) { // badaddr := PC+2 ex_ctrl.sel_alu1 := A1_PC ex_ctrl.sel_alu2 := A2_SIZE ex_reg_rvc := true.B } when (bpu.io.xcpt_if || id_xcpt0.asUInt.orR) { // badaddr := PC ex_ctrl.sel_alu1 := A1_PC ex_ctrl.sel_alu2 := A2_ZERO } } ex_reg_flush_pipe := id_ctrl.fence_i || id_csr_flush ex_reg_load_use := id_load_use ex_reg_hls := usingHypervisor.B && id_system_insn && id_ctrl.mem_cmd.isOneOf(M_XRD, M_XWR, M_HLVX) ex_reg_mem_size := Mux(usingHypervisor.B && id_system_insn, id_inst(0)(27, 26), id_inst(0)(13, 12)) when (id_ctrl.mem_cmd.isOneOf(M_SFENCE, M_HFENCEV, M_HFENCEG, M_FLUSH_ALL)) { ex_reg_mem_size := Cat(id_raddr2 =/= 0.U, id_raddr1 =/= 0.U) } when (id_ctrl.mem_cmd === M_SFENCE && csr.io.status.v) { ex_ctrl.mem_cmd := M_HFENCEV } if (tile.dcache.flushOnFenceI) { when (id_ctrl.fence_i) { ex_reg_mem_size := 0.U } } for (i <- 0 until id_raddr.size) { val do_bypass = id_bypass_src(i).reduce(_||_) val bypass_src = PriorityEncoder(id_bypass_src(i)) ex_reg_rs_bypass(i) := do_bypass ex_reg_rs_lsb(i) := bypass_src when (id_ren(i) && !do_bypass) { ex_reg_rs_lsb(i) := id_rs(i)(log2Ceil(bypass_sources.size)-1, 0) ex_reg_rs_msb(i) := id_rs(i) >> log2Ceil(bypass_sources.size) } } when (id_illegal_insn || id_virtual_insn) { val inst = Mux(ibuf.io.inst(0).bits.rvc, id_raw_inst(0)(15, 0), id_raw_inst(0)) ex_reg_rs_bypass(0) := false.B ex_reg_rs_lsb(0) := inst(log2Ceil(bypass_sources.size)-1, 0) ex_reg_rs_msb(0) := inst >> log2Ceil(bypass_sources.size) } } when (!ctrl_killd || csr.io.interrupt || ibuf.io.inst(0).bits.replay) { ex_reg_cause := id_cause ex_reg_inst := id_inst(0) ex_reg_raw_inst := id_raw_inst(0) ex_reg_pc := ibuf.io.pc ex_reg_btb_resp := ibuf.io.btb_resp ex_reg_wphit := bpu.io.bpwatch.map { bpw => bpw.ivalid(0) } ex_reg_set_vconfig := id_set_vconfig && !id_xcpt } // replay inst in ex stage? val ex_pc_valid = ex_reg_valid || ex_reg_replay || ex_reg_xcpt_interrupt val wb_dcache_miss = wb_ctrl.mem && !io.dmem.resp.valid val replay_ex_structural = ex_ctrl.mem && !io.dmem.req.ready || ex_ctrl.div && !div.io.req.ready || ex_ctrl.vec && !io.vector.map(_.ex.ready).getOrElse(true.B) val replay_ex_load_use = wb_dcache_miss && ex_reg_load_use val replay_ex = ex_reg_replay || (ex_reg_valid && (replay_ex_structural || replay_ex_load_use)) val ctrl_killx = take_pc_mem_wb || replay_ex || !ex_reg_valid // detect 2-cycle load-use delay for LB/LH/SC val ex_slow_bypass = ex_ctrl.mem_cmd === M_XSC || ex_reg_mem_size < 2.U val ex_sfence = usingVM.B && ex_ctrl.mem && (ex_ctrl.mem_cmd === M_SFENCE || ex_ctrl.mem_cmd === M_HFENCEV || ex_ctrl.mem_cmd === M_HFENCEG) val (ex_xcpt, ex_cause) = checkExceptions(List( (ex_reg_xcpt_interrupt || ex_reg_xcpt, ex_reg_cause))) val exCoverCauses = idCoverCauses coverExceptions(ex_xcpt, ex_cause, "EXECUTE", exCoverCauses) // memory stage val mem_pc_valid = mem_reg_valid || mem_reg_replay || mem_reg_xcpt_interrupt val mem_br_target = mem_reg_pc.asSInt + Mux(mem_ctrl.branch && mem_br_taken, ImmGen(IMM_SB, mem_reg_inst), Mux(mem_ctrl.jal, ImmGen(IMM_UJ, mem_reg_inst), Mux(mem_reg_rvc, 2.S, 4.S))) val mem_npc = (Mux(mem_ctrl.jalr || mem_reg_sfence, encodeVirtualAddress(mem_reg_wdata, mem_reg_wdata).asSInt, mem_br_target) & (-2).S).asUInt val mem_wrong_npc = Mux(ex_pc_valid, mem_npc =/= ex_reg_pc, Mux(ibuf.io.inst(0).valid || ibuf.io.imem.valid, mem_npc =/= ibuf.io.pc, true.B)) val mem_npc_misaligned = !csr.io.status.isa('c'-'a') && mem_npc(1) && !mem_reg_sfence val mem_int_wdata = Mux(!mem_reg_xcpt && (mem_ctrl.jalr ^ mem_npc_misaligned), mem_br_target, mem_reg_wdata.asSInt).asUInt val mem_cfi = mem_ctrl.branch || mem_ctrl.jalr || mem_ctrl.jal val mem_cfi_taken = (mem_ctrl.branch && mem_br_taken) || mem_ctrl.jalr || mem_ctrl.jal val mem_direction_misprediction = mem_ctrl.branch && mem_br_taken =/= (usingBTB.B && mem_reg_btb_resp.taken) val mem_misprediction = if (usingBTB) mem_wrong_npc else mem_cfi_taken take_pc_mem := mem_reg_valid && !mem_reg_xcpt && (mem_misprediction || mem_reg_sfence) mem_reg_valid := !ctrl_killx mem_reg_replay := !take_pc_mem_wb && replay_ex mem_reg_xcpt := !ctrl_killx && ex_xcpt mem_reg_xcpt_interrupt := !take_pc_mem_wb && ex_reg_xcpt_interrupt // on pipeline flushes, cause mem_npc to hold the sequential npc, which // will drive the W-stage npc mux when (mem_reg_valid && mem_reg_flush_pipe) { mem_reg_sfence := false.B }.elsewhen (ex_pc_valid) { mem_ctrl := ex_ctrl mem_reg_rvc := ex_reg_rvc mem_reg_load := ex_ctrl.mem && isRead(ex_ctrl.mem_cmd) mem_reg_store := ex_ctrl.mem && isWrite(ex_ctrl.mem_cmd) mem_reg_sfence := ex_sfence mem_reg_btb_resp := ex_reg_btb_resp mem_reg_flush_pipe := ex_reg_flush_pipe mem_reg_slow_bypass := ex_slow_bypass mem_reg_wphit := ex_reg_wphit mem_reg_set_vconfig := ex_reg_set_vconfig mem_reg_cause := ex_cause mem_reg_inst := ex_reg_inst mem_reg_raw_inst := ex_reg_raw_inst mem_reg_mem_size := ex_reg_mem_size mem_reg_hls_or_dv := io.dmem.req.bits.dv mem_reg_pc := ex_reg_pc // IDecode ensured they are 1H mem_reg_wdata := Mux(ex_reg_set_vconfig, ex_new_vl.getOrElse(alu.io.out), alu.io.out) mem_br_taken := alu.io.cmp_out when (ex_ctrl.rxs2 && (ex_ctrl.mem || ex_ctrl.rocc || ex_sfence)) { val size = Mux(ex_ctrl.rocc, log2Ceil(xLen/8).U, ex_reg_mem_size) mem_reg_rs2 := new StoreGen(size, 0.U, ex_rs(1), coreDataBytes).data } if (usingVector) { when (ex_reg_set_vconfig) { mem_reg_rs2 := ex_new_vconfig.get.asUInt } } when (ex_ctrl.jalr && csr.io.status.debug) { // flush I$ on D-mode JALR to effect uncached fetch without D$ flush mem_ctrl.fence_i := true.B mem_reg_flush_pipe := true.B } } val mem_breakpoint = (mem_reg_load && bpu.io.xcpt_ld) || (mem_reg_store && bpu.io.xcpt_st) val mem_debug_breakpoint = (mem_reg_load && bpu.io.debug_ld) || (mem_reg_store && bpu.io.debug_st) val (mem_ldst_xcpt, mem_ldst_cause) = checkExceptions(List( (mem_debug_breakpoint, CSR.debugTriggerCause.U), (mem_breakpoint, Causes.breakpoint.U))) val (mem_xcpt, mem_cause) = checkExceptions(List( (mem_reg_xcpt_interrupt || mem_reg_xcpt, mem_reg_cause), (mem_reg_valid && mem_npc_misaligned, Causes.misaligned_fetch.U), (mem_reg_valid && mem_ldst_xcpt, mem_ldst_cause))) val memCoverCauses = (exCoverCauses ++ List( (CSR.debugTriggerCause, "DEBUG_TRIGGER"), (Causes.breakpoint, "BREAKPOINT"), (Causes.misaligned_fetch, "MISALIGNED_FETCH") )).distinct coverExceptions(mem_xcpt, mem_cause, "MEMORY", memCoverCauses) val dcache_kill_mem = mem_reg_valid && mem_ctrl.wxd && io.dmem.replay_next // structural hazard on writeback port val fpu_kill_mem = mem_reg_valid && mem_ctrl.fp && io.fpu.nack_mem val vec_kill_mem = mem_reg_valid && mem_ctrl.mem && io.vector.map(_.mem.block_mem).getOrElse(false.B) val vec_kill_all = mem_reg_valid && io.vector.map(_.mem.block_all).getOrElse(false.B) val replay_mem = dcache_kill_mem || mem_reg_replay || fpu_kill_mem || vec_kill_mem || vec_kill_all val killm_common = dcache_kill_mem || take_pc_wb || mem_reg_xcpt || !mem_reg_valid div.io.kill := killm_common && RegNext(div.io.req.fire) val ctrl_killm = killm_common || mem_xcpt || fpu_kill_mem || vec_kill_mem // writeback stage wb_reg_valid := !ctrl_killm wb_reg_replay := replay_mem && !take_pc_wb wb_reg_xcpt := mem_xcpt && !take_pc_wb && !io.vector.map(_.mem.block_all).getOrElse(false.B) wb_reg_flush_pipe := !ctrl_killm && mem_reg_flush_pipe when (mem_pc_valid) { wb_ctrl := mem_ctrl wb_reg_sfence := mem_reg_sfence wb_reg_wdata := Mux(!mem_reg_xcpt && mem_ctrl.fp && mem_ctrl.wxd, io.fpu.toint_data, mem_int_wdata) when (mem_ctrl.rocc || mem_reg_sfence || mem_reg_set_vconfig) { wb_reg_rs2 := mem_reg_rs2 } wb_reg_cause := mem_cause wb_reg_inst := mem_reg_inst wb_reg_raw_inst := mem_reg_raw_inst wb_reg_mem_size := mem_reg_mem_size wb_reg_hls_or_dv := mem_reg_hls_or_dv wb_reg_hfence_v := mem_ctrl.mem_cmd === M_HFENCEV wb_reg_hfence_g := mem_ctrl.mem_cmd === M_HFENCEG wb_reg_pc := mem_reg_pc wb_reg_wphit := mem_reg_wphit | bpu.io.bpwatch.map { bpw => (bpw.rvalid(0) && mem_reg_load) || (bpw.wvalid(0) && mem_reg_store) } wb_reg_set_vconfig := mem_reg_set_vconfig } val (wb_xcpt, wb_cause) = checkExceptions(List( (wb_reg_xcpt, wb_reg_cause), (wb_reg_valid && wb_ctrl.mem && io.dmem.s2_xcpt.pf.st, Causes.store_page_fault.U), (wb_reg_valid && wb_ctrl.mem && io.dmem.s2_xcpt.pf.ld, Causes.load_page_fault.U), (wb_reg_valid && wb_ctrl.mem && io.dmem.s2_xcpt.gf.st, Causes.store_guest_page_fault.U), (wb_reg_valid && wb_ctrl.mem && io.dmem.s2_xcpt.gf.ld, Causes.load_guest_page_fault.U), (wb_reg_valid && wb_ctrl.mem && io.dmem.s2_xcpt.ae.st, Causes.store_access.U), (wb_reg_valid && wb_ctrl.mem && io.dmem.s2_xcpt.ae.ld, Causes.load_access.U), (wb_reg_valid && wb_ctrl.mem && io.dmem.s2_xcpt.ma.st, Causes.misaligned_store.U), (wb_reg_valid && wb_ctrl.mem && io.dmem.s2_xcpt.ma.ld, Causes.misaligned_load.U) )) val wbCoverCauses = List( (Causes.misaligned_store, "MISALIGNED_STORE"), (Causes.misaligned_load, "MISALIGNED_LOAD"), (Causes.store_access, "STORE_ACCESS"), (Causes.load_access, "LOAD_ACCESS") ) ++ (if(usingVM) List( (Causes.store_page_fault, "STORE_PAGE_FAULT"), (Causes.load_page_fault, "LOAD_PAGE_FAULT") ) else Nil) ++ (if (usingHypervisor) List( (Causes.store_guest_page_fault, "STORE_GUEST_PAGE_FAULT"), (Causes.load_guest_page_fault, "LOAD_GUEST_PAGE_FAULT"), ) else Nil) coverExceptions(wb_xcpt, wb_cause, "WRITEBACK", wbCoverCauses) val wb_pc_valid = wb_reg_valid || wb_reg_replay || wb_reg_xcpt val wb_wxd = wb_reg_valid && wb_ctrl.wxd val wb_set_sboard = wb_ctrl.div || wb_dcache_miss || wb_ctrl.rocc || wb_ctrl.vec val replay_wb_common = io.dmem.s2_nack || wb_reg_replay val replay_wb_rocc = wb_reg_valid && wb_ctrl.rocc && !io.rocc.cmd.ready val replay_wb_csr: Bool = wb_reg_valid && csr.io.rw_stall val replay_wb_vec = wb_reg_valid && io.vector.map(_.wb.replay).getOrElse(false.B) val replay_wb = replay_wb_common || replay_wb_rocc || replay_wb_csr || replay_wb_vec take_pc_wb := replay_wb || wb_xcpt || csr.io.eret || wb_reg_flush_pipe // writeback arbitration val dmem_resp_xpu = !io.dmem.resp.bits.tag(0).asBool val dmem_resp_fpu = io.dmem.resp.bits.tag(0).asBool val dmem_resp_waddr = io.dmem.resp.bits.tag(5, 1) val dmem_resp_valid = io.dmem.resp.valid && io.dmem.resp.bits.has_data val dmem_resp_replay = dmem_resp_valid && io.dmem.resp.bits.replay class LLWB extends Bundle { val data = UInt(xLen.W) val tag = UInt(5.W) } val ll_arb = Module(new Arbiter(new LLWB, 3)) // div, rocc, vec ll_arb.io.in.foreach(_.valid := false.B) ll_arb.io.in.foreach(_.bits := DontCare) val ll_wdata = WireInit(ll_arb.io.out.bits.data) val ll_waddr = WireInit(ll_arb.io.out.bits.tag) val ll_wen = WireInit(ll_arb.io.out.fire) ll_arb.io.out.ready := !wb_wxd div.io.resp.ready := ll_arb.io.in(0).ready ll_arb.io.in(0).valid := div.io.resp.valid ll_arb.io.in(0).bits.data := div.io.resp.bits.data ll_arb.io.in(0).bits.tag := div.io.resp.bits.tag if (usingRoCC) { io.rocc.resp.ready := ll_arb.io.in(1).ready ll_arb.io.in(1).valid := io.rocc.resp.valid ll_arb.io.in(1).bits.data := io.rocc.resp.bits.data ll_arb.io.in(1).bits.tag := io.rocc.resp.bits.rd } else { // tie off RoCC io.rocc.resp.ready := false.B io.rocc.mem.req.ready := false.B } io.vector.map { v => v.resp.ready := Mux(v.resp.bits.fp, !(dmem_resp_valid && dmem_resp_fpu), ll_arb.io.in(2).ready) ll_arb.io.in(2).valid := v.resp.valid && !v.resp.bits.fp ll_arb.io.in(2).bits.data := v.resp.bits.data ll_arb.io.in(2).bits.tag := v.resp.bits.rd } // Dont care mem since not all RoCC need accessing memory io.rocc.mem := DontCare when (dmem_resp_replay && dmem_resp_xpu) { ll_arb.io.out.ready := false.B ll_waddr := dmem_resp_waddr ll_wen := true.B } val wb_valid = wb_reg_valid && !replay_wb && !wb_xcpt val wb_wen = wb_valid && wb_ctrl.wxd val rf_wen = wb_wen || ll_wen val rf_waddr = Mux(ll_wen, ll_waddr, wb_waddr) val rf_wdata = Mux(dmem_resp_valid && dmem_resp_xpu, io.dmem.resp.bits.data(xLen-1, 0), Mux(ll_wen, ll_wdata, Mux(wb_ctrl.csr =/= CSR.N, csr.io.rw.rdata, Mux(wb_ctrl.mul, mul.map(_.io.resp.bits.data).getOrElse(wb_reg_wdata), wb_reg_wdata)))) when (rf_wen) { rf.write(rf_waddr, rf_wdata) } // hook up control/status regfile csr.io.ungated_clock := clock csr.io.decode(0).inst := id_inst(0) csr.io.exception := wb_xcpt csr.io.cause := wb_cause csr.io.retire := wb_valid csr.io.inst(0) := (if (usingCompressed) Cat(Mux(wb_reg_raw_inst(1, 0).andR, wb_reg_inst >> 16, 0.U), wb_reg_raw_inst(15, 0)) else wb_reg_inst) csr.io.interrupts := io.interrupts csr.io.hartid := io.hartid io.fpu.fcsr_rm := csr.io.fcsr_rm val vector_fcsr_flags = io.vector.map(_.set_fflags.bits).getOrElse(0.U(5.W)) val vector_fcsr_flags_valid = io.vector.map(_.set_fflags.valid).getOrElse(false.B) csr.io.fcsr_flags.valid := io.fpu.fcsr_flags.valid | vector_fcsr_flags_valid csr.io.fcsr_flags.bits := (io.fpu.fcsr_flags.bits & Fill(5, io.fpu.fcsr_flags.valid)) | (vector_fcsr_flags & Fill(5, vector_fcsr_flags_valid)) io.fpu.time := csr.io.time(31,0) io.fpu.hartid := io.hartid csr.io.rocc_interrupt := io.rocc.interrupt csr.io.pc := wb_reg_pc val tval_dmem_addr = !wb_reg_xcpt val tval_any_addr = tval_dmem_addr || wb_reg_cause.isOneOf(Causes.breakpoint.U, Causes.fetch_access.U, Causes.fetch_page_fault.U, Causes.fetch_guest_page_fault.U) val tval_inst = wb_reg_cause === Causes.illegal_instruction.U val tval_valid = wb_xcpt && (tval_any_addr || tval_inst) csr.io.gva := wb_xcpt && (tval_any_addr && csr.io.status.v || tval_dmem_addr && wb_reg_hls_or_dv) csr.io.tval := Mux(tval_valid, encodeVirtualAddress(wb_reg_wdata, wb_reg_wdata), 0.U) val (htval, mhtinst_read_pseudo) = { val htval_valid_imem = wb_reg_xcpt && wb_reg_cause === Causes.fetch_guest_page_fault.U val htval_imem = Mux(htval_valid_imem, io.imem.gpa.bits, 0.U) assert(!htval_valid_imem || io.imem.gpa.valid) val htval_valid_dmem = wb_xcpt && tval_dmem_addr && io.dmem.s2_xcpt.gf.asUInt.orR && !io.dmem.s2_xcpt.pf.asUInt.orR val htval_dmem = Mux(htval_valid_dmem, io.dmem.s2_gpa, 0.U) val htval = (htval_dmem | htval_imem) >> hypervisorExtraAddrBits // read pseudoinstruction if a guest-page fault is caused by an implicit memory access for VS-stage address translation val mhtinst_read_pseudo = (io.imem.gpa_is_pte && htval_valid_imem) || (io.dmem.s2_gpa_is_pte && htval_valid_dmem) (htval, mhtinst_read_pseudo) } csr.io.vector.foreach { v => v.set_vconfig.valid := wb_reg_set_vconfig && wb_reg_valid v.set_vconfig.bits := wb_reg_rs2.asTypeOf(new VConfig) v.set_vs_dirty := wb_valid && wb_ctrl.vec v.set_vstart.valid := wb_valid && wb_reg_set_vconfig v.set_vstart.bits := 0.U } io.vector.foreach { v => when (v.wb.retire || v.wb.xcpt || wb_ctrl.vec) { csr.io.pc := v.wb.pc csr.io.retire := v.wb.retire csr.io.inst(0) := v.wb.inst when (v.wb.xcpt && !wb_reg_xcpt) { wb_xcpt := true.B wb_cause := v.wb.cause csr.io.tval := v.wb.tval } } v.wb.store_pending := io.dmem.store_pending v.wb.vxrm := csr.io.vector.get.vxrm v.wb.frm := csr.io.fcsr_rm csr.io.vector.get.set_vxsat := v.set_vxsat when (v.set_vconfig.valid) { csr.io.vector.get.set_vconfig.valid := true.B csr.io.vector.get.set_vconfig.bits := v.set_vconfig.bits } when (v.set_vstart.valid) { csr.io.vector.get.set_vstart.valid := true.B csr.io.vector.get.set_vstart.bits := v.set_vstart.bits } } csr.io.htval := htval csr.io.mhtinst_read_pseudo := mhtinst_read_pseudo io.ptw.ptbr := csr.io.ptbr io.ptw.hgatp := csr.io.hgatp io.ptw.vsatp := csr.io.vsatp (io.ptw.customCSRs.csrs zip csr.io.customCSRs).map { case (lhs, rhs) => lhs <> rhs } io.ptw.status := csr.io.status io.ptw.hstatus := csr.io.hstatus io.ptw.gstatus := csr.io.gstatus io.ptw.pmp := csr.io.pmp csr.io.rw.addr := wb_reg_inst(31,20) csr.io.rw.cmd := CSR.maskCmd(wb_reg_valid, wb_ctrl.csr) csr.io.rw.wdata := wb_reg_wdata io.rocc.csrs <> csr.io.roccCSRs io.trace.time := csr.io.time io.trace.insns := csr.io.trace if (rocketParams.debugROB.isDefined) { val sz = rocketParams.debugROB.get.size if (sz < 1) { // use unsynthesizable ROB val csr_trace_with_wdata = WireInit(csr.io.trace(0)) csr_trace_with_wdata.wdata.get := rf_wdata val should_wb = WireInit((wb_ctrl.wfd || (wb_ctrl.wxd && wb_waddr =/= 0.U)) && !csr.io.trace(0).exception) val has_wb = WireInit(wb_ctrl.wxd && wb_wen && !wb_set_sboard) val wb_addr = WireInit(wb_waddr + Mux(wb_ctrl.wfd, 32.U, 0.U)) io.vector.foreach { v => when (v.wb.retire) { should_wb := v.wb.rob_should_wb has_wb := false.B wb_addr := Cat(v.wb.rob_should_wb_fp, csr_trace_with_wdata.insn(11,7)) }} DebugROB.pushTrace(clock, reset, io.hartid, csr_trace_with_wdata, should_wb, has_wb, wb_addr) io.trace.insns(0) := DebugROB.popTrace(clock, reset, io.hartid) DebugROB.pushWb(clock, reset, io.hartid, ll_wen, rf_waddr, rf_wdata) } else { // synthesizable ROB (no FPRs) require(!usingVector, "Synthesizable ROB does not support vector implementations") val csr_trace_with_wdata = WireInit(csr.io.trace(0)) csr_trace_with_wdata.wdata.get := rf_wdata val debug_rob = Module(new HardDebugROB(sz, 32)) debug_rob.io.i_insn := csr_trace_with_wdata debug_rob.io.should_wb := (wb_ctrl.wfd || (wb_ctrl.wxd && wb_waddr =/= 0.U)) && !csr.io.trace(0).exception debug_rob.io.has_wb := wb_ctrl.wxd && wb_wen && !wb_set_sboard debug_rob.io.tag := wb_waddr + Mux(wb_ctrl.wfd, 32.U, 0.U) debug_rob.io.wb_val := ll_wen debug_rob.io.wb_tag := rf_waddr debug_rob.io.wb_data := rf_wdata io.trace.insns(0) := debug_rob.io.o_insn } } else { io.trace.insns := csr.io.trace } for (((iobpw, wphit), bp) <- io.bpwatch zip wb_reg_wphit zip csr.io.bp) { iobpw.valid(0) := wphit iobpw.action := bp.control.action // tie off bpwatch valids iobpw.rvalid.foreach(_ := false.B) iobpw.wvalid.foreach(_ := false.B) iobpw.ivalid.foreach(_ := false.B) } val hazard_targets = Seq((id_ctrl.rxs1 && id_raddr1 =/= 0.U, id_raddr1), (id_ctrl.rxs2 && id_raddr2 =/= 0.U, id_raddr2), (id_ctrl.wxd && id_waddr =/= 0.U, id_waddr)) val fp_hazard_targets = Seq((io.fpu.dec.ren1, id_raddr1), (io.fpu.dec.ren2, id_raddr2), (io.fpu.dec.ren3, id_raddr3), (io.fpu.dec.wen, id_waddr)) val sboard = new Scoreboard(32, true) sboard.clear(ll_wen, ll_waddr) def id_sboard_clear_bypass(r: UInt) = { // ll_waddr arrives late when D$ has ECC, so reshuffle the hazard check if (!tileParams.dcache.get.dataECC.isDefined) ll_wen && ll_waddr === r else div.io.resp.fire && div.io.resp.bits.tag === r || dmem_resp_replay && dmem_resp_xpu && dmem_resp_waddr === r } val id_sboard_hazard = checkHazards(hazard_targets, rd => sboard.read(rd) && !id_sboard_clear_bypass(rd)) sboard.set(wb_set_sboard && wb_wen, wb_waddr) // stall for RAW/WAW hazards on CSRs, loads, AMOs, and mul/div in execute stage. val ex_cannot_bypass = ex_ctrl.csr =/= CSR.N || ex_ctrl.jalr || ex_ctrl.mem || ex_ctrl.mul || ex_ctrl.div || ex_ctrl.fp || ex_ctrl.rocc || ex_ctrl.vec val data_hazard_ex = ex_ctrl.wxd && checkHazards(hazard_targets, _ === ex_waddr) val fp_data_hazard_ex = id_ctrl.fp && ex_ctrl.wfd && checkHazards(fp_hazard_targets, _ === ex_waddr) val id_ex_hazard = ex_reg_valid && (data_hazard_ex && ex_cannot_bypass || fp_data_hazard_ex) // stall for RAW/WAW hazards on CSRs, LB/LH, and mul/div in memory stage. val mem_mem_cmd_bh = if (fastLoadWord) (!fastLoadByte).B && mem_reg_slow_bypass else true.B val mem_cannot_bypass = mem_ctrl.csr =/= CSR.N || mem_ctrl.mem && mem_mem_cmd_bh || mem_ctrl.mul || mem_ctrl.div || mem_ctrl.fp || mem_ctrl.rocc || mem_ctrl.vec val data_hazard_mem = mem_ctrl.wxd && checkHazards(hazard_targets, _ === mem_waddr) val fp_data_hazard_mem = id_ctrl.fp && mem_ctrl.wfd && checkHazards(fp_hazard_targets, _ === mem_waddr) val id_mem_hazard = mem_reg_valid && (data_hazard_mem && mem_cannot_bypass || fp_data_hazard_mem) id_load_use := mem_reg_valid && data_hazard_mem && mem_ctrl.mem val id_vconfig_hazard = id_ctrl.vec && ( (ex_reg_valid && ex_reg_set_vconfig) || (mem_reg_valid && mem_reg_set_vconfig) || (wb_reg_valid && wb_reg_set_vconfig)) // stall for RAW/WAW hazards on load/AMO misses and mul/div in writeback. val data_hazard_wb = wb_ctrl.wxd && checkHazards(hazard_targets, _ === wb_waddr) val fp_data_hazard_wb = id_ctrl.fp && wb_ctrl.wfd && checkHazards(fp_hazard_targets, _ === wb_waddr) val id_wb_hazard = wb_reg_valid && (data_hazard_wb && wb_set_sboard || fp_data_hazard_wb) val id_stall_fpu = if (usingFPU) { val fp_sboard = new Scoreboard(32) fp_sboard.set(((wb_dcache_miss || wb_ctrl.vec) && wb_ctrl.wfd || io.fpu.sboard_set) && wb_valid, wb_waddr) val v_ll = io.vector.map(v => v.resp.fire && v.resp.bits.fp).getOrElse(false.B) fp_sboard.clear((dmem_resp_replay && dmem_resp_fpu) || v_ll, io.fpu.ll_resp_tag) fp_sboard.clear(io.fpu.sboard_clr, io.fpu.sboard_clra) checkHazards(fp_hazard_targets, fp_sboard.read _) } else false.B val dcache_blocked = { // speculate that a blocked D$ will unblock the cycle after a Grant val blocked = Reg(Bool()) blocked := !io.dmem.req.ready && io.dmem.clock_enabled && !io.dmem.perf.grant && (blocked || io.dmem.req.valid || io.dmem.s2_nack) blocked && !io.dmem.perf.grant } val rocc_blocked = Reg(Bool()) rocc_blocked := !wb_xcpt && !io.rocc.cmd.ready && (io.rocc.cmd.valid || rocc_blocked) val ctrl_stalld = id_ex_hazard || id_mem_hazard || id_wb_hazard || id_sboard_hazard || id_vconfig_hazard || csr.io.singleStep && (ex_reg_valid || mem_reg_valid || wb_reg_valid) || id_csr_en && csr.io.decode(0).fp_csr && !io.fpu.fcsr_rdy || id_csr_en && csr.io.decode(0).vector_csr && id_vec_busy || id_ctrl.fp && id_stall_fpu || id_ctrl.mem && dcache_blocked || // reduce activity during D$ misses id_ctrl.rocc && rocc_blocked || // reduce activity while RoCC is busy id_ctrl.div && (!(div.io.req.ready || (div.io.resp.valid && !wb_wxd)) || div.io.req.valid) || // reduce odds of replay !clock_en || id_do_fence || csr.io.csr_stall || id_reg_pause || io.traceStall ctrl_killd := !ibuf.io.inst(0).valid || ibuf.io.inst(0).bits.replay || take_pc_mem_wb || ctrl_stalld || csr.io.interrupt io.imem.req.valid := take_pc io.imem.req.bits.speculative := !take_pc_wb io.imem.req.bits.pc := Mux(wb_xcpt || csr.io.eret, csr.io.evec, // exception or [m|s]ret Mux(replay_wb, wb_reg_pc, // replay mem_npc)) // flush or branch misprediction io.imem.flush_icache := wb_reg_valid && wb_ctrl.fence_i && !io.dmem.s2_nack io.imem.might_request := { imem_might_request_reg := ex_pc_valid || mem_pc_valid || io.ptw.customCSRs.disableICacheClockGate || io.vector.map(_.trap_check_busy).getOrElse(false.B) imem_might_request_reg } io.imem.progress := RegNext(wb_reg_valid && !replay_wb_common) io.imem.sfence.valid := wb_reg_valid && wb_reg_sfence io.imem.sfence.bits.rs1 := wb_reg_mem_size(0) io.imem.sfence.bits.rs2 := wb_reg_mem_size(1) io.imem.sfence.bits.addr := wb_reg_wdata io.imem.sfence.bits.asid := wb_reg_rs2 io.imem.sfence.bits.hv := wb_reg_hfence_v io.imem.sfence.bits.hg := wb_reg_hfence_g io.ptw.sfence := io.imem.sfence ibuf.io.inst(0).ready := !ctrl_stalld io.imem.btb_update.valid := mem_reg_valid && !take_pc_wb && mem_wrong_npc && (!mem_cfi || mem_cfi_taken) io.imem.btb_update.bits.isValid := mem_cfi io.imem.btb_update.bits.cfiType := Mux((mem_ctrl.jal || mem_ctrl.jalr) && mem_waddr(0), CFIType.call, Mux(mem_ctrl.jalr && (mem_reg_inst(19,15) & regAddrMask.U) === BitPat("b00?01"), CFIType.ret, Mux(mem_ctrl.jal || mem_ctrl.jalr, CFIType.jump, CFIType.branch))) io.imem.btb_update.bits.target := io.imem.req.bits.pc io.imem.btb_update.bits.br_pc := (if (usingCompressed) mem_reg_pc + Mux(mem_reg_rvc, 0.U, 2.U) else mem_reg_pc) io.imem.btb_update.bits.pc := ~(~io.imem.btb_update.bits.br_pc | (coreInstBytes*fetchWidth-1).U) io.imem.btb_update.bits.prediction := mem_reg_btb_resp io.imem.btb_update.bits.taken := DontCare io.imem.bht_update.valid := mem_reg_valid && !take_pc_wb io.imem.bht_update.bits.pc := io.imem.btb_update.bits.pc io.imem.bht_update.bits.taken := mem_br_taken io.imem.bht_update.bits.mispredict := mem_wrong_npc io.imem.bht_update.bits.branch := mem_ctrl.branch io.imem.bht_update.bits.prediction := mem_reg_btb_resp.bht // Connect RAS in Frontend io.imem.ras_update := DontCare io.fpu.valid := !ctrl_killd && id_ctrl.fp io.fpu.killx := ctrl_killx io.fpu.killm := killm_common io.fpu.inst := id_inst(0) io.fpu.fromint_data := ex_rs(0) io.fpu.ll_resp_val := dmem_resp_valid && dmem_resp_fpu io.fpu.ll_resp_data := (if (minFLen == 32) io.dmem.resp.bits.data_word_bypass else io.dmem.resp.bits.data) io.fpu.ll_resp_type := io.dmem.resp.bits.size io.fpu.ll_resp_tag := dmem_resp_waddr io.fpu.keep_clock_enabled := io.ptw.customCSRs.disableCoreClockGate io.fpu.v_sew := csr.io.vector.map(_.vconfig.vtype.vsew).getOrElse(0.U) io.vector.map { v => when (!(dmem_resp_valid && dmem_resp_fpu)) { io.fpu.ll_resp_val := v.resp.valid && v.resp.bits.fp io.fpu.ll_resp_data := v.resp.bits.data io.fpu.ll_resp_type := v.resp.bits.size io.fpu.ll_resp_tag := v.resp.bits.rd } } io.vector.foreach { v => v.ex.valid := ex_reg_valid && (ex_ctrl.vec || rocketParams.vector.get.issueVConfig.B && ex_reg_set_vconfig) && !ctrl_killx v.ex.inst := ex_reg_inst v.ex.vconfig := csr.io.vector.get.vconfig v.ex.vstart := Mux(mem_reg_valid && mem_ctrl.vec || wb_reg_valid && wb_ctrl.vec, 0.U, csr.io.vector.get.vstart) v.ex.rs1 := ex_rs(0) v.ex.rs2 := ex_rs(1) v.ex.pc := ex_reg_pc v.mem.frs1 := io.fpu.store_data v.killm := killm_common v.status := csr.io.status } io.dmem.req.valid := ex_reg_valid && ex_ctrl.mem val ex_dcache_tag = Cat(ex_waddr, ex_ctrl.fp) require(coreParams.dcacheReqTagBits >= ex_dcache_tag.getWidth) io.dmem.req.bits.tag := ex_dcache_tag io.dmem.req.bits.cmd := ex_ctrl.mem_cmd io.dmem.req.bits.size := ex_reg_mem_size io.dmem.req.bits.signed := !Mux(ex_reg_hls, ex_reg_inst(20), ex_reg_inst(14)) io.dmem.req.bits.phys := false.B io.dmem.req.bits.addr := encodeVirtualAddress(ex_rs(0), alu.io.adder_out) io.dmem.req.bits.idx.foreach(_ := io.dmem.req.bits.addr) io.dmem.req.bits.dprv := Mux(ex_reg_hls, csr.io.hstatus.spvp, csr.io.status.dprv) io.dmem.req.bits.dv := ex_reg_hls || csr.io.status.dv io.dmem.req.bits.no_resp := !isRead(ex_ctrl.mem_cmd) || (!ex_ctrl.fp && ex_waddr === 0.U) io.dmem.req.bits.no_alloc := DontCare io.dmem.req.bits.no_xcpt := DontCare io.dmem.req.bits.data := DontCare io.dmem.req.bits.mask := DontCare io.dmem.s1_data.data := (if (fLen == 0) mem_reg_rs2 else Mux(mem_ctrl.fp, Fill(coreDataBits / fLen, io.fpu.store_data), mem_reg_rs2)) io.dmem.s1_data.mask := DontCare io.dmem.s1_kill := killm_common || mem_ldst_xcpt || fpu_kill_mem || vec_kill_mem io.dmem.s2_kill := false.B // don't let D$ go to sleep if we're probably going to use it soon io.dmem.keep_clock_enabled := ibuf.io.inst(0).valid && id_ctrl.mem && !csr.io.csr_stall io.rocc.cmd.valid := wb_reg_valid && wb_ctrl.rocc && !replay_wb_common io.rocc.exception := wb_xcpt && csr.io.status.xs.orR io.rocc.cmd.bits.status := csr.io.status io.rocc.cmd.bits.inst := wb_reg_inst.asTypeOf(new RoCCInstruction()) io.rocc.cmd.bits.rs1 := wb_reg_wdata io.rocc.cmd.bits.rs2 := wb_reg_rs2 // gate the clock val unpause = csr.io.time(rocketParams.lgPauseCycles-1, 0) === 0.U || csr.io.inhibit_cycle || io.dmem.perf.release || take_pc when (unpause) { id_reg_pause := false.B } io.cease := csr.io.status.cease && !clock_en_reg io.wfi := csr.io.status.wfi if (rocketParams.clockGate) { long_latency_stall := csr.io.csr_stall || io.dmem.perf.blocked || id_reg_pause && !unpause clock_en := clock_en_reg || ex_pc_valid || (!long_latency_stall && io.imem.resp.valid) clock_en_reg := ex_pc_valid || mem_pc_valid || wb_pc_valid || // instruction in flight io.ptw.customCSRs.disableCoreClockGate || // chicken bit !div.io.req.ready || // mul/div in flight usingFPU.B && !io.fpu.fcsr_rdy || // long-latency FPU in flight io.dmem.replay_next || // long-latency load replaying (!long_latency_stall && (ibuf.io.inst(0).valid || io.imem.resp.valid)) // instruction pending assert(!(ex_pc_valid || mem_pc_valid || wb_pc_valid) || clock_en) } // evaluate performance counters val icache_blocked = !(io.imem.resp.valid || RegNext(io.imem.resp.valid)) csr.io.counters foreach { c => c.inc := RegNext(perfEvents.evaluate(c.eventSel)) } val coreMonitorBundle = Wire(new CoreMonitorBundle(xLen, fLen)) coreMonitorBundle.clock := clock coreMonitorBundle.reset := reset coreMonitorBundle.hartid := io.hartid coreMonitorBundle.timer := csr.io.time(31,0) coreMonitorBundle.valid := csr.io.trace(0).valid && !csr.io.trace(0).exception coreMonitorBundle.pc := csr.io.trace(0).iaddr(vaddrBitsExtended-1, 0).sextTo(xLen) coreMonitorBundle.wrenx := wb_wen && !wb_set_sboard coreMonitorBundle.wrenf := false.B coreMonitorBundle.wrdst := wb_waddr coreMonitorBundle.wrdata := rf_wdata coreMonitorBundle.rd0src := wb_reg_inst(19,15) coreMonitorBundle.rd0val := RegNext(RegNext(ex_rs(0))) coreMonitorBundle.rd1src := wb_reg_inst(24,20) coreMonitorBundle.rd1val := RegNext(RegNext(ex_rs(1))) coreMonitorBundle.inst := csr.io.trace(0).insn coreMonitorBundle.excpt := csr.io.trace(0).exception coreMonitorBundle.priv_mode := csr.io.trace(0).priv if (enableCommitLog) { val t = csr.io.trace(0) val rd = wb_waddr val wfd = wb_ctrl.wfd val wxd = wb_ctrl.wxd val has_data = wb_wen && !wb_set_sboard when (t.valid && !t.exception) { when (wfd) { printf ("%d 0x%x (0x%x) f%d p%d 0xXXXXXXXXXXXXXXXX\n", t.priv, t.iaddr, t.insn, rd, rd+32.U) } .elsewhen (wxd && rd =/= 0.U && has_data) { printf ("%d 0x%x (0x%x) x%d 0x%x\n", t.priv, t.iaddr, t.insn, rd, rf_wdata) } .elsewhen (wxd && rd =/= 0.U && !has_data) { printf ("%d 0x%x (0x%x) x%d p%d 0xXXXXXXXXXXXXXXXX\n", t.priv, t.iaddr, t.insn, rd, rd) } .otherwise { printf ("%d 0x%x (0x%x)\n", t.priv, t.iaddr, t.insn) } } when (ll_wen && rf_waddr =/= 0.U) { printf ("x%d p%d 0x%x\n", rf_waddr, rf_waddr, rf_wdata) } } else { when (csr.io.trace(0).valid) { printf("C%d: %d [%d] pc=[%x] W[r%d=%x][%d] R[r%d=%x] R[r%d=%x] inst=[%x] DASM(%x)\n", io.hartid, coreMonitorBundle.timer, coreMonitorBundle.valid, coreMonitorBundle.pc, Mux(wb_ctrl.wxd || wb_ctrl.wfd, coreMonitorBundle.wrdst, 0.U), Mux(coreMonitorBundle.wrenx, coreMonitorBundle.wrdata, 0.U), coreMonitorBundle.wrenx, Mux(wb_ctrl.rxs1 || wb_ctrl.rfs1, coreMonitorBundle.rd0src, 0.U), Mux(wb_ctrl.rxs1 || wb_ctrl.rfs1, coreMonitorBundle.rd0val, 0.U), Mux(wb_ctrl.rxs2 || wb_ctrl.rfs2, coreMonitorBundle.rd1src, 0.U), Mux(wb_ctrl.rxs2 || wb_ctrl.rfs2, coreMonitorBundle.rd1val, 0.U), coreMonitorBundle.inst, coreMonitorBundle.inst) } } // CoreMonitorBundle for late latency writes val xrfWriteBundle = Wire(new CoreMonitorBundle(xLen, fLen)) xrfWriteBundle.clock := clock xrfWriteBundle.reset := reset xrfWriteBundle.hartid := io.hartid xrfWriteBundle.timer := csr.io.time(31,0) xrfWriteBundle.valid := false.B xrfWriteBundle.pc := 0.U xrfWriteBundle.wrdst := rf_waddr xrfWriteBundle.wrenx := rf_wen && !(csr.io.trace(0).valid && wb_wen && (wb_waddr === rf_waddr)) xrfWriteBundle.wrenf := false.B xrfWriteBundle.wrdata := rf_wdata xrfWriteBundle.rd0src := 0.U xrfWriteBundle.rd0val := 0.U xrfWriteBundle.rd1src := 0.U xrfWriteBundle.rd1val := 0.U xrfWriteBundle.inst := 0.U xrfWriteBundle.excpt := false.B xrfWriteBundle.priv_mode := csr.io.trace(0).priv if (rocketParams.haveSimTimeout) PlusArg.timeout( name = "max_core_cycles", docstring = "Kill the emulation after INT rdtime cycles. Off if 0." )(csr.io.time) } // leaving gated-clock domain val rocketImpl = withClock (gated_clock) { new RocketImpl } def checkExceptions(x: Seq[(Bool, UInt)]) = (WireInit(x.map(_._1).reduce(_||_)), WireInit(PriorityMux(x))) def coverExceptions(exceptionValid: Bool, cause: UInt, labelPrefix: String, coverCausesLabels: Seq[(Int, String)]): Unit = { for ((coverCause, label) <- coverCausesLabels) { property.cover(exceptionValid && (cause === coverCause.U), s"${labelPrefix}_${label}") } } def checkHazards(targets: Seq[(Bool, UInt)], cond: UInt => Bool) = targets.map(h => h._1 && cond(h._2)).reduce(_||_) def encodeVirtualAddress(a0: UInt, ea: UInt) = if (vaddrBitsExtended == vaddrBits) ea else { // efficient means to compress 64-bit VA into vaddrBits+1 bits // (VA is bad if VA(vaddrBits) != VA(vaddrBits-1)) val b = vaddrBitsExtended-1 val a = (a0 >> b).asSInt val msb = Mux(a === 0.S || a === -1.S, ea(b), !ea(b-1)) Cat(msb, ea(b-1, 0)) } class Scoreboard(n: Int, zero: Boolean = false) { def set(en: Bool, addr: UInt): Unit = update(en, _next | mask(en, addr)) def clear(en: Bool, addr: UInt): Unit = update(en, _next & ~mask(en, addr)) def read(addr: UInt): Bool = r(addr) def readBypassed(addr: UInt): Bool = _next(addr) private val _r = RegInit(0.U(n.W)) private val r = if (zero) (_r >> 1 << 1) else _r private var _next = r private var ens = false.B private def mask(en: Bool, addr: UInt) = Mux(en, 1.U << addr, 0.U) private def update(en: Bool, update: UInt) = { _next = update ens = ens || en when (ens) { _r := _next } } } } class RegFile(n: Int, w: Int, zero: Boolean = false) { val rf = Mem(n, UInt(w.W)) private def access(addr: UInt) = rf(~addr(log2Up(n)-1,0)) private val reads = ArrayBuffer[(UInt,UInt)]() private var canRead = true def read(addr: UInt) = { require(canRead) reads += addr -> Wire(UInt()) reads.last._2 := Mux(zero.B && addr === 0.U, 0.U, access(addr)) reads.last._2 } def write(addr: UInt, data: UInt) = { canRead = false when (addr =/= 0.U) { access(addr) := data for ((raddr, rdata) <- reads) when (addr === raddr) { rdata := data } } } } object ImmGen { def apply(sel: UInt, inst: UInt) = { val sign = Mux(sel === IMM_Z, 0.S, inst(31).asSInt) val b30_20 = Mux(sel === IMM_U, inst(30,20).asSInt, sign) val b19_12 = Mux(sel =/= IMM_U && sel =/= IMM_UJ, sign, inst(19,12).asSInt) val b11 = Mux(sel === IMM_U || sel === IMM_Z, 0.S, Mux(sel === IMM_UJ, inst(20).asSInt, Mux(sel === IMM_SB, inst(7).asSInt, sign))) val b10_5 = Mux(sel === IMM_U || sel === IMM_Z, 0.U, inst(30,25)) val b4_1 = Mux(sel === IMM_U, 0.U, Mux(sel === IMM_S || sel === IMM_SB, inst(11,8), Mux(sel === IMM_Z, inst(19,16), inst(24,21)))) val b0 = Mux(sel === IMM_S, inst(7), Mux(sel === IMM_I, inst(20), Mux(sel === IMM_Z, inst(15), 0.U))) Cat(sign, b30_20, b19_12, b11, b10_5, b4_1, b0).asSInt } } File AMOALU.scala: // See LICENSE.SiFive for license details. // See LICENSE.Berkeley for license details. package freechips.rocketchip.rocket import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.Parameters class StoreGen(typ: UInt, addr: UInt, dat: UInt, maxSize: Int) { val size = Wire(UInt(log2Up(log2Up(maxSize)+1).W)) size := typ val dat_padded = dat.pad(maxSize*8) def misaligned: Bool = (addr & ((1.U << size) - 1.U)(log2Up(maxSize)-1,0)).orR def mask = { var res = 1.U for (i <- 0 until log2Up(maxSize)) { val upper = Mux(addr(i), res, 0.U) | Mux(size >= (i+1).U, ((BigInt(1) << (1 << i))-1).U, 0.U) val lower = Mux(addr(i), 0.U, res) res = Cat(upper, lower) } res } protected def genData(i: Int): UInt = if (i >= log2Up(maxSize)) dat_padded else Mux(size === i.U, Fill(1 << (log2Up(maxSize)-i), dat_padded((8 << i)-1,0)), genData(i+1)) def data = genData(0) def wordData = genData(2) } class LoadGen(typ: UInt, signed: Bool, addr: UInt, dat: UInt, zero: Bool, maxSize: Int) { private val size = new StoreGen(typ, addr, dat, maxSize).size private def genData(logMinSize: Int): UInt = { var res = dat for (i <- log2Up(maxSize)-1 to logMinSize by -1) { val pos = 8 << i val shifted = Mux(addr(i), res(2*pos-1,pos), res(pos-1,0)) val doZero = (i == 0).B && zero val zeroed = Mux(doZero, 0.U, shifted) res = Cat(Mux(size === i.U || doZero, Fill(8*maxSize-pos, signed && zeroed(pos-1)), res(8*maxSize-1,pos)), zeroed) } res } def wordData = genData(2) def data = genData(0) } class AMOALU(operandBits: Int)(implicit p: Parameters) extends Module { val minXLen = 32 val widths = (0 to log2Ceil(operandBits / minXLen)).map(minXLen << _) val io = IO(new Bundle { val mask = Input(UInt((operandBits / 8).W)) val cmd = Input(UInt(M_SZ.W)) val lhs = Input(UInt(operandBits.W)) val rhs = Input(UInt(operandBits.W)) val out = Output(UInt(operandBits.W)) val out_unmasked = Output(UInt(operandBits.W)) }) val max = io.cmd === M_XA_MAX || io.cmd === M_XA_MAXU val min = io.cmd === M_XA_MIN || io.cmd === M_XA_MINU val add = io.cmd === M_XA_ADD val logic_and = io.cmd === M_XA_OR || io.cmd === M_XA_AND val logic_xor = io.cmd === M_XA_XOR || io.cmd === M_XA_OR val adder_out = { // partition the carry chain to support sub-xLen addition val mask = ~(0.U(operandBits.W) +: widths.init.map(w => !io.mask(w/8-1) << (w-1))).reduce(_|_) (io.lhs & mask) + (io.rhs & mask) } val less = { // break up the comparator so the lower parts will be CSE'd def isLessUnsigned(x: UInt, y: UInt, n: Int): Bool = { if (n == minXLen) x(n-1, 0) < y(n-1, 0) else x(n-1, n/2) < y(n-1, n/2) || x(n-1, n/2) === y(n-1, n/2) && isLessUnsigned(x, y, n/2) } def isLess(x: UInt, y: UInt, n: Int): Bool = { val signed = { val mask = M_XA_MIN ^ M_XA_MINU (io.cmd & mask) === (M_XA_MIN & mask) } Mux(x(n-1) === y(n-1), isLessUnsigned(x, y, n), Mux(signed, x(n-1), y(n-1))) } PriorityMux(widths.reverse.map(w => (io.mask(w/8/2), isLess(io.lhs, io.rhs, w)))) } val minmax = Mux(Mux(less, min, max), io.lhs, io.rhs) val logic = Mux(logic_and, io.lhs & io.rhs, 0.U) | Mux(logic_xor, io.lhs ^ io.rhs, 0.U) val out = Mux(add, adder_out, Mux(logic_and || logic_xor, logic, minmax)) val wmask = FillInterleaved(8, io.mask) io.out := wmask & out | ~wmask & io.lhs io.out_unmasked := out } File CSR.scala: // See LICENSE.SiFive for license details. // See LICENSE.Berkeley for license details. package freechips.rocketchip.rocket import chisel3._ import chisel3.util.{BitPat, Cat, Fill, Mux1H, PopCount, PriorityMux, RegEnable, UIntToOH, Valid, log2Ceil, log2Up} import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.devices.debug.DebugModuleKey import freechips.rocketchip.tile._ import freechips.rocketchip.util._ import freechips.rocketchip.util.property import scala.collection.mutable.LinkedHashMap import Instructions._ import CustomInstructions._ class MStatus extends Bundle { // not truly part of mstatus, but convenient val debug = Bool() val cease = Bool() val wfi = Bool() val isa = UInt(32.W) val dprv = UInt(PRV.SZ.W) // effective prv for data accesses val dv = Bool() // effective v for data accesses val prv = UInt(PRV.SZ.W) val v = Bool() val sd = Bool() val zero2 = UInt(23.W) val mpv = Bool() val gva = Bool() val mbe = Bool() val sbe = Bool() val sxl = UInt(2.W) val uxl = UInt(2.W) val sd_rv32 = Bool() val zero1 = UInt(8.W) val tsr = Bool() val tw = Bool() val tvm = Bool() val mxr = Bool() val sum = Bool() val mprv = Bool() val xs = UInt(2.W) val fs = UInt(2.W) val mpp = UInt(2.W) val vs = UInt(2.W) val spp = UInt(1.W) val mpie = Bool() val ube = Bool() val spie = Bool() val upie = Bool() val mie = Bool() val hie = Bool() val sie = Bool() val uie = Bool() } class MNStatus extends Bundle { val mpp = UInt(2.W) val zero3 = UInt(3.W) val mpv = Bool() val zero2 = UInt(3.W) val mie = Bool() val zero1 = UInt(3.W) } class HStatus extends Bundle { val zero6 = UInt(30.W) val vsxl = UInt(2.W) val zero5 = UInt(9.W) val vtsr = Bool() val vtw = Bool() val vtvm = Bool() val zero3 = UInt(2.W) val vgein = UInt(6.W) val zero2 = UInt(2.W) val hu = Bool() val spvp = Bool() val spv = Bool() val gva = Bool() val vsbe = Bool() val zero1 = UInt(5.W) } class DCSR extends Bundle { val xdebugver = UInt(2.W) val zero4 = UInt(2.W) val zero3 = UInt(12.W) val ebreakm = Bool() val ebreakh = Bool() val ebreaks = Bool() val ebreaku = Bool() val zero2 = Bool() val stopcycle = Bool() val stoptime = Bool() val cause = UInt(3.W) val v = Bool() val zero1 = UInt(2.W) val step = Bool() val prv = UInt(PRV.SZ.W) } class MIP(implicit p: Parameters) extends CoreBundle()(p) with HasCoreParameters { val lip = Vec(coreParams.nLocalInterrupts, Bool()) val zero1 = Bool() val debug = Bool() // keep in sync with CSR.debugIntCause val rocc = Bool() val sgeip = Bool() val meip = Bool() val vseip = Bool() val seip = Bool() val ueip = Bool() val mtip = Bool() val vstip = Bool() val stip = Bool() val utip = Bool() val msip = Bool() val vssip = Bool() val ssip = Bool() val usip = Bool() } class Envcfg extends Bundle { val stce = Bool() // only for menvcfg/henvcfg val pbmte = Bool() // only for menvcfg/henvcfg val zero54 = UInt(54.W) val cbze = Bool() val cbcfe = Bool() val cbie = UInt(2.W) val zero3 = UInt(3.W) val fiom = Bool() def write(wdata: UInt) { val new_envcfg = wdata.asTypeOf(new Envcfg) fiom := new_envcfg.fiom // only FIOM is writable currently } } class PTBR(implicit p: Parameters) extends CoreBundle()(p) { def additionalPgLevels = mode.extract(log2Ceil(pgLevels-minPgLevels+1)-1, 0) def pgLevelsToMode(i: Int) = (xLen, i) match { case (32, 2) => 1 case (64, x) if x >= 3 && x <= 6 => x + 5 } val (modeBits, maxASIdBits) = xLen match { case 32 => (1, 9) case 64 => (4, 16) } require(modeBits + maxASIdBits + maxPAddrBits - pgIdxBits == xLen) val mode = UInt(modeBits.W) val asid = UInt(maxASIdBits.W) val ppn = UInt((maxPAddrBits - pgIdxBits).W) } object PRV { val SZ = 2 val U = 0 val S = 1 val H = 2 val M = 3 } object CSR { // commands val SZ = 3 def X = BitPat.dontCare(SZ) def N = 0.U(SZ.W) def R = 2.U(SZ.W) def I = 4.U(SZ.W) def W = 5.U(SZ.W) def S = 6.U(SZ.W) def C = 7.U(SZ.W) // mask a CSR cmd with a valid bit def maskCmd(valid: Bool, cmd: UInt): UInt = { // all commands less than CSR.I are treated by CSRFile as NOPs cmd & ~Mux(valid, 0.U, CSR.I) } val ADDRSZ = 12 def modeLSB: Int = 8 def mode(addr: Int): Int = (addr >> modeLSB) % (1 << PRV.SZ) def mode(addr: UInt): UInt = addr(modeLSB + PRV.SZ - 1, modeLSB) def busErrorIntCause = 128 def debugIntCause = 14 // keep in sync with MIP.debug def debugTriggerCause = { val res = debugIntCause require(!(Causes.all contains res)) res } def rnmiIntCause = 13 // NMI: Higher numbers = higher priority, must not reuse debugIntCause def rnmiBEUCause = 12 val firstCtr = CSRs.cycle val firstCtrH = CSRs.cycleh val firstHPC = CSRs.hpmcounter3 val firstHPCH = CSRs.hpmcounter3h val firstHPE = CSRs.mhpmevent3 val firstMHPC = CSRs.mhpmcounter3 val firstMHPCH = CSRs.mhpmcounter3h val firstHPM = 3 val nCtr = 32 val nHPM = nCtr - firstHPM val hpmWidth = 40 val maxPMPs = 16 } class PerfCounterIO(implicit p: Parameters) extends CoreBundle with HasCoreParameters { val eventSel = Output(UInt(xLen.W)) val inc = Input(UInt(log2Ceil(1+retireWidth).W)) } class TracedInstruction(implicit p: Parameters) extends CoreBundle { val valid = Bool() val iaddr = UInt(coreMaxAddrBits.W) val insn = UInt(iLen.W) val priv = UInt(3.W) val exception = Bool() val interrupt = Bool() val cause = UInt(xLen.W) val tval = UInt((coreMaxAddrBits max iLen).W) val wdata = Option.when(traceHasWdata)(UInt((vLen max xLen).W)) } class TraceAux extends Bundle { val enable = Bool() val stall = Bool() } class CSRDecodeIO(implicit p: Parameters) extends CoreBundle { val inst = Input(UInt(iLen.W)) def csr_addr = (inst >> 20)(CSR.ADDRSZ-1, 0) val fp_illegal = Output(Bool()) val vector_illegal = Output(Bool()) val fp_csr = Output(Bool()) val vector_csr = Output(Bool()) val rocc_illegal = Output(Bool()) val read_illegal = Output(Bool()) val write_illegal = Output(Bool()) val write_flush = Output(Bool()) val system_illegal = Output(Bool()) val virtual_access_illegal = Output(Bool()) val virtual_system_illegal = Output(Bool()) } class CSRFileIO(hasBeu: Boolean)(implicit p: Parameters) extends CoreBundle with HasCoreParameters { val ungated_clock = Input(Clock()) val interrupts = Input(new CoreInterrupts(hasBeu)) val hartid = Input(UInt(hartIdLen.W)) val rw = new Bundle { val addr = Input(UInt(CSR.ADDRSZ.W)) val cmd = Input(Bits(CSR.SZ.W)) val rdata = Output(Bits(xLen.W)) val wdata = Input(Bits(xLen.W)) } val decode = Vec(decodeWidth, new CSRDecodeIO) val csr_stall = Output(Bool()) // stall retire for wfi val rw_stall = Output(Bool()) // stall rw, rw will have no effect while rw_stall val eret = Output(Bool()) val singleStep = Output(Bool()) val status = Output(new MStatus()) val hstatus = Output(new HStatus()) val gstatus = Output(new MStatus()) val ptbr = Output(new PTBR()) val hgatp = Output(new PTBR()) val vsatp = Output(new PTBR()) val evec = Output(UInt(vaddrBitsExtended.W)) val exception = Input(Bool()) val retire = Input(UInt(log2Up(1+retireWidth).W)) val cause = Input(UInt(xLen.W)) val pc = Input(UInt(vaddrBitsExtended.W)) val tval = Input(UInt(vaddrBitsExtended.W)) val htval = Input(UInt(((maxSVAddrBits + 1) min xLen).W)) val mhtinst_read_pseudo = Input(Bool()) val gva = Input(Bool()) val time = Output(UInt(xLen.W)) val fcsr_rm = Output(Bits(FPConstants.RM_SZ.W)) val fcsr_flags = Flipped(Valid(Bits(FPConstants.FLAGS_SZ.W))) val set_fs_dirty = coreParams.haveFSDirty.option(Input(Bool())) val rocc_interrupt = Input(Bool()) val interrupt = Output(Bool()) val interrupt_cause = Output(UInt(xLen.W)) val bp = Output(Vec(nBreakpoints, new BP)) val pmp = Output(Vec(nPMPs, new PMP)) val counters = Vec(nPerfCounters, new PerfCounterIO) val csrw_counter = Output(UInt(CSR.nCtr.W)) val inhibit_cycle = Output(Bool()) val inst = Input(Vec(retireWidth, UInt(iLen.W))) val trace = Output(Vec(retireWidth, new TracedInstruction)) val mcontext = Output(UInt(coreParams.mcontextWidth.W)) val scontext = Output(UInt(coreParams.scontextWidth.W)) val fiom = Output(Bool()) val vector = usingVector.option(new Bundle { val vconfig = Output(new VConfig()) val vstart = Output(UInt(maxVLMax.log2.W)) val vxrm = Output(UInt(2.W)) val set_vs_dirty = Input(Bool()) val set_vconfig = Flipped(Valid(new VConfig)) val set_vstart = Flipped(Valid(vstart)) val set_vxsat = Input(Bool()) }) } class VConfig(implicit p: Parameters) extends CoreBundle { val vl = UInt((maxVLMax.log2 + 1).W) val vtype = new VType } object VType { def fromUInt(that: UInt, ignore_vill: Boolean = false)(implicit p: Parameters): VType = { val res = 0.U.asTypeOf(new VType) val in = that.asTypeOf(res) val vill = (in.max_vsew.U < in.vsew) || !in.lmul_ok || in.reserved =/= 0.U || in.vill when (!vill || ignore_vill.B) { res := in res.vsew := in.vsew(log2Ceil(1 + in.max_vsew) - 1, 0) } res.reserved := 0.U res.vill := vill res } def computeVL(avl: UInt, vtype: UInt, currentVL: UInt, useCurrentVL: Bool, useMax: Bool, useZero: Bool)(implicit p: Parameters): UInt = VType.fromUInt(vtype, true).vl(avl, currentVL, useCurrentVL, useMax, useZero) } class VType(implicit p: Parameters) extends CoreBundle { val vill = Bool() val reserved = UInt((xLen - 9).W) val vma = Bool() val vta = Bool() val vsew = UInt(3.W) val vlmul_sign = Bool() val vlmul_mag = UInt(2.W) def vlmul_signed: SInt = Cat(vlmul_sign, vlmul_mag).asSInt @deprecated("use vlmul_sign, vlmul_mag, or vlmul_signed", "RVV 0.9") def vlmul: UInt = vlmul_mag def max_vsew = log2Ceil(eLen/8) def max_vlmul = (1 << vlmul_mag.getWidth) - 1 def lmul_ok: Bool = Mux(this.vlmul_sign, this.vlmul_mag =/= 0.U && ~this.vlmul_mag < max_vsew.U - this.vsew, true.B) def minVLMax: Int = ((maxVLMax / eLen) >> ((1 << vlmul_mag.getWidth) - 1)) max 1 def vlMax: UInt = (maxVLMax.U >> (this.vsew +& Cat(this.vlmul_sign, ~this.vlmul_mag))).andNot((minVLMax-1).U) def vl(avl: UInt, currentVL: UInt, useCurrentVL: Bool, useMax: Bool, useZero: Bool): UInt = { val atLeastMaxVLMax = useMax || Mux(useCurrentVL, currentVL >= maxVLMax.U, avl >= maxVLMax.U) val avl_lsbs = Mux(useCurrentVL, currentVL, avl)(maxVLMax.log2 - 1, 0) val atLeastVLMax = atLeastMaxVLMax || (avl_lsbs & (-maxVLMax.S >> (this.vsew +& Cat(this.vlmul_sign, ~this.vlmul_mag))).asUInt.andNot((minVLMax-1).U)).orR val isZero = vill || useZero Mux(!isZero && atLeastVLMax, vlMax, 0.U) | Mux(!isZero && !atLeastVLMax, avl_lsbs, 0.U) } } class CSRFile( perfEventSets: EventSets = new EventSets(Seq()), customCSRs: Seq[CustomCSR] = Nil, roccCSRs: Seq[CustomCSR] = Nil, hasBeu: Boolean = false)(implicit p: Parameters) extends CoreModule()(p) with HasCoreParameters { val io = IO(new CSRFileIO(hasBeu) { val customCSRs = Vec(CSRFile.this.customCSRs.size, new CustomCSRIO) val roccCSRs = Vec(CSRFile.this.roccCSRs.size, new CustomCSRIO) }) io.rw_stall := false.B val reset_mstatus = WireDefault(0.U.asTypeOf(new MStatus())) reset_mstatus.mpp := PRV.M.U reset_mstatus.prv := PRV.M.U reset_mstatus.xs := (if (usingRoCC) 3.U else 0.U) val reg_mstatus = RegInit(reset_mstatus) val new_prv = WireDefault(reg_mstatus.prv) reg_mstatus.prv := legalizePrivilege(new_prv) val reset_dcsr = WireDefault(0.U.asTypeOf(new DCSR())) reset_dcsr.xdebugver := 1.U reset_dcsr.prv := PRV.M.U val reg_dcsr = RegInit(reset_dcsr) val (supported_interrupts, delegable_interrupts) = { val sup = Wire(new MIP) sup.usip := false.B sup.ssip := usingSupervisor.B sup.vssip := usingHypervisor.B sup.msip := true.B sup.utip := false.B sup.stip := usingSupervisor.B sup.vstip := usingHypervisor.B sup.mtip := true.B sup.ueip := false.B sup.seip := usingSupervisor.B sup.vseip := usingHypervisor.B sup.meip := true.B sup.sgeip := false.B sup.rocc := usingRoCC.B sup.debug := false.B sup.zero1 := false.B sup.lip foreach { _ := true.B } val supported_high_interrupts = if (io.interrupts.buserror.nonEmpty && !usingNMI) (BigInt(1) << CSR.busErrorIntCause).U else 0.U val del = WireDefault(sup) del.msip := false.B del.mtip := false.B del.meip := false.B (sup.asUInt | supported_high_interrupts, del.asUInt) } val delegable_base_exceptions = Seq( Causes.misaligned_fetch, Causes.fetch_page_fault, Causes.breakpoint, Causes.load_page_fault, Causes.store_page_fault, Causes.misaligned_load, Causes.misaligned_store, Causes.illegal_instruction, Causes.user_ecall, ) val delegable_hypervisor_exceptions = Seq( Causes.virtual_supervisor_ecall, Causes.fetch_guest_page_fault, Causes.load_guest_page_fault, Causes.virtual_instruction, Causes.store_guest_page_fault, ) val delegable_exceptions = ( delegable_base_exceptions ++ (if (usingHypervisor) delegable_hypervisor_exceptions else Seq()) ).map(1 << _).sum.U val hs_delegable_exceptions = Seq( Causes.misaligned_fetch, Causes.fetch_access, Causes.illegal_instruction, Causes.breakpoint, Causes.misaligned_load, Causes.load_access, Causes.misaligned_store, Causes.store_access, Causes.user_ecall, Causes.fetch_page_fault, Causes.load_page_fault, Causes.store_page_fault).map(1 << _).sum.U val (hs_delegable_interrupts, mideleg_always_hs) = { val always = WireDefault(0.U.asTypeOf(new MIP())) always.vssip := usingHypervisor.B always.vstip := usingHypervisor.B always.vseip := usingHypervisor.B val deleg = WireDefault(always) deleg.lip.foreach { _ := usingHypervisor.B } (deleg.asUInt, always.asUInt) } val reg_debug = RegInit(false.B) val reg_dpc = Reg(UInt(vaddrBitsExtended.W)) val reg_dscratch0 = Reg(UInt(xLen.W)) val reg_dscratch1 = (p(DebugModuleKey).map(_.nDscratch).getOrElse(1) > 1).option(Reg(UInt(xLen.W))) val reg_singleStepped = Reg(Bool()) val reg_mcontext = (coreParams.mcontextWidth > 0).option(RegInit(0.U(coreParams.mcontextWidth.W))) val reg_scontext = (coreParams.scontextWidth > 0).option(RegInit(0.U(coreParams.scontextWidth.W))) val reg_tselect = Reg(UInt(log2Up(nBreakpoints).W)) val reg_bp = Reg(Vec(1 << log2Up(nBreakpoints), new BP)) val reg_pmp = Reg(Vec(nPMPs, new PMPReg)) val reg_mie = Reg(UInt(xLen.W)) val (reg_mideleg, read_mideleg) = { val reg = Reg(UInt(xLen.W)) (reg, Mux(usingSupervisor.B, reg & delegable_interrupts | mideleg_always_hs, 0.U)) } val (reg_medeleg, read_medeleg) = { val reg = Reg(UInt(xLen.W)) (reg, Mux(usingSupervisor.B, reg & delegable_exceptions, 0.U)) } val reg_mip = Reg(new MIP) val reg_mepc = Reg(UInt(vaddrBitsExtended.W)) val reg_mcause = RegInit(0.U(xLen.W)) val reg_mtval = Reg(UInt(vaddrBitsExtended.W)) val reg_mtval2 = Reg(UInt(((maxSVAddrBits + 1) min xLen).W)) val reg_mscratch = Reg(Bits(xLen.W)) val mtvecWidth = paddrBits min xLen val reg_mtvec = mtvecInit match { case Some(addr) => RegInit(addr.U(mtvecWidth.W)) case None => Reg(UInt(mtvecWidth.W)) } val reset_mnstatus = WireDefault(0.U.asTypeOf(new MNStatus())) reset_mnstatus.mpp := PRV.M.U val reg_mnscratch = Reg(Bits(xLen.W)) val reg_mnepc = Reg(UInt(vaddrBitsExtended.W)) val reg_mncause = RegInit(0.U(xLen.W)) val reg_mnstatus = RegInit(reset_mnstatus) val reg_rnmie = RegInit(true.B) val nmie = reg_rnmie val reg_menvcfg = RegInit(0.U.asTypeOf(new Envcfg)) val reg_senvcfg = RegInit(0.U.asTypeOf(new Envcfg)) val reg_henvcfg = RegInit(0.U.asTypeOf(new Envcfg)) val delegable_counters = ((BigInt(1) << (nPerfCounters + CSR.firstHPM)) - 1).U val (reg_mcounteren, read_mcounteren) = { val reg = Reg(UInt(32.W)) (reg, Mux(usingUser.B, reg & delegable_counters, 0.U)) } val (reg_scounteren, read_scounteren) = { val reg = Reg(UInt(32.W)) (reg, Mux(usingSupervisor.B, reg & delegable_counters, 0.U)) } val (reg_hideleg, read_hideleg) = { val reg = Reg(UInt(xLen.W)) (reg, Mux(usingHypervisor.B, reg & hs_delegable_interrupts, 0.U)) } val (reg_hedeleg, read_hedeleg) = { val reg = Reg(UInt(xLen.W)) (reg, Mux(usingHypervisor.B, reg & hs_delegable_exceptions, 0.U)) } val hs_delegable_counters = delegable_counters val (reg_hcounteren, read_hcounteren) = { val reg = Reg(UInt(32.W)) (reg, Mux(usingHypervisor.B, reg & hs_delegable_counters, 0.U)) } val reg_hstatus = RegInit(0.U.asTypeOf(new HStatus)) val reg_hgatp = Reg(new PTBR) val reg_htval = Reg(reg_mtval2.cloneType) val read_hvip = reg_mip.asUInt & hs_delegable_interrupts val read_hie = reg_mie & hs_delegable_interrupts val (reg_vstvec, read_vstvec) = { val reg = Reg(UInt(vaddrBitsExtended.W)) (reg, formTVec(reg).sextTo(xLen)) } val reg_vsstatus = Reg(new MStatus) val reg_vsscratch = Reg(Bits(xLen.W)) val reg_vsepc = Reg(UInt(vaddrBitsExtended.W)) val reg_vscause = Reg(Bits(xLen.W)) val reg_vstval = Reg(UInt(vaddrBitsExtended.W)) val reg_vsatp = Reg(new PTBR) val reg_sepc = Reg(UInt(vaddrBitsExtended.W)) val reg_scause = Reg(Bits(xLen.W)) val reg_stval = Reg(UInt(vaddrBitsExtended.W)) val reg_sscratch = Reg(Bits(xLen.W)) val reg_stvec = Reg(UInt((if (usingHypervisor) vaddrBitsExtended else vaddrBits).W)) val reg_satp = Reg(new PTBR) val reg_wfi = withClock(io.ungated_clock) { RegInit(false.B) } val reg_fflags = Reg(UInt(5.W)) val reg_frm = Reg(UInt(3.W)) val reg_vconfig = usingVector.option(Reg(new VConfig)) val reg_vstart = usingVector.option(Reg(UInt(maxVLMax.log2.W))) val reg_vxsat = usingVector.option(Reg(Bool())) val reg_vxrm = usingVector.option(Reg(UInt(io.vector.get.vxrm.getWidth.W))) val reg_mtinst_read_pseudo = Reg(Bool()) val reg_htinst_read_pseudo = Reg(Bool()) // XLEN=32: 0x00002000 // XLEN=64: 0x00003000 val Seq(read_mtinst, read_htinst) = Seq(reg_mtinst_read_pseudo, reg_htinst_read_pseudo).map(r => Cat(r, (xLen == 32).option(0.U).getOrElse(r), 0.U(12.W))) val reg_mcountinhibit = RegInit(0.U((CSR.firstHPM + nPerfCounters).W)) io.inhibit_cycle := reg_mcountinhibit(0) val reg_instret = WideCounter(64, io.retire, inhibit = reg_mcountinhibit(2)) val reg_cycle = if (enableCommitLog) WideCounter(64, io.retire, inhibit = reg_mcountinhibit(0)) else withClock(io.ungated_clock) { WideCounter(64, !io.csr_stall, inhibit = reg_mcountinhibit(0)) } val reg_hpmevent = io.counters.map(c => RegInit(0.U(xLen.W))) (io.counters zip reg_hpmevent) foreach { case (c, e) => c.eventSel := e } val reg_hpmcounter = io.counters.zipWithIndex.map { case (c, i) => WideCounter(CSR.hpmWidth, c.inc, reset = false, inhibit = reg_mcountinhibit(CSR.firstHPM+i)) } val mip = WireDefault(reg_mip) mip.lip := (io.interrupts.lip: Seq[Bool]) mip.mtip := io.interrupts.mtip mip.msip := io.interrupts.msip mip.meip := io.interrupts.meip // seip is the OR of reg_mip.seip and the actual line from the PLIC io.interrupts.seip.foreach { mip.seip := reg_mip.seip || _ } // Simimlar sort of thing would apply if the PLIC had a VSEIP line: //io.interrupts.vseip.foreach { mip.vseip := reg_mip.vseip || _ } mip.rocc := io.rocc_interrupt val read_mip = mip.asUInt & supported_interrupts val read_hip = read_mip & hs_delegable_interrupts val high_interrupts = (if (usingNMI) 0.U else io.interrupts.buserror.map(_ << CSR.busErrorIntCause).getOrElse(0.U)) val pending_interrupts = high_interrupts | (read_mip & reg_mie) val d_interrupts = io.interrupts.debug << CSR.debugIntCause val (nmi_interrupts, nmiFlag) = io.interrupts.nmi.map(nmi => (((nmi.rnmi && reg_rnmie) << CSR.rnmiIntCause) | io.interrupts.buserror.map(_ << CSR.rnmiBEUCause).getOrElse(0.U), !io.interrupts.debug && nmi.rnmi && reg_rnmie)).getOrElse(0.U, false.B) val m_interrupts = Mux(nmie && (reg_mstatus.prv <= PRV.S.U || reg_mstatus.mie), ~(~pending_interrupts | read_mideleg), 0.U) val s_interrupts = Mux(nmie && (reg_mstatus.v || reg_mstatus.prv < PRV.S.U || (reg_mstatus.prv === PRV.S.U && reg_mstatus.sie)), pending_interrupts & read_mideleg & ~read_hideleg, 0.U) val vs_interrupts = Mux(nmie && (reg_mstatus.v && (reg_mstatus.prv < PRV.S.U || reg_mstatus.prv === PRV.S.U && reg_vsstatus.sie)), pending_interrupts & read_hideleg, 0.U) val (anyInterrupt, whichInterrupt) = chooseInterrupt(Seq(vs_interrupts, s_interrupts, m_interrupts, nmi_interrupts, d_interrupts)) val interruptMSB = BigInt(1) << (xLen-1) val interruptCause = interruptMSB.U + (nmiFlag << (xLen-2)) + whichInterrupt io.interrupt := (anyInterrupt && !io.singleStep || reg_singleStepped) && !(reg_debug || io.status.cease) io.interrupt_cause := interruptCause io.bp := reg_bp take nBreakpoints io.mcontext := reg_mcontext.getOrElse(0.U) io.scontext := reg_scontext.getOrElse(0.U) io.fiom := (reg_mstatus.prv < PRV.M.U && reg_menvcfg.fiom) || (reg_mstatus.prv < PRV.S.U && reg_senvcfg.fiom) || (reg_mstatus.v && reg_henvcfg.fiom) io.pmp := reg_pmp.map(PMP(_)) val isaMaskString = (if (usingMulDiv) "M" else "") + (if (usingAtomics) "A" else "") + (if (fLen >= 32) "F" else "") + (if (fLen >= 64) "D" else "") + (if (coreParams.hasV) "V" else "") + (if (usingCompressed) "C" else "") val isaString = (if (coreParams.useRVE) "E" else "I") + isaMaskString + (if (customIsaExt.isDefined || usingRoCC) "X" else "") + (if (usingSupervisor) "S" else "") + (if (usingHypervisor) "H" else "") + (if (usingUser) "U" else "") val isaMax = (BigInt(log2Ceil(xLen) - 4) << (xLen-2)) | isaStringToMask(isaString) val reg_misa = RegInit(isaMax.U) val read_mstatus = io.status.asUInt.extract(xLen-1,0) val read_mtvec = formTVec(reg_mtvec).padTo(xLen) val read_stvec = formTVec(reg_stvec).sextTo(xLen) val read_mapping = LinkedHashMap[Int,Bits]( CSRs.tselect -> reg_tselect, CSRs.tdata1 -> reg_bp(reg_tselect).control.asUInt, CSRs.tdata2 -> reg_bp(reg_tselect).address.sextTo(xLen), CSRs.tdata3 -> reg_bp(reg_tselect).textra.asUInt, CSRs.misa -> reg_misa, CSRs.mstatus -> read_mstatus, CSRs.mtvec -> read_mtvec, CSRs.mip -> read_mip, CSRs.mie -> reg_mie, CSRs.mscratch -> reg_mscratch, CSRs.mepc -> readEPC(reg_mepc).sextTo(xLen), CSRs.mtval -> reg_mtval.sextTo(xLen), CSRs.mcause -> reg_mcause, CSRs.mhartid -> io.hartid) val debug_csrs = if (!usingDebug) LinkedHashMap() else LinkedHashMap[Int,Bits]( CSRs.dcsr -> reg_dcsr.asUInt, CSRs.dpc -> readEPC(reg_dpc).sextTo(xLen), CSRs.dscratch0 -> reg_dscratch0.asUInt) ++ reg_dscratch1.map(r => CSRs.dscratch1 -> r) val read_mnstatus = WireInit(0.U.asTypeOf(new MNStatus())) read_mnstatus.mpp := reg_mnstatus.mpp read_mnstatus.mpv := reg_mnstatus.mpv read_mnstatus.mie := reg_rnmie val nmi_csrs = if (!usingNMI) LinkedHashMap() else LinkedHashMap[Int,Bits]( CustomCSRs.mnscratch -> reg_mnscratch, CustomCSRs.mnepc -> readEPC(reg_mnepc).sextTo(xLen), CustomCSRs.mncause -> reg_mncause, CustomCSRs.mnstatus -> read_mnstatus.asUInt) val context_csrs = LinkedHashMap[Int,Bits]() ++ reg_mcontext.map(r => CSRs.mcontext -> r) ++ reg_scontext.map(r => CSRs.scontext -> r) val read_fcsr = Cat(reg_frm, reg_fflags) val fp_csrs = LinkedHashMap[Int,Bits]() ++ usingFPU.option(CSRs.fflags -> reg_fflags) ++ usingFPU.option(CSRs.frm -> reg_frm) ++ (usingFPU || usingVector).option(CSRs.fcsr -> read_fcsr) val read_vcsr = Cat(reg_vxrm.getOrElse(0.U), reg_vxsat.getOrElse(0.U)) val vector_csrs = if (!usingVector) LinkedHashMap() else LinkedHashMap[Int,Bits]( CSRs.vxsat -> reg_vxsat.get, CSRs.vxrm -> reg_vxrm.get, CSRs.vcsr -> read_vcsr, CSRs.vstart -> reg_vstart.get, CSRs.vtype -> reg_vconfig.get.vtype.asUInt, CSRs.vl -> reg_vconfig.get.vl, CSRs.vlenb -> (vLen / 8).U) read_mapping ++= debug_csrs read_mapping ++= nmi_csrs read_mapping ++= context_csrs read_mapping ++= fp_csrs read_mapping ++= vector_csrs if (coreParams.haveBasicCounters) { read_mapping += CSRs.mcountinhibit -> reg_mcountinhibit read_mapping += CSRs.mcycle -> reg_cycle read_mapping += CSRs.minstret -> reg_instret for (((e, c), i) <- (reg_hpmevent.padTo(CSR.nHPM, 0.U) zip reg_hpmcounter.map(x => x: UInt).padTo(CSR.nHPM, 0.U)).zipWithIndex) { read_mapping += (i + CSR.firstHPE) -> e // mhpmeventN read_mapping += (i + CSR.firstMHPC) -> c // mhpmcounterN read_mapping += (i + CSR.firstHPC) -> c // hpmcounterN if (xLen == 32) { read_mapping += (i + CSR.firstMHPCH) -> (c >> 32) // mhpmcounterNh read_mapping += (i + CSR.firstHPCH) -> (c >> 32) // hpmcounterNh } } if (usingUser) { read_mapping += CSRs.mcounteren -> read_mcounteren } read_mapping += CSRs.cycle -> reg_cycle read_mapping += CSRs.instret -> reg_instret if (xLen == 32) { read_mapping += CSRs.mcycleh -> (reg_cycle >> 32) read_mapping += CSRs.minstreth -> (reg_instret >> 32) read_mapping += CSRs.cycleh -> (reg_cycle >> 32) read_mapping += CSRs.instreth -> (reg_instret >> 32) } } if (usingUser) { read_mapping += CSRs.menvcfg -> reg_menvcfg.asUInt if (xLen == 32) read_mapping += CSRs.menvcfgh -> (reg_menvcfg.asUInt >> 32) } val sie_mask = { val sgeip_mask = WireInit(0.U.asTypeOf(new MIP)) sgeip_mask.sgeip := true.B read_mideleg & ~(hs_delegable_interrupts | sgeip_mask.asUInt) } if (usingSupervisor) { val read_sie = reg_mie & sie_mask val read_sip = read_mip & sie_mask val read_sstatus = WireDefault(0.U.asTypeOf(new MStatus)) read_sstatus.sd := io.status.sd read_sstatus.uxl := io.status.uxl read_sstatus.sd_rv32 := io.status.sd_rv32 read_sstatus.mxr := io.status.mxr read_sstatus.sum := io.status.sum read_sstatus.xs := io.status.xs read_sstatus.fs := io.status.fs read_sstatus.vs := io.status.vs read_sstatus.spp := io.status.spp read_sstatus.spie := io.status.spie read_sstatus.sie := io.status.sie read_mapping += CSRs.sstatus -> (read_sstatus.asUInt)(xLen-1,0) read_mapping += CSRs.sip -> read_sip.asUInt read_mapping += CSRs.sie -> read_sie.asUInt read_mapping += CSRs.sscratch -> reg_sscratch read_mapping += CSRs.scause -> reg_scause read_mapping += CSRs.stval -> reg_stval.sextTo(xLen) read_mapping += CSRs.satp -> reg_satp.asUInt read_mapping += CSRs.sepc -> readEPC(reg_sepc).sextTo(xLen) read_mapping += CSRs.stvec -> read_stvec read_mapping += CSRs.scounteren -> read_scounteren read_mapping += CSRs.mideleg -> read_mideleg read_mapping += CSRs.medeleg -> read_medeleg read_mapping += CSRs.senvcfg -> reg_senvcfg.asUInt } val pmpCfgPerCSR = xLen / new PMPConfig().getWidth def pmpCfgIndex(i: Int) = (xLen / 32) * (i / pmpCfgPerCSR) if (reg_pmp.nonEmpty) { require(reg_pmp.size <= CSR.maxPMPs) val read_pmp = reg_pmp.padTo(CSR.maxPMPs, 0.U.asTypeOf(new PMP)) for (i <- 0 until read_pmp.size by pmpCfgPerCSR) read_mapping += (CSRs.pmpcfg0 + pmpCfgIndex(i)) -> read_pmp.map(_.cfg).slice(i, i + pmpCfgPerCSR).asUInt for ((pmp, i) <- read_pmp.zipWithIndex) read_mapping += (CSRs.pmpaddr0 + i) -> pmp.readAddr } // implementation-defined CSRs def generateCustomCSR(csr: CustomCSR, csr_io: CustomCSRIO) = { require(csr.mask >= 0 && csr.mask.bitLength <= xLen) require(!read_mapping.contains(csr.id)) val reg = csr.init.map(init => RegInit(init.U(xLen.W))).getOrElse(Reg(UInt(xLen.W))) val read = io.rw.cmd =/= CSR.N && io.rw.addr === csr.id.U csr_io.ren := read when (read && csr_io.stall) { io.rw_stall := true.B } read_mapping += csr.id -> reg reg } val reg_custom = customCSRs.zip(io.customCSRs).map(t => generateCustomCSR(t._1, t._2)) val reg_rocc = roccCSRs.zip(io.roccCSRs).map(t => generateCustomCSR(t._1, t._2)) if (usingHypervisor) { read_mapping += CSRs.mtinst -> read_mtinst read_mapping += CSRs.mtval2 -> reg_mtval2 val read_hstatus = io.hstatus.asUInt.extract(xLen-1,0) read_mapping += CSRs.hstatus -> read_hstatus read_mapping += CSRs.hedeleg -> read_hedeleg read_mapping += CSRs.hideleg -> read_hideleg read_mapping += CSRs.hcounteren-> read_hcounteren read_mapping += CSRs.hgatp -> reg_hgatp.asUInt read_mapping += CSRs.hip -> read_hip read_mapping += CSRs.hie -> read_hie read_mapping += CSRs.hvip -> read_hvip read_mapping += CSRs.hgeie -> 0.U read_mapping += CSRs.hgeip -> 0.U read_mapping += CSRs.htval -> reg_htval read_mapping += CSRs.htinst -> read_htinst read_mapping += CSRs.henvcfg -> reg_henvcfg.asUInt if (xLen == 32) read_mapping += CSRs.henvcfgh -> (reg_henvcfg.asUInt >> 32) val read_vsie = (read_hie & read_hideleg) >> 1 val read_vsip = (read_hip & read_hideleg) >> 1 val read_vsepc = readEPC(reg_vsepc).sextTo(xLen) val read_vstval = reg_vstval.sextTo(xLen) val read_vsstatus = io.gstatus.asUInt.extract(xLen-1,0) read_mapping += CSRs.vsstatus -> read_vsstatus read_mapping += CSRs.vsip -> read_vsip read_mapping += CSRs.vsie -> read_vsie read_mapping += CSRs.vsscratch -> reg_vsscratch read_mapping += CSRs.vscause -> reg_vscause read_mapping += CSRs.vstval -> read_vstval read_mapping += CSRs.vsatp -> reg_vsatp.asUInt read_mapping += CSRs.vsepc -> read_vsepc read_mapping += CSRs.vstvec -> read_vstvec } // mimpid, marchid, mvendorid, and mconfigptr are 0 unless overridden by customCSRs Seq(CSRs.mimpid, CSRs.marchid, CSRs.mvendorid, CSRs.mconfigptr).foreach(id => read_mapping.getOrElseUpdate(id, 0.U)) val decoded_addr = { val addr = Cat(io.status.v, io.rw.addr) val pats = for (((k, _), i) <- read_mapping.zipWithIndex) yield (BitPat(k.U), (0 until read_mapping.size).map(j => BitPat((i == j).B))) val decoded = DecodeLogic(addr, Seq.fill(read_mapping.size)(X), pats) val unvirtualized_mapping = (for (((k, _), v) <- read_mapping zip decoded) yield k -> v.asBool).toMap for ((k, v) <- unvirtualized_mapping) yield k -> { val alt: Option[Bool] = CSR.mode(k) match { // hcontext was assigned an unfortunate address; it lives where a // hypothetical vscontext will live. Exclude them from the S/VS remapping. // (on separate lines so scala-lint doesnt do something stupid) case _ if k == CSRs.scontext => None case _ if k == CSRs.hcontext => None // When V=1, if a corresponding VS CSR exists, access it instead... case PRV.H => unvirtualized_mapping.lift(k - (1 << CSR.modeLSB)) // ...and don't access the original S-mode version. case PRV.S => unvirtualized_mapping.contains(k + (1 << CSR.modeLSB)).option(false.B) case _ => None } alt.map(Mux(reg_mstatus.v, _, v)).getOrElse(v) } } val wdata = readModifyWriteCSR(io.rw.cmd, io.rw.rdata, io.rw.wdata) val system_insn = io.rw.cmd === CSR.I val hlsv = Seq(HLV_B, HLV_BU, HLV_H, HLV_HU, HLV_W, HLV_WU, HLV_D, HSV_B, HSV_H, HSV_W, HSV_D, HLVX_HU, HLVX_WU) val decode_table = Seq( ECALL-> List(Y,N,N,N,N,N,N,N,N), EBREAK-> List(N,Y,N,N,N,N,N,N,N), MRET-> List(N,N,Y,N,N,N,N,N,N), CEASE-> List(N,N,N,Y,N,N,N,N,N), WFI-> List(N,N,N,N,Y,N,N,N,N)) ++ usingDebug.option( DRET-> List(N,N,Y,N,N,N,N,N,N)) ++ usingNMI.option( MNRET-> List(N,N,Y,N,N,N,N,N,N)) ++ coreParams.haveCFlush.option(CFLUSH_D_L1-> List(N,N,N,N,N,N,N,N,N)) ++ usingSupervisor.option( SRET-> List(N,N,Y,N,N,N,N,N,N)) ++ usingVM.option( SFENCE_VMA-> List(N,N,N,N,N,Y,N,N,N)) ++ usingHypervisor.option( HFENCE_VVMA-> List(N,N,N,N,N,N,Y,N,N)) ++ usingHypervisor.option( HFENCE_GVMA-> List(N,N,N,N,N,N,N,Y,N)) ++ (if (usingHypervisor) hlsv.map(_-> List(N,N,N,N,N,N,N,N,Y)) else Seq()) val insn_call :: insn_break :: insn_ret :: insn_cease :: insn_wfi :: _ :: _ :: _ :: _ :: Nil = { val insn = ECALL.value.U | (io.rw.addr << 20) DecodeLogic(insn, decode_table(0)._2.map(x=>X), decode_table).map(system_insn && _.asBool) } for (io_dec <- io.decode) { val addr = io_dec.inst(31, 20) def decodeAny(m: LinkedHashMap[Int,Bits]): Bool = m.map { case(k: Int, _: Bits) => addr === k.U }.reduce(_||_) def decodeFast(s: Seq[Int]): Bool = DecodeLogic(addr, s.map(_.U), (read_mapping -- s).keys.toList.map(_.U)) val _ :: is_break :: is_ret :: _ :: is_wfi :: is_sfence :: is_hfence_vvma :: is_hfence_gvma :: is_hlsv :: Nil = DecodeLogic(io_dec.inst, decode_table(0)._2.map(x=>X), decode_table).map(_.asBool) val is_counter = (addr.inRange(CSR.firstCtr.U, (CSR.firstCtr + CSR.nCtr).U) || addr.inRange(CSR.firstCtrH.U, (CSR.firstCtrH + CSR.nCtr).U)) val allow_wfi = (!usingSupervisor).B || reg_mstatus.prv > PRV.S.U || !reg_mstatus.tw && (!reg_mstatus.v || !reg_hstatus.vtw) val allow_sfence_vma = (!usingVM).B || reg_mstatus.prv > PRV.S.U || !Mux(reg_mstatus.v, reg_hstatus.vtvm, reg_mstatus.tvm) val allow_hfence_vvma = (!usingHypervisor).B || !reg_mstatus.v && (reg_mstatus.prv >= PRV.S.U) val allow_hlsv = (!usingHypervisor).B || !reg_mstatus.v && (reg_mstatus.prv >= PRV.S.U || reg_hstatus.hu) val allow_sret = (!usingSupervisor).B || reg_mstatus.prv > PRV.S.U || !Mux(reg_mstatus.v, reg_hstatus.vtsr, reg_mstatus.tsr) val counter_addr = addr(log2Ceil(read_mcounteren.getWidth)-1, 0) val allow_counter = (reg_mstatus.prv > PRV.S.U || read_mcounteren(counter_addr)) && (!usingSupervisor.B || reg_mstatus.prv >= PRV.S.U || read_scounteren(counter_addr)) && (!usingHypervisor.B || !reg_mstatus.v || read_hcounteren(counter_addr)) io_dec.fp_illegal := io.status.fs === 0.U || reg_mstatus.v && reg_vsstatus.fs === 0.U || !reg_misa('f'-'a') io_dec.vector_illegal := io.status.vs === 0.U || reg_mstatus.v && reg_vsstatus.vs === 0.U || !reg_misa('v'-'a') io_dec.fp_csr := decodeFast(fp_csrs.keys.toList) io_dec.vector_csr := decodeFast(vector_csrs.keys.toList) io_dec.rocc_illegal := io.status.xs === 0.U || reg_mstatus.v && reg_vsstatus.xs === 0.U || !reg_misa('x'-'a') val csr_addr_legal = reg_mstatus.prv >= CSR.mode(addr) || usingHypervisor.B && !reg_mstatus.v && reg_mstatus.prv === PRV.S.U && CSR.mode(addr) === PRV.H.U val csr_exists = decodeAny(read_mapping) io_dec.read_illegal := !csr_addr_legal || !csr_exists || ((addr === CSRs.satp.U || addr === CSRs.hgatp.U) && !allow_sfence_vma) || is_counter && !allow_counter || decodeFast(debug_csrs.keys.toList) && !reg_debug || decodeFast(vector_csrs.keys.toList) && io_dec.vector_illegal || io_dec.fp_csr && io_dec.fp_illegal io_dec.write_illegal := addr(11,10).andR io_dec.write_flush := { val addr_m = addr | (PRV.M.U << CSR.modeLSB) !(addr_m >= CSRs.mscratch.U && addr_m <= CSRs.mtval.U) } io_dec.system_illegal := !csr_addr_legal && !is_hlsv || is_wfi && !allow_wfi || is_ret && !allow_sret || is_ret && addr(10) && addr(7) && !reg_debug || (is_sfence || is_hfence_gvma) && !allow_sfence_vma || is_hfence_vvma && !allow_hfence_vvma || is_hlsv && !allow_hlsv io_dec.virtual_access_illegal := reg_mstatus.v && csr_exists && ( CSR.mode(addr) === PRV.H.U || is_counter && read_mcounteren(counter_addr) && (!read_hcounteren(counter_addr) || !reg_mstatus.prv(0) && !read_scounteren(counter_addr)) || CSR.mode(addr) === PRV.S.U && !reg_mstatus.prv(0) || addr === CSRs.satp.U && reg_mstatus.prv(0) && reg_hstatus.vtvm) io_dec.virtual_system_illegal := reg_mstatus.v && ( is_hfence_vvma || is_hfence_gvma || is_hlsv || is_wfi && (!reg_mstatus.prv(0) || !reg_mstatus.tw && reg_hstatus.vtw) || is_ret && CSR.mode(addr) === PRV.S.U && (!reg_mstatus.prv(0) || reg_hstatus.vtsr) || is_sfence && (!reg_mstatus.prv(0) || reg_hstatus.vtvm)) } val cause = Mux(insn_call, Causes.user_ecall.U + Mux(reg_mstatus.prv(0) && reg_mstatus.v, PRV.H.U, reg_mstatus.prv), Mux[UInt](insn_break, Causes.breakpoint.U, io.cause)) val cause_lsbs = cause(log2Ceil(1 + CSR.busErrorIntCause)-1, 0) val cause_deleg_lsbs = cause(log2Ceil(xLen)-1,0) val causeIsDebugInt = cause(xLen-1) && cause_lsbs === CSR.debugIntCause.U val causeIsDebugTrigger = !cause(xLen-1) && cause_lsbs === CSR.debugTriggerCause.U val causeIsDebugBreak = !cause(xLen-1) && insn_break && Cat(reg_dcsr.ebreakm, reg_dcsr.ebreakh, reg_dcsr.ebreaks, reg_dcsr.ebreaku)(reg_mstatus.prv) val trapToDebug = usingDebug.B && (reg_singleStepped || causeIsDebugInt || causeIsDebugTrigger || causeIsDebugBreak || reg_debug) val debugEntry = p(DebugModuleKey).map(_.debugEntry).getOrElse(BigInt(0x800)) val debugException = p(DebugModuleKey).map(_.debugException).getOrElse(BigInt(0x808)) val debugTVec = Mux(reg_debug, Mux(insn_break, debugEntry.U, debugException.U), debugEntry.U) val delegate = usingSupervisor.B && reg_mstatus.prv <= PRV.S.U && Mux(cause(xLen-1), read_mideleg(cause_deleg_lsbs), read_medeleg(cause_deleg_lsbs)) val delegateVS = reg_mstatus.v && delegate && Mux(cause(xLen-1), read_hideleg(cause_deleg_lsbs), read_hedeleg(cause_deleg_lsbs)) def mtvecBaseAlign = 2 def mtvecInterruptAlign = { require(reg_mip.getWidth <= xLen) log2Ceil(xLen) } val notDebugTVec = { val base = Mux(delegate, Mux(delegateVS, read_vstvec, read_stvec), read_mtvec) val interruptOffset = cause(mtvecInterruptAlign-1, 0) << mtvecBaseAlign val interruptVec = Cat(base >> (mtvecInterruptAlign + mtvecBaseAlign), interruptOffset) val doVector = base(0) && cause(cause.getWidth-1) && (cause_lsbs >> mtvecInterruptAlign) === 0.U Mux(doVector, interruptVec, base >> mtvecBaseAlign << mtvecBaseAlign) } val causeIsRnmiInt = cause(xLen-1) && cause(xLen-2) && (cause_lsbs === CSR.rnmiIntCause.U || cause_lsbs === CSR.rnmiBEUCause.U) val causeIsRnmiBEU = cause(xLen-1) && cause(xLen-2) && cause_lsbs === CSR.rnmiBEUCause.U val causeIsNmi = causeIsRnmiInt val nmiTVecInt = io.interrupts.nmi.map(nmi => nmi.rnmi_interrupt_vector).getOrElse(0.U) val nmiTVecXcpt = io.interrupts.nmi.map(nmi => nmi.rnmi_exception_vector).getOrElse(0.U) val trapToNmiInt = usingNMI.B && causeIsNmi val trapToNmiXcpt = usingNMI.B && !nmie val trapToNmi = trapToNmiInt || trapToNmiXcpt val nmiTVec = (Mux(causeIsNmi, nmiTVecInt, nmiTVecXcpt)>>1)<<1 val tvec = Mux(trapToDebug, debugTVec, Mux(trapToNmi, nmiTVec, notDebugTVec)) io.evec := tvec io.ptbr := reg_satp io.hgatp := reg_hgatp io.vsatp := reg_vsatp io.eret := insn_call || insn_break || insn_ret io.singleStep := reg_dcsr.step && !reg_debug io.status := reg_mstatus io.status.sd := io.status.fs.andR || io.status.xs.andR || io.status.vs.andR io.status.debug := reg_debug io.status.isa := reg_misa io.status.uxl := (if (usingUser) log2Ceil(xLen) - 4 else 0).U io.status.sxl := (if (usingSupervisor) log2Ceil(xLen) - 4 else 0).U io.status.dprv := Mux(reg_mstatus.mprv && !reg_debug, reg_mstatus.mpp, reg_mstatus.prv) io.status.dv := reg_mstatus.v || Mux(reg_mstatus.mprv && !reg_debug, reg_mstatus.mpv, false.B) io.status.sd_rv32 := (xLen == 32).B && io.status.sd io.status.mpv := reg_mstatus.mpv io.status.gva := reg_mstatus.gva io.hstatus := reg_hstatus io.hstatus.vsxl := (if (usingSupervisor) log2Ceil(xLen) - 4 else 0).U io.gstatus := reg_vsstatus io.gstatus.sd := io.gstatus.fs.andR || io.gstatus.xs.andR || io.gstatus.vs.andR io.gstatus.uxl := (if (usingUser) log2Ceil(xLen) - 4 else 0).U io.gstatus.sd_rv32 := (xLen == 32).B && io.gstatus.sd val exception = insn_call || insn_break || io.exception assert(PopCount(insn_ret :: insn_call :: insn_break :: io.exception :: Nil) <= 1.U, "these conditions must be mutually exclusive") when (insn_wfi && !io.singleStep && !reg_debug) { reg_wfi := true.B } when (pending_interrupts.orR || io.interrupts.debug || exception) { reg_wfi := false.B } io.interrupts.nmi.map(nmi => when (nmi.rnmi) { reg_wfi := false.B } ) when (io.retire(0) || exception) { reg_singleStepped := true.B } when (!io.singleStep) { reg_singleStepped := false.B } assert(!io.singleStep || io.retire <= 1.U) assert(!reg_singleStepped || io.retire === 0.U) val epc = formEPC(io.pc) val tval = Mux(insn_break, epc, io.tval) when (exception) { when (trapToDebug) { when (!reg_debug) { reg_mstatus.v := false.B reg_debug := true.B reg_dpc := epc reg_dcsr.cause := Mux(reg_singleStepped, 4.U, Mux(causeIsDebugInt, 3.U, Mux[UInt](causeIsDebugTrigger, 2.U, 1.U))) reg_dcsr.prv := trimPrivilege(reg_mstatus.prv) reg_dcsr.v := reg_mstatus.v new_prv := PRV.M.U } }.elsewhen (trapToNmiInt) { when (reg_rnmie) { reg_mstatus.v := false.B reg_mnstatus.mpv := reg_mstatus.v reg_rnmie := false.B reg_mnepc := epc reg_mncause := (BigInt(1) << (xLen-1)).U | Mux(causeIsRnmiBEU, 3.U, 2.U) reg_mnstatus.mpp := trimPrivilege(reg_mstatus.prv) new_prv := PRV.M.U } }.elsewhen (delegateVS && nmie) { reg_mstatus.v := true.B reg_vsstatus.spp := reg_mstatus.prv reg_vsepc := epc reg_vscause := Mux(cause(xLen-1), Cat(cause(xLen-1, 2), 1.U(2.W)), cause) reg_vstval := tval reg_vsstatus.spie := reg_vsstatus.sie reg_vsstatus.sie := false.B new_prv := PRV.S.U }.elsewhen (delegate && nmie) { reg_mstatus.v := false.B reg_hstatus.spvp := Mux(reg_mstatus.v, reg_mstatus.prv(0),reg_hstatus.spvp) reg_hstatus.gva := io.gva reg_hstatus.spv := reg_mstatus.v reg_sepc := epc reg_scause := cause reg_stval := tval reg_htval := io.htval reg_htinst_read_pseudo := io.mhtinst_read_pseudo reg_mstatus.spie := reg_mstatus.sie reg_mstatus.spp := reg_mstatus.prv reg_mstatus.sie := false.B new_prv := PRV.S.U }.otherwise { reg_mstatus.v := false.B reg_mstatus.mpv := reg_mstatus.v reg_mstatus.gva := io.gva reg_mepc := epc reg_mcause := cause reg_mtval := tval reg_mtval2 := io.htval reg_mtinst_read_pseudo := io.mhtinst_read_pseudo reg_mstatus.mpie := reg_mstatus.mie reg_mstatus.mpp := trimPrivilege(reg_mstatus.prv) reg_mstatus.mie := false.B new_prv := PRV.M.U } } for (i <- 0 until supported_interrupts.getWidth) { val en = exception && (supported_interrupts & (BigInt(1) << i).U) =/= 0.U && cause === (BigInt(1) << (xLen - 1)).U + i.U val delegable = (delegable_interrupts & (BigInt(1) << i).U) =/= 0.U property.cover(en && !delegate, s"INTERRUPT_M_$i") property.cover(en && delegable && delegate, s"INTERRUPT_S_$i") } for (i <- 0 until xLen) { val supported_exceptions: BigInt = 0x8fe | (if (usingCompressed && !coreParams.misaWritable) 0 else 1) | (if (usingUser) 0x100 else 0) | (if (usingSupervisor) 0x200 else 0) | (if (usingVM) 0xb000 else 0) if (((supported_exceptions >> i) & 1) != 0) { val en = exception && cause === i.U val delegable = (delegable_exceptions & (BigInt(1) << i).U) =/= 0.U property.cover(en && !delegate, s"EXCEPTION_M_$i") property.cover(en && delegable && delegate, s"EXCEPTION_S_$i") } } when (insn_ret) { val ret_prv = WireInit(UInt(), DontCare) when (usingSupervisor.B && !io.rw.addr(9)) { when (!reg_mstatus.v) { reg_mstatus.sie := reg_mstatus.spie reg_mstatus.spie := true.B reg_mstatus.spp := PRV.U.U ret_prv := reg_mstatus.spp reg_mstatus.v := usingHypervisor.B && reg_hstatus.spv io.evec := readEPC(reg_sepc) reg_hstatus.spv := false.B }.otherwise { reg_vsstatus.sie := reg_vsstatus.spie reg_vsstatus.spie := true.B reg_vsstatus.spp := PRV.U.U ret_prv := reg_vsstatus.spp reg_mstatus.v := usingHypervisor.B io.evec := readEPC(reg_vsepc) } }.elsewhen (usingDebug.B && io.rw.addr(10) && io.rw.addr(7)) { ret_prv := reg_dcsr.prv reg_mstatus.v := usingHypervisor.B && reg_dcsr.v && reg_dcsr.prv <= PRV.S.U reg_debug := false.B io.evec := readEPC(reg_dpc) }.elsewhen (usingNMI.B && io.rw.addr(10) && !io.rw.addr(7)) { ret_prv := reg_mnstatus.mpp reg_mstatus.v := usingHypervisor.B && reg_mnstatus.mpv && reg_mnstatus.mpp <= PRV.S.U reg_rnmie := true.B io.evec := readEPC(reg_mnepc) }.otherwise { reg_mstatus.mie := reg_mstatus.mpie reg_mstatus.mpie := true.B reg_mstatus.mpp := legalizePrivilege(PRV.U.U) reg_mstatus.mpv := false.B ret_prv := reg_mstatus.mpp reg_mstatus.v := usingHypervisor.B && reg_mstatus.mpv && reg_mstatus.mpp <= PRV.S.U io.evec := readEPC(reg_mepc) } new_prv := ret_prv when (usingUser.B && ret_prv <= PRV.S.U) { reg_mstatus.mprv := false.B } } io.time := reg_cycle io.csr_stall := reg_wfi || io.status.cease io.status.cease := RegEnable(true.B, false.B, insn_cease) io.status.wfi := reg_wfi for ((io, reg) <- io.customCSRs zip reg_custom) { io.wen := false.B io.wdata := wdata io.value := reg } for ((io, reg) <- io.roccCSRs zip reg_rocc) { io.wen := false.B io.wdata := wdata io.value := reg } io.rw.rdata := Mux1H(for ((k, v) <- read_mapping) yield decoded_addr(k) -> v) // cover access to register val coverable_counters = read_mapping.filterNot { case (k, _) => k >= CSR.firstHPC + nPerfCounters && k < CSR.firstHPC + CSR.nHPM } coverable_counters.foreach( {case (k, v) => { when (!k.U(11,10).andR) { // Cover points for RW CSR registers property.cover(io.rw.cmd.isOneOf(CSR.W, CSR.S, CSR.C) && io.rw.addr===k.U, "CSR_access_"+k.toString, "Cover Accessing Core CSR field") } .otherwise { // Cover points for RO CSR registers property.cover(io.rw.cmd===CSR.R && io.rw.addr===k.U, "CSR_access_"+k.toString, "Cover Accessing Core CSR field") } }}) val set_vs_dirty = WireDefault(io.vector.map(_.set_vs_dirty).getOrElse(false.B)) io.vector.foreach { vio => when (set_vs_dirty) { assert(reg_mstatus.vs > 0.U) when (reg_mstatus.v) { reg_vsstatus.vs := 3.U } reg_mstatus.vs := 3.U } } val set_fs_dirty = WireDefault(io.set_fs_dirty.getOrElse(false.B)) if (coreParams.haveFSDirty) { when (set_fs_dirty) { assert(reg_mstatus.fs > 0.U) when (reg_mstatus.v) { reg_vsstatus.fs := 3.U } reg_mstatus.fs := 3.U } } io.fcsr_rm := reg_frm when (io.fcsr_flags.valid) { reg_fflags := reg_fflags | io.fcsr_flags.bits set_fs_dirty := true.B } io.vector.foreach { vio => when (vio.set_vxsat) { reg_vxsat.get := true.B set_vs_dirty := true.B } } val csr_wen = io.rw.cmd.isOneOf(CSR.S, CSR.C, CSR.W) && !io.rw_stall io.csrw_counter := Mux(coreParams.haveBasicCounters.B && csr_wen && (io.rw.addr.inRange(CSRs.mcycle.U, (CSRs.mcycle + CSR.nCtr).U) || io.rw.addr.inRange(CSRs.mcycleh.U, (CSRs.mcycleh + CSR.nCtr).U)), UIntToOH(io.rw.addr(log2Ceil(CSR.nCtr+nPerfCounters)-1, 0)), 0.U) when (csr_wen) { val scause_mask = ((BigInt(1) << (xLen-1)) + 31).U /* only implement 5 LSBs and MSB */ val satp_valid_modes = 0 +: (minPgLevels to pgLevels).map(new PTBR().pgLevelsToMode(_)) when (decoded_addr(CSRs.mstatus)) { val new_mstatus = wdata.asTypeOf(new MStatus()) reg_mstatus.mie := new_mstatus.mie reg_mstatus.mpie := new_mstatus.mpie if (usingUser) { reg_mstatus.mprv := new_mstatus.mprv reg_mstatus.mpp := legalizePrivilege(new_mstatus.mpp) if (usingSupervisor) { reg_mstatus.spp := new_mstatus.spp reg_mstatus.spie := new_mstatus.spie reg_mstatus.sie := new_mstatus.sie reg_mstatus.tw := new_mstatus.tw reg_mstatus.tsr := new_mstatus.tsr } if (usingVM) { reg_mstatus.mxr := new_mstatus.mxr reg_mstatus.sum := new_mstatus.sum reg_mstatus.tvm := new_mstatus.tvm } if (usingHypervisor) { reg_mstatus.mpv := new_mstatus.mpv reg_mstatus.gva := new_mstatus.gva } } if (usingSupervisor || usingFPU) reg_mstatus.fs := formFS(new_mstatus.fs) reg_mstatus.vs := formVS(new_mstatus.vs) } when (decoded_addr(CSRs.misa)) { val mask = isaStringToMask(isaMaskString).U(xLen.W) val f = wdata('f' - 'a') // suppress write if it would cause the next fetch to be misaligned when (!usingCompressed.B || !io.pc(1) || wdata('c' - 'a')) { if (coreParams.misaWritable) reg_misa := ~(~wdata | (!f << ('d' - 'a'))) & mask | reg_misa & ~mask } } when (decoded_addr(CSRs.mip)) { // MIP should be modified based on the value in reg_mip, not the value // in read_mip, since read_mip.seip is the OR of reg_mip.seip and // io.interrupts.seip. We don't want the value on the PLIC line to // inadvertently be OR'd into read_mip.seip. val new_mip = readModifyWriteCSR(io.rw.cmd, reg_mip.asUInt, io.rw.wdata).asTypeOf(new MIP) if (usingSupervisor) { reg_mip.ssip := new_mip.ssip reg_mip.stip := new_mip.stip reg_mip.seip := new_mip.seip } if (usingHypervisor) { reg_mip.vssip := new_mip.vssip } } when (decoded_addr(CSRs.mie)) { reg_mie := wdata & supported_interrupts } when (decoded_addr(CSRs.mepc)) { reg_mepc := formEPC(wdata) } when (decoded_addr(CSRs.mscratch)) { reg_mscratch := wdata } if (mtvecWritable) when (decoded_addr(CSRs.mtvec)) { reg_mtvec := wdata } when (decoded_addr(CSRs.mcause)) { reg_mcause := wdata & ((BigInt(1) << (xLen-1)) + (BigInt(1) << whichInterrupt.getWidth) - 1).U } when (decoded_addr(CSRs.mtval)) { reg_mtval := wdata } if (usingNMI) { val new_mnstatus = wdata.asTypeOf(new MNStatus()) when (decoded_addr(CustomCSRs.mnscratch)) { reg_mnscratch := wdata } when (decoded_addr(CustomCSRs.mnepc)) { reg_mnepc := formEPC(wdata) } when (decoded_addr(CustomCSRs.mncause)) { reg_mncause := wdata & ((BigInt(1) << (xLen-1)) + BigInt(3)).U } when (decoded_addr(CustomCSRs.mnstatus)) { reg_mnstatus.mpp := legalizePrivilege(new_mnstatus.mpp) reg_mnstatus.mpv := usingHypervisor.B && new_mnstatus.mpv reg_rnmie := reg_rnmie | new_mnstatus.mie // mnie bit settable but not clearable from software } } for (((e, c), i) <- (reg_hpmevent zip reg_hpmcounter).zipWithIndex) { writeCounter(i + CSR.firstMHPC, c, wdata) when (decoded_addr(i + CSR.firstHPE)) { e := perfEventSets.maskEventSelector(wdata) } } if (coreParams.haveBasicCounters) { when (decoded_addr(CSRs.mcountinhibit)) { reg_mcountinhibit := wdata & ~2.U(xLen.W) } // mcountinhibit bit [1] is tied zero writeCounter(CSRs.mcycle, reg_cycle, wdata) writeCounter(CSRs.minstret, reg_instret, wdata) } if (usingFPU) { when (decoded_addr(CSRs.fflags)) { set_fs_dirty := true.B; reg_fflags := wdata } when (decoded_addr(CSRs.frm)) { set_fs_dirty := true.B; reg_frm := wdata } when (decoded_addr(CSRs.fcsr)) { set_fs_dirty := true.B reg_fflags := wdata reg_frm := wdata >> reg_fflags.getWidth } } if (usingDebug) { when (decoded_addr(CSRs.dcsr)) { val new_dcsr = wdata.asTypeOf(new DCSR()) reg_dcsr.step := new_dcsr.step reg_dcsr.ebreakm := new_dcsr.ebreakm if (usingSupervisor) reg_dcsr.ebreaks := new_dcsr.ebreaks if (usingUser) reg_dcsr.ebreaku := new_dcsr.ebreaku if (usingUser) reg_dcsr.prv := legalizePrivilege(new_dcsr.prv) if (usingHypervisor) reg_dcsr.v := new_dcsr.v } when (decoded_addr(CSRs.dpc)) { reg_dpc := formEPC(wdata) } when (decoded_addr(CSRs.dscratch0)) { reg_dscratch0 := wdata } reg_dscratch1.foreach { r => when (decoded_addr(CSRs.dscratch1)) { r := wdata } } } if (usingSupervisor) { when (decoded_addr(CSRs.sstatus)) { val new_sstatus = wdata.asTypeOf(new MStatus()) reg_mstatus.sie := new_sstatus.sie reg_mstatus.spie := new_sstatus.spie reg_mstatus.spp := new_sstatus.spp reg_mstatus.fs := formFS(new_sstatus.fs) reg_mstatus.vs := formVS(new_sstatus.vs) if (usingVM) { reg_mstatus.mxr := new_sstatus.mxr reg_mstatus.sum := new_sstatus.sum } } when (decoded_addr(CSRs.sip)) { val new_sip = ((read_mip & ~read_mideleg) | (wdata & read_mideleg)).asTypeOf(new MIP()) reg_mip.ssip := new_sip.ssip } when (decoded_addr(CSRs.satp)) { if (usingVM) { val new_satp = wdata.asTypeOf(new PTBR()) when (new_satp.mode.isOneOf(satp_valid_modes.map(_.U))) { reg_satp.mode := new_satp.mode & satp_valid_modes.reduce(_|_).U reg_satp.ppn := new_satp.ppn(ppnBits-1,0) if (asIdBits > 0) reg_satp.asid := new_satp.asid(asIdBits-1,0) } } } when (decoded_addr(CSRs.sie)) { reg_mie := (reg_mie & ~sie_mask) | (wdata & sie_mask) } when (decoded_addr(CSRs.sscratch)) { reg_sscratch := wdata } when (decoded_addr(CSRs.sepc)) { reg_sepc := formEPC(wdata) } when (decoded_addr(CSRs.stvec)) { reg_stvec := wdata } when (decoded_addr(CSRs.scause)) { reg_scause := wdata & scause_mask } when (decoded_addr(CSRs.stval)) { reg_stval := wdata } when (decoded_addr(CSRs.mideleg)) { reg_mideleg := wdata } when (decoded_addr(CSRs.medeleg)) { reg_medeleg := wdata } when (decoded_addr(CSRs.scounteren)) { reg_scounteren := wdata } when (decoded_addr(CSRs.senvcfg)) { reg_senvcfg.write(wdata) } } if (usingHypervisor) { when (decoded_addr(CSRs.hstatus)) { val new_hstatus = wdata.asTypeOf(new HStatus()) reg_hstatus.gva := new_hstatus.gva reg_hstatus.spv := new_hstatus.spv reg_hstatus.spvp := new_hstatus.spvp reg_hstatus.hu := new_hstatus.hu reg_hstatus.vtvm := new_hstatus.vtvm reg_hstatus.vtw := new_hstatus.vtw reg_hstatus.vtsr := new_hstatus.vtsr reg_hstatus.vsxl := new_hstatus.vsxl } when (decoded_addr(CSRs.hideleg)) { reg_hideleg := wdata } when (decoded_addr(CSRs.hedeleg)) { reg_hedeleg := wdata } when (decoded_addr(CSRs.hgatp)) { val new_hgatp = wdata.asTypeOf(new PTBR()) val valid_modes = 0 +: (minPgLevels to pgLevels).map(new_hgatp.pgLevelsToMode(_)) when (new_hgatp.mode.isOneOf(valid_modes.map(_.U))) { reg_hgatp.mode := new_hgatp.mode & valid_modes.reduce(_|_).U } reg_hgatp.ppn := Cat(new_hgatp.ppn(ppnBits-1,2), 0.U(2.W)) if (vmIdBits > 0) reg_hgatp.asid := new_hgatp.asid(vmIdBits-1,0) } when (decoded_addr(CSRs.hip)) { val new_hip = ((read_mip & ~hs_delegable_interrupts) | (wdata & hs_delegable_interrupts)).asTypeOf(new MIP()) reg_mip.vssip := new_hip.vssip } when (decoded_addr(CSRs.hie)) { reg_mie := (reg_mie & ~hs_delegable_interrupts) | (wdata & hs_delegable_interrupts) } when (decoded_addr(CSRs.hvip)) { val new_sip = ((read_mip & ~hs_delegable_interrupts) | (wdata & hs_delegable_interrupts)).asTypeOf(new MIP()) reg_mip.vssip := new_sip.vssip reg_mip.vstip := new_sip.vstip reg_mip.vseip := new_sip.vseip } when (decoded_addr(CSRs.hcounteren)) { reg_hcounteren := wdata } when (decoded_addr(CSRs.htval)) { reg_htval := wdata } when (decoded_addr(CSRs.mtval2)) { reg_mtval2 := wdata } val write_mhtinst_read_pseudo = wdata(13) && (xLen == 32).option(true.B).getOrElse(wdata(12)) when(decoded_addr(CSRs.mtinst)) { reg_mtinst_read_pseudo := write_mhtinst_read_pseudo } when(decoded_addr(CSRs.htinst)) { reg_htinst_read_pseudo := write_mhtinst_read_pseudo } when (decoded_addr(CSRs.vsstatus)) { val new_vsstatus = wdata.asTypeOf(new MStatus()) reg_vsstatus.sie := new_vsstatus.sie reg_vsstatus.spie := new_vsstatus.spie reg_vsstatus.spp := new_vsstatus.spp reg_vsstatus.mxr := new_vsstatus.mxr reg_vsstatus.sum := new_vsstatus.sum reg_vsstatus.fs := formFS(new_vsstatus.fs) reg_vsstatus.vs := formVS(new_vsstatus.vs) } when (decoded_addr(CSRs.vsip)) { val new_vsip = ((read_hip & ~read_hideleg) | ((wdata << 1) & read_hideleg)).asTypeOf(new MIP()) reg_mip.vssip := new_vsip.vssip } when (decoded_addr(CSRs.vsatp)) { val new_vsatp = wdata.asTypeOf(new PTBR()) val mode_ok = new_vsatp.mode.isOneOf(satp_valid_modes.map(_.U)) when (mode_ok) { reg_vsatp.mode := new_vsatp.mode & satp_valid_modes.reduce(_|_).U } when (mode_ok || !reg_mstatus.v) { reg_vsatp.ppn := new_vsatp.ppn(vpnBits.min(new_vsatp.ppn.getWidth)-1,0) if (asIdBits > 0) reg_vsatp.asid := new_vsatp.asid(asIdBits-1,0) } } when (decoded_addr(CSRs.vsie)) { reg_mie := (reg_mie & ~read_hideleg) | ((wdata << 1) & read_hideleg) } when (decoded_addr(CSRs.vsscratch)) { reg_vsscratch := wdata } when (decoded_addr(CSRs.vsepc)) { reg_vsepc := formEPC(wdata) } when (decoded_addr(CSRs.vstvec)) { reg_vstvec := wdata } when (decoded_addr(CSRs.vscause)) { reg_vscause := wdata & scause_mask } when (decoded_addr(CSRs.vstval)) { reg_vstval := wdata } when (decoded_addr(CSRs.henvcfg)) { reg_henvcfg.write(wdata) } } if (usingUser) { when (decoded_addr(CSRs.mcounteren)) { reg_mcounteren := wdata } when (decoded_addr(CSRs.menvcfg)) { reg_menvcfg.write(wdata) } } if (nBreakpoints > 0) { when (decoded_addr(CSRs.tselect)) { reg_tselect := wdata } for ((bp, i) <- reg_bp.zipWithIndex) { when (i.U === reg_tselect && (!bp.control.dmode || reg_debug)) { when (decoded_addr(CSRs.tdata2)) { bp.address := wdata } when (decoded_addr(CSRs.tdata3)) { if (coreParams.mcontextWidth > 0) { bp.textra.mselect := wdata(bp.textra.mselectPos) bp.textra.mvalue := wdata >> bp.textra.mvaluePos } if (coreParams.scontextWidth > 0) { bp.textra.sselect := wdata(bp.textra.sselectPos) bp.textra.svalue := wdata >> bp.textra.svaluePos } } when (decoded_addr(CSRs.tdata1)) { bp.control := wdata.asTypeOf(bp.control) val prevChain = if (i == 0) false.B else reg_bp(i-1).control.chain val prevDMode = if (i == 0) false.B else reg_bp(i-1).control.dmode val nextChain = if (i >= nBreakpoints-1) true.B else reg_bp(i+1).control.chain val nextDMode = if (i >= nBreakpoints-1) true.B else reg_bp(i+1).control.dmode val newBPC = readModifyWriteCSR(io.rw.cmd, bp.control.asUInt, io.rw.wdata).asTypeOf(bp.control) val dMode = newBPC.dmode && reg_debug && (prevDMode || !prevChain) bp.control.dmode := dMode when (dMode || (newBPC.action > 1.U)) { bp.control.action := newBPC.action }.otherwise { bp.control.action := 0.U } bp.control.chain := newBPC.chain && !(prevChain || nextChain) && (dMode || !nextDMode) } } } } reg_mcontext.foreach { r => when (decoded_addr(CSRs.mcontext)) { r := wdata }} reg_scontext.foreach { r => when (decoded_addr(CSRs.scontext)) { r := wdata }} if (reg_pmp.nonEmpty) for (((pmp, next), i) <- (reg_pmp zip (reg_pmp.tail :+ reg_pmp.last)).zipWithIndex) { require(xLen % pmp.cfg.getWidth == 0) when (decoded_addr(CSRs.pmpcfg0 + pmpCfgIndex(i)) && !pmp.cfgLocked) { val newCfg = (wdata >> ((i * pmp.cfg.getWidth) % xLen)).asTypeOf(new PMPConfig()) pmp.cfg := newCfg // disallow unreadable but writable PMPs pmp.cfg.w := newCfg.w && newCfg.r // can't select a=NA4 with coarse-grained PMPs if (pmpGranularity.log2 > PMP.lgAlign) pmp.cfg.a := Cat(newCfg.a(1), newCfg.a.orR) } when (decoded_addr(CSRs.pmpaddr0 + i) && !pmp.addrLocked(next)) { pmp.addr := wdata } } def writeCustomCSR(io: CustomCSRIO, csr: CustomCSR, reg: UInt) = { val mask = csr.mask.U(xLen.W) when (decoded_addr(csr.id)) { reg := (wdata & mask) | (reg & ~mask) io.wen := true.B } } for ((io, csr, reg) <- (io.customCSRs, customCSRs, reg_custom).zipped) { writeCustomCSR(io, csr, reg) } for ((io, csr, reg) <- (io.roccCSRs, roccCSRs, reg_rocc).zipped) { writeCustomCSR(io, csr, reg) } if (usingVector) { when (decoded_addr(CSRs.vstart)) { set_vs_dirty := true.B; reg_vstart.get := wdata } when (decoded_addr(CSRs.vxrm)) { set_vs_dirty := true.B; reg_vxrm.get := wdata } when (decoded_addr(CSRs.vxsat)) { set_vs_dirty := true.B; reg_vxsat.get := wdata } when (decoded_addr(CSRs.vcsr)) { set_vs_dirty := true.B reg_vxsat.get := wdata reg_vxrm.get := wdata >> 1 } } } def setCustomCSR(io: CustomCSRIO, csr: CustomCSR, reg: UInt) = { val mask = csr.mask.U(xLen.W) when (io.set) { reg := (io.sdata & mask) | (reg & ~mask) } } for ((io, csr, reg) <- (io.customCSRs, customCSRs, reg_custom).zipped) { setCustomCSR(io, csr, reg) } for ((io, csr, reg) <- (io.roccCSRs, roccCSRs, reg_rocc).zipped) { setCustomCSR(io, csr, reg) } io.vector.map { vio => when (vio.set_vconfig.valid) { // user of CSRFile is responsible for set_vs_dirty in this case assert(vio.set_vconfig.bits.vl <= vio.set_vconfig.bits.vtype.vlMax) reg_vconfig.get := vio.set_vconfig.bits } when (vio.set_vstart.valid) { set_vs_dirty := true.B reg_vstart.get := vio.set_vstart.bits } vio.vstart := reg_vstart.get vio.vconfig := reg_vconfig.get vio.vxrm := reg_vxrm.get when (reset.asBool) { reg_vconfig.get.vl := 0.U reg_vconfig.get.vtype := 0.U.asTypeOf(new VType) reg_vconfig.get.vtype.vill := true.B } } when(reset.asBool) { reg_satp.mode := 0.U reg_vsatp.mode := 0.U reg_hgatp.mode := 0.U } if (!usingVM) { reg_satp.mode := 0.U reg_satp.ppn := 0.U reg_satp.asid := 0.U } if (!usingHypervisor) { reg_vsatp.mode := 0.U reg_vsatp.ppn := 0.U reg_vsatp.asid := 0.U reg_hgatp.mode := 0.U reg_hgatp.ppn := 0.U reg_hgatp.asid := 0.U } if (!(asIdBits > 0)) { reg_satp.asid := 0.U reg_vsatp.asid := 0.U } if (!(vmIdBits > 0)) { reg_hgatp.asid := 0.U } reg_vsstatus.xs := (if (usingRoCC) 3.U else 0.U) if (nBreakpoints <= 1) reg_tselect := 0.U for (bpc <- reg_bp map {_.control}) { bpc.ttype := bpc.tType.U bpc.maskmax := bpc.maskMax.U bpc.reserved := 0.U bpc.zero := 0.U bpc.h := false.B if (!usingSupervisor) bpc.s := false.B if (!usingUser) bpc.u := false.B if (!usingSupervisor && !usingUser) bpc.m := true.B when (reset.asBool) { bpc.action := 0.U bpc.dmode := false.B bpc.chain := false.B bpc.r := false.B bpc.w := false.B bpc.x := false.B } } for (bpx <- reg_bp map {_.textra}) { if (coreParams.mcontextWidth == 0) bpx.mselect := false.B if (coreParams.scontextWidth == 0) bpx.sselect := false.B } for (bp <- reg_bp drop nBreakpoints) bp := 0.U.asTypeOf(new BP()) for (pmp <- reg_pmp) { pmp.cfg.res := 0.U when (reset.asBool) { pmp.reset() } } for (((t, insn), i) <- (io.trace zip io.inst).zipWithIndex) { t.exception := io.retire >= i.U && exception t.valid := io.retire > i.U || t.exception t.insn := insn t.iaddr := io.pc t.priv := Cat(reg_debug, reg_mstatus.prv) t.cause := cause t.interrupt := cause(xLen-1) t.tval := io.tval t.wdata.foreach(_ := DontCare) } def chooseInterrupt(masksIn: Seq[UInt]): (Bool, UInt) = { val nonstandard = supported_interrupts.getWidth-1 to 12 by -1 // MEI, MSI, MTI, SEI, SSI, STI, VSEI, VSSI, VSTI, UEI, USI, UTI val standard = Seq(11, 3, 7, 9, 1, 5, 10, 2, 6, 8, 0, 4) val priority = nonstandard ++ standard val masks = masksIn.reverse val any = masks.flatMap(m => priority.filter(_ < m.getWidth).map(i => m(i))).reduce(_||_) val which = PriorityMux(masks.flatMap(m => priority.filter(_ < m.getWidth).map(i => (m(i), i.U)))) (any, which) } def readModifyWriteCSR(cmd: UInt, rdata: UInt, wdata: UInt) = { (Mux(cmd(1), rdata, 0.U) | wdata) & ~Mux(cmd(1,0).andR, wdata, 0.U) } def legalizePrivilege(priv: UInt): UInt = if (usingSupervisor) Mux(priv === PRV.H.U, PRV.U.U, priv) else if (usingUser) Fill(2, priv(0)) else PRV.M.U def trimPrivilege(priv: UInt): UInt = if (usingSupervisor) priv else legalizePrivilege(priv) def writeCounter(lo: Int, ctr: WideCounter, wdata: UInt) = { if (xLen == 32) { val hi = lo + CSRs.mcycleh - CSRs.mcycle when (decoded_addr(lo)) { ctr := Cat(ctr(ctr.getWidth-1, 32), wdata) } when (decoded_addr(hi)) { ctr := Cat(wdata(ctr.getWidth-33, 0), ctr(31, 0)) } } else { when (decoded_addr(lo)) { ctr := wdata(ctr.getWidth-1, 0) } } } def formEPC(x: UInt) = ~(~x | (if (usingCompressed) 1.U else 3.U)) def readEPC(x: UInt) = ~(~x | Mux(reg_misa('c' - 'a'), 1.U, 3.U)) def formTVec(x: UInt) = x andNot Mux(x(0), ((((BigInt(1) << mtvecInterruptAlign) - 1) << mtvecBaseAlign) | 2).U, 2.U) def isaStringToMask(s: String) = s.map(x => 1 << (x - 'A')).foldLeft(0)(_|_) def formFS(fs: UInt) = if (coreParams.haveFSDirty) fs else Fill(2, fs.orR) def formVS(vs: UInt) = if (usingVector) vs else 0.U }
module Rocket_6( // @[RocketCore.scala:153:7] input clock, // @[RocketCore.scala:153:7] input reset, // @[RocketCore.scala:153:7] input [2:0] io_hartid, // @[RocketCore.scala:134:14] input io_interrupts_debug, // @[RocketCore.scala:134:14] input io_interrupts_mtip, // @[RocketCore.scala:134:14] input io_interrupts_msip, // @[RocketCore.scala:134:14] input io_interrupts_meip, // @[RocketCore.scala:134:14] input io_interrupts_seip, // @[RocketCore.scala:134:14] output io_imem_might_request, // @[RocketCore.scala:134:14] output io_imem_req_valid, // @[RocketCore.scala:134:14] output [39:0] io_imem_req_bits_pc, // @[RocketCore.scala:134:14] output io_imem_req_bits_speculative, // @[RocketCore.scala:134:14] output io_imem_sfence_valid, // @[RocketCore.scala:134:14] output io_imem_sfence_bits_rs1, // @[RocketCore.scala:134:14] output io_imem_sfence_bits_rs2, // @[RocketCore.scala:134:14] output [38:0] io_imem_sfence_bits_addr, // @[RocketCore.scala:134:14] output io_imem_sfence_bits_asid, // @[RocketCore.scala:134:14] output io_imem_sfence_bits_hv, // @[RocketCore.scala:134:14] output io_imem_sfence_bits_hg, // @[RocketCore.scala:134:14] output io_imem_resp_ready, // @[RocketCore.scala:134:14] input io_imem_resp_valid, // @[RocketCore.scala:134:14] input [1:0] io_imem_resp_bits_btb_cfiType, // @[RocketCore.scala:134:14] input io_imem_resp_bits_btb_taken, // @[RocketCore.scala:134:14] input [1:0] io_imem_resp_bits_btb_mask, // @[RocketCore.scala:134:14] input io_imem_resp_bits_btb_bridx, // @[RocketCore.scala:134:14] input [38:0] io_imem_resp_bits_btb_target, // @[RocketCore.scala:134:14] input [4:0] io_imem_resp_bits_btb_entry, // @[RocketCore.scala:134:14] input [7:0] io_imem_resp_bits_btb_bht_history, // @[RocketCore.scala:134:14] input io_imem_resp_bits_btb_bht_value, // @[RocketCore.scala:134:14] input [39:0] io_imem_resp_bits_pc, // @[RocketCore.scala:134:14] input [31:0] io_imem_resp_bits_data, // @[RocketCore.scala:134:14] input [1:0] io_imem_resp_bits_mask, // @[RocketCore.scala:134:14] input io_imem_resp_bits_xcpt_pf_inst, // @[RocketCore.scala:134:14] input io_imem_resp_bits_xcpt_gf_inst, // @[RocketCore.scala:134:14] input io_imem_resp_bits_xcpt_ae_inst, // @[RocketCore.scala:134:14] input io_imem_resp_bits_replay, // @[RocketCore.scala:134:14] input io_imem_gpa_valid, // @[RocketCore.scala:134:14] input [39:0] io_imem_gpa_bits, // @[RocketCore.scala:134:14] input io_imem_gpa_is_pte, // @[RocketCore.scala:134:14] output io_imem_btb_update_valid, // @[RocketCore.scala:134:14] output [1:0] io_imem_btb_update_bits_prediction_cfiType, // @[RocketCore.scala:134:14] output io_imem_btb_update_bits_prediction_taken, // @[RocketCore.scala:134:14] output [1:0] io_imem_btb_update_bits_prediction_mask, // @[RocketCore.scala:134:14] output io_imem_btb_update_bits_prediction_bridx, // @[RocketCore.scala:134:14] output [38:0] io_imem_btb_update_bits_prediction_target, // @[RocketCore.scala:134:14] output [4:0] io_imem_btb_update_bits_prediction_entry, // @[RocketCore.scala:134:14] output [7:0] io_imem_btb_update_bits_prediction_bht_history, // @[RocketCore.scala:134:14] output io_imem_btb_update_bits_prediction_bht_value, // @[RocketCore.scala:134:14] output [38:0] io_imem_btb_update_bits_pc, // @[RocketCore.scala:134:14] output [38:0] io_imem_btb_update_bits_target, // @[RocketCore.scala:134:14] output io_imem_btb_update_bits_isValid, // @[RocketCore.scala:134:14] output [38:0] io_imem_btb_update_bits_br_pc, // @[RocketCore.scala:134:14] output [1:0] io_imem_btb_update_bits_cfiType, // @[RocketCore.scala:134:14] output io_imem_bht_update_valid, // @[RocketCore.scala:134:14] output [7:0] io_imem_bht_update_bits_prediction_history, // @[RocketCore.scala:134:14] output io_imem_bht_update_bits_prediction_value, // @[RocketCore.scala:134:14] output [38:0] io_imem_bht_update_bits_pc, // @[RocketCore.scala:134:14] output io_imem_bht_update_bits_branch, // @[RocketCore.scala:134:14] output io_imem_bht_update_bits_taken, // @[RocketCore.scala:134:14] output io_imem_bht_update_bits_mispredict, // @[RocketCore.scala:134:14] output io_imem_flush_icache, // @[RocketCore.scala:134:14] input [39:0] io_imem_npc, // @[RocketCore.scala:134:14] input io_imem_perf_acquire, // @[RocketCore.scala:134:14] input io_imem_perf_tlbMiss, // @[RocketCore.scala:134:14] output io_imem_progress, // @[RocketCore.scala:134:14] input io_dmem_req_ready, // @[RocketCore.scala:134:14] output io_dmem_req_valid, // @[RocketCore.scala:134:14] output [39:0] io_dmem_req_bits_addr, // @[RocketCore.scala:134:14] output [6:0] io_dmem_req_bits_tag, // @[RocketCore.scala:134:14] output [4:0] io_dmem_req_bits_cmd, // @[RocketCore.scala:134:14] output [1:0] io_dmem_req_bits_size, // @[RocketCore.scala:134:14] output io_dmem_req_bits_signed, // @[RocketCore.scala:134:14] output [1:0] io_dmem_req_bits_dprv, // @[RocketCore.scala:134:14] output io_dmem_req_bits_dv, // @[RocketCore.scala:134:14] output io_dmem_req_bits_no_resp, // @[RocketCore.scala:134:14] output io_dmem_s1_kill, // @[RocketCore.scala:134:14] output [63:0] io_dmem_s1_data_data, // @[RocketCore.scala:134:14] input io_dmem_s2_nack, // @[RocketCore.scala:134:14] input io_dmem_s2_nack_cause_raw, // @[RocketCore.scala:134:14] input io_dmem_s2_uncached, // @[RocketCore.scala:134:14] input [31:0] io_dmem_s2_paddr, // @[RocketCore.scala:134:14] input io_dmem_resp_valid, // @[RocketCore.scala:134:14] input [39:0] io_dmem_resp_bits_addr, // @[RocketCore.scala:134:14] input [6:0] io_dmem_resp_bits_tag, // @[RocketCore.scala:134:14] input [4:0] io_dmem_resp_bits_cmd, // @[RocketCore.scala:134:14] input [1:0] io_dmem_resp_bits_size, // @[RocketCore.scala:134:14] input io_dmem_resp_bits_signed, // @[RocketCore.scala:134:14] input [1:0] io_dmem_resp_bits_dprv, // @[RocketCore.scala:134:14] input io_dmem_resp_bits_dv, // @[RocketCore.scala:134:14] input [63:0] io_dmem_resp_bits_data, // @[RocketCore.scala:134:14] input [7:0] io_dmem_resp_bits_mask, // @[RocketCore.scala:134:14] input io_dmem_resp_bits_replay, // @[RocketCore.scala:134:14] input io_dmem_resp_bits_has_data, // @[RocketCore.scala:134:14] input [63:0] io_dmem_resp_bits_data_word_bypass, // @[RocketCore.scala:134:14] input [63:0] io_dmem_resp_bits_data_raw, // @[RocketCore.scala:134:14] input [63:0] io_dmem_resp_bits_store_data, // @[RocketCore.scala:134:14] input io_dmem_replay_next, // @[RocketCore.scala:134:14] input io_dmem_s2_xcpt_ma_ld, // @[RocketCore.scala:134:14] input io_dmem_s2_xcpt_ma_st, // @[RocketCore.scala:134:14] input io_dmem_s2_xcpt_pf_ld, // @[RocketCore.scala:134:14] input io_dmem_s2_xcpt_pf_st, // @[RocketCore.scala:134:14] input io_dmem_s2_xcpt_ae_ld, // @[RocketCore.scala:134:14] input io_dmem_s2_xcpt_ae_st, // @[RocketCore.scala:134:14] input [39:0] io_dmem_s2_gpa, // @[RocketCore.scala:134:14] input io_dmem_ordered, // @[RocketCore.scala:134:14] input io_dmem_store_pending, // @[RocketCore.scala:134:14] input io_dmem_perf_acquire, // @[RocketCore.scala:134:14] input io_dmem_perf_release, // @[RocketCore.scala:134:14] input io_dmem_perf_grant, // @[RocketCore.scala:134:14] input io_dmem_perf_tlbMiss, // @[RocketCore.scala:134:14] input io_dmem_perf_blocked, // @[RocketCore.scala:134:14] input io_dmem_perf_canAcceptStoreThenLoad, // @[RocketCore.scala:134:14] input io_dmem_perf_canAcceptStoreThenRMW, // @[RocketCore.scala:134:14] input io_dmem_perf_canAcceptLoadThenLoad, // @[RocketCore.scala:134:14] input io_dmem_perf_storeBufferEmptyAfterLoad, // @[RocketCore.scala:134:14] input io_dmem_perf_storeBufferEmptyAfterStore, // @[RocketCore.scala:134:14] output io_dmem_keep_clock_enabled, // @[RocketCore.scala:134:14] output [3:0] io_ptw_ptbr_mode, // @[RocketCore.scala:134:14] output [43:0] io_ptw_ptbr_ppn, // @[RocketCore.scala:134:14] output io_ptw_sfence_valid, // @[RocketCore.scala:134:14] output io_ptw_sfence_bits_rs1, // @[RocketCore.scala:134:14] output io_ptw_sfence_bits_rs2, // @[RocketCore.scala:134:14] output [38:0] io_ptw_sfence_bits_addr, // @[RocketCore.scala:134:14] output io_ptw_sfence_bits_asid, // @[RocketCore.scala:134:14] output io_ptw_sfence_bits_hv, // @[RocketCore.scala:134:14] output io_ptw_sfence_bits_hg, // @[RocketCore.scala:134:14] output io_ptw_status_debug, // @[RocketCore.scala:134:14] output io_ptw_status_cease, // @[RocketCore.scala:134:14] output io_ptw_status_wfi, // @[RocketCore.scala:134:14] output [31:0] io_ptw_status_isa, // @[RocketCore.scala:134:14] output [1:0] io_ptw_status_dprv, // @[RocketCore.scala:134:14] output io_ptw_status_dv, // @[RocketCore.scala:134:14] output [1:0] io_ptw_status_prv, // @[RocketCore.scala:134:14] output io_ptw_status_v, // @[RocketCore.scala:134:14] output io_ptw_status_sd, // @[RocketCore.scala:134:14] output io_ptw_status_mpv, // @[RocketCore.scala:134:14] output io_ptw_status_gva, // @[RocketCore.scala:134:14] output io_ptw_status_tsr, // @[RocketCore.scala:134:14] output io_ptw_status_tw, // @[RocketCore.scala:134:14] output io_ptw_status_tvm, // @[RocketCore.scala:134:14] output io_ptw_status_mxr, // @[RocketCore.scala:134:14] output io_ptw_status_sum, // @[RocketCore.scala:134:14] output io_ptw_status_mprv, // @[RocketCore.scala:134:14] output [1:0] io_ptw_status_fs, // @[RocketCore.scala:134:14] output [1:0] io_ptw_status_mpp, // @[RocketCore.scala:134:14] output io_ptw_status_spp, // @[RocketCore.scala:134:14] output io_ptw_status_mpie, // @[RocketCore.scala:134:14] output io_ptw_status_spie, // @[RocketCore.scala:134:14] output io_ptw_status_mie, // @[RocketCore.scala:134:14] output io_ptw_status_sie, // @[RocketCore.scala:134:14] output io_ptw_hstatus_spvp, // @[RocketCore.scala:134:14] output io_ptw_hstatus_spv, // @[RocketCore.scala:134:14] output io_ptw_hstatus_gva, // @[RocketCore.scala:134:14] output io_ptw_gstatus_debug, // @[RocketCore.scala:134:14] output io_ptw_gstatus_cease, // @[RocketCore.scala:134:14] output io_ptw_gstatus_wfi, // @[RocketCore.scala:134:14] output [31:0] io_ptw_gstatus_isa, // @[RocketCore.scala:134:14] output [1:0] io_ptw_gstatus_dprv, // @[RocketCore.scala:134:14] output io_ptw_gstatus_dv, // @[RocketCore.scala:134:14] output [1:0] io_ptw_gstatus_prv, // @[RocketCore.scala:134:14] output io_ptw_gstatus_v, // @[RocketCore.scala:134:14] output io_ptw_gstatus_sd, // @[RocketCore.scala:134:14] output [22:0] io_ptw_gstatus_zero2, // @[RocketCore.scala:134:14] output io_ptw_gstatus_mpv, // @[RocketCore.scala:134:14] output io_ptw_gstatus_gva, // @[RocketCore.scala:134:14] output io_ptw_gstatus_mbe, // @[RocketCore.scala:134:14] output io_ptw_gstatus_sbe, // @[RocketCore.scala:134:14] output [1:0] io_ptw_gstatus_sxl, // @[RocketCore.scala:134:14] output [7:0] io_ptw_gstatus_zero1, // @[RocketCore.scala:134:14] output io_ptw_gstatus_tsr, // @[RocketCore.scala:134:14] output io_ptw_gstatus_tw, // @[RocketCore.scala:134:14] output io_ptw_gstatus_tvm, // @[RocketCore.scala:134:14] output io_ptw_gstatus_mxr, // @[RocketCore.scala:134:14] output io_ptw_gstatus_sum, // @[RocketCore.scala:134:14] output io_ptw_gstatus_mprv, // @[RocketCore.scala:134:14] output [1:0] io_ptw_gstatus_fs, // @[RocketCore.scala:134:14] output [1:0] io_ptw_gstatus_mpp, // @[RocketCore.scala:134:14] output [1:0] io_ptw_gstatus_vs, // @[RocketCore.scala:134:14] output io_ptw_gstatus_spp, // @[RocketCore.scala:134:14] output io_ptw_gstatus_mpie, // @[RocketCore.scala:134:14] output io_ptw_gstatus_ube, // @[RocketCore.scala:134:14] output io_ptw_gstatus_spie, // @[RocketCore.scala:134:14] output io_ptw_gstatus_upie, // @[RocketCore.scala:134:14] output io_ptw_gstatus_mie, // @[RocketCore.scala:134:14] output io_ptw_gstatus_hie, // @[RocketCore.scala:134:14] output io_ptw_gstatus_sie, // @[RocketCore.scala:134:14] output io_ptw_gstatus_uie, // @[RocketCore.scala:134:14] output io_ptw_pmp_0_cfg_l, // @[RocketCore.scala:134:14] output [1:0] io_ptw_pmp_0_cfg_a, // @[RocketCore.scala:134:14] output io_ptw_pmp_0_cfg_x, // @[RocketCore.scala:134:14] output io_ptw_pmp_0_cfg_w, // @[RocketCore.scala:134:14] output io_ptw_pmp_0_cfg_r, // @[RocketCore.scala:134:14] output [29:0] io_ptw_pmp_0_addr, // @[RocketCore.scala:134:14] output [31:0] io_ptw_pmp_0_mask, // @[RocketCore.scala:134:14] output io_ptw_pmp_1_cfg_l, // @[RocketCore.scala:134:14] output [1:0] io_ptw_pmp_1_cfg_a, // @[RocketCore.scala:134:14] output io_ptw_pmp_1_cfg_x, // @[RocketCore.scala:134:14] output io_ptw_pmp_1_cfg_w, // @[RocketCore.scala:134:14] output io_ptw_pmp_1_cfg_r, // @[RocketCore.scala:134:14] output [29:0] io_ptw_pmp_1_addr, // @[RocketCore.scala:134:14] output [31:0] io_ptw_pmp_1_mask, // @[RocketCore.scala:134:14] output io_ptw_pmp_2_cfg_l, // @[RocketCore.scala:134:14] output [1:0] io_ptw_pmp_2_cfg_a, // @[RocketCore.scala:134:14] output io_ptw_pmp_2_cfg_x, // @[RocketCore.scala:134:14] output io_ptw_pmp_2_cfg_w, // @[RocketCore.scala:134:14] output io_ptw_pmp_2_cfg_r, // @[RocketCore.scala:134:14] output [29:0] io_ptw_pmp_2_addr, // @[RocketCore.scala:134:14] output [31:0] io_ptw_pmp_2_mask, // @[RocketCore.scala:134:14] output io_ptw_pmp_3_cfg_l, // @[RocketCore.scala:134:14] output [1:0] io_ptw_pmp_3_cfg_a, // @[RocketCore.scala:134:14] output io_ptw_pmp_3_cfg_x, // @[RocketCore.scala:134:14] output io_ptw_pmp_3_cfg_w, // @[RocketCore.scala:134:14] output io_ptw_pmp_3_cfg_r, // @[RocketCore.scala:134:14] output [29:0] io_ptw_pmp_3_addr, // @[RocketCore.scala:134:14] output [31:0] io_ptw_pmp_3_mask, // @[RocketCore.scala:134:14] output io_ptw_pmp_4_cfg_l, // @[RocketCore.scala:134:14] output [1:0] io_ptw_pmp_4_cfg_a, // @[RocketCore.scala:134:14] output io_ptw_pmp_4_cfg_x, // @[RocketCore.scala:134:14] output io_ptw_pmp_4_cfg_w, // @[RocketCore.scala:134:14] output io_ptw_pmp_4_cfg_r, // @[RocketCore.scala:134:14] output [29:0] io_ptw_pmp_4_addr, // @[RocketCore.scala:134:14] output [31:0] io_ptw_pmp_4_mask, // @[RocketCore.scala:134:14] output io_ptw_pmp_5_cfg_l, // @[RocketCore.scala:134:14] output [1:0] io_ptw_pmp_5_cfg_a, // @[RocketCore.scala:134:14] output io_ptw_pmp_5_cfg_x, // @[RocketCore.scala:134:14] output io_ptw_pmp_5_cfg_w, // @[RocketCore.scala:134:14] output io_ptw_pmp_5_cfg_r, // @[RocketCore.scala:134:14] output [29:0] io_ptw_pmp_5_addr, // @[RocketCore.scala:134:14] output [31:0] io_ptw_pmp_5_mask, // @[RocketCore.scala:134:14] output io_ptw_pmp_6_cfg_l, // @[RocketCore.scala:134:14] output [1:0] io_ptw_pmp_6_cfg_a, // @[RocketCore.scala:134:14] output io_ptw_pmp_6_cfg_x, // @[RocketCore.scala:134:14] output io_ptw_pmp_6_cfg_w, // @[RocketCore.scala:134:14] output io_ptw_pmp_6_cfg_r, // @[RocketCore.scala:134:14] output [29:0] io_ptw_pmp_6_addr, // @[RocketCore.scala:134:14] output [31:0] io_ptw_pmp_6_mask, // @[RocketCore.scala:134:14] output io_ptw_pmp_7_cfg_l, // @[RocketCore.scala:134:14] output [1:0] io_ptw_pmp_7_cfg_a, // @[RocketCore.scala:134:14] output io_ptw_pmp_7_cfg_x, // @[RocketCore.scala:134:14] output io_ptw_pmp_7_cfg_w, // @[RocketCore.scala:134:14] output io_ptw_pmp_7_cfg_r, // @[RocketCore.scala:134:14] output [29:0] io_ptw_pmp_7_addr, // @[RocketCore.scala:134:14] output [31:0] io_ptw_pmp_7_mask, // @[RocketCore.scala:134:14] input io_ptw_perf_pte_miss, // @[RocketCore.scala:134:14] input io_ptw_perf_pte_hit, // @[RocketCore.scala:134:14] output io_ptw_customCSRs_csrs_0_ren, // @[RocketCore.scala:134:14] output io_ptw_customCSRs_csrs_0_wen, // @[RocketCore.scala:134:14] output [63:0] io_ptw_customCSRs_csrs_0_wdata, // @[RocketCore.scala:134:14] output [63:0] io_ptw_customCSRs_csrs_0_value, // @[RocketCore.scala:134:14] output io_ptw_customCSRs_csrs_1_ren, // @[RocketCore.scala:134:14] output io_ptw_customCSRs_csrs_1_wen, // @[RocketCore.scala:134:14] output [63:0] io_ptw_customCSRs_csrs_1_wdata, // @[RocketCore.scala:134:14] output [63:0] io_ptw_customCSRs_csrs_1_value, // @[RocketCore.scala:134:14] output io_ptw_customCSRs_csrs_2_ren, // @[RocketCore.scala:134:14] output io_ptw_customCSRs_csrs_2_wen, // @[RocketCore.scala:134:14] output [63:0] io_ptw_customCSRs_csrs_2_wdata, // @[RocketCore.scala:134:14] output [63:0] io_ptw_customCSRs_csrs_2_value, // @[RocketCore.scala:134:14] output io_ptw_customCSRs_csrs_3_ren, // @[RocketCore.scala:134:14] output io_ptw_customCSRs_csrs_3_wen, // @[RocketCore.scala:134:14] output [63:0] io_ptw_customCSRs_csrs_3_wdata, // @[RocketCore.scala:134:14] output [63:0] io_ptw_customCSRs_csrs_3_value, // @[RocketCore.scala:134:14] input io_ptw_clock_enabled, // @[RocketCore.scala:134:14] output [2:0] io_fpu_hartid, // @[RocketCore.scala:134:14] output [63:0] io_fpu_time, // @[RocketCore.scala:134:14] output [31:0] io_fpu_inst, // @[RocketCore.scala:134:14] output [63:0] io_fpu_fromint_data, // @[RocketCore.scala:134:14] output [2:0] io_fpu_fcsr_rm, // @[RocketCore.scala:134:14] input io_fpu_fcsr_flags_valid, // @[RocketCore.scala:134:14] input [4:0] io_fpu_fcsr_flags_bits, // @[RocketCore.scala:134:14] input [63:0] io_fpu_store_data, // @[RocketCore.scala:134:14] input [63:0] io_fpu_toint_data, // @[RocketCore.scala:134:14] output io_fpu_ll_resp_val, // @[RocketCore.scala:134:14] output [2:0] io_fpu_ll_resp_type, // @[RocketCore.scala:134:14] output [4:0] io_fpu_ll_resp_tag, // @[RocketCore.scala:134:14] output [63:0] io_fpu_ll_resp_data, // @[RocketCore.scala:134:14] output io_fpu_valid, // @[RocketCore.scala:134:14] input io_fpu_fcsr_rdy, // @[RocketCore.scala:134:14] input io_fpu_nack_mem, // @[RocketCore.scala:134:14] input io_fpu_illegal_rm, // @[RocketCore.scala:134:14] output io_fpu_killx, // @[RocketCore.scala:134:14] output io_fpu_killm, // @[RocketCore.scala:134:14] input io_fpu_dec_ldst, // @[RocketCore.scala:134:14] input io_fpu_dec_wen, // @[RocketCore.scala:134:14] input io_fpu_dec_ren1, // @[RocketCore.scala:134:14] input io_fpu_dec_ren2, // @[RocketCore.scala:134:14] input io_fpu_dec_ren3, // @[RocketCore.scala:134:14] input io_fpu_dec_swap12, // @[RocketCore.scala:134:14] input io_fpu_dec_swap23, // @[RocketCore.scala:134:14] input [1:0] io_fpu_dec_typeTagIn, // @[RocketCore.scala:134:14] input [1:0] io_fpu_dec_typeTagOut, // @[RocketCore.scala:134:14] input io_fpu_dec_fromint, // @[RocketCore.scala:134:14] input io_fpu_dec_toint, // @[RocketCore.scala:134:14] input io_fpu_dec_fastpipe, // @[RocketCore.scala:134:14] input io_fpu_dec_fma, // @[RocketCore.scala:134:14] input io_fpu_dec_div, // @[RocketCore.scala:134:14] input io_fpu_dec_sqrt, // @[RocketCore.scala:134:14] input io_fpu_dec_wflags, // @[RocketCore.scala:134:14] input io_fpu_dec_vec, // @[RocketCore.scala:134:14] input io_fpu_sboard_set, // @[RocketCore.scala:134:14] input io_fpu_sboard_clr, // @[RocketCore.scala:134:14] input [4:0] io_fpu_sboard_clra, // @[RocketCore.scala:134:14] output io_fpu_keep_clock_enabled, // @[RocketCore.scala:134:14] output io_trace_insns_0_valid, // @[RocketCore.scala:134:14] output [39:0] io_trace_insns_0_iaddr, // @[RocketCore.scala:134:14] output [31:0] io_trace_insns_0_insn, // @[RocketCore.scala:134:14] output [2:0] io_trace_insns_0_priv, // @[RocketCore.scala:134:14] output io_trace_insns_0_exception, // @[RocketCore.scala:134:14] output io_trace_insns_0_interrupt, // @[RocketCore.scala:134:14] output [63:0] io_trace_insns_0_cause, // @[RocketCore.scala:134:14] output [39:0] io_trace_insns_0_tval, // @[RocketCore.scala:134:14] output [63:0] io_trace_time, // @[RocketCore.scala:134:14] output io_bpwatch_0_valid_0, // @[RocketCore.scala:134:14] output [2:0] io_bpwatch_0_action, // @[RocketCore.scala:134:14] output io_wfi // @[RocketCore.scala:134:14] ); wire ll_arb_io_out_ready; // @[RocketCore.scala:782:23, :809:44, :810:25] wire id_ctrl_fence; // @[RocketCore.scala:321:21] wire id_ctrl_rocc; // @[RocketCore.scala:321:21] wire io_imem_sfence_bits_hg_0; // @[RocketCore.scala:153:7] wire io_imem_sfence_bits_hv_0; // @[RocketCore.scala:153:7] wire io_imem_sfence_bits_asid_0; // @[RocketCore.scala:153:7] wire [38:0] io_imem_sfence_bits_addr_0; // @[RocketCore.scala:153:7] wire io_imem_sfence_bits_rs2_0; // @[RocketCore.scala:153:7] wire io_imem_sfence_bits_rs1_0; // @[RocketCore.scala:153:7] wire io_imem_sfence_valid_0; // @[RocketCore.scala:153:7] wire [38:0] io_imem_btb_update_bits_pc_0; // @[RocketCore.scala:153:7] wire _ll_arb_io_in_0_ready; // @[RocketCore.scala:776:22] wire _ll_arb_io_out_valid; // @[RocketCore.scala:776:22] wire [4:0] _ll_arb_io_out_bits_tag; // @[RocketCore.scala:776:22] wire _div_io_req_ready; // @[RocketCore.scala:511:19] wire _div_io_resp_valid; // @[RocketCore.scala:511:19] wire [63:0] _div_io_resp_bits_data; // @[RocketCore.scala:511:19] wire [4:0] _div_io_resp_bits_tag; // @[RocketCore.scala:511:19] wire [63:0] _alu_io_adder_out; // @[RocketCore.scala:504:19] wire _alu_io_cmp_out; // @[RocketCore.scala:504:19] wire _bpu_io_xcpt_if; // @[RocketCore.scala:414:19] wire _bpu_io_xcpt_ld; // @[RocketCore.scala:414:19] wire _bpu_io_xcpt_st; // @[RocketCore.scala:414:19] wire _bpu_io_debug_if; // @[RocketCore.scala:414:19] wire _bpu_io_debug_ld; // @[RocketCore.scala:414:19] wire _bpu_io_debug_st; // @[RocketCore.scala:414:19] wire _bpu_io_bpwatch_0_rvalid_0; // @[RocketCore.scala:414:19] wire _bpu_io_bpwatch_0_wvalid_0; // @[RocketCore.scala:414:19] wire _bpu_io_bpwatch_0_ivalid_0; // @[RocketCore.scala:414:19] wire [63:0] _csr_io_rw_rdata; // @[RocketCore.scala:341:19] wire _csr_io_decode_0_fp_illegal; // @[RocketCore.scala:341:19] wire _csr_io_decode_0_fp_csr; // @[RocketCore.scala:341:19] wire _csr_io_decode_0_read_illegal; // @[RocketCore.scala:341:19] wire _csr_io_decode_0_write_illegal; // @[RocketCore.scala:341:19] wire _csr_io_decode_0_write_flush; // @[RocketCore.scala:341:19] wire _csr_io_decode_0_system_illegal; // @[RocketCore.scala:341:19] wire _csr_io_decode_0_virtual_access_illegal; // @[RocketCore.scala:341:19] wire _csr_io_decode_0_virtual_system_illegal; // @[RocketCore.scala:341:19] wire _csr_io_csr_stall; // @[RocketCore.scala:341:19] wire _csr_io_eret; // @[RocketCore.scala:341:19] wire _csr_io_singleStep; // @[RocketCore.scala:341:19] wire _csr_io_status_debug; // @[RocketCore.scala:341:19] wire _csr_io_status_cease; // @[RocketCore.scala:341:19] wire _csr_io_status_wfi; // @[RocketCore.scala:341:19] wire [31:0] _csr_io_status_isa; // @[RocketCore.scala:341:19] wire [1:0] _csr_io_status_dprv; // @[RocketCore.scala:341:19] wire _csr_io_status_dv; // @[RocketCore.scala:341:19] wire [1:0] _csr_io_status_prv; // @[RocketCore.scala:341:19] wire _csr_io_status_v; // @[RocketCore.scala:341:19] wire _csr_io_status_sd; // @[RocketCore.scala:341:19] wire _csr_io_status_mpv; // @[RocketCore.scala:341:19] wire _csr_io_status_gva; // @[RocketCore.scala:341:19] wire _csr_io_status_tsr; // @[RocketCore.scala:341:19] wire _csr_io_status_tw; // @[RocketCore.scala:341:19] wire _csr_io_status_tvm; // @[RocketCore.scala:341:19] wire _csr_io_status_mxr; // @[RocketCore.scala:341:19] wire _csr_io_status_sum; // @[RocketCore.scala:341:19] wire _csr_io_status_mprv; // @[RocketCore.scala:341:19] wire [1:0] _csr_io_status_fs; // @[RocketCore.scala:341:19] wire [1:0] _csr_io_status_mpp; // @[RocketCore.scala:341:19] wire _csr_io_status_spp; // @[RocketCore.scala:341:19] wire _csr_io_status_mpie; // @[RocketCore.scala:341:19] wire _csr_io_status_spie; // @[RocketCore.scala:341:19] wire _csr_io_status_mie; // @[RocketCore.scala:341:19] wire _csr_io_status_sie; // @[RocketCore.scala:341:19] wire [39:0] _csr_io_evec; // @[RocketCore.scala:341:19] wire [63:0] _csr_io_time; // @[RocketCore.scala:341:19] wire _csr_io_interrupt; // @[RocketCore.scala:341:19] wire [63:0] _csr_io_interrupt_cause; // @[RocketCore.scala:341:19] wire _csr_io_bp_0_control_dmode; // @[RocketCore.scala:341:19] wire _csr_io_bp_0_control_action; // @[RocketCore.scala:341:19] wire [1:0] _csr_io_bp_0_control_tmatch; // @[RocketCore.scala:341:19] wire _csr_io_bp_0_control_m; // @[RocketCore.scala:341:19] wire _csr_io_bp_0_control_s; // @[RocketCore.scala:341:19] wire _csr_io_bp_0_control_u; // @[RocketCore.scala:341:19] wire _csr_io_bp_0_control_x; // @[RocketCore.scala:341:19] wire _csr_io_bp_0_control_w; // @[RocketCore.scala:341:19] wire _csr_io_bp_0_control_r; // @[RocketCore.scala:341:19] wire [38:0] _csr_io_bp_0_address; // @[RocketCore.scala:341:19] wire [47:0] _csr_io_bp_0_textra_pad2; // @[RocketCore.scala:341:19] wire _csr_io_bp_0_textra_pad1; // @[RocketCore.scala:341:19] wire _csr_io_inhibit_cycle; // @[RocketCore.scala:341:19] wire _csr_io_trace_0_valid; // @[RocketCore.scala:341:19] wire [39:0] _csr_io_trace_0_iaddr; // @[RocketCore.scala:341:19] wire [31:0] _csr_io_trace_0_insn; // @[RocketCore.scala:341:19] wire [2:0] _csr_io_trace_0_priv; // @[RocketCore.scala:341:19] wire _csr_io_trace_0_exception; // @[RocketCore.scala:341:19] wire [39:0] _ibuf_io_pc; // @[RocketCore.scala:311:20] wire [1:0] _ibuf_io_btb_resp_cfiType; // @[RocketCore.scala:311:20] wire _ibuf_io_btb_resp_taken; // @[RocketCore.scala:311:20] wire [1:0] _ibuf_io_btb_resp_mask; // @[RocketCore.scala:311:20] wire _ibuf_io_btb_resp_bridx; // @[RocketCore.scala:311:20] wire [38:0] _ibuf_io_btb_resp_target; // @[RocketCore.scala:311:20] wire [4:0] _ibuf_io_btb_resp_entry; // @[RocketCore.scala:311:20] wire [7:0] _ibuf_io_btb_resp_bht_history; // @[RocketCore.scala:311:20] wire _ibuf_io_btb_resp_bht_value; // @[RocketCore.scala:311:20] wire _ibuf_io_inst_0_valid; // @[RocketCore.scala:311:20] wire _ibuf_io_inst_0_bits_xcpt0_pf_inst; // @[RocketCore.scala:311:20] wire _ibuf_io_inst_0_bits_xcpt0_gf_inst; // @[RocketCore.scala:311:20] wire _ibuf_io_inst_0_bits_xcpt0_ae_inst; // @[RocketCore.scala:311:20] wire _ibuf_io_inst_0_bits_xcpt1_pf_inst; // @[RocketCore.scala:311:20] wire _ibuf_io_inst_0_bits_xcpt1_gf_inst; // @[RocketCore.scala:311:20] wire _ibuf_io_inst_0_bits_xcpt1_ae_inst; // @[RocketCore.scala:311:20] wire _ibuf_io_inst_0_bits_replay; // @[RocketCore.scala:311:20] wire _ibuf_io_inst_0_bits_rvc; // @[RocketCore.scala:311:20] wire [31:0] _ibuf_io_inst_0_bits_inst_bits; // @[RocketCore.scala:311:20] wire [4:0] _ibuf_io_inst_0_bits_inst_rs1; // @[RocketCore.scala:311:20] wire [31:0] _ibuf_io_inst_0_bits_raw; // @[RocketCore.scala:311:20] wire [2:0] io_hartid_0 = io_hartid; // @[RocketCore.scala:153:7] wire io_interrupts_debug_0 = io_interrupts_debug; // @[RocketCore.scala:153:7] wire io_interrupts_mtip_0 = io_interrupts_mtip; // @[RocketCore.scala:153:7] wire io_interrupts_msip_0 = io_interrupts_msip; // @[RocketCore.scala:153:7] wire io_interrupts_meip_0 = io_interrupts_meip; // @[RocketCore.scala:153:7] wire io_interrupts_seip_0 = io_interrupts_seip; // @[RocketCore.scala:153:7] wire io_imem_resp_valid_0 = io_imem_resp_valid; // @[RocketCore.scala:153:7] wire [1:0] io_imem_resp_bits_btb_cfiType_0 = io_imem_resp_bits_btb_cfiType; // @[RocketCore.scala:153:7] wire io_imem_resp_bits_btb_taken_0 = io_imem_resp_bits_btb_taken; // @[RocketCore.scala:153:7] wire [1:0] io_imem_resp_bits_btb_mask_0 = io_imem_resp_bits_btb_mask; // @[RocketCore.scala:153:7] wire io_imem_resp_bits_btb_bridx_0 = io_imem_resp_bits_btb_bridx; // @[RocketCore.scala:153:7] wire [38:0] io_imem_resp_bits_btb_target_0 = io_imem_resp_bits_btb_target; // @[RocketCore.scala:153:7] wire [4:0] io_imem_resp_bits_btb_entry_0 = io_imem_resp_bits_btb_entry; // @[RocketCore.scala:153:7] wire [7:0] io_imem_resp_bits_btb_bht_history_0 = io_imem_resp_bits_btb_bht_history; // @[RocketCore.scala:153:7] wire io_imem_resp_bits_btb_bht_value_0 = io_imem_resp_bits_btb_bht_value; // @[RocketCore.scala:153:7] wire [39:0] io_imem_resp_bits_pc_0 = io_imem_resp_bits_pc; // @[RocketCore.scala:153:7] wire [31:0] io_imem_resp_bits_data_0 = io_imem_resp_bits_data; // @[RocketCore.scala:153:7] wire [1:0] io_imem_resp_bits_mask_0 = io_imem_resp_bits_mask; // @[RocketCore.scala:153:7] wire io_imem_resp_bits_xcpt_pf_inst_0 = io_imem_resp_bits_xcpt_pf_inst; // @[RocketCore.scala:153:7] wire io_imem_resp_bits_xcpt_gf_inst_0 = io_imem_resp_bits_xcpt_gf_inst; // @[RocketCore.scala:153:7] wire io_imem_resp_bits_xcpt_ae_inst_0 = io_imem_resp_bits_xcpt_ae_inst; // @[RocketCore.scala:153:7] wire io_imem_resp_bits_replay_0 = io_imem_resp_bits_replay; // @[RocketCore.scala:153:7] wire io_imem_gpa_valid_0 = io_imem_gpa_valid; // @[RocketCore.scala:153:7] wire [39:0] io_imem_gpa_bits_0 = io_imem_gpa_bits; // @[RocketCore.scala:153:7] wire io_imem_gpa_is_pte_0 = io_imem_gpa_is_pte; // @[RocketCore.scala:153:7] wire [39:0] io_imem_npc_0 = io_imem_npc; // @[RocketCore.scala:153:7] wire io_imem_perf_acquire_0 = io_imem_perf_acquire; // @[RocketCore.scala:153:7] wire io_imem_perf_tlbMiss_0 = io_imem_perf_tlbMiss; // @[RocketCore.scala:153:7] wire io_dmem_req_ready_0 = io_dmem_req_ready; // @[RocketCore.scala:153:7] wire io_dmem_s2_nack_0 = io_dmem_s2_nack; // @[RocketCore.scala:153:7] wire io_dmem_s2_nack_cause_raw_0 = io_dmem_s2_nack_cause_raw; // @[RocketCore.scala:153:7] wire io_dmem_s2_uncached_0 = io_dmem_s2_uncached; // @[RocketCore.scala:153:7] wire [31:0] io_dmem_s2_paddr_0 = io_dmem_s2_paddr; // @[RocketCore.scala:153:7] wire io_dmem_resp_valid_0 = io_dmem_resp_valid; // @[RocketCore.scala:153:7] wire [39:0] io_dmem_resp_bits_addr_0 = io_dmem_resp_bits_addr; // @[RocketCore.scala:153:7] wire [6:0] io_dmem_resp_bits_tag_0 = io_dmem_resp_bits_tag; // @[RocketCore.scala:153:7] wire [4:0] io_dmem_resp_bits_cmd_0 = io_dmem_resp_bits_cmd; // @[RocketCore.scala:153:7] wire [1:0] io_dmem_resp_bits_size_0 = io_dmem_resp_bits_size; // @[RocketCore.scala:153:7] wire io_dmem_resp_bits_signed_0 = io_dmem_resp_bits_signed; // @[RocketCore.scala:153:7] wire [1:0] io_dmem_resp_bits_dprv_0 = io_dmem_resp_bits_dprv; // @[RocketCore.scala:153:7] wire io_dmem_resp_bits_dv_0 = io_dmem_resp_bits_dv; // @[RocketCore.scala:153:7] wire [63:0] io_dmem_resp_bits_data_0 = io_dmem_resp_bits_data; // @[RocketCore.scala:153:7] wire [7:0] io_dmem_resp_bits_mask_0 = io_dmem_resp_bits_mask; // @[RocketCore.scala:153:7] wire io_dmem_resp_bits_replay_0 = io_dmem_resp_bits_replay; // @[RocketCore.scala:153:7] wire io_dmem_resp_bits_has_data_0 = io_dmem_resp_bits_has_data; // @[RocketCore.scala:153:7] wire [63:0] io_dmem_resp_bits_data_word_bypass_0 = io_dmem_resp_bits_data_word_bypass; // @[RocketCore.scala:153:7] wire [63:0] io_dmem_resp_bits_data_raw_0 = io_dmem_resp_bits_data_raw; // @[RocketCore.scala:153:7] wire [63:0] io_dmem_resp_bits_store_data_0 = io_dmem_resp_bits_store_data; // @[RocketCore.scala:153:7] wire io_dmem_replay_next_0 = io_dmem_replay_next; // @[RocketCore.scala:153:7] wire io_dmem_s2_xcpt_ma_ld_0 = io_dmem_s2_xcpt_ma_ld; // @[RocketCore.scala:153:7] wire io_dmem_s2_xcpt_ma_st_0 = io_dmem_s2_xcpt_ma_st; // @[RocketCore.scala:153:7] wire io_dmem_s2_xcpt_pf_ld_0 = io_dmem_s2_xcpt_pf_ld; // @[RocketCore.scala:153:7] wire io_dmem_s2_xcpt_pf_st_0 = io_dmem_s2_xcpt_pf_st; // @[RocketCore.scala:153:7] wire io_dmem_s2_xcpt_ae_ld_0 = io_dmem_s2_xcpt_ae_ld; // @[RocketCore.scala:153:7] wire io_dmem_s2_xcpt_ae_st_0 = io_dmem_s2_xcpt_ae_st; // @[RocketCore.scala:153:7] wire [39:0] io_dmem_s2_gpa_0 = io_dmem_s2_gpa; // @[RocketCore.scala:153:7] wire io_dmem_ordered_0 = io_dmem_ordered; // @[RocketCore.scala:153:7] wire io_dmem_store_pending_0 = io_dmem_store_pending; // @[RocketCore.scala:153:7] wire io_dmem_perf_acquire_0 = io_dmem_perf_acquire; // @[RocketCore.scala:153:7] wire io_dmem_perf_release_0 = io_dmem_perf_release; // @[RocketCore.scala:153:7] wire io_dmem_perf_grant_0 = io_dmem_perf_grant; // @[RocketCore.scala:153:7] wire io_dmem_perf_tlbMiss_0 = io_dmem_perf_tlbMiss; // @[RocketCore.scala:153:7] wire io_dmem_perf_blocked_0 = io_dmem_perf_blocked; // @[RocketCore.scala:153:7] wire io_dmem_perf_canAcceptStoreThenLoad_0 = io_dmem_perf_canAcceptStoreThenLoad; // @[RocketCore.scala:153:7] wire io_dmem_perf_canAcceptStoreThenRMW_0 = io_dmem_perf_canAcceptStoreThenRMW; // @[RocketCore.scala:153:7] wire io_dmem_perf_canAcceptLoadThenLoad_0 = io_dmem_perf_canAcceptLoadThenLoad; // @[RocketCore.scala:153:7] wire io_dmem_perf_storeBufferEmptyAfterLoad_0 = io_dmem_perf_storeBufferEmptyAfterLoad; // @[RocketCore.scala:153:7] wire io_dmem_perf_storeBufferEmptyAfterStore_0 = io_dmem_perf_storeBufferEmptyAfterStore; // @[RocketCore.scala:153:7] wire io_ptw_perf_pte_miss_0 = io_ptw_perf_pte_miss; // @[RocketCore.scala:153:7] wire io_ptw_perf_pte_hit_0 = io_ptw_perf_pte_hit; // @[RocketCore.scala:153:7] wire io_ptw_clock_enabled_0 = io_ptw_clock_enabled; // @[RocketCore.scala:153:7] wire io_fpu_fcsr_flags_valid_0 = io_fpu_fcsr_flags_valid; // @[RocketCore.scala:153:7] wire [4:0] io_fpu_fcsr_flags_bits_0 = io_fpu_fcsr_flags_bits; // @[RocketCore.scala:153:7] wire [63:0] io_fpu_store_data_0 = io_fpu_store_data; // @[RocketCore.scala:153:7] wire [63:0] io_fpu_toint_data_0 = io_fpu_toint_data; // @[RocketCore.scala:153:7] wire io_fpu_fcsr_rdy_0 = io_fpu_fcsr_rdy; // @[RocketCore.scala:153:7] wire io_fpu_nack_mem_0 = io_fpu_nack_mem; // @[RocketCore.scala:153:7] wire io_fpu_illegal_rm_0 = io_fpu_illegal_rm; // @[RocketCore.scala:153:7] wire io_fpu_dec_ldst_0 = io_fpu_dec_ldst; // @[RocketCore.scala:153:7] wire io_fpu_dec_wen_0 = io_fpu_dec_wen; // @[RocketCore.scala:153:7] wire io_fpu_dec_ren1_0 = io_fpu_dec_ren1; // @[RocketCore.scala:153:7] wire io_fpu_dec_ren2_0 = io_fpu_dec_ren2; // @[RocketCore.scala:153:7] wire io_fpu_dec_ren3_0 = io_fpu_dec_ren3; // @[RocketCore.scala:153:7] wire io_fpu_dec_swap12_0 = io_fpu_dec_swap12; // @[RocketCore.scala:153:7] wire io_fpu_dec_swap23_0 = io_fpu_dec_swap23; // @[RocketCore.scala:153:7] wire [1:0] io_fpu_dec_typeTagIn_0 = io_fpu_dec_typeTagIn; // @[RocketCore.scala:153:7] wire [1:0] io_fpu_dec_typeTagOut_0 = io_fpu_dec_typeTagOut; // @[RocketCore.scala:153:7] wire io_fpu_dec_fromint_0 = io_fpu_dec_fromint; // @[RocketCore.scala:153:7] wire io_fpu_dec_toint_0 = io_fpu_dec_toint; // @[RocketCore.scala:153:7] wire io_fpu_dec_fastpipe_0 = io_fpu_dec_fastpipe; // @[RocketCore.scala:153:7] wire io_fpu_dec_fma_0 = io_fpu_dec_fma; // @[RocketCore.scala:153:7] wire io_fpu_dec_div_0 = io_fpu_dec_div; // @[RocketCore.scala:153:7] wire io_fpu_dec_sqrt_0 = io_fpu_dec_sqrt; // @[RocketCore.scala:153:7] wire io_fpu_dec_wflags_0 = io_fpu_dec_wflags; // @[RocketCore.scala:153:7] wire io_fpu_dec_vec_0 = io_fpu_dec_vec; // @[RocketCore.scala:153:7] wire io_fpu_sboard_set_0 = io_fpu_sboard_set; // @[RocketCore.scala:153:7] wire io_fpu_sboard_clr_0 = io_fpu_sboard_clr; // @[RocketCore.scala:153:7] wire [4:0] io_fpu_sboard_clra_0 = io_fpu_sboard_clra; // @[RocketCore.scala:153:7] wire coreMonitorBundle_clock = clock; // @[RocketCore.scala:1186:31] wire coreMonitorBundle_reset = reset; // @[RocketCore.scala:1186:31] wire xrfWriteBundle_clock = clock; // @[RocketCore.scala:1249:28] wire xrfWriteBundle_reset = reset; // @[RocketCore.scala:1249:28] wire io_imem_clock_enabled = 1'h1; // @[RocketCore.scala:153:7] wire io_dmem_clock_enabled = 1'h1; // @[RocketCore.scala:153:7] wire clock_en = 1'h1; // @[RocketCore.scala:153:7, :163:29] wire _id_npc_b19_12_T = 1'h1; // @[RocketCore.scala:153:7, :1343:26] wire _id_npc_b11_T_3 = 1'h1; // @[RocketCore.scala:153:7, :1345:23] wire _id_illegal_insn_T_10 = 1'h1; // @[RocketCore.scala:153:7, :384:73] wire _id_illegal_insn_T_15 = 1'h1; // @[RocketCore.scala:153:7, :385:55] wire _mem_br_target_b19_12_T = 1'h1; // @[RocketCore.scala:153:7, :1343:26] wire _mem_br_target_b19_12_T_1 = 1'h1; // @[RocketCore.scala:153:7, :1343:43] wire _mem_br_target_b19_12_T_2 = 1'h1; // @[RocketCore.scala:153:7, :1343:36] wire _mem_br_target_b11_T_6 = 1'h1; // @[RocketCore.scala:153:7, :1346:23] wire _mem_br_target_b4_1_T_2 = 1'h1; // @[RocketCore.scala:153:7, :1349:41] wire _mem_br_target_b4_1_T_3 = 1'h1; // @[RocketCore.scala:153:7, :1349:34] wire _mem_br_target_b19_12_T_5 = 1'h1; // @[RocketCore.scala:153:7, :1343:26] wire _mem_br_target_b11_T_14 = 1'h1; // @[RocketCore.scala:153:7, :1345:23] wire _wb_reg_xcpt_T_2 = 1'h1; // @[RocketCore.scala:153:7, :707:45] wire _replay_wb_rocc_T_1 = 1'h1; // @[RocketCore.scala:153:7, :758:56] wire _rocc_blocked_T_1 = 1'h1; // @[RocketCore.scala:153:7, :1029:31] wire io_imem_btb_update_bits_taken = 1'h0; // @[RocketCore.scala:153:7] wire io_imem_ras_update_valid = 1'h0; // @[RocketCore.scala:153:7] wire io_dmem_req_bits_phys = 1'h0; // @[RocketCore.scala:153:7] wire io_dmem_req_bits_no_alloc = 1'h0; // @[RocketCore.scala:153:7] wire io_dmem_req_bits_no_xcpt = 1'h0; // @[RocketCore.scala:153:7] wire io_dmem_s2_kill = 1'h0; // @[RocketCore.scala:153:7] wire io_dmem_s2_xcpt_gf_ld = 1'h0; // @[RocketCore.scala:153:7] wire io_dmem_s2_xcpt_gf_st = 1'h0; // @[RocketCore.scala:153:7] wire io_dmem_s2_gpa_is_pte = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_status_mbe = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_status_sbe = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_status_sd_rv32 = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_status_ube = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_status_upie = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_status_hie = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_status_uie = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_hstatus_vtsr = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_hstatus_vtw = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_hstatus_vtvm = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_hstatus_hu = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_hstatus_vsbe = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_sd_rv32 = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_perf_l2miss = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_perf_l2hit = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_0_stall = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_0_set = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_1_stall = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_1_set = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_2_stall = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_2_set = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_3_stall = 1'h0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_3_set = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_cmd_ready = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_mbe = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_sbe = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_sd_rv32 = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_ube = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_upie = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_hie = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_uie = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_resp_ready = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_resp_valid = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_req_ready = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_req_valid = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_req_bits_signed = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_req_bits_dv = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_req_bits_phys = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_req_bits_no_resp = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_req_bits_no_alloc = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_req_bits_no_xcpt = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s1_kill = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s2_nack = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s2_nack_cause_raw = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s2_kill = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s2_uncached = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_resp_valid = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_resp_bits_signed = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_resp_bits_dv = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_resp_bits_replay = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_resp_bits_has_data = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_replay_next = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s2_xcpt_ma_ld = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s2_xcpt_ma_st = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s2_xcpt_pf_ld = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s2_xcpt_pf_st = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s2_xcpt_gf_ld = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s2_xcpt_gf_st = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s2_xcpt_ae_ld = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s2_xcpt_ae_st = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_s2_gpa_is_pte = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_ordered = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_store_pending = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_perf_acquire = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_perf_release = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_perf_grant = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_perf_tlbMiss = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_perf_blocked = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_perf_canAcceptStoreThenLoad = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_perf_canAcceptStoreThenRMW = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_perf_canAcceptLoadThenLoad = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_perf_storeBufferEmptyAfterLoad = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_perf_storeBufferEmptyAfterStore = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_keep_clock_enabled = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_mem_clock_enabled = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_busy = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_interrupt = 1'h0; // @[RocketCore.scala:153:7] wire io_rocc_exception = 1'h0; // @[RocketCore.scala:153:7] wire io_bpwatch_0_rvalid_0 = 1'h0; // @[RocketCore.scala:153:7] wire io_bpwatch_0_wvalid_0 = 1'h0; // @[RocketCore.scala:153:7] wire io_bpwatch_0_ivalid_0 = 1'h0; // @[RocketCore.scala:153:7] wire io_cease = 1'h0; // @[RocketCore.scala:153:7] wire io_traceStall = 1'h0; // @[RocketCore.scala:153:7] wire _hits_WIRE_0 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_1 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_2 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_3 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_4 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_5 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_6 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_7 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_8 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_9 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_10 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_11 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_12 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_13 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_14 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_15 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_16 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_17 = 1'h0; // @[Events.scala:13:33] wire hits_0 = 1'h0; // @[Events.scala:13:25] wire hits_1 = 1'h0; // @[Events.scala:13:25] wire hits_2 = 1'h0; // @[Events.scala:13:25] wire hits_3 = 1'h0; // @[Events.scala:13:25] wire hits_4 = 1'h0; // @[Events.scala:13:25] wire hits_5 = 1'h0; // @[Events.scala:13:25] wire hits_6 = 1'h0; // @[Events.scala:13:25] wire hits_7 = 1'h0; // @[Events.scala:13:25] wire hits_8 = 1'h0; // @[Events.scala:13:25] wire hits_9 = 1'h0; // @[Events.scala:13:25] wire hits_10 = 1'h0; // @[Events.scala:13:25] wire hits_11 = 1'h0; // @[Events.scala:13:25] wire hits_12 = 1'h0; // @[Events.scala:13:25] wire hits_13 = 1'h0; // @[Events.scala:13:25] wire hits_14 = 1'h0; // @[Events.scala:13:25] wire hits_15 = 1'h0; // @[Events.scala:13:25] wire hits_16 = 1'h0; // @[Events.scala:13:25] wire hits_17 = 1'h0; // @[Events.scala:13:25] wire _hits_WIRE_1_0 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_1_1 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_1_2 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_1_3 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_1_4 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_1_5 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_1_6 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_1_7 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_1_8 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_1_9 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_1_10 = 1'h0; // @[Events.scala:13:33] wire hits_1_0 = 1'h0; // @[Events.scala:13:25] wire hits_1_1 = 1'h0; // @[Events.scala:13:25] wire hits_1_2 = 1'h0; // @[Events.scala:13:25] wire hits_1_3 = 1'h0; // @[Events.scala:13:25] wire hits_1_4 = 1'h0; // @[Events.scala:13:25] wire hits_1_5 = 1'h0; // @[Events.scala:13:25] wire hits_1_6 = 1'h0; // @[Events.scala:13:25] wire hits_1_7 = 1'h0; // @[Events.scala:13:25] wire hits_1_8 = 1'h0; // @[Events.scala:13:25] wire hits_1_9 = 1'h0; // @[Events.scala:13:25] wire hits_1_10 = 1'h0; // @[Events.scala:13:25] wire _hits_WIRE_2_0 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_2_1 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_2_2 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_2_3 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_2_4 = 1'h0; // @[Events.scala:13:33] wire _hits_WIRE_2_5 = 1'h0; // @[Events.scala:13:33] wire hits_2_0 = 1'h0; // @[Events.scala:13:25] wire hits_2_1 = 1'h0; // @[Events.scala:13:25] wire hits_2_2 = 1'h0; // @[Events.scala:13:25] wire hits_2_3 = 1'h0; // @[Events.scala:13:25] wire hits_2_4 = 1'h0; // @[Events.scala:13:25] wire hits_2_5 = 1'h0; // @[Events.scala:13:25] wire id_ctrl_vec = 1'h0; // @[RocketCore.scala:321:21] wire _id_rs_T_1 = 1'h0; // @[RocketCore.scala:1326:33] wire _id_rs_T_6 = 1'h0; // @[RocketCore.scala:1326:33] wire _id_npc_sign_T = 1'h0; // @[RocketCore.scala:1341:24] wire _id_npc_b30_20_T = 1'h0; // @[RocketCore.scala:1342:26] wire _id_npc_b19_12_T_1 = 1'h0; // @[RocketCore.scala:1343:43] wire _id_npc_b19_12_T_2 = 1'h0; // @[RocketCore.scala:1343:36] wire _id_npc_b11_T = 1'h0; // @[RocketCore.scala:1344:23] wire _id_npc_b11_T_1 = 1'h0; // @[RocketCore.scala:1344:40] wire _id_npc_b11_T_2 = 1'h0; // @[RocketCore.scala:1344:33] wire _id_npc_b11_T_6 = 1'h0; // @[RocketCore.scala:1346:23] wire _id_npc_b10_5_T = 1'h0; // @[RocketCore.scala:1347:25] wire _id_npc_b10_5_T_1 = 1'h0; // @[RocketCore.scala:1347:42] wire _id_npc_b10_5_T_2 = 1'h0; // @[RocketCore.scala:1347:35] wire _id_npc_b4_1_T = 1'h0; // @[RocketCore.scala:1348:24] wire _id_npc_b4_1_T_1 = 1'h0; // @[RocketCore.scala:1349:24] wire _id_npc_b4_1_T_2 = 1'h0; // @[RocketCore.scala:1349:41] wire _id_npc_b4_1_T_3 = 1'h0; // @[RocketCore.scala:1349:34] wire _id_npc_b4_1_T_5 = 1'h0; // @[RocketCore.scala:1350:24] wire _id_npc_b0_T = 1'h0; // @[RocketCore.scala:1351:22] wire _id_npc_b0_T_2 = 1'h0; // @[RocketCore.scala:1352:22] wire _id_npc_b0_T_4 = 1'h0; // @[RocketCore.scala:1353:22] wire _id_npc_b0_T_6 = 1'h0; // @[RocketCore.scala:1353:17] wire _id_npc_b0_T_7 = 1'h0; // @[RocketCore.scala:1352:17] wire id_npc_b0 = 1'h0; // @[RocketCore.scala:1351:17] wire id_set_vconfig = 1'h0; // @[RocketCore.scala:347:120] wire _id_illegal_insn_T_16 = 1'h0; // @[RocketCore.scala:385:19] wire _id_illegal_insn_T_26 = 1'h0; // @[RocketCore.scala:388:23] wire _id_illegal_insn_T_28 = 1'h0; // @[RocketCore.scala:389:23] wire _id_illegal_insn_T_30 = 1'h0; // @[RocketCore.scala:390:22] wire id_rocc_busy = 1'h0; // @[RocketCore.scala:405:34] wire _id_csr_rocc_write_T = 1'h0; // @[RocketCore.scala:408:87] wire id_csr_rocc_write = 1'h0; // @[RocketCore.scala:408:100] wire _id_do_fence_T_1 = 1'h0; // @[RocketCore.scala:410:46] wire _id_do_fence_T_2 = 1'h0; // @[RocketCore.scala:411:17] wire _id_do_fence_T_3 = 1'h0; // @[RocketCore.scala:410:86] wire _ex_reg_hls_T = 1'h0; // @[RocketCore.scala:553:37] wire _ex_reg_hls_T_6 = 1'h0; // @[RocketCore.scala:553:55] wire _ex_reg_mem_size_T = 1'h0; // @[RocketCore.scala:554:46] wire _ex_reg_set_vconfig_T_1 = 1'h0; // @[RocketCore.scala:591:42] wire _replay_ex_structural_T_5 = 1'h0; // @[RocketCore.scala:599:45] wire _replay_ex_structural_T_6 = 1'h0; // @[RocketCore.scala:599:42] wire _mem_br_target_sign_T = 1'h0; // @[RocketCore.scala:1341:24] wire _mem_br_target_b30_20_T = 1'h0; // @[RocketCore.scala:1342:26] wire _mem_br_target_b11_T = 1'h0; // @[RocketCore.scala:1344:23] wire _mem_br_target_b11_T_1 = 1'h0; // @[RocketCore.scala:1344:40] wire _mem_br_target_b11_T_2 = 1'h0; // @[RocketCore.scala:1344:33] wire _mem_br_target_b11_T_3 = 1'h0; // @[RocketCore.scala:1345:23] wire _mem_br_target_b10_5_T = 1'h0; // @[RocketCore.scala:1347:25] wire _mem_br_target_b10_5_T_1 = 1'h0; // @[RocketCore.scala:1347:42] wire _mem_br_target_b10_5_T_2 = 1'h0; // @[RocketCore.scala:1347:35] wire _mem_br_target_b4_1_T = 1'h0; // @[RocketCore.scala:1348:24] wire _mem_br_target_b4_1_T_1 = 1'h0; // @[RocketCore.scala:1349:24] wire _mem_br_target_b4_1_T_5 = 1'h0; // @[RocketCore.scala:1350:24] wire _mem_br_target_b0_T = 1'h0; // @[RocketCore.scala:1351:22] wire _mem_br_target_b0_T_2 = 1'h0; // @[RocketCore.scala:1352:22] wire _mem_br_target_b0_T_4 = 1'h0; // @[RocketCore.scala:1353:22] wire _mem_br_target_b0_T_6 = 1'h0; // @[RocketCore.scala:1353:17] wire _mem_br_target_b0_T_7 = 1'h0; // @[RocketCore.scala:1352:17] wire mem_br_target_b0 = 1'h0; // @[RocketCore.scala:1351:17] wire _mem_br_target_sign_T_3 = 1'h0; // @[RocketCore.scala:1341:24] wire _mem_br_target_b30_20_T_3 = 1'h0; // @[RocketCore.scala:1342:26] wire _mem_br_target_b19_12_T_6 = 1'h0; // @[RocketCore.scala:1343:43] wire _mem_br_target_b19_12_T_7 = 1'h0; // @[RocketCore.scala:1343:36] wire _mem_br_target_b11_T_11 = 1'h0; // @[RocketCore.scala:1344:23] wire _mem_br_target_b11_T_12 = 1'h0; // @[RocketCore.scala:1344:40] wire _mem_br_target_b11_T_13 = 1'h0; // @[RocketCore.scala:1344:33] wire _mem_br_target_b11_T_17 = 1'h0; // @[RocketCore.scala:1346:23] wire _mem_br_target_b10_5_T_4 = 1'h0; // @[RocketCore.scala:1347:25] wire _mem_br_target_b10_5_T_5 = 1'h0; // @[RocketCore.scala:1347:42] wire _mem_br_target_b10_5_T_6 = 1'h0; // @[RocketCore.scala:1347:35] wire _mem_br_target_b4_1_T_10 = 1'h0; // @[RocketCore.scala:1348:24] wire _mem_br_target_b4_1_T_11 = 1'h0; // @[RocketCore.scala:1349:24] wire _mem_br_target_b4_1_T_12 = 1'h0; // @[RocketCore.scala:1349:41] wire _mem_br_target_b4_1_T_13 = 1'h0; // @[RocketCore.scala:1349:34] wire _mem_br_target_b4_1_T_15 = 1'h0; // @[RocketCore.scala:1350:24] wire _mem_br_target_b0_T_8 = 1'h0; // @[RocketCore.scala:1351:22] wire _mem_br_target_b0_T_10 = 1'h0; // @[RocketCore.scala:1352:22] wire _mem_br_target_b0_T_12 = 1'h0; // @[RocketCore.scala:1353:22] wire _mem_br_target_b0_T_14 = 1'h0; // @[RocketCore.scala:1353:17] wire _mem_br_target_b0_T_15 = 1'h0; // @[RocketCore.scala:1352:17] wire mem_br_target_b0_1 = 1'h0; // @[RocketCore.scala:1351:17] wire vec_kill_mem = 1'h0; // @[RocketCore.scala:697:52] wire vec_kill_all = 1'h0; // @[RocketCore.scala:698:36] wire replay_wb_csr = 1'h0; // @[RocketCore.scala:759:42] wire replay_wb_vec = 1'h0; // @[RocketCore.scala:760:36] wire _htval_valid_dmem_T_2 = 1'h0; // @[RocketCore.scala:857:83] wire _htval_valid_dmem_T_3 = 1'h0; // @[RocketCore.scala:857:54] wire htval_valid_dmem = 1'h0; // @[RocketCore.scala:857:87] wire _mhtinst_read_pseudo_T_1 = 1'h0; // @[RocketCore.scala:862:98] wire _id_vconfig_hazard_T = 1'h0; // @[RocketCore.scala:1003:19] wire id_vconfig_hazard = 1'h0; // @[RocketCore.scala:1002:39] wire _ctrl_stalld_T_12 = 1'h0; // @[RocketCore.scala:1036:15] wire _ctrl_stalld_T_13 = 1'h0; // @[RocketCore.scala:1036:46] wire _ctrl_stalld_T_28 = 1'h0; // @[RocketCore.scala:1041:5] wire _io_rocc_exception_T = 1'h0; // @[RocketCore.scala:1157:52] wire _io_rocc_exception_T_1 = 1'h0; // @[RocketCore.scala:1157:32] wire _io_cease_T = 1'h0; // @[RocketCore.scala:1166:38] wire _io_cease_T_1 = 1'h0; // @[RocketCore.scala:1166:35] wire coreMonitorBundle_wrenf = 1'h0; // @[RocketCore.scala:1186:31] wire xrfWriteBundle_excpt = 1'h0; // @[RocketCore.scala:1249:28] wire xrfWriteBundle_valid = 1'h0; // @[RocketCore.scala:1249:28] wire xrfWriteBundle_wrenf = 1'h0; // @[RocketCore.scala:1249:28] wire [15:0] io_ptw_ptbr_asid = 16'h0; // @[RocketCore.scala:153:7] wire [15:0] io_ptw_hgatp_asid = 16'h0; // @[RocketCore.scala:153:7] wire [15:0] io_ptw_vsatp_asid = 16'h0; // @[RocketCore.scala:153:7] wire [3:0] io_ptw_hgatp_mode = 4'h0; // @[RocketCore.scala:153:7] wire [3:0] io_ptw_vsatp_mode = 4'h0; // @[RocketCore.scala:153:7] wire [43:0] io_ptw_hgatp_ppn = 44'h0; // @[RocketCore.scala:153:7] wire [43:0] io_ptw_vsatp_ppn = 44'h0; // @[RocketCore.scala:153:7] wire [22:0] io_ptw_status_zero2 = 23'h0; // @[RocketCore.scala:153:7] wire [22:0] io_rocc_cmd_bits_status_zero2 = 23'h0; // @[RocketCore.scala:153:7] wire [7:0] io_dmem_req_bits_mask = 8'h0; // @[RocketCore.scala:153:7] wire [7:0] io_dmem_s1_data_mask = 8'h0; // @[RocketCore.scala:153:7] wire [7:0] io_ptw_status_zero1 = 8'h0; // @[RocketCore.scala:153:7] wire [7:0] io_rocc_cmd_bits_status_zero1 = 8'h0; // @[RocketCore.scala:153:7] wire [7:0] io_rocc_mem_req_bits_mask = 8'h0; // @[RocketCore.scala:153:7] wire [7:0] io_rocc_mem_s1_data_mask = 8'h0; // @[RocketCore.scala:153:7] wire [7:0] io_rocc_mem_resp_bits_mask = 8'h0; // @[RocketCore.scala:153:7] wire [1:0] io_imem_ras_update_bits_cfiType = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_status_xs = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_status_vs = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_hstatus_zero3 = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_hstatus_zero2 = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_gstatus_xs = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_0_cfg_res = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_1_cfg_res = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_2_cfg_res = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_3_cfg_res = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_4_cfg_res = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_5_cfg_res = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_6_cfg_res = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_7_cfg_res = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_rocc_cmd_bits_status_xs = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_rocc_cmd_bits_status_vs = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_rocc_mem_req_bits_size = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_rocc_mem_req_bits_dprv = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_rocc_mem_resp_bits_size = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] io_rocc_mem_resp_bits_dprv = 2'h0; // @[RocketCore.scala:153:7] wire [1:0] _htval_valid_dmem_T_1 = 2'h0; // @[RocketCore.scala:857:76] wire [29:0] io_ptw_hstatus_zero6 = 30'h0; // @[RocketCore.scala:153:7] wire [8:0] io_ptw_hstatus_zero5 = 9'h0; // @[RocketCore.scala:153:7] wire [5:0] io_ptw_hstatus_vgein = 6'h0; // @[RocketCore.scala:153:7] wire [4:0] io_ptw_hstatus_zero1 = 5'h0; // @[RocketCore.scala:153:7] wire [4:0] io_rocc_resp_bits_rd = 5'h0; // @[RocketCore.scala:153:7] wire [4:0] io_rocc_mem_req_bits_cmd = 5'h0; // @[RocketCore.scala:153:7] wire [4:0] io_rocc_mem_resp_bits_cmd = 5'h0; // @[RocketCore.scala:153:7] wire [4:0] _csr_io_fcsr_flags_bits_T_2 = 5'h0; // @[RocketCore.scala:839:116] wire [4:0] _csr_io_fcsr_flags_bits_T_3 = 5'h0; // @[RocketCore.scala:839:110] wire [4:0] xrfWriteBundle_rd0src = 5'h0; // @[RocketCore.scala:1249:28] wire [4:0] xrfWriteBundle_rd1src = 5'h0; // @[RocketCore.scala:1249:28] wire [39:0] io_rocc_mem_req_bits_addr = 40'h0; // @[RocketCore.scala:153:7] wire [39:0] io_rocc_mem_resp_bits_addr = 40'h0; // @[RocketCore.scala:153:7] wire [39:0] io_rocc_mem_s2_gpa = 40'h0; // @[RocketCore.scala:153:7] wire [39:0] htval_dmem = 40'h0; // @[RocketCore.scala:858:25] wire [31:0] io_reset_vector = 32'h0; // @[RocketCore.scala:153:7] wire [31:0] io_rocc_mem_s2_paddr = 32'h0; // @[RocketCore.scala:153:7] wire [31:0] xrfWriteBundle_inst = 32'h0; // @[RocketCore.scala:1249:28] wire [38:0] io_imem_ras_update_bits_returnAddr = 39'h0; // @[RocketCore.scala:153:7] wire [63:0] io_dmem_req_bits_data = 64'h0; // @[RocketCore.scala:153:7] wire [63:0] io_ptw_customCSRs_csrs_0_sdata = 64'h0; // @[RocketCore.scala:153:7] wire [63:0] io_ptw_customCSRs_csrs_1_sdata = 64'h0; // @[RocketCore.scala:153:7] wire [63:0] io_ptw_customCSRs_csrs_2_sdata = 64'h0; // @[RocketCore.scala:153:7] wire [63:0] io_ptw_customCSRs_csrs_3_sdata = 64'h0; // @[RocketCore.scala:153:7] wire [63:0] io_rocc_resp_bits_data = 64'h0; // @[RocketCore.scala:153:7] wire [63:0] io_rocc_mem_req_bits_data = 64'h0; // @[RocketCore.scala:153:7] wire [63:0] io_rocc_mem_s1_data_data = 64'h0; // @[RocketCore.scala:153:7] wire [63:0] io_rocc_mem_resp_bits_data = 64'h0; // @[RocketCore.scala:153:7] wire [63:0] io_rocc_mem_resp_bits_data_word_bypass = 64'h0; // @[RocketCore.scala:153:7] wire [63:0] io_rocc_mem_resp_bits_data_raw = 64'h0; // @[RocketCore.scala:153:7] wire [63:0] io_rocc_mem_resp_bits_store_data = 64'h0; // @[RocketCore.scala:153:7] wire [63:0] xrfWriteBundle_pc = 64'h0; // @[RocketCore.scala:1249:28] wire [63:0] xrfWriteBundle_rd0val = 64'h0; // @[RocketCore.scala:1249:28] wire [63:0] xrfWriteBundle_rd1val = 64'h0; // @[RocketCore.scala:1249:28] wire [1:0] io_ptw_status_sxl = 2'h2; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_status_uxl = 2'h2; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_hstatus_vsxl = 2'h2; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_gstatus_uxl = 2'h2; // @[RocketCore.scala:153:7] wire [1:0] io_rocc_cmd_bits_status_sxl = 2'h2; // @[RocketCore.scala:153:7] wire [1:0] io_rocc_cmd_bits_status_uxl = 2'h2; // @[RocketCore.scala:153:7] wire [2:0] io_fpu_v_sew = 3'h0; // @[RocketCore.scala:153:7] wire [6:0] io_rocc_mem_req_bits_tag = 7'h0; // @[RocketCore.scala:153:7] wire [6:0] io_rocc_mem_resp_bits_tag = 7'h0; // @[RocketCore.scala:153:7] wire [2:0] io_fpu_hartid_0 = io_hartid_0; // @[RocketCore.scala:153:7] wire take_pc_mem_wb; // @[RocketCore.scala:307:35] wire [39:0] _io_imem_req_bits_pc_T_2; // @[RocketCore.scala:1051:8] wire _io_imem_req_bits_speculative_T; // @[RocketCore.scala:1049:35] wire _io_imem_sfence_valid_T; // @[RocketCore.scala:1060:40] wire io_ptw_sfence_valid_0 = io_imem_sfence_valid_0; // @[RocketCore.scala:153:7] wire _io_imem_sfence_bits_rs1_T; // @[RocketCore.scala:1061:45] wire io_ptw_sfence_bits_rs1_0 = io_imem_sfence_bits_rs1_0; // @[RocketCore.scala:153:7] wire _io_imem_sfence_bits_rs2_T; // @[RocketCore.scala:1062:45] wire io_ptw_sfence_bits_rs2_0 = io_imem_sfence_bits_rs2_0; // @[RocketCore.scala:153:7] wire [38:0] io_ptw_sfence_bits_addr_0 = io_imem_sfence_bits_addr_0; // @[RocketCore.scala:153:7] wire io_ptw_sfence_bits_asid_0 = io_imem_sfence_bits_asid_0; // @[RocketCore.scala:153:7] wire io_ptw_sfence_bits_hv_0 = io_imem_sfence_bits_hv_0; // @[RocketCore.scala:153:7] wire io_ptw_sfence_bits_hg_0 = io_imem_sfence_bits_hg_0; // @[RocketCore.scala:153:7] wire _io_imem_btb_update_valid_T_5; // @[RocketCore.scala:1071:77] wire [38:0] _io_imem_btb_update_bits_pc_T_2; // @[RocketCore.scala:1080:33] wire [38:0] io_imem_bht_update_bits_pc_0 = io_imem_btb_update_bits_pc_0; // @[RocketCore.scala:153:7] wire mem_cfi; // @[RocketCore.scala:625:50] wire [1:0] _io_imem_btb_update_bits_cfiType_T_11; // @[RocketCore.scala:1074:8] wire _io_imem_bht_update_valid_T_1; // @[RocketCore.scala:1084:45] wire mem_wrong_npc; // @[RocketCore.scala:621:8] wire _io_imem_flush_icache_T_2; // @[RocketCore.scala:1054:59] wire _io_dmem_req_valid_T; // @[RocketCore.scala:1130:41] wire [39:0] _io_dmem_req_bits_addr_T_1; // @[RocketCore.scala:1295:8] wire _io_dmem_req_bits_signed_T_3; // @[RocketCore.scala:1136:30] wire [1:0] _io_dmem_req_bits_dprv_T; // @[RocketCore.scala:1140:31] wire _io_dmem_req_bits_dv_T; // @[RocketCore.scala:1141:37] wire _io_dmem_req_bits_no_resp_T_29; // @[RocketCore.scala:1142:56] wire _io_dmem_s1_kill_T_2; // @[RocketCore.scala:1151:68] wire [63:0] _io_dmem_s1_data_data_T; // @[RocketCore.scala:1148:63] wire [63:0] io_fpu_ll_resp_data_0 = io_dmem_resp_bits_data_0; // @[RocketCore.scala:153:7] wire [63:0] _rf_wdata_T_1 = io_dmem_resp_bits_data_0; // @[RocketCore.scala:153:7, :819:78] wire [63:0] dcache_bypass_data = io_dmem_resp_bits_data_word_bypass_0; // @[RocketCore.scala:153:7, :449:62] wire _io_dmem_keep_clock_enabled_T_2; // @[RocketCore.scala:1154:70] wire [63:0] ex_rs_0; // @[RocketCore.scala:469:14] wire _csr_io_fcsr_flags_valid_T = io_fpu_fcsr_flags_valid_0; // @[RocketCore.scala:153:7, :838:54] wire _io_fpu_ll_resp_val_T; // @[RocketCore.scala:1099:41] wire [4:0] dmem_resp_waddr; // @[RocketCore.scala:767:46] wire _io_fpu_valid_T_1; // @[RocketCore.scala:1094:31] wire _id_illegal_insn_T_11 = io_fpu_illegal_rm_0; // @[RocketCore.scala:153:7, :384:70] wire ctrl_killx; // @[RocketCore.scala:602:48] wire killm_common; // @[RocketCore.scala:700:68] wire _io_fpu_keep_clock_enabled_T; // @[CustomCSRs.scala:45:59] wire _io_rocc_cmd_valid_T_2; // @[RocketCore.scala:1156:53] wire [6:0] _io_rocc_cmd_bits_inst_WIRE_funct; // @[RocketCore.scala:1159:48] wire [4:0] _io_rocc_cmd_bits_inst_WIRE_rs2; // @[RocketCore.scala:1159:48] wire [4:0] _io_rocc_cmd_bits_inst_WIRE_rs1; // @[RocketCore.scala:1159:48] wire _io_rocc_cmd_bits_inst_WIRE_xd; // @[RocketCore.scala:1159:48] wire _io_rocc_cmd_bits_inst_WIRE_xs1; // @[RocketCore.scala:1159:48] wire _io_rocc_cmd_bits_inst_WIRE_xs2; // @[RocketCore.scala:1159:48] wire [4:0] _io_rocc_cmd_bits_inst_WIRE_rd; // @[RocketCore.scala:1159:48] wire [6:0] _io_rocc_cmd_bits_inst_WIRE_opcode; // @[RocketCore.scala:1159:48] wire [39:0] io_imem_req_bits_pc_0; // @[RocketCore.scala:153:7] wire io_imem_req_bits_speculative_0; // @[RocketCore.scala:153:7] wire io_imem_req_valid_0; // @[RocketCore.scala:153:7] wire io_imem_resp_ready_0; // @[RocketCore.scala:153:7] wire [7:0] io_imem_btb_update_bits_prediction_bht_history_0; // @[RocketCore.scala:153:7] wire io_imem_btb_update_bits_prediction_bht_value_0; // @[RocketCore.scala:153:7] wire [1:0] io_imem_btb_update_bits_prediction_cfiType_0; // @[RocketCore.scala:153:7] wire io_imem_btb_update_bits_prediction_taken_0; // @[RocketCore.scala:153:7] wire [1:0] io_imem_btb_update_bits_prediction_mask_0; // @[RocketCore.scala:153:7] wire io_imem_btb_update_bits_prediction_bridx_0; // @[RocketCore.scala:153:7] wire [38:0] io_imem_btb_update_bits_prediction_target_0; // @[RocketCore.scala:153:7] wire [4:0] io_imem_btb_update_bits_prediction_entry_0; // @[RocketCore.scala:153:7] wire [38:0] io_imem_btb_update_bits_target_0; // @[RocketCore.scala:153:7] wire io_imem_btb_update_bits_isValid_0; // @[RocketCore.scala:153:7] wire [38:0] io_imem_btb_update_bits_br_pc_0; // @[RocketCore.scala:153:7] wire [1:0] io_imem_btb_update_bits_cfiType_0; // @[RocketCore.scala:153:7] wire io_imem_btb_update_valid_0; // @[RocketCore.scala:153:7] wire [7:0] io_imem_bht_update_bits_prediction_history_0; // @[RocketCore.scala:153:7] wire io_imem_bht_update_bits_prediction_value_0; // @[RocketCore.scala:153:7] wire io_imem_bht_update_bits_branch_0; // @[RocketCore.scala:153:7] wire io_imem_bht_update_bits_taken_0; // @[RocketCore.scala:153:7] wire io_imem_bht_update_bits_mispredict_0; // @[RocketCore.scala:153:7] wire io_imem_bht_update_valid_0; // @[RocketCore.scala:153:7] wire io_imem_might_request_0; // @[RocketCore.scala:153:7] wire io_imem_flush_icache_0; // @[RocketCore.scala:153:7] wire io_imem_progress_0; // @[RocketCore.scala:153:7] wire [39:0] io_dmem_req_bits_addr_0; // @[RocketCore.scala:153:7] wire [6:0] io_dmem_req_bits_tag_0; // @[RocketCore.scala:153:7] wire [4:0] io_dmem_req_bits_cmd_0; // @[RocketCore.scala:153:7] wire [1:0] io_dmem_req_bits_size_0; // @[RocketCore.scala:153:7] wire io_dmem_req_bits_signed_0; // @[RocketCore.scala:153:7] wire [1:0] io_dmem_req_bits_dprv_0; // @[RocketCore.scala:153:7] wire io_dmem_req_bits_dv_0; // @[RocketCore.scala:153:7] wire io_dmem_req_bits_no_resp_0; // @[RocketCore.scala:153:7] wire io_dmem_req_valid_0; // @[RocketCore.scala:153:7] wire [63:0] io_dmem_s1_data_data_0; // @[RocketCore.scala:153:7] wire io_dmem_s1_kill_0; // @[RocketCore.scala:153:7] wire io_dmem_keep_clock_enabled_0; // @[RocketCore.scala:153:7] wire [3:0] io_ptw_ptbr_mode_0; // @[RocketCore.scala:153:7] wire [43:0] io_ptw_ptbr_ppn_0; // @[RocketCore.scala:153:7] wire io_ptw_status_debug_0; // @[RocketCore.scala:153:7] wire io_ptw_status_cease_0; // @[RocketCore.scala:153:7] wire io_ptw_status_wfi_0; // @[RocketCore.scala:153:7] wire [31:0] io_ptw_status_isa_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_status_dprv_0; // @[RocketCore.scala:153:7] wire io_ptw_status_dv_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_status_prv_0; // @[RocketCore.scala:153:7] wire io_ptw_status_v_0; // @[RocketCore.scala:153:7] wire io_ptw_status_sd_0; // @[RocketCore.scala:153:7] wire io_ptw_status_mpv_0; // @[RocketCore.scala:153:7] wire io_ptw_status_gva_0; // @[RocketCore.scala:153:7] wire io_ptw_status_tsr_0; // @[RocketCore.scala:153:7] wire io_ptw_status_tw_0; // @[RocketCore.scala:153:7] wire io_ptw_status_tvm_0; // @[RocketCore.scala:153:7] wire io_ptw_status_mxr_0; // @[RocketCore.scala:153:7] wire io_ptw_status_sum_0; // @[RocketCore.scala:153:7] wire io_ptw_status_mprv_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_status_fs_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_status_mpp_0; // @[RocketCore.scala:153:7] wire io_ptw_status_spp_0; // @[RocketCore.scala:153:7] wire io_ptw_status_mpie_0; // @[RocketCore.scala:153:7] wire io_ptw_status_spie_0; // @[RocketCore.scala:153:7] wire io_ptw_status_mie_0; // @[RocketCore.scala:153:7] wire io_ptw_status_sie_0; // @[RocketCore.scala:153:7] wire io_ptw_hstatus_spvp_0; // @[RocketCore.scala:153:7] wire io_ptw_hstatus_spv_0; // @[RocketCore.scala:153:7] wire io_ptw_hstatus_gva_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_debug_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_cease_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_wfi_0; // @[RocketCore.scala:153:7] wire [31:0] io_ptw_gstatus_isa_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_gstatus_dprv_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_dv_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_gstatus_prv_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_v_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_sd_0; // @[RocketCore.scala:153:7] wire [22:0] io_ptw_gstatus_zero2_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_mpv_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_gva_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_mbe_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_sbe_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_gstatus_sxl_0; // @[RocketCore.scala:153:7] wire [7:0] io_ptw_gstatus_zero1_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_tsr_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_tw_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_tvm_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_mxr_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_sum_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_mprv_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_gstatus_fs_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_gstatus_mpp_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_gstatus_vs_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_spp_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_mpie_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_ube_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_spie_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_upie_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_mie_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_hie_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_sie_0; // @[RocketCore.scala:153:7] wire io_ptw_gstatus_uie_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_0_cfg_l_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_0_cfg_a_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_0_cfg_x_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_0_cfg_w_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_0_cfg_r_0; // @[RocketCore.scala:153:7] wire [29:0] io_ptw_pmp_0_addr_0; // @[RocketCore.scala:153:7] wire [31:0] io_ptw_pmp_0_mask_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_1_cfg_l_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_1_cfg_a_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_1_cfg_x_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_1_cfg_w_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_1_cfg_r_0; // @[RocketCore.scala:153:7] wire [29:0] io_ptw_pmp_1_addr_0; // @[RocketCore.scala:153:7] wire [31:0] io_ptw_pmp_1_mask_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_2_cfg_l_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_2_cfg_a_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_2_cfg_x_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_2_cfg_w_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_2_cfg_r_0; // @[RocketCore.scala:153:7] wire [29:0] io_ptw_pmp_2_addr_0; // @[RocketCore.scala:153:7] wire [31:0] io_ptw_pmp_2_mask_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_3_cfg_l_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_3_cfg_a_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_3_cfg_x_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_3_cfg_w_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_3_cfg_r_0; // @[RocketCore.scala:153:7] wire [29:0] io_ptw_pmp_3_addr_0; // @[RocketCore.scala:153:7] wire [31:0] io_ptw_pmp_3_mask_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_4_cfg_l_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_4_cfg_a_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_4_cfg_x_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_4_cfg_w_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_4_cfg_r_0; // @[RocketCore.scala:153:7] wire [29:0] io_ptw_pmp_4_addr_0; // @[RocketCore.scala:153:7] wire [31:0] io_ptw_pmp_4_mask_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_5_cfg_l_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_5_cfg_a_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_5_cfg_x_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_5_cfg_w_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_5_cfg_r_0; // @[RocketCore.scala:153:7] wire [29:0] io_ptw_pmp_5_addr_0; // @[RocketCore.scala:153:7] wire [31:0] io_ptw_pmp_5_mask_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_6_cfg_l_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_6_cfg_a_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_6_cfg_x_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_6_cfg_w_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_6_cfg_r_0; // @[RocketCore.scala:153:7] wire [29:0] io_ptw_pmp_6_addr_0; // @[RocketCore.scala:153:7] wire [31:0] io_ptw_pmp_6_mask_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_7_cfg_l_0; // @[RocketCore.scala:153:7] wire [1:0] io_ptw_pmp_7_cfg_a_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_7_cfg_x_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_7_cfg_w_0; // @[RocketCore.scala:153:7] wire io_ptw_pmp_7_cfg_r_0; // @[RocketCore.scala:153:7] wire [29:0] io_ptw_pmp_7_addr_0; // @[RocketCore.scala:153:7] wire [31:0] io_ptw_pmp_7_mask_0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_0_ren_0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_0_wen_0; // @[RocketCore.scala:153:7] wire [63:0] io_ptw_customCSRs_csrs_0_wdata_0; // @[RocketCore.scala:153:7] wire [63:0] io_ptw_customCSRs_csrs_0_value_0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_1_ren_0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_1_wen_0; // @[RocketCore.scala:153:7] wire [63:0] io_ptw_customCSRs_csrs_1_wdata_0; // @[RocketCore.scala:153:7] wire [63:0] io_ptw_customCSRs_csrs_1_value_0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_2_ren_0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_2_wen_0; // @[RocketCore.scala:153:7] wire [63:0] io_ptw_customCSRs_csrs_2_wdata_0; // @[RocketCore.scala:153:7] wire [63:0] io_ptw_customCSRs_csrs_2_value_0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_3_ren_0; // @[RocketCore.scala:153:7] wire io_ptw_customCSRs_csrs_3_wen_0; // @[RocketCore.scala:153:7] wire [63:0] io_ptw_customCSRs_csrs_3_wdata_0; // @[RocketCore.scala:153:7] wire [63:0] io_ptw_customCSRs_csrs_3_value_0; // @[RocketCore.scala:153:7] wire [63:0] io_fpu_time_0; // @[RocketCore.scala:153:7] wire [31:0] io_fpu_inst_0; // @[RocketCore.scala:153:7] wire [63:0] io_fpu_fromint_data_0; // @[RocketCore.scala:153:7] wire [2:0] io_fpu_fcsr_rm_0; // @[RocketCore.scala:153:7] wire io_fpu_ll_resp_val_0; // @[RocketCore.scala:153:7] wire [2:0] io_fpu_ll_resp_type_0; // @[RocketCore.scala:153:7] wire [4:0] io_fpu_ll_resp_tag_0; // @[RocketCore.scala:153:7] wire io_fpu_valid_0; // @[RocketCore.scala:153:7] wire io_fpu_killx_0; // @[RocketCore.scala:153:7] wire io_fpu_killm_0; // @[RocketCore.scala:153:7] wire io_fpu_keep_clock_enabled_0; // @[RocketCore.scala:153:7] wire [6:0] io_rocc_cmd_bits_inst_funct; // @[RocketCore.scala:153:7] wire [4:0] io_rocc_cmd_bits_inst_rs2; // @[RocketCore.scala:153:7] wire [4:0] io_rocc_cmd_bits_inst_rs1; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_inst_xd; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_inst_xs1; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_inst_xs2; // @[RocketCore.scala:153:7] wire [4:0] io_rocc_cmd_bits_inst_rd; // @[RocketCore.scala:153:7] wire [6:0] io_rocc_cmd_bits_inst_opcode; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_debug; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_cease; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_wfi; // @[RocketCore.scala:153:7] wire [31:0] io_rocc_cmd_bits_status_isa; // @[RocketCore.scala:153:7] wire [1:0] io_rocc_cmd_bits_status_dprv; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_dv; // @[RocketCore.scala:153:7] wire [1:0] io_rocc_cmd_bits_status_prv; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_v; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_sd; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_mpv; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_gva; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_tsr; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_tw; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_tvm; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_mxr; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_sum; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_mprv; // @[RocketCore.scala:153:7] wire [1:0] io_rocc_cmd_bits_status_fs; // @[RocketCore.scala:153:7] wire [1:0] io_rocc_cmd_bits_status_mpp; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_spp; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_mpie; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_spie; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_mie; // @[RocketCore.scala:153:7] wire io_rocc_cmd_bits_status_sie; // @[RocketCore.scala:153:7] wire [63:0] io_rocc_cmd_bits_rs1; // @[RocketCore.scala:153:7] wire [63:0] io_rocc_cmd_bits_rs2; // @[RocketCore.scala:153:7] wire io_rocc_cmd_valid; // @[RocketCore.scala:153:7] wire io_trace_insns_0_valid_0; // @[RocketCore.scala:153:7] wire [39:0] io_trace_insns_0_iaddr_0; // @[RocketCore.scala:153:7] wire [31:0] io_trace_insns_0_insn_0; // @[RocketCore.scala:153:7] wire [2:0] io_trace_insns_0_priv_0; // @[RocketCore.scala:153:7] wire io_trace_insns_0_exception_0; // @[RocketCore.scala:153:7] wire io_trace_insns_0_interrupt_0; // @[RocketCore.scala:153:7] wire [63:0] io_trace_insns_0_cause_0; // @[RocketCore.scala:153:7] wire [39:0] io_trace_insns_0_tval_0; // @[RocketCore.scala:153:7] wire [63:0] io_trace_time_0; // @[RocketCore.scala:153:7] wire io_bpwatch_0_valid_0_0; // @[RocketCore.scala:153:7] wire [2:0] io_bpwatch_0_action_0; // @[RocketCore.scala:153:7] wire io_wfi_0; // @[RocketCore.scala:153:7] reg id_reg_pause; // @[RocketCore.scala:161:25] reg imem_might_request_reg; // @[RocketCore.scala:162:35] assign io_imem_might_request_0 = imem_might_request_reg; // @[RocketCore.scala:153:7, :162:35] reg ex_ctrl_legal; // @[RocketCore.scala:243:20] reg ex_ctrl_fp; // @[RocketCore.scala:243:20] reg ex_ctrl_rocc; // @[RocketCore.scala:243:20] reg ex_ctrl_branch; // @[RocketCore.scala:243:20] reg ex_ctrl_jal; // @[RocketCore.scala:243:20] reg ex_ctrl_jalr; // @[RocketCore.scala:243:20] reg ex_ctrl_rxs2; // @[RocketCore.scala:243:20] reg ex_ctrl_rxs1; // @[RocketCore.scala:243:20] reg [2:0] ex_ctrl_sel_alu2; // @[RocketCore.scala:243:20] reg [1:0] ex_ctrl_sel_alu1; // @[RocketCore.scala:243:20] reg [2:0] ex_ctrl_sel_imm; // @[RocketCore.scala:243:20] reg ex_ctrl_alu_dw; // @[RocketCore.scala:243:20] reg [4:0] ex_ctrl_alu_fn; // @[RocketCore.scala:243:20] reg ex_ctrl_mem; // @[RocketCore.scala:243:20] wire _ex_sfence_T = ex_ctrl_mem; // @[RocketCore.scala:243:20, :605:29] reg [4:0] ex_ctrl_mem_cmd; // @[RocketCore.scala:243:20] assign io_dmem_req_bits_cmd_0 = ex_ctrl_mem_cmd; // @[RocketCore.scala:153:7, :243:20] reg ex_ctrl_rfs1; // @[RocketCore.scala:243:20] reg ex_ctrl_rfs2; // @[RocketCore.scala:243:20] reg ex_ctrl_rfs3; // @[RocketCore.scala:243:20] reg ex_ctrl_wfd; // @[RocketCore.scala:243:20] reg ex_ctrl_mul; // @[RocketCore.scala:243:20] reg ex_ctrl_div; // @[RocketCore.scala:243:20] reg ex_ctrl_wxd; // @[RocketCore.scala:243:20] reg [2:0] ex_ctrl_csr; // @[RocketCore.scala:243:20] reg ex_ctrl_fence_i; // @[RocketCore.scala:243:20] reg ex_ctrl_fence; // @[RocketCore.scala:243:20] reg ex_ctrl_amo; // @[RocketCore.scala:243:20] reg ex_ctrl_dp; // @[RocketCore.scala:243:20] reg mem_ctrl_legal; // @[RocketCore.scala:244:21] reg mem_ctrl_fp; // @[RocketCore.scala:244:21] reg mem_ctrl_rocc; // @[RocketCore.scala:244:21] reg mem_ctrl_branch; // @[RocketCore.scala:244:21] assign io_imem_bht_update_bits_branch_0 = mem_ctrl_branch; // @[RocketCore.scala:153:7, :244:21] reg mem_ctrl_jal; // @[RocketCore.scala:244:21] reg mem_ctrl_jalr; // @[RocketCore.scala:244:21] reg mem_ctrl_rxs2; // @[RocketCore.scala:244:21] reg mem_ctrl_rxs1; // @[RocketCore.scala:244:21] reg [2:0] mem_ctrl_sel_alu2; // @[RocketCore.scala:244:21] reg [1:0] mem_ctrl_sel_alu1; // @[RocketCore.scala:244:21] reg [2:0] mem_ctrl_sel_imm; // @[RocketCore.scala:244:21] reg mem_ctrl_alu_dw; // @[RocketCore.scala:244:21] reg [4:0] mem_ctrl_alu_fn; // @[RocketCore.scala:244:21] reg mem_ctrl_mem; // @[RocketCore.scala:244:21] reg [4:0] mem_ctrl_mem_cmd; // @[RocketCore.scala:244:21] reg mem_ctrl_rfs1; // @[RocketCore.scala:244:21] reg mem_ctrl_rfs2; // @[RocketCore.scala:244:21] reg mem_ctrl_rfs3; // @[RocketCore.scala:244:21] reg mem_ctrl_wfd; // @[RocketCore.scala:244:21] reg mem_ctrl_mul; // @[RocketCore.scala:244:21] reg mem_ctrl_div; // @[RocketCore.scala:244:21] reg mem_ctrl_wxd; // @[RocketCore.scala:244:21] reg [2:0] mem_ctrl_csr; // @[RocketCore.scala:244:21] reg mem_ctrl_fence_i; // @[RocketCore.scala:244:21] reg mem_ctrl_fence; // @[RocketCore.scala:244:21] reg mem_ctrl_amo; // @[RocketCore.scala:244:21] reg mem_ctrl_dp; // @[RocketCore.scala:244:21] reg mem_ctrl_vec; // @[RocketCore.scala:244:21] reg wb_ctrl_legal; // @[RocketCore.scala:245:20] reg wb_ctrl_fp; // @[RocketCore.scala:245:20] reg wb_ctrl_rocc; // @[RocketCore.scala:245:20] reg wb_ctrl_branch; // @[RocketCore.scala:245:20] reg wb_ctrl_jal; // @[RocketCore.scala:245:20] reg wb_ctrl_jalr; // @[RocketCore.scala:245:20] reg wb_ctrl_rxs2; // @[RocketCore.scala:245:20] reg wb_ctrl_rxs1; // @[RocketCore.scala:245:20] reg [2:0] wb_ctrl_sel_alu2; // @[RocketCore.scala:245:20] reg [1:0] wb_ctrl_sel_alu1; // @[RocketCore.scala:245:20] reg [2:0] wb_ctrl_sel_imm; // @[RocketCore.scala:245:20] reg wb_ctrl_alu_dw; // @[RocketCore.scala:245:20] reg [4:0] wb_ctrl_alu_fn; // @[RocketCore.scala:245:20] reg wb_ctrl_mem; // @[RocketCore.scala:245:20] reg [4:0] wb_ctrl_mem_cmd; // @[RocketCore.scala:245:20] reg wb_ctrl_rfs1; // @[RocketCore.scala:245:20] reg wb_ctrl_rfs2; // @[RocketCore.scala:245:20] reg wb_ctrl_rfs3; // @[RocketCore.scala:245:20] reg wb_ctrl_wfd; // @[RocketCore.scala:245:20] reg wb_ctrl_mul; // @[RocketCore.scala:245:20] reg wb_ctrl_div; // @[RocketCore.scala:245:20] reg wb_ctrl_wxd; // @[RocketCore.scala:245:20] reg [2:0] wb_ctrl_csr; // @[RocketCore.scala:245:20] reg wb_ctrl_fence_i; // @[RocketCore.scala:245:20] reg wb_ctrl_fence; // @[RocketCore.scala:245:20] reg wb_ctrl_amo; // @[RocketCore.scala:245:20] reg wb_ctrl_dp; // @[RocketCore.scala:245:20] reg wb_ctrl_vec; // @[RocketCore.scala:245:20] reg ex_reg_xcpt_interrupt; // @[RocketCore.scala:247:35] reg ex_reg_valid; // @[RocketCore.scala:248:35] reg ex_reg_rvc; // @[RocketCore.scala:249:35] reg [1:0] ex_reg_btb_resp_cfiType; // @[RocketCore.scala:250:35] reg ex_reg_btb_resp_taken; // @[RocketCore.scala:250:35] reg [1:0] ex_reg_btb_resp_mask; // @[RocketCore.scala:250:35] reg ex_reg_btb_resp_bridx; // @[RocketCore.scala:250:35] reg [38:0] ex_reg_btb_resp_target; // @[RocketCore.scala:250:35] reg [4:0] ex_reg_btb_resp_entry; // @[RocketCore.scala:250:35] reg [7:0] ex_reg_btb_resp_bht_history; // @[RocketCore.scala:250:35] reg ex_reg_btb_resp_bht_value; // @[RocketCore.scala:250:35] reg ex_reg_xcpt; // @[RocketCore.scala:251:35] reg ex_reg_flush_pipe; // @[RocketCore.scala:252:35] reg ex_reg_load_use; // @[RocketCore.scala:253:35] reg [63:0] ex_reg_cause; // @[RocketCore.scala:254:35] wire [63:0] ex_cause = ex_reg_cause; // @[RocketCore.scala:254:35, :1278:50] reg ex_reg_replay; // @[RocketCore.scala:255:26] reg [39:0] ex_reg_pc; // @[RocketCore.scala:256:22] wire [39:0] _ex_op1_T_1 = ex_reg_pc; // @[RocketCore.scala:256:22, :474:24] reg [1:0] ex_reg_mem_size; // @[RocketCore.scala:257:28] assign io_dmem_req_bits_size_0 = ex_reg_mem_size; // @[RocketCore.scala:153:7, :257:28] reg [31:0] ex_reg_inst; // @[RocketCore.scala:259:24] reg [31:0] ex_reg_raw_inst; // @[RocketCore.scala:260:28] reg ex_reg_wphit_0; // @[RocketCore.scala:261:36] reg mem_reg_xcpt_interrupt; // @[RocketCore.scala:264:36] reg mem_reg_valid; // @[RocketCore.scala:265:36] reg mem_reg_rvc; // @[RocketCore.scala:266:36] reg [1:0] mem_reg_btb_resp_cfiType; // @[RocketCore.scala:267:36] assign io_imem_btb_update_bits_prediction_cfiType_0 = mem_reg_btb_resp_cfiType; // @[RocketCore.scala:153:7, :267:36] reg mem_reg_btb_resp_taken; // @[RocketCore.scala:267:36] assign io_imem_btb_update_bits_prediction_taken_0 = mem_reg_btb_resp_taken; // @[RocketCore.scala:153:7, :267:36] wire _mem_direction_misprediction_T = mem_reg_btb_resp_taken; // @[RocketCore.scala:267:36, :627:85] reg [1:0] mem_reg_btb_resp_mask; // @[RocketCore.scala:267:36] assign io_imem_btb_update_bits_prediction_mask_0 = mem_reg_btb_resp_mask; // @[RocketCore.scala:153:7, :267:36] reg mem_reg_btb_resp_bridx; // @[RocketCore.scala:267:36] assign io_imem_btb_update_bits_prediction_bridx_0 = mem_reg_btb_resp_bridx; // @[RocketCore.scala:153:7, :267:36] reg [38:0] mem_reg_btb_resp_target; // @[RocketCore.scala:267:36] assign io_imem_btb_update_bits_prediction_target_0 = mem_reg_btb_resp_target; // @[RocketCore.scala:153:7, :267:36] reg [4:0] mem_reg_btb_resp_entry; // @[RocketCore.scala:267:36] assign io_imem_btb_update_bits_prediction_entry_0 = mem_reg_btb_resp_entry; // @[RocketCore.scala:153:7, :267:36] reg [7:0] mem_reg_btb_resp_bht_history; // @[RocketCore.scala:267:36] assign io_imem_btb_update_bits_prediction_bht_history_0 = mem_reg_btb_resp_bht_history; // @[RocketCore.scala:153:7, :267:36] assign io_imem_bht_update_bits_prediction_history_0 = mem_reg_btb_resp_bht_history; // @[RocketCore.scala:153:7, :267:36] reg mem_reg_btb_resp_bht_value; // @[RocketCore.scala:267:36] assign io_imem_btb_update_bits_prediction_bht_value_0 = mem_reg_btb_resp_bht_value; // @[RocketCore.scala:153:7, :267:36] assign io_imem_bht_update_bits_prediction_value_0 = mem_reg_btb_resp_bht_value; // @[RocketCore.scala:153:7, :267:36] reg mem_reg_xcpt; // @[RocketCore.scala:268:36] reg mem_reg_replay; // @[RocketCore.scala:269:36] reg mem_reg_flush_pipe; // @[RocketCore.scala:270:36] reg [63:0] mem_reg_cause; // @[RocketCore.scala:271:36] reg mem_reg_slow_bypass; // @[RocketCore.scala:272:36] wire mem_mem_cmd_bh = mem_reg_slow_bypass; // @[RocketCore.scala:272:36, :995:41] reg mem_reg_load; // @[RocketCore.scala:273:36] reg mem_reg_store; // @[RocketCore.scala:274:36] reg mem_reg_set_vconfig; // @[RocketCore.scala:275:36] reg mem_reg_sfence; // @[RocketCore.scala:276:27] reg [39:0] mem_reg_pc; // @[RocketCore.scala:277:23] wire [39:0] _mem_br_target_T = mem_reg_pc; // @[RocketCore.scala:277:23, :615:34] reg [31:0] mem_reg_inst; // @[RocketCore.scala:278:25] reg [1:0] mem_reg_mem_size; // @[RocketCore.scala:279:29] reg mem_reg_hls_or_dv; // @[RocketCore.scala:280:30] reg [31:0] mem_reg_raw_inst; // @[RocketCore.scala:281:29] reg [63:0] mem_reg_wdata; // @[RocketCore.scala:282:26] wire [63:0] _mem_int_wdata_T_3 = mem_reg_wdata; // @[RocketCore.scala:282:26, :624:111] reg [63:0] mem_reg_rs2; // @[RocketCore.scala:283:24] reg mem_br_taken; // @[RocketCore.scala:284:25] assign io_imem_bht_update_bits_taken_0 = mem_br_taken; // @[RocketCore.scala:153:7, :284:25] wire _take_pc_mem_T_3; // @[RocketCore.scala:629:49] wire take_pc_mem; // @[RocketCore.scala:285:25] reg mem_reg_wphit_0; // @[RocketCore.scala:286:35] reg wb_reg_valid; // @[RocketCore.scala:288:35] reg wb_reg_xcpt; // @[RocketCore.scala:289:35] reg wb_reg_replay; // @[RocketCore.scala:290:35] reg wb_reg_flush_pipe; // @[RocketCore.scala:291:35] reg [63:0] wb_reg_cause; // @[RocketCore.scala:292:35] reg wb_reg_set_vconfig; // @[RocketCore.scala:293:35] reg wb_reg_sfence; // @[RocketCore.scala:294:26] reg [39:0] wb_reg_pc; // @[RocketCore.scala:295:22] reg [1:0] wb_reg_mem_size; // @[RocketCore.scala:296:28] reg wb_reg_hls_or_dv; // @[RocketCore.scala:297:29] reg wb_reg_hfence_v; // @[RocketCore.scala:298:28] assign io_imem_sfence_bits_hv_0 = wb_reg_hfence_v; // @[RocketCore.scala:153:7, :298:28] reg wb_reg_hfence_g; // @[RocketCore.scala:299:28] assign io_imem_sfence_bits_hg_0 = wb_reg_hfence_g; // @[RocketCore.scala:153:7, :299:28] reg [31:0] wb_reg_inst; // @[RocketCore.scala:300:24] wire [31:0] _io_rocc_cmd_bits_inst_WIRE_1 = wb_reg_inst; // @[RocketCore.scala:300:24, :1159:48] reg [31:0] wb_reg_raw_inst; // @[RocketCore.scala:301:28] reg [63:0] wb_reg_wdata; // @[RocketCore.scala:302:25] assign io_rocc_cmd_bits_rs1 = wb_reg_wdata; // @[RocketCore.scala:153:7, :302:25] wire [63:0] _rf_wdata_T_3 = wb_reg_wdata; // @[RocketCore.scala:302:25, :822:21] reg [63:0] wb_reg_rs2; // @[RocketCore.scala:303:23] assign io_rocc_cmd_bits_rs2 = wb_reg_rs2; // @[RocketCore.scala:153:7, :303:23] wire _take_pc_wb_T_2; // @[RocketCore.scala:762:53] wire take_pc_wb; // @[RocketCore.scala:304:24] reg wb_reg_wphit_0; // @[RocketCore.scala:305:35] assign io_bpwatch_0_valid_0_0 = wb_reg_wphit_0; // @[RocketCore.scala:153:7, :305:35] assign take_pc_mem_wb = take_pc_wb | take_pc_mem; // @[RocketCore.scala:285:25, :304:24, :307:35] assign io_imem_req_valid_0 = take_pc_mem_wb; // @[RocketCore.scala:153:7, :307:35] wire id_ctrl_decoder_0; // @[Decode.scala:50:77] wire id_ctrl_decoder_1; // @[Decode.scala:50:77] wire id_ctrl_decoder_2; // @[Decode.scala:50:77] wire id_ctrl_decoder_3; // @[Decode.scala:50:77] wire _id_illegal_insn_T_32 = id_ctrl_rocc; // @[RocketCore.scala:321:21, :391:18] wire id_ctrl_decoder_4; // @[Decode.scala:50:77] wire id_ctrl_decoder_5; // @[Decode.scala:50:77] wire id_ctrl_decoder_6; // @[Decode.scala:50:77] wire id_ctrl_decoder_7; // @[Decode.scala:50:77] wire [2:0] id_ctrl_decoder_8; // @[Decode.scala:50:77] wire [1:0] id_ctrl_decoder_9; // @[Decode.scala:50:77] wire [2:0] id_ctrl_decoder_10; // @[Decode.scala:50:77] wire id_ctrl_decoder_11; // @[Decode.scala:50:77] wire [4:0] id_ctrl_decoder_12; // @[Decode.scala:50:77] wire id_ctrl_decoder_13; // @[Decode.scala:50:77] wire [4:0] id_ctrl_decoder_14; // @[Decode.scala:50:77] wire id_ctrl_decoder_15; // @[Decode.scala:50:77] wire id_ctrl_decoder_16; // @[Decode.scala:50:77] wire id_ctrl_decoder_17; // @[Decode.scala:50:77] wire id_ctrl_decoder_18; // @[Decode.scala:50:77] wire id_ctrl_decoder_19; // @[Decode.scala:50:77] wire id_ctrl_decoder_20; // @[Decode.scala:50:77] wire id_ctrl_decoder_21; // @[Decode.scala:50:77] wire [2:0] id_ctrl_decoder_22; // @[Decode.scala:50:77] wire id_ctrl_decoder_23; // @[Decode.scala:50:77] wire id_ctrl_decoder_24; // @[Decode.scala:50:77] wire id_ctrl_decoder_25; // @[Decode.scala:50:77] wire _id_do_fence_T = id_ctrl_fence; // @[RocketCore.scala:321:21, :410:64] wire id_ctrl_decoder_26; // @[Decode.scala:50:77] wire id_ctrl_legal; // @[RocketCore.scala:321:21] wire id_ctrl_fp; // @[RocketCore.scala:321:21] wire id_ctrl_branch; // @[RocketCore.scala:321:21] wire id_ctrl_jal; // @[RocketCore.scala:321:21] wire id_ctrl_jalr; // @[RocketCore.scala:321:21] wire id_ctrl_rxs2; // @[RocketCore.scala:321:21] wire id_ctrl_rxs1; // @[RocketCore.scala:321:21] wire [2:0] id_ctrl_sel_alu2; // @[RocketCore.scala:321:21] wire [1:0] id_ctrl_sel_alu1; // @[RocketCore.scala:321:21] wire [2:0] id_ctrl_sel_imm; // @[RocketCore.scala:321:21] wire id_ctrl_alu_dw; // @[RocketCore.scala:321:21] wire [4:0] id_ctrl_alu_fn; // @[RocketCore.scala:321:21] wire id_ctrl_mem; // @[RocketCore.scala:321:21] wire [4:0] id_ctrl_mem_cmd; // @[RocketCore.scala:321:21] wire id_ctrl_rfs1; // @[RocketCore.scala:321:21] wire id_ctrl_rfs2; // @[RocketCore.scala:321:21] wire id_ctrl_rfs3; // @[RocketCore.scala:321:21] wire id_ctrl_wfd; // @[RocketCore.scala:321:21] wire id_ctrl_mul; // @[RocketCore.scala:321:21] wire id_ctrl_div; // @[RocketCore.scala:321:21] wire id_ctrl_wxd; // @[RocketCore.scala:321:21] wire [2:0] id_ctrl_csr; // @[RocketCore.scala:321:21] wire id_ctrl_fence_i; // @[RocketCore.scala:321:21] wire id_ctrl_amo; // @[RocketCore.scala:321:21] wire id_ctrl_dp; // @[RocketCore.scala:321:21] wire [31:0] id_ctrl_decoder_decoded_plaInput; // @[pla.scala:77:22] wire [31:0] id_ctrl_decoder_decoded_invInputs = ~id_ctrl_decoder_decoded_plaInput; // @[pla.scala:77:22, :78:21] wire [41:0] id_ctrl_decoder_decoded_invMatrixOutputs; // @[pla.scala:120:37] wire [41:0] id_ctrl_decoder_decoded; // @[pla.scala:81:23] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_1 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_2 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_3 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_4 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_5 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_6 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_7 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_8 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_9 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_10 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_11 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_12 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_13 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_14 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_15 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_16 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_17 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_18 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_19 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_20 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_21 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_22 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_23 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_24 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_25 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_26 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_27 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_28 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_29 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_30 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_31 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_32 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_33 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_34 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_35 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_36 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_37 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_38 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_39 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_40 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_41 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_42 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_43 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_44 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_45 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_46 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_47 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_48 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_49 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_50 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_51 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_52 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_53 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_54 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_55 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_56 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_57 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_58 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_59 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_60 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_61 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_62 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_63 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_64 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_65 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_66 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_67 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_68 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_69 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_70 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_71 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_72 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_73 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_74 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_75 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_76 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_77 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_78 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_79 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_80 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_81 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_82 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_83 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_84 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_85 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_86 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_87 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_88 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_89 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_90 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_91 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_92 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_93 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_94 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_95 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_96 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_97 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_98 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_99 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_100 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_101 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_102 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_103 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_104 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_105 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_106 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_107 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_108 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_109 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_110 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_111 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_112 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_113 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_114 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_115 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_116 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_117 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_118 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_119 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_120 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_121 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_122 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_123 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_124 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_125 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_126 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_127 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_128 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_129 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_130 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_131 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_132 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_133 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_134 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_135 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_136 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_137 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_138 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_139 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_140 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_141 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_142 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_143 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_144 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_145 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_146 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_147 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_148 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_149 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_150 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_151 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_152 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_153 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_154 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_155 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_156 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_157 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_158 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_159 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_160 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_161 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_162 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_163 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_164 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_165 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_166 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_167 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_168 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_169 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_171 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_172 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_173 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_174 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_175 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_176 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_177 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_178 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_179 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_180 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_181 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_182 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_183 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_184 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_185 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_186 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_187 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_188 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_189 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_190 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_191 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_192 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_193 = id_ctrl_decoder_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_1 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_2 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_3 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_4 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_5 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_6 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_7 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_8 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_9 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_10 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_11 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_12 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_13 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_14 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_15 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_16 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_17 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_18 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_19 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_20 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_21 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_22 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_23 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_24 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_25 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_26 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_28 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_29 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_30 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_31 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_32 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_33 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_34 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_35 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_36 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_37 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_38 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_39 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_40 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_41 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_42 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_43 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_44 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_45 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_46 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_47 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_48 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_49 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_50 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_51 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_52 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_53 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_54 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_55 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_56 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_57 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_58 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_59 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_60 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_61 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_62 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_63 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_64 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_65 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_66 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_67 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_68 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_69 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_70 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_71 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_72 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_73 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_74 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_75 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_76 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_77 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_78 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_79 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_80 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_81 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_82 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_83 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_84 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_85 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_86 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_87 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_88 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_89 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_90 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_91 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_92 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_93 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_94 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_95 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_96 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_98 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_100 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_101 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_102 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_103 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_104 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_105 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_106 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_107 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_108 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_109 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_110 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_111 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_112 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_113 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_114 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_115 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_116 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_117 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_118 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_119 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_120 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_121 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_122 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_123 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_124 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_125 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_126 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_127 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_128 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_129 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_130 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_131 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_132 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_133 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_134 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_135 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_136 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_137 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_138 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_139 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_140 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_141 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_142 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_143 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_144 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_145 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_146 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_147 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_148 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_149 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_150 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_151 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_152 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_153 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_154 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_155 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_156 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_157 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_158 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_159 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_160 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_161 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_162 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_163 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_164 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_165 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_166 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_167 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_168 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_169 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_171 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_172 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_173 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_174 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_175 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_176 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_177 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_178 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_179 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_180 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_181 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_182 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_183 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_184 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_185 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_186 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_187 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_188 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_189 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_190 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_191 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_192 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_193 = id_ctrl_decoder_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_1 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_2 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_3 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_4 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_6 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_9 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_10 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_11 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_12 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_13 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_14 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_15 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_16 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_20 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_21 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_22 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_23 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_28 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_34 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_35 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_36 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_37 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_40 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_41 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_42 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_43 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_48 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_49 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_53 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_54 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_55 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_56 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_58 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_59 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_60 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_61 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_62 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_63 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_64 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_65 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_66 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_67 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_68 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_69 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_70 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_71 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_72 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_73 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_74 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_75 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_76 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_77 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_78 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_79 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_81 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_82 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_83 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_84 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_85 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_86 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_87 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_88 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_89 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_91 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_92 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_93 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_94 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_98 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_100 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_101 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_102 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_103 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_104 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_106 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_107 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_108 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_109 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_110 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_111 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_112 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_113 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_115 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_116 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_117 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_118 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_119 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_120 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_121 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_122 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_123 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_124 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_125 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_126 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_128 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_129 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_130 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_131 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_132 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_133 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_134 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_135 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_136 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_137 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_138 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_139 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_140 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_141 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_142 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_143 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_144 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_145 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_146 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_147 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_148 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_149 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_150 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_151 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_152 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_153 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_154 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_155 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_156 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_157 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_158 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_159 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_160 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_161 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_162 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_163 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_164 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_165 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_166 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_167 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_168 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_169 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_171 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_173 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_174 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_175 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_176 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_177 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_178 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_179 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_180 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_181 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_182 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_183 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_184 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_185 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_186 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_187 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_188 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_189 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_190 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_191 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_192 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_193 = id_ctrl_decoder_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_1 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_2 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_3 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_4 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_7 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_8 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_9 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_10 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_11 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_13 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_20 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_21 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_22 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_23 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_24 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_25 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_28 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_29 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_30 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_31 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_32 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_34 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_35 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_38 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_39 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_40 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_41 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_42 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_43 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_44 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_45 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_46 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_47 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_48 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_49 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_50 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_51 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_53 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_54 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_55 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_56 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_57 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_58 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_59 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_60 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_61 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_62 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_63 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_64 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_68 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_69 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_70 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_71 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_72 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_73 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_74 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_75 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_76 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_77 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_78 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_81 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_82 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_83 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_84 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_92 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_93 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_94 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_98 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_100 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_101 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_102 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_103 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_104 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_106 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_107 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_108 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_109 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_110 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_111 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_112 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_113 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_117 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_118 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_119 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_120 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_121 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_122 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_123 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_124 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_125 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_128 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_129 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_130 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_131 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_132 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_137 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_138 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_139 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_140 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_141 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_142 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_143 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_144 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_145 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_146 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_147 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_148 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_149 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_150 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_151 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_152 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_153 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_154 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_155 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_156 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_157 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_160 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_162 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_165 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_167 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_169 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_171 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_173 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_174 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_175 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_176 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_177 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_178 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_179 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_180 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_181 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_182 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_183 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_184 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_185 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_186 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_187 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_188 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_189 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_190 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_191 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_192 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_193 = id_ctrl_decoder_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_1 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_2 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_4 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_5 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_6 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_8 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_17 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_18 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_19 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_19 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_20 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_30 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_31 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_32 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_34 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_36 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_45 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_46 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_47 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_48 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_57 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_59 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_71 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_76 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_80 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_80 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_88 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_105 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_106 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_107 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_108 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_109 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_110 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_111 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_112 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_116 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_117 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_118 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_119 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_120 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_123 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_129 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_130 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_131 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_133 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_139 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_140 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_141 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_142 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_143 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_144 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_145 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_146 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_147 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_148 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_149 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_153 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_154 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_155 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_156 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_158 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_159 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_159 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_161 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_161 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_163 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_166 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_168 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_172 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_173 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_174 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_175 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_176 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_177 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_178 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_179 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_180 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_181 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_182 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_183 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_184 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_185 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_186 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_187 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_188 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_189 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_190 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_191 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_192 = id_ctrl_decoder_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_1 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_2 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_3 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_4 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_5 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_6 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_7 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_7 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_8 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_10 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_12 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_12 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_14 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_15 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_15 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_29 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_29 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_30 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_28 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_29 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_33 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_31 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_35 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_33 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_37 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_35 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_44 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_44 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_45 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_43 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_44 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_45 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_49 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_47 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_48 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_49 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_50 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_56 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_54 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_55 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_56 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_57 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_58 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_63 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_64 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_65 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_66 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_64 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_68 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_69 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_73 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_74 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_78 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_78 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_79 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_80 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_84 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_85 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_86 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_84 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_85 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_86 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_87 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_88 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_89 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_90 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_91 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_92 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_101 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_110 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_114 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_115 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_116 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_117 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_118 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_119 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_120 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_121 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_125 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_123 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_124 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_125 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_126 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_127 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_128 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_132 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_130 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_134 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_135 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_133 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_134 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_135 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_144 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_145 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_146 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_147 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_148 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_149 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_153 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_157 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_158 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_156 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_160 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_158 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_162 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_163 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_161 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_165 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_163 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_167 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_165 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_168 = id_ctrl_decoder_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_6 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_7 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_11 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_13 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_12 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_20 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_18 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_9 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_7 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_50 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_75 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_77 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_80 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_47 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_41 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_49 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_43 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_50 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_47 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_95 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_97 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_101 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_102 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_111 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_112 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_106 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_114 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_122 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_118 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_128 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_140 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_112 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_162 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_164 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_175 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_176 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_179 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_181 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_182 = id_ctrl_decoder_decoded_invInputs[12]; // @[pla.scala:78:21, :91:29] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo}; // @[pla.scala:98:53] wire [6:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T = {id_ctrl_decoder_decoded_andMatrixOutputs_hi, id_ctrl_decoder_decoded_andMatrixOutputs_lo}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_99_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_1 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_2 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_3 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_4 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_5 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_9 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_10 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_17 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_18 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_19 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_22 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_23 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_24 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_25 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_26 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_29 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_30 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_31 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_32 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_33 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_38 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_39 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_41 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_44 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_45 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_46 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_47 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_50 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_51 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_52 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_57 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_63 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_70 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_75 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_80 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_90 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_95 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_96 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_105 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_114 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_127 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_172 = id_ctrl_decoder_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_1}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_1}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_1}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_1}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_lo_1}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_102_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_1; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_1 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_3 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_4 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_9 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_2 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_8 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_10 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_14 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_7 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_15 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_16 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_17 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_12 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_8 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_6 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_16 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_25 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_18 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_27 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_20 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_31 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_22 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_33 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_54 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_55 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_56 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_57 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_69 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_58 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_59 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_61 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_82 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_44 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_39 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_46 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_41 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_47 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_45 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_96 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_98 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_99 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_100 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_107 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_108 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_90 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_91 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_92 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_93 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_94 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_95 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_115 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_100 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_101 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_102 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_122 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_104 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_124 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_125 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_107 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_118 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_119 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_120 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_121 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_122 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_123 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_130 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_150 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_132 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_152 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_153 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_135 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_155 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_137 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_157 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_139 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_120 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_110 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_163 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_165 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_156 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_157 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_177 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_178 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_160 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_180 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_162 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_163 = id_ctrl_decoder_decoded_invInputs[13]; // @[pla.scala:78:21, :91:29] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_1}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_2}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_1}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_2}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_2}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_2}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_lo_2}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_9_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_2; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_3 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_2 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_1 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_5 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_6 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_3 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_5 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_11 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_5 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_10 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_11 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_8 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_6 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_6 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_25 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_21 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_22 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_15 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_11 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_29 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_21 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_23 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_40 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_35 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_36 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_24 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_25 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_40 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_26 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_27 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_29 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_30 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_31 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_38 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_39 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_60 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_66 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_41 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_33 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_43 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_35 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_49 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_46 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_39 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_75 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_76 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_77 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_78 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_79 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_80 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_81 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_82 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_83 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_84 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_87 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_88 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_89 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_70 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_71 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_72 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_73 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_96 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_97 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_98 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_100 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_101 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_103 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_110 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_131 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_112 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_133 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_136 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_117 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_97 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_142 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_143 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_144 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_145 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_146 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_136 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_137 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_158 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_159 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_140 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_161 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_142 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_143 = id_ctrl_decoder_decoded_invInputs[14]; // @[pla.scala:78:21, :91:29] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_3}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_3}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_3}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_3}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_3}; // @[pla.scala:98:53] wire [6:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_lo_3}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_29_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_3; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_2}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_4}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_2}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_4}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_4}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_4}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_lo_4}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_139_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_4; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_5 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_7 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_8 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_25 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_26 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_31 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_32 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_33 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_39 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_46 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_47 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_51 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_52 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_57 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_90 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_95 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_96 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_105 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_114 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_127 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_172 = id_ctrl_decoder_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_5 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_16 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_26 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_33 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_36 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_37 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_52 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_65 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_66 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_88 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_89 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_90 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_91 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_95 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_96 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_105 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_114 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_127 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_133 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_134 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_135 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_168 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_172 = id_ctrl_decoder_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_5}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_3}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_5}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_5}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_5}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_5}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_lo_5}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_117_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_5; // @[pla.scala:98:{53,70}] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_4 = id_ctrl_decoder_decoded_andMatrixOutputs_117_2; // @[pla.scala:98:70, :114:36] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_6 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_7 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_8 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_11 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_12 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_13 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_14 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_15 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_16 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_20 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_21 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_27 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_28 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_34 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_35 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_36 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_37 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_43 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_48 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_49 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_53 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_54 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_55 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_56 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_58 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_59 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_60 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_61 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_62 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_64 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_65 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_66 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_67 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_68 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_71 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_72 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_73 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_76 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_77 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_78 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_79 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_81 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_82 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_83 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_84 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_85 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_86 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_87 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_88 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_89 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_91 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_92 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_93 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_94 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_97 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_98 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_99 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_100 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_101 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_102 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_103 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_104 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_106 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_107 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_108 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_109 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_110 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_111 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_112 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_113 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_115 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_116 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_117 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_118 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_119 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_120 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_121 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_122 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_123 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_124 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_125 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_126 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_128 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_129 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_130 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_131 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_132 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_133 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_134 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_135 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_136 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_137 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_138 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_139 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_140 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_141 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_142 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_143 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_144 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_145 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_146 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_147 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_148 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_149 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_150 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_151 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_152 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_153 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_154 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_155 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_156 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_157 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_158 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_159 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_160 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_161 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_162 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_163 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_164 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_165 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_166 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_167 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_168 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_169 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_170 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_171 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_173 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_174 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_175 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_176 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_177 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_178 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_179 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_180 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_181 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_182 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_183 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_184 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_185 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_186 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_187 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_188 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_189 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_190 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_191 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_192 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_193 = id_ctrl_decoder_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_1}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_6}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_4}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_6}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_6}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_6}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_6}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_lo_6}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_96_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_6; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_7}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_7}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_7}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_7}; // @[pla.scala:90:45, :98:53] wire [5:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_lo_7}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_35_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_7; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_8}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_7}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_8}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_8}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_7}; // @[pla.scala:98:53] wire [6:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_lo_8}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_182_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_8; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_9 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_10 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_11 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_12 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_13 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_14 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_15 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_16 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_21 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_22 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_24 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_24 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_25 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_27 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_27 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_38 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_38 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_40 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_40 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_42 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_42 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_50 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_50 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_51 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_52 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_53 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_54 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_55 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_58 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_60 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_61 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_62 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_67 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_67 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_69 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_69 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_70 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_72 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_74 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_74 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_75 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_77 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_79 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_81 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_82 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_83 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_85 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_86 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_87 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_87 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_89 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_90 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_91 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_92 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_93 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_94 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_95 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_97 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_97 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_99 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_99 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_100 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_101 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_102 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_103 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_104 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_113 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_115 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_116 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_121 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_122 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_124 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_126 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_126 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_127 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_128 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_136 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_136 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_137 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_138 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_150 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_151 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_152 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_164 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_164 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_166 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_170 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_170 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_171 = id_ctrl_decoder_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_5}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_9}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_5}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_9}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_9}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_8}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_lo_9}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_128_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_9; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_6}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_10}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_6}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_10}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_10}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_9}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_lo_10}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_67_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_10; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_1 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_6 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_5 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_17 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_13 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_1 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_19 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_15 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_28 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_18 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_35 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_23 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_24 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_25 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_35 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_8 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_2 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_3 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_4 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_5 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_56 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_57 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_60 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_62 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_85 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_86 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_69 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_70 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_24 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_75 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_76 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_98 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_79 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_83 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_81 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_85 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_86 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_84 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_88 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_86 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_81 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_82 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_90 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_91 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_98 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_102 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_100 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_95 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_104 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_105 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_106 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_99 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_100 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_88 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_102 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_134 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_115 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_116 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_118 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_123 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_124 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_117 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_126 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_128 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_131 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_70 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_113 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_76 = id_ctrl_decoder_decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_1 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_9 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_3 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_4 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_5 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_18 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_14 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_1 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_17 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_13 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_14 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_13 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_17 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_16 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_19 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_20 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_36 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_22 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_21 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_22 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_23 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_26 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_27 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_49 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_30 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_76 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_51 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_32 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_33 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_34 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_55 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_36 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_37 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_32 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_36 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_3 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_42 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_40 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_41 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_2 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_3 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_4 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_5 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_45 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_45 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_38 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_13 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_58 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_59 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_61 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_63 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_65 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_66 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_64 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_65 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_66 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_67 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_68 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_66 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_67 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_15 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_72 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_73 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_78 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_76 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_77 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_78 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_79 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_80 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_78 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_82 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_83 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_81 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_85 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_83 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_83 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_84 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_85 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_86 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_95 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_99 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_97 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_95 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_99 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_97 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_96 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_95 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_101 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_102 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_103 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_86 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_87 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_54 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_89 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_114 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_112 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_113 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_114 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_115 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_36 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_6 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_7 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_125 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_126 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_118 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_127 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_129 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_127 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_132 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_71 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_114 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_43 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_75 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_77 = id_ctrl_decoder_decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_1 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_4 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_3 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_4 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_1 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_12 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_11 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_12 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_11 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_16 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_15 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_13 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_17 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_18 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_21 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_20 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_18 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_19 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_20 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_24 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_25 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_29 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_27 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_29 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_30 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_35 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_33 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_34 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_38 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_31 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_2 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_3 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_4 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_5 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_44 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_43 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_19 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_10 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_53 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_54 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_55 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_56 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_59 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_60 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_64 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_62 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_63 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_61 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_62 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_69 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_70 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_77 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_75 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_73 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_74 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_76 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_77 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_75 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_79 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_80 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_82 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_80 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_79 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_80 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_81 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_82 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_83 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_84 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_85 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_86 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_98 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_99 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_100 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_52 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_53 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_34 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_55 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_111 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_109 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_110 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_111 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_112 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_122 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_120 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_121 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_122 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_123 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_115 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_116 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_123 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_124 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_125 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_126 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_123 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_128 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_129 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_39 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_40 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_72 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_73 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_30 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_44 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_45 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_46 = id_ctrl_decoder_decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_1 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_2 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_3 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_4 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_5 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_1 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_10 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_9 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_10 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_11 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_14 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_12 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_13 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_14 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_15 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_19 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_17 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_18 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_19 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_20 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_21 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_22 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_26 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_24 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_26 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_27 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_31 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_32 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_30 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_31 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_30 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_32 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_2 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_36 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_36 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_37 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_50 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_51 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_52 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_53 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_57 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_58 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_56 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_57 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_61 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_59 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_60 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_59 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_60 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_63 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_62 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_63 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_62 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_63 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_10 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_67 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_68 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_74 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_72 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_70 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_71 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_75 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_73 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_74 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_73 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_76 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_77 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_78 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_79 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_78 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_66 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_67 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_68 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_69 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_70 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_71 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_72 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_73 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_89 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_93 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_91 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_90 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_93 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_92 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_96 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_97 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_98 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_32 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_33 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_21 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_35 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_108 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_106 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_107 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_108 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_109 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_16 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_119 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_117 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_118 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_119 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_120 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_121 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_122 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_41 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_42 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_31 = id_ctrl_decoder_decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_1 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_2 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_3 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_4 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_4 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_8 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_9 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_28 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_8 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_9 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_10 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_10 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_12 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_12 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_14 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_15 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_16 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_17 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_17 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_18 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_19 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_21 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_22 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_23 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_24 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_31 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_25 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_26 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_28 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_29 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_29 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_30 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_24 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_31 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_37 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_2 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_35 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_34 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_35 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_30 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_5 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_36 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_18 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_9 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_8 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_49 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_65 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_66 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_69 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_68 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_72 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_71 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_74 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_76 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_77 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_65 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_34 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_35 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_36 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_37 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_38 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_39 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_40 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_41 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_90 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_89 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_91 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_79 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_46 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_47 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_28 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_119 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_120 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_119 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_120 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_121 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_122 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_123 = id_ctrl_decoder_decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_1 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_2 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_2 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_3 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_6 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_7 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_30 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_7 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_7 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_8 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_3 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_10 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_4 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_12 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_14 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_15 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_13 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_14 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_5 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_16 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_17 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_18 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_22 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_19 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_25 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_20 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_21 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_26 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_27 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_22 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_23 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_2 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_7 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_33 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_2 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_27 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_9 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_10 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_4 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_3 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_2 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_30_1 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_4 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_30_2 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_10 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_8 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_7 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_7 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_46 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_51 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_52 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_40 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_41 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_42 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_43 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_46 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_47 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_21 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_22 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_14 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_8 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_25 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_26 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_54 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_27 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_56 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_57 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_28 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_59 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_29 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_30 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_62 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_31 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_32 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_16 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_12 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_13 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_14 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_15 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_74 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_75 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_42 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_43 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_44 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_25 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_16 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_17 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_11 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_29 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_30 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_31 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_10 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_11 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_9 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_13 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_90 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_56 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_57 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_58 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_59 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_9 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_6 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_31 = id_ctrl_decoder_decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_7}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_7}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_11}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_11}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_11}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_10}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_lo_11}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_78_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_11; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_1}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_1}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_1}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_1}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_1}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_12, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_8}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_8}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_12}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_1}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_12}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_12}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_1}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_12, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_11}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_12, id_ctrl_decoder_decoded_andMatrixOutputs_lo_12}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_190_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_12; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_2 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_2 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_3 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_4 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_6 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_7 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_29 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_8 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_8 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_9 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_9 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_11 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_11 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_13 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_16 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_16 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_15 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_20 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_21 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_23 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_23 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_28 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_24 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_25 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_27 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_28 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_28 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_29 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_6 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_25 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_34 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_2 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_33 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_28 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_29 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_11 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_3 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_2 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_29_1 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_4 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_29_2 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_17 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_11 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_8 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_7 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_48 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_47 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_48 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_49 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_50 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_53 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_54 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_53 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_54 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_55 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_56 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_44 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_45 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_59 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_48 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_23 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_8 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_111 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_112 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_113 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_114 = id_ctrl_decoder_decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_2}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_2}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_4}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_2}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_13, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_9}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_13, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_13}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_12}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_13, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_13}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_13, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_13}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_2}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_13, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_12}; // @[pla.scala:98:53] wire [12:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_13, id_ctrl_decoder_decoded_andMatrixOutputs_lo_13}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_7_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_13; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_2}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_2}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_3}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_3}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_2}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_14, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_10}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_13, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_10}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_14, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_14}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_2}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_14, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_14}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_14, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_14}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_3}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_14, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_13}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_14, id_ctrl_decoder_decoded_andMatrixOutputs_lo_14}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_98_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_14; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_3}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_3}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_4}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_4}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_3}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_15, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_11}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_14, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_11}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_15}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_3}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_15}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_15}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_4}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_15, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_14}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_15, id_ctrl_decoder_decoded_andMatrixOutputs_lo_15}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_32_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_15; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_4}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_5}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_5}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_4}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_16, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_12}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_12}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_16}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_4}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_16}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_16}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_5}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_16, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_15}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_16, id_ctrl_decoder_decoded_andMatrixOutputs_lo_16}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_71_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_16; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_17 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_18 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_19 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_16 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_17 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_18 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_19 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_23 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_21 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_22 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_27 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_24 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_39 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_37 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_41 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_39 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_51 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_52 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_59 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_68 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_66 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_67 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_73 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_71 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_72 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_80 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_77 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_97 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_94 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_99 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_96 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_97 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_98 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_99 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_100 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_102 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_103 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_104 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_105 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_106 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_107 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_108 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_109 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_113 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_114 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_115 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_136 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_137 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_138 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_139 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_140 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_141 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_142 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_143 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_150 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_151 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_152 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_170 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_167 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_169 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_170 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_171 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_172 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_173 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_174 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_175 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_176 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_177 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_178 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_179 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_180 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_181 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_182 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_183 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_184 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_185 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_186 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_187 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_188 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_189 = id_ctrl_decoder_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_17}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_17}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_17}; // @[pla.scala:91:29, :98:53] wire [4:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_17, id_ctrl_decoder_decoded_andMatrixOutputs_lo_17}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_181_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_17; // @[pla.scala:98:{53,70}] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_16 = id_ctrl_decoder_decoded_andMatrixOutputs_181_2; // @[pla.scala:98:70, :114:36] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_18}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_17}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_18}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_18}; // @[pla.scala:91:29, :98:53] wire [5:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_18, id_ctrl_decoder_decoded_andMatrixOutputs_lo_18}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_145_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_18; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_19, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_19}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_18}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_19, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_19}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_19, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_19}; // @[pla.scala:91:29, :98:53] wire [5:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_19, id_ctrl_decoder_decoded_andMatrixOutputs_lo_19}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_143_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_19; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_6}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_13}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_8}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_19, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_13}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_20, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_20}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_19}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_20, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_20}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_20}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_20, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_16}; // @[pla.scala:98:53] wire [10:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_20, id_ctrl_decoder_decoded_andMatrixOutputs_lo_20}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_20_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_20; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_7}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_14}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_9}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_20, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_14}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_21}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_20}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_21}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_21}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_21, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_17}; // @[pla.scala:98:53] wire [10:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_21, id_ctrl_decoder_decoded_andMatrixOutputs_lo_21}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_22_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_21; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_15}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_21}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_21, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_15}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_22}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_22}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_22, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_18}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_22, id_ctrl_decoder_decoded_andMatrixOutputs_lo_22}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_97_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_22; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_10}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_19}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_22, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_16}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_23}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_23}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_23}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_23, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_19}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_23, id_ctrl_decoder_decoded_andMatrixOutputs_lo_23}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_39_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_23; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_11}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_20}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_23, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_17}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_24, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_24}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_24, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_24}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_24}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_24, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_20}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_24, id_ctrl_decoder_decoded_andMatrixOutputs_lo_24}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_131_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_24; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_8}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_24, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_21}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_18}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_24, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_18}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_25, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_25}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_25, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_25}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_25}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_25, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_21}; // @[pla.scala:98:53] wire [9:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_25, id_ctrl_decoder_decoded_andMatrixOutputs_lo_25}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_191_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_25; // @[pla.scala:98:{53,70}] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_63 = id_ctrl_decoder_decoded_andMatrixOutputs_191_2; // @[pla.scala:98:70, :114:36] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_26, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_25}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_25, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_22}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_26, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_26}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_26, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_26}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_26, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_22}; // @[pla.scala:98:53] wire [6:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_26, id_ctrl_decoder_decoded_andMatrixOutputs_lo_26}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_164_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_26; // @[pla.scala:98:{53,70}] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_64 = id_ctrl_decoder_decoded_andMatrixOutputs_164_2; // @[pla.scala:98:70, :114:36] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_27 = id_ctrl_decoder_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_20 = id_ctrl_decoder_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_97 = id_ctrl_decoder_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_87 = id_ctrl_decoder_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_99 = id_ctrl_decoder_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_89 = id_ctrl_decoder_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_90 = id_ctrl_decoder_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_91 = id_ctrl_decoder_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_92 = id_ctrl_decoder_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_93 = id_ctrl_decoder_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_170 = id_ctrl_decoder_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_160 = id_ctrl_decoder_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_26 = id_ctrl_decoder_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_14 = id_ctrl_decoder_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_96 = id_ctrl_decoder_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_68 = id_ctrl_decoder_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_98 = id_ctrl_decoder_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_70 = id_ctrl_decoder_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_71 = id_ctrl_decoder_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_72 = id_ctrl_decoder_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_73 = id_ctrl_decoder_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_74 = id_ctrl_decoder_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_170 = id_ctrl_decoder_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_141 = id_ctrl_decoder_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_23 = id_ctrl_decoder_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_10 = id_ctrl_decoder_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_93 = id_ctrl_decoder_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_48 = id_ctrl_decoder_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_95 = id_ctrl_decoder_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_50 = id_ctrl_decoder_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_51 = id_ctrl_decoder_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_52 = id_ctrl_decoder_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_53 = id_ctrl_decoder_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_54 = id_ctrl_decoder_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_169 = id_ctrl_decoder_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_121 = id_ctrl_decoder_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_19 = id_ctrl_decoder_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_9 = id_ctrl_decoder_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_86 = id_ctrl_decoder_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_45 = id_ctrl_decoder_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_88 = id_ctrl_decoder_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_47 = id_ctrl_decoder_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_51 = id_ctrl_decoder_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_166 = id_ctrl_decoder_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_118 = id_ctrl_decoder_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_13 = id_ctrl_decoder_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_7 = id_ctrl_decoder_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_67 = id_ctrl_decoder_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_42 = id_ctrl_decoder_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_69 = id_ctrl_decoder_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_44 = id_ctrl_decoder_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_48 = id_ctrl_decoder_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_159 = id_ctrl_decoder_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_115 = id_ctrl_decoder_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_6 = id_ctrl_decoder_decoded_invInputs[15]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_2 = id_ctrl_decoder_decoded_invInputs[15]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_40 = id_ctrl_decoder_decoded_invInputs[15]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_14 = id_ctrl_decoder_decoded_invInputs[15]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_42 = id_ctrl_decoder_decoded_invInputs[15]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_16 = id_ctrl_decoder_decoded_invInputs[15]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_114 = id_ctrl_decoder_decoded_invInputs[15]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_62 = id_ctrl_decoder_decoded_invInputs[15]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_5 = id_ctrl_decoder_decoded_invInputs[16]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_1 = id_ctrl_decoder_decoded_invInputs[16]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_38 = id_ctrl_decoder_decoded_invInputs[16]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_7 = id_ctrl_decoder_decoded_invInputs[16]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_40 = id_ctrl_decoder_decoded_invInputs[16]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_9 = id_ctrl_decoder_decoded_invInputs[16]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_111 = id_ctrl_decoder_decoded_invInputs[16]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_38 = id_ctrl_decoder_decoded_invInputs[16]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_5 = id_ctrl_decoder_decoded_invInputs[17]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_1 = id_ctrl_decoder_decoded_invInputs[17]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_32 = id_ctrl_decoder_decoded_invInputs[17]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_5 = id_ctrl_decoder_decoded_invInputs[17]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_34 = id_ctrl_decoder_decoded_invInputs[17]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_7 = id_ctrl_decoder_decoded_invInputs[17]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_109 = id_ctrl_decoder_decoded_invInputs[17]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_25 = id_ctrl_decoder_decoded_invInputs[17]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_1 = id_ctrl_decoder_decoded_invInputs[18]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_1 = id_ctrl_decoder_decoded_invInputs[18]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_13 = id_ctrl_decoder_decoded_invInputs[18]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_5 = id_ctrl_decoder_decoded_invInputs[18]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_15 = id_ctrl_decoder_decoded_invInputs[18]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_7 = id_ctrl_decoder_decoded_invInputs[18]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_96 = id_ctrl_decoder_decoded_invInputs[18]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_18 = id_ctrl_decoder_decoded_invInputs[18]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16 = id_ctrl_decoder_decoded_invInputs[19]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_1 = id_ctrl_decoder_decoded_invInputs[19]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_6 = id_ctrl_decoder_decoded_invInputs[19]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_4 = id_ctrl_decoder_decoded_invInputs[19]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_8 = id_ctrl_decoder_decoded_invInputs[19]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_6 = id_ctrl_decoder_decoded_invInputs[19]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_61 = id_ctrl_decoder_decoded_invInputs[19]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_16 = id_ctrl_decoder_decoded_invInputs[19]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_1 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_35 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_65 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_43 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_6 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_6 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_110 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_111 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_135 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_136 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_124 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_125 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_126 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_146 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_155 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_107 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_113 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_113 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_147 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_148 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_130 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_131 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_135 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_136 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_134 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_138 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_136 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_137 = id_ctrl_decoder_decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_1 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_34 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_45 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_40 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_3 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_3 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_90 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_91 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_92 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_93 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_114 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_115 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_116 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_117 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_104 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_105 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_106 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_147 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_148 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_108 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_106 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_110 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_110 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_17 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_7 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_127 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_128 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_168 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_169 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_170 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_171 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_172 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_173 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_174 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_126 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_127 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_132 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_133 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_130 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_135 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_132 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_133 = id_ctrl_decoder_decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_1 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_32 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_42 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_39 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_3 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_3 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_5 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_5 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_64 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_87 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_88 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_89 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_90 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_94 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_95 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_96 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_97 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_101 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_102 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_103 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_127 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_128 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_129 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_104 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_105 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_103 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_107 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_15 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_7 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_124 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_125 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_149 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_150 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_151 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_152 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_153 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_154 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_155 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_124 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_125 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_128 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_129 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_128 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_131 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_130 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_131 = id_ctrl_decoder_decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_1 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_26 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_39 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_37 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_3 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_3 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_5 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_5 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_51 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_84 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_85 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_86 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_87 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_91 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_92 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_93 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_94 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_98 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_99 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_100 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_107 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_108 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_109 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_101 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_102 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_101 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_104 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_121 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_122 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_129 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_130 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_131 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_132 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_133 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_134 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_135 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_111 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_112 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_126 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_127 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_115 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_129 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_117 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_118 = id_ctrl_decoder_decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_1}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_1}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_5}; // @[pla.scala:98:53] wire [13:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_26, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_19}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_6}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_5}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_8}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_19, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_13}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_5}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_27, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_26}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_23}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_27, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_27}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_27, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_27}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_13, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_6}; // @[pla.scala:98:53] wire [13:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_27, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_23}; // @[pla.scala:98:53] wire [27:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_27, id_ctrl_decoder_decoded_andMatrixOutputs_lo_27}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_55_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_27; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_28, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_29}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_30}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_1}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_1}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_1}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_2}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_1}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_1}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_lo}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_1}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_1}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_1}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_6}; // @[pla.scala:98:53] wire [14:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_27, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_20}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_2}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_6}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_lo}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_7}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_14, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_10}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_1}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_6}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_24, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_20}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_28, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_27}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_lo}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_28, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_28}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_28, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_28}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_1}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_14, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_7}; // @[pla.scala:98:53] wire [15:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_28, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_24}; // @[pla.scala:98:53] wire [30:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_28, id_ctrl_decoder_decoded_andMatrixOutputs_lo_28}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_90_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_28; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_28 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_26 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_27 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_23 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_24 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_30 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_26 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_32 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_28 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_34 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_30 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_36 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_32 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_38 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_34 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_53 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_48 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_49 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_60 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_61 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_62 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_63 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_58 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_65 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_60 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_61 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_67 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_71 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_82 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_78 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_83 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_109 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_110 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_111 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_112 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_113 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_119 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_120 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_121 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_129 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_123 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_131 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_132 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_126 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_137 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_138 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_139 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_140 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_141 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_142 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_149 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_157 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_151 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_159 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_160 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_154 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_162 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_156 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_164 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_158 = id_ctrl_decoder_decoded_plaInput[12]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_29, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_28}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_28, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_25}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_29, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_29}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_29, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_29}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_29, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_25}; // @[pla.scala:98:53] wire [6:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_29, id_ctrl_decoder_decoded_andMatrixOutputs_lo_29}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_30_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_29; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_26, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_21}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_30, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_29}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_29, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_21}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_30, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_30}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_30, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_30}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_30, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_26}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_30, id_ctrl_decoder_decoded_andMatrixOutputs_lo_30}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_26_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_30; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_27, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_22}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_31, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_30}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_30, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_22}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_31, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_31}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_31, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_31}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_31, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_27}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_31, id_ctrl_decoder_decoded_andMatrixOutputs_lo_31}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_175_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_31; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_15}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_31, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_28}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_31, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_23}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_32, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_32}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_32, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_32}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_32}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_32, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_28}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_32, id_ctrl_decoder_decoded_andMatrixOutputs_lo_32}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_77_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_32; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_11}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_32, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_29}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_24}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_32, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_24}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_33, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_33}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_33, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_33}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_33}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_33, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_29}; // @[pla.scala:98:53] wire [9:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_33, id_ctrl_decoder_decoded_andMatrixOutputs_lo_33}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_21_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_33; // @[pla.scala:98:{53,70}] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_5 = id_ctrl_decoder_decoded_andMatrixOutputs_21_2; // @[pla.scala:98:70, :114:36] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_8}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_7}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_10}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_25, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_17}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_12, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_7}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_33, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_25}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_34, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_33}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_30}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_34, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_34}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_34, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_34}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_17, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_8}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_34, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_30}; // @[pla.scala:98:53] wire [13:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_34, id_ctrl_decoder_decoded_andMatrixOutputs_lo_34}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_121_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_34; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_8}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_7}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_9}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_13}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_13, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_8}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_34, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_26}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_31, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_26}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_35, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_34}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_7}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_35, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_35}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_35, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_35}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_18, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_9}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_35, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_31}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_35, id_ctrl_decoder_decoded_andMatrixOutputs_lo_35}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_61_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_35; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_9}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_8}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_10}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_19, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_14}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_14, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_9}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_35, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_27}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_32, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_27}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_36, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_35}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_12, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_8}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_36, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_36}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_36, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_36}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_19, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_10}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_36, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_32}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_36, id_ctrl_decoder_decoded_andMatrixOutputs_lo_36}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_105_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_36; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_3}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_10}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_3}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_13, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_11}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_20, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_15}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_15, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_10}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_36, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_28}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_33, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_28}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_37, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_36}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_13, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_9}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_37, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_37}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_37, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_37}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_20, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_11}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_37, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_33}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_37, id_ctrl_decoder_decoded_andMatrixOutputs_lo_37}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_24_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_37; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_34, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_29}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_38, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_37}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_37, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_29}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_38, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_38}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_38, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_38}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_38, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_34}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_38, id_ctrl_decoder_decoded_andMatrixOutputs_lo_38}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_165_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_38; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_30, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_21}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_38, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_35}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_38, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_30}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_39, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_39}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_39, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_39}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_39}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_39, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_35}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_39, id_ctrl_decoder_decoded_andMatrixOutputs_lo_39}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_160_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_39; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_36, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_31}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_40, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_39}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_39, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_31}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_40, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_40}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_40, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_40}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_40, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_36}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_40, id_ctrl_decoder_decoded_andMatrixOutputs_lo_40}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_95_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_40; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_32, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_22}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_40, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_37}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_40, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_32}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_41, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_41}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_41, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_41}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_41}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_41, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_37}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_41, id_ctrl_decoder_decoded_andMatrixOutputs_lo_41}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_56_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_41; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_33, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_23}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_41, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_38}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_41, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_33}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_42, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_42}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_42, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_42}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_42}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_42, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_38}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_42, id_ctrl_decoder_decoded_andMatrixOutputs_lo_42}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_16_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_42; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_39, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_34}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_43, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_42}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_42, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_34}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_43, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_43}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_43, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_43}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_43, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_39}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_43, id_ctrl_decoder_decoded_andMatrixOutputs_lo_43}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_185_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_43; // @[pla.scala:98:{53,70}] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_6 = id_ctrl_decoder_decoded_andMatrixOutputs_185_2; // @[pla.scala:98:70, :114:36] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_43 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_41 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_42 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_37 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_38 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_39 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_46 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_41 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_42 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_43 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_44 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_45 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_46 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_47 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_32 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_33 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_62 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_63 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_70 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_65 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_66 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_48 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_72 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_83 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_79 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_85 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_94 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_103 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_104 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_116 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_127 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_109 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_161 = id_ctrl_decoder_decoded_plaInput[13]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_44, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_43}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_43, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_40}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_44, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_44}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_44, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_44}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_44, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_40}; // @[pla.scala:98:53] wire [6:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_44, id_ctrl_decoder_decoded_andMatrixOutputs_lo_44}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_140_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_44; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_41, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_35}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_45, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_44}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_44, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_35}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_45, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_45}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_45, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_45}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_45, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_41}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_45, id_ctrl_decoder_decoded_andMatrixOutputs_lo_45}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_53_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_45; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_42, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_36}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_46, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_45}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_45, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_36}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_46, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_46}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_46, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_46}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_46, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_42}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_46, id_ctrl_decoder_decoded_andMatrixOutputs_lo_46}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_193_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_46; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_37, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_24}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_46, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_43}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_46, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_37}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_47, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_47}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_47, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_47}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_24, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_47}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_47, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_43}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_47, id_ctrl_decoder_decoded_andMatrixOutputs_lo_47}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_92_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_47; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_44, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_38}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_48, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_47}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_47, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_38}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_48, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_48}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_48, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_48}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_48, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_44}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_48, id_ctrl_decoder_decoded_andMatrixOutputs_lo_48}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_17_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_48; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_39, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_25}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_48, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_45}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_48, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_39}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_49, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_49}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_49, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_49}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_25, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_49}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_49, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_45}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_49, id_ctrl_decoder_decoded_andMatrixOutputs_lo_49}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_129_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_49; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_46, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_40}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_50, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_49}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_49, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_40}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_50, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_50}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_50, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_50}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_50, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_46}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_50, id_ctrl_decoder_decoded_andMatrixOutputs_lo_50}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_177_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_50; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_41, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_26}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_50, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_47}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_50, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_41}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_51, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_51}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_51, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_51}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_26, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_51}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_51, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_47}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_51, id_ctrl_decoder_decoded_andMatrixOutputs_lo_51}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_123_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_51; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_14}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_48, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_42}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_27}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_51, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_42}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_52, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_52}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_14, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_51}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_52, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_52}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_27, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_52}; // @[pla.scala:90:45, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_52, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_48}; // @[pla.scala:98:53] wire [10:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_52, id_ctrl_decoder_decoded_andMatrixOutputs_lo_52}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_14_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_52; // @[pla.scala:98:{53,70}] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_27 = id_ctrl_decoder_decoded_andMatrixOutputs_14_2; // @[pla.scala:98:70, :114:36] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_11}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_10}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_12}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_28, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_17}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_17, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_11}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_52, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_43}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_49, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_43}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_53, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_52}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_15, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_10}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_53, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_53}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_53, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_53}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_28, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_12}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_53, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_49}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_53, id_ctrl_decoder_decoded_andMatrixOutputs_lo_53}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_132_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_53; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_4}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_13, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_12}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_13, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_4}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_13}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_29, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_18}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_18, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_12}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_53, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_44}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_50, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_44}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_54, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_53}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_16, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_11}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_54, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_54}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_54, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_54}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_29, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_13}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_54, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_50}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_54, id_ctrl_decoder_decoded_andMatrixOutputs_lo_54}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_49_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_54; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_51, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_45}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_55, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_54}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_54, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_45}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_55, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_55}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_55, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_55}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_55, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_51}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_55, id_ctrl_decoder_decoded_andMatrixOutputs_lo_55}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_155_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_55; // @[pla.scala:98:{53,70}] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_7 = id_ctrl_decoder_decoded_andMatrixOutputs_155_2; // @[pla.scala:98:70, :114:36] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_46, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_30}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_55, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_52}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_55, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_46}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_56, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_56}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_56, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_56}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_30, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_56}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_56, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_52}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_56, id_ctrl_decoder_decoded_andMatrixOutputs_lo_56}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_184_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_56; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_47, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_31}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_56, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_53}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_56, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_47}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_57, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_57}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_57, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_57}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_31, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_57}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_57, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_53}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_57, id_ctrl_decoder_decoded_andMatrixOutputs_lo_57}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_148_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_57; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_48, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_32}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_57, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_54}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_57, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_48}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_58, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_58}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_58, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_58}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_32, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_58}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_58, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_54}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_58, id_ctrl_decoder_decoded_andMatrixOutputs_lo_58}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_115_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_58; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_14, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_13}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_14, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_12}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_14}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_33, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_19}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_19, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_13}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_58, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_49}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_55, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_49}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_59, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_58}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_17, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_12}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_59, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_59}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_59, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_59}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_33, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_14}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_59, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_55}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_59, id_ctrl_decoder_decoded_andMatrixOutputs_lo_59}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_162_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_59; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_34 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_51 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_52 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_53 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_37 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_38 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_39 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_40 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_41 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_59 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_42 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_43 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_44 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_45 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_64 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_46 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_47 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_28 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_73 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_81 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_75 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_76 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_41 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_81 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_63 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_64 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_105 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_74 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_117 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_99 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_80 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_81 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_82 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_103 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_84 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_105 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_106 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_87 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_108 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_89 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_117 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_138 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_119 = id_ctrl_decoder_decoded_plaInput[14]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_50, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_34}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_59, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_56}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_59, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_50}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_60, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_60}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_60, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_60}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_34, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_60}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_60, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_56}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_60, id_ctrl_decoder_decoded_andMatrixOutputs_lo_60}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_44_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_60; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_15}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_14}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_20, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_18}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_51, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_35}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_20, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_14}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_60, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_51}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_61, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_60}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_57}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_61, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_61}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_61, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_61}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_35, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_15}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_61, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_57}; // @[pla.scala:98:53] wire [13:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_61, id_ctrl_decoder_decoded_andMatrixOutputs_lo_61}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_126_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_61; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_16}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_15}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_19}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_52, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_36}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_21, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_15}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_61, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_52}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_62, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_61}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_19, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_58}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_62, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_62}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_62, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_62}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_36, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_16}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_62, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_58}; // @[pla.scala:98:53] wire [13:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_62, id_ctrl_decoder_decoded_andMatrixOutputs_lo_62}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_150_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_62; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_59, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_53}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_63, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_62}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_62, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_53}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_63, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_63}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_63, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_63}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_63, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_59}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_63, id_ctrl_decoder_decoded_andMatrixOutputs_lo_63}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_161_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_63; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_16}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_13}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_20, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_17}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_37, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_22}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_22, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_16}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_63, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_54}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_60, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_54}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_64, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_63}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_20, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_13}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_64, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_64}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_64, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_64}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_37, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_17}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_64, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_60}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_64, id_ctrl_decoder_decoded_andMatrixOutputs_lo_64}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_133_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_64; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_17}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_14}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_18}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_38, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_23}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_23, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_17}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_64, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_55}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_61, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_55}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_65, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_64}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_21, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_14}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_65, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_65}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_65, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_65}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_38, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_18}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_65, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_61}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_65, id_ctrl_decoder_decoded_andMatrixOutputs_lo_65}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_179_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_65; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_5}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_19, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_18}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_19, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_5}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_19}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_39, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_24}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_24, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_18}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_65, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_56}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_62, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_56}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_66, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_65}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_22, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_15}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_66, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_66}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_66, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_66}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_39, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_19}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_66, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_62}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_66, id_ctrl_decoder_decoded_andMatrixOutputs_lo_66}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_5_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_66; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_20, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_19}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_20, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_16}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_20}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_40, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_25}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_25, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_19}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_66, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_57}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_63, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_57}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_67, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_66}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_23, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_16}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_67, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_67}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_67, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_67}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_40, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_20}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_67, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_63}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_67, id_ctrl_decoder_decoded_andMatrixOutputs_lo_67}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_88_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_67; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_20}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_17}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_24, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_21}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_41, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_26}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_26, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_20}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_67, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_58}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_64, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_58}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_68, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_67}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_24, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_17}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_68, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_68}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_68, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_68}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_41, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_21}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_68, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_64}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_68, id_ctrl_decoder_decoded_andMatrixOutputs_lo_68}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_94_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_68; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_65, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_59}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_69, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_68}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_68, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_59}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_69, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_69}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_69, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_69}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_69, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_65}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_69, id_ctrl_decoder_decoded_andMatrixOutputs_lo_69}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_66_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_69; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_60, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_42}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_69, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_66}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_69, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_60}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_70, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_70}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_70, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_70}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_42, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_70}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_70, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_66}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_70, id_ctrl_decoder_decoded_andMatrixOutputs_lo_70}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_125_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_70; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_61, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_43}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_70, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_67}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_70, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_61}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_71, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_71}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_71, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_71}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_43, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_71}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_71, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_67}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_71, id_ctrl_decoder_decoded_andMatrixOutputs_lo_71}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_91_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_71; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_62, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_44}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_71, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_68}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_71, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_62}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_72, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_72}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_72, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_72}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_44, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_72}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_72, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_68}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_72, id_ctrl_decoder_decoded_andMatrixOutputs_lo_72}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_112_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_72; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_21}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_18}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_25, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_22}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_45, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_27}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_27, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_21}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_72, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_63}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_69, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_63}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_73, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_72}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_25, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_18}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_73, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_73}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_73, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_73}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_45, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_22}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_73, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_69}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_73, id_ctrl_decoder_decoded_andMatrixOutputs_lo_73}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_170_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_73; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_70, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_64}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_74, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_73}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_73, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_64}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_74, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_74}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_74, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_74}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_74, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_70}; // @[pla.scala:98:53] wire [7:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_74, id_ctrl_decoder_decoded_andMatrixOutputs_lo_74}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_146_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_74; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_65, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_46}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_74, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_71}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_74, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_65}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_75, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_75}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_75, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_75}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_46, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_75}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_75, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_71}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_75, id_ctrl_decoder_decoded_andMatrixOutputs_lo_75}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_168_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_75; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_66, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_47}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_75, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_72}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_75, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_66}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_76, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_76}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_76, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_76}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_47, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_76}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_76, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_72}; // @[pla.scala:98:53] wire [8:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_76, id_ctrl_decoder_decoded_andMatrixOutputs_lo_76}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_2_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_76; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_48, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_28}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_76, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_73}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_28, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_67}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_76, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_67}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_77, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_77}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_77, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_77}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_48, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_77}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_77, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_73}; // @[pla.scala:98:53] wire [9:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_77, id_ctrl_decoder_decoded_andMatrixOutputs_lo_77}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_15_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_77; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_68 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_50 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_79 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_70 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_52 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_53 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_54 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_74 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_56 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_57 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_62 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_43 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_44 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_48 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_46 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_44 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_20 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_67 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_68 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_69 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_88 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_89 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_97 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_60 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_10 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_7 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_130 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_74 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_116 = id_ctrl_decoder_decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_23}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_22}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_29, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_26}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_68, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_49}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_29, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_22}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_77, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_68}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_78, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_77}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_26, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_74}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_78, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_78}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_78, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_78}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_49, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_23}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_78, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_74}; // @[pla.scala:98:53] wire [13:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_78, id_ctrl_decoder_decoded_andMatrixOutputs_lo_78}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_176_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_78; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_24, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_23}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_24, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_19}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_27, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_24}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_50, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_30}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_30, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_23}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_78, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_69}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_75, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_69}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_79, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_78}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_27, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_19}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_79, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_79}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_79, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_79}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_50, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_24}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_79, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_75}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_79, id_ctrl_decoder_decoded_andMatrixOutputs_lo_79}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_172_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_79; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_80, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_79}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_79, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_76}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_80, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_80}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_80, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_80}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_80, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_76}; // @[pla.scala:98:53] wire [6:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_80, id_ctrl_decoder_decoded_andMatrixOutputs_lo_80}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_76_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_80; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_31, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_28}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_25, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_25}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_77, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_70}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_31, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_51}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_80, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_70}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_81, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_81}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_28, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_80}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_81, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_81}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_51, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_81}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_81, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_77}; // @[pla.scala:98:53] wire [11:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_81, id_ctrl_decoder_decoded_andMatrixOutputs_lo_81}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_87_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_81; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_25, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_24}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_26, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_20}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_29, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_26}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_52, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_32}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_32, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_24}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_81, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_71}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_78, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_71}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_82, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_81}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_29, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_20}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_82, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_82}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_82, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_82}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_52, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_25}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_82, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_78}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_82, id_ctrl_decoder_decoded_andMatrixOutputs_lo_82}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_144_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_82; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_26, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_25}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_27, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_21}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_30, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_27}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_53, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_33}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_33, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_25}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_82, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_72}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_79, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_72}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_83, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_82}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_30, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_21}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_83, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_83}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_83, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_83}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_53, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_26}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_83, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_79}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_83, id_ctrl_decoder_decoded_andMatrixOutputs_lo_83}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_36_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_83; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_28, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_27}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_28, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_26}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_34, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_31}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_73, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_54}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_34, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_26}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_83, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_73}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_84, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_83}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_31, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_80}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_84, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_84}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_84, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_84}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_54, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_27}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_84, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_80}; // @[pla.scala:98:53] wire [13:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_84, id_ctrl_decoder_decoded_andMatrixOutputs_lo_84}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_41_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_84; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_29, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_28}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_29, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_27}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_35, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_32}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_74, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_55}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_35, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_27}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_84, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_74}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_85, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_84}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_32, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_81}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_85, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_85}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_85, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_85}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_55, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_28}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_85, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_81}; // @[pla.scala:98:53] wire [13:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_85, id_ctrl_decoder_decoded_andMatrixOutputs_lo_85}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_8_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_85; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_29, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_28}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_30, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_22}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_33, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_30}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_56, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_36}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_36, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_28}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_85, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_75}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_82, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_75}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_86, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_85}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_33, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_22}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_86, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_86}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_86, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_86}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_56, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_29}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_86, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_82}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_86, id_ctrl_decoder_decoded_andMatrixOutputs_lo_86}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_104_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_86; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_30, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_29}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_31, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_23}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_34, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_31}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_57, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_37}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_37, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_29}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_86, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_76}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_83, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_76}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_87, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_86}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_34, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_23}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_87, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_87}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_87, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_87}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_57, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_30}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_87, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_83}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_87, id_ctrl_decoder_decoded_andMatrixOutputs_lo_87}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_73_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_87; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_31 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_33 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_40 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_2 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_39 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_37 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_38 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_55 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_64 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_65 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_64 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_65 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_11 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_92 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_96 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_94 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_92 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_96 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_94 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_93 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_94 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_82 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_23 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_6 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_7 = id_ctrl_decoder_decoded_plaInput[27]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_2}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_30, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_24}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_32, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_6}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_32, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_31}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_38, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_35}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_38, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_30}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_87, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_77}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_77, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_58}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_87, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_84}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_35, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_24}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_88, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_88}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_88, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_88}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_88}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_58, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_31}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_88, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_84}; // @[pla.scala:98:53] wire [16:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_88, id_ctrl_decoder_decoded_andMatrixOutputs_lo_88}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_189_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_88; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_25, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_7}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_32, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_31}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_33, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_7}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_36, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_33}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_59, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_39}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_39, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_31}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_88, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_78}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_85, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_78}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_89, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_88}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_36, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_25}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_89, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_89}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_89, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_89}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_59, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_32}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_89, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_85}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_89, id_ctrl_decoder_decoded_andMatrixOutputs_lo_89}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_28_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_89; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_37, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_34}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_34, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_33}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_79, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_60}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_40, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_40}; // @[pla.scala:90:45, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_89, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_79}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_90, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_89}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_37, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_86}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_90, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_90}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_90, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_90}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_60, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_33}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_90, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_86}; // @[pla.scala:98:53] wire [12:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_90, id_ctrl_decoder_decoded_andMatrixOutputs_lo_90}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_0_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_90; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_38 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_84 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_46 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_4 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_4 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_131 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_132 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_133 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_134 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_143 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_144 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_145 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_154 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_111 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_109 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_116 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_37 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_12 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_166 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_167 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_133 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_134 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_138 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_139 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_137 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_141 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_139 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_140 = id_ctrl_decoder_decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_2}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_2}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_2}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_35, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_8}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_26, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_8}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_3}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_35, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_34}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_32}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_41, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_32}; // @[pla.scala:98:53] wire [10:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_90, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_80}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_41, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_38}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_87, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_80}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_61}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_38, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_26}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_91, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_91}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_90}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_91, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_91}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_91}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_61, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_34}; // @[pla.scala:98:53] wire [10:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_91, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_87}; // @[pla.scala:98:53] wire [21:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_91, id_ctrl_decoder_decoded_andMatrixOutputs_lo_91}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_60_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_91; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_35, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_33}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_36, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_27}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_39, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_36}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_62, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_42}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_42, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_33}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_91, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_81}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_88, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_81}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_92, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_91}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_39, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_27}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_92, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_92}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_92, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_92}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_62, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_35}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_92, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_88}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_92, id_ctrl_decoder_decoded_andMatrixOutputs_lo_92}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_48_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_92; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_28, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_9}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_36, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_34}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_37, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_9}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_40, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_37}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_63, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_43}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_43, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_34}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_92, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_82}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_89, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_82}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_93, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_92}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_40, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_28}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_93, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_93}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_93, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_93}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_63, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_36}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_93, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_89}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_93, id_ctrl_decoder_decoded_andMatrixOutputs_lo_93}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_167_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_93; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_29, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_10}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_37, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_35}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_38, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_10}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_41, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_38}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_64, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_44}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_44, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_35}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_93, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_83}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_90, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_83}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_94, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_93}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_41, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_29}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_94, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_94}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_94, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_94}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_64, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_37}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_94, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_90}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_94, id_ctrl_decoder_decoded_andMatrixOutputs_lo_94}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_163_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_94; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_36 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_12 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_2 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_28_1 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_4 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_28_2 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_42 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_37 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_12 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_9 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_52 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_80 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_81 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_48 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_6 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_28_3 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_124 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_125 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_32 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_33 = id_ctrl_decoder_decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_4}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_36, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_30}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_39, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_11}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_39, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_38}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_45, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_42}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_45, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_36}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_94, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_84}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_84, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_65}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_94, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_91}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_42, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_30}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_95, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_95}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_95, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_95}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_95}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_65, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_38}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_95, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_91}; // @[pla.scala:98:53] wire [16:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_95, id_ctrl_decoder_decoded_andMatrixOutputs_lo_95}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_137_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_95; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_3}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_5}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_40, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_12}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_37, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_31}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_43, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_40}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_39}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_46, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_37}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_95, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_85}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_66, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_46}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_95, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_92}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_85}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_43, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_31}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_96, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_96}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_96, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_96}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_96}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_66, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_39}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_96, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_92}; // @[pla.scala:98:53] wire [18:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_96, id_ctrl_decoder_decoded_andMatrixOutputs_lo_96}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_74_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_96; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_4 = id_ctrl_decoder_decoded_plaInput[21]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_4 = id_ctrl_decoder_decoded_plaInput[21]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_68 = id_ctrl_decoder_decoded_plaInput[21]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_112 = id_ctrl_decoder_decoded_plaInput[21]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_113 = id_ctrl_decoder_decoded_plaInput[21]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_24 = id_ctrl_decoder_decoded_plaInput[21]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_11 = id_ctrl_decoder_decoded_plaInput[21]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_2}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_2}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_2}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_2}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_2}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_41, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_13}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_3}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_3}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_4}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_32, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_13}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_2}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_47, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_38}; // @[pla.scala:98:53] wire [13:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_96, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_86}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_41, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_40}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_38}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_47, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_44}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_86, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_67}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_2}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_44, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_32}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_97, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_96}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_93}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_97, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_97}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_97, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_97}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_2}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_67, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_40}; // @[pla.scala:98:53] wire [13:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_97, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_93}; // @[pla.scala:98:53] wire [27:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_97, id_ctrl_decoder_decoded_andMatrixOutputs_lo_97}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_59_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_97; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_28_1, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_29_1}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_30_1}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_3}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_3}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_3}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_42, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_14}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_3}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_4}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_lo_1}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_4}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_5}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_3}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_48, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_39}; // @[pla.scala:98:53] wire [14:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_97, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_87}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_33, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_14}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_41, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_39}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_lo_1}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_45, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_42}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_68, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_48}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_3}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_45, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_33}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_94, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_87}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_98, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_97}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_lo_1}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_98, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_98}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_98, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_98}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_3}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_68, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_41}; // @[pla.scala:98:53] wire [15:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_98, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_94}; // @[pla.scala:98:53] wire [30:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_98, id_ctrl_decoder_decoded_andMatrixOutputs_lo_98}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_152_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_98; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_6 = id_ctrl_decoder_decoded_plaInput[20]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_6 = id_ctrl_decoder_decoded_plaInput[20]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_71 = id_ctrl_decoder_decoded_plaInput[20]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_129 = id_ctrl_decoder_decoded_plaInput[20]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_130 = id_ctrl_decoder_decoded_plaInput[20]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_5 = id_ctrl_decoder_decoded_plaInput[22]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_5 = id_ctrl_decoder_decoded_plaInput[22]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_66 = id_ctrl_decoder_decoded_plaInput[22]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_4}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_4}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_4}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_4}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_4}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_43, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_15}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_5}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_5}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_6}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_34, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_15}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_4}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_49, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_40}; // @[pla.scala:98:53] wire [13:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_98, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_88}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_43, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_42}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_40}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_49, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_46}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_88, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_69}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_4}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_46, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_34}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_99, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_98}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_95}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_99, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_99}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_99, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_99}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_4}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_69, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_42}; // @[pla.scala:98:53] wire [13:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_99, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_95}; // @[pla.scala:98:53] wire [27:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_99, id_ctrl_decoder_decoded_andMatrixOutputs_lo_99}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_47_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_99; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_28_2, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_29_2}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_30_2}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_5}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_5}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_5}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_44, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_16}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_5, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_5}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_6}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_lo_2}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_6}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_7}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_5}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_50, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_41}; // @[pla.scala:98:53] wire [14:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_99, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_89}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_35, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_16}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_43, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_41}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_lo_2}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_47, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_44}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_70, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_50}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_5}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_47, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_35}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_96, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_89}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_100, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_99}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_lo_2}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_100, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_100}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_100, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_100}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_5}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_70, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_43}; // @[pla.scala:98:53] wire [15:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_100, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_96}; // @[pla.scala:98:53] wire [30:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_100, id_ctrl_decoder_decoded_andMatrixOutputs_lo_100}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_103_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_100; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_10}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_42, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_36}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_45, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_17}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_45, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_44}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_51, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_48}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_51, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_42}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_100, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_90}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_90, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_71}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_100, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_97}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_48, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_36}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_101, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_101}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_101, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_101}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_101}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_71, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_44}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_101, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_97}; // @[pla.scala:98:53] wire [16:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_101, id_ctrl_decoder_decoded_andMatrixOutputs_lo_101}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_83_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_101; // @[pla.scala:98:{53,70}] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_28 = id_ctrl_decoder_decoded_andMatrixOutputs_83_2; // @[pla.scala:98:70, :114:36] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_8}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_37, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_18}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_46, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_18}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_45, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_43}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_52, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_49}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_46}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_52, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_43}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_101, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_91}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_91, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_72}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_101, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_98}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_49, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_37}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_102, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_102}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_102, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_102}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_102}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_72, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_45}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_102, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_98}; // @[pla.scala:98:53] wire [17:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_102, id_ctrl_decoder_decoded_andMatrixOutputs_lo_102}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_31_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_102; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_7}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_19, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_12}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_9}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_47, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_19}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_44, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_38}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_50, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_47}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_46}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_53, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_44}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_102, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_92}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_73, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_53}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_102, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_99}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_92}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_50, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_38}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_103, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_103}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_103, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_103}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_103}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_73, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_46}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_103, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_99}; // @[pla.scala:98:53] wire [19:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_103, id_ctrl_decoder_decoded_andMatrixOutputs_lo_103}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_13_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_103; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_7}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_9}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_8}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_48, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_20}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_39, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_20}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_13}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_48, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_47}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_45}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_54, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_45}; // @[pla.scala:98:53] wire [10:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_103, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_93}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_54, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_51}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_100, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_93}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_74}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_51, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_39}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_104, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_104}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_103}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_104, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_104}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_13, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_104}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_74, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_47}; // @[pla.scala:98:53] wire [10:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_104, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_100}; // @[pla.scala:98:53] wire [21:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_104, id_ctrl_decoder_decoded_andMatrixOutputs_lo_104}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_111_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_104; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_49, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_48}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_49, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_46}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_55, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_52}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_94, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_75}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_55, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_46}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_104, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_94}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_105, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_104}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_52, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_101}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_105, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_105}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_105, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_105}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_75, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_48}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_105, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_101}; // @[pla.scala:98:53] wire [13:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_105, id_ctrl_decoder_decoded_andMatrixOutputs_lo_105}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_65_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_105; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_49 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_50 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_51 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_52 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_54 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_55 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_55 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_56 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_58 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_57 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_58 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_57 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_58 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_61 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_60 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_61 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_49 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_50 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_9 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_83 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_84 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_85 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_19 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_20 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_14 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_22 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_105 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_104 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_105 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_106 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_107 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_14 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_6 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_29_3 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_113 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_114 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_115 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_116 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_26 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_27 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_28 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_29 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_23 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_24 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_25 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_26 = id_ctrl_decoder_decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_50, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_49}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_50, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_47}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_56, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_53}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_95, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_76}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_56, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_47}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_105, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_95}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_106, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_105}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_53, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_102}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_106, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_106}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_106, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_106}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_76, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_49}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_106, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_102}; // @[pla.scala:98:53] wire [13:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_106, id_ctrl_decoder_decoded_andMatrixOutputs_lo_106}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_124_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_106; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_51, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_50}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_51, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_48}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_57, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_54}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_96, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_77}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_57, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_48}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_106, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_96}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_107, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_106}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_54, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_103}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_107, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_107}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_107, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_107}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_77, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_50}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_107, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_103}; // @[pla.scala:98:53] wire [13:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_107, id_ctrl_decoder_decoded_andMatrixOutputs_lo_107}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_50_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_107; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_52, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_51}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_52, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_49}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_58, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_55}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_97, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_78}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_58, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_49}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_107, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_97}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_108, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_107}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_55, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_104}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_108, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_108}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_108, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_108}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_78, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_51}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_108, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_104}; // @[pla.scala:98:53] wire [13:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_108, id_ctrl_decoder_decoded_andMatrixOutputs_lo_108}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_6_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_108; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_53, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_52}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_53, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_50}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_59, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_56}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_98, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_79}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_59, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_50}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_108, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_98}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_109, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_108}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_56, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_105}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_109, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_109}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_109, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_109}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_79, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_52}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_109, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_105}; // @[pla.scala:98:53] wire [13:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_109, id_ctrl_decoder_decoded_andMatrixOutputs_lo_109}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_134_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_109; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_54, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_53}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_54, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_51}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_60, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_57}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_99, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_80}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_60, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_51}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_109, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_99}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_110, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_109}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_57, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_106}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_110, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_110}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_110, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_110}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_80, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_53}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_110, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_106}; // @[pla.scala:98:53] wire [13:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_110, id_ctrl_decoder_decoded_andMatrixOutputs_lo_110}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_153_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_110; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_55, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_54}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_55, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_52}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_61, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_58}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_100, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_81}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_61, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_52}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_110, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_100}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_111, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_110}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_58, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_107}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_111, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_111}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_111, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_111}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_81, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_54}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_111, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_107}; // @[pla.scala:98:53] wire [13:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_111, id_ctrl_decoder_decoded_andMatrixOutputs_lo_111}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_109_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_111; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_55, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_53}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_56, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_40}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_59, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_56}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_82, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_62}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_62, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_53}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_111, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_101}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_108, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_101}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_112, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_111}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_59, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_40}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_112, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_112}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_112, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_112}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_82, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_55}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_112, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_108}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_112, id_ctrl_decoder_decoded_andMatrixOutputs_lo_112}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_187_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_112; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_56, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_54}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_57, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_41}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_60, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_57}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_83, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_63}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_63, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_54}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_112, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_102}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_109, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_102}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_113, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_112}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_60, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_41}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_113, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_113}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_113, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_113}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_83, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_56}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_113, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_109}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_113, id_ctrl_decoder_decoded_andMatrixOutputs_lo_113}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_45_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_113; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_64, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_61}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_58, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_58}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_110, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_103}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_64, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_84}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_113, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_103}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_114, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_114}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_61, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_113}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_114, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_114}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_84, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_114}; // @[pla.scala:90:45, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_114, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_110}; // @[pla.scala:98:53] wire [11:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_114, id_ctrl_decoder_decoded_andMatrixOutputs_lo_114}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_79_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_114; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_57, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_55}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_59, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_42}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_62, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_59}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_85, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_65}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_65, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_55}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_114, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_104}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_111, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_104}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_115, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_114}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_62, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_42}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_115, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_115}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_115, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_115}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_85, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_57}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_115, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_111}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_115, id_ctrl_decoder_decoded_andMatrixOutputs_lo_115}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_159_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_115; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_58, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_56}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_60, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_43}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_63, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_60}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_86, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_66}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_66, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_56}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_115, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_105}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_112, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_105}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_116, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_115}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_63, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_43}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_116, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_116}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_116, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_116}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_86, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_58}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_116, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_112}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_116, id_ctrl_decoder_decoded_andMatrixOutputs_lo_116}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_34_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_116; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_59, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_57}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_61, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_44}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_64, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_61}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_87, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_67}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_67, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_57}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_116, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_106}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_113, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_106}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_117, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_116}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_64, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_44}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_117, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_117}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_117, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_117}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_87, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_59}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_117, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_113}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_117, id_ctrl_decoder_decoded_andMatrixOutputs_lo_117}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_86_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_117; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_60, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_58}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_62, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_45}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_65, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_62}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_88, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_68}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_68, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_58}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_117, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_107}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_114, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_107}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_118, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_117}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_65, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_45}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_118, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_118}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_118, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_118}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_88, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_60}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_118, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_114}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_118, id_ctrl_decoder_decoded_andMatrixOutputs_lo_118}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_10_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_118; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_61, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_59}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_63, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_46}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_66, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_63}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_89, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_69}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_69, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_59}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_119 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_118, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_108}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_115, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_108}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_119, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_118}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_66, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_46}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_119, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_119}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_119, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_119}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_119 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_89, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_61}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_119 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_119, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_115}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_119 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_119, id_ctrl_decoder_decoded_andMatrixOutputs_lo_119}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_93_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_119; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_62, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_60}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_64, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_47}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_67, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_64}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_90, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_70}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_119 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_70, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_60}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_120 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_119, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_109}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_116, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_109}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_120, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_119}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_67, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_47}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_120, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_120}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_120, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_120}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_120 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_90, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_62}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_120 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_120, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_116}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_120 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_120, id_ctrl_decoder_decoded_andMatrixOutputs_lo_120}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_180_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_120; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_48, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_21}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_63, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_61}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_65, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_21}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_68, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_65}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_91, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_71}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_120 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_71, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_61}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_121 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_120, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_110}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_117, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_110}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_121, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_120}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_68, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_48}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_121, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_121}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_121, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_121}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_121 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_91, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_63}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_121 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_121, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_117}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_121 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_121, id_ctrl_decoder_decoded_andMatrixOutputs_lo_121}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_43_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_121; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_49, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_22}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_64, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_62}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_66, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_22}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_69, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_66}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_92, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_72}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_121 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_72, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_62}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_122 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_121, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_111}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_118, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_111}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_122, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_121}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_69, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_49}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_122, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_122}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_122, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_122}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_122 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_92, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_64}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_122 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_122, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_118}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_122 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_122, id_ctrl_decoder_decoded_andMatrixOutputs_lo_122}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_135_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_122; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_14}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_63, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_50}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_67, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_23}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_67, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_65}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_73, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_70}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_122 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_73, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_63}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_123 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_122, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_112}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_112, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_93}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_122, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_119}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_119 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_70, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_50}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_123, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_123}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_123, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_123}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_14, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_123}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_123 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_93, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_65}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_123 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_123, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_119}; // @[pla.scala:98:53] wire [16:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_123 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_123, id_ctrl_decoder_decoded_andMatrixOutputs_lo_123}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_3_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_123; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_8}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_10}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_9}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_68, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_24}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_51, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_24}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_15}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_68, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_66}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_64}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_123 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_74, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_64}; // @[pla.scala:98:53] wire [10:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_124 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_123, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_113}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_74, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_71}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_120, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_113}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_94}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_120 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_71, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_51}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_124, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_124}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_123}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_124, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_124}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_124}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_124 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_94, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_66}; // @[pla.scala:98:53] wire [10:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_124 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_124, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_120}; // @[pla.scala:98:53] wire [21:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_124 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_124, id_ctrl_decoder_decoded_andMatrixOutputs_lo_124}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_188_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_124; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_52 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_53 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_71 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_67 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_55 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_69 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_70 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_58 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_72 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_60 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_61 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_75 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_63 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_64 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_33 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_17 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_18 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_19 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_20 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_21 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_22 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_23 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_24 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_87 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_88 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_76 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_77 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_78 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_45 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_26 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_27 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_18 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_49 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_50 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_51 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_12 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_13 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_12 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_15 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_103 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_91 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_92 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_93 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_94 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_10 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_6 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_30_3 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_102 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_103 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_117 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_118 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_106 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_107 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_108 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_109 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_110 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_19 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_20 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_21 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_22 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_21 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_22 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_23 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_24 = id_ctrl_decoder_decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_52, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_25}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_67, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_65}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_69, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_25}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_72, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_69}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_95, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_75}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_124 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_75, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_65}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_125 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_124, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_114}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_121, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_114}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_125, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_124}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_121 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_72, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_52}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_125, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_125}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_125, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_125}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_125 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_95, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_67}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_125 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_125, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_121}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_125 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_125, id_ctrl_decoder_decoded_andMatrixOutputs_lo_125}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_4_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_125; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_53, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_26}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_68, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_66}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_70, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_26}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_73, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_70}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_96, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_76}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_125 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_76, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_66}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_126 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_125, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_115}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_122, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_115}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_126, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_125}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_122 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_73, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_53}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_126, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_126}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_126, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_126}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_126 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_96, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_68}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_126 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_126, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_122}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_126 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_126, id_ctrl_decoder_decoded_andMatrixOutputs_lo_126}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_25_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_126; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_77, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_74}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_71, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_71}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_123, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_116}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_126 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_77, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_97}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_127 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_126, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_116}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_127, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_127}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_123 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_74, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_126}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_127, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_127}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_127 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_97, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_127}; // @[pla.scala:90:45, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_127 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_127, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_123}; // @[pla.scala:98:53] wire [11:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_127 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_127, id_ctrl_decoder_decoded_andMatrixOutputs_lo_127}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_58_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_127; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_69, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_67}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_72, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_54}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_75, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_72}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_98, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_78}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_127 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_78, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_67}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_128 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_127, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_117}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_124, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_117}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_128, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_127}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_124 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_75, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_54}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_128, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_128}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_128, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_128}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_128 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_98, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_69}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_128 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_128, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_124}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_128 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_128, id_ctrl_decoder_decoded_andMatrixOutputs_lo_128}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_147_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_128; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_55, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_27}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_70, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_68}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_73, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_27}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_76, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_73}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_99, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_79}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_128 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_79, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_68}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_129 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_128, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_118}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_125, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_118}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_129, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_128}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_125 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_76, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_55}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_129, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_129}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_129, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_129}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_129 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_99, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_70}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_129 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_129, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_125}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_129 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_129, id_ctrl_decoder_decoded_andMatrixOutputs_lo_129}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_27_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_129; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_71, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_69}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_119 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_74, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_56}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_77, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_74}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_100, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_80}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_129 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_80, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_69}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_130 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_129, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_119}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_126, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_119}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_130, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_129}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_126 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_77, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_56}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_130, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_130}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_130, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_130}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_130 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_100, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_71}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_130 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_130, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_126}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_130 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_130, id_ctrl_decoder_decoded_andMatrixOutputs_lo_130}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_52_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_130; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_72, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_70}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_120 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_75, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_57}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_78, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_75}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_101, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_81}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_130 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_81, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_70}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_131 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_130, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_120}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_127, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_120}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_131, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_130}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_127 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_78, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_57}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_131, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_131}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_131, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_131}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_131 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_101, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_72}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_131 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_131, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_127}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_131 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_131, id_ctrl_decoder_decoded_andMatrixOutputs_lo_131}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_138_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_131; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_58, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_28}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_73, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_71}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_121 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_76, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_28}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_79, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_76}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_102, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_82}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_131 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_82, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_71}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_132 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_131, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_121}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_128, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_121}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_132, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_131}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_128 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_79, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_58}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_132, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_132}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_132, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_132}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_132 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_102, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_73}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_132 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_132, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_128}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_132 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_132, id_ctrl_decoder_decoded_andMatrixOutputs_lo_132}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_178_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_132; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_74, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_72}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_122 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_77, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_59}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_80, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_77}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_103, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_83}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_132 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_83, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_72}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_133 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_132, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_122}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_129, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_122}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_133, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_132}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_129 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_80, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_59}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_133, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_133}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_133, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_133}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_133 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_103, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_74}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_133 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_133, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_129}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_133 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_133, id_ctrl_decoder_decoded_andMatrixOutputs_lo_133}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_173_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_133; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_60, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_29}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_75, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_73}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_123 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_78, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_29}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_81, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_78}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_104, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_84}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_133 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_84, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_73}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_134 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_133, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_123}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_130, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_123}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_134, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_133}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_130 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_81, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_60}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_134, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_134}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_134, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_134}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_134 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_104, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_75}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_134 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_134, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_130}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_134 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_134, id_ctrl_decoder_decoded_andMatrixOutputs_lo_134}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_120_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_134; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_61, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_30}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_76, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_74}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_124 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_79, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_30}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_82, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_79}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_105, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_85}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_134 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_85, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_74}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_135 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_134, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_124}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_131, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_124}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_135, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_134}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_131 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_82, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_61}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_135, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_135}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_135, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_135}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_135 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_105, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_76}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_135 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_135, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_131}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_135 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_135, id_ctrl_decoder_decoded_andMatrixOutputs_lo_135}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_19_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_135; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_77, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_75}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_125 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_80, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_62}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_83, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_80}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_106, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_86}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_135 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_86, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_75}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_136 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_135, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_125}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_132, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_125}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_136, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_135}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_132 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_83, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_62}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_136, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_136}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_136, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_136}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_136 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_106, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_77}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_136 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_136, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_132}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_136 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_136, id_ctrl_decoder_decoded_andMatrixOutputs_lo_136}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_64_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_136; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_63, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_31}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_78, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_76}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_126 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_81, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_31}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_84, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_81}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_107, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_87}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_136 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_87, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_76}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_137 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_136, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_126}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_133, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_126}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_137, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_136}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_133 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_84, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_63}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_137, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_137}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_137, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_137}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_137 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_107, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_78}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_137 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_137, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_133}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_137 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_137, id_ctrl_decoder_decoded_andMatrixOutputs_lo_137}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_142_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_137; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_64, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_32}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_79, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_77}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_127 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_82, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_32}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_85, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_82}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_108, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_88}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_137 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_88, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_77}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_138 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_137, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_127}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_134, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_127}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_138, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_137}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_134 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_85, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_64}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_138, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_138}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_138, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_138}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_138 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_108, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_79}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_138 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_138, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_134}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_138 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_138, id_ctrl_decoder_decoded_andMatrixOutputs_lo_138}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_11_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_138; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_33, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_16}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_78, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_65}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_128 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_83, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_33}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_83, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_80}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_89, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_86}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_138 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_89, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_78}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_139 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_138, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_128}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_128, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_109}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_138, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_135}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_135 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_86, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_65}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_139, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_139}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_139, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_139}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_139}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_139 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_109, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_80}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_139 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_139, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_135}; // @[pla.scala:98:53] wire [16:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_139 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_139, id_ctrl_decoder_decoded_andMatrixOutputs_lo_139}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_46_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_139; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_34, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_17}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_79, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_66}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_129 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_84, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_34}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_84, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_81}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_90, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_87}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_139 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_90, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_79}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_140 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_139, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_129}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_129, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_110}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_139, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_136}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_136 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_87, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_66}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_140, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_140}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_140, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_140}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_140}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_140 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_110, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_81}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_140 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_140, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_136}; // @[pla.scala:98:53] wire [16:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_140 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_140, id_ctrl_decoder_decoded_andMatrixOutputs_lo_140}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_141_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_140; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_12}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_67, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_35}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_130 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_85, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_35}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_82, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_80}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_91, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_88}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_85}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_140 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_91, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_80}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_141 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_140, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_130}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_130, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_111}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_140, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_137}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_137 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_88, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_67}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_141, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_141}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_141, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_141}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_141}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_141 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_111, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_82}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_141 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_141, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_137}; // @[pla.scala:98:53] wire [17:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_141 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_141, id_ctrl_decoder_decoded_andMatrixOutputs_lo_141}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_114_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_141; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_36, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_19}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_81, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_68}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_131 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_86, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_36}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_86, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_83}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_92, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_89}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_141 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_92, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_81}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_142 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_141, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_131}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_131, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_112}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_141, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_138}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_138 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_89, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_68}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_142, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_142}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_142, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_142}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_19, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_142}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_142 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_112, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_83}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_142 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_142, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_138}; // @[pla.scala:98:53] wire [16:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_142 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_142, id_ctrl_decoder_decoded_andMatrixOutputs_lo_142}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_70_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_142; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_20, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_13}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_69, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_37}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_132 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_87, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_37}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_84, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_82}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_93, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_90}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_13, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_87}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_142 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_93, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_82}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_143 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_142, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_132}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_132, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_113}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_142, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_139}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_139 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_90, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_69}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_143, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_143}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_143, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_143}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_20, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_143}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_143 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_113, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_84}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_143 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_143, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_139}; // @[pla.scala:98:53] wire [17:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_143 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_143, id_ctrl_decoder_decoded_andMatrixOutputs_lo_143}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_72_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_143; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_38, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_21}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_83, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_70}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_133 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_88, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_38}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_88, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_85}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_94, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_91}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_143 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_94, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_83}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_144 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_143, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_133}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_133, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_114}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_143, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_140}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_140 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_91, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_70}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_144, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_144}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_144, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_144}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_144}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_144 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_114, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_85}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_144 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_144, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_140}; // @[pla.scala:98:53] wire [16:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_144 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_144, id_ctrl_decoder_decoded_andMatrixOutputs_lo_144}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_174_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_144; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_14}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_71, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_39}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_134 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_89, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_39}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_86, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_84}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_95, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_92}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_14, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_89}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_144 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_95, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_84}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_145 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_144, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_134}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_134, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_115}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_144, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_141}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_141 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_92, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_71}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_145, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_145}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_145, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_145}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_145}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_145 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_115, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_86}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_145 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_145, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_141}; // @[pla.scala:98:53] wire [17:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_145 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_145, id_ctrl_decoder_decoded_andMatrixOutputs_lo_145}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_81_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_145; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_87 = id_ctrl_decoder_decoded_plaInput[26]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_88 = id_ctrl_decoder_decoded_plaInput[26]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_40, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_23}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_85, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_72}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_135 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_90, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_40}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_90, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_87}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_96, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_93}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_145 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_96, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_85}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_146 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_145, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_135}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_135, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_116}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_145, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_142}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_142 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_93, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_72}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_146, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_146}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_146, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_146}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_146}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_146 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_116, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_87}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_146 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_146, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_142}; // @[pla.scala:98:53] wire [16:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_146 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_146, id_ctrl_decoder_decoded_andMatrixOutputs_lo_146}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_130_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_146; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_24, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_15}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_73, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_41}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_136 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_91, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_41}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_88, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_86}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_97, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_94}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_91}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_146 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_97, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_86}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_147 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_146, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_136}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_136, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_117}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_146, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_143}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_143 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_94, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_73}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_147, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_147}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_147, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_147}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_24, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_147}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_147 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_117, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_88}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_147 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_147, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_143}; // @[pla.scala:98:53] wire [17:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_147 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_147, id_ctrl_decoder_decoded_andMatrixOutputs_lo_147}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_157_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_147; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_89, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_87}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_137 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_92, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_74}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_95, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_92}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_118, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_98}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_147 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_98, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_87}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_148 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_147, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_137}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_144, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_137}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_148, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_147}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_144 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_95, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_74}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_148, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_148}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_148, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_148}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_148 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_118, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_89}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_148 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_148, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_144}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_148 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_148, id_ctrl_decoder_decoded_andMatrixOutputs_lo_148}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_68_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_148; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_90, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_88}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_138 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_93, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_75}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_96, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_93}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_119, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_99}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_148 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_99, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_88}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_149 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_148, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_138}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_145, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_138}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_149, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_148}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_145 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_96, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_75}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_149, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_149}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_119 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_149, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_149}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_149 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_119, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_90}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_149 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_149, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_145}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_149 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_149, id_ctrl_decoder_decoded_andMatrixOutputs_lo_149}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_42_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_149; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_76, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_42}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_91, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_89}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_139 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_94, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_42}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_97, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_94}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_120, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_100}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_149 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_100, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_89}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_150 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_149, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_139}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_146, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_139}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_150, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_149}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_146 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_97, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_76}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_150, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_150}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_120 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_150, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_150}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_150 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_120, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_91}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_150 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_150, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_146}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_150 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_150, id_ctrl_decoder_decoded_andMatrixOutputs_lo_150}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_54_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_150; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_77, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_43}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_92, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_90}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_140 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_95, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_43}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_98, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_95}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_121, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_101}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_150 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_101, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_90}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_151 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_150, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_140}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_147, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_140}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_151, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_150}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_147 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_98, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_77}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_151, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_151}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_121 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_151, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_151}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_151 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_121, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_92}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_151 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_151, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_147}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_151 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_151, id_ctrl_decoder_decoded_andMatrixOutputs_lo_151}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_63_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_151; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_78, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_44}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_93, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_91}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_141 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_96, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_44}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_99, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_96}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_122, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_102}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_151 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_102, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_91}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_152 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_151, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_141}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_78 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_148, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_141}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_152, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_151}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_148 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_99, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_78}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_152, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_152}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_122 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_152, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_152}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_152 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_122, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_93}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_152 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_152, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_148}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_152 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_152, id_ctrl_decoder_decoded_andMatrixOutputs_lo_152}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_69_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_152; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_45, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_25}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_92, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_79}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_142 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_97, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_45}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_97, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_94}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_103, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_100}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_152 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_103, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_92}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_153 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_152, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_142}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_79 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_142, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_123}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_152, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_149}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_149 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_100, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_79}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_153, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_153}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_153, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_153}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_123 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_25, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_153}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_153 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_123, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_94}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_153 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_153, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_149}; // @[pla.scala:98:53] wire [16:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_153 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_153, id_ctrl_decoder_decoded_andMatrixOutputs_lo_153}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_183_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_153; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_26, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_16}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_80, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_46}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_143 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_98, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_46}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_95, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_93}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_104, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_101}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_98}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_153 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_104, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_93}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_154 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_153, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_143}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_80 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_143, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_124}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_153, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_150}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_150 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_101, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_80}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_154, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_154}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_154, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_154}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_124 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_26, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_154}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_154 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_124, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_95}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_154 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_154, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_150}; // @[pla.scala:98:53] wire [17:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_154 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_154, id_ctrl_decoder_decoded_andMatrixOutputs_lo_154}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_51_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_154; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_47 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_27, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_17}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_81, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_47}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_144 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_99, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_47}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_96, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_94}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_105, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_102}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_99}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_154 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_105, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_94}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_155 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_154, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_144}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_81 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_144, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_125}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_154, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_151}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_151 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_102, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_81}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_155, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_155}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_155, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_155}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_125 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_27, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_155}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_155 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_125, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_96}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_155 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_155, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_151}; // @[pla.scala:98:53] wire [17:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_155 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_155, id_ctrl_decoder_decoded_andMatrixOutputs_lo_155}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_136_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_155; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_48 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_11}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_48, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_28}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_145 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_100, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_48}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_95, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_82}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_103, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_100}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_97}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_155 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_106, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_95}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_156 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_155, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_145}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_82 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_126, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_106}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_155, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_152}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_145}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_152 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_103, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_82}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_156, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_156}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_156, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_156}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_126 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_28, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_156}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_156 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_126, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_97}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_156 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_156, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_152}; // @[pla.scala:98:53] wire [18:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_156 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_156, id_ctrl_decoder_decoded_andMatrixOutputs_lo_156}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_127_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_156; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_49 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_49, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_29}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_96, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_83}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_146 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_101, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_49}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_101, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_98}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_107, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_104}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_156 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_107, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_96}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_157 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_156, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_146}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_83 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_146, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_127}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_156, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_153}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_153 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_104, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_83}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_157, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_157}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_157, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_157}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_127 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_29, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_157}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_157 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_127, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_98}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_157 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_157, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_153}; // @[pla.scala:98:53] wire [16:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_157 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_157, id_ctrl_decoder_decoded_andMatrixOutputs_lo_157}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_151_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_157; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_50 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_50, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_30}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_97, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_84}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_147 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_102, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_50}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_102, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_99}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_108, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_105}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_157 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_108, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_97}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_158 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_157, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_147}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_84 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_147, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_128}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_157, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_154}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_154 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_105, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_84}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_158, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_158}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_158, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_158}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_128 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_30, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_158}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_158 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_128, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_99}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_158 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_158, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_154}; // @[pla.scala:98:53] wire [16:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_158 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_158, id_ctrl_decoder_decoded_andMatrixOutputs_lo_158}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_1_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_158; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_51 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_51, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_31}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_98, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_85}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_148 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_103, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_51}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_103, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_100}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_109, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_106}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_158 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_109, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_98}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_159 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_158, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_148}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_85 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_148, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_129}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_158, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_155}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_155 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_106, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_85}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_159, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_159}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_159, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_159}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_129 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_31, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_159}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_159 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_129, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_100}; // @[pla.scala:98:53] wire [8:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_159 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_159, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_155}; // @[pla.scala:98:53] wire [16:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_159 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_159, id_ctrl_decoder_decoded_andMatrixOutputs_lo_159}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_100_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_159; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_52 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_10}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_52, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_32}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_19}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_149 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_104, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_52}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_99, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_86}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_107, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_104}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_19, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_101}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_159 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_110, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_99}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_160 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_159, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_149}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_86 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_130, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_110}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_159, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_156}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_149}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_156 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_107, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_86}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_160, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_160}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_160, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_160}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_130 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_32, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_160}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_160 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_130, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_101}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_160 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_160, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_156}; // @[pla.scala:98:53] wire [19:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_160 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_160, id_ctrl_decoder_decoded_andMatrixOutputs_lo_160}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_106_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_160; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_53 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_13, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_11}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_53, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_33}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_20}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_150 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_105, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_53}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_100, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_87}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_108, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_105}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_20, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_102}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_160 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_111, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_100}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_161 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_160, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_150}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_87 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_131, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_111}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_160, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_157}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_13, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_150}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_157 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_108, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_87}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_161, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_161}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_161, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_161}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_131 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_33, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_161}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_161 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_131, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_102}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_161 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_161, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_157}; // @[pla.scala:98:53] wire [19:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_161 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_161, id_ctrl_decoder_decoded_andMatrixOutputs_lo_161}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_186_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_161; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_54 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_9}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_34, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_21}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_14}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_151 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_106, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_54}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_88, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_54}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_106, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_103}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_101}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_161 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_112, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_101}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_162 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_161, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_151}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_88 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_112, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_109}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_158, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_151}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_14, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_132}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_158 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_109, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_88}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_162, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_162}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_161}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_162, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_162}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_132 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_34, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_162}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_162 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_132, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_103}; // @[pla.scala:98:53] wire [10:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_162 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_162, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_158}; // @[pla.scala:98:53] wire [20:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_162 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_162, id_ctrl_decoder_decoded_andMatrixOutputs_lo_162}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_18_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_162; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_55 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_13}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_55, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_35}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_13, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_22}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_152 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_107, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_55}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_102, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_89}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_110, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_107}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_104}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_162 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_113, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_102}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_163 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_162, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_152}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_89 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_133, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_113}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_162, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_159}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_152}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_159 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_110, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_89}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_163, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_163}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_163, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_163}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_133 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_35, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_163}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_163 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_133, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_104}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_163 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_163, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_159}; // @[pla.scala:98:53] wire [19:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_163 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_163, id_ctrl_decoder_decoded_andMatrixOutputs_lo_163}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_108_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_163; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_105, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_103}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_153 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_108, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_90}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_111, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_108}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_134, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_114}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_163 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_114, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_103}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_164 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_163, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_153}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_90 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_160, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_153}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_164, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_163}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_160 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_111, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_90}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_164, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_164}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_134 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_164, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_164}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_164 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_134, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_105}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_164 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_164, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_160}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_164 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_164, id_ctrl_decoder_decoded_andMatrixOutputs_lo_164}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_89_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_164; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_56 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_91, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_56}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_106, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_104}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_154 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_109, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_56}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_112, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_109}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_135, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_115}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_164 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_115, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_104}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_165 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_164, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_154}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_91 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_161, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_154}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_165, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_164}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_161 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_112, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_91}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_165, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_165}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_135 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_165, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_165}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_165 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_135, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_106}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_165 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_165, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_161}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_165 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_165, id_ctrl_decoder_decoded_andMatrixOutputs_lo_165}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_62_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_165; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_57 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_92, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_57}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_107, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_105}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_155 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_110, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_57}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_113, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_110}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_136, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_116}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_165 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_116, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_105}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_166 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_165, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_155}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_92 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_162, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_155}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_166, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_165}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_162 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_113, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_92}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_166, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_166}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_136 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_166, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_166}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_166 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_136, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_107}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_166 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_166, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_162}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_166 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_166, id_ctrl_decoder_decoded_andMatrixOutputs_lo_166}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_149_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_166; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_58 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_93, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_58}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_108, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_106}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_156 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_111, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_58}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_114, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_111}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_137, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_117}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_166 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_117, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_106}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_167 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_166, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_156}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_93 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_163, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_156}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_167, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_166}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_163 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_114, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_93}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_167, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_167}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_137 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_167, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_167}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_167 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_137, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_108}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_167 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_167, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_163}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_167 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_167, id_ctrl_decoder_decoded_andMatrixOutputs_lo_167}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_171_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_167; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_59 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_94, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_59}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_109, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_107}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_157 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_112, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_59}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_115, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_112}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_138, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_118}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_167 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_118, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_107}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_168 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_167, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_157}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_94 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_164, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_157}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_168, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_167}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_164 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_115, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_94}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_168, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_168}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_138 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_168, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_168}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_168 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_138, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_109}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_168 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_168, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_164}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_168 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_168, id_ctrl_decoder_decoded_andMatrixOutputs_lo_168}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_37_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_168; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_108 = id_ctrl_decoder_decoded_plaInput[23]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_95 = id_ctrl_decoder_decoded_plaInput[24]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_11 = id_ctrl_decoder_decoded_plaInput[24]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_7 = id_ctrl_decoder_decoded_plaInput[24]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_60 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_9}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_16}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_14, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_14}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_158 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_113, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_60}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_95, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_60}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_36}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_113, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_110}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_119 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_108}; // @[pla.scala:90:45, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_168 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_119, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_108}; // @[pla.scala:98:53] wire [10:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_169 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_168, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_158}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_95 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_119, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_116}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_165, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_158}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_139}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_165 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_116, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_95}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_169, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_169}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_168}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_36 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_169, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_169}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_139 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_36, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_169}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_169 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_139, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_110}; // @[pla.scala:98:53] wire [10:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_169 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_169, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_165}; // @[pla.scala:98:53] wire [21:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_169 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_169, id_ctrl_decoder_decoded_andMatrixOutputs_lo_169}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_122_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_169; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_6}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_61 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_6}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_6}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_6}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_15, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_6}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_159 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_114, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_61}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_15}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_11}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_37, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_24}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_96, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_61}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_120 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_24, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_6}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_169 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_120, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_109}; // @[pla.scala:98:53] wire [13:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_170 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_169, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_159}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_114, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_111}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_96 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_109}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_120, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_117}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_159, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_140}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_17, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_6}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_166 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_117, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_96}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_170, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_169}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_166}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_170, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_170}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_37 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_170, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_170}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_140 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_37, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_6}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_170 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_140, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_111}; // @[pla.scala:98:53] wire [13:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_170 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_170, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_166}; // @[pla.scala:98:53] wire [27:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_170 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_170, id_ctrl_decoder_decoded_andMatrixOutputs_lo_170}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_82_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_170; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_30_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_31}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_28_3, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_29_3}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_62 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_lo}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_26_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_27_7}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_24_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_25_7}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_16, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_lo_7}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_160 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_115, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_62}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_22_7, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_23_7}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_12, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_21_11}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_lo_3}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_16}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_38, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_25}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_121 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_25, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_lo_7}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_170 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_121, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_110}; // @[pla.scala:98:53] wire [15:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_171 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_170, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_160}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_97, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_62}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_112, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_110}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_97 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_lo_3}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_118, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_115}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_141, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_121}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_18, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_lo_7}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_167 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_118, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_97}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_167, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_160}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_171, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_170}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_12, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_lo_3}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_171, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_171}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_38 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_171, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_171}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_141 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_38, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_lo_7}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_171 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_141, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_112}; // @[pla.scala:98:53] wire [15:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_171 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_171, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_167}; // @[pla.scala:98:53] wire [31:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_171 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_171, id_ctrl_decoder_decoded_andMatrixOutputs_lo_171}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_119_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_171; // @[pla.scala:98:{53,70}] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_116 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_98 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_99 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_100 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_101 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_63 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_64 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_104 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_105 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_65 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_66 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_67 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_68 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_69 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_17 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_18 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_19 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_20 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_13 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_14 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_15 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_16 = id_ctrl_decoder_decoded_plaInput[31]; // @[pla.scala:77:22, :90:45] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_122, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_119}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_161 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_116, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_116}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_122 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_168, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_161}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_171 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_122, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_142}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_172 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_171, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_161}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_119 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_172, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_172}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_168 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_119, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_171}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_142 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_172, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_172}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_172 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_142, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_172}; // @[pla.scala:90:45, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_172 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_172, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_168}; // @[pla.scala:98:53] wire [11:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_172 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_172, id_ctrl_decoder_decoded_andMatrixOutputs_lo_172}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_169_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_172; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_113, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_111}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_162 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_117, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_98}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_120, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_117}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_123 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_143, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_123}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_172 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_123, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_111}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_173 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_172, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_162}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_98 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_169, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_162}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_120 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_173, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_172}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_169 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_120, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_98}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_173, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_173}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_143 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_173, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_173}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_173 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_143, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_113}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_173 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_173, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_169}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_173 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_173, id_ctrl_decoder_decoded_andMatrixOutputs_lo_173}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_57_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_173; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_114, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_112}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_163 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_118, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_99}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_121, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_118}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_124 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_144, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_124}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_173 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_124, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_112}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_174 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_173, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_163}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_99 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_170, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_163}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_121 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_174, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_173}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_170 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_121, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_99}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_174, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_174}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_144 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_174, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_174}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_174 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_144, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_114}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_174 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_174, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_170}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_174 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_174, id_ctrl_decoder_decoded_andMatrixOutputs_lo_174}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_80_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_174; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_119 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_115, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_113}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_164 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_119, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_100}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_122, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_119}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_125 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_145, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_125}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_174 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_125, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_113}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_175 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_174, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_164}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_100 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_171, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_164}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_122 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_175, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_174}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_171 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_122, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_100}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_175, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_175}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_145 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_175, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_175}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_175 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_145, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_115}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_175 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_175, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_171}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_175 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_175, id_ctrl_decoder_decoded_andMatrixOutputs_lo_175}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_166_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_175; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_120 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_116, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_114}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_165 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_120, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_101}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_123, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_120}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_126 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_146, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_126}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_175 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_126, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_114}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_176 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_175, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_165}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_101 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_172, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_165}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_123 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_176, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_175}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_172 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_123, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_101}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_176, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_176}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_146 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_176, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_176}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_176 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_146, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_116}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_176 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_176, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_172}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_176 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_176, id_ctrl_decoder_decoded_andMatrixOutputs_lo_176}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_154_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_176; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_63 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_102, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_63}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_121 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_117, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_115}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_166 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_121, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_63}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_124, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_121}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_127 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_147, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_127}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_176 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_127, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_115}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_177 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_176, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_166}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_102 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_173, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_166}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_124 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_177, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_176}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_173 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_124, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_102}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_177, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_177}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_147 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_177, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_177}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_177 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_147, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_117}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_177 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_177, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_173}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_177 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_177, id_ctrl_decoder_decoded_andMatrixOutputs_lo_177}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_192_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_177; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_64 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_103, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_64}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_122 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_118, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_116}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_167 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_122, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_64}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_125, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_122}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_128 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_148, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_128}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_177 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_128, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_116}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_178 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_177, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_167}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_103 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_174, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_167}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_125 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_178, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_177}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_174 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_125, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_103}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_178, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_178}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_148 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_178, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_178}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_178 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_148, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_118}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_178 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_178, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_174}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_178 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_178, id_ctrl_decoder_decoded_andMatrixOutputs_lo_178}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_38_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_178; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_123 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_119, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_117}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_168 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_123, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_104}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_126, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_123}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_129 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_149, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_129}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_178 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_129, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_117}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_179 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_178, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_168}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_104 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_175, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_168}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_126 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_179, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_178}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_175 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_126, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_104}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_119 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_179, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_179}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_149 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_179, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_179}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_179 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_149, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_119}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_179 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_179, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_175}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_179 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_179, id_ctrl_decoder_decoded_andMatrixOutputs_lo_179}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_158_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_179; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_124 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_120, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_118}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_169 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_124, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_105}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_127, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_124}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_130 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_150, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_130}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_179 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_130, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_118}; // @[pla.scala:98:53] wire [6:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_180 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_179, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_169}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_105 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_176, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_169}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_127 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_180, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_179}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_176 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_127, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_105}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_120 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_180, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_180}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_150 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_180, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_180}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_180 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_150, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_120}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_180 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_180, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_176}; // @[pla.scala:98:53] wire [14:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_180 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_180, id_ctrl_decoder_decoded_andMatrixOutputs_lo_180}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_110_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_180; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_106, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_65}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_125 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_121, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_119}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_170 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_125, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_65}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_119 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_128, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_125}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_131 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_151, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_131}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_180 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_131, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_119}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_181 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_180, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_170}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_106 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_177, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_170}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_128 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_181, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_180}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_177 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_128, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_106}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_121 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_181, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_181}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_151 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_181, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_181}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_181 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_151, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_121}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_181 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_181, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_177}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_181 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_181, id_ctrl_decoder_decoded_andMatrixOutputs_lo_181}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_23_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_181; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_66 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_107, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_66}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_126 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_122, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_120}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_171 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_126, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_66}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_120 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_129, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_126}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_132 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_152, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_132}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_181 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_132, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_120}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_182 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_181, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_171}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_107 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_178, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_171}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_129 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_182, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_181}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_178 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_129, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_107}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_122 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_182, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_182}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_152 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_182, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_182}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_182 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_152, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_122}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_182 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_182, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_178}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_182 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_182, id_ctrl_decoder_decoded_andMatrixOutputs_lo_182}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_101_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_182; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_67 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_108, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_67}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_127 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_123, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_121}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_172 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_127, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_67}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_121 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_130, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_127}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_133 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_153, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_133}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_182 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_133, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_121}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_183 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_182, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_172}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_108 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_179, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_172}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_130 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_183, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_182}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_179 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_130, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_108}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_123 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_183, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_183}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_153 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_183, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_183}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_183 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_153, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_123}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_183 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_183, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_179}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_183 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_183, id_ctrl_decoder_decoded_andMatrixOutputs_lo_183}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_118_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_183; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_68 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_109, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_68}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_128 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_124, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_122}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_173 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_128, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_68}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_122 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_131, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_128}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_134 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_154, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_134}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_183 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_134, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_122}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_184 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_183, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_173}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_109 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_180, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_173}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_131 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_184, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_183}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_180 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_131, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_109}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_124 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_184, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_184}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_154 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_184, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_184}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_184 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_154, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_124}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_184 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_184, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_180}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_184 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_184, id_ctrl_decoder_decoded_andMatrixOutputs_lo_184}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_116_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_184; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_69 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_110, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_69}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_129 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_125, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_123}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_174 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_129, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_69}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_123 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_132, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_129}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_135 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_155, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_135}; // @[pla.scala:91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_184 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_135, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_123}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_185 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_184, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_174}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_110 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_181, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_174}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_132 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_185, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_184}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_181 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_132, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_110}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_125 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_185, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_185}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_155 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_185, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_185}; // @[pla.scala:90:45, :98:53] wire [3:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_185 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_155, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_125}; // @[pla.scala:98:53] wire [7:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_185 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_185, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_181}; // @[pla.scala:98:53] wire [15:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_185 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_185, id_ctrl_decoder_decoded_andMatrixOutputs_lo_185}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_156_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_185; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_70 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_19, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_17}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_70, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_39}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_130 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_17, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_26}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_175 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_130, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_70}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_124 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_124, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_111}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_133, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_130}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_136 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_26, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_126}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_185 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_136, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_124}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_186 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_185, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_175}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_111 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_156, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_136}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_185, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_182}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_133 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_19, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_175}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_182 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_133, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_111}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_126 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_186, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_186}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_39 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_186, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_186}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_156 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_39, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_186}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_186 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_156, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_126}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_186 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_186, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_182}; // @[pla.scala:98:53] wire [19:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_186 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_186, id_ctrl_decoder_decoded_andMatrixOutputs_lo_186}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_113_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_186; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_71 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_20, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_18}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_71, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_40}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_131 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_18, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_27}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_176 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_131, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_71}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_125 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_125, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_112}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_134, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_131}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_137 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_27, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_127}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_186 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_137, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_125}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_187 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_186, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_176}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_112 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_157, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_137}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_186, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_183}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_134 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_20, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_176}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_183 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_134, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_112}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_127 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_187, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_187}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_40 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_187, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_187}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_157 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_40, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_187}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_187 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_157, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_127}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_187 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_187, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_183}; // @[pla.scala:98:53] wire [19:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_187 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_187, id_ctrl_decoder_decoded_andMatrixOutputs_lo_187}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_107_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_187; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_72 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_19}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_72, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_41}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_132 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_19, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_28}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_177 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_132, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_72}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_126 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_126, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_113}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_135, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_132}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_138 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_28, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_128}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_187 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_138, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_126}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_188 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_187, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_177}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_113 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_158, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_138}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_187, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_184}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_135 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_177}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_184 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_135, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_113}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_128 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_188, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_188}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_41 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_188, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_188}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_158 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_41, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_188}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_188 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_158, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_128}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_188 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_188, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_184}; // @[pla.scala:98:53] wire [19:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_188 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_188, id_ctrl_decoder_decoded_andMatrixOutputs_lo_188}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_84_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_188; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_73 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_20}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_73, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_42}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_133 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_20, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_29}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_178 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_133, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_73}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_127 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_127, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_114}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_136, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_133}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_139 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_29, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_129}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_188 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_139, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_127}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_189 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_188, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_178}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_114 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_159, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_139}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_188, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_185}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_136 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_178}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_185 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_136, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_114}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_129 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_189, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_189}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_42 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_189, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_189}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_159 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_42, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_189}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_189 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_159, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_129}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_189 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_189, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_185}; // @[pla.scala:98:53] wire [19:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_189 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_189, id_ctrl_decoder_decoded_andMatrixOutputs_lo_189}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_33_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_189; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_74 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_13}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_43, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_30}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_134 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_21, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_23}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_179 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_134, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_74}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_128 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_115, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_74}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_134, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_130}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_140 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_30, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_128}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_189 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_140, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_128}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_190 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_189, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_179}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_115 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_140, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_137}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_186, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_179}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_137 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_160}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_186 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_137, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_115}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_190, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_190}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_130 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_13, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_189}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_43 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_190, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_190}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_160 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_43, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_190}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_190 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_160, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_130}; // @[pla.scala:98:53] wire [10:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_190 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_190, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_186}; // @[pla.scala:98:53] wire [20:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_190 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_190, id_ctrl_decoder_decoded_andMatrixOutputs_lo_190}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_85_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_190; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_75 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_14}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_44, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_31}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_135 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_22, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_24}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_180 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_135, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_75}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_129 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_116, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_75}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_135, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_131}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_141 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_31, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_129}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_190 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_141, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_129}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_191 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_190, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_180}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_116 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_141, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_138}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_187, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_180}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_138 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_24, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_161}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_187 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_138, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_116}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_191, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_191}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_131 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_14, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_190}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_44 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_191, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_191}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_161 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_44, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_191}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_191 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_161, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_131}; // @[pla.scala:98:53] wire [10:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_191 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_191, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_187}; // @[pla.scala:98:53] wire [20:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_191 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_191, id_ctrl_decoder_decoded_andMatrixOutputs_lo_191}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_40_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_191; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_76 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_15}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_45, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_32}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_136 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_23, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_25}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_181 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_136, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_76}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_130 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_117, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_76}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_136, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_132}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_142 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_32, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_130}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_191 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_142, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_130}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_192 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_191, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_181}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_117 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_142, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_139}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_188, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_181}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_139 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_25, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_162}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_188 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_139, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_117}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_192, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_192}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_132 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_15, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_191}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_192, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_192}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_162 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_45, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_192}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_192 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_162, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_132}; // @[pla.scala:98:53] wire [10:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_192 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_192, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_188}; // @[pla.scala:98:53] wire [20:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_192 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_192, id_ctrl_decoder_decoded_andMatrixOutputs_lo_192}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_12_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_192; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_77 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_19_24, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_20_16}; // @[pla.scala:90:45, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_16_46, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_17_33}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_137 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_hi_24, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_18_26}; // @[pla.scala:90:45, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_182 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_hi_137, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_lo_77}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_131 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_14_118, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_15_77}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_11_137, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_12_133}; // @[pla.scala:91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_143 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_hi_33, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_13_131}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_192 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_hi_143, id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_lo_131}; // @[pla.scala:98:53] wire [9:0] id_ctrl_decoder_decoded_andMatrixOutputs_lo_193 = {id_ctrl_decoder_decoded_andMatrixOutputs_lo_hi_192, id_ctrl_decoder_decoded_andMatrixOutputs_lo_lo_182}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_118 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_9_143, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_10_140}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_6_189, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_7_182}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_140 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_hi_26, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_8_163}; // @[pla.scala:91:29, :98:53] wire [4:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_189 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_hi_140, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_lo_118}; // @[pla.scala:98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_3_193, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_4_193}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_133 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_hi_16, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_5_192}; // @[pla.scala:91:29, :98:53] wire [1:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_46 = {id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_0_193, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_1_193}; // @[pla.scala:90:45, :98:53] wire [2:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_163 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_hi_46, id_ctrl_decoder_decoded_andMatrixOutputs_andMatrixInput_2_193}; // @[pla.scala:91:29, :98:53] wire [5:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_193 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_hi_163, id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_lo_133}; // @[pla.scala:98:53] wire [10:0] id_ctrl_decoder_decoded_andMatrixOutputs_hi_193 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_hi_193, id_ctrl_decoder_decoded_andMatrixOutputs_hi_lo_189}; // @[pla.scala:98:53] wire [20:0] _id_ctrl_decoder_decoded_andMatrixOutputs_T_193 = {id_ctrl_decoder_decoded_andMatrixOutputs_hi_193, id_ctrl_decoder_decoded_andMatrixOutputs_lo_193}; // @[pla.scala:98:53] wire id_ctrl_decoder_decoded_andMatrixOutputs_75_2 = &_id_ctrl_decoder_decoded_andMatrixOutputs_T_193; // @[pla.scala:98:{53,70}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_118_2, id_ctrl_decoder_decoded_andMatrixOutputs_85_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_40_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_114_2, id_ctrl_decoder_decoded_andMatrixOutputs_174_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_127_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_86_2, id_ctrl_decoder_decoded_andMatrixOutputs_10_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_93_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_148_2, id_ctrl_decoder_decoded_andMatrixOutputs_76_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_87_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo}; // @[pla.scala:114:19] wire [11:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T = {id_ctrl_decoder_decoded_orMatrixOutputs_hi, id_ctrl_decoder_decoded_orMatrixOutputs_lo}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_1 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T; // @[pla.scala:114:{19,36}] wire [1:0] _GEN = {id_ctrl_decoder_decoded_andMatrixOutputs_14_2, id_ctrl_decoder_decoded_andMatrixOutputs_0_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_1 = _GEN; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_6; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_6 = _GEN; // @[pla.scala:114:19] wire [2:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_137_2}; // @[pla.scala:98:70, :114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_3 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_2; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_47_2, id_ctrl_decoder_decoded_andMatrixOutputs_83_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_1 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_82_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_155_2, id_ctrl_decoder_decoded_andMatrixOutputs_59_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_55_2, id_ctrl_decoder_decoded_andMatrixOutputs_185_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_1, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_1}; // @[pla.scala:114:19] wire [6:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_2, id_ctrl_decoder_decoded_orMatrixOutputs_lo_1}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_9 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_8; // @[pla.scala:114:{19,36}] wire [1:0] _GEN_0 = {id_ctrl_decoder_decoded_andMatrixOutputs_84_2, id_ctrl_decoder_decoded_andMatrixOutputs_33_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo = _GEN_0; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_2 = _GEN_0; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_lo; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_lo = _GEN_0; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_154_2, id_ctrl_decoder_decoded_andMatrixOutputs_23_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_101_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_57_2, id_ctrl_decoder_decoded_andMatrixOutputs_80_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_166_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_100_2, id_ctrl_decoder_decoded_andMatrixOutputs_89_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_122_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_1 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_1 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_1, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_69_2, id_ctrl_decoder_decoded_andMatrixOutputs_151_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_1_2}; // @[pla.scala:98:70, :114:19] wire [1:0] _GEN_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_52_2, id_ctrl_decoder_decoded_andMatrixOutputs_173_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi = _GEN_1; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_2 = _GEN_1; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_4; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_4 = _GEN_1; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_42_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo}; // @[pla.scala:114:19] wire [1:0] _GEN_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_180_2, id_ctrl_decoder_decoded_andMatrixOutputs_135_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi = _GEN_2; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_8; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_8 = _GEN_2; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_1 = _GEN_2; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_24; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_24 = _GEN_2; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_2 = _GEN_2; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_3 = _GEN_2; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_188_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_137_2, id_ctrl_decoder_decoded_andMatrixOutputs_159_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_34_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_1 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo}; // @[pla.scala:114:19] wire [11:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_1, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo}; // @[pla.scala:114:19] wire [22:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_2, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_1}; // @[pla.scala:114:19] wire [1:0] _GEN_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_0_2, id_ctrl_decoder_decoded_andMatrixOutputs_60_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo = _GEN_3; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_2 = _GEN_3; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_4; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_4 = _GEN_3; // @[pla.scala:114:19] wire [1:0] _GEN_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_41_2, id_ctrl_decoder_decoded_andMatrixOutputs_8_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi = _GEN_4; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_10; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_10 = _GEN_4; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_3 = _GEN_4; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_28_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo}; // @[pla.scala:114:19] wire [1:0] _GEN_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_14_2, id_ctrl_decoder_decoded_andMatrixOutputs_155_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_hi; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_hi = _GEN_5; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_3 = _GEN_5; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_126_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_105_2, id_ctrl_decoder_decoded_andMatrixOutputs_185_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_17_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_1 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_1, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_191_2, id_ctrl_decoder_decoded_andMatrixOutputs_164_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_121_2}; // @[pla.scala:98:70, :114:19] wire [1:0] _GEN_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_7_2, id_ctrl_decoder_decoded_andMatrixOutputs_98_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi = _GEN_6; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_7; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_7 = _GEN_6; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_lo; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_lo = _GEN_6; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_71_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo}; // @[pla.scala:114:19] wire [1:0] _GEN_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_96_2, id_ctrl_decoder_decoded_andMatrixOutputs_35_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_hi; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_hi = _GEN_7; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_4; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_4 = _GEN_7; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_hi, id_ctrl_decoder_decoded_andMatrixOutputs_190_2}; // @[pla.scala:98:70, :114:19] wire [1:0] _GEN_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_99_2, id_ctrl_decoder_decoded_andMatrixOutputs_9_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi = _GEN_8; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_1 = _GEN_8; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_5; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_5 = _GEN_8; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_2 = _GEN_8; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_7; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_7 = _GEN_8; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_3 = _GEN_8; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_4; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_4 = _GEN_8; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_hi; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_hi = _GEN_8; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_139_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_1 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo}; // @[pla.scala:114:19] wire [11:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_1, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo}; // @[pla.scala:114:19] wire [22:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_3 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_2, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_2}; // @[pla.scala:114:19] wire [45:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_10 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_lo_2}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_11 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_10; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_176_2, id_ctrl_decoder_decoded_andMatrixOutputs_172_2}; // @[pla.scala:98:70, :114:19] wire [2:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_8_2}; // @[pla.scala:98:70, :114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_13 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_12; // @[pla.scala:114:{19,36}] wire [1:0] _GEN_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_12_2, id_ctrl_decoder_decoded_andMatrixOutputs_75_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_1 = _GEN_9; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_2 = _GEN_9; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_4; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_4 = _GEN_9; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_116_2, id_ctrl_decoder_decoded_andMatrixOutputs_156_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_2, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_1}; // @[pla.scala:114:19] wire [1:0] _GEN_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_51_2, id_ctrl_decoder_decoded_andMatrixOutputs_136_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_1 = _GEN_10; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_2 = _GEN_10; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_lo; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_lo = _GEN_10; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_72_2, id_ctrl_decoder_decoded_andMatrixOutputs_81_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_157_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_3 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_2, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_1}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_3 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_2}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_45_2, id_ctrl_decoder_decoded_andMatrixOutputs_114_2}; // @[pla.scala:98:70, :114:19] wire [1:0] _GEN_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_153_2, id_ctrl_decoder_decoded_andMatrixOutputs_109_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_1 = _GEN_11; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_12; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_12 = _GEN_11; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_3 = _GEN_11; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_187_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_3 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_2, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_1}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_77_2, id_ctrl_decoder_decoded_andMatrixOutputs_92_2}; // @[pla.scala:98:70, :114:19] wire [1:0] _GEN_12 = {id_ctrl_decoder_decoded_andMatrixOutputs_181_2, id_ctrl_decoder_decoded_andMatrixOutputs_20_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_1 = _GEN_12; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_3 = _GEN_12; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_2 = _GEN_12; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_11; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_11 = _GEN_12; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_22_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_3 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_2, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_1}; // @[pla.scala:114:19] wire [9:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_3}; // @[pla.scala:114:19] wire [18:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_lo_3}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_15 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_14; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_109_2, id_ctrl_decoder_decoded_andMatrixOutputs_51_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_3 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_136_2}; // @[pla.scala:98:70, :114:19] wire [1:0] _GEN_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_6_2, id_ctrl_decoder_decoded_andMatrixOutputs_134_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_3 = _GEN_13; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_2 = _GEN_13; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_lo; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_lo = _GEN_13; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_153_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_4, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_3}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_123_2, id_ctrl_decoder_decoded_andMatrixOutputs_124_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_50_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_22_2, id_ctrl_decoder_decoded_andMatrixOutputs_160_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_2}; // @[pla.scala:114:19] wire [6:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_4, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_4}; // @[pla.scala:114:19] wire [12:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_17 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_6, id_ctrl_decoder_decoded_orMatrixOutputs_lo_4}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_18 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_17; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_23_2, id_ctrl_decoder_decoded_andMatrixOutputs_101_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_4, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_2}; // @[pla.scala:114:19] wire [1:0] _GEN_14 = {id_ctrl_decoder_decoded_andMatrixOutputs_70_2, id_ctrl_decoder_decoded_andMatrixOutputs_174_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_2 = _GEN_14; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_lo; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_lo = _GEN_14; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_130_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_4, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_2}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_4}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_109_2, id_ctrl_decoder_decoded_andMatrixOutputs_141_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_153_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_4, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_2}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_124_2, id_ctrl_decoder_decoded_andMatrixOutputs_50_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_22_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_4, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_3}; // @[pla.scala:114:19] wire [9:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_5}; // @[pla.scala:114:19] wire [18:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_19 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_7, id_ctrl_decoder_decoded_orMatrixOutputs_lo_5}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_20 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_19; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_65_2, id_ctrl_decoder_decoded_andMatrixOutputs_79_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_128_2, id_ctrl_decoder_decoded_andMatrixOutputs_165_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_177_2}; // @[pla.scala:98:70, :114:19] wire [4:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_21 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_8, id_ctrl_decoder_decoded_orMatrixOutputs_lo_6}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_22 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_21; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_137_2, id_ctrl_decoder_decoded_andMatrixOutputs_65_2}; // @[pla.scala:98:70, :114:19] wire [2:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_23 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_58_2}; // @[pla.scala:98:70, :114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_24 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_23; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_83_2, id_ctrl_decoder_decoded_andMatrixOutputs_169_2}; // @[pla.scala:98:70, :114:19] wire [1:0] _GEN_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_0_2, id_ctrl_decoder_decoded_andMatrixOutputs_137_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_10; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_10 = _GEN_15; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_7; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_7 = _GEN_15; // @[pla.scala:114:19] wire [3:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_25 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_10, id_ctrl_decoder_decoded_orMatrixOutputs_lo_7}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_26 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_25; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_74_2, id_ctrl_decoder_decoded_andMatrixOutputs_111_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_6, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_5}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_30_2, id_ctrl_decoder_decoded_andMatrixOutputs_140_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_102_2, id_ctrl_decoder_decoded_andMatrixOutputs_9_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_29_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_11 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_7, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_6}; // @[pla.scala:114:19] wire [8:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_29 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_11, id_ctrl_decoder_decoded_orMatrixOutputs_lo_8}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_30 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_29; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_142_2, id_ctrl_decoder_decoded_andMatrixOutputs_46_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_149_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_167_2, id_ctrl_decoder_decoded_andMatrixOutputs_138_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_104_2, id_ctrl_decoder_decoded_andMatrixOutputs_28_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_3}; // @[pla.scala:114:19] wire [6:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_7, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_6}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_15_2, id_ctrl_decoder_decoded_andMatrixOutputs_144_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_94_2, id_ctrl_decoder_decoded_andMatrixOutputs_125_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_3}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_56_2, id_ctrl_decoder_decoded_andMatrixOutputs_179_2}; // @[pla.scala:98:70, :114:19] wire [1:0] _GEN_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_121_2, id_ctrl_decoder_decoded_andMatrixOutputs_105_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_6; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_6 = _GEN_16; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_3 = _GEN_16; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_hi; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_hi = _GEN_16; // @[pla.scala:114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_6, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_4}; // @[pla.scala:114:19] wire [7:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_8, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_7}; // @[pla.scala:114:19] wire [14:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_31 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_12, id_ctrl_decoder_decoded_orMatrixOutputs_lo_9}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_32 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_31; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_64_2, id_ctrl_decoder_decoded_andMatrixOutputs_142_2}; // @[pla.scala:98:70, :114:19] wire [1:0] _GEN_17 = {id_ctrl_decoder_decoded_andMatrixOutputs_138_2, id_ctrl_decoder_decoded_andMatrixOutputs_173_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_6; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_6 = _GEN_17; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_5; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_5 = _GEN_17; // @[pla.scala:114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_6, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_3}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_25_2, id_ctrl_decoder_decoded_andMatrixOutputs_52_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_43_2, id_ctrl_decoder_decoded_andMatrixOutputs_3_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_4_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_6, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_4}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_10 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_8, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_7}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_73_2, id_ctrl_decoder_decoded_andMatrixOutputs_163_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_168_2, id_ctrl_decoder_decoded_andMatrixOutputs_36_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_6, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_4}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_112_2, id_ctrl_decoder_decoded_andMatrixOutputs_170_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_39_2, id_ctrl_decoder_decoded_andMatrixOutputs_115_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_162_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_7, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_5}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_9, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_8}; // @[pla.scala:114:19] wire [17:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_33 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_13, id_ctrl_decoder_decoded_orMatrixOutputs_lo_10}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_34 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_33; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_5_2, id_ctrl_decoder_decoded_andMatrixOutputs_41_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_8_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_11 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_9, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_8}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_150_2, id_ctrl_decoder_decoded_andMatrixOutputs_161_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_133_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_17_2, id_ctrl_decoder_decoded_andMatrixOutputs_132_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_10 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_44_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_10, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_9}; // @[pla.scala:114:19] wire [10:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_35 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_14, id_ctrl_decoder_decoded_orMatrixOutputs_lo_11}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_36 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_35; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_54_2, id_ctrl_decoder_decoded_andMatrixOutputs_183_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_147_2, id_ctrl_decoder_decoded_andMatrixOutputs_178_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_10 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_19_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_10, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_9}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_48_2, id_ctrl_decoder_decoded_andMatrixOutputs_25_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_129_2, id_ctrl_decoder_decoded_andMatrixOutputs_49_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_11 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_161_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_15 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_11, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_10}; // @[pla.scala:114:19] wire [9:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_37 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_15, id_ctrl_decoder_decoded_orMatrixOutputs_lo_12}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_38 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_37; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_171_2, id_ctrl_decoder_decoded_andMatrixOutputs_37_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_10 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_122_2}; // @[pla.scala:98:70, :114:19] wire [1:0] _GEN_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_108_2, id_ctrl_decoder_decoded_andMatrixOutputs_89_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_5; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_5 = _GEN_18; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_lo; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_lo = _GEN_18; // @[pla.scala:114:19] wire [1:0] _GEN_19 = {id_ctrl_decoder_decoded_andMatrixOutputs_106_2, id_ctrl_decoder_decoded_andMatrixOutputs_186_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_9; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_9 = _GEN_19; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_3 = _GEN_19; // @[pla.scala:114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_11 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_9, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_5}; // @[pla.scala:114:19] wire [6:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_11, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_10}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_11_2, id_ctrl_decoder_decoded_andMatrixOutputs_42_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_11 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_69_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_188_2, id_ctrl_decoder_decoded_andMatrixOutputs_27_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_60_2, id_ctrl_decoder_decoded_andMatrixOutputs_48_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_10, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_6}; // @[pla.scala:114:19] wire [6:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_16 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_12, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_11}; // @[pla.scala:114:19] wire [13:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_39 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_16, id_ctrl_decoder_decoded_orMatrixOutputs_lo_13}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_40 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_39; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_62_2, id_ctrl_decoder_decoded_andMatrixOutputs_122_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_151_2, id_ctrl_decoder_decoded_andMatrixOutputs_18_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_1, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_1}; // @[pla.scala:114:19] wire [1:0] _GEN_20 = {id_ctrl_decoder_decoded_andMatrixOutputs_42_2, id_ctrl_decoder_decoded_andMatrixOutputs_69_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_1 = _GEN_20; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_2 = _GEN_20; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_3 = _GEN_20; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_135_2, id_ctrl_decoder_decoded_andMatrixOutputs_188_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_1 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_52_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_1, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_1}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_11 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_8, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_4}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_34_2, id_ctrl_decoder_decoded_andMatrixOutputs_180_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_83_2, id_ctrl_decoder_decoded_andMatrixOutputs_159_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_1, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_1}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_60_2, id_ctrl_decoder_decoded_andMatrixOutputs_137_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_189_2, id_ctrl_decoder_decoded_andMatrixOutputs_28_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_0_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_10 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_4, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_1}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_10, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_6}; // @[pla.scala:114:19] wire [17:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_12, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_11}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_161_2, id_ctrl_decoder_decoded_andMatrixOutputs_41_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_155_2, id_ctrl_decoder_decoded_andMatrixOutputs_126_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_1, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_1}; // @[pla.scala:114:19] wire [1:0] _GEN_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_17_2, id_ctrl_decoder_decoded_andMatrixOutputs_14_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_1 = _GEN_21; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_1 = _GEN_21; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_2 = _GEN_21; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_121_2, id_ctrl_decoder_decoded_andMatrixOutputs_95_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_3 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_140_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_1}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_9, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_5}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_164_2, id_ctrl_decoder_decoded_andMatrixOutputs_30_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_7_2, id_ctrl_decoder_decoded_andMatrixOutputs_131_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_1, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_1}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_35_2, id_ctrl_decoder_decoded_andMatrixOutputs_78_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_29_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_11 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_4, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_1}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_11, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_7}; // @[pla.scala:114:19] wire [17:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_17 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_13, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_12}; // @[pla.scala:114:19] wire [35:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_41 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_17, id_ctrl_decoder_decoded_orMatrixOutputs_lo_14}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_42 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_41; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_66_2, id_ctrl_decoder_decoded_andMatrixOutputs_146_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_18 = {id_ctrl_decoder_decoded_andMatrixOutputs_97_2, id_ctrl_decoder_decoded_andMatrixOutputs_164_2}; // @[pla.scala:98:70, :114:19] wire [3:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_43 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_18, id_ctrl_decoder_decoded_orMatrixOutputs_lo_15}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_44 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_43; // @[pla.scala:114:{19,36}] wire [1:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_45 = {id_ctrl_decoder_decoded_andMatrixOutputs_35_2, id_ctrl_decoder_decoded_andMatrixOutputs_164_2}; // @[pla.scala:98:70, :114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_46 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_45; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_100_2, id_ctrl_decoder_decoded_andMatrixOutputs_122_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_42_2, id_ctrl_decoder_decoded_andMatrixOutputs_151_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_1_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_9, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_5}; // @[pla.scala:114:19] wire [1:0] _GEN_22 = {id_ctrl_decoder_decoded_andMatrixOutputs_188_2, id_ctrl_decoder_decoded_andMatrixOutputs_52_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_2 = _GEN_22; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_3 = _GEN_22; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_lo; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_lo = _GEN_22; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_120_2}; // @[pla.scala:98:70, :114:19] wire [1:0] _GEN_23 = {id_ctrl_decoder_decoded_andMatrixOutputs_28_2, id_ctrl_decoder_decoded_andMatrixOutputs_60_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_5; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_5 = _GEN_23; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_3 = _GEN_23; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_11 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_180_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_11, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_7}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_16 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_13, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_12}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_91_2, id_ctrl_decoder_decoded_andMatrixOutputs_2_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_24_2, id_ctrl_decoder_decoded_andMatrixOutputs_53_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_10 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_17_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_10, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_6}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_2 = {id_ctrl_decoder_decoded_andMatrixOutputs_191_2, id_ctrl_decoder_decoded_andMatrixOutputs_26_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_61_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_5, id_ctrl_decoder_decoded_andMatrixOutputs_96_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_12, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_8}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_19 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_14, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_13}; // @[pla.scala:114:19] wire [21:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_47 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_19, id_ctrl_decoder_decoded_orMatrixOutputs_lo_16}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_48 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_47; // @[pla.scala:114:{19,36}] wire [1:0] _GEN_24 = {id_ctrl_decoder_decoded_andMatrixOutputs_122_2, id_ctrl_decoder_decoded_andMatrixOutputs_116_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_1 = _GEN_24; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_2 = _GEN_24; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_156_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_2, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_2}; // @[pla.scala:114:19] wire [1:0] _GEN_25 = {id_ctrl_decoder_decoded_andMatrixOutputs_1_2, id_ctrl_decoder_decoded_andMatrixOutputs_100_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_1 = _GEN_25; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_3 = _GEN_25; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_4; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_4 = _GEN_25; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_2 = _GEN_25; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_89_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_3 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_151_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_10 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_2}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_10, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_6}; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_3 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_188_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_2}; // @[pla.scala:114:19] wire [1:0] _GEN_26 = {id_ctrl_decoder_decoded_andMatrixOutputs_31_2, id_ctrl_decoder_decoded_andMatrixOutputs_159_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_1 = _GEN_26; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_2 = _GEN_26; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_34_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_137_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_6, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_2}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_12, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_8}; // @[pla.scala:114:19] wire [21:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_17 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_14, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_13}; // @[pla.scala:114:19] wire [1:0] _GEN_27 = {id_ctrl_decoder_decoded_andMatrixOutputs_8_2, id_ctrl_decoder_decoded_andMatrixOutputs_28_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_2 = _GEN_27; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_4; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_4 = _GEN_27; // @[pla.scala:114:19] wire [1:0] _GEN_28 = {id_ctrl_decoder_decoded_andMatrixOutputs_126_2, id_ctrl_decoder_decoded_andMatrixOutputs_161_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_1 = _GEN_28; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_2 = _GEN_28; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_lo; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_lo = _GEN_28; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_41_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_2, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_2}; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_184_2}; // @[pla.scala:98:70, :114:19] wire [1:0] _GEN_29 = {id_ctrl_decoder_decoded_andMatrixOutputs_105_2, id_ctrl_decoder_decoded_andMatrixOutputs_16_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_2 = _GEN_29; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_4; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_4 = _GEN_29; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_140_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_11 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_2}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_11, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_7}; // @[pla.scala:114:19] wire [1:0] _GEN_30 = {id_ctrl_decoder_decoded_andMatrixOutputs_30_2, id_ctrl_decoder_decoded_andMatrixOutputs_121_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_2 = _GEN_30; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_4; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_4 = _GEN_30; // @[pla.scala:114:19] wire [1:0] _GEN_31 = {id_ctrl_decoder_decoded_andMatrixOutputs_98_2, id_ctrl_decoder_decoded_andMatrixOutputs_71_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_1 = _GEN_31; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_3 = _GEN_31; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_2 = _GEN_31; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_3 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_131_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_2}; // @[pla.scala:114:19] wire [1:0] _GEN_32 = {id_ctrl_decoder_decoded_andMatrixOutputs_96_2, id_ctrl_decoder_decoded_andMatrixOutputs_190_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_1; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_1 = _GEN_32; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_2; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_2 = _GEN_32; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_2 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_1, id_ctrl_decoder_decoded_andMatrixOutputs_7_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_29_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_6, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_2}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_15 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_13, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_9}; // @[pla.scala:114:19] wire [21:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_20 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_15, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_14}; // @[pla.scala:114:19] wire [43:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_49 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_20, id_ctrl_decoder_decoded_orMatrixOutputs_lo_17}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_50 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_49; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_15 = {id_ctrl_decoder_decoded_andMatrixOutputs_28_2, id_ctrl_decoder_decoded_andMatrixOutputs_159_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_18 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_15, id_ctrl_decoder_decoded_andMatrixOutputs_34_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_16 = {id_ctrl_decoder_decoded_andMatrixOutputs_182_2, id_ctrl_decoder_decoded_andMatrixOutputs_164_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_21 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_16, id_ctrl_decoder_decoded_andMatrixOutputs_189_2}; // @[pla.scala:98:70, :114:19] wire [5:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_51 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_21, id_ctrl_decoder_decoded_orMatrixOutputs_lo_18}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_52 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_51; // @[pla.scala:114:{19,36}] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_122_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_120_2, id_ctrl_decoder_decoded_andMatrixOutputs_42_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_11 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_151_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_11, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_7}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_180_2, id_ctrl_decoder_decoded_andMatrixOutputs_188_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_52_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_7 = {id_ctrl_decoder_decoded_andMatrixOutputs_2_2, id_ctrl_decoder_decoded_andMatrixOutputs_28_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_60_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_16 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_13, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_9}; // @[pla.scala:114:19] wire [11:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_19 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_16, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_14}; // @[pla.scala:114:19] wire [1:0] _GEN_33 = {id_ctrl_decoder_decoded_andMatrixOutputs_140_2, id_ctrl_decoder_decoded_andMatrixOutputs_17_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_3; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_3 = _GEN_33; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_4; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_4 = _GEN_33; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_lo; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_lo = _GEN_33; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_91_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_6 = {id_ctrl_decoder_decoded_andMatrixOutputs_30_2, id_ctrl_decoder_decoded_andMatrixOutputs_61_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_6, id_ctrl_decoder_decoded_andMatrixOutputs_24_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_15 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_12, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_8}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_4 = {id_ctrl_decoder_decoded_andMatrixOutputs_35_2, id_ctrl_decoder_decoded_andMatrixOutputs_191_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_10 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_164_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_29_2, id_ctrl_decoder_decoded_andMatrixOutputs_96_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_7, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_3}; // @[pla.scala:114:19] wire [6:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_17 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_14, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_10}; // @[pla.scala:114:19] wire [12:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_22 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_17, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_15}; // @[pla.scala:114:19] wire [24:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_53 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_22, id_ctrl_decoder_decoded_orMatrixOutputs_lo_19}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_54 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_53; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_89_2, id_ctrl_decoder_decoded_andMatrixOutputs_122_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_4, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_3}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_142_2, id_ctrl_decoder_decoded_andMatrixOutputs_151_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_3}; // @[pla.scala:114:19] wire [7:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_15 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_12, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_8}; // @[pla.scala:114:19] wire [1:0] _GEN_34 = {id_ctrl_decoder_decoded_andMatrixOutputs_159_2, id_ctrl_decoder_decoded_andMatrixOutputs_34_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_5; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_5 = _GEN_34; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_7; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_7 = _GEN_34; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_lo; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_lo = _GEN_34; // @[pla.scala:114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_10 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_3}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_146_2, id_ctrl_decoder_decoded_andMatrixOutputs_41_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_8_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_8, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_3}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_17 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_14, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_10}; // @[pla.scala:114:19] wire [16:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_20 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_17, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_15}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_126_2, id_ctrl_decoder_decoded_andMatrixOutputs_66_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_4, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_3}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_97_2, id_ctrl_decoder_decoded_andMatrixOutputs_131_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_30_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_7, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_3}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_16 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_13, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_9}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_5 = {id_ctrl_decoder_decoded_andMatrixOutputs_190_2, id_ctrl_decoder_decoded_andMatrixOutputs_7_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_11 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_3}; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_29_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_15 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_8, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_4}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_18 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_15, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_11}; // @[pla.scala:114:19] wire [17:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_23 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_18, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_16}; // @[pla.scala:114:19] wire [34:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_55 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_23, id_ctrl_decoder_decoded_orMatrixOutputs_lo_20}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_56 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_55; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_21 = {id_ctrl_decoder_decoded_andMatrixOutputs_68_2, id_ctrl_decoder_decoded_andMatrixOutputs_63_2}; // @[pla.scala:98:70, :114:19] wire [3:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_57 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_24, id_ctrl_decoder_decoded_orMatrixOutputs_lo_21}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_58 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_57; // @[pla.scala:114:{19,36}] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_156_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_4}; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_89_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_3, id_ctrl_decoder_decoded_andMatrixOutputs_151_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_6, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_4}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_16 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_13, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_9}; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_188_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_11 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_6, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_4}; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_34_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_137_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_15 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_9, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_4}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_18 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_15, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_11}; // @[pla.scala:114:19] wire [21:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_22 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_18, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_16}; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_41_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_10 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_4}; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_184_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_140_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_8, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_4}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_17 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_14, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_10}; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_131_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_6, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_4}; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_2, id_ctrl_decoder_decoded_andMatrixOutputs_7_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_4, id_ctrl_decoder_decoded_andMatrixOutputs_29_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_16 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_9, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_5}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_19 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_16, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_12}; // @[pla.scala:114:19] wire [21:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_25 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_19, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_17}; // @[pla.scala:114:19] wire [43:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_59 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_25, id_ctrl_decoder_decoded_orMatrixOutputs_lo_22}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_60 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_59; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_69_2, id_ctrl_decoder_decoded_andMatrixOutputs_89_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_135_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_17 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_14, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_10}; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_13_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_16 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_28_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_19 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_16, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_12}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_23 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_19, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_17}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_161_2, id_ctrl_decoder_decoded_andMatrixOutputs_88_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_9 = {id_ctrl_decoder_decoded_andMatrixOutputs_71_2, id_ctrl_decoder_decoded_andMatrixOutputs_14_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_15 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_9, id_ctrl_decoder_decoded_andMatrixOutputs_126_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_18 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_15, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_11}; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_7, id_ctrl_decoder_decoded_andMatrixOutputs_32_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_128_2, id_ctrl_decoder_decoded_andMatrixOutputs_67_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_17 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_190_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_20 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_17, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_13}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_26 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_20, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_18}; // @[pla.scala:114:19] wire [21:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_61 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_26, id_ctrl_decoder_decoded_orMatrixOutputs_lo_23}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_62 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_61; // @[pla.scala:114:{19,36}] wire [1:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_65 = {id_ctrl_decoder_decoded_andMatrixOutputs_97_2, id_ctrl_decoder_decoded_andMatrixOutputs_161_2}; // @[pla.scala:98:70, :114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_66 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_65; // @[pla.scala:114:{19,36}] wire [1:0] _GEN_35 = {id_ctrl_decoder_decoded_andMatrixOutputs_158_2, id_ctrl_decoder_decoded_andMatrixOutputs_110_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_11; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_11 = _GEN_35; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_lo; // @[pla.scala:114:19] assign id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_lo = _GEN_35; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_136_2, id_ctrl_decoder_decoded_andMatrixOutputs_192_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_15 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_38_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_18 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_15, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_11}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_13 = {id_ctrl_decoder_decoded_andMatrixOutputs_130_2, id_ctrl_decoder_decoded_andMatrixOutputs_51_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_11 = {id_ctrl_decoder_decoded_andMatrixOutputs_141_2, id_ctrl_decoder_decoded_andMatrixOutputs_70_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_17 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_174_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_20 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_17, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_13}; // @[pla.scala:114:19] wire [9:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_24 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_20, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_18}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_10 = {id_ctrl_decoder_decoded_andMatrixOutputs_50_2, id_ctrl_decoder_decoded_andMatrixOutputs_6_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_16 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_10, id_ctrl_decoder_decoded_andMatrixOutputs_134_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_19 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_16, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_12}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_8 = {id_ctrl_decoder_decoded_andMatrixOutputs_175_2, id_ctrl_decoder_decoded_andMatrixOutputs_193_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_8, id_ctrl_decoder_decoded_andMatrixOutputs_124_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_18 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_11, id_ctrl_decoder_decoded_andMatrixOutputs_22_2}; // @[pla.scala:98:70, :114:19] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_21 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_18, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_14}; // @[pla.scala:114:19] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_27 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_21, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_19}; // @[pla.scala:114:19] wire [20:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_67 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_27, id_ctrl_decoder_decoded_orMatrixOutputs_lo_24}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_68 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_67; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_113_2, id_ctrl_decoder_decoded_andMatrixOutputs_107_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_hi, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_lo}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_122_2, id_ctrl_decoder_decoded_andMatrixOutputs_119_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_lo}; // @[pla.scala:114:19] wire [7:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_6, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_5}; // @[pla.scala:114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_lo}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_130_2, id_ctrl_decoder_decoded_andMatrixOutputs_42_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_4 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_69_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_4, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_lo}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_16 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_9, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_5}; // @[pla.scala:114:19] wire [16:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_19 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_16, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_12}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_173_2, id_ctrl_decoder_decoded_andMatrixOutputs_141_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_hi_1, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_lo}; // @[pla.scala:114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_8 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_lo}; // @[pla.scala:114:19] wire [7:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_8, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_5}; // @[pla.scala:114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_lo}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_111_2, id_ctrl_decoder_decoded_andMatrixOutputs_124_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_50_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_lo}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_18 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_12, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_5}; // @[pla.scala:114:19] wire [16:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_21 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_18, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_14}; // @[pla.scala:114:19] wire [33:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_25 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_21, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_19}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_152_2, id_ctrl_decoder_decoded_andMatrixOutputs_103_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_60_2, id_ctrl_decoder_decoded_andMatrixOutputs_74_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_hi, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_lo}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_28_2, id_ctrl_decoder_decoded_andMatrixOutputs_0_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_lo}; // @[pla.scala:114:19] wire [7:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_6, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_5}; // @[pla.scala:114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_lo}; // @[pla.scala:114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_95_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_11 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_lo}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_17 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_11, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_5}; // @[pla.scala:114:19] wire [16:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_20 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_17, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_13}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_90_2, id_ctrl_decoder_decoded_andMatrixOutputs_30_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_hi_1 = {id_ctrl_decoder_decoded_andMatrixOutputs_131_2, id_ctrl_decoder_decoded_andMatrixOutputs_164_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_hi_1, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_lo}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_20_2, id_ctrl_decoder_decoded_andMatrixOutputs_22_2}; // @[pla.scala:98:70, :114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_hi = {id_ctrl_decoder_decoded_andMatrixOutputs_71_2, id_ctrl_decoder_decoded_andMatrixOutputs_145_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_3 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_143_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_lo}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_15 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_9, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_5}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_3 = {id_ctrl_decoder_decoded_andMatrixOutputs_35_2, id_ctrl_decoder_decoded_andMatrixOutputs_190_2}; // @[pla.scala:98:70, :114:19] wire [3:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_3, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_lo}; // @[pla.scala:114:19] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_lo = {id_ctrl_decoder_decoded_andMatrixOutputs_117_2, id_ctrl_decoder_decoded_andMatrixOutputs_96_2}; // @[pla.scala:98:70, :114:19] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_5 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_hi, id_ctrl_decoder_decoded_andMatrixOutputs_29_2}; // @[pla.scala:98:70, :114:19] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_5, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_lo}; // @[pla.scala:114:19] wire [8:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_19 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_12, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_6}; // @[pla.scala:114:19] wire [17:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_22 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_19, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_15}; // @[pla.scala:114:19] wire [34:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_28 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_22, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_20}; // @[pla.scala:114:19] wire [68:0] _id_ctrl_decoder_decoded_orMatrixOutputs_T_69 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_28, id_ctrl_decoder_decoded_orMatrixOutputs_lo_25}; // @[pla.scala:114:19] wire _id_ctrl_decoder_decoded_orMatrixOutputs_T_70 = |_id_ctrl_decoder_decoded_orMatrixOutputs_T_69; // @[pla.scala:114:{19,36}] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_6 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_3, _id_ctrl_decoder_decoded_orMatrixOutputs_T_1}; // @[pla.scala:102:36, :114:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_4 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_6, _id_ctrl_decoder_decoded_orMatrixOutputs_T_5}; // @[pla.scala:102:36, :114:36] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_4, _id_ctrl_decoder_decoded_orMatrixOutputs_T_4}; // @[pla.scala:102:36, :114:36] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_hi_7, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_lo_6}; // @[pla.scala:102:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_6 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_9, _id_ctrl_decoder_decoded_orMatrixOutputs_T_7}; // @[pla.scala:102:36, :114:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_5 = {1'h0, _id_ctrl_decoder_decoded_orMatrixOutputs_T_13}; // @[pla.scala:102:36, :114:36] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_10 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_5, _id_ctrl_decoder_decoded_orMatrixOutputs_T_11}; // @[pla.scala:102:36, :114:36] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_17 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_hi_10, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_lo_6}; // @[pla.scala:102:36] wire [9:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_20 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_hi_17, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_lo_13}; // @[pla.scala:102:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_6 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_16, _id_ctrl_decoder_decoded_orMatrixOutputs_T_15}; // @[pla.scala:102:36, :114:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_4 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_22, _id_ctrl_decoder_decoded_orMatrixOutputs_T_20}; // @[pla.scala:102:36, :114:36] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_9 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_4, _id_ctrl_decoder_decoded_orMatrixOutputs_T_18}; // @[pla.scala:102:36, :114:36] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_15 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_hi_9, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_lo_6}; // @[pla.scala:102:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_4 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_27, _id_ctrl_decoder_decoded_orMatrixOutputs_T_26}; // @[pla.scala:102:36, :114:36] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_6 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_4, _id_ctrl_decoder_decoded_orMatrixOutputs_T_24}; // @[pla.scala:102:36, :114:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_6 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_32, _id_ctrl_decoder_decoded_orMatrixOutputs_T_30}; // @[pla.scala:102:36, :114:36] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_6, _id_ctrl_decoder_decoded_orMatrixOutputs_T_28}; // @[pla.scala:102:36, :114:36] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_19 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_hi_13, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_lo_6}; // @[pla.scala:102:36] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_22 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_hi_19, id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_lo_15}; // @[pla.scala:102:36] wire [20:0] id_ctrl_decoder_decoded_orMatrixOutputs_lo_26 = {id_ctrl_decoder_decoded_orMatrixOutputs_lo_hi_22, id_ctrl_decoder_decoded_orMatrixOutputs_lo_lo_20}; // @[pla.scala:102:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_6 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_36, _id_ctrl_decoder_decoded_orMatrixOutputs_T_34}; // @[pla.scala:102:36, :114:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_4 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_42, _id_ctrl_decoder_decoded_orMatrixOutputs_T_40}; // @[pla.scala:102:36, :114:36] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_4, _id_ctrl_decoder_decoded_orMatrixOutputs_T_38}; // @[pla.scala:102:36, :114:36] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_14 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_hi_7, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_lo_6}; // @[pla.scala:102:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_6 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_46, _id_ctrl_decoder_decoded_orMatrixOutputs_T_44}; // @[pla.scala:102:36, :114:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_6 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_52, _id_ctrl_decoder_decoded_orMatrixOutputs_T_50}; // @[pla.scala:102:36, :114:36] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_12 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_6, _id_ctrl_decoder_decoded_orMatrixOutputs_T_48}; // @[pla.scala:102:36, :114:36] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_18 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_hi_12, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_lo_6}; // @[pla.scala:102:36] wire [9:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_21 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_hi_18, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_lo_14}; // @[pla.scala:102:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_6 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_56, _id_ctrl_decoder_decoded_orMatrixOutputs_T_54}; // @[pla.scala:102:36, :114:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_4 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_62, _id_ctrl_decoder_decoded_orMatrixOutputs_T_60}; // @[pla.scala:102:36, :114:36] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_10 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_4, _id_ctrl_decoder_decoded_orMatrixOutputs_T_58}; // @[pla.scala:102:36, :114:36] wire [4:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_16 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_hi_10, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_lo_6}; // @[pla.scala:102:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_4 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_66, _id_ctrl_decoder_decoded_orMatrixOutputs_T_64}; // @[pla.scala:102:36, :114:36] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_7 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_4, _id_ctrl_decoder_decoded_orMatrixOutputs_T_63}; // @[pla.scala:102:36, :114:36] wire [1:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_6 = {_id_ctrl_decoder_decoded_orMatrixOutputs_T_70, _id_ctrl_decoder_decoded_orMatrixOutputs_T_68}; // @[pla.scala:102:36, :114:36] wire [2:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_13 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_6, 1'h0}; // @[pla.scala:102:36] wire [5:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_20 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_hi_13, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_lo_7}; // @[pla.scala:102:36] wire [10:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_23 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_hi_20, id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_lo_16}; // @[pla.scala:102:36] wire [20:0] id_ctrl_decoder_decoded_orMatrixOutputs_hi_29 = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_hi_23, id_ctrl_decoder_decoded_orMatrixOutputs_hi_lo_21}; // @[pla.scala:102:36] wire [41:0] id_ctrl_decoder_decoded_orMatrixOutputs = {id_ctrl_decoder_decoded_orMatrixOutputs_hi_29, id_ctrl_decoder_decoded_orMatrixOutputs_lo_26}; // @[pla.scala:102:36] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T = id_ctrl_decoder_decoded_orMatrixOutputs[0]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_1 = id_ctrl_decoder_decoded_orMatrixOutputs[1]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_2 = id_ctrl_decoder_decoded_orMatrixOutputs[2]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_3 = id_ctrl_decoder_decoded_orMatrixOutputs[3]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_4 = id_ctrl_decoder_decoded_orMatrixOutputs[4]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_5 = id_ctrl_decoder_decoded_orMatrixOutputs[5]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_6 = id_ctrl_decoder_decoded_orMatrixOutputs[6]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_7 = id_ctrl_decoder_decoded_orMatrixOutputs[7]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_8 = id_ctrl_decoder_decoded_orMatrixOutputs[8]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_9 = id_ctrl_decoder_decoded_orMatrixOutputs[9]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_10 = id_ctrl_decoder_decoded_orMatrixOutputs[10]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_11 = id_ctrl_decoder_decoded_orMatrixOutputs[11]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_12 = id_ctrl_decoder_decoded_orMatrixOutputs[12]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_13 = id_ctrl_decoder_decoded_orMatrixOutputs[13]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_14 = id_ctrl_decoder_decoded_orMatrixOutputs[14]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_15 = id_ctrl_decoder_decoded_orMatrixOutputs[15]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_16 = id_ctrl_decoder_decoded_orMatrixOutputs[16]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_17 = id_ctrl_decoder_decoded_orMatrixOutputs[17]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_18 = id_ctrl_decoder_decoded_orMatrixOutputs[18]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_19 = id_ctrl_decoder_decoded_orMatrixOutputs[19]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_20 = id_ctrl_decoder_decoded_orMatrixOutputs[20]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_21 = id_ctrl_decoder_decoded_orMatrixOutputs[21]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_22 = id_ctrl_decoder_decoded_orMatrixOutputs[22]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_23 = id_ctrl_decoder_decoded_orMatrixOutputs[23]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_24 = id_ctrl_decoder_decoded_orMatrixOutputs[24]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_25 = id_ctrl_decoder_decoded_orMatrixOutputs[25]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_26 = id_ctrl_decoder_decoded_orMatrixOutputs[26]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_27 = id_ctrl_decoder_decoded_orMatrixOutputs[27]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_28 = id_ctrl_decoder_decoded_orMatrixOutputs[28]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_29 = id_ctrl_decoder_decoded_orMatrixOutputs[29]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_30 = id_ctrl_decoder_decoded_orMatrixOutputs[30]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_31 = id_ctrl_decoder_decoded_orMatrixOutputs[31]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_32 = id_ctrl_decoder_decoded_orMatrixOutputs[32]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_33 = id_ctrl_decoder_decoded_orMatrixOutputs[33]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_34 = id_ctrl_decoder_decoded_orMatrixOutputs[34]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_35 = id_ctrl_decoder_decoded_orMatrixOutputs[35]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_36 = id_ctrl_decoder_decoded_orMatrixOutputs[36]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_37 = id_ctrl_decoder_decoded_orMatrixOutputs[37]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_38 = id_ctrl_decoder_decoded_orMatrixOutputs[38]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_39 = id_ctrl_decoder_decoded_orMatrixOutputs[39]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_40 = id_ctrl_decoder_decoded_orMatrixOutputs[40]; // @[pla.scala:102:36, :124:31] wire _id_ctrl_decoder_decoded_invMatrixOutputs_T_41 = id_ctrl_decoder_decoded_orMatrixOutputs[41]; // @[pla.scala:102:36, :124:31] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_lo_lo = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_1, _id_ctrl_decoder_decoded_invMatrixOutputs_T}; // @[pla.scala:120:37, :124:31] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_lo_hi_hi = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_4, _id_ctrl_decoder_decoded_invMatrixOutputs_T_3}; // @[pla.scala:120:37, :124:31] wire [2:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_lo_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_lo_hi_hi, _id_ctrl_decoder_decoded_invMatrixOutputs_T_2}; // @[pla.scala:120:37, :124:31] wire [4:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_lo = {id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_lo_hi, id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_hi_lo = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_6, _id_ctrl_decoder_decoded_invMatrixOutputs_T_5}; // @[pla.scala:120:37, :124:31] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_hi_hi_hi = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_9, _id_ctrl_decoder_decoded_invMatrixOutputs_T_8}; // @[pla.scala:120:37, :124:31] wire [2:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_hi_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_hi_hi_hi, _id_ctrl_decoder_decoded_invMatrixOutputs_T_7}; // @[pla.scala:120:37, :124:31] wire [4:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_hi_hi, id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_hi_lo}; // @[pla.scala:120:37] wire [9:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo = {id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_hi, id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_lo_lo = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_11, _id_ctrl_decoder_decoded_invMatrixOutputs_T_10}; // @[pla.scala:120:37, :124:31] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_lo_hi_hi = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_14, _id_ctrl_decoder_decoded_invMatrixOutputs_T_13}; // @[pla.scala:120:37, :124:31] wire [2:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_lo_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_lo_hi_hi, _id_ctrl_decoder_decoded_invMatrixOutputs_T_12}; // @[pla.scala:120:37, :124:31] wire [4:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_lo = {id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_lo_hi, id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_hi_lo_hi = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_17, _id_ctrl_decoder_decoded_invMatrixOutputs_T_16}; // @[pla.scala:120:37, :124:31] wire [2:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_hi_lo = {id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_hi_lo_hi, _id_ctrl_decoder_decoded_invMatrixOutputs_T_15}; // @[pla.scala:120:37, :124:31] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_hi_hi_hi = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_20, _id_ctrl_decoder_decoded_invMatrixOutputs_T_19}; // @[pla.scala:120:37, :124:31] wire [2:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_hi_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_hi_hi_hi, _id_ctrl_decoder_decoded_invMatrixOutputs_T_18}; // @[pla.scala:120:37, :124:31] wire [5:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_hi_hi, id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_hi_lo}; // @[pla.scala:120:37] wire [10:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_hi, id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi_lo}; // @[pla.scala:120:37] wire [20:0] id_ctrl_decoder_decoded_invMatrixOutputs_lo = {id_ctrl_decoder_decoded_invMatrixOutputs_lo_hi, id_ctrl_decoder_decoded_invMatrixOutputs_lo_lo}; // @[pla.scala:120:37] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_lo_lo = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_22, _id_ctrl_decoder_decoded_invMatrixOutputs_T_21}; // @[pla.scala:120:37, :124:31] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_lo_hi_hi = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_25, _id_ctrl_decoder_decoded_invMatrixOutputs_T_24}; // @[pla.scala:120:37, :124:31] wire [2:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_lo_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_lo_hi_hi, _id_ctrl_decoder_decoded_invMatrixOutputs_T_23}; // @[pla.scala:120:37, :124:31] wire [4:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_lo = {id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_lo_hi, id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_hi_lo = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_27, _id_ctrl_decoder_decoded_invMatrixOutputs_T_26}; // @[pla.scala:120:37, :124:31] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_hi_hi_hi = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_30, _id_ctrl_decoder_decoded_invMatrixOutputs_T_29}; // @[pla.scala:120:37, :124:31] wire [2:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_hi_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_hi_hi_hi, _id_ctrl_decoder_decoded_invMatrixOutputs_T_28}; // @[pla.scala:120:37, :124:31] wire [4:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_hi_hi, id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_hi_lo}; // @[pla.scala:120:37] wire [9:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo = {id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_hi, id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_lo_lo = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_32, _id_ctrl_decoder_decoded_invMatrixOutputs_T_31}; // @[pla.scala:120:37, :124:31] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_lo_hi_hi = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_35, _id_ctrl_decoder_decoded_invMatrixOutputs_T_34}; // @[pla.scala:120:37, :124:31] wire [2:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_lo_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_lo_hi_hi, _id_ctrl_decoder_decoded_invMatrixOutputs_T_33}; // @[pla.scala:120:37, :124:31] wire [4:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_lo = {id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_lo_hi, id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_hi_lo_hi = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_38, _id_ctrl_decoder_decoded_invMatrixOutputs_T_37}; // @[pla.scala:120:37, :124:31] wire [2:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_hi_lo = {id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_hi_lo_hi, _id_ctrl_decoder_decoded_invMatrixOutputs_T_36}; // @[pla.scala:120:37, :124:31] wire [1:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_hi_hi_hi = {_id_ctrl_decoder_decoded_invMatrixOutputs_T_41, _id_ctrl_decoder_decoded_invMatrixOutputs_T_40}; // @[pla.scala:120:37, :124:31] wire [2:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_hi_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_hi_hi_hi, _id_ctrl_decoder_decoded_invMatrixOutputs_T_39}; // @[pla.scala:120:37, :124:31] wire [5:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_hi_hi, id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_hi_lo}; // @[pla.scala:120:37] wire [10:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_hi, id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi_lo}; // @[pla.scala:120:37] wire [20:0] id_ctrl_decoder_decoded_invMatrixOutputs_hi = {id_ctrl_decoder_decoded_invMatrixOutputs_hi_hi, id_ctrl_decoder_decoded_invMatrixOutputs_hi_lo}; // @[pla.scala:120:37] assign id_ctrl_decoder_decoded_invMatrixOutputs = {id_ctrl_decoder_decoded_invMatrixOutputs_hi, id_ctrl_decoder_decoded_invMatrixOutputs_lo}; // @[pla.scala:120:37] assign id_ctrl_decoder_decoded = id_ctrl_decoder_decoded_invMatrixOutputs; // @[pla.scala:81:23, :120:37] assign id_ctrl_decoder_0 = id_ctrl_decoder_decoded[41]; // @[pla.scala:81:23] assign id_ctrl_legal = id_ctrl_decoder_0; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_1 = id_ctrl_decoder_decoded[40]; // @[pla.scala:81:23] assign id_ctrl_fp = id_ctrl_decoder_1; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_2 = id_ctrl_decoder_decoded[39]; // @[pla.scala:81:23] assign id_ctrl_rocc = id_ctrl_decoder_2; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_3 = id_ctrl_decoder_decoded[38]; // @[pla.scala:81:23] assign id_ctrl_branch = id_ctrl_decoder_3; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_4 = id_ctrl_decoder_decoded[37]; // @[pla.scala:81:23] assign id_ctrl_jal = id_ctrl_decoder_4; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_5 = id_ctrl_decoder_decoded[36]; // @[pla.scala:81:23] assign id_ctrl_jalr = id_ctrl_decoder_5; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_6 = id_ctrl_decoder_decoded[35]; // @[pla.scala:81:23] assign id_ctrl_rxs2 = id_ctrl_decoder_6; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_7 = id_ctrl_decoder_decoded[34]; // @[pla.scala:81:23] assign id_ctrl_rxs1 = id_ctrl_decoder_7; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_8 = id_ctrl_decoder_decoded[33:31]; // @[pla.scala:81:23] assign id_ctrl_sel_alu2 = id_ctrl_decoder_8; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_9 = id_ctrl_decoder_decoded[30:29]; // @[pla.scala:81:23] assign id_ctrl_sel_alu1 = id_ctrl_decoder_9; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_10 = id_ctrl_decoder_decoded[28:26]; // @[pla.scala:81:23] assign id_ctrl_sel_imm = id_ctrl_decoder_10; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_11 = id_ctrl_decoder_decoded[25]; // @[pla.scala:81:23] assign id_ctrl_alu_dw = id_ctrl_decoder_11; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_12 = id_ctrl_decoder_decoded[24:20]; // @[pla.scala:81:23] assign id_ctrl_alu_fn = id_ctrl_decoder_12; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_13 = id_ctrl_decoder_decoded[19]; // @[pla.scala:81:23] assign id_ctrl_mem = id_ctrl_decoder_13; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_14 = id_ctrl_decoder_decoded[18:14]; // @[pla.scala:81:23] assign id_ctrl_mem_cmd = id_ctrl_decoder_14; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_15 = id_ctrl_decoder_decoded[13]; // @[pla.scala:81:23] assign id_ctrl_rfs1 = id_ctrl_decoder_15; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_16 = id_ctrl_decoder_decoded[12]; // @[pla.scala:81:23] assign id_ctrl_rfs2 = id_ctrl_decoder_16; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_17 = id_ctrl_decoder_decoded[11]; // @[pla.scala:81:23] assign id_ctrl_rfs3 = id_ctrl_decoder_17; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_18 = id_ctrl_decoder_decoded[10]; // @[pla.scala:81:23] assign id_ctrl_wfd = id_ctrl_decoder_18; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_19 = id_ctrl_decoder_decoded[9]; // @[pla.scala:81:23] assign id_ctrl_mul = id_ctrl_decoder_19; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_20 = id_ctrl_decoder_decoded[8]; // @[pla.scala:81:23] assign id_ctrl_div = id_ctrl_decoder_20; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_21 = id_ctrl_decoder_decoded[7]; // @[pla.scala:81:23] assign id_ctrl_wxd = id_ctrl_decoder_21; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_22 = id_ctrl_decoder_decoded[6:4]; // @[pla.scala:81:23] assign id_ctrl_csr = id_ctrl_decoder_22; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_23 = id_ctrl_decoder_decoded[3]; // @[pla.scala:81:23] assign id_ctrl_fence_i = id_ctrl_decoder_23; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_24 = id_ctrl_decoder_decoded[2]; // @[pla.scala:81:23] assign id_ctrl_fence = id_ctrl_decoder_24; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_25 = id_ctrl_decoder_decoded[1]; // @[pla.scala:81:23] assign id_ctrl_amo = id_ctrl_decoder_25; // @[RocketCore.scala:321:21] assign id_ctrl_decoder_26 = id_ctrl_decoder_decoded[0]; // @[pla.scala:81:23] assign id_ctrl_dp = id_ctrl_decoder_26; // @[RocketCore.scala:321:21] wire [4:0] id_raddr3; // @[RocketCore.scala:326:72] wire [4:0] id_raddr2; // @[RocketCore.scala:326:72] wire [4:0] _id_rs_T_7 = id_raddr2; // @[RocketCore.scala:326:72, :1320:44] wire [4:0] id_raddr1; // @[RocketCore.scala:326:72] wire [4:0] _id_rs_T_2 = id_raddr1; // @[RocketCore.scala:326:72, :1320:44] wire [4:0] id_waddr; // @[RocketCore.scala:326:72] wire _id_load_use_T_1; // @[RocketCore.scala:1001:51] wire id_load_use; // @[RocketCore.scala:332:25] reg id_reg_fence; // @[RocketCore.scala:333:29] wire [63:0] id_rs_0; // @[RocketCore.scala:1325:26] wire _id_rs_T = ~(|id_raddr1); // @[RocketCore.scala:326:72, :1326:41] wire [4:0] _id_rs_T_3 = ~_id_rs_T_2; // @[RocketCore.scala:1320:{39,44}] wire [63:0] id_rs_1; // @[RocketCore.scala:1325:26] wire _id_rs_T_5 = ~(|id_raddr2); // @[RocketCore.scala:326:72, :1326:41] wire [4:0] _id_rs_T_8 = ~_id_rs_T_7; // @[RocketCore.scala:1320:{39,44}] wire _ctrl_killd_T_4; // @[RocketCore.scala:1046:104] wire ctrl_killd; // @[RocketCore.scala:338:24] wire _id_npc_sign_T_1 = _ibuf_io_inst_0_bits_inst_bits[31]; // @[RocketCore.scala:311:20, :1341:44] wire _id_npc_sign_T_2 = _id_npc_sign_T_1; // @[RocketCore.scala:1341:{44,49}] wire id_npc_sign = _id_npc_sign_T_2; // @[RocketCore.scala:1341:{19,49}] wire _id_npc_b11_T_9 = id_npc_sign; // @[RocketCore.scala:1341:19, :1346:18] wire id_npc_hi_hi_hi = id_npc_sign; // @[RocketCore.scala:1341:19, :1355:8] wire [10:0] _id_npc_b30_20_T_1 = _ibuf_io_inst_0_bits_inst_bits[30:20]; // @[RocketCore.scala:311:20, :1342:41] wire [10:0] _id_npc_b30_20_T_2 = _id_npc_b30_20_T_1; // @[RocketCore.scala:1342:{41,49}] wire [10:0] id_npc_b30_20 = {11{id_npc_sign}}; // @[RocketCore.scala:1341:19, :1342:21] wire [10:0] id_npc_hi_hi_lo = id_npc_b30_20; // @[RocketCore.scala:1342:21, :1355:8] wire [7:0] _id_npc_b19_12_T_3 = _ibuf_io_inst_0_bits_inst_bits[19:12]; // @[RocketCore.scala:311:20, :1343:65] wire [7:0] _id_npc_b19_12_T_4 = _id_npc_b19_12_T_3; // @[RocketCore.scala:1343:{65,73}] wire [7:0] id_npc_b19_12 = _id_npc_b19_12_T_4; // @[RocketCore.scala:1343:{21,73}] wire [7:0] id_npc_hi_lo_hi = id_npc_b19_12; // @[RocketCore.scala:1343:21, :1355:8] wire _id_npc_b11_T_4 = _ibuf_io_inst_0_bits_inst_bits[20]; // @[RocketCore.scala:311:20, :1345:39] wire _id_npc_b0_T_3 = _ibuf_io_inst_0_bits_inst_bits[20]; // @[RocketCore.scala:311:20, :1345:39, :1352:37] wire _id_npc_b11_T_5 = _id_npc_b11_T_4; // @[RocketCore.scala:1345:{39,44}] wire _id_npc_b11_T_10 = _id_npc_b11_T_5; // @[RocketCore.scala:1345:{18,44}] wire _id_npc_b11_T_7 = _ibuf_io_inst_0_bits_inst_bits[7]; // @[RocketCore.scala:311:20, :1346:39] wire _id_npc_b0_T_1 = _ibuf_io_inst_0_bits_inst_bits[7]; // @[RocketCore.scala:311:20, :1346:39, :1351:37] wire _id_npc_b11_T_8 = _id_npc_b11_T_7; // @[RocketCore.scala:1346:{39,43}] wire id_npc_b11 = _id_npc_b11_T_10; // @[RocketCore.scala:1344:18, :1345:18] wire id_npc_hi_lo_lo = id_npc_b11; // @[RocketCore.scala:1344:18, :1355:8] wire [5:0] _id_npc_b10_5_T_3 = _ibuf_io_inst_0_bits_inst_bits[30:25]; // @[RocketCore.scala:311:20, :1347:62] wire [5:0] id_npc_b10_5 = _id_npc_b10_5_T_3; // @[RocketCore.scala:1347:{20,62}] wire [3:0] _id_npc_b4_1_T_4 = _ibuf_io_inst_0_bits_inst_bits[11:8]; // @[RocketCore.scala:311:20, :1349:57] wire [3:0] _id_npc_b4_1_T_6 = _ibuf_io_inst_0_bits_inst_bits[19:16]; // @[RocketCore.scala:311:20, :1350:39] wire [3:0] _id_npc_b4_1_T_7 = _ibuf_io_inst_0_bits_inst_bits[24:21]; // @[RocketCore.scala:311:20, :1350:52] wire [3:0] _id_npc_b4_1_T_8 = _id_npc_b4_1_T_7; // @[RocketCore.scala:1350:{19,52}] wire [3:0] _id_npc_b4_1_T_9 = _id_npc_b4_1_T_8; // @[RocketCore.scala:1349:19, :1350:19] wire [3:0] id_npc_b4_1 = _id_npc_b4_1_T_9; // @[RocketCore.scala:1348:19, :1349:19] wire _id_npc_b0_T_5 = _ibuf_io_inst_0_bits_inst_bits[15]; // @[RocketCore.scala:311:20, :1353:37] wire [9:0] id_npc_lo_hi = {id_npc_b10_5, id_npc_b4_1}; // @[RocketCore.scala:1347:20, :1348:19, :1355:8] wire [10:0] id_npc_lo = {id_npc_lo_hi, 1'h0}; // @[RocketCore.scala:1355:8] wire [8:0] id_npc_hi_lo = {id_npc_hi_lo_hi, id_npc_hi_lo_lo}; // @[RocketCore.scala:1355:8] wire [11:0] id_npc_hi_hi = {id_npc_hi_hi_hi, id_npc_hi_hi_lo}; // @[RocketCore.scala:1355:8] wire [20:0] id_npc_hi = {id_npc_hi_hi, id_npc_hi_lo}; // @[RocketCore.scala:1355:8] wire [31:0] _id_npc_T_1 = {id_npc_hi, id_npc_lo}; // @[RocketCore.scala:1355:8] wire [31:0] _id_npc_T_2 = _id_npc_T_1; // @[RocketCore.scala:1355:{8,53}] wire [39:0] _id_npc_T; // @[RocketCore.scala:339:28] wire [40:0] _id_npc_T_3 = {_id_npc_T[39], _id_npc_T} + {{9{_id_npc_T_2[31]}}, _id_npc_T_2}; // @[RocketCore.scala:339:{28,35}, :1355:53] wire [39:0] _id_npc_T_4 = _id_npc_T_3[39:0]; // @[RocketCore.scala:339:35] wire [39:0] _id_npc_T_5 = _id_npc_T_4; // @[RocketCore.scala:339:35] wire [39:0] id_npc = _id_npc_T_5; // @[RocketCore.scala:339:{35,65}] wire _GEN_36 = id_ctrl_csr == 3'h6; // @[package.scala:16:47] wire _id_csr_en_T; // @[package.scala:16:47] assign _id_csr_en_T = _GEN_36; // @[package.scala:16:47] wire _id_csr_ren_T; // @[package.scala:16:47] assign _id_csr_ren_T = _GEN_36; // @[package.scala:16:47] wire _id_csr_en_T_1 = &id_ctrl_csr; // @[package.scala:16:47] wire _id_csr_en_T_2 = id_ctrl_csr == 3'h5; // @[package.scala:16:47] wire _id_csr_en_T_3 = _id_csr_en_T | _id_csr_en_T_1; // @[package.scala:16:47, :81:59] wire id_csr_en = _id_csr_en_T_3 | _id_csr_en_T_2; // @[package.scala:16:47, :81:59] wire id_system_insn = id_ctrl_csr == 3'h4; // @[RocketCore.scala:321:21, :343:36] wire _id_csr_ren_T_1 = &id_ctrl_csr; // @[package.scala:16:47] wire _id_csr_ren_T_2 = _id_csr_ren_T | _id_csr_ren_T_1; // @[package.scala:16:47, :81:59] wire _id_csr_ren_T_3 = _ibuf_io_inst_0_bits_inst_rs1 == 5'h0; // @[RocketCore.scala:311:20, :344:81] wire id_csr_ren = _id_csr_ren_T_2 & _id_csr_ren_T_3; // @[package.scala:81:59] wire _id_csr_T = id_system_insn & id_ctrl_mem; // @[RocketCore.scala:321:21, :343:36, :345:35] wire [2:0] _id_csr_T_1 = id_csr_ren ? 3'h2 : id_ctrl_csr; // @[RocketCore.scala:321:21, :344:54, :345:61] wire [2:0] id_csr = _id_csr_T ? 3'h0 : _id_csr_T_1; // @[RocketCore.scala:345:{19,35,61}] wire _id_csr_flush_T = ~id_csr_ren; // @[RocketCore.scala:344:54, :346:54] wire _id_csr_flush_T_1 = id_csr_en & _id_csr_flush_T; // @[package.scala:81:59] wire _id_csr_flush_T_2 = _id_csr_flush_T_1 & _csr_io_decode_0_write_flush; // @[RocketCore.scala:341:19, :346:{51,66}] wire id_csr_flush = id_system_insn | _id_csr_flush_T_2; // @[RocketCore.scala:343:36, :346:{37,66}] wire [31:0] _id_set_vconfig_T = _ibuf_io_inst_0_bits_inst_bits & 32'h8000707F; // @[RocketCore.scala:311:20, :347:100] wire _id_set_vconfig_T_1 = _id_set_vconfig_T == 32'h7057; // @[RocketCore.scala:347:100] wire [31:0] _id_set_vconfig_T_2 = _ibuf_io_inst_0_bits_inst_bits & 32'hC000707F; // @[RocketCore.scala:311:20, :347:100] wire _id_set_vconfig_T_3 = _id_set_vconfig_T_2 == 32'hC0007057; // @[RocketCore.scala:347:100] wire [31:0] _id_set_vconfig_T_4 = _ibuf_io_inst_0_bits_inst_bits & 32'hFE00707F; // @[RocketCore.scala:311:20, :347:100] wire _id_set_vconfig_T_5 = _id_set_vconfig_T_4 == 32'h80007057; // @[RocketCore.scala:347:100] wire _id_set_vconfig_T_6 = _id_set_vconfig_T_1 | _id_set_vconfig_T_3; // @[package.scala:81:59] wire _id_set_vconfig_T_7 = _id_set_vconfig_T_6 | _id_set_vconfig_T_5; // @[package.scala:81:59] wire _id_illegal_insn_T = ~id_ctrl_legal; // @[RocketCore.scala:321:21, :381:25] wire _id_illegal_insn_T_1 = id_ctrl_mul | id_ctrl_div; // @[RocketCore.scala:321:21, :382:18] wire _id_illegal_insn_T_2 = _csr_io_status_isa[12]; // @[RocketCore.scala:341:19, :382:55] wire _id_illegal_insn_T_3 = ~_id_illegal_insn_T_2; // @[RocketCore.scala:382:{37,55}] wire _id_illegal_insn_T_4 = _id_illegal_insn_T_1 & _id_illegal_insn_T_3; // @[RocketCore.scala:382:{18,34,37}] wire _id_illegal_insn_T_5 = _id_illegal_insn_T | _id_illegal_insn_T_4; // @[RocketCore.scala:381:{25,40}, :382:34] wire _id_illegal_insn_T_6 = _csr_io_status_isa[0]; // @[RocketCore.scala:341:19, :383:38] wire _id_illegal_insn_T_7 = ~_id_illegal_insn_T_6; // @[RocketCore.scala:383:{20,38}] wire _id_illegal_insn_T_8 = id_ctrl_amo & _id_illegal_insn_T_7; // @[RocketCore.scala:321:21, :383:{17,20}] wire _id_illegal_insn_T_9 = _id_illegal_insn_T_5 | _id_illegal_insn_T_8; // @[RocketCore.scala:381:40, :382:65, :383:17] wire _id_illegal_insn_T_12 = _csr_io_decode_0_fp_illegal | _id_illegal_insn_T_11; // @[RocketCore.scala:341:19, :384:{48,70}] wire _id_illegal_insn_T_13 = id_ctrl_fp & _id_illegal_insn_T_12; // @[RocketCore.scala:321:21, :384:{16,48}] wire _id_illegal_insn_T_14 = _id_illegal_insn_T_9 | _id_illegal_insn_T_13; // @[RocketCore.scala:382:65, :383:48, :384:16] wire _id_illegal_insn_T_17 = _id_illegal_insn_T_14; // @[RocketCore.scala:383:48, :384:88] wire _id_illegal_insn_T_18 = _csr_io_status_isa[3]; // @[RocketCore.scala:341:19, :386:37] wire _id_illegal_insn_T_19 = ~_id_illegal_insn_T_18; // @[RocketCore.scala:386:{19,37}] wire _id_illegal_insn_T_20 = id_ctrl_dp & _id_illegal_insn_T_19; // @[RocketCore.scala:321:21, :386:{16,19}] wire _id_illegal_insn_T_21 = _id_illegal_insn_T_17 | _id_illegal_insn_T_20; // @[RocketCore.scala:384:88, :385:118, :386:16] wire _id_illegal_insn_T_22 = _csr_io_status_isa[2]; // @[RocketCore.scala:341:19, :387:51] wire _mem_npc_misaligned_T = _csr_io_status_isa[2]; // @[RocketCore.scala:341:19, :387:51, :623:46] wire _id_illegal_insn_T_23 = ~_id_illegal_insn_T_22; // @[RocketCore.scala:387:{33,51}] wire _id_illegal_insn_T_24 = _ibuf_io_inst_0_bits_rvc & _id_illegal_insn_T_23; // @[RocketCore.scala:311:20, :387:{30,33}] wire _id_illegal_insn_T_25 = _id_illegal_insn_T_21 | _id_illegal_insn_T_24; // @[RocketCore.scala:385:118, :386:47, :387:30] wire _id_illegal_insn_T_27 = _id_illegal_insn_T_25; // @[RocketCore.scala:386:47, :387:61] wire _id_illegal_insn_T_29 = _id_illegal_insn_T_27; // @[RocketCore.scala:387:61, :388:39] wire _id_illegal_insn_T_31 = _id_illegal_insn_T_29; // @[RocketCore.scala:388:39, :389:39] wire _id_illegal_insn_T_33 = _id_illegal_insn_T_31 | _id_illegal_insn_T_32; // @[RocketCore.scala:389:39, :390:37, :391:18] wire _id_illegal_insn_T_34 = ~id_csr_ren; // @[RocketCore.scala:344:54, :346:54, :392:52] wire _id_illegal_insn_T_35 = _id_illegal_insn_T_34 & _csr_io_decode_0_write_illegal; // @[RocketCore.scala:341:19, :392:{52,64}] wire _id_illegal_insn_T_36 = _csr_io_decode_0_read_illegal | _id_illegal_insn_T_35; // @[RocketCore.scala:341:19, :392:{49,64}] wire _id_illegal_insn_T_37 = id_csr_en & _id_illegal_insn_T_36; // @[package.scala:81:59] wire _id_illegal_insn_T_38 = _id_illegal_insn_T_33 | _id_illegal_insn_T_37; // @[RocketCore.scala:390:37, :391:51, :392:15] wire _id_illegal_insn_T_39 = ~_ibuf_io_inst_0_bits_rvc; // @[RocketCore.scala:311:20, :393:5] wire _id_illegal_insn_T_40 = id_system_insn & _csr_io_decode_0_system_illegal; // @[RocketCore.scala:341:19, :343:36, :393:50] wire _id_illegal_insn_T_41 = _id_illegal_insn_T_39 & _id_illegal_insn_T_40; // @[RocketCore.scala:393:{5,31,50}] wire id_illegal_insn = _id_illegal_insn_T_38 | _id_illegal_insn_T_41; // @[RocketCore.scala:391:51, :392:99, :393:31] wire _id_virtual_insn_T = ~id_csr_ren; // @[RocketCore.scala:344:54, :346:54, :395:22] wire _id_virtual_insn_T_1 = _id_virtual_insn_T & _csr_io_decode_0_write_illegal; // @[RocketCore.scala:341:19, :395:{22,34}] wire _id_virtual_insn_T_2 = ~_id_virtual_insn_T_1; // @[RocketCore.scala:395:{20,34}] wire _id_virtual_insn_T_3 = id_csr_en & _id_virtual_insn_T_2; // @[package.scala:81:59] wire _id_virtual_insn_T_4 = _id_virtual_insn_T_3 & _csr_io_decode_0_virtual_access_illegal; // @[RocketCore.scala:341:19, :395:{17,69}] wire _id_virtual_insn_T_5 = ~_ibuf_io_inst_0_bits_rvc; // @[RocketCore.scala:311:20, :393:5, :396:7] wire _id_virtual_insn_T_6 = _id_virtual_insn_T_5 & id_system_insn; // @[RocketCore.scala:343:36, :396:{7,33}] wire _id_virtual_insn_T_7 = _id_virtual_insn_T_6 & _csr_io_decode_0_virtual_system_illegal; // @[RocketCore.scala:341:19, :396:{33,51}] wire _id_virtual_insn_T_8 = _id_virtual_insn_T_4 | _id_virtual_insn_T_7; // @[RocketCore.scala:395:{69,113}, :396:51] wire id_virtual_insn = id_ctrl_legal & _id_virtual_insn_T_8; // @[RocketCore.scala:321:21, :394:39, :395:113] wire id_amo_aq = _ibuf_io_inst_0_bits_inst_bits[26]; // @[RocketCore.scala:311:20, :398:29] wire id_amo_rl = _ibuf_io_inst_0_bits_inst_bits[25]; // @[RocketCore.scala:311:20, :399:29] wire [3:0] id_fence_pred = _ibuf_io_inst_0_bits_inst_bits[27:24]; // @[RocketCore.scala:311:20, :400:33] wire [3:0] id_fence_succ = _ibuf_io_inst_0_bits_inst_bits[23:20]; // @[RocketCore.scala:311:20, :401:33] wire _id_fence_next_T = id_ctrl_amo & id_amo_aq; // @[RocketCore.scala:321:21, :398:29, :402:52] wire id_fence_next = id_ctrl_fence | _id_fence_next_T; // @[RocketCore.scala:321:21, :402:{37,52}] wire _id_mem_busy_T = ~io_dmem_ordered_0; // @[RocketCore.scala:153:7, :403:21] wire id_mem_busy = _id_mem_busy_T | io_dmem_req_valid_0; // @[RocketCore.scala:153:7, :403:{21,38}] wire _id_rocc_busy_T = ex_reg_valid & ex_ctrl_rocc; // @[RocketCore.scala:243:20, :248:35, :406:35] wire _id_rocc_busy_T_1 = _id_rocc_busy_T; // @[RocketCore.scala:406:{19,35}] wire _id_rocc_busy_T_2 = mem_reg_valid & mem_ctrl_rocc; // @[RocketCore.scala:244:21, :265:36, :407:20] wire _id_rocc_busy_T_3 = _id_rocc_busy_T_1 | _id_rocc_busy_T_2; // @[RocketCore.scala:406:{19,51}, :407:20] wire _GEN_37 = wb_reg_valid & wb_ctrl_rocc; // @[RocketCore.scala:245:20, :288:35, :407:53] wire _id_rocc_busy_T_4; // @[RocketCore.scala:407:53] assign _id_rocc_busy_T_4 = _GEN_37; // @[RocketCore.scala:407:53] wire _replay_wb_rocc_T; // @[RocketCore.scala:758:37] assign _replay_wb_rocc_T = _GEN_37; // @[RocketCore.scala:407:53, :758:37] wire _io_rocc_cmd_valid_T; // @[RocketCore.scala:1156:37] assign _io_rocc_cmd_valid_T = _GEN_37; // @[RocketCore.scala:407:53, :1156:37] wire _id_rocc_busy_T_5 = _id_rocc_busy_T_3 | _id_rocc_busy_T_4; // @[RocketCore.scala:406:51, :407:{37,53}] wire _id_csr_rocc_write_T_1 = ~id_csr_ren; // @[RocketCore.scala:344:54, :346:54, :408:103] wire _id_do_fence_T_4 = id_ctrl_amo & id_amo_rl; // @[RocketCore.scala:321:21, :399:29, :412:33] wire _id_do_fence_T_5 = _id_do_fence_T_4 | id_ctrl_fence_i; // @[RocketCore.scala:321:21, :412:{33,46}] wire _id_do_fence_T_6 = id_ctrl_mem | id_ctrl_rocc; // @[RocketCore.scala:321:21, :412:97] wire _id_do_fence_T_7 = id_reg_fence & _id_do_fence_T_6; // @[RocketCore.scala:333:29, :412:{81,97}] wire _id_do_fence_T_8 = _id_do_fence_T_5 | _id_do_fence_T_7; // @[RocketCore.scala:412:{46,65,81}] wire _id_do_fence_T_9 = id_mem_busy & _id_do_fence_T_8; // @[RocketCore.scala:403:38, :412:{17,65}] wire _id_do_fence_T_10 = _id_do_fence_T_9; // @[RocketCore.scala:411:34, :412:17] wire id_do_fence = _id_do_fence_T_10; // @[RocketCore.scala:410:32, :411:34] wire [38:0] _mem_npc_T_1 = mem_reg_wdata[38:0]; // @[RocketCore.scala:282:26, :418:13, :1295:16] wire id_xcpt = _csr_io_interrupt | _bpu_io_debug_if | _bpu_io_xcpt_if | _ibuf_io_inst_0_bits_xcpt0_pf_inst | _ibuf_io_inst_0_bits_xcpt0_gf_inst | _ibuf_io_inst_0_bits_xcpt0_ae_inst | _ibuf_io_inst_0_bits_xcpt1_pf_inst | _ibuf_io_inst_0_bits_xcpt1_gf_inst | _ibuf_io_inst_0_bits_xcpt1_ae_inst | id_virtual_insn | id_illegal_insn; // @[RocketCore.scala:311:20, :341:19, :392:99, :394:39, :414:19, :1278:{14,35}] wire [63:0] id_cause = _csr_io_interrupt ? _csr_io_interrupt_cause : {59'h0, _bpu_io_debug_if ? 5'hE : _bpu_io_xcpt_if ? 5'h3 : _ibuf_io_inst_0_bits_xcpt0_pf_inst ? 5'hC : _ibuf_io_inst_0_bits_xcpt0_gf_inst ? 5'h14 : _ibuf_io_inst_0_bits_xcpt0_ae_inst ? 5'h1 : _ibuf_io_inst_0_bits_xcpt1_pf_inst ? 5'hC : _ibuf_io_inst_0_bits_xcpt1_gf_inst ? 5'h14 : _ibuf_io_inst_0_bits_xcpt1_ae_inst ? 5'h1 : id_virtual_insn ? 5'h16 : 5'h2}; // @[Mux.scala:50:70] wire [4:0] _ex_waddr_T = ex_reg_inst[11:7]; // @[RocketCore.scala:259:24, :453:29] wire [4:0] ex_waddr = _ex_waddr_T; // @[RocketCore.scala:453:{29,36}] wire [4:0] _mem_waddr_T = mem_reg_inst[11:7]; // @[RocketCore.scala:278:25, :454:31] wire [4:0] mem_waddr = _mem_waddr_T; // @[RocketCore.scala:454:{31,38}] wire [4:0] _wb_waddr_T = wb_reg_inst[11:7]; // @[RocketCore.scala:300:24, :455:29] wire [4:0] wb_waddr = _wb_waddr_T; // @[RocketCore.scala:455:{29,36}] wire [4:0] coreMonitorBundle_wrdst = wb_waddr; // @[RocketCore.scala:455:36, :1186:31] wire bypass_sources_1_1 = ex_reg_valid & ex_ctrl_wxd; // @[RocketCore.scala:243:20, :248:35, :458:19] wire _GEN_38 = mem_reg_valid & mem_ctrl_wxd; // @[RocketCore.scala:244:21, :265:36, :459:20] wire _bypass_sources_T; // @[RocketCore.scala:459:20] assign _bypass_sources_T = _GEN_38; // @[RocketCore.scala:459:20] wire bypass_sources_3_1; // @[RocketCore.scala:460:20] assign bypass_sources_3_1 = _GEN_38; // @[RocketCore.scala:459:20, :460:20] wire _dcache_kill_mem_T; // @[RocketCore.scala:695:39] assign _dcache_kill_mem_T = _GEN_38; // @[RocketCore.scala:459:20, :695:39] wire _bypass_sources_T_1 = ~mem_ctrl_mem; // @[RocketCore.scala:244:21, :459:39] wire bypass_sources_2_1 = _bypass_sources_T & _bypass_sources_T_1; // @[RocketCore.scala:459:{20,36,39}] wire _id_bypass_src_T = ~(|id_raddr1); // @[RocketCore.scala:326:72, :461:82, :1326:41] wire id_bypass_src_0_0 = _id_bypass_src_T; // @[RocketCore.scala:461:{74,82}] wire _GEN_39 = ex_waddr == id_raddr1; // @[RocketCore.scala:326:72, :453:36, :461:82] wire _id_bypass_src_T_1; // @[RocketCore.scala:461:82] assign _id_bypass_src_T_1 = _GEN_39; // @[RocketCore.scala:461:82] wire _data_hazard_ex_T; // @[RocketCore.scala:989:70] assign _data_hazard_ex_T = _GEN_39; // @[RocketCore.scala:461:82, :989:70] wire _fp_data_hazard_ex_T_1; // @[RocketCore.scala:990:90] assign _fp_data_hazard_ex_T_1 = _GEN_39; // @[RocketCore.scala:461:82, :990:90] wire id_bypass_src_0_1 = bypass_sources_1_1 & _id_bypass_src_T_1; // @[RocketCore.scala:458:19, :461:{74,82}] wire _GEN_40 = mem_waddr == id_raddr1; // @[RocketCore.scala:326:72, :454:38, :461:82] wire _id_bypass_src_T_2; // @[RocketCore.scala:461:82] assign _id_bypass_src_T_2 = _GEN_40; // @[RocketCore.scala:461:82] wire _id_bypass_src_T_3; // @[RocketCore.scala:461:82] assign _id_bypass_src_T_3 = _GEN_40; // @[RocketCore.scala:461:82] wire _data_hazard_mem_T; // @[RocketCore.scala:998:72] assign _data_hazard_mem_T = _GEN_40; // @[RocketCore.scala:461:82, :998:72] wire _fp_data_hazard_mem_T_1; // @[RocketCore.scala:999:92] assign _fp_data_hazard_mem_T_1 = _GEN_40; // @[RocketCore.scala:461:82, :999:92] wire id_bypass_src_0_2 = bypass_sources_2_1 & _id_bypass_src_T_2; // @[RocketCore.scala:459:36, :461:{74,82}] wire id_bypass_src_0_3 = bypass_sources_3_1 & _id_bypass_src_T_3; // @[RocketCore.scala:460:20, :461:{74,82}] wire _id_bypass_src_T_4 = ~(|id_raddr2); // @[RocketCore.scala:326:72, :461:82, :1326:41] wire id_bypass_src_1_0 = _id_bypass_src_T_4; // @[RocketCore.scala:461:{74,82}] wire _GEN_41 = ex_waddr == id_raddr2; // @[RocketCore.scala:326:72, :453:36, :461:82] wire _id_bypass_src_T_5; // @[RocketCore.scala:461:82] assign _id_bypass_src_T_5 = _GEN_41; // @[RocketCore.scala:461:82] wire _data_hazard_ex_T_2; // @[RocketCore.scala:989:70] assign _data_hazard_ex_T_2 = _GEN_41; // @[RocketCore.scala:461:82, :989:70] wire _fp_data_hazard_ex_T_3; // @[RocketCore.scala:990:90] assign _fp_data_hazard_ex_T_3 = _GEN_41; // @[RocketCore.scala:461:82, :990:90] wire id_bypass_src_1_1 = bypass_sources_1_1 & _id_bypass_src_T_5; // @[RocketCore.scala:458:19, :461:{74,82}] wire _GEN_42 = mem_waddr == id_raddr2; // @[RocketCore.scala:326:72, :454:38, :461:82] wire _id_bypass_src_T_6; // @[RocketCore.scala:461:82] assign _id_bypass_src_T_6 = _GEN_42; // @[RocketCore.scala:461:82] wire _id_bypass_src_T_7; // @[RocketCore.scala:461:82] assign _id_bypass_src_T_7 = _GEN_42; // @[RocketCore.scala:461:82] wire _data_hazard_mem_T_2; // @[RocketCore.scala:998:72] assign _data_hazard_mem_T_2 = _GEN_42; // @[RocketCore.scala:461:82, :998:72] wire _fp_data_hazard_mem_T_3; // @[RocketCore.scala:999:92] assign _fp_data_hazard_mem_T_3 = _GEN_42; // @[RocketCore.scala:461:82, :999:92] wire id_bypass_src_1_2 = bypass_sources_2_1 & _id_bypass_src_T_6; // @[RocketCore.scala:459:36, :461:{74,82}] wire id_bypass_src_1_3 = bypass_sources_3_1 & _id_bypass_src_T_7; // @[RocketCore.scala:460:20, :461:{74,82}] reg ex_reg_rs_bypass_0; // @[RocketCore.scala:465:29] reg ex_reg_rs_bypass_1; // @[RocketCore.scala:465:29] reg [1:0] ex_reg_rs_lsb_0; // @[RocketCore.scala:466:26] reg [1:0] ex_reg_rs_lsb_1; // @[RocketCore.scala:466:26] reg [61:0] ex_reg_rs_msb_0; // @[RocketCore.scala:467:26] reg [61:0] ex_reg_rs_msb_1; // @[RocketCore.scala:467:26] wire _ex_rs_T = ex_reg_rs_lsb_0 == 2'h1; // @[package.scala:39:86] wire [63:0] _ex_rs_T_1 = _ex_rs_T ? mem_reg_wdata : 64'h0; // @[package.scala:39:{76,86}] wire _ex_rs_T_2 = ex_reg_rs_lsb_0 == 2'h2; // @[package.scala:39:86] wire [63:0] _ex_rs_T_3 = _ex_rs_T_2 ? wb_reg_wdata : _ex_rs_T_1; // @[package.scala:39:{76,86}] wire _ex_rs_T_4 = &ex_reg_rs_lsb_0; // @[package.scala:39:86] wire [63:0] _ex_rs_T_5 = _ex_rs_T_4 ? dcache_bypass_data : _ex_rs_T_3; // @[package.scala:39:{76,86}] wire [63:0] _ex_rs_T_6 = {ex_reg_rs_msb_0, ex_reg_rs_lsb_0}; // @[RocketCore.scala:466:26, :467:26, :469:69] assign ex_rs_0 = ex_reg_rs_bypass_0 ? _ex_rs_T_5 : _ex_rs_T_6; // @[package.scala:39:76] assign io_fpu_fromint_data_0 = ex_rs_0; // @[RocketCore.scala:153:7, :469:14] wire [63:0] _ex_op1_T = ex_rs_0; // @[RocketCore.scala:469:14, :473:24] wire _ex_rs_T_7 = ex_reg_rs_lsb_1 == 2'h1; // @[package.scala:39:86] wire [63:0] _ex_rs_T_8 = _ex_rs_T_7 ? mem_reg_wdata : 64'h0; // @[package.scala:39:{76,86}] wire _ex_rs_T_9 = ex_reg_rs_lsb_1 == 2'h2; // @[package.scala:39:86] wire [63:0] _ex_rs_T_10 = _ex_rs_T_9 ? wb_reg_wdata : _ex_rs_T_8; // @[package.scala:39:{76,86}] wire _ex_rs_T_11 = &ex_reg_rs_lsb_1; // @[package.scala:39:86] wire [63:0] _ex_rs_T_12 = _ex_rs_T_11 ? dcache_bypass_data : _ex_rs_T_10; // @[package.scala:39:{76,86}] wire [63:0] _ex_rs_T_13 = {ex_reg_rs_msb_1, ex_reg_rs_lsb_1}; // @[RocketCore.scala:466:26, :467:26, :469:69] wire [63:0] ex_rs_1 = ex_reg_rs_bypass_1 ? _ex_rs_T_12 : _ex_rs_T_13; // @[package.scala:39:76] wire [63:0] _ex_op2_T = ex_rs_1; // @[RocketCore.scala:469:14, :479:24] wire [63:0] mem_reg_rs2_dat_padded = ex_rs_1; // @[RocketCore.scala:469:14] wire _GEN_43 = ex_ctrl_sel_imm == 3'h5; // @[RocketCore.scala:243:20, :1341:24] wire _ex_imm_sign_T; // @[RocketCore.scala:1341:24] assign _ex_imm_sign_T = _GEN_43; // @[RocketCore.scala:1341:24] wire _ex_imm_b11_T_1; // @[RocketCore.scala:1344:40] assign _ex_imm_b11_T_1 = _GEN_43; // @[RocketCore.scala:1341:24, :1344:40] wire _ex_imm_b10_5_T_1; // @[RocketCore.scala:1347:42] assign _ex_imm_b10_5_T_1 = _GEN_43; // @[RocketCore.scala:1341:24, :1347:42] wire _ex_imm_b4_1_T_5; // @[RocketCore.scala:1350:24] assign _ex_imm_b4_1_T_5 = _GEN_43; // @[RocketCore.scala:1341:24, :1350:24] wire _ex_imm_b0_T_4; // @[RocketCore.scala:1353:22] assign _ex_imm_b0_T_4 = _GEN_43; // @[RocketCore.scala:1341:24, :1353:22] wire _ex_imm_sign_T_1 = ex_reg_inst[31]; // @[RocketCore.scala:259:24, :1341:44] wire _ex_imm_sign_T_2 = _ex_imm_sign_T_1; // @[RocketCore.scala:1341:{44,49}] wire ex_imm_sign = ~_ex_imm_sign_T & _ex_imm_sign_T_2; // @[RocketCore.scala:1341:{19,24,49}] wire ex_imm_hi_hi_hi = ex_imm_sign; // @[RocketCore.scala:1341:19, :1355:8] wire _GEN_44 = ex_ctrl_sel_imm == 3'h2; // @[RocketCore.scala:243:20, :1342:26] wire _ex_imm_b30_20_T; // @[RocketCore.scala:1342:26] assign _ex_imm_b30_20_T = _GEN_44; // @[RocketCore.scala:1342:26] wire _ex_imm_b11_T; // @[RocketCore.scala:1344:23] assign _ex_imm_b11_T = _GEN_44; // @[RocketCore.scala:1342:26, :1344:23] wire _ex_imm_b10_5_T; // @[RocketCore.scala:1347:25] assign _ex_imm_b10_5_T = _GEN_44; // @[RocketCore.scala:1342:26, :1347:25] wire _ex_imm_b4_1_T; // @[RocketCore.scala:1348:24] assign _ex_imm_b4_1_T = _GEN_44; // @[RocketCore.scala:1342:26, :1348:24] wire [10:0] _ex_imm_b30_20_T_1 = ex_reg_inst[30:20]; // @[RocketCore.scala:259:24, :1342:41] wire [10:0] _ex_imm_b30_20_T_2 = _ex_imm_b30_20_T_1; // @[RocketCore.scala:1342:{41,49}] wire [10:0] ex_imm_b30_20 = _ex_imm_b30_20_T ? _ex_imm_b30_20_T_2 : {11{ex_imm_sign}}; // @[RocketCore.scala:1341:19, :1342:{21,26,49}] wire [10:0] ex_imm_hi_hi_lo = ex_imm_b30_20; // @[RocketCore.scala:1342:21, :1355:8] wire _ex_imm_b19_12_T = ex_ctrl_sel_imm != 3'h2; // @[RocketCore.scala:243:20, :1343:26] wire _ex_imm_b19_12_T_1 = ex_ctrl_sel_imm != 3'h3; // @[RocketCore.scala:243:20, :1343:43] wire _ex_imm_b19_12_T_2 = _ex_imm_b19_12_T & _ex_imm_b19_12_T_1; // @[RocketCore.scala:1343:{26,36,43}] wire [7:0] _ex_imm_b19_12_T_3 = ex_reg_inst[19:12]; // @[RocketCore.scala:259:24, :1343:65] wire [7:0] _ex_imm_b19_12_T_4 = _ex_imm_b19_12_T_3; // @[RocketCore.scala:1343:{65,73}] wire [7:0] ex_imm_b19_12 = _ex_imm_b19_12_T_2 ? {8{ex_imm_sign}} : _ex_imm_b19_12_T_4; // @[RocketCore.scala:1341:19, :1343:{21,36,73}] wire [7:0] ex_imm_hi_lo_hi = ex_imm_b19_12; // @[RocketCore.scala:1343:21, :1355:8] wire _ex_imm_b11_T_2 = _ex_imm_b11_T | _ex_imm_b11_T_1; // @[RocketCore.scala:1344:{23,33,40}] wire _ex_imm_b11_T_3 = ex_ctrl_sel_imm == 3'h3; // @[RocketCore.scala:243:20, :1345:23] wire _ex_imm_b11_T_4 = ex_reg_inst[20]; // @[RocketCore.scala:259:24, :1345:39] wire _ex_imm_b0_T_3 = ex_reg_inst[20]; // @[RocketCore.scala:259:24, :1345:39, :1352:37] wire _io_dmem_req_bits_signed_T = ex_reg_inst[20]; // @[RocketCore.scala:259:24, :1136:58, :1345:39] wire _ex_imm_b11_T_5 = _ex_imm_b11_T_4; // @[RocketCore.scala:1345:{39,44}] wire _GEN_45 = ex_ctrl_sel_imm == 3'h1; // @[RocketCore.scala:243:20, :1346:23] wire _ex_imm_b11_T_6; // @[RocketCore.scala:1346:23] assign _ex_imm_b11_T_6 = _GEN_45; // @[RocketCore.scala:1346:23] wire _ex_imm_b4_1_T_2; // @[RocketCore.scala:1349:41] assign _ex_imm_b4_1_T_2 = _GEN_45; // @[RocketCore.scala:1346:23, :1349:41] wire _ex_imm_b11_T_7 = ex_reg_inst[7]; // @[RocketCore.scala:259:24, :1346:39] wire _ex_imm_b0_T_1 = ex_reg_inst[7]; // @[RocketCore.scala:259:24, :1346:39, :1351:37] wire _ex_imm_b11_T_8 = _ex_imm_b11_T_7; // @[RocketCore.scala:1346:{39,43}] wire _ex_imm_b11_T_9 = _ex_imm_b11_T_6 ? _ex_imm_b11_T_8 : ex_imm_sign; // @[RocketCore.scala:1341:19, :1346:{18,23,43}] wire _ex_imm_b11_T_10 = _ex_imm_b11_T_3 ? _ex_imm_b11_T_5 : _ex_imm_b11_T_9; // @[RocketCore.scala:1345:{18,23,44}, :1346:18] wire ex_imm_b11 = ~_ex_imm_b11_T_2 & _ex_imm_b11_T_10; // @[RocketCore.scala:1344:{18,33}, :1345:18] wire ex_imm_hi_lo_lo = ex_imm_b11; // @[RocketCore.scala:1344:18, :1355:8] wire _ex_imm_b10_5_T_2 = _ex_imm_b10_5_T | _ex_imm_b10_5_T_1; // @[RocketCore.scala:1347:{25,35,42}] wire [5:0] _ex_imm_b10_5_T_3 = ex_reg_inst[30:25]; // @[RocketCore.scala:259:24, :1347:62] wire [5:0] ex_imm_b10_5 = _ex_imm_b10_5_T_2 ? 6'h0 : _ex_imm_b10_5_T_3; // @[RocketCore.scala:1347:{20,35,62}] wire _GEN_46 = ex_ctrl_sel_imm == 3'h0; // @[RocketCore.scala:243:20, :1349:24] wire _ex_imm_b4_1_T_1; // @[RocketCore.scala:1349:24] assign _ex_imm_b4_1_T_1 = _GEN_46; // @[RocketCore.scala:1349:24] wire _ex_imm_b0_T; // @[RocketCore.scala:1351:22] assign _ex_imm_b0_T = _GEN_46; // @[RocketCore.scala:1349:24, :1351:22] wire _ex_imm_b4_1_T_3 = _ex_imm_b4_1_T_1 | _ex_imm_b4_1_T_2; // @[RocketCore.scala:1349:{24,34,41}] wire [3:0] _ex_imm_b4_1_T_4 = ex_reg_inst[11:8]; // @[RocketCore.scala:259:24, :1349:57] wire [3:0] _ex_imm_b4_1_T_6 = ex_reg_inst[19:16]; // @[RocketCore.scala:259:24, :1350:39] wire [3:0] _ex_imm_b4_1_T_7 = ex_reg_inst[24:21]; // @[RocketCore.scala:259:24, :1350:52] wire [3:0] _ex_imm_b4_1_T_8 = _ex_imm_b4_1_T_5 ? _ex_imm_b4_1_T_6 : _ex_imm_b4_1_T_7; // @[RocketCore.scala:1350:{19,24,39,52}] wire [3:0] _ex_imm_b4_1_T_9 = _ex_imm_b4_1_T_3 ? _ex_imm_b4_1_T_4 : _ex_imm_b4_1_T_8; // @[RocketCore.scala:1349:{19,34,57}, :1350:19] wire [3:0] ex_imm_b4_1 = _ex_imm_b4_1_T ? 4'h0 : _ex_imm_b4_1_T_9; // @[RocketCore.scala:1348:{19,24}, :1349:19] wire _ex_imm_b0_T_2 = ex_ctrl_sel_imm == 3'h4; // @[RocketCore.scala:243:20, :1352:22] wire _ex_imm_b0_T_5 = ex_reg_inst[15]; // @[RocketCore.scala:259:24, :1353:37] wire _ex_imm_b0_T_6 = _ex_imm_b0_T_4 & _ex_imm_b0_T_5; // @[RocketCore.scala:1353:{17,22,37}] wire _ex_imm_b0_T_7 = _ex_imm_b0_T_2 ? _ex_imm_b0_T_3 : _ex_imm_b0_T_6; // @[RocketCore.scala:1352:{17,22,37}, :1353:17] wire ex_imm_b0 = _ex_imm_b0_T ? _ex_imm_b0_T_1 : _ex_imm_b0_T_7; // @[RocketCore.scala:1351:{17,22,37}, :1352:17] wire [9:0] ex_imm_lo_hi = {ex_imm_b10_5, ex_imm_b4_1}; // @[RocketCore.scala:1347:20, :1348:19, :1355:8] wire [10:0] ex_imm_lo = {ex_imm_lo_hi, ex_imm_b0}; // @[RocketCore.scala:1351:17, :1355:8] wire [8:0] ex_imm_hi_lo = {ex_imm_hi_lo_hi, ex_imm_hi_lo_lo}; // @[RocketCore.scala:1355:8] wire [11:0] ex_imm_hi_hi = {ex_imm_hi_hi_hi, ex_imm_hi_hi_lo}; // @[RocketCore.scala:1355:8] wire [20:0] ex_imm_hi = {ex_imm_hi_hi, ex_imm_hi_lo}; // @[RocketCore.scala:1355:8] wire [31:0] _ex_imm_T = {ex_imm_hi, ex_imm_lo}; // @[RocketCore.scala:1355:8] wire [31:0] ex_imm = _ex_imm_T; // @[RocketCore.scala:1355:{8,53}] wire _ex_rs1shl_T = ex_reg_inst[3]; // @[RocketCore.scala:259:24, :471:34] wire [31:0] _ex_rs1shl_T_1 = ex_rs_0[31:0]; // @[RocketCore.scala:469:14, :471:47] wire [63:0] _ex_rs1shl_T_2 = _ex_rs1shl_T ? {32'h0, _ex_rs1shl_T_1} : ex_rs_0; // @[RocketCore.scala:469:14, :471:{22,34,47}] wire [1:0] _ex_rs1shl_T_3 = ex_reg_inst[14:13]; // @[RocketCore.scala:259:24, :471:79] wire [66:0] ex_rs1shl = {3'h0, _ex_rs1shl_T_2} << _ex_rs1shl_T_3; // @[RocketCore.scala:471:{22,65,79}] wire [66:0] _ex_op1_T_2 = ex_rs1shl; // @[RocketCore.scala:471:65, :475:54] wire _ex_op1_T_3 = ex_ctrl_sel_alu1 == 2'h1; // @[RocketCore.scala:243:20, :472:48] wire [63:0] _ex_op1_T_4 = _ex_op1_T_3 ? _ex_op1_T : 64'h0; // @[RocketCore.scala:472:48, :473:24] wire _ex_op1_T_5 = ex_ctrl_sel_alu1 == 2'h2; // @[RocketCore.scala:243:20, :472:48] wire [63:0] _ex_op1_T_6 = _ex_op1_T_5 ? {{24{_ex_op1_T_1[39]}}, _ex_op1_T_1} : _ex_op1_T_4; // @[RocketCore.scala:472:48, :474:24] wire _ex_op1_T_7 = &ex_ctrl_sel_alu1; // @[RocketCore.scala:243:20, :472:48] wire [66:0] ex_op1 = _ex_op1_T_7 ? _ex_op1_T_2 : {{3{_ex_op1_T_6[63]}}, _ex_op1_T_6}; // @[RocketCore.scala:472:48, :475:54] wire [66:0] _alu_io_in1_T = ex_op1; // @[RocketCore.scala:472:48, :508:24] wire _ex_op2_oh_T = ex_ctrl_sel_alu2[0]; // @[RocketCore.scala:243:20, :477:48] wire [11:0] _ex_op2_oh_T_1 = ex_reg_inst[31:20]; // @[RocketCore.scala:259:24, :477:66] wire [63:0] _ex_op2_oh_T_2 = _ex_op2_oh_T ? {52'h0, _ex_op2_oh_T_1} : ex_rs_1; // @[RocketCore.scala:469:14, :477:{31,48,66}] wire [5:0] _ex_op2_oh_T_3 = _ex_op2_oh_T_2[5:0]; // @[RocketCore.scala:477:{31,90}] wire [63:0] _ex_op2_oh_T_4 = 64'h1 << _ex_op2_oh_T_3; // @[OneHot.scala:58:35] wire [63:0] ex_op2_oh = _ex_op2_oh_T_4; // @[OneHot.scala:58:35] wire [3:0] _ex_op2_T_1 = ex_reg_rvc ? 4'h2 : 4'h4; // @[RocketCore.scala:249:35, :481:19] wire _ex_op2_T_2 = ex_ctrl_sel_alu2 == 3'h2; // @[RocketCore.scala:243:20, :478:48] wire [63:0] _ex_op2_T_3 = _ex_op2_T_2 ? _ex_op2_T : 64'h0; // @[RocketCore.scala:478:48, :479:24] wire _ex_op2_T_4 = ex_ctrl_sel_alu2 == 3'h3; // @[RocketCore.scala:243:20, :478:48] wire [63:0] _ex_op2_T_5 = _ex_op2_T_4 ? {{32{ex_imm[31]}}, ex_imm} : _ex_op2_T_3; // @[RocketCore.scala:478:48, :1355:53] wire _ex_op2_T_6 = ex_ctrl_sel_alu2 == 3'h1; // @[RocketCore.scala:243:20, :478:48] wire [63:0] _ex_op2_T_7 = _ex_op2_T_6 ? {{60{_ex_op2_T_1[3]}}, _ex_op2_T_1} : _ex_op2_T_5; // @[RocketCore.scala:478:48, :481:19] wire _ex_op2_T_8 = ex_ctrl_sel_alu2 == 3'h4; // @[RocketCore.scala:243:20, :478:48] wire [63:0] _ex_op2_T_9 = _ex_op2_T_8 ? ex_op2_oh : _ex_op2_T_7; // @[RocketCore.scala:477:112, :478:48] wire _ex_op2_T_10 = ex_ctrl_sel_alu2 == 3'h5; // @[RocketCore.scala:243:20, :478:48] wire [63:0] ex_op2 = _ex_op2_T_10 ? ex_op2_oh : _ex_op2_T_9; // @[RocketCore.scala:477:112, :478:48] wire [63:0] _alu_io_in2_T = ex_op2; // @[RocketCore.scala:478:48, :507:24] wire _div_io_req_valid_T = ex_reg_valid & ex_ctrl_div; // @[RocketCore.scala:243:20, :248:35, :512:36] wire _ex_reg_valid_T = ~ctrl_killd; // @[RocketCore.scala:338:24, :525:19] wire _ex_reg_replay_T = ~take_pc_mem_wb; // @[RocketCore.scala:307:35, :526:20] wire _ex_reg_replay_T_1 = _ex_reg_replay_T & _ibuf_io_inst_0_valid; // @[RocketCore.scala:311:20, :526:{20,29}] wire _ex_reg_replay_T_2 = _ex_reg_replay_T_1 & _ibuf_io_inst_0_bits_replay; // @[RocketCore.scala:311:20, :526:{29,54}] wire _ex_reg_xcpt_T = ~ctrl_killd; // @[RocketCore.scala:338:24, :525:19, :527:18] wire _ex_reg_xcpt_T_1 = _ex_reg_xcpt_T & id_xcpt; // @[RocketCore.scala:527:{18,30}, :1278:14] wire _ex_reg_xcpt_interrupt_T = ~take_pc_mem_wb; // @[RocketCore.scala:307:35, :526:20, :528:28] wire _ex_reg_xcpt_interrupt_T_1 = _ex_reg_xcpt_interrupt_T & _ibuf_io_inst_0_valid; // @[RocketCore.scala:311:20, :528:{28,37}] wire _ex_reg_xcpt_interrupt_T_2 = _ex_reg_xcpt_interrupt_T_1 & _csr_io_interrupt; // @[RocketCore.scala:341:19, :528:{37,62}] wire [1:0] hi = {_ibuf_io_inst_0_bits_xcpt1_pf_inst, _ibuf_io_inst_0_bits_xcpt1_gf_inst}; // @[RocketCore.scala:311:20, :541:22] wire [1:0] hi_1 = {_ibuf_io_inst_0_bits_xcpt0_pf_inst, _ibuf_io_inst_0_bits_xcpt0_gf_inst}; // @[RocketCore.scala:311:20, :546:40] wire _ex_reg_flush_pipe_T = id_ctrl_fence_i | id_csr_flush; // @[RocketCore.scala:321:21, :346:37, :551:42] wire _ex_reg_hls_T_1 = id_ctrl_mem_cmd == 5'h0; // @[package.scala:16:47] wire _ex_reg_hls_T_2 = id_ctrl_mem_cmd == 5'h1; // @[package.scala:16:47] wire _ex_reg_hls_T_3 = id_ctrl_mem_cmd == 5'h10; // @[package.scala:16:47] wire _ex_reg_hls_T_4 = _ex_reg_hls_T_1 | _ex_reg_hls_T_2; // @[package.scala:16:47, :81:59] wire _ex_reg_hls_T_5 = _ex_reg_hls_T_4 | _ex_reg_hls_T_3; // @[package.scala:16:47, :81:59] wire [1:0] _ex_reg_mem_size_T_1 = _ibuf_io_inst_0_bits_inst_bits[27:26]; // @[RocketCore.scala:311:20, :554:75] wire [1:0] _ex_reg_mem_size_T_2 = _ibuf_io_inst_0_bits_inst_bits[13:12]; // @[RocketCore.scala:311:20, :554:95] wire [1:0] _ex_reg_mem_size_T_3 = _ex_reg_mem_size_T_2; // @[RocketCore.scala:554:{27,95}] wire _ex_reg_mem_size_T_4 = |id_raddr2; // @[RocketCore.scala:326:72, :556:40, :1326:41] wire _ex_reg_mem_size_T_5 = |id_raddr1; // @[RocketCore.scala:326:72, :556:59, :1326:41] wire [1:0] _ex_reg_mem_size_T_6 = {_ex_reg_mem_size_T_4, _ex_reg_mem_size_T_5}; // @[RocketCore.scala:556:{29,40,59}] wire _do_bypass_T = id_bypass_src_0_0 | id_bypass_src_0_1; // @[RocketCore.scala:461:74, :568:48] wire _do_bypass_T_1 = _do_bypass_T | id_bypass_src_0_2; // @[RocketCore.scala:461:74, :568:48] wire do_bypass = _do_bypass_T_1 | id_bypass_src_0_3; // @[RocketCore.scala:461:74, :568:48] wire [1:0] _bypass_src_T = {1'h1, ~id_bypass_src_0_2}; // @[Mux.scala:50:70] wire [1:0] _bypass_src_T_1 = id_bypass_src_0_1 ? 2'h1 : _bypass_src_T; // @[Mux.scala:50:70] wire [1:0] bypass_src = id_bypass_src_0_0 ? 2'h0 : _bypass_src_T_1; // @[Mux.scala:50:70] wire [1:0] _ex_reg_rs_lsb_0_T = id_rs_0[1:0]; // @[RocketCore.scala:573:37, :1325:26] wire [61:0] _ex_reg_rs_msb_0_T = id_rs_0[63:2]; // @[RocketCore.scala:574:38, :1325:26] wire _do_bypass_T_2 = id_bypass_src_1_0 | id_bypass_src_1_1; // @[RocketCore.scala:461:74, :568:48] wire _do_bypass_T_3 = _do_bypass_T_2 | id_bypass_src_1_2; // @[RocketCore.scala:461:74, :568:48] wire do_bypass_1 = _do_bypass_T_3 | id_bypass_src_1_3; // @[RocketCore.scala:461:74, :568:48] wire [1:0] _bypass_src_T_2 = {1'h1, ~id_bypass_src_1_2}; // @[Mux.scala:50:70] wire [1:0] _bypass_src_T_3 = id_bypass_src_1_1 ? 2'h1 : _bypass_src_T_2; // @[Mux.scala:50:70] wire [1:0] bypass_src_1 = id_bypass_src_1_0 ? 2'h0 : _bypass_src_T_3; // @[Mux.scala:50:70] wire [1:0] _ex_reg_rs_lsb_1_T = id_rs_1[1:0]; // @[RocketCore.scala:573:37, :1325:26] wire [61:0] _ex_reg_rs_msb_1_T = id_rs_1[63:2]; // @[RocketCore.scala:574:38, :1325:26] wire [15:0] _inst_T = _ibuf_io_inst_0_bits_raw[15:0]; // @[RocketCore.scala:311:20, :578:62] wire [31:0] inst = _ibuf_io_inst_0_bits_rvc ? {16'h0, _inst_T} : _ibuf_io_inst_0_bits_raw; // @[RocketCore.scala:311:20, :578:{21,62}] wire [1:0] _ex_reg_rs_lsb_0_T_1 = inst[1:0]; // @[RocketCore.scala:578:21, :580:31] wire [29:0] _ex_reg_rs_msb_0_T_1 = inst[31:2]; // @[RocketCore.scala:578:21, :581:32] wire _ex_reg_set_vconfig_T = ~id_xcpt; // @[RocketCore.scala:591:45, :1278:14] wire _ex_pc_valid_T = ex_reg_valid | ex_reg_replay; // @[RocketCore.scala:248:35, :255:26, :595:34] wire ex_pc_valid = _ex_pc_valid_T | ex_reg_xcpt_interrupt; // @[RocketCore.scala:247:35, :595:{34,51}] wire _wb_dcache_miss_T = ~io_dmem_resp_valid_0; // @[RocketCore.scala:153:7, :596:39] wire wb_dcache_miss = wb_ctrl_mem & _wb_dcache_miss_T; // @[RocketCore.scala:245:20, :596:{36,39}] wire _replay_ex_structural_T = ~io_dmem_req_ready_0; // @[RocketCore.scala:153:7, :597:45] wire _replay_ex_structural_T_1 = ex_ctrl_mem & _replay_ex_structural_T; // @[RocketCore.scala:243:20, :597:{42,45}] wire _replay_ex_structural_T_2 = ~_div_io_req_ready; // @[RocketCore.scala:511:19, :598:45] wire _replay_ex_structural_T_3 = ex_ctrl_div & _replay_ex_structural_T_2; // @[RocketCore.scala:243:20, :598:{42,45}] wire _replay_ex_structural_T_4 = _replay_ex_structural_T_1 | _replay_ex_structural_T_3; // @[RocketCore.scala:597:{42,64}, :598:42] wire replay_ex_structural = _replay_ex_structural_T_4; // @[RocketCore.scala:597:64, :598:63] wire replay_ex_load_use = wb_dcache_miss & ex_reg_load_use; // @[RocketCore.scala:253:35, :596:36, :600:43] wire _replay_ex_T = replay_ex_structural | replay_ex_load_use; // @[RocketCore.scala:598:63, :600:43, :601:75] wire _replay_ex_T_1 = ex_reg_valid & _replay_ex_T; // @[RocketCore.scala:248:35, :601:{50,75}] wire replay_ex = ex_reg_replay | _replay_ex_T_1; // @[RocketCore.scala:255:26, :601:{33,50}] wire _ctrl_killx_T = take_pc_mem_wb | replay_ex; // @[RocketCore.scala:307:35, :601:33, :602:35] wire _ctrl_killx_T_1 = ~ex_reg_valid; // @[RocketCore.scala:248:35, :602:51] assign ctrl_killx = _ctrl_killx_T | _ctrl_killx_T_1; // @[RocketCore.scala:602:{35,48,51}] assign io_fpu_killx_0 = ctrl_killx; // @[RocketCore.scala:153:7, :602:48] wire _GEN_47 = ex_ctrl_mem_cmd == 5'h7; // @[RocketCore.scala:243:20, :604:40] wire _ex_slow_bypass_T; // @[RocketCore.scala:604:40] assign _ex_slow_bypass_T = _GEN_47; // @[RocketCore.scala:604:40] wire _mem_reg_load_T_3; // @[package.scala:16:47] assign _mem_reg_load_T_3 = _GEN_47; // @[package.scala:16:47] wire _mem_reg_store_T_3; // @[Consts.scala:90:66] assign _mem_reg_store_T_3 = _GEN_47; // @[RocketCore.scala:604:40] wire _io_dmem_req_bits_no_resp_T_3; // @[package.scala:16:47] assign _io_dmem_req_bits_no_resp_T_3 = _GEN_47; // @[package.scala:16:47] wire _ex_slow_bypass_T_1 = ~(ex_reg_mem_size[1]); // @[RocketCore.scala:257:28, :604:69] wire ex_slow_bypass = _ex_slow_bypass_T | _ex_slow_bypass_T_1; // @[RocketCore.scala:604:{40,50,69}] wire _ex_sfence_T_1 = ex_ctrl_mem_cmd == 5'h14; // @[RocketCore.scala:243:20, :605:64] wire _ex_sfence_T_2 = ex_ctrl_mem_cmd == 5'h15; // @[RocketCore.scala:243:20, :605:96] wire _ex_sfence_T_3 = _ex_sfence_T_1 | _ex_sfence_T_2; // @[RocketCore.scala:605:{64,77,96}] wire _ex_sfence_T_4 = ex_ctrl_mem_cmd == 5'h16; // @[RocketCore.scala:243:20, :605:129] wire _ex_sfence_T_5 = _ex_sfence_T_3 | _ex_sfence_T_4; // @[RocketCore.scala:605:{77,110,129}] wire ex_sfence = _ex_sfence_T & _ex_sfence_T_5; // @[RocketCore.scala:605:{29,44,110}] wire ex_xcpt = ex_reg_xcpt_interrupt | ex_reg_xcpt; // @[RocketCore.scala:247:35, :251:35, :608:28, :1278:14] wire _mem_pc_valid_T = mem_reg_valid | mem_reg_replay; // @[RocketCore.scala:265:36, :269:36, :614:36] wire mem_pc_valid = _mem_pc_valid_T | mem_reg_xcpt_interrupt; // @[RocketCore.scala:264:36, :614:{36,54}] wire _GEN_48 = mem_ctrl_branch & mem_br_taken; // @[RocketCore.scala:244:21, :284:25, :616:25] wire _mem_br_target_T_1; // @[RocketCore.scala:616:25] assign _mem_br_target_T_1 = _GEN_48; // @[RocketCore.scala:616:25] wire _mem_cfi_taken_T; // @[RocketCore.scala:626:40] assign _mem_cfi_taken_T = _GEN_48; // @[RocketCore.scala:616:25, :626:40] wire _mem_br_target_sign_T_1 = mem_reg_inst[31]; // @[RocketCore.scala:278:25, :1341:44] wire _mem_br_target_sign_T_4 = mem_reg_inst[31]; // @[RocketCore.scala:278:25, :1341:44] wire _mem_br_target_sign_T_2 = _mem_br_target_sign_T_1; // @[RocketCore.scala:1341:{44,49}] wire mem_br_target_sign = _mem_br_target_sign_T_2; // @[RocketCore.scala:1341:{19,49}] wire mem_br_target_hi_hi_hi = mem_br_target_sign; // @[RocketCore.scala:1341:19, :1355:8] wire [10:0] _mem_br_target_b30_20_T_1 = mem_reg_inst[30:20]; // @[RocketCore.scala:278:25, :1342:41] wire [10:0] _mem_br_target_b30_20_T_4 = mem_reg_inst[30:20]; // @[RocketCore.scala:278:25, :1342:41] wire [10:0] _mem_br_target_b30_20_T_2 = _mem_br_target_b30_20_T_1; // @[RocketCore.scala:1342:{41,49}] wire [10:0] mem_br_target_b30_20 = {11{mem_br_target_sign}}; // @[RocketCore.scala:1341:19, :1342:21] wire [10:0] mem_br_target_hi_hi_lo = mem_br_target_b30_20; // @[RocketCore.scala:1342:21, :1355:8] wire [7:0] _mem_br_target_b19_12_T_3 = mem_reg_inst[19:12]; // @[RocketCore.scala:278:25, :1343:65] wire [7:0] _mem_br_target_b19_12_T_8 = mem_reg_inst[19:12]; // @[RocketCore.scala:278:25, :1343:65] wire [7:0] _mem_br_target_b19_12_T_4 = _mem_br_target_b19_12_T_3; // @[RocketCore.scala:1343:{65,73}] wire [7:0] mem_br_target_b19_12 = {8{mem_br_target_sign}}; // @[RocketCore.scala:1341:19, :1343:21] wire [7:0] mem_br_target_hi_lo_hi = mem_br_target_b19_12; // @[RocketCore.scala:1343:21, :1355:8] wire _mem_br_target_b11_T_4 = mem_reg_inst[20]; // @[RocketCore.scala:278:25, :1345:39] wire _mem_br_target_b0_T_3 = mem_reg_inst[20]; // @[RocketCore.scala:278:25, :1345:39, :1352:37] wire _mem_br_target_b11_T_15 = mem_reg_inst[20]; // @[RocketCore.scala:278:25, :1345:39] wire _mem_br_target_b0_T_11 = mem_reg_inst[20]; // @[RocketCore.scala:278:25, :1345:39, :1352:37] wire _mem_br_target_b11_T_5 = _mem_br_target_b11_T_4; // @[RocketCore.scala:1345:{39,44}] wire _mem_br_target_b11_T_7 = mem_reg_inst[7]; // @[RocketCore.scala:278:25, :1346:39] wire _mem_br_target_b0_T_1 = mem_reg_inst[7]; // @[RocketCore.scala:278:25, :1346:39, :1351:37] wire _mem_br_target_b11_T_18 = mem_reg_inst[7]; // @[RocketCore.scala:278:25, :1346:39] wire _mem_br_target_b0_T_9 = mem_reg_inst[7]; // @[RocketCore.scala:278:25, :1346:39, :1351:37] wire _mem_br_target_b11_T_8 = _mem_br_target_b11_T_7; // @[RocketCore.scala:1346:{39,43}] wire _mem_br_target_b11_T_9 = _mem_br_target_b11_T_8; // @[RocketCore.scala:1346:{18,43}] wire _mem_br_target_b11_T_10 = _mem_br_target_b11_T_9; // @[RocketCore.scala:1345:18, :1346:18] wire mem_br_target_b11 = _mem_br_target_b11_T_10; // @[RocketCore.scala:1344:18, :1345:18] wire mem_br_target_hi_lo_lo = mem_br_target_b11; // @[RocketCore.scala:1344:18, :1355:8] wire [5:0] _mem_br_target_b10_5_T_3 = mem_reg_inst[30:25]; // @[RocketCore.scala:278:25, :1347:62] wire [5:0] _mem_br_target_b10_5_T_7 = mem_reg_inst[30:25]; // @[RocketCore.scala:278:25, :1347:62] wire [5:0] mem_br_target_b10_5 = _mem_br_target_b10_5_T_3; // @[RocketCore.scala:1347:{20,62}] wire [3:0] _mem_br_target_b4_1_T_4 = mem_reg_inst[11:8]; // @[RocketCore.scala:278:25, :1349:57] wire [3:0] _mem_br_target_b4_1_T_14 = mem_reg_inst[11:8]; // @[RocketCore.scala:278:25, :1349:57] wire [3:0] _mem_br_target_b4_1_T_9 = _mem_br_target_b4_1_T_4; // @[RocketCore.scala:1349:{19,57}] wire [3:0] _mem_br_target_b4_1_T_6 = mem_reg_inst[19:16]; // @[RocketCore.scala:278:25, :1350:39] wire [3:0] _mem_br_target_b4_1_T_16 = mem_reg_inst[19:16]; // @[RocketCore.scala:278:25, :1350:39] wire [3:0] _mem_br_target_b4_1_T_7 = mem_reg_inst[24:21]; // @[RocketCore.scala:278:25, :1350:52] wire [3:0] _mem_br_target_b4_1_T_17 = mem_reg_inst[24:21]; // @[RocketCore.scala:278:25, :1350:52] wire [3:0] _mem_br_target_b4_1_T_8 = _mem_br_target_b4_1_T_7; // @[RocketCore.scala:1350:{19,52}] wire [3:0] mem_br_target_b4_1 = _mem_br_target_b4_1_T_9; // @[RocketCore.scala:1348:19, :1349:19] wire _mem_br_target_b0_T_5 = mem_reg_inst[15]; // @[RocketCore.scala:278:25, :1353:37] wire _mem_br_target_b0_T_13 = mem_reg_inst[15]; // @[RocketCore.scala:278:25, :1353:37] wire [9:0] mem_br_target_lo_hi = {mem_br_target_b10_5, mem_br_target_b4_1}; // @[RocketCore.scala:1347:20, :1348:19, :1355:8] wire [10:0] mem_br_target_lo = {mem_br_target_lo_hi, 1'h0}; // @[RocketCore.scala:1355:8] wire [8:0] mem_br_target_hi_lo = {mem_br_target_hi_lo_hi, mem_br_target_hi_lo_lo}; // @[RocketCore.scala:1355:8] wire [11:0] mem_br_target_hi_hi = {mem_br_target_hi_hi_hi, mem_br_target_hi_hi_lo}; // @[RocketCore.scala:1355:8] wire [20:0] mem_br_target_hi = {mem_br_target_hi_hi, mem_br_target_hi_lo}; // @[RocketCore.scala:1355:8] wire [31:0] _mem_br_target_T_2 = {mem_br_target_hi, mem_br_target_lo}; // @[RocketCore.scala:1355:8] wire [31:0] _mem_br_target_T_3 = _mem_br_target_T_2; // @[RocketCore.scala:1355:{8,53}] wire _mem_br_target_sign_T_5 = _mem_br_target_sign_T_4; // @[RocketCore.scala:1341:{44,49}] wire mem_br_target_sign_1 = _mem_br_target_sign_T_5; // @[RocketCore.scala:1341:{19,49}] wire _mem_br_target_b11_T_20 = mem_br_target_sign_1; // @[RocketCore.scala:1341:19, :1346:18] wire mem_br_target_hi_hi_hi_1 = mem_br_target_sign_1; // @[RocketCore.scala:1341:19, :1355:8] wire [10:0] _mem_br_target_b30_20_T_5 = _mem_br_target_b30_20_T_4; // @[RocketCore.scala:1342:{41,49}] wire [10:0] mem_br_target_b30_20_1 = {11{mem_br_target_sign_1}}; // @[RocketCore.scala:1341:19, :1342:21] wire [10:0] mem_br_target_hi_hi_lo_1 = mem_br_target_b30_20_1; // @[RocketCore.scala:1342:21, :1355:8] wire [7:0] _mem_br_target_b19_12_T_9 = _mem_br_target_b19_12_T_8; // @[RocketCore.scala:1343:{65,73}] wire [7:0] mem_br_target_b19_12_1 = _mem_br_target_b19_12_T_9; // @[RocketCore.scala:1343:{21,73}] wire [7:0] mem_br_target_hi_lo_hi_1 = mem_br_target_b19_12_1; // @[RocketCore.scala:1343:21, :1355:8] wire _mem_br_target_b11_T_16 = _mem_br_target_b11_T_15; // @[RocketCore.scala:1345:{39,44}] wire _mem_br_target_b11_T_21 = _mem_br_target_b11_T_16; // @[RocketCore.scala:1345:{18,44}] wire _mem_br_target_b11_T_19 = _mem_br_target_b11_T_18; // @[RocketCore.scala:1346:{39,43}] wire mem_br_target_b11_1 = _mem_br_target_b11_T_21; // @[RocketCore.scala:1344:18, :1345:18] wire mem_br_target_hi_lo_lo_1 = mem_br_target_b11_1; // @[RocketCore.scala:1344:18, :1355:8] wire [5:0] mem_br_target_b10_5_1 = _mem_br_target_b10_5_T_7; // @[RocketCore.scala:1347:{20,62}] wire [3:0] _mem_br_target_b4_1_T_18 = _mem_br_target_b4_1_T_17; // @[RocketCore.scala:1350:{19,52}] wire [3:0] _mem_br_target_b4_1_T_19 = _mem_br_target_b4_1_T_18; // @[RocketCore.scala:1349:19, :1350:19] wire [3:0] mem_br_target_b4_1_1 = _mem_br_target_b4_1_T_19; // @[RocketCore.scala:1348:19, :1349:19] wire [9:0] mem_br_target_lo_hi_1 = {mem_br_target_b10_5_1, mem_br_target_b4_1_1}; // @[RocketCore.scala:1347:20, :1348:19, :1355:8] wire [10:0] mem_br_target_lo_1 = {mem_br_target_lo_hi_1, 1'h0}; // @[RocketCore.scala:1355:8] wire [8:0] mem_br_target_hi_lo_1 = {mem_br_target_hi_lo_hi_1, mem_br_target_hi_lo_lo_1}; // @[RocketCore.scala:1355:8] wire [11:0] mem_br_target_hi_hi_1 = {mem_br_target_hi_hi_hi_1, mem_br_target_hi_hi_lo_1}; // @[RocketCore.scala:1355:8] wire [20:0] mem_br_target_hi_1 = {mem_br_target_hi_hi_1, mem_br_target_hi_lo_1}; // @[RocketCore.scala:1355:8] wire [31:0] _mem_br_target_T_4 = {mem_br_target_hi_1, mem_br_target_lo_1}; // @[RocketCore.scala:1355:8] wire [31:0] _mem_br_target_T_5 = _mem_br_target_T_4; // @[RocketCore.scala:1355:{8,53}] wire [3:0] _mem_br_target_T_6 = mem_reg_rvc ? 4'h2 : 4'h4; // @[RocketCore.scala:266:36, :618:8] wire [31:0] _mem_br_target_T_7 = mem_ctrl_jal ? _mem_br_target_T_5 : {{28{_mem_br_target_T_6[3]}}, _mem_br_target_T_6}; // @[RocketCore.scala:244:21, :617:8, :618:8, :1355:53] wire [31:0] _mem_br_target_T_8 = _mem_br_target_T_1 ? _mem_br_target_T_3 : _mem_br_target_T_7; // @[RocketCore.scala:616:{8,25}, :617:8, :1355:53] wire [40:0] _mem_br_target_T_9 = {_mem_br_target_T[39], _mem_br_target_T} + {{9{_mem_br_target_T_8[31]}}, _mem_br_target_T_8}; // @[RocketCore.scala:615:{34,41}, :616:8] wire [39:0] _mem_br_target_T_10 = _mem_br_target_T_9[39:0]; // @[RocketCore.scala:615:41] wire [39:0] mem_br_target = _mem_br_target_T_10; // @[RocketCore.scala:615:41] wire _mem_npc_T = mem_ctrl_jalr | mem_reg_sfence; // @[RocketCore.scala:244:21, :276:27, :619:36] wire [24:0] _mem_npc_a_T = mem_reg_wdata[63:39]; // @[RocketCore.scala:282:26, :1293:17] wire [24:0] mem_npc_a = _mem_npc_a_T; // @[RocketCore.scala:1293:{17,23}] wire _mem_npc_msb_T = mem_npc_a == 25'h0; // @[RocketCore.scala:1293:23, :1294:21] wire _mem_npc_msb_T_1 = &mem_npc_a; // @[RocketCore.scala:1293:23, :1294:34] wire _mem_npc_msb_T_2 = _mem_npc_msb_T | _mem_npc_msb_T_1; // @[RocketCore.scala:1294:{21,29,34}] wire _mem_npc_msb_T_3 = mem_reg_wdata[39]; // @[RocketCore.scala:282:26, :1294:46] wire _mem_npc_msb_T_4 = mem_reg_wdata[38]; // @[RocketCore.scala:282:26, :1294:54] wire _mem_npc_msb_T_5 = ~_mem_npc_msb_T_4; // @[RocketCore.scala:1294:{51,54}] wire mem_npc_msb = _mem_npc_msb_T_2 ? _mem_npc_msb_T_3 : _mem_npc_msb_T_5; // @[RocketCore.scala:1294:{18,29,46,51}] wire [39:0] _mem_npc_T_2 = {mem_npc_msb, _mem_npc_T_1}; // @[RocketCore.scala:1294:18, :1295:{8,16}] wire [39:0] _mem_npc_T_3 = _mem_npc_T_2; // @[RocketCore.scala:619:106, :1295:8] wire [39:0] _mem_npc_T_4 = _mem_npc_T ? _mem_npc_T_3 : mem_br_target; // @[RocketCore.scala:615:41, :619:{21,36,106}] wire [39:0] _mem_npc_T_5 = _mem_npc_T_4 & 40'hFFFFFFFFFE; // @[RocketCore.scala:619:{21,129}] wire [39:0] _mem_npc_T_6 = _mem_npc_T_5; // @[RocketCore.scala:619:129] wire [39:0] mem_npc = _mem_npc_T_6; // @[RocketCore.scala:619:{129,139}] wire _mem_wrong_npc_T = mem_npc != ex_reg_pc; // @[RocketCore.scala:256:22, :619:139, :621:30] wire _mem_wrong_npc_T_1 = _ibuf_io_inst_0_valid | io_imem_resp_valid_0; // @[RocketCore.scala:153:7, :311:20, :622:31] wire _mem_wrong_npc_T_2 = mem_npc != _ibuf_io_pc; // @[RocketCore.scala:311:20, :619:139, :622:62] wire _mem_wrong_npc_T_3 = ~_mem_wrong_npc_T_1 | _mem_wrong_npc_T_2; // @[RocketCore.scala:622:{8,31,62}] assign mem_wrong_npc = ex_pc_valid ? _mem_wrong_npc_T : _mem_wrong_npc_T_3; // @[RocketCore.scala:595:51, :621:{8,30}, :622:8] assign io_imem_bht_update_bits_mispredict_0 = mem_wrong_npc; // @[RocketCore.scala:153:7, :621:8] wire _mem_npc_misaligned_T_1 = ~_mem_npc_misaligned_T; // @[RocketCore.scala:623:{28,46}] wire _mem_npc_misaligned_T_2 = mem_npc[1]; // @[RocketCore.scala:619:139, :623:66] wire _mem_npc_misaligned_T_3 = _mem_npc_misaligned_T_1 & _mem_npc_misaligned_T_2; // @[RocketCore.scala:623:{28,56,66}] wire _mem_npc_misaligned_T_4 = ~mem_reg_sfence; // @[RocketCore.scala:276:27, :623:73] wire mem_npc_misaligned = _mem_npc_misaligned_T_3 & _mem_npc_misaligned_T_4; // @[RocketCore.scala:623:{56,70,73}] wire _mem_int_wdata_T = ~mem_reg_xcpt; // @[RocketCore.scala:268:36, :624:27] wire _mem_int_wdata_T_1 = mem_ctrl_jalr ^ mem_npc_misaligned; // @[RocketCore.scala:244:21, :623:70, :624:59] wire _mem_int_wdata_T_2 = _mem_int_wdata_T & _mem_int_wdata_T_1; // @[RocketCore.scala:624:{27,41,59}] wire [63:0] _mem_int_wdata_T_4 = _mem_int_wdata_T_2 ? {{24{mem_br_target[39]}}, mem_br_target} : _mem_int_wdata_T_3; // @[RocketCore.scala:615:41, :624:{26,41,111}] wire [63:0] mem_int_wdata = _mem_int_wdata_T_4; // @[RocketCore.scala:624:{26,119}] wire _mem_cfi_T = mem_ctrl_branch | mem_ctrl_jalr; // @[RocketCore.scala:244:21, :625:33] assign mem_cfi = _mem_cfi_T | mem_ctrl_jal; // @[RocketCore.scala:244:21, :625:{33,50}] assign io_imem_btb_update_bits_isValid_0 = mem_cfi; // @[RocketCore.scala:153:7, :625:50] wire _mem_cfi_taken_T_1 = _mem_cfi_taken_T | mem_ctrl_jalr; // @[RocketCore.scala:244:21, :626:{40,57}] wire mem_cfi_taken = _mem_cfi_taken_T_1 | mem_ctrl_jal; // @[RocketCore.scala:244:21, :626:{57,74}] wire _mem_direction_misprediction_T_1 = mem_br_taken != _mem_direction_misprediction_T; // @[RocketCore.scala:284:25, :627:{69,85}] wire mem_direction_misprediction = mem_ctrl_branch & _mem_direction_misprediction_T_1; // @[RocketCore.scala:244:21, :627:{53,69}] wire _take_pc_mem_T = ~mem_reg_xcpt; // @[RocketCore.scala:268:36, :624:27, :629:35] wire _take_pc_mem_T_1 = mem_reg_valid & _take_pc_mem_T; // @[RocketCore.scala:265:36, :629:{32,35}] wire _take_pc_mem_T_2 = mem_wrong_npc | mem_reg_sfence; // @[RocketCore.scala:276:27, :621:8, :629:71] assign _take_pc_mem_T_3 = _take_pc_mem_T_1 & _take_pc_mem_T_2; // @[RocketCore.scala:629:{32,49,71}] assign take_pc_mem = _take_pc_mem_T_3; // @[RocketCore.scala:285:25, :629:49] wire _mem_reg_valid_T = ~ctrl_killx; // @[RocketCore.scala:602:48, :631:20] wire _mem_reg_replay_T = ~take_pc_mem_wb; // @[RocketCore.scala:307:35, :526:20, :632:21] wire _mem_reg_replay_T_1 = _mem_reg_replay_T & replay_ex; // @[RocketCore.scala:601:33, :632:{21,37}] wire _mem_reg_xcpt_T = ~ctrl_killx; // @[RocketCore.scala:602:48, :631:20, :633:19] wire _mem_reg_xcpt_T_1 = _mem_reg_xcpt_T & ex_xcpt; // @[RocketCore.scala:633:{19,31}, :1278:14] wire _mem_reg_xcpt_interrupt_T = ~take_pc_mem_wb; // @[RocketCore.scala:307:35, :526:20, :634:29] wire _mem_reg_xcpt_interrupt_T_1 = _mem_reg_xcpt_interrupt_T & ex_reg_xcpt_interrupt; // @[RocketCore.scala:247:35, :634:{29,45}] wire _GEN_49 = ex_ctrl_mem_cmd == 5'h0; // @[package.scala:16:47] wire _mem_reg_load_T; // @[package.scala:16:47] assign _mem_reg_load_T = _GEN_49; // @[package.scala:16:47] wire _io_dmem_req_bits_no_resp_T; // @[package.scala:16:47] assign _io_dmem_req_bits_no_resp_T = _GEN_49; // @[package.scala:16:47] wire _GEN_50 = ex_ctrl_mem_cmd == 5'h10; // @[package.scala:16:47] wire _mem_reg_load_T_1; // @[package.scala:16:47] assign _mem_reg_load_T_1 = _GEN_50; // @[package.scala:16:47] wire _io_dmem_req_bits_no_resp_T_1; // @[package.scala:16:47] assign _io_dmem_req_bits_no_resp_T_1 = _GEN_50; // @[package.scala:16:47] wire _GEN_51 = ex_ctrl_mem_cmd == 5'h6; // @[package.scala:16:47] wire _mem_reg_load_T_2; // @[package.scala:16:47] assign _mem_reg_load_T_2 = _GEN_51; // @[package.scala:16:47] wire _io_dmem_req_bits_no_resp_T_2; // @[package.scala:16:47] assign _io_dmem_req_bits_no_resp_T_2 = _GEN_51; // @[package.scala:16:47] wire _mem_reg_load_T_4 = _mem_reg_load_T | _mem_reg_load_T_1; // @[package.scala:16:47, :81:59] wire _mem_reg_load_T_5 = _mem_reg_load_T_4 | _mem_reg_load_T_2; // @[package.scala:16:47, :81:59] wire _mem_reg_load_T_6 = _mem_reg_load_T_5 | _mem_reg_load_T_3; // @[package.scala:16:47, :81:59] wire _GEN_52 = ex_ctrl_mem_cmd == 5'h4; // @[package.scala:16:47] wire _mem_reg_load_T_7; // @[package.scala:16:47] assign _mem_reg_load_T_7 = _GEN_52; // @[package.scala:16:47] wire _mem_reg_store_T_5; // @[package.scala:16:47] assign _mem_reg_store_T_5 = _GEN_52; // @[package.scala:16:47] wire _io_dmem_req_bits_no_resp_T_7; // @[package.scala:16:47] assign _io_dmem_req_bits_no_resp_T_7 = _GEN_52; // @[package.scala:16:47] wire _GEN_53 = ex_ctrl_mem_cmd == 5'h9; // @[package.scala:16:47] wire _mem_reg_load_T_8; // @[package.scala:16:47] assign _mem_reg_load_T_8 = _GEN_53; // @[package.scala:16:47] wire _mem_reg_store_T_6; // @[package.scala:16:47] assign _mem_reg_store_T_6 = _GEN_53; // @[package.scala:16:47] wire _io_dmem_req_bits_no_resp_T_8; // @[package.scala:16:47] assign _io_dmem_req_bits_no_resp_T_8 = _GEN_53; // @[package.scala:16:47] wire _GEN_54 = ex_ctrl_mem_cmd == 5'hA; // @[package.scala:16:47] wire _mem_reg_load_T_9; // @[package.scala:16:47] assign _mem_reg_load_T_9 = _GEN_54; // @[package.scala:16:47] wire _mem_reg_store_T_7; // @[package.scala:16:47] assign _mem_reg_store_T_7 = _GEN_54; // @[package.scala:16:47] wire _io_dmem_req_bits_no_resp_T_9; // @[package.scala:16:47] assign _io_dmem_req_bits_no_resp_T_9 = _GEN_54; // @[package.scala:16:47] wire _GEN_55 = ex_ctrl_mem_cmd == 5'hB; // @[package.scala:16:47] wire _mem_reg_load_T_10; // @[package.scala:16:47] assign _mem_reg_load_T_10 = _GEN_55; // @[package.scala:16:47] wire _mem_reg_store_T_8; // @[package.scala:16:47] assign _mem_reg_store_T_8 = _GEN_55; // @[package.scala:16:47] wire _io_dmem_req_bits_no_resp_T_10; // @[package.scala:16:47] assign _io_dmem_req_bits_no_resp_T_10 = _GEN_55; // @[package.scala:16:47] wire _mem_reg_load_T_11 = _mem_reg_load_T_7 | _mem_reg_load_T_8; // @[package.scala:16:47, :81:59] wire _mem_reg_load_T_12 = _mem_reg_load_T_11 | _mem_reg_load_T_9; // @[package.scala:16:47, :81:59] wire _mem_reg_load_T_13 = _mem_reg_load_T_12 | _mem_reg_load_T_10; // @[package.scala:16:47, :81:59] wire _GEN_56 = ex_ctrl_mem_cmd == 5'h8; // @[package.scala:16:47] wire _mem_reg_load_T_14; // @[package.scala:16:47] assign _mem_reg_load_T_14 = _GEN_56; // @[package.scala:16:47] wire _mem_reg_store_T_12; // @[package.scala:16:47] assign _mem_reg_store_T_12 = _GEN_56; // @[package.scala:16:47] wire _io_dmem_req_bits_no_resp_T_14; // @[package.scala:16:47] assign _io_dmem_req_bits_no_resp_T_14 = _GEN_56; // @[package.scala:16:47] wire _GEN_57 = ex_ctrl_mem_cmd == 5'hC; // @[package.scala:16:47] wire _mem_reg_load_T_15; // @[package.scala:16:47] assign _mem_reg_load_T_15 = _GEN_57; // @[package.scala:16:47] wire _mem_reg_store_T_13; // @[package.scala:16:47] assign _mem_reg_store_T_13 = _GEN_57; // @[package.scala:16:47] wire _io_dmem_req_bits_no_resp_T_15; // @[package.scala:16:47] assign _io_dmem_req_bits_no_resp_T_15 = _GEN_57; // @[package.scala:16:47] wire _GEN_58 = ex_ctrl_mem_cmd == 5'hD; // @[package.scala:16:47] wire _mem_reg_load_T_16; // @[package.scala:16:47] assign _mem_reg_load_T_16 = _GEN_58; // @[package.scala:16:47] wire _mem_reg_store_T_14; // @[package.scala:16:47] assign _mem_reg_store_T_14 = _GEN_58; // @[package.scala:16:47] wire _io_dmem_req_bits_no_resp_T_16; // @[package.scala:16:47] assign _io_dmem_req_bits_no_resp_T_16 = _GEN_58; // @[package.scala:16:47] wire _GEN_59 = ex_ctrl_mem_cmd == 5'hE; // @[package.scala:16:47] wire _mem_reg_load_T_17; // @[package.scala:16:47] assign _mem_reg_load_T_17 = _GEN_59; // @[package.scala:16:47] wire _mem_reg_store_T_15; // @[package.scala:16:47] assign _mem_reg_store_T_15 = _GEN_59; // @[package.scala:16:47] wire _io_dmem_req_bits_no_resp_T_17; // @[package.scala:16:47] assign _io_dmem_req_bits_no_resp_T_17 = _GEN_59; // @[package.scala:16:47] wire _GEN_60 = ex_ctrl_mem_cmd == 5'hF; // @[package.scala:16:47] wire _mem_reg_load_T_18; // @[package.scala:16:47] assign _mem_reg_load_T_18 = _GEN_60; // @[package.scala:16:47] wire _mem_reg_store_T_16; // @[package.scala:16:47] assign _mem_reg_store_T_16 = _GEN_60; // @[package.scala:16:47] wire _io_dmem_req_bits_no_resp_T_18; // @[package.scala:16:47] assign _io_dmem_req_bits_no_resp_T_18 = _GEN_60; // @[package.scala:16:47] wire _mem_reg_load_T_19 = _mem_reg_load_T_14 | _mem_reg_load_T_15; // @[package.scala:16:47, :81:59] wire _mem_reg_load_T_20 = _mem_reg_load_T_19 | _mem_reg_load_T_16; // @[package.scala:16:47, :81:59] wire _mem_reg_load_T_21 = _mem_reg_load_T_20 | _mem_reg_load_T_17; // @[package.scala:16:47, :81:59] wire _mem_reg_load_T_22 = _mem_reg_load_T_21 | _mem_reg_load_T_18; // @[package.scala:16:47, :81:59] wire _mem_reg_load_T_23 = _mem_reg_load_T_13 | _mem_reg_load_T_22; // @[package.scala:81:59] wire _mem_reg_load_T_24 = _mem_reg_load_T_6 | _mem_reg_load_T_23; // @[package.scala:81:59] wire _mem_reg_load_T_25 = ex_ctrl_mem & _mem_reg_load_T_24; // @[RocketCore.scala:243:20, :643:33] wire _mem_reg_store_T = ex_ctrl_mem_cmd == 5'h1; // @[RocketCore.scala:243:20] wire _mem_reg_store_T_1 = ex_ctrl_mem_cmd == 5'h11; // @[RocketCore.scala:243:20] wire _mem_reg_store_T_2 = _mem_reg_store_T | _mem_reg_store_T_1; // @[Consts.scala:90:{32,42,49}] wire _mem_reg_store_T_4 = _mem_reg_store_T_2 | _mem_reg_store_T_3; // @[Consts.scala:90:{42,59,66}] wire _mem_reg_store_T_9 = _mem_reg_store_T_5 | _mem_reg_store_T_6; // @[package.scala:16:47, :81:59] wire _mem_reg_store_T_10 = _mem_reg_store_T_9 | _mem_reg_store_T_7; // @[package.scala:16:47, :81:59] wire _mem_reg_store_T_11 = _mem_reg_store_T_10 | _mem_reg_store_T_8; // @[package.scala:16:47, :81:59] wire _mem_reg_store_T_17 = _mem_reg_store_T_12 | _mem_reg_store_T_13; // @[package.scala:16:47, :81:59] wire _mem_reg_store_T_18 = _mem_reg_store_T_17 | _mem_reg_store_T_14; // @[package.scala:16:47, :81:59] wire _mem_reg_store_T_19 = _mem_reg_store_T_18 | _mem_reg_store_T_15; // @[package.scala:16:47, :81:59] wire _mem_reg_store_T_20 = _mem_reg_store_T_19 | _mem_reg_store_T_16; // @[package.scala:16:47, :81:59] wire _mem_reg_store_T_21 = _mem_reg_store_T_11 | _mem_reg_store_T_20; // @[package.scala:81:59] wire _mem_reg_store_T_22 = _mem_reg_store_T_4 | _mem_reg_store_T_21; // @[Consts.scala:87:44, :90:{59,76}] wire _mem_reg_store_T_23 = ex_ctrl_mem & _mem_reg_store_T_22; // @[RocketCore.scala:243:20, :644:34] wire [1:0] size = ex_ctrl_rocc ? 2'h3 : ex_reg_mem_size; // @[RocketCore.scala:243:20, :257:28, :664:21] wire [1:0] mem_reg_rs2_size = size; // @[RocketCore.scala:664:21] wire _mem_reg_rs2_T = mem_reg_rs2_size == 2'h0; // @[AMOALU.scala:11:18, :29:19] wire [7:0] _mem_reg_rs2_T_1 = mem_reg_rs2_dat_padded[7:0]; // @[AMOALU.scala:13:27, :29:69] wire [15:0] _mem_reg_rs2_T_2 = {2{_mem_reg_rs2_T_1}}; // @[AMOALU.scala:29:{32,69}] wire [31:0] _mem_reg_rs2_T_3 = {2{_mem_reg_rs2_T_2}}; // @[AMOALU.scala:29:32] wire [63:0] _mem_reg_rs2_T_4 = {2{_mem_reg_rs2_T_3}}; // @[AMOALU.scala:29:32] wire _mem_reg_rs2_T_5 = mem_reg_rs2_size == 2'h1; // @[AMOALU.scala:11:18, :29:19] wire [15:0] _mem_reg_rs2_T_6 = mem_reg_rs2_dat_padded[15:0]; // @[AMOALU.scala:13:27, :29:69] wire [31:0] _mem_reg_rs2_T_7 = {2{_mem_reg_rs2_T_6}}; // @[AMOALU.scala:29:{32,69}] wire [63:0] _mem_reg_rs2_T_8 = {2{_mem_reg_rs2_T_7}}; // @[AMOALU.scala:29:32] wire _mem_reg_rs2_T_9 = mem_reg_rs2_size == 2'h2; // @[AMOALU.scala:11:18, :29:19] wire [31:0] _mem_reg_rs2_T_10 = mem_reg_rs2_dat_padded[31:0]; // @[AMOALU.scala:13:27, :29:69] wire [63:0] _mem_reg_rs2_T_11 = {2{_mem_reg_rs2_T_10}}; // @[AMOALU.scala:29:{32,69}] wire [63:0] _mem_reg_rs2_T_12 = _mem_reg_rs2_T_9 ? _mem_reg_rs2_T_11 : mem_reg_rs2_dat_padded; // @[AMOALU.scala:13:27, :29:{13,19,32}] wire [63:0] _mem_reg_rs2_T_13 = _mem_reg_rs2_T_5 ? _mem_reg_rs2_T_8 : _mem_reg_rs2_T_12; // @[AMOALU.scala:29:{13,19,32}] wire [63:0] _mem_reg_rs2_T_14 = _mem_reg_rs2_T ? _mem_reg_rs2_T_4 : _mem_reg_rs2_T_13; // @[AMOALU.scala:29:{13,19,32}] wire _mem_breakpoint_T = mem_reg_load & _bpu_io_xcpt_ld; // @[RocketCore.scala:273:36, :414:19, :677:38] wire _mem_breakpoint_T_1 = mem_reg_store & _bpu_io_xcpt_st; // @[RocketCore.scala:274:36, :414:19, :677:75] wire mem_breakpoint = _mem_breakpoint_T | _mem_breakpoint_T_1; // @[RocketCore.scala:677:{38,57,75}] wire _mem_debug_breakpoint_T = mem_reg_load & _bpu_io_debug_ld; // @[RocketCore.scala:273:36, :414:19, :678:44] wire _mem_debug_breakpoint_T_1 = mem_reg_store & _bpu_io_debug_st; // @[RocketCore.scala:274:36, :414:19, :678:82] wire mem_debug_breakpoint = _mem_debug_breakpoint_T | _mem_debug_breakpoint_T_1; // @[RocketCore.scala:678:{44,64,82}] wire mem_ldst_xcpt = mem_debug_breakpoint | mem_breakpoint; // @[RocketCore.scala:677:57, :678:64, :1278:{14,35}] wire [3:0] mem_ldst_cause = mem_debug_breakpoint ? 4'hE : 4'h3; // @[Mux.scala:50:70] wire _T_74 = mem_reg_xcpt_interrupt | mem_reg_xcpt; // @[RocketCore.scala:264:36, :268:36, :684:29] wire _T_75 = mem_reg_valid & mem_npc_misaligned; // @[RocketCore.scala:265:36, :623:70, :685:20] wire mem_xcpt = _T_74 | _T_75 | mem_reg_valid & mem_ldst_xcpt; // @[RocketCore.scala:265:36, :684:29, :685:20, :686:20, :1278:{14,35}] wire [63:0] mem_cause = _T_74 ? mem_reg_cause : {60'h0, _T_75 ? 4'h0 : mem_ldst_cause}; // @[Mux.scala:50:70] wire dcache_kill_mem = _dcache_kill_mem_T & io_dmem_replay_next_0; // @[RocketCore.scala:153:7, :695:{39,55}] wire _fpu_kill_mem_T = mem_reg_valid & mem_ctrl_fp; // @[RocketCore.scala:244:21, :265:36, :696:36] wire fpu_kill_mem = _fpu_kill_mem_T & io_fpu_nack_mem_0; // @[RocketCore.scala:153:7, :696:{36,51}] wire _vec_kill_mem_T = mem_reg_valid & mem_ctrl_mem; // @[RocketCore.scala:244:21, :265:36, :697:36] wire _replay_mem_T = dcache_kill_mem | mem_reg_replay; // @[RocketCore.scala:269:36, :695:55, :699:37] wire _replay_mem_T_1 = _replay_mem_T | fpu_kill_mem; // @[RocketCore.scala:696:51, :699:{37,55}] wire _replay_mem_T_2 = _replay_mem_T_1; // @[RocketCore.scala:699:{55,71}] wire replay_mem = _replay_mem_T_2; // @[RocketCore.scala:699:{71,87}] wire _killm_common_T = dcache_kill_mem | take_pc_wb; // @[RocketCore.scala:304:24, :695:55, :700:38] wire _killm_common_T_1 = _killm_common_T | mem_reg_xcpt; // @[RocketCore.scala:268:36, :700:{38,52}] wire _killm_common_T_2 = ~mem_reg_valid; // @[RocketCore.scala:265:36, :700:71] assign killm_common = _killm_common_T_1 | _killm_common_T_2; // @[RocketCore.scala:700:{52,68,71}] assign io_fpu_killm_0 = killm_common; // @[RocketCore.scala:153:7, :700:68] wire _div_io_kill_T = _div_io_req_ready & _div_io_req_valid_T; // @[Decoupled.scala:51:35] reg div_io_kill_REG; // @[RocketCore.scala:701:41] wire _div_io_kill_T_1 = killm_common & div_io_kill_REG; // @[RocketCore.scala:700:68, :701:{31,41}] wire _ctrl_killm_T = killm_common | mem_xcpt; // @[RocketCore.scala:700:68, :702:33, :1278:14] wire _ctrl_killm_T_1 = _ctrl_killm_T | fpu_kill_mem; // @[RocketCore.scala:696:51, :702:{33,45}] wire ctrl_killm = _ctrl_killm_T_1; // @[RocketCore.scala:702:{45,61}] wire _wb_reg_valid_T = ~ctrl_killm; // @[RocketCore.scala:702:61, :705:19] wire _wb_reg_replay_T = ~take_pc_wb; // @[RocketCore.scala:304:24, :706:34] wire _wb_reg_replay_T_1 = replay_mem & _wb_reg_replay_T; // @[RocketCore.scala:699:87, :706:{31,34}] wire _wb_reg_xcpt_T = ~take_pc_wb; // @[RocketCore.scala:304:24, :706:34, :707:30] wire _wb_reg_xcpt_T_1 = mem_xcpt & _wb_reg_xcpt_T; // @[RocketCore.scala:707:{27,30}, :1278:14] wire _wb_reg_xcpt_T_3 = _wb_reg_xcpt_T_1; // @[RocketCore.scala:707:{27,42}] wire _wb_reg_flush_pipe_T = ~ctrl_killm; // @[RocketCore.scala:702:61, :705:19, :708:24] wire _wb_reg_flush_pipe_T_1 = _wb_reg_flush_pipe_T & mem_reg_flush_pipe; // @[RocketCore.scala:270:36, :708:{24,36}] wire _wb_reg_wdata_T = ~mem_reg_xcpt; // @[RocketCore.scala:268:36, :624:27, :712:25] wire _wb_reg_wdata_T_1 = _wb_reg_wdata_T & mem_ctrl_fp; // @[RocketCore.scala:244:21, :712:{25,39}] wire _wb_reg_wdata_T_2 = _wb_reg_wdata_T_1 & mem_ctrl_wxd; // @[RocketCore.scala:244:21, :712:{39,54}] wire [63:0] _wb_reg_wdata_T_3 = _wb_reg_wdata_T_2 ? io_fpu_toint_data_0 : mem_int_wdata; // @[RocketCore.scala:153:7, :624:119, :712:{24,54}] wire _wb_reg_hfence_v_T = mem_ctrl_mem_cmd == 5'h15; // @[RocketCore.scala:244:21, :721:41] wire _wb_reg_hfence_g_T = mem_ctrl_mem_cmd == 5'h16; // @[RocketCore.scala:244:21, :722:41] wire _T_113 = wb_reg_valid & wb_ctrl_mem; // @[RocketCore.scala:245:20, :288:35, :730:19] wire _T_100 = _T_113 & io_dmem_s2_xcpt_pf_st_0; // @[RocketCore.scala:153:7, :730:{19,34}] wire _T_102 = _T_113 & io_dmem_s2_xcpt_pf_ld_0; // @[RocketCore.scala:153:7, :730:19, :731:34] wire _T_108 = _T_113 & io_dmem_s2_xcpt_ae_st_0; // @[RocketCore.scala:153:7, :730:19, :734:34] wire _T_110 = _T_113 & io_dmem_s2_xcpt_ae_ld_0; // @[RocketCore.scala:153:7, :730:19, :735:34] wire _T_112 = _T_113 & io_dmem_s2_xcpt_ma_st_0; // @[RocketCore.scala:153:7, :730:19, :736:34] wire wb_xcpt = wb_reg_xcpt | _T_100 | _T_102 | _T_108 | _T_110 | _T_112 | _T_113 & io_dmem_s2_xcpt_ma_ld_0; // @[RocketCore.scala:153:7, :289:35, :730:{19,34}, :731:34, :734:34, :735:34, :736:34, :737:34, :1278:{14,35}] wire [63:0] wb_cause = wb_reg_xcpt ? wb_reg_cause : {59'h0, _T_100 ? 5'hF : _T_102 ? 5'hD : {2'h0, _T_108 ? 3'h7 : _T_110 ? 3'h5 : {1'h1, _T_112, 1'h0}}}; // @[Mux.scala:50:70] wire _wb_pc_valid_T = wb_reg_valid | wb_reg_replay; // @[RocketCore.scala:288:35, :290:35, :754:34] wire wb_pc_valid = _wb_pc_valid_T | wb_reg_xcpt; // @[RocketCore.scala:289:35, :754:{34,51}] wire wb_wxd = wb_reg_valid & wb_ctrl_wxd; // @[RocketCore.scala:245:20, :288:35, :755:29] wire _wb_set_sboard_T = wb_ctrl_div | wb_dcache_miss; // @[RocketCore.scala:245:20, :596:36, :756:35] wire _wb_set_sboard_T_1 = _wb_set_sboard_T | wb_ctrl_rocc; // @[RocketCore.scala:245:20, :756:{35,53}] wire wb_set_sboard = _wb_set_sboard_T_1 | wb_ctrl_vec; // @[RocketCore.scala:245:20, :756:{53,69}] wire replay_wb_common = io_dmem_s2_nack_0 | wb_reg_replay; // @[RocketCore.scala:153:7, :290:35, :757:42] wire replay_wb_rocc = _replay_wb_rocc_T; // @[RocketCore.scala:758:{37,53}] wire _replay_wb_T = replay_wb_common | replay_wb_rocc; // @[RocketCore.scala:757:42, :758:53, :761:36] wire _replay_wb_T_1 = _replay_wb_T; // @[RocketCore.scala:761:{36,54}] wire replay_wb = _replay_wb_T_1; // @[RocketCore.scala:761:{54,71}] wire _take_pc_wb_T = replay_wb | wb_xcpt; // @[RocketCore.scala:761:71, :762:27, :1278:14] wire _take_pc_wb_T_1 = _take_pc_wb_T | _csr_io_eret; // @[RocketCore.scala:341:19, :762:{27,38}] assign _take_pc_wb_T_2 = _take_pc_wb_T_1 | wb_reg_flush_pipe; // @[RocketCore.scala:291:35, :762:{38,53}] assign take_pc_wb = _take_pc_wb_T_2; // @[RocketCore.scala:304:24, :762:53] wire _dmem_resp_xpu_T = io_dmem_resp_bits_tag_0[0]; // @[RocketCore.scala:153:7, :765:45] wire dmem_resp_fpu = io_dmem_resp_bits_tag_0[0]; // @[RocketCore.scala:153:7, :765:45, :766:45] wire dmem_resp_xpu = ~_dmem_resp_xpu_T; // @[RocketCore.scala:765:{23,45}] assign dmem_resp_waddr = io_dmem_resp_bits_tag_0[5:1]; // @[RocketCore.scala:153:7, :767:46] assign io_fpu_ll_resp_tag_0 = dmem_resp_waddr; // @[RocketCore.scala:153:7, :767:46] wire dmem_resp_valid = io_dmem_resp_valid_0 & io_dmem_resp_bits_has_data_0; // @[RocketCore.scala:153:7, :768:44] wire dmem_resp_replay = dmem_resp_valid & io_dmem_resp_bits_replay_0; // @[RocketCore.scala:153:7, :768:44, :769:42] wire [63:0] ll_wdata; // @[RocketCore.scala:779:26] wire [4:0] ll_waddr; // @[RocketCore.scala:780:26] wire _ll_wen_T = ll_arb_io_out_ready & _ll_arb_io_out_valid; // @[Decoupled.scala:51:35] wire ll_wen; // @[RocketCore.scala:781:24] wire _ll_arb_io_out_ready_T = ~wb_wxd; // @[RocketCore.scala:755:29, :782:26] wire _T_143 = dmem_resp_replay & dmem_resp_xpu; // @[RocketCore.scala:765:23, :769:42, :809:26] assign ll_arb_io_out_ready = ~_T_143 & _ll_arb_io_out_ready_T; // @[RocketCore.scala:782:{23,26}, :809:{26,44}, :810:25] assign ll_waddr = _T_143 ? dmem_resp_waddr : _ll_arb_io_out_bits_tag; // @[RocketCore.scala:767:46, :776:22, :780:26, :809:{26,44}, :811:14] assign ll_wen = _T_143 | _ll_wen_T; // @[Decoupled.scala:51:35] wire _wb_valid_T = ~replay_wb; // @[RocketCore.scala:761:71, :815:34] wire _wb_valid_T_1 = wb_reg_valid & _wb_valid_T; // @[RocketCore.scala:288:35, :815:{31,34}] wire _wb_valid_T_2 = ~wb_xcpt; // @[RocketCore.scala:815:48, :1278:14] wire wb_valid = _wb_valid_T_1 & _wb_valid_T_2; // @[RocketCore.scala:815:{31,45,48}] wire wb_wen = wb_valid & wb_ctrl_wxd; // @[RocketCore.scala:245:20, :815:45, :816:25] wire rf_wen = wb_wen | ll_wen; // @[RocketCore.scala:781:24, :816:25, :817:23] wire [4:0] rf_waddr = ll_wen ? ll_waddr : wb_waddr; // @[RocketCore.scala:455:36, :780:26, :781:24, :818:21] wire [4:0] xrfWriteBundle_wrdst = rf_waddr; // @[RocketCore.scala:818:21, :1249:28] wire _rf_wdata_T = dmem_resp_valid & dmem_resp_xpu; // @[RocketCore.scala:765:23, :768:44, :819:38] wire _rf_wdata_T_2 = |wb_ctrl_csr; // @[RocketCore.scala:245:20, :821:34] wire [63:0] _rf_wdata_T_4 = _rf_wdata_T_2 ? _csr_io_rw_rdata : _rf_wdata_T_3; // @[RocketCore.scala:341:19, :821:{21,34}, :822:21] wire [63:0] _rf_wdata_T_5 = ll_wen ? ll_wdata : _rf_wdata_T_4; // @[RocketCore.scala:779:26, :781:24, :820:21, :821:21] wire [63:0] rf_wdata = _rf_wdata_T ? _rf_wdata_T_1 : _rf_wdata_T_5; // @[RocketCore.scala:819:{21,38,78}, :820:21] wire [63:0] coreMonitorBundle_wrdata = rf_wdata; // @[RocketCore.scala:819:21, :1186:31] wire [63:0] xrfWriteBundle_wrdata = rf_wdata; // @[RocketCore.scala:819:21, :1249:28] wire [63:0] _id_rs_T_4; // @[RocketCore.scala:1326:25] assign id_rs_0 = rf_wen & (|rf_waddr) & rf_waddr == id_raddr1 ? rf_wdata : _id_rs_T_4; // @[RocketCore.scala:326:72, :817:23, :818:21, :819:21, :824:17, :1325:26, :1326:{19,25}, :1331:{16,25}, :1334:{20,31,39}] wire [63:0] _id_rs_T_9; // @[RocketCore.scala:1326:25] assign id_rs_1 = rf_wen & (|rf_waddr) & rf_waddr == id_raddr2 ? rf_wdata : _id_rs_T_9; // @[RocketCore.scala:326:72, :817:23, :818:21, :819:21, :824:17, :1325:26, :1326:{19,25}, :1331:{16,25}, :1334:{20,31,39}] wire [1:0] _csr_io_inst_0_T = wb_reg_raw_inst[1:0]; // @[RocketCore.scala:301:28, :832:66] wire _csr_io_inst_0_T_1 = &_csr_io_inst_0_T; // @[RocketCore.scala:832:{66,73}] wire [15:0] _csr_io_inst_0_T_2 = wb_reg_inst[31:16]; // @[RocketCore.scala:300:24, :832:91] wire [15:0] _csr_io_inst_0_T_3 = _csr_io_inst_0_T_1 ? _csr_io_inst_0_T_2 : 16'h0; // @[RocketCore.scala:832:{50,73,91}] wire [15:0] _csr_io_inst_0_T_4 = wb_reg_raw_inst[15:0]; // @[RocketCore.scala:301:28, :832:119] wire [31:0] _csr_io_inst_0_T_5 = {_csr_io_inst_0_T_3, _csr_io_inst_0_T_4}; // @[RocketCore.scala:832:{46,50,119}] wire [4:0] _csr_io_fcsr_flags_bits_T = {5{io_fpu_fcsr_flags_valid_0}}; // @[RocketCore.scala:153:7, :839:59] wire [4:0] _csr_io_fcsr_flags_bits_T_1 = io_fpu_fcsr_flags_bits_0 & _csr_io_fcsr_flags_bits_T; // @[RocketCore.scala:153:7, :839:{53,59}] wire [4:0] _csr_io_fcsr_flags_bits_T_4 = _csr_io_fcsr_flags_bits_T_1; // @[RocketCore.scala:839:{53,89}] wire [31:0] _io_fpu_time_T = _csr_io_time[31:0]; // @[RocketCore.scala:341:19, :840:29] wire [31:0] _coreMonitorBundle_timer_T = _csr_io_time[31:0]; // @[RocketCore.scala:341:19, :840:29, :1191:41] wire [31:0] _xrfWriteBundle_timer_T = _csr_io_time[31:0]; // @[RocketCore.scala:341:19, :840:29, :1254:38] assign io_fpu_time_0 = {32'h0, _io_fpu_time_T}; // @[RocketCore.scala:153:7, :840:{15,29}] wire tval_dmem_addr = ~wb_reg_xcpt; // @[RocketCore.scala:289:35, :845:24] wire _tval_any_addr_T = wb_reg_cause == 64'h3; // @[package.scala:16:47] wire _tval_any_addr_T_1 = wb_reg_cause == 64'h1; // @[package.scala:16:47] wire _tval_any_addr_T_2 = wb_reg_cause == 64'hC; // @[package.scala:16:47] wire _GEN_61 = wb_reg_cause == 64'h14; // @[package.scala:16:47] wire _tval_any_addr_T_3; // @[package.scala:16:47] assign _tval_any_addr_T_3 = _GEN_61; // @[package.scala:16:47] wire _htval_valid_imem_T; // @[RocketCore.scala:853:56] assign _htval_valid_imem_T = _GEN_61; // @[package.scala:16:47] wire _tval_any_addr_T_4 = _tval_any_addr_T | _tval_any_addr_T_1; // @[package.scala:16:47, :81:59] wire _tval_any_addr_T_5 = _tval_any_addr_T_4 | _tval_any_addr_T_2; // @[package.scala:16:47, :81:59] wire _tval_any_addr_T_6 = _tval_any_addr_T_5 | _tval_any_addr_T_3; // @[package.scala:16:47, :81:59] wire tval_any_addr = tval_dmem_addr | _tval_any_addr_T_6; // @[package.scala:81:59] wire tval_inst = wb_reg_cause == 64'h2; // @[RocketCore.scala:292:35, :848:32] wire _tval_valid_T = tval_any_addr | tval_inst; // @[RocketCore.scala:846:38, :848:32, :849:46] wire tval_valid = wb_xcpt & _tval_valid_T; // @[RocketCore.scala:849:{28,46}, :1278:14] wire _csr_io_gva_T = tval_any_addr & _csr_io_status_v; // @[RocketCore.scala:341:19, :846:38, :850:43] wire _csr_io_gva_T_1 = tval_dmem_addr & wb_reg_hls_or_dv; // @[RocketCore.scala:297:29, :845:24, :850:80] wire _csr_io_gva_T_2 = _csr_io_gva_T | _csr_io_gva_T_1; // @[RocketCore.scala:850:{43,62,80}] wire _csr_io_gva_T_3 = wb_xcpt & _csr_io_gva_T_2; // @[RocketCore.scala:850:{25,62}, :1278:14] wire [24:0] _csr_io_tval_a_T = wb_reg_wdata[63:39]; // @[RocketCore.scala:302:25, :1293:17] wire [24:0] csr_io_tval_a = _csr_io_tval_a_T; // @[RocketCore.scala:1293:{17,23}] wire _csr_io_tval_msb_T = csr_io_tval_a == 25'h0; // @[RocketCore.scala:1293:23, :1294:21] wire _csr_io_tval_msb_T_1 = &csr_io_tval_a; // @[RocketCore.scala:1293:23, :1294:34] wire _csr_io_tval_msb_T_2 = _csr_io_tval_msb_T | _csr_io_tval_msb_T_1; // @[RocketCore.scala:1294:{21,29,34}] wire _csr_io_tval_msb_T_3 = wb_reg_wdata[39]; // @[RocketCore.scala:302:25, :1294:46] wire _csr_io_tval_msb_T_4 = wb_reg_wdata[38]; // @[RocketCore.scala:302:25, :1294:54] wire _csr_io_tval_msb_T_5 = ~_csr_io_tval_msb_T_4; // @[RocketCore.scala:1294:{51,54}] wire csr_io_tval_msb = _csr_io_tval_msb_T_2 ? _csr_io_tval_msb_T_3 : _csr_io_tval_msb_T_5; // @[RocketCore.scala:1294:{18,29,46,51}] assign io_imem_sfence_bits_addr_0 = wb_reg_wdata[38:0]; // @[RocketCore.scala:153:7, :302:25, :1295:16] wire [38:0] _csr_io_tval_T = wb_reg_wdata[38:0]; // @[RocketCore.scala:302:25, :1295:16] wire [39:0] _csr_io_tval_T_1 = {csr_io_tval_msb, _csr_io_tval_T}; // @[RocketCore.scala:1294:18, :1295:{8,16}] wire [39:0] _csr_io_tval_T_2 = tval_valid ? _csr_io_tval_T_1 : 40'h0; // @[RocketCore.scala:849:28, :851:21, :1295:8] wire htval_valid_imem = wb_reg_xcpt & _htval_valid_imem_T; // @[RocketCore.scala:289:35, :853:{40,56}] wire [39:0] htval_imem = htval_valid_imem ? io_imem_gpa_bits_0 : 40'h0; // @[RocketCore.scala:153:7, :853:40, :854:25] wire [39:0] _htval_T = htval_imem; // @[RocketCore.scala:854:25, :860:29] wire _htval_valid_dmem_T = wb_xcpt & tval_dmem_addr; // @[RocketCore.scala:845:24, :857:36, :1278:14] wire [1:0] _htval_valid_dmem_T_4 = {io_dmem_s2_xcpt_pf_ld_0, io_dmem_s2_xcpt_pf_st_0}; // @[RocketCore.scala:153:7, :857:110] wire _htval_valid_dmem_T_5 = |_htval_valid_dmem_T_4; // @[RocketCore.scala:857:{110,117}] wire _htval_valid_dmem_T_6 = ~_htval_valid_dmem_T_5; // @[RocketCore.scala:857:{90,117}] wire [39:0] htval = _htval_T; // @[RocketCore.scala:860:{29,43}] wire _mhtinst_read_pseudo_T = io_imem_gpa_is_pte_0 & htval_valid_imem; // @[RocketCore.scala:153:7, :853:40, :862:51] wire mhtinst_read_pseudo = _mhtinst_read_pseudo_T; // @[RocketCore.scala:862:{51,72}] wire [11:0] _csr_io_rw_addr_T = wb_reg_inst[31:20]; // @[RocketCore.scala:300:24, :909:32] wire [2:0] _csr_io_rw_cmd_T = {~wb_reg_valid, 2'h0}; // @[RocketCore.scala:288:35] wire [2:0] _csr_io_rw_cmd_T_1 = ~_csr_io_rw_cmd_T; // @[CSR.scala:183:{11,15}] wire [2:0] _csr_io_rw_cmd_T_2 = wb_ctrl_csr & _csr_io_rw_cmd_T_1; // @[RocketCore.scala:245:20] assign io_bpwatch_0_action_0 = {2'h0, _csr_io_bp_0_control_action}; // @[RocketCore.scala:153:7, :341:19, :962:18] wire _hazard_targets_T = |id_raddr1; // @[RocketCore.scala:326:72, :969:55, :1326:41] wire hazard_targets_0_1 = id_ctrl_rxs1 & _hazard_targets_T; // @[RocketCore.scala:321:21, :969:{42,55}] wire _hazard_targets_T_1 = |id_raddr2; // @[RocketCore.scala:326:72, :970:55, :1326:41] wire hazard_targets_1_1 = id_ctrl_rxs2 & _hazard_targets_T_1; // @[RocketCore.scala:321:21, :970:{42,55}] wire _hazard_targets_T_2 = |id_waddr; // @[RocketCore.scala:326:72, :971:55] wire hazard_targets_2_1 = id_ctrl_wxd & _hazard_targets_T_2; // @[RocketCore.scala:321:21, :971:{42,55}] reg [31:0] _r; // @[RocketCore.scala:1305:29] wire [30:0] _r_T = _r[31:1]; // @[RocketCore.scala:1305:29, :1306:35] wire [31:0] r = {_r_T, 1'h0}; // @[RocketCore.scala:1306:{35,40}] wire [31:0] _GEN_62 = {27'h0, id_raddr1}; // @[RocketCore.scala:326:72, :1302:35, :1309:58] wire [31:0] _id_sboard_hazard_T = r >> _GEN_62; // @[RocketCore.scala:1302:35, :1306:40] wire _id_sboard_hazard_T_1 = _id_sboard_hazard_T[0]; // @[RocketCore.scala:1302:35] wire _id_sboard_hazard_T_2 = ll_waddr == id_raddr1; // @[RocketCore.scala:326:72, :780:26, :981:70] wire _id_sboard_hazard_T_3 = ll_wen & _id_sboard_hazard_T_2; // @[RocketCore.scala:781:24, :981:{58,70}] wire _id_sboard_hazard_T_4 = ~_id_sboard_hazard_T_3; // @[RocketCore.scala:981:58, :984:80] wire _id_sboard_hazard_T_5 = _id_sboard_hazard_T_1 & _id_sboard_hazard_T_4; // @[RocketCore.scala:984:{77,80}, :1302:35] wire _id_sboard_hazard_T_6 = hazard_targets_0_1 & _id_sboard_hazard_T_5; // @[RocketCore.scala:969:42, :984:77, :1287:27] wire [31:0] _GEN_63 = {27'h0, id_raddr2}; // @[RocketCore.scala:326:72, :1302:35, :1309:58] wire [31:0] _id_sboard_hazard_T_7 = r >> _GEN_63; // @[RocketCore.scala:1302:35, :1306:40] wire _id_sboard_hazard_T_8 = _id_sboard_hazard_T_7[0]; // @[RocketCore.scala:1302:35] wire _id_sboard_hazard_T_9 = ll_waddr == id_raddr2; // @[RocketCore.scala:326:72, :780:26, :981:70] wire _id_sboard_hazard_T_10 = ll_wen & _id_sboard_hazard_T_9; // @[RocketCore.scala:781:24, :981:{58,70}] wire _id_sboard_hazard_T_11 = ~_id_sboard_hazard_T_10; // @[RocketCore.scala:981:58, :984:80] wire _id_sboard_hazard_T_12 = _id_sboard_hazard_T_8 & _id_sboard_hazard_T_11; // @[RocketCore.scala:984:{77,80}, :1302:35] wire _id_sboard_hazard_T_13 = hazard_targets_1_1 & _id_sboard_hazard_T_12; // @[RocketCore.scala:970:42, :984:77, :1287:27] wire [31:0] _GEN_64 = {27'h0, id_waddr}; // @[RocketCore.scala:326:72, :1302:35, :1309:58] wire [31:0] _id_sboard_hazard_T_14 = r >> _GEN_64; // @[RocketCore.scala:1302:35, :1306:40] wire _id_sboard_hazard_T_15 = _id_sboard_hazard_T_14[0]; // @[RocketCore.scala:1302:35] wire _id_sboard_hazard_T_16 = ll_waddr == id_waddr; // @[RocketCore.scala:326:72, :780:26, :981:70] wire _id_sboard_hazard_T_17 = ll_wen & _id_sboard_hazard_T_16; // @[RocketCore.scala:781:24, :981:{58,70}] wire _id_sboard_hazard_T_18 = ~_id_sboard_hazard_T_17; // @[RocketCore.scala:981:58, :984:80] wire _id_sboard_hazard_T_19 = _id_sboard_hazard_T_15 & _id_sboard_hazard_T_18; // @[RocketCore.scala:984:{77,80}, :1302:35] wire _id_sboard_hazard_T_20 = hazard_targets_2_1 & _id_sboard_hazard_T_19; // @[RocketCore.scala:971:42, :984:77, :1287:27] wire _id_sboard_hazard_T_21 = _id_sboard_hazard_T_6 | _id_sboard_hazard_T_13; // @[RocketCore.scala:1287:{27,50}] wire id_sboard_hazard = _id_sboard_hazard_T_21 | _id_sboard_hazard_T_20; // @[RocketCore.scala:1287:{27,50}] wire [31:0] _id_stall_fpu_T_4 = 32'h1 << wb_waddr; // @[RocketCore.scala:455:36, :1309:58] wire _ex_cannot_bypass_T = |ex_ctrl_csr; // @[RocketCore.scala:243:20, :988:38] wire _ex_cannot_bypass_T_1 = _ex_cannot_bypass_T | ex_ctrl_jalr; // @[RocketCore.scala:243:20, :988:{38,48}] wire _ex_cannot_bypass_T_2 = _ex_cannot_bypass_T_1 | ex_ctrl_mem; // @[RocketCore.scala:243:20, :988:{48,64}] wire _ex_cannot_bypass_T_3 = _ex_cannot_bypass_T_2 | ex_ctrl_mul; // @[RocketCore.scala:243:20, :988:{64,79}] wire _ex_cannot_bypass_T_4 = _ex_cannot_bypass_T_3 | ex_ctrl_div; // @[RocketCore.scala:243:20, :988:{79,94}] wire _ex_cannot_bypass_T_5 = _ex_cannot_bypass_T_4 | ex_ctrl_fp; // @[RocketCore.scala:243:20, :988:{94,109}] wire _ex_cannot_bypass_T_6 = _ex_cannot_bypass_T_5 | ex_ctrl_rocc; // @[RocketCore.scala:243:20, :988:{109,123}] wire ex_cannot_bypass = _ex_cannot_bypass_T_6; // @[RocketCore.scala:988:{123,139}] wire _data_hazard_ex_T_1 = hazard_targets_0_1 & _data_hazard_ex_T; // @[RocketCore.scala:969:42, :989:70, :1287:27] wire _data_hazard_ex_T_3 = hazard_targets_1_1 & _data_hazard_ex_T_2; // @[RocketCore.scala:970:42, :989:70, :1287:27] wire _GEN_65 = id_waddr == ex_waddr; // @[RocketCore.scala:326:72, :453:36, :989:70] wire _data_hazard_ex_T_4; // @[RocketCore.scala:989:70] assign _data_hazard_ex_T_4 = _GEN_65; // @[RocketCore.scala:989:70] wire _fp_data_hazard_ex_T_7; // @[RocketCore.scala:990:90] assign _fp_data_hazard_ex_T_7 = _GEN_65; // @[RocketCore.scala:989:70, :990:90] wire _data_hazard_ex_T_5 = hazard_targets_2_1 & _data_hazard_ex_T_4; // @[RocketCore.scala:971:42, :989:70, :1287:27] wire _data_hazard_ex_T_6 = _data_hazard_ex_T_1 | _data_hazard_ex_T_3; // @[RocketCore.scala:1287:{27,50}] wire _data_hazard_ex_T_7 = _data_hazard_ex_T_6 | _data_hazard_ex_T_5; // @[RocketCore.scala:1287:{27,50}] wire data_hazard_ex = ex_ctrl_wxd & _data_hazard_ex_T_7; // @[RocketCore.scala:243:20, :989:36, :1287:50] wire _fp_data_hazard_ex_T = id_ctrl_fp & ex_ctrl_wfd; // @[RocketCore.scala:243:20, :321:21, :990:38] wire _fp_data_hazard_ex_T_2 = io_fpu_dec_ren1_0 & _fp_data_hazard_ex_T_1; // @[RocketCore.scala:153:7, :990:90, :1287:27] wire _fp_data_hazard_ex_T_4 = io_fpu_dec_ren2_0 & _fp_data_hazard_ex_T_3; // @[RocketCore.scala:153:7, :990:90, :1287:27] wire _fp_data_hazard_ex_T_5 = id_raddr3 == ex_waddr; // @[RocketCore.scala:326:72, :453:36, :990:90] wire _fp_data_hazard_ex_T_6 = io_fpu_dec_ren3_0 & _fp_data_hazard_ex_T_5; // @[RocketCore.scala:153:7, :990:90, :1287:27] wire _fp_data_hazard_ex_T_8 = io_fpu_dec_wen_0 & _fp_data_hazard_ex_T_7; // @[RocketCore.scala:153:7, :990:90, :1287:27] wire _fp_data_hazard_ex_T_9 = _fp_data_hazard_ex_T_2 | _fp_data_hazard_ex_T_4; // @[RocketCore.scala:1287:{27,50}] wire _fp_data_hazard_ex_T_10 = _fp_data_hazard_ex_T_9 | _fp_data_hazard_ex_T_6; // @[RocketCore.scala:1287:{27,50}] wire _fp_data_hazard_ex_T_11 = _fp_data_hazard_ex_T_10 | _fp_data_hazard_ex_T_8; // @[RocketCore.scala:1287:{27,50}] wire fp_data_hazard_ex = _fp_data_hazard_ex_T & _fp_data_hazard_ex_T_11; // @[RocketCore.scala:990:{38,53}, :1287:50] wire _id_ex_hazard_T = data_hazard_ex & ex_cannot_bypass; // @[RocketCore.scala:988:139, :989:36, :991:54] wire _id_ex_hazard_T_1 = _id_ex_hazard_T | fp_data_hazard_ex; // @[RocketCore.scala:990:53, :991:{54,74}] wire id_ex_hazard = ex_reg_valid & _id_ex_hazard_T_1; // @[RocketCore.scala:248:35, :991:{35,74}] wire _mem_cannot_bypass_T = |mem_ctrl_csr; // @[RocketCore.scala:244:21, :997:40] wire _mem_cannot_bypass_T_1 = mem_ctrl_mem & mem_mem_cmd_bh; // @[RocketCore.scala:244:21, :995:41, :997:66] wire _mem_cannot_bypass_T_2 = _mem_cannot_bypass_T | _mem_cannot_bypass_T_1; // @[RocketCore.scala:997:{40,50,66}] wire _mem_cannot_bypass_T_3 = _mem_cannot_bypass_T_2 | mem_ctrl_mul; // @[RocketCore.scala:244:21, :997:{50,84}] wire _mem_cannot_bypass_T_4 = _mem_cannot_bypass_T_3 | mem_ctrl_div; // @[RocketCore.scala:244:21, :997:{84,100}] wire _mem_cannot_bypass_T_5 = _mem_cannot_bypass_T_4 | mem_ctrl_fp; // @[RocketCore.scala:244:21, :997:{100,116}] wire _mem_cannot_bypass_T_6 = _mem_cannot_bypass_T_5 | mem_ctrl_rocc; // @[RocketCore.scala:244:21, :997:{116,131}] wire mem_cannot_bypass = _mem_cannot_bypass_T_6 | mem_ctrl_vec; // @[RocketCore.scala:244:21, :997:{131,148}] wire _data_hazard_mem_T_1 = hazard_targets_0_1 & _data_hazard_mem_T; // @[RocketCore.scala:969:42, :998:72, :1287:27] wire _data_hazard_mem_T_3 = hazard_targets_1_1 & _data_hazard_mem_T_2; // @[RocketCore.scala:970:42, :998:72, :1287:27] wire _GEN_66 = id_waddr == mem_waddr; // @[RocketCore.scala:326:72, :454:38, :998:72] wire _data_hazard_mem_T_4; // @[RocketCore.scala:998:72] assign _data_hazard_mem_T_4 = _GEN_66; // @[RocketCore.scala:998:72] wire _fp_data_hazard_mem_T_7; // @[RocketCore.scala:999:92] assign _fp_data_hazard_mem_T_7 = _GEN_66; // @[RocketCore.scala:998:72, :999:92] wire _data_hazard_mem_T_5 = hazard_targets_2_1 & _data_hazard_mem_T_4; // @[RocketCore.scala:971:42, :998:72, :1287:27] wire _data_hazard_mem_T_6 = _data_hazard_mem_T_1 | _data_hazard_mem_T_3; // @[RocketCore.scala:1287:{27,50}] wire _data_hazard_mem_T_7 = _data_hazard_mem_T_6 | _data_hazard_mem_T_5; // @[RocketCore.scala:1287:{27,50}] wire data_hazard_mem = mem_ctrl_wxd & _data_hazard_mem_T_7; // @[RocketCore.scala:244:21, :998:38, :1287:50] wire _fp_data_hazard_mem_T = id_ctrl_fp & mem_ctrl_wfd; // @[RocketCore.scala:244:21, :321:21, :999:39] wire _fp_data_hazard_mem_T_2 = io_fpu_dec_ren1_0 & _fp_data_hazard_mem_T_1; // @[RocketCore.scala:153:7, :999:92, :1287:27] wire _fp_data_hazard_mem_T_4 = io_fpu_dec_ren2_0 & _fp_data_hazard_mem_T_3; // @[RocketCore.scala:153:7, :999:92, :1287:27] wire _fp_data_hazard_mem_T_5 = id_raddr3 == mem_waddr; // @[RocketCore.scala:326:72, :454:38, :999:92] wire _fp_data_hazard_mem_T_6 = io_fpu_dec_ren3_0 & _fp_data_hazard_mem_T_5; // @[RocketCore.scala:153:7, :999:92, :1287:27] wire _fp_data_hazard_mem_T_8 = io_fpu_dec_wen_0 & _fp_data_hazard_mem_T_7; // @[RocketCore.scala:153:7, :999:92, :1287:27] wire _fp_data_hazard_mem_T_9 = _fp_data_hazard_mem_T_2 | _fp_data_hazard_mem_T_4; // @[RocketCore.scala:1287:{27,50}] wire _fp_data_hazard_mem_T_10 = _fp_data_hazard_mem_T_9 | _fp_data_hazard_mem_T_6; // @[RocketCore.scala:1287:{27,50}] wire _fp_data_hazard_mem_T_11 = _fp_data_hazard_mem_T_10 | _fp_data_hazard_mem_T_8; // @[RocketCore.scala:1287:{27,50}] wire fp_data_hazard_mem = _fp_data_hazard_mem_T & _fp_data_hazard_mem_T_11; // @[RocketCore.scala:999:{39,55}, :1287:50] wire _id_mem_hazard_T = data_hazard_mem & mem_cannot_bypass; // @[RocketCore.scala:997:148, :998:38, :1000:57] wire _id_mem_hazard_T_1 = _id_mem_hazard_T | fp_data_hazard_mem; // @[RocketCore.scala:999:55, :1000:{57,78}] wire id_mem_hazard = mem_reg_valid & _id_mem_hazard_T_1; // @[RocketCore.scala:265:36, :1000:{37,78}] wire _id_load_use_T = mem_reg_valid & data_hazard_mem; // @[RocketCore.scala:265:36, :998:38, :1001:32] assign _id_load_use_T_1 = _id_load_use_T & mem_ctrl_mem; // @[RocketCore.scala:244:21, :1001:{32,51}] assign id_load_use = _id_load_use_T_1; // @[RocketCore.scala:332:25, :1001:51] wire _id_vconfig_hazard_T_1 = mem_reg_valid & mem_reg_set_vconfig; // @[RocketCore.scala:265:36, :275:36, :1004:20] wire _id_vconfig_hazard_T_2 = _id_vconfig_hazard_T_1; // @[RocketCore.scala:1003:42, :1004:20] wire _id_vconfig_hazard_T_3 = wb_reg_valid & wb_reg_set_vconfig; // @[RocketCore.scala:288:35, :293:35, :1005:19] wire _id_vconfig_hazard_T_4 = _id_vconfig_hazard_T_2 | _id_vconfig_hazard_T_3; // @[RocketCore.scala:1003:42, :1004:44, :1005:19] wire _GEN_67 = id_raddr1 == wb_waddr; // @[RocketCore.scala:326:72, :455:36, :1008:70] wire _data_hazard_wb_T; // @[RocketCore.scala:1008:70] assign _data_hazard_wb_T = _GEN_67; // @[RocketCore.scala:1008:70] wire _fp_data_hazard_wb_T_1; // @[RocketCore.scala:1009:90] assign _fp_data_hazard_wb_T_1 = _GEN_67; // @[RocketCore.scala:1008:70, :1009:90] wire _data_hazard_wb_T_1 = hazard_targets_0_1 & _data_hazard_wb_T; // @[RocketCore.scala:969:42, :1008:70, :1287:27] wire _GEN_68 = id_raddr2 == wb_waddr; // @[RocketCore.scala:326:72, :455:36, :1008:70] wire _data_hazard_wb_T_2; // @[RocketCore.scala:1008:70] assign _data_hazard_wb_T_2 = _GEN_68; // @[RocketCore.scala:1008:70] wire _fp_data_hazard_wb_T_3; // @[RocketCore.scala:1009:90] assign _fp_data_hazard_wb_T_3 = _GEN_68; // @[RocketCore.scala:1008:70, :1009:90] wire _data_hazard_wb_T_3 = hazard_targets_1_1 & _data_hazard_wb_T_2; // @[RocketCore.scala:970:42, :1008:70, :1287:27] wire _GEN_69 = id_waddr == wb_waddr; // @[RocketCore.scala:326:72, :455:36, :1008:70] wire _data_hazard_wb_T_4; // @[RocketCore.scala:1008:70] assign _data_hazard_wb_T_4 = _GEN_69; // @[RocketCore.scala:1008:70] wire _fp_data_hazard_wb_T_7; // @[RocketCore.scala:1009:90] assign _fp_data_hazard_wb_T_7 = _GEN_69; // @[RocketCore.scala:1008:70, :1009:90] wire _data_hazard_wb_T_5 = hazard_targets_2_1 & _data_hazard_wb_T_4; // @[RocketCore.scala:971:42, :1008:70, :1287:27] wire _data_hazard_wb_T_6 = _data_hazard_wb_T_1 | _data_hazard_wb_T_3; // @[RocketCore.scala:1287:{27,50}] wire _data_hazard_wb_T_7 = _data_hazard_wb_T_6 | _data_hazard_wb_T_5; // @[RocketCore.scala:1287:{27,50}] wire data_hazard_wb = wb_ctrl_wxd & _data_hazard_wb_T_7; // @[RocketCore.scala:245:20, :1008:36, :1287:50] wire _fp_data_hazard_wb_T = id_ctrl_fp & wb_ctrl_wfd; // @[RocketCore.scala:245:20, :321:21, :1009:38] wire _fp_data_hazard_wb_T_2 = io_fpu_dec_ren1_0 & _fp_data_hazard_wb_T_1; // @[RocketCore.scala:153:7, :1009:90, :1287:27] wire _fp_data_hazard_wb_T_4 = io_fpu_dec_ren2_0 & _fp_data_hazard_wb_T_3; // @[RocketCore.scala:153:7, :1009:90, :1287:27] wire _fp_data_hazard_wb_T_5 = id_raddr3 == wb_waddr; // @[RocketCore.scala:326:72, :455:36, :1009:90] wire _fp_data_hazard_wb_T_6 = io_fpu_dec_ren3_0 & _fp_data_hazard_wb_T_5; // @[RocketCore.scala:153:7, :1009:90, :1287:27] wire _fp_data_hazard_wb_T_8 = io_fpu_dec_wen_0 & _fp_data_hazard_wb_T_7; // @[RocketCore.scala:153:7, :1009:90, :1287:27] wire _fp_data_hazard_wb_T_9 = _fp_data_hazard_wb_T_2 | _fp_data_hazard_wb_T_4; // @[RocketCore.scala:1287:{27,50}] wire _fp_data_hazard_wb_T_10 = _fp_data_hazard_wb_T_9 | _fp_data_hazard_wb_T_6; // @[RocketCore.scala:1287:{27,50}] wire _fp_data_hazard_wb_T_11 = _fp_data_hazard_wb_T_10 | _fp_data_hazard_wb_T_8; // @[RocketCore.scala:1287:{27,50}] wire fp_data_hazard_wb = _fp_data_hazard_wb_T & _fp_data_hazard_wb_T_11; // @[RocketCore.scala:1009:{38,53}, :1287:50] wire _id_wb_hazard_T = data_hazard_wb & wb_set_sboard; // @[RocketCore.scala:756:69, :1008:36, :1010:54] wire _id_wb_hazard_T_1 = _id_wb_hazard_T | fp_data_hazard_wb; // @[RocketCore.scala:1009:53, :1010:{54,71}] wire id_wb_hazard = wb_reg_valid & _id_wb_hazard_T_1; // @[RocketCore.scala:288:35, :1010:{35,71}] reg [31:0] _id_stall_fpu_r; // @[RocketCore.scala:1305:29] wire _id_stall_fpu_T = wb_dcache_miss | wb_ctrl_vec; // @[RocketCore.scala:245:20, :596:36, :1014:36] wire _id_stall_fpu_T_1 = _id_stall_fpu_T & wb_ctrl_wfd; // @[RocketCore.scala:245:20, :1014:{36,52}] wire _id_stall_fpu_T_2 = _id_stall_fpu_T_1 | io_fpu_sboard_set_0; // @[RocketCore.scala:153:7, :1014:{52,67}] wire _id_stall_fpu_T_3 = _id_stall_fpu_T_2 & wb_valid; // @[RocketCore.scala:815:45, :1014:{67,89}] wire _id_stall_fpu_T_7 = _id_stall_fpu_T_3; // @[RocketCore.scala:1014:89, :1312:17] wire [31:0] _id_stall_fpu_T_5 = _id_stall_fpu_T_3 ? _id_stall_fpu_T_4 : 32'h0; // @[RocketCore.scala:1014:89, :1309:{49,58}] wire [31:0] _id_stall_fpu_T_6 = _id_stall_fpu_r | _id_stall_fpu_T_5; // @[RocketCore.scala:1300:60, :1305:29, :1309:49] wire _id_stall_fpu_T_8 = dmem_resp_replay & dmem_resp_fpu; // @[RocketCore.scala:766:45, :769:42, :1016:39] wire _id_stall_fpu_T_9 = _id_stall_fpu_T_8; // @[RocketCore.scala:1016:{39,57}] wire [31:0] _id_stall_fpu_T_10 = 32'h1 << io_fpu_ll_resp_tag_0; // @[RocketCore.scala:153:7, :1309:58] wire [31:0] _id_stall_fpu_T_11 = _id_stall_fpu_T_9 ? _id_stall_fpu_T_10 : 32'h0; // @[RocketCore.scala:1016:57, :1309:{49,58}] wire [31:0] _id_stall_fpu_T_12 = ~_id_stall_fpu_T_11; // @[RocketCore.scala:1301:64, :1309:49] wire [31:0] _id_stall_fpu_T_13 = _id_stall_fpu_T_6 & _id_stall_fpu_T_12; // @[RocketCore.scala:1300:60, :1301:{62,64}] wire _id_stall_fpu_T_14 = _id_stall_fpu_T_7 | _id_stall_fpu_T_9; // @[RocketCore.scala:1016:57, :1312:17] wire [31:0] _id_stall_fpu_T_15 = 32'h1 << io_fpu_sboard_clra_0; // @[RocketCore.scala:153:7, :1309:58] wire [31:0] _id_stall_fpu_T_16 = io_fpu_sboard_clr_0 ? _id_stall_fpu_T_15 : 32'h0; // @[RocketCore.scala:153:7, :1309:{49,58}] wire [31:0] _id_stall_fpu_T_17 = ~_id_stall_fpu_T_16; // @[RocketCore.scala:1301:64, :1309:49] wire [31:0] _id_stall_fpu_T_18 = _id_stall_fpu_T_13 & _id_stall_fpu_T_17; // @[RocketCore.scala:1301:{62,64}] wire _id_stall_fpu_T_19 = _id_stall_fpu_T_14 | io_fpu_sboard_clr_0; // @[RocketCore.scala:153:7, :1312:17] wire [31:0] _id_stall_fpu_T_20 = _id_stall_fpu_r >> _GEN_62; // @[RocketCore.scala:1302:35, :1305:29] wire _id_stall_fpu_T_21 = _id_stall_fpu_T_20[0]; // @[RocketCore.scala:1302:35] wire _id_stall_fpu_T_22 = io_fpu_dec_ren1_0 & _id_stall_fpu_T_21; // @[RocketCore.scala:153:7, :1287:27, :1302:35] wire [31:0] _id_stall_fpu_T_23 = _id_stall_fpu_r >> _GEN_63; // @[RocketCore.scala:1302:35, :1305:29] wire _id_stall_fpu_T_24 = _id_stall_fpu_T_23[0]; // @[RocketCore.scala:1302:35] wire _id_stall_fpu_T_25 = io_fpu_dec_ren2_0 & _id_stall_fpu_T_24; // @[RocketCore.scala:153:7, :1287:27, :1302:35] wire [31:0] _id_stall_fpu_T_26 = _id_stall_fpu_r >> id_raddr3; // @[RocketCore.scala:326:72, :1302:35, :1305:29] wire _id_stall_fpu_T_27 = _id_stall_fpu_T_26[0]; // @[RocketCore.scala:1302:35] wire _id_stall_fpu_T_28 = io_fpu_dec_ren3_0 & _id_stall_fpu_T_27; // @[RocketCore.scala:153:7, :1287:27, :1302:35] wire [31:0] _id_stall_fpu_T_29 = _id_stall_fpu_r >> _GEN_64; // @[RocketCore.scala:1302:35, :1305:29] wire _id_stall_fpu_T_30 = _id_stall_fpu_T_29[0]; // @[RocketCore.scala:1302:35] wire _id_stall_fpu_T_31 = io_fpu_dec_wen_0 & _id_stall_fpu_T_30; // @[RocketCore.scala:153:7, :1287:27, :1302:35] wire _id_stall_fpu_T_32 = _id_stall_fpu_T_22 | _id_stall_fpu_T_25; // @[RocketCore.scala:1287:{27,50}] wire _id_stall_fpu_T_33 = _id_stall_fpu_T_32 | _id_stall_fpu_T_28; // @[RocketCore.scala:1287:{27,50}] wire id_stall_fpu = _id_stall_fpu_T_33 | _id_stall_fpu_T_31; // @[RocketCore.scala:1287:{27,50}] reg dcache_blocked_blocked; // @[RocketCore.scala:1024:22] wire _dcache_blocked_blocked_T = ~io_dmem_req_ready_0; // @[RocketCore.scala:153:7, :597:45, :1025:16] wire _dcache_blocked_blocked_T_1 = _dcache_blocked_blocked_T; // @[RocketCore.scala:1025:{16,35}] wire _dcache_blocked_blocked_T_2 = ~io_dmem_perf_grant_0; // @[RocketCore.scala:153:7, :1025:63] wire _dcache_blocked_blocked_T_3 = _dcache_blocked_blocked_T_1 & _dcache_blocked_blocked_T_2; // @[RocketCore.scala:1025:{35,60,63}] wire _dcache_blocked_blocked_T_4 = dcache_blocked_blocked | io_dmem_req_valid_0; // @[RocketCore.scala:153:7, :1024:22, :1025:95] wire _dcache_blocked_blocked_T_5 = _dcache_blocked_blocked_T_4 | io_dmem_s2_nack_0; // @[RocketCore.scala:153:7, :1025:{95,116}] wire _dcache_blocked_blocked_T_6 = _dcache_blocked_blocked_T_3 & _dcache_blocked_blocked_T_5; // @[RocketCore.scala:1025:{60,83,116}] wire _dcache_blocked_T = ~io_dmem_perf_grant_0; // @[RocketCore.scala:153:7, :1025:63, :1026:16] wire dcache_blocked = dcache_blocked_blocked & _dcache_blocked_T; // @[RocketCore.scala:1024:22, :1026:{13,16}] reg rocc_blocked; // @[RocketCore.scala:1028:25] wire _rocc_blocked_T = ~wb_xcpt; // @[RocketCore.scala:815:48, :1029:19, :1278:14] wire _rocc_blocked_T_2 = _rocc_blocked_T; // @[RocketCore.scala:1029:{19,28}] wire _rocc_blocked_T_3 = io_rocc_cmd_valid | rocc_blocked; // @[RocketCore.scala:153:7, :1028:25, :1029:72] wire _rocc_blocked_T_4 = _rocc_blocked_T_2 & _rocc_blocked_T_3; // @[RocketCore.scala:1029:{28,50,72}] wire _ctrl_stalld_T = id_ex_hazard | id_mem_hazard; // @[RocketCore.scala:991:35, :1000:37, :1032:18] wire _ctrl_stalld_T_1 = _ctrl_stalld_T | id_wb_hazard; // @[RocketCore.scala:1010:35, :1032:{18,35}] wire _ctrl_stalld_T_2 = _ctrl_stalld_T_1 | id_sboard_hazard; // @[RocketCore.scala:1032:{35,51}, :1287:50] wire _ctrl_stalld_T_3 = _ctrl_stalld_T_2; // @[RocketCore.scala:1032:{51,71}] wire _ctrl_stalld_T_4 = ex_reg_valid | mem_reg_valid; // @[RocketCore.scala:248:35, :265:36, :1034:40] wire _ctrl_stalld_T_5 = _ctrl_stalld_T_4 | wb_reg_valid; // @[RocketCore.scala:288:35, :1034:{40,57}] wire _ctrl_stalld_T_6 = _csr_io_singleStep & _ctrl_stalld_T_5; // @[RocketCore.scala:341:19, :1034:{23,57}] wire _ctrl_stalld_T_7 = _ctrl_stalld_T_3 | _ctrl_stalld_T_6; // @[RocketCore.scala:1032:71, :1033:23, :1034:23] wire _ctrl_stalld_T_8 = id_csr_en & _csr_io_decode_0_fp_csr; // @[package.scala:81:59] wire _ctrl_stalld_T_9 = ~io_fpu_fcsr_rdy_0; // @[RocketCore.scala:153:7, :1035:45] wire _ctrl_stalld_T_10 = _ctrl_stalld_T_8 & _ctrl_stalld_T_9; // @[RocketCore.scala:1035:{15,42,45}] wire _ctrl_stalld_T_11 = _ctrl_stalld_T_7 | _ctrl_stalld_T_10; // @[RocketCore.scala:1033:23, :1034:74, :1035:42] wire _ctrl_stalld_T_14 = _ctrl_stalld_T_11; // @[RocketCore.scala:1034:74, :1035:62] wire _ctrl_stalld_T_15 = id_ctrl_fp & id_stall_fpu; // @[RocketCore.scala:321:21, :1037:16, :1287:50] wire _ctrl_stalld_T_16 = _ctrl_stalld_T_14 | _ctrl_stalld_T_15; // @[RocketCore.scala:1035:62, :1036:61, :1037:16] wire _ctrl_stalld_T_17 = id_ctrl_mem & dcache_blocked; // @[RocketCore.scala:321:21, :1026:13, :1038:17] wire _ctrl_stalld_T_18 = _ctrl_stalld_T_16 | _ctrl_stalld_T_17; // @[RocketCore.scala:1036:61, :1037:32, :1038:17] wire _ctrl_stalld_T_19 = id_ctrl_rocc & rocc_blocked; // @[RocketCore.scala:321:21, :1028:25, :1039:18] wire _ctrl_stalld_T_20 = _ctrl_stalld_T_18 | _ctrl_stalld_T_19; // @[RocketCore.scala:1037:32, :1038:35, :1039:18] wire _ctrl_stalld_T_21 = ~wb_wxd; // @[RocketCore.scala:755:29, :782:26, :1040:65] wire _ctrl_stalld_T_22 = _div_io_resp_valid & _ctrl_stalld_T_21; // @[RocketCore.scala:511:19, :1040:{62,65}] wire _ctrl_stalld_T_23 = _div_io_req_ready | _ctrl_stalld_T_22; // @[RocketCore.scala:511:19, :1040:{40,62}] wire _ctrl_stalld_T_24 = ~_ctrl_stalld_T_23; // @[RocketCore.scala:1040:{21,40}] wire _ctrl_stalld_T_25 = _ctrl_stalld_T_24 | _div_io_req_valid_T; // @[RocketCore.scala:512:36, :1040:{21,75}] wire _ctrl_stalld_T_26 = id_ctrl_div & _ctrl_stalld_T_25; // @[RocketCore.scala:321:21, :1040:{17,75}] wire _ctrl_stalld_T_27 = _ctrl_stalld_T_20 | _ctrl_stalld_T_26; // @[RocketCore.scala:1038:35, :1039:34, :1040:17] wire _ctrl_stalld_T_29 = _ctrl_stalld_T_27; // @[RocketCore.scala:1039:34, :1040:96] wire _ctrl_stalld_T_30 = _ctrl_stalld_T_29 | id_do_fence; // @[RocketCore.scala:410:32, :1040:96, :1041:15] wire _ctrl_stalld_T_31 = _ctrl_stalld_T_30 | _csr_io_csr_stall; // @[RocketCore.scala:341:19, :1041:15, :1042:17] wire _ctrl_stalld_T_32 = _ctrl_stalld_T_31 | id_reg_pause; // @[RocketCore.scala:161:25, :1042:17, :1043:22] wire ctrl_stalld = _ctrl_stalld_T_32; // @[RocketCore.scala:1043:22, :1044:18] wire _ctrl_killd_T = ~_ibuf_io_inst_0_valid; // @[RocketCore.scala:311:20, :1046:17] wire _ctrl_killd_T_1 = _ctrl_killd_T | _ibuf_io_inst_0_bits_replay; // @[RocketCore.scala:311:20, :1046:{17,40}] wire _ctrl_killd_T_2 = _ctrl_killd_T_1 | take_pc_mem_wb; // @[RocketCore.scala:307:35, :1046:{40,71}] wire _ctrl_killd_T_3 = _ctrl_killd_T_2 | ctrl_stalld; // @[RocketCore.scala:1044:18, :1046:{71,89}] assign _ctrl_killd_T_4 = _ctrl_killd_T_3 | _csr_io_interrupt; // @[RocketCore.scala:341:19, :1046:{89,104}] assign ctrl_killd = _ctrl_killd_T_4; // @[RocketCore.scala:338:24, :1046:104] assign _io_imem_req_bits_speculative_T = ~take_pc_wb; // @[RocketCore.scala:304:24, :706:34, :1049:35] assign io_imem_req_bits_speculative_0 = _io_imem_req_bits_speculative_T; // @[RocketCore.scala:153:7, :1049:35] wire _io_imem_req_bits_pc_T = wb_xcpt | _csr_io_eret; // @[RocketCore.scala:341:19, :1051:17, :1278:14] wire [39:0] _io_imem_req_bits_pc_T_1 = replay_wb ? wb_reg_pc : mem_npc; // @[RocketCore.scala:295:22, :619:139, :761:71, :1052:8] assign _io_imem_req_bits_pc_T_2 = _io_imem_req_bits_pc_T ? _csr_io_evec : _io_imem_req_bits_pc_T_1; // @[RocketCore.scala:341:19, :1051:{8,17}, :1052:8] assign io_imem_req_bits_pc_0 = _io_imem_req_bits_pc_T_2; // @[RocketCore.scala:153:7, :1051:8] wire _io_imem_flush_icache_T = wb_reg_valid & wb_ctrl_fence_i; // @[RocketCore.scala:245:20, :288:35, :1054:40] wire _io_imem_flush_icache_T_1 = ~io_dmem_s2_nack_0; // @[RocketCore.scala:153:7, :1054:62] assign _io_imem_flush_icache_T_2 = _io_imem_flush_icache_T & _io_imem_flush_icache_T_1; // @[RocketCore.scala:1054:{40,59,62}] assign io_imem_flush_icache_0 = _io_imem_flush_icache_T_2; // @[RocketCore.scala:153:7, :1054:59] wire _io_imem_might_request_imem_might_request_reg_T = ex_pc_valid | mem_pc_valid; // @[RocketCore.scala:595:51, :614:54, :1056:43] wire _io_imem_might_request_imem_might_request_reg_T_1 = io_ptw_customCSRs_csrs_0_value_0[1]; // @[CustomCSRs.scala:44:61] wire _io_imem_might_request_imem_might_request_reg_T_2 = _io_imem_might_request_imem_might_request_reg_T | _io_imem_might_request_imem_might_request_reg_T_1; // @[CustomCSRs.scala:44:61] wire _io_imem_might_request_imem_might_request_reg_T_3 = _io_imem_might_request_imem_might_request_reg_T_2; // @[RocketCore.scala:1056:{59,103}] wire _io_imem_progress_T = ~replay_wb_common; // @[RocketCore.scala:757:42, :1059:47] wire _io_imem_progress_T_1 = wb_reg_valid & _io_imem_progress_T; // @[RocketCore.scala:288:35, :1059:{44,47}] reg io_imem_progress_REG; // @[RocketCore.scala:1059:30] assign io_imem_progress_0 = io_imem_progress_REG; // @[RocketCore.scala:153:7, :1059:30] assign _io_imem_sfence_valid_T = wb_reg_valid & wb_reg_sfence; // @[RocketCore.scala:288:35, :294:26, :1060:40] assign io_imem_sfence_valid_0 = _io_imem_sfence_valid_T; // @[RocketCore.scala:153:7, :1060:40] assign _io_imem_sfence_bits_rs1_T = wb_reg_mem_size[0]; // @[RocketCore.scala:296:28, :1061:45] assign io_imem_sfence_bits_rs1_0 = _io_imem_sfence_bits_rs1_T; // @[RocketCore.scala:153:7, :1061:45] assign _io_imem_sfence_bits_rs2_T = wb_reg_mem_size[1]; // @[RocketCore.scala:296:28, :1062:45] assign io_imem_sfence_bits_rs2_0 = _io_imem_sfence_bits_rs2_T; // @[RocketCore.scala:153:7, :1062:45] assign io_imem_sfence_bits_asid_0 = wb_reg_rs2[0]; // @[RocketCore.scala:153:7, :303:23, :1064:28] wire _ibuf_io_inst_0_ready_T = ~ctrl_stalld; // @[RocketCore.scala:1044:18, :1069:28] wire _io_imem_btb_update_valid_T = ~take_pc_wb; // @[RocketCore.scala:304:24, :706:34, :1071:48] wire _io_imem_btb_update_valid_T_1 = mem_reg_valid & _io_imem_btb_update_valid_T; // @[RocketCore.scala:265:36, :1071:{45,48}] wire _io_imem_btb_update_valid_T_2 = _io_imem_btb_update_valid_T_1 & mem_wrong_npc; // @[RocketCore.scala:621:8, :1071:{45,60}] wire _io_imem_btb_update_valid_T_3 = ~mem_cfi; // @[RocketCore.scala:625:50, :1071:81] wire _io_imem_btb_update_valid_T_4 = _io_imem_btb_update_valid_T_3 | mem_cfi_taken; // @[RocketCore.scala:626:74, :1071:{81,90}] assign _io_imem_btb_update_valid_T_5 = _io_imem_btb_update_valid_T_2 & _io_imem_btb_update_valid_T_4; // @[RocketCore.scala:1071:{60,77,90}] assign io_imem_btb_update_valid_0 = _io_imem_btb_update_valid_T_5; // @[RocketCore.scala:153:7, :1071:77] wire _GEN_70 = mem_ctrl_jal | mem_ctrl_jalr; // @[RocketCore.scala:244:21, :1074:23] wire _io_imem_btb_update_bits_cfiType_T; // @[RocketCore.scala:1074:23] assign _io_imem_btb_update_bits_cfiType_T = _GEN_70; // @[RocketCore.scala:1074:23] wire _io_imem_btb_update_bits_cfiType_T_8; // @[RocketCore.scala:1076:22] assign _io_imem_btb_update_bits_cfiType_T_8 = _GEN_70; // @[RocketCore.scala:1074:23, :1076:22] wire _io_imem_btb_update_bits_cfiType_T_1 = mem_waddr[0]; // @[RocketCore.scala:454:38, :1074:53] wire _io_imem_btb_update_bits_cfiType_T_2 = _io_imem_btb_update_bits_cfiType_T & _io_imem_btb_update_bits_cfiType_T_1; // @[RocketCore.scala:1074:{23,41,53}] wire [4:0] _io_imem_btb_update_bits_cfiType_T_3 = mem_reg_inst[19:15]; // @[RocketCore.scala:278:25, :1075:39] wire [4:0] _io_imem_btb_update_bits_cfiType_T_4 = _io_imem_btb_update_bits_cfiType_T_3; // @[RocketCore.scala:1075:{39,47}] wire [4:0] _io_imem_btb_update_bits_cfiType_T_5 = _io_imem_btb_update_bits_cfiType_T_4 & 5'h1B; // @[RocketCore.scala:1075:{47,64}] wire _io_imem_btb_update_bits_cfiType_T_6 = _io_imem_btb_update_bits_cfiType_T_5 == 5'h1; // @[RocketCore.scala:1075:64] wire _io_imem_btb_update_bits_cfiType_T_7 = mem_ctrl_jalr & _io_imem_btb_update_bits_cfiType_T_6; // @[RocketCore.scala:244:21, :1075:{23,64}] wire _io_imem_btb_update_bits_cfiType_T_9 = _io_imem_btb_update_bits_cfiType_T_8; // @[RocketCore.scala:1076:{8,22}] wire [1:0] _io_imem_btb_update_bits_cfiType_T_10 = _io_imem_btb_update_bits_cfiType_T_7 ? 2'h3 : {1'h0, _io_imem_btb_update_bits_cfiType_T_9}; // @[RocketCore.scala:1075:{8,23}, :1076:8] assign _io_imem_btb_update_bits_cfiType_T_11 = _io_imem_btb_update_bits_cfiType_T_2 ? 2'h2 : _io_imem_btb_update_bits_cfiType_T_10; // @[RocketCore.scala:1074:{8,41}, :1075:8] assign io_imem_btb_update_bits_cfiType_0 = _io_imem_btb_update_bits_cfiType_T_11; // @[RocketCore.scala:153:7, :1074:8] assign io_imem_btb_update_bits_target_0 = io_imem_req_bits_pc_0[38:0]; // @[RocketCore.scala:153:7, :1078:34] wire [1:0] _io_imem_btb_update_bits_br_pc_T = {~mem_reg_rvc, 1'h0}; // @[RocketCore.scala:266:36, :1079:74] wire [40:0] _io_imem_btb_update_bits_br_pc_T_1 = {1'h0, mem_reg_pc} + {39'h0, _io_imem_btb_update_bits_br_pc_T}; // @[RocketCore.scala:277:23, :1079:{69,74}] wire [39:0] _io_imem_btb_update_bits_br_pc_T_2 = _io_imem_btb_update_bits_br_pc_T_1[39:0]; // @[RocketCore.scala:1079:69] assign io_imem_btb_update_bits_br_pc_0 = _io_imem_btb_update_bits_br_pc_T_2[38:0]; // @[RocketCore.scala:153:7, :1079:{33,69}] wire [38:0] _io_imem_btb_update_bits_pc_T = ~io_imem_btb_update_bits_br_pc_0; // @[RocketCore.scala:153:7, :1080:35] wire [38:0] _io_imem_btb_update_bits_pc_T_1 = {_io_imem_btb_update_bits_pc_T[38:2], 2'h3}; // @[RocketCore.scala:1080:{35,66}] assign _io_imem_btb_update_bits_pc_T_2 = ~_io_imem_btb_update_bits_pc_T_1; // @[RocketCore.scala:1080:{33,66}] assign io_imem_btb_update_bits_pc_0 = _io_imem_btb_update_bits_pc_T_2; // @[RocketCore.scala:153:7, :1080:33] wire _io_imem_bht_update_valid_T = ~take_pc_wb; // @[RocketCore.scala:304:24, :706:34, :1084:48] assign _io_imem_bht_update_valid_T_1 = mem_reg_valid & _io_imem_bht_update_valid_T; // @[RocketCore.scala:265:36, :1084:{45,48}] assign io_imem_bht_update_valid_0 = _io_imem_bht_update_valid_T_1; // @[RocketCore.scala:153:7, :1084:45] wire _io_fpu_valid_T = ~ctrl_killd; // @[RocketCore.scala:338:24, :525:19, :1094:19] assign _io_fpu_valid_T_1 = _io_fpu_valid_T & id_ctrl_fp; // @[RocketCore.scala:321:21, :1094:{19,31}] assign io_fpu_valid_0 = _io_fpu_valid_T_1; // @[RocketCore.scala:153:7, :1094:31] assign _io_fpu_ll_resp_val_T = dmem_resp_valid & dmem_resp_fpu; // @[RocketCore.scala:766:45, :768:44, :1099:41] assign io_fpu_ll_resp_val_0 = _io_fpu_ll_resp_val_T; // @[RocketCore.scala:153:7, :1099:41] assign io_fpu_ll_resp_type_0 = {1'h0, io_dmem_resp_bits_size_0}; // @[RocketCore.scala:153:7, :1101:23] assign _io_fpu_keep_clock_enabled_T = io_ptw_customCSRs_csrs_0_value_0[2]; // @[CustomCSRs.scala:45:59] assign io_fpu_keep_clock_enabled_0 = _io_fpu_keep_clock_enabled_T; // @[CustomCSRs.scala:45:59] assign _io_dmem_req_valid_T = ex_reg_valid & ex_ctrl_mem; // @[RocketCore.scala:243:20, :248:35, :1130:41] assign io_dmem_req_valid_0 = _io_dmem_req_valid_T; // @[RocketCore.scala:153:7, :1130:41] wire [5:0] ex_dcache_tag = {ex_waddr, ex_ctrl_fp}; // @[RocketCore.scala:243:20, :453:36, :1131:26] assign io_dmem_req_bits_tag_0 = {1'h0, ex_dcache_tag}; // @[RocketCore.scala:153:7, :1131:26, :1133:25] wire _io_dmem_req_bits_signed_T_1 = ex_reg_inst[14]; // @[RocketCore.scala:259:24, :1136:75] wire _io_dmem_req_bits_signed_T_2 = _io_dmem_req_bits_signed_T_1; // @[RocketCore.scala:1136:{34,75}] assign _io_dmem_req_bits_signed_T_3 = ~_io_dmem_req_bits_signed_T_2; // @[RocketCore.scala:1136:{30,34}] assign io_dmem_req_bits_signed_0 = _io_dmem_req_bits_signed_T_3; // @[RocketCore.scala:153:7, :1136:30] wire [24:0] _io_dmem_req_bits_addr_a_T = ex_rs_0[63:39]; // @[RocketCore.scala:469:14, :1293:17] wire [24:0] io_dmem_req_bits_addr_a = _io_dmem_req_bits_addr_a_T; // @[RocketCore.scala:1293:{17,23}] wire _io_dmem_req_bits_addr_msb_T = io_dmem_req_bits_addr_a == 25'h0; // @[RocketCore.scala:1293:23, :1294:21] wire _io_dmem_req_bits_addr_msb_T_1 = &io_dmem_req_bits_addr_a; // @[RocketCore.scala:1293:23, :1294:34] wire _io_dmem_req_bits_addr_msb_T_2 = _io_dmem_req_bits_addr_msb_T | _io_dmem_req_bits_addr_msb_T_1; // @[RocketCore.scala:1294:{21,29,34}] wire _io_dmem_req_bits_addr_msb_T_3 = _alu_io_adder_out[39]; // @[RocketCore.scala:504:19, :1294:46] wire _io_dmem_req_bits_addr_msb_T_4 = _alu_io_adder_out[38]; // @[RocketCore.scala:504:19, :1294:54] wire _io_dmem_req_bits_addr_msb_T_5 = ~_io_dmem_req_bits_addr_msb_T_4; // @[RocketCore.scala:1294:{51,54}] wire io_dmem_req_bits_addr_msb = _io_dmem_req_bits_addr_msb_T_2 ? _io_dmem_req_bits_addr_msb_T_3 : _io_dmem_req_bits_addr_msb_T_5; // @[RocketCore.scala:1294:{18,29,46,51}] wire [38:0] _io_dmem_req_bits_addr_T = _alu_io_adder_out[38:0]; // @[RocketCore.scala:504:19, :1295:16] assign _io_dmem_req_bits_addr_T_1 = {io_dmem_req_bits_addr_msb, _io_dmem_req_bits_addr_T}; // @[RocketCore.scala:1294:18, :1295:{8,16}] assign io_dmem_req_bits_addr_0 = _io_dmem_req_bits_addr_T_1; // @[RocketCore.scala:153:7, :1295:8] assign io_dmem_req_bits_dprv_0 = _io_dmem_req_bits_dprv_T; // @[RocketCore.scala:153:7, :1140:31] assign io_dmem_req_bits_dv_0 = _io_dmem_req_bits_dv_T; // @[RocketCore.scala:153:7, :1141:37] wire _io_dmem_req_bits_no_resp_T_4 = _io_dmem_req_bits_no_resp_T | _io_dmem_req_bits_no_resp_T_1; // @[package.scala:16:47, :81:59] wire _io_dmem_req_bits_no_resp_T_5 = _io_dmem_req_bits_no_resp_T_4 | _io_dmem_req_bits_no_resp_T_2; // @[package.scala:16:47, :81:59] wire _io_dmem_req_bits_no_resp_T_6 = _io_dmem_req_bits_no_resp_T_5 | _io_dmem_req_bits_no_resp_T_3; // @[package.scala:16:47, :81:59] wire _io_dmem_req_bits_no_resp_T_11 = _io_dmem_req_bits_no_resp_T_7 | _io_dmem_req_bits_no_resp_T_8; // @[package.scala:16:47, :81:59] wire _io_dmem_req_bits_no_resp_T_12 = _io_dmem_req_bits_no_resp_T_11 | _io_dmem_req_bits_no_resp_T_9; // @[package.scala:16:47, :81:59] wire _io_dmem_req_bits_no_resp_T_13 = _io_dmem_req_bits_no_resp_T_12 | _io_dmem_req_bits_no_resp_T_10; // @[package.scala:16:47, :81:59] wire _io_dmem_req_bits_no_resp_T_19 = _io_dmem_req_bits_no_resp_T_14 | _io_dmem_req_bits_no_resp_T_15; // @[package.scala:16:47, :81:59] wire _io_dmem_req_bits_no_resp_T_20 = _io_dmem_req_bits_no_resp_T_19 | _io_dmem_req_bits_no_resp_T_16; // @[package.scala:16:47, :81:59] wire _io_dmem_req_bits_no_resp_T_21 = _io_dmem_req_bits_no_resp_T_20 | _io_dmem_req_bits_no_resp_T_17; // @[package.scala:16:47, :81:59] wire _io_dmem_req_bits_no_resp_T_22 = _io_dmem_req_bits_no_resp_T_21 | _io_dmem_req_bits_no_resp_T_18; // @[package.scala:16:47, :81:59] wire _io_dmem_req_bits_no_resp_T_23 = _io_dmem_req_bits_no_resp_T_13 | _io_dmem_req_bits_no_resp_T_22; // @[package.scala:81:59] wire _io_dmem_req_bits_no_resp_T_24 = _io_dmem_req_bits_no_resp_T_6 | _io_dmem_req_bits_no_resp_T_23; // @[package.scala:81:59] wire _io_dmem_req_bits_no_resp_T_25 = ~_io_dmem_req_bits_no_resp_T_24; // @[RocketCore.scala:1142:31] wire _io_dmem_req_bits_no_resp_T_26 = ~ex_ctrl_fp; // @[RocketCore.scala:243:20, :1142:60] wire _io_dmem_req_bits_no_resp_T_27 = ex_waddr == 5'h0; // @[RocketCore.scala:453:36, :1142:84] wire _io_dmem_req_bits_no_resp_T_28 = _io_dmem_req_bits_no_resp_T_26 & _io_dmem_req_bits_no_resp_T_27; // @[RocketCore.scala:1142:{60,72,84}] assign _io_dmem_req_bits_no_resp_T_29 = _io_dmem_req_bits_no_resp_T_25 | _io_dmem_req_bits_no_resp_T_28; // @[RocketCore.scala:1142:{31,56,72}] assign io_dmem_req_bits_no_resp_0 = _io_dmem_req_bits_no_resp_T_29; // @[RocketCore.scala:153:7, :1142:56] assign _io_dmem_s1_data_data_T = mem_ctrl_fp ? io_fpu_store_data_0 : mem_reg_rs2; // @[RocketCore.scala:153:7, :244:21, :283:24, :1148:63] assign io_dmem_s1_data_data_0 = _io_dmem_s1_data_data_T; // @[RocketCore.scala:153:7, :1148:63] wire _io_dmem_s1_kill_T = killm_common | mem_ldst_xcpt; // @[RocketCore.scala:700:68, :1151:35, :1278:14] wire _io_dmem_s1_kill_T_1 = _io_dmem_s1_kill_T | fpu_kill_mem; // @[RocketCore.scala:696:51, :1151:{35,52}] assign _io_dmem_s1_kill_T_2 = _io_dmem_s1_kill_T_1; // @[RocketCore.scala:1151:{52,68}] assign io_dmem_s1_kill_0 = _io_dmem_s1_kill_T_2; // @[RocketCore.scala:153:7, :1151:68] wire _io_dmem_keep_clock_enabled_T = _ibuf_io_inst_0_valid & id_ctrl_mem; // @[RocketCore.scala:311:20, :321:21, :1154:55] wire _io_dmem_keep_clock_enabled_T_1 = ~_csr_io_csr_stall; // @[RocketCore.scala:341:19, :1154:73] assign _io_dmem_keep_clock_enabled_T_2 = _io_dmem_keep_clock_enabled_T & _io_dmem_keep_clock_enabled_T_1; // @[RocketCore.scala:1154:{55,70,73}] assign io_dmem_keep_clock_enabled_0 = _io_dmem_keep_clock_enabled_T_2; // @[RocketCore.scala:153:7, :1154:70] wire _io_rocc_cmd_valid_T_1 = ~replay_wb_common; // @[RocketCore.scala:757:42, :1059:47, :1156:56] assign _io_rocc_cmd_valid_T_2 = _io_rocc_cmd_valid_T & _io_rocc_cmd_valid_T_1; // @[RocketCore.scala:1156:{37,53,56}] assign io_rocc_cmd_valid = _io_rocc_cmd_valid_T_2; // @[RocketCore.scala:153:7, :1156:53] wire [6:0] _io_rocc_cmd_bits_inst_T_7; // @[RocketCore.scala:1159:48] assign io_rocc_cmd_bits_inst_funct = _io_rocc_cmd_bits_inst_WIRE_funct; // @[RocketCore.scala:153:7, :1159:48] wire [4:0] _io_rocc_cmd_bits_inst_T_6; // @[RocketCore.scala:1159:48] assign io_rocc_cmd_bits_inst_rs2 = _io_rocc_cmd_bits_inst_WIRE_rs2; // @[RocketCore.scala:153:7, :1159:48] wire [4:0] _io_rocc_cmd_bits_inst_T_5; // @[RocketCore.scala:1159:48] assign io_rocc_cmd_bits_inst_rs1 = _io_rocc_cmd_bits_inst_WIRE_rs1; // @[RocketCore.scala:153:7, :1159:48] wire _io_rocc_cmd_bits_inst_T_4; // @[RocketCore.scala:1159:48] assign io_rocc_cmd_bits_inst_xd = _io_rocc_cmd_bits_inst_WIRE_xd; // @[RocketCore.scala:153:7, :1159:48] wire _io_rocc_cmd_bits_inst_T_3; // @[RocketCore.scala:1159:48] assign io_rocc_cmd_bits_inst_xs1 = _io_rocc_cmd_bits_inst_WIRE_xs1; // @[RocketCore.scala:153:7, :1159:48] wire _io_rocc_cmd_bits_inst_T_2; // @[RocketCore.scala:1159:48] assign io_rocc_cmd_bits_inst_xs2 = _io_rocc_cmd_bits_inst_WIRE_xs2; // @[RocketCore.scala:153:7, :1159:48] wire [4:0] _io_rocc_cmd_bits_inst_T_1; // @[RocketCore.scala:1159:48] assign io_rocc_cmd_bits_inst_rd = _io_rocc_cmd_bits_inst_WIRE_rd; // @[RocketCore.scala:153:7, :1159:48] wire [6:0] _io_rocc_cmd_bits_inst_T; // @[RocketCore.scala:1159:48] assign io_rocc_cmd_bits_inst_opcode = _io_rocc_cmd_bits_inst_WIRE_opcode; // @[RocketCore.scala:153:7, :1159:48] assign _io_rocc_cmd_bits_inst_T = _io_rocc_cmd_bits_inst_WIRE_1[6:0]; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_WIRE_opcode = _io_rocc_cmd_bits_inst_T; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_T_1 = _io_rocc_cmd_bits_inst_WIRE_1[11:7]; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_WIRE_rd = _io_rocc_cmd_bits_inst_T_1; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_T_2 = _io_rocc_cmd_bits_inst_WIRE_1[12]; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_WIRE_xs2 = _io_rocc_cmd_bits_inst_T_2; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_T_3 = _io_rocc_cmd_bits_inst_WIRE_1[13]; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_WIRE_xs1 = _io_rocc_cmd_bits_inst_T_3; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_T_4 = _io_rocc_cmd_bits_inst_WIRE_1[14]; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_WIRE_xd = _io_rocc_cmd_bits_inst_T_4; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_T_5 = _io_rocc_cmd_bits_inst_WIRE_1[19:15]; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_WIRE_rs1 = _io_rocc_cmd_bits_inst_T_5; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_T_6 = _io_rocc_cmd_bits_inst_WIRE_1[24:20]; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_WIRE_rs2 = _io_rocc_cmd_bits_inst_T_6; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_T_7 = _io_rocc_cmd_bits_inst_WIRE_1[31:25]; // @[RocketCore.scala:1159:48] assign _io_rocc_cmd_bits_inst_WIRE_funct = _io_rocc_cmd_bits_inst_T_7; // @[RocketCore.scala:1159:48] wire [4:0] _unpause_T = _csr_io_time[4:0]; // @[RocketCore.scala:341:19, :1164:28] wire _unpause_T_1 = _unpause_T == 5'h0; // @[RocketCore.scala:1164:{28,62}] wire _unpause_T_2 = _unpause_T_1 | _csr_io_inhibit_cycle; // @[RocketCore.scala:341:19, :1164:{62,70}] wire _unpause_T_3 = _unpause_T_2 | io_dmem_perf_release_0; // @[RocketCore.scala:153:7, :1164:{70,94}] wire unpause = _unpause_T_3 | take_pc_mem_wb; // @[RocketCore.scala:307:35, :1164:{94,118}] reg icache_blocked_REG; // @[RocketCore.scala:1183:55] wire _icache_blocked_T = io_imem_resp_valid_0 | icache_blocked_REG; // @[RocketCore.scala:153:7, :1183:{45,55}] wire icache_blocked = ~_icache_blocked_T; // @[RocketCore.scala:1183:{24,45}] wire _coreMonitorBundle_valid_T_1; // @[RocketCore.scala:1192:52] wire [63:0] _coreMonitorBundle_pc_T_3; // @[package.scala:132:15] wire _coreMonitorBundle_wrenx_T_1; // @[RocketCore.scala:1194:37] wire [4:0] _coreMonitorBundle_rd0src_T; // @[RocketCore.scala:1198:42] wire [4:0] _coreMonitorBundle_rd1src_T; // @[RocketCore.scala:1200:42] wire coreMonitorBundle_excpt; // @[RocketCore.scala:1186:31] wire [2:0] coreMonitorBundle_priv_mode; // @[RocketCore.scala:1186:31] wire [63:0] coreMonitorBundle_hartid; // @[RocketCore.scala:1186:31] wire [31:0] coreMonitorBundle_timer; // @[RocketCore.scala:1186:31] wire coreMonitorBundle_valid; // @[RocketCore.scala:1186:31] wire [63:0] coreMonitorBundle_pc; // @[RocketCore.scala:1186:31] wire coreMonitorBundle_wrenx; // @[RocketCore.scala:1186:31] wire [4:0] coreMonitorBundle_rd0src; // @[RocketCore.scala:1186:31] wire [63:0] coreMonitorBundle_rd0val; // @[RocketCore.scala:1186:31] wire [4:0] coreMonitorBundle_rd1src; // @[RocketCore.scala:1186:31] wire [63:0] coreMonitorBundle_rd1val; // @[RocketCore.scala:1186:31] wire [31:0] coreMonitorBundle_inst; // @[RocketCore.scala:1186:31] wire [63:0] _GEN_71 = {61'h0, io_hartid_0}; // @[RocketCore.scala:153:7, :1190:28] assign coreMonitorBundle_hartid = _GEN_71; // @[RocketCore.scala:1186:31, :1190:28] wire [63:0] xrfWriteBundle_hartid; // @[RocketCore.scala:1249:28] assign xrfWriteBundle_hartid = _GEN_71; // @[RocketCore.scala:1190:28, :1249:28] assign coreMonitorBundle_timer = _coreMonitorBundle_timer_T; // @[RocketCore.scala:1186:31, :1191:41] wire _coreMonitorBundle_valid_T = ~_csr_io_trace_0_exception; // @[RocketCore.scala:341:19, :1192:55] assign _coreMonitorBundle_valid_T_1 = _csr_io_trace_0_valid & _coreMonitorBundle_valid_T; // @[RocketCore.scala:341:19, :1192:{52,55}] assign coreMonitorBundle_valid = _coreMonitorBundle_valid_T_1; // @[RocketCore.scala:1186:31, :1192:52] wire [39:0] _coreMonitorBundle_pc_T; // @[RocketCore.scala:1193:48] wire _coreMonitorBundle_pc_T_1 = _coreMonitorBundle_pc_T[39]; // @[package.scala:132:38] wire [23:0] _coreMonitorBundle_pc_T_2 = {24{_coreMonitorBundle_pc_T_1}}; // @[package.scala:132:{20,38}] assign _coreMonitorBundle_pc_T_3 = {_coreMonitorBundle_pc_T_2, _coreMonitorBundle_pc_T}; // @[package.scala:132:{15,20}] assign coreMonitorBundle_pc = _coreMonitorBundle_pc_T_3; // @[package.scala:132:15] wire _coreMonitorBundle_wrenx_T = ~wb_set_sboard; // @[RocketCore.scala:756:69, :1194:40] assign _coreMonitorBundle_wrenx_T_1 = wb_wen & _coreMonitorBundle_wrenx_T; // @[RocketCore.scala:816:25, :1194:{37,40}] assign coreMonitorBundle_wrenx = _coreMonitorBundle_wrenx_T_1; // @[RocketCore.scala:1186:31, :1194:37] assign _coreMonitorBundle_rd0src_T = wb_reg_inst[19:15]; // @[RocketCore.scala:300:24, :1198:42] assign coreMonitorBundle_rd0src = _coreMonitorBundle_rd0src_T; // @[RocketCore.scala:1186:31, :1198:42] reg [63:0] coreMonitorBundle_rd0val_REG; // @[RocketCore.scala:1199:46] reg [63:0] coreMonitorBundle_rd0val_REG_1; // @[RocketCore.scala:1199:38] assign coreMonitorBundle_rd0val = coreMonitorBundle_rd0val_REG_1; // @[RocketCore.scala:1186:31, :1199:38] assign _coreMonitorBundle_rd1src_T = wb_reg_inst[24:20]; // @[RocketCore.scala:300:24, :1200:42] assign coreMonitorBundle_rd1src = _coreMonitorBundle_rd1src_T; // @[RocketCore.scala:1186:31, :1200:42] reg [63:0] coreMonitorBundle_rd1val_REG; // @[RocketCore.scala:1201:46] reg [63:0] coreMonitorBundle_rd1val_REG_1; // @[RocketCore.scala:1201:38] assign coreMonitorBundle_rd1val = coreMonitorBundle_rd1val_REG_1; // @[RocketCore.scala:1186:31, :1201:38]
Generate the Verilog code corresponding to the following Chisel files. File util.scala: //****************************************************************************** // Copyright (c) 2015 - 2019, The Regents of the University of California (Regents). // All Rights Reserved. See LICENSE and LICENSE.SiFive for license details. //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ // Utility Functions //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ package boom.v4.util import chisel3._ import chisel3.util._ import freechips.rocketchip.rocket.Instructions._ import freechips.rocketchip.rocket._ import freechips.rocketchip.util.{Str} import org.chipsalliance.cde.config.{Parameters} import freechips.rocketchip.tile.{TileKey} import boom.v4.common.{MicroOp} import boom.v4.exu.{BrUpdateInfo} /** * Object to XOR fold a input register of fullLength into a compressedLength. */ object Fold { def apply(input: UInt, compressedLength: Int, fullLength: Int): UInt = { val clen = compressedLength val hlen = fullLength if (hlen <= clen) { input } else { var res = 0.U(clen.W) var remaining = input.asUInt for (i <- 0 to hlen-1 by clen) { val len = if (i + clen > hlen ) (hlen - i) else clen require(len > 0) res = res(clen-1,0) ^ remaining(len-1,0) remaining = remaining >> len.U } res } } } /** * Object to check if MicroOp was killed due to a branch mispredict. * Uses "Fast" branch masks */ object IsKilledByBranch { def apply(brupdate: BrUpdateInfo, flush: Bool, uop: MicroOp): Bool = { return apply(brupdate, flush, uop.br_mask) } def apply(brupdate: BrUpdateInfo, flush: Bool, uop_mask: UInt): Bool = { return maskMatch(brupdate.b1.mispredict_mask, uop_mask) || flush } def apply[T <: boom.v4.common.HasBoomUOP](brupdate: BrUpdateInfo, flush: Bool, bundle: T): Bool = { return apply(brupdate, flush, bundle.uop) } def apply[T <: boom.v4.common.HasBoomUOP](brupdate: BrUpdateInfo, flush: Bool, bundle: Valid[T]): Bool = { return apply(brupdate, flush, bundle.bits) } } /** * Object to return new MicroOp with a new BR mask given a MicroOp mask * and old BR mask. */ object GetNewUopAndBrMask { def apply(uop: MicroOp, brupdate: BrUpdateInfo) (implicit p: Parameters): MicroOp = { val newuop = WireInit(uop) newuop.br_mask := uop.br_mask & ~brupdate.b1.resolve_mask newuop } } /** * Object to return a BR mask given a MicroOp mask and old BR mask. */ object GetNewBrMask { def apply(brupdate: BrUpdateInfo, uop: MicroOp): UInt = { return uop.br_mask & ~brupdate.b1.resolve_mask } def apply(brupdate: BrUpdateInfo, br_mask: UInt): UInt = { return br_mask & ~brupdate.b1.resolve_mask } } object UpdateBrMask { def apply(brupdate: BrUpdateInfo, uop: MicroOp): MicroOp = { val out = WireInit(uop) out.br_mask := GetNewBrMask(brupdate, uop) out } def apply[T <: boom.v4.common.HasBoomUOP](brupdate: BrUpdateInfo, bundle: T): T = { val out = WireInit(bundle) out.uop.br_mask := GetNewBrMask(brupdate, bundle.uop.br_mask) out } def apply[T <: boom.v4.common.HasBoomUOP](brupdate: BrUpdateInfo, flush: Bool, bundle: Valid[T]): Valid[T] = { val out = WireInit(bundle) out.bits.uop.br_mask := GetNewBrMask(brupdate, bundle.bits.uop.br_mask) out.valid := bundle.valid && !IsKilledByBranch(brupdate, flush, bundle.bits.uop.br_mask) out } } /** * Object to check if at least 1 bit matches in two masks */ object maskMatch { def apply(msk1: UInt, msk2: UInt): Bool = (msk1 & msk2) =/= 0.U } /** * Object to clear one bit in a mask given an index */ object clearMaskBit { def apply(msk: UInt, idx: UInt): UInt = (msk & ~(1.U << idx))(msk.getWidth-1, 0) } /** * Object to shift a register over by one bit and concat a new one */ object PerformShiftRegister { def apply(reg_val: UInt, new_bit: Bool): UInt = { reg_val := Cat(reg_val(reg_val.getWidth-1, 0).asUInt, new_bit.asUInt).asUInt reg_val } } /** * Object to shift a register over by one bit, wrapping the top bit around to the bottom * (XOR'ed with a new-bit), and evicting a bit at index HLEN. * This is used to simulate a longer HLEN-width shift register that is folded * down to a compressed CLEN. */ object PerformCircularShiftRegister { def apply(csr: UInt, new_bit: Bool, evict_bit: Bool, hlen: Int, clen: Int): UInt = { val carry = csr(clen-1) val newval = Cat(csr, new_bit ^ carry) ^ (evict_bit << (hlen % clen).U) newval } } /** * Object to increment an input value, wrapping it if * necessary. */ object WrapAdd { // "n" is the number of increments, so we wrap at n-1. def apply(value: UInt, amt: UInt, n: Int): UInt = { if (isPow2(n)) { (value + amt)(log2Ceil(n)-1,0) } else { val sum = Cat(0.U(1.W), value) + Cat(0.U(1.W), amt) Mux(sum >= n.U, sum - n.U, sum) } } } /** * Object to decrement an input value, wrapping it if * necessary. */ object WrapSub { // "n" is the number of increments, so we wrap to n-1. def apply(value: UInt, amt: Int, n: Int): UInt = { if (isPow2(n)) { (value - amt.U)(log2Ceil(n)-1,0) } else { val v = Cat(0.U(1.W), value) val b = Cat(0.U(1.W), amt.U) Mux(value >= amt.U, value - amt.U, n.U - amt.U + value) } } } /** * Object to increment an input value, wrapping it if * necessary. */ object WrapInc { // "n" is the number of increments, so we wrap at n-1. def apply(value: UInt, n: Int): UInt = { if (isPow2(n)) { (value + 1.U)(log2Ceil(n)-1,0) } else { val wrap = (value === (n-1).U) Mux(wrap, 0.U, value + 1.U) } } } /** * Object to decrement an input value, wrapping it if * necessary. */ object WrapDec { // "n" is the number of increments, so we wrap at n-1. def apply(value: UInt, n: Int): UInt = { if (isPow2(n)) { (value - 1.U)(log2Ceil(n)-1,0) } else { val wrap = (value === 0.U) Mux(wrap, (n-1).U, value - 1.U) } } } /** * Object to mask off lower bits of a PC to align to a "b" * Byte boundary. */ object AlignPCToBoundary { def apply(pc: UInt, b: Int): UInt = { // Invert for scenario where pc longer than b // (which would clear all bits above size(b)). ~(~pc | (b-1).U) } } /** * Object to rotate a signal left by one */ object RotateL1 { def apply(signal: UInt): UInt = { val w = signal.getWidth val out = Cat(signal(w-2,0), signal(w-1)) return out } } /** * Object to sext a value to a particular length. */ object Sext { def apply(x: UInt, length: Int): UInt = { if (x.getWidth == length) return x else return Cat(Fill(length-x.getWidth, x(x.getWidth-1)), x) } } /** * Object to translate from BOOM's special "packed immediate" to a 32b signed immediate * Asking for U-type gives it shifted up 12 bits. */ object ImmGen { import boom.v4.common.{LONGEST_IMM_SZ, IS_B, IS_I, IS_J, IS_S, IS_U, IS_N} def apply(i: UInt, isel: UInt): UInt = { val ip = Mux(isel === IS_N, 0.U(LONGEST_IMM_SZ.W), i) val sign = ip(LONGEST_IMM_SZ-1).asSInt val i30_20 = Mux(isel === IS_U, ip(18,8).asSInt, sign) val i19_12 = Mux(isel === IS_U || isel === IS_J, ip(7,0).asSInt, sign) val i11 = Mux(isel === IS_U, 0.S, Mux(isel === IS_J || isel === IS_B, ip(8).asSInt, sign)) val i10_5 = Mux(isel === IS_U, 0.S, ip(18,14).asSInt) val i4_1 = Mux(isel === IS_U, 0.S, ip(13,9).asSInt) val i0 = Mux(isel === IS_S || isel === IS_I, ip(8).asSInt, 0.S) return Cat(sign, i30_20, i19_12, i11, i10_5, i4_1, i0) } } /** * Object to see if an instruction is a JALR. */ object DebugIsJALR { def apply(inst: UInt): Bool = { // TODO Chisel not sure why this won't compile // val is_jalr = rocket.DecodeLogic(inst, List(Bool(false)), // Array( // JALR -> Bool(true))) inst(6,0) === "b1100111".U } } /** * Object to take an instruction and output its branch or jal target. Only used * for a debug assert (no where else would we jump straight from instruction * bits to a target). */ object DebugGetBJImm { def apply(inst: UInt): UInt = { // TODO Chisel not sure why this won't compile //val csignals = //rocket.DecodeLogic(inst, // List(Bool(false), Bool(false)), // Array( // BEQ -> List(Bool(true ), Bool(false)), // BNE -> List(Bool(true ), Bool(false)), // BGE -> List(Bool(true ), Bool(false)), // BGEU -> List(Bool(true ), Bool(false)), // BLT -> List(Bool(true ), Bool(false)), // BLTU -> List(Bool(true ), Bool(false)) // )) //val is_br :: nothing :: Nil = csignals val is_br = (inst(6,0) === "b1100011".U) val br_targ = Cat(Fill(12, inst(31)), Fill(8,inst(31)), inst(7), inst(30,25), inst(11,8), 0.U(1.W)) val jal_targ= Cat(Fill(12, inst(31)), inst(19,12), inst(20), inst(30,25), inst(24,21), 0.U(1.W)) Mux(is_br, br_targ, jal_targ) } } /** * Object to return the lowest bit position after the head. */ object AgePriorityEncoder { def apply(in: Seq[Bool], head: UInt): UInt = { val n = in.size val width = log2Ceil(in.size) val n_padded = 1 << width val temp_vec = (0 until n_padded).map(i => if (i < n) in(i) && i.U >= head else false.B) ++ in val idx = PriorityEncoder(temp_vec) idx(width-1, 0) //discard msb } } /** * Object to determine whether queue * index i0 is older than index i1. */ object IsOlder { def apply(i0: UInt, i1: UInt, head: UInt) = ((i0 < i1) ^ (i0 < head) ^ (i1 < head)) } object IsYoungerMask { def apply(i: UInt, head: UInt, n: Integer): UInt = { val hi_mask = ~MaskLower(UIntToOH(i)(n-1,0)) val lo_mask = ~MaskUpper(UIntToOH(head)(n-1,0)) Mux(i < head, hi_mask & lo_mask, hi_mask | lo_mask)(n-1,0) } } /** * Set all bits at or below the highest order '1'. */ object MaskLower { def apply(in: UInt) = { val n = in.getWidth (0 until n).map(i => in >> i.U).reduce(_|_) } } /** * Set all bits at or above the lowest order '1'. */ object MaskUpper { def apply(in: UInt) = { val n = in.getWidth (0 until n).map(i => (in << i.U)(n-1,0)).reduce(_|_) } } /** * Transpose a matrix of Chisel Vecs. */ object Transpose { def apply[T <: chisel3.Data](in: Vec[Vec[T]]) = { val n = in(0).size VecInit((0 until n).map(i => VecInit(in.map(row => row(i))))) } } /** * N-wide one-hot priority encoder. */ object SelectFirstN { def apply(in: UInt, n: Int) = { val sels = Wire(Vec(n, UInt(in.getWidth.W))) var mask = in for (i <- 0 until n) { sels(i) := PriorityEncoderOH(mask) mask = mask & ~sels(i) } sels } } /** * Connect the first k of n valid input interfaces to k output interfaces. */ class Compactor[T <: chisel3.Data](n: Int, k: Int, gen: T) extends Module { require(n >= k) val io = IO(new Bundle { val in = Vec(n, Flipped(DecoupledIO(gen))) val out = Vec(k, DecoupledIO(gen)) }) if (n == k) { io.out <> io.in } else { val counts = io.in.map(_.valid).scanLeft(1.U(k.W)) ((c,e) => Mux(e, (c<<1)(k-1,0), c)) val sels = Transpose(VecInit(counts map (c => VecInit(c.asBools)))) map (col => (col zip io.in.map(_.valid)) map {case (c,v) => c && v}) val in_readys = counts map (row => (row.asBools zip io.out.map(_.ready)) map {case (c,r) => c && r} reduce (_||_)) val out_valids = sels map (col => col.reduce(_||_)) val out_data = sels map (s => Mux1H(s, io.in.map(_.bits))) in_readys zip io.in foreach {case (r,i) => i.ready := r} out_valids zip out_data zip io.out foreach {case ((v,d),o) => o.valid := v; o.bits := d} } } /** * Create a queue that can be killed with a branch kill signal. * Assumption: enq.valid only high if not killed by branch (so don't check IsKilled on io.enq). */ class BranchKillableQueue[T <: boom.v4.common.HasBoomUOP](gen: T, entries: Int, flush_fn: boom.v4.common.MicroOp => Bool = u => true.B, fastDeq: Boolean = false) (implicit p: org.chipsalliance.cde.config.Parameters) extends boom.v4.common.BoomModule()(p) with boom.v4.common.HasBoomCoreParameters { val io = IO(new Bundle { val enq = Flipped(Decoupled(gen)) val deq = Decoupled(gen) val brupdate = Input(new BrUpdateInfo()) val flush = Input(Bool()) val empty = Output(Bool()) val count = Output(UInt(log2Ceil(entries).W)) }) if (fastDeq && entries > 1) { // Pipeline dequeue selection so the mux gets an entire cycle val main = Module(new BranchKillableQueue(gen, entries-1, flush_fn, false)) val out_reg = Reg(gen) val out_valid = RegInit(false.B) val out_uop = Reg(new MicroOp) main.io.enq <> io.enq main.io.brupdate := io.brupdate main.io.flush := io.flush io.empty := main.io.empty && !out_valid io.count := main.io.count + out_valid io.deq.valid := out_valid io.deq.bits := out_reg io.deq.bits.uop := out_uop out_uop := UpdateBrMask(io.brupdate, out_uop) out_valid := out_valid && !IsKilledByBranch(io.brupdate, false.B, out_uop) && !(io.flush && flush_fn(out_uop)) main.io.deq.ready := false.B when (io.deq.fire || !out_valid) { out_valid := main.io.deq.valid && !IsKilledByBranch(io.brupdate, false.B, main.io.deq.bits.uop) && !(io.flush && flush_fn(main.io.deq.bits.uop)) out_reg := main.io.deq.bits out_uop := UpdateBrMask(io.brupdate, main.io.deq.bits.uop) main.io.deq.ready := true.B } } else { val ram = Mem(entries, gen) val valids = RegInit(VecInit(Seq.fill(entries) {false.B})) val uops = Reg(Vec(entries, new MicroOp)) val enq_ptr = Counter(entries) val deq_ptr = Counter(entries) val maybe_full = RegInit(false.B) val ptr_match = enq_ptr.value === deq_ptr.value io.empty := ptr_match && !maybe_full val full = ptr_match && maybe_full val do_enq = WireInit(io.enq.fire && !IsKilledByBranch(io.brupdate, false.B, io.enq.bits.uop) && !(io.flush && flush_fn(io.enq.bits.uop))) val do_deq = WireInit((io.deq.ready || !valids(deq_ptr.value)) && !io.empty) for (i <- 0 until entries) { val mask = uops(i).br_mask val uop = uops(i) valids(i) := valids(i) && !IsKilledByBranch(io.brupdate, false.B, mask) && !(io.flush && flush_fn(uop)) when (valids(i)) { uops(i).br_mask := GetNewBrMask(io.brupdate, mask) } } when (do_enq) { ram(enq_ptr.value) := io.enq.bits valids(enq_ptr.value) := true.B uops(enq_ptr.value) := io.enq.bits.uop uops(enq_ptr.value).br_mask := GetNewBrMask(io.brupdate, io.enq.bits.uop) enq_ptr.inc() } when (do_deq) { valids(deq_ptr.value) := false.B deq_ptr.inc() } when (do_enq =/= do_deq) { maybe_full := do_enq } io.enq.ready := !full val out = Wire(gen) out := ram(deq_ptr.value) out.uop := uops(deq_ptr.value) io.deq.valid := !io.empty && valids(deq_ptr.value) io.deq.bits := out val ptr_diff = enq_ptr.value - deq_ptr.value if (isPow2(entries)) { io.count := Cat(maybe_full && ptr_match, ptr_diff) } else { io.count := Mux(ptr_match, Mux(maybe_full, entries.asUInt, 0.U), Mux(deq_ptr.value > enq_ptr.value, entries.asUInt + ptr_diff, ptr_diff)) } } } // ------------------------------------------ // Printf helper functions // ------------------------------------------ object BoolToChar { /** * Take in a Chisel Bool and convert it into a Str * based on the Chars given * * @param c_bool Chisel Bool * @param trueChar Scala Char if bool is true * @param falseChar Scala Char if bool is false * @return UInt ASCII Char for "trueChar" or "falseChar" */ def apply(c_bool: Bool, trueChar: Char, falseChar: Char = '-'): UInt = { Mux(c_bool, Str(trueChar), Str(falseChar)) } } object CfiTypeToChars { /** * Get a Vec of Strs that can be used for printing * * @param cfi_type specific cfi type * @return Vec of Strs (must be indexed to get specific char) */ def apply(cfi_type: UInt) = { val strings = Seq("----", "BR ", "JAL ", "JALR") val multiVec = VecInit(for(string <- strings) yield { VecInit(for (c <- string) yield { Str(c) }) }) multiVec(cfi_type) } } object BpdTypeToChars { /** * Get a Vec of Strs that can be used for printing * * @param bpd_type specific bpd type * @return Vec of Strs (must be indexed to get specific char) */ def apply(bpd_type: UInt) = { val strings = Seq("BR ", "JUMP", "----", "RET ", "----", "CALL", "----", "----") val multiVec = VecInit(for(string <- strings) yield { VecInit(for (c <- string) yield { Str(c) }) }) multiVec(bpd_type) } } object RobTypeToChars { /** * Get a Vec of Strs that can be used for printing * * @param rob_type specific rob type * @return Vec of Strs (must be indexed to get specific char) */ def apply(rob_type: UInt) = { val strings = Seq("RST", "NML", "RBK", " WT") val multiVec = VecInit(for(string <- strings) yield { VecInit(for (c <- string) yield { Str(c) }) }) multiVec(rob_type) } } object XRegToChars { /** * Get a Vec of Strs that can be used for printing * * @param xreg specific register number * @return Vec of Strs (must be indexed to get specific char) */ def apply(xreg: UInt) = { val strings = Seq(" x0", " ra", " sp", " gp", " tp", " t0", " t1", " t2", " s0", " s1", " a0", " a1", " a2", " a3", " a4", " a5", " a6", " a7", " s2", " s3", " s4", " s5", " s6", " s7", " s8", " s9", "s10", "s11", " t3", " t4", " t5", " t6") val multiVec = VecInit(for(string <- strings) yield { VecInit(for (c <- string) yield { Str(c) }) }) multiVec(xreg) } } object FPRegToChars { /** * Get a Vec of Strs that can be used for printing * * @param fpreg specific register number * @return Vec of Strs (must be indexed to get specific char) */ def apply(fpreg: UInt) = { val strings = Seq(" ft0", " ft1", " ft2", " ft3", " ft4", " ft5", " ft6", " ft7", " fs0", " fs1", " fa0", " fa1", " fa2", " fa3", " fa4", " fa5", " fa6", " fa7", " fs2", " fs3", " fs4", " fs5", " fs6", " fs7", " fs8", " fs9", "fs10", "fs11", " ft8", " ft9", "ft10", "ft11") val multiVec = VecInit(for(string <- strings) yield { VecInit(for (c <- string) yield { Str(c) }) }) multiVec(fpreg) } } object BoomCoreStringPrefix { /** * Add prefix to BOOM strings (currently only adds the hartId) * * @param strs list of strings * @return String combining the list with the prefix per line */ def apply(strs: String*)(implicit p: Parameters) = { val prefix = "[C" + s"${p(TileKey).tileId}" + "] " strs.map(str => prefix + str + "\n").mkString("") } } class BranchKillablePipeline[T <: boom.v4.common.HasBoomUOP](gen: T, stages: Int) (implicit p: org.chipsalliance.cde.config.Parameters) extends boom.v4.common.BoomModule()(p) with boom.v4.common.HasBoomCoreParameters { val io = IO(new Bundle { val req = Input(Valid(gen)) val flush = Input(Bool()) val brupdate = Input(new BrUpdateInfo) val resp = Output(Vec(stages, Valid(gen))) }) require(stages > 0) val uops = Reg(Vec(stages, Valid(gen))) uops(0).valid := io.req.valid && !IsKilledByBranch(io.brupdate, io.flush, io.req.bits) uops(0).bits := UpdateBrMask(io.brupdate, io.req.bits) for (i <- 1 until stages) { uops(i).valid := uops(i-1).valid && !IsKilledByBranch(io.brupdate, io.flush, uops(i-1).bits) uops(i).bits := UpdateBrMask(io.brupdate, uops(i-1).bits) } for (i <- 0 until stages) { when (reset.asBool) { uops(i).valid := false.B } } io.resp := uops } File issue-slot.scala: //****************************************************************************** // Copyright (c) 2015 - 2018, The Regents of the University of California (Regents). // All Rights Reserved. See LICENSE and LICENSE.SiFive for license details. //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ // RISCV Processor Issue Slot Logic //-------------------------------------------------------------------------- //------------------------------------------------------------------------------ // // Note: stores (and AMOs) are "broken down" into 2 uops, but stored within a single issue-slot. // TODO XXX make a separate issueSlot for MemoryIssueSlots, and only they break apart stores. // TODO Disable ldspec for FP queue. package boom.v4.exu import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.Parameters import boom.v4.common._ import boom.v4.util._ class IssueSlotIO(val numWakeupPorts: Int)(implicit p: Parameters) extends BoomBundle { val valid = Output(Bool()) val will_be_valid = Output(Bool()) // TODO code review, do we need this signal so explicitely? val request = Output(Bool()) val grant = Input(Bool()) val iss_uop = Output(new MicroOp()) val in_uop = Input(Valid(new MicroOp())) // if valid, this WILL overwrite an entry! val out_uop = Output(new MicroOp()) val brupdate = Input(new BrUpdateInfo()) val kill = Input(Bool()) // pipeline flush val clear = Input(Bool()) // entry being moved elsewhere (not mutually exclusive with grant) val squash_grant = Input(Bool()) val wakeup_ports = Flipped(Vec(numWakeupPorts, Valid(new Wakeup))) val pred_wakeup_port = Flipped(Valid(UInt(log2Ceil(ftqSz).W))) val child_rebusys = Input(UInt(aluWidth.W)) } class IssueSlot(val numWakeupPorts: Int, val isMem: Boolean, val isFp: Boolean)(implicit p: Parameters) extends BoomModule { val io = IO(new IssueSlotIO(numWakeupPorts)) val slot_valid = RegInit(false.B) val slot_uop = Reg(new MicroOp()) val next_valid = WireInit(slot_valid) val next_uop = WireInit(UpdateBrMask(io.brupdate, slot_uop)) val killed = IsKilledByBranch(io.brupdate, io.kill, slot_uop) io.valid := slot_valid io.out_uop := next_uop io.will_be_valid := next_valid && !killed when (io.kill) { slot_valid := false.B } .elsewhen (io.in_uop.valid) { slot_valid := true.B } .elsewhen (io.clear) { slot_valid := false.B } .otherwise { slot_valid := next_valid && !killed } when (io.in_uop.valid) { slot_uop := io.in_uop.bits assert (!slot_valid || io.clear || io.kill) } .otherwise { slot_uop := next_uop } // Wakeups next_uop.iw_p1_bypass_hint := false.B next_uop.iw_p2_bypass_hint := false.B next_uop.iw_p3_bypass_hint := false.B next_uop.iw_p1_speculative_child := 0.U next_uop.iw_p2_speculative_child := 0.U val rebusied_prs1 = WireInit(false.B) val rebusied_prs2 = WireInit(false.B) val rebusied = rebusied_prs1 || rebusied_prs2 val prs1_matches = io.wakeup_ports.map { w => w.bits.uop.pdst === slot_uop.prs1 } val prs2_matches = io.wakeup_ports.map { w => w.bits.uop.pdst === slot_uop.prs2 } val prs3_matches = io.wakeup_ports.map { w => w.bits.uop.pdst === slot_uop.prs3 } val prs1_wakeups = (io.wakeup_ports zip prs1_matches).map { case (w,m) => w.valid && m } val prs2_wakeups = (io.wakeup_ports zip prs2_matches).map { case (w,m) => w.valid && m } val prs3_wakeups = (io.wakeup_ports zip prs3_matches).map { case (w,m) => w.valid && m } val prs1_rebusys = (io.wakeup_ports zip prs1_matches).map { case (w,m) => w.bits.rebusy && m } val prs2_rebusys = (io.wakeup_ports zip prs2_matches).map { case (w,m) => w.bits.rebusy && m } val bypassables = io.wakeup_ports.map { w => w.bits.bypassable } val speculative_masks = io.wakeup_ports.map { w => w.bits.speculative_mask } when (prs1_wakeups.reduce(_||_)) { next_uop.prs1_busy := false.B next_uop.iw_p1_speculative_child := Mux1H(prs1_wakeups, speculative_masks) next_uop.iw_p1_bypass_hint := Mux1H(prs1_wakeups, bypassables) } when ((prs1_rebusys.reduce(_||_) || ((io.child_rebusys & slot_uop.iw_p1_speculative_child) =/= 0.U)) && slot_uop.lrs1_rtype === RT_FIX) { next_uop.prs1_busy := true.B rebusied_prs1 := true.B } when (prs2_wakeups.reduce(_||_)) { next_uop.prs2_busy := false.B next_uop.iw_p2_speculative_child := Mux1H(prs2_wakeups, speculative_masks) next_uop.iw_p2_bypass_hint := Mux1H(prs2_wakeups, bypassables) } when ((prs2_rebusys.reduce(_||_) || ((io.child_rebusys & slot_uop.iw_p2_speculative_child) =/= 0.U)) && slot_uop.lrs2_rtype === RT_FIX) { next_uop.prs2_busy := true.B rebusied_prs2 := true.B } when (prs3_wakeups.reduce(_||_)) { next_uop.prs3_busy := false.B next_uop.iw_p3_bypass_hint := Mux1H(prs3_wakeups, bypassables) } when (io.pred_wakeup_port.valid && io.pred_wakeup_port.bits === slot_uop.ppred) { next_uop.ppred_busy := false.B } val iss_ready = !slot_uop.prs1_busy && !slot_uop.prs2_busy && !(slot_uop.ppred_busy && enableSFBOpt.B) && !(slot_uop.prs3_busy && isFp.B) val agen_ready = (slot_uop.fu_code(FC_AGEN) && !slot_uop.prs1_busy && !(slot_uop.ppred_busy && enableSFBOpt.B) && isMem.B) val dgen_ready = (slot_uop.fu_code(FC_DGEN) && !slot_uop.prs2_busy && !(slot_uop.ppred_busy && enableSFBOpt.B) && isMem.B) io.request := slot_valid && !slot_uop.iw_issued && ( iss_ready || agen_ready || dgen_ready ) io.iss_uop := slot_uop // Update state for current micro-op based on grant next_uop.iw_issued := false.B next_uop.iw_issued_partial_agen := false.B next_uop.iw_issued_partial_dgen := false.B when (io.grant && !io.squash_grant) { next_uop.iw_issued := true.B } if (isMem) { when (slot_uop.fu_code(FC_AGEN) && slot_uop.fu_code(FC_DGEN)) { when (agen_ready) { // Issue the AGEN, next slot entry is a DGEN when (io.grant && !io.squash_grant) { next_uop.iw_issued_partial_agen := true.B } io.iss_uop.fu_code(FC_AGEN) := true.B io.iss_uop.fu_code(FC_DGEN) := false.B } .otherwise { // Issue the DGEN, next slot entry is the AGEN when (io.grant && !io.squash_grant) { next_uop.iw_issued_partial_dgen := true.B } io.iss_uop.fu_code(FC_AGEN) := false.B io.iss_uop.fu_code(FC_DGEN) := true.B io.iss_uop.imm_sel := IS_N io.iss_uop.prs1 := slot_uop.prs2 io.iss_uop.lrs1_rtype := slot_uop.lrs2_rtype io.iss_uop.iw_p1_bypass_hint := slot_uop.iw_p2_bypass_hint } } .elsewhen (slot_uop.fu_code(FC_DGEN)) { io.iss_uop.imm_sel := IS_N io.iss_uop.prs1 := slot_uop.prs2 io.iss_uop.lrs1_rtype := slot_uop.lrs2_rtype io.iss_uop.iw_p1_bypass_hint := slot_uop.iw_p2_bypass_hint } io.iss_uop.lrs2_rtype := RT_X io.iss_uop.prs2 := io.iss_uop.prs1 // helps with DCE } when (slot_valid && slot_uop.iw_issued) { next_valid := rebusied if (isMem) { when (slot_uop.iw_issued_partial_agen) { next_valid := true.B when (!rebusied_prs1) { next_uop.fu_code(FC_AGEN) := false.B next_uop.fu_code(FC_DGEN) := true.B } } .elsewhen (slot_uop.iw_issued_partial_dgen) { next_valid := true.B when (!rebusied_prs2) { next_uop.fu_code(FC_AGEN) := true.B next_uop.fu_code(FC_DGEN) := false.B } } } } }
module IssueSlot_9( // @[issue-slot.scala:49:7] input clock, // @[issue-slot.scala:49:7] input reset, // @[issue-slot.scala:49:7] output io_valid, // @[issue-slot.scala:52:14] output io_will_be_valid, // @[issue-slot.scala:52:14] output io_request, // @[issue-slot.scala:52:14] input io_grant, // @[issue-slot.scala:52:14] output [31:0] io_iss_uop_inst, // @[issue-slot.scala:52:14] output [31:0] io_iss_uop_debug_inst, // @[issue-slot.scala:52:14] output io_iss_uop_is_rvc, // @[issue-slot.scala:52:14] output [39:0] io_iss_uop_debug_pc, // @[issue-slot.scala:52:14] output io_iss_uop_iq_type_0, // @[issue-slot.scala:52:14] output io_iss_uop_iq_type_1, // @[issue-slot.scala:52:14] output io_iss_uop_iq_type_2, // @[issue-slot.scala:52:14] output io_iss_uop_iq_type_3, // @[issue-slot.scala:52:14] output io_iss_uop_fu_code_0, // @[issue-slot.scala:52:14] output io_iss_uop_fu_code_1, // @[issue-slot.scala:52:14] output io_iss_uop_fu_code_2, // @[issue-slot.scala:52:14] output io_iss_uop_fu_code_3, // @[issue-slot.scala:52:14] output io_iss_uop_fu_code_4, // @[issue-slot.scala:52:14] output io_iss_uop_fu_code_5, // @[issue-slot.scala:52:14] output io_iss_uop_fu_code_6, // @[issue-slot.scala:52:14] output io_iss_uop_fu_code_7, // @[issue-slot.scala:52:14] output io_iss_uop_fu_code_8, // @[issue-slot.scala:52:14] output io_iss_uop_fu_code_9, // @[issue-slot.scala:52:14] output io_iss_uop_iw_issued, // @[issue-slot.scala:52:14] output [1:0] io_iss_uop_iw_p1_speculative_child, // @[issue-slot.scala:52:14] output [1:0] io_iss_uop_iw_p2_speculative_child, // @[issue-slot.scala:52:14] output io_iss_uop_iw_p1_bypass_hint, // @[issue-slot.scala:52:14] output io_iss_uop_iw_p2_bypass_hint, // @[issue-slot.scala:52:14] output io_iss_uop_iw_p3_bypass_hint, // @[issue-slot.scala:52:14] output [1:0] io_iss_uop_dis_col_sel, // @[issue-slot.scala:52:14] output [11:0] io_iss_uop_br_mask, // @[issue-slot.scala:52:14] output [3:0] io_iss_uop_br_tag, // @[issue-slot.scala:52:14] output [3:0] io_iss_uop_br_type, // @[issue-slot.scala:52:14] output io_iss_uop_is_sfb, // @[issue-slot.scala:52:14] output io_iss_uop_is_fence, // @[issue-slot.scala:52:14] output io_iss_uop_is_fencei, // @[issue-slot.scala:52:14] output io_iss_uop_is_sfence, // @[issue-slot.scala:52:14] output io_iss_uop_is_amo, // @[issue-slot.scala:52:14] output io_iss_uop_is_eret, // @[issue-slot.scala:52:14] output io_iss_uop_is_sys_pc2epc, // @[issue-slot.scala:52:14] output io_iss_uop_is_rocc, // @[issue-slot.scala:52:14] output io_iss_uop_is_mov, // @[issue-slot.scala:52:14] output [4:0] io_iss_uop_ftq_idx, // @[issue-slot.scala:52:14] output io_iss_uop_edge_inst, // @[issue-slot.scala:52:14] output [5:0] io_iss_uop_pc_lob, // @[issue-slot.scala:52:14] output io_iss_uop_taken, // @[issue-slot.scala:52:14] output io_iss_uop_imm_rename, // @[issue-slot.scala:52:14] output [2:0] io_iss_uop_imm_sel, // @[issue-slot.scala:52:14] output [4:0] io_iss_uop_pimm, // @[issue-slot.scala:52:14] output [19:0] io_iss_uop_imm_packed, // @[issue-slot.scala:52:14] output [1:0] io_iss_uop_op1_sel, // @[issue-slot.scala:52:14] output [2:0] io_iss_uop_op2_sel, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_ldst, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_wen, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_ren1, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_ren2, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_ren3, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_swap12, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_swap23, // @[issue-slot.scala:52:14] output [1:0] io_iss_uop_fp_ctrl_typeTagIn, // @[issue-slot.scala:52:14] output [1:0] io_iss_uop_fp_ctrl_typeTagOut, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_fromint, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_toint, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_fastpipe, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_fma, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_div, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_sqrt, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_wflags, // @[issue-slot.scala:52:14] output io_iss_uop_fp_ctrl_vec, // @[issue-slot.scala:52:14] output [5:0] io_iss_uop_rob_idx, // @[issue-slot.scala:52:14] output [3:0] io_iss_uop_ldq_idx, // @[issue-slot.scala:52:14] output [3:0] io_iss_uop_stq_idx, // @[issue-slot.scala:52:14] output [1:0] io_iss_uop_rxq_idx, // @[issue-slot.scala:52:14] output [6:0] io_iss_uop_pdst, // @[issue-slot.scala:52:14] output [6:0] io_iss_uop_prs1, // @[issue-slot.scala:52:14] output [6:0] io_iss_uop_prs2, // @[issue-slot.scala:52:14] output [6:0] io_iss_uop_prs3, // @[issue-slot.scala:52:14] output [4:0] io_iss_uop_ppred, // @[issue-slot.scala:52:14] output io_iss_uop_prs1_busy, // @[issue-slot.scala:52:14] output io_iss_uop_prs2_busy, // @[issue-slot.scala:52:14] output io_iss_uop_prs3_busy, // @[issue-slot.scala:52:14] output io_iss_uop_ppred_busy, // @[issue-slot.scala:52:14] output [6:0] io_iss_uop_stale_pdst, // @[issue-slot.scala:52:14] output io_iss_uop_exception, // @[issue-slot.scala:52:14] output [63:0] io_iss_uop_exc_cause, // @[issue-slot.scala:52:14] output [4:0] io_iss_uop_mem_cmd, // @[issue-slot.scala:52:14] output [1:0] io_iss_uop_mem_size, // @[issue-slot.scala:52:14] output io_iss_uop_mem_signed, // @[issue-slot.scala:52:14] output io_iss_uop_uses_ldq, // @[issue-slot.scala:52:14] output io_iss_uop_uses_stq, // @[issue-slot.scala:52:14] output io_iss_uop_is_unique, // @[issue-slot.scala:52:14] output io_iss_uop_flush_on_commit, // @[issue-slot.scala:52:14] output [2:0] io_iss_uop_csr_cmd, // @[issue-slot.scala:52:14] output io_iss_uop_ldst_is_rs1, // @[issue-slot.scala:52:14] output [5:0] io_iss_uop_ldst, // @[issue-slot.scala:52:14] output [5:0] io_iss_uop_lrs1, // @[issue-slot.scala:52:14] output [5:0] io_iss_uop_lrs2, // @[issue-slot.scala:52:14] output [5:0] io_iss_uop_lrs3, // @[issue-slot.scala:52:14] output [1:0] io_iss_uop_dst_rtype, // @[issue-slot.scala:52:14] output [1:0] io_iss_uop_lrs1_rtype, // @[issue-slot.scala:52:14] output [1:0] io_iss_uop_lrs2_rtype, // @[issue-slot.scala:52:14] output io_iss_uop_frs3_en, // @[issue-slot.scala:52:14] output io_iss_uop_fcn_dw, // @[issue-slot.scala:52:14] output [4:0] io_iss_uop_fcn_op, // @[issue-slot.scala:52:14] output io_iss_uop_fp_val, // @[issue-slot.scala:52:14] output [2:0] io_iss_uop_fp_rm, // @[issue-slot.scala:52:14] output [1:0] io_iss_uop_fp_typ, // @[issue-slot.scala:52:14] output io_iss_uop_xcpt_pf_if, // @[issue-slot.scala:52:14] output io_iss_uop_xcpt_ae_if, // @[issue-slot.scala:52:14] output io_iss_uop_xcpt_ma_if, // @[issue-slot.scala:52:14] output io_iss_uop_bp_debug_if, // @[issue-slot.scala:52:14] output io_iss_uop_bp_xcpt_if, // @[issue-slot.scala:52:14] output [2:0] io_iss_uop_debug_fsrc, // @[issue-slot.scala:52:14] output [2:0] io_iss_uop_debug_tsrc, // @[issue-slot.scala:52:14] input io_in_uop_valid, // @[issue-slot.scala:52:14] input [31:0] io_in_uop_bits_inst, // @[issue-slot.scala:52:14] input [31:0] io_in_uop_bits_debug_inst, // @[issue-slot.scala:52:14] input io_in_uop_bits_is_rvc, // @[issue-slot.scala:52:14] input [39:0] io_in_uop_bits_debug_pc, // @[issue-slot.scala:52:14] input io_in_uop_bits_iq_type_0, // @[issue-slot.scala:52:14] input io_in_uop_bits_iq_type_1, // @[issue-slot.scala:52:14] input io_in_uop_bits_iq_type_2, // @[issue-slot.scala:52:14] input io_in_uop_bits_iq_type_3, // @[issue-slot.scala:52:14] input io_in_uop_bits_fu_code_0, // @[issue-slot.scala:52:14] input io_in_uop_bits_fu_code_1, // @[issue-slot.scala:52:14] input io_in_uop_bits_fu_code_2, // @[issue-slot.scala:52:14] input io_in_uop_bits_fu_code_3, // @[issue-slot.scala:52:14] input io_in_uop_bits_fu_code_4, // @[issue-slot.scala:52:14] input io_in_uop_bits_fu_code_5, // @[issue-slot.scala:52:14] input io_in_uop_bits_fu_code_6, // @[issue-slot.scala:52:14] input io_in_uop_bits_fu_code_7, // @[issue-slot.scala:52:14] input io_in_uop_bits_fu_code_8, // @[issue-slot.scala:52:14] input io_in_uop_bits_fu_code_9, // @[issue-slot.scala:52:14] input io_in_uop_bits_iw_issued, // @[issue-slot.scala:52:14] input io_in_uop_bits_iw_p1_bypass_hint, // @[issue-slot.scala:52:14] input io_in_uop_bits_iw_p2_bypass_hint, // @[issue-slot.scala:52:14] input io_in_uop_bits_iw_p3_bypass_hint, // @[issue-slot.scala:52:14] input [1:0] io_in_uop_bits_dis_col_sel, // @[issue-slot.scala:52:14] input [11:0] io_in_uop_bits_br_mask, // @[issue-slot.scala:52:14] input [3:0] io_in_uop_bits_br_tag, // @[issue-slot.scala:52:14] input [3:0] io_in_uop_bits_br_type, // @[issue-slot.scala:52:14] input io_in_uop_bits_is_sfb, // @[issue-slot.scala:52:14] input io_in_uop_bits_is_fence, // @[issue-slot.scala:52:14] input io_in_uop_bits_is_fencei, // @[issue-slot.scala:52:14] input io_in_uop_bits_is_sfence, // @[issue-slot.scala:52:14] input io_in_uop_bits_is_amo, // @[issue-slot.scala:52:14] input io_in_uop_bits_is_eret, // @[issue-slot.scala:52:14] input io_in_uop_bits_is_sys_pc2epc, // @[issue-slot.scala:52:14] input io_in_uop_bits_is_rocc, // @[issue-slot.scala:52:14] input io_in_uop_bits_is_mov, // @[issue-slot.scala:52:14] input [4:0] io_in_uop_bits_ftq_idx, // @[issue-slot.scala:52:14] input io_in_uop_bits_edge_inst, // @[issue-slot.scala:52:14] input [5:0] io_in_uop_bits_pc_lob, // @[issue-slot.scala:52:14] input io_in_uop_bits_taken, // @[issue-slot.scala:52:14] input io_in_uop_bits_imm_rename, // @[issue-slot.scala:52:14] input [2:0] io_in_uop_bits_imm_sel, // @[issue-slot.scala:52:14] input [4:0] io_in_uop_bits_pimm, // @[issue-slot.scala:52:14] input [19:0] io_in_uop_bits_imm_packed, // @[issue-slot.scala:52:14] input [1:0] io_in_uop_bits_op1_sel, // @[issue-slot.scala:52:14] input [2:0] io_in_uop_bits_op2_sel, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_ldst, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_wen, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_ren1, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_ren2, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_ren3, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_swap12, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_swap23, // @[issue-slot.scala:52:14] input [1:0] io_in_uop_bits_fp_ctrl_typeTagIn, // @[issue-slot.scala:52:14] input [1:0] io_in_uop_bits_fp_ctrl_typeTagOut, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_fromint, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_toint, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_fastpipe, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_fma, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_div, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_sqrt, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_wflags, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_ctrl_vec, // @[issue-slot.scala:52:14] input [5:0] io_in_uop_bits_rob_idx, // @[issue-slot.scala:52:14] input [3:0] io_in_uop_bits_ldq_idx, // @[issue-slot.scala:52:14] input [3:0] io_in_uop_bits_stq_idx, // @[issue-slot.scala:52:14] input [1:0] io_in_uop_bits_rxq_idx, // @[issue-slot.scala:52:14] input [6:0] io_in_uop_bits_pdst, // @[issue-slot.scala:52:14] input [6:0] io_in_uop_bits_prs1, // @[issue-slot.scala:52:14] input [6:0] io_in_uop_bits_prs2, // @[issue-slot.scala:52:14] input [6:0] io_in_uop_bits_prs3, // @[issue-slot.scala:52:14] input [4:0] io_in_uop_bits_ppred, // @[issue-slot.scala:52:14] input io_in_uop_bits_prs1_busy, // @[issue-slot.scala:52:14] input io_in_uop_bits_prs2_busy, // @[issue-slot.scala:52:14] input io_in_uop_bits_prs3_busy, // @[issue-slot.scala:52:14] input io_in_uop_bits_ppred_busy, // @[issue-slot.scala:52:14] input [6:0] io_in_uop_bits_stale_pdst, // @[issue-slot.scala:52:14] input io_in_uop_bits_exception, // @[issue-slot.scala:52:14] input [63:0] io_in_uop_bits_exc_cause, // @[issue-slot.scala:52:14] input [4:0] io_in_uop_bits_mem_cmd, // @[issue-slot.scala:52:14] input [1:0] io_in_uop_bits_mem_size, // @[issue-slot.scala:52:14] input io_in_uop_bits_mem_signed, // @[issue-slot.scala:52:14] input io_in_uop_bits_uses_ldq, // @[issue-slot.scala:52:14] input io_in_uop_bits_uses_stq, // @[issue-slot.scala:52:14] input io_in_uop_bits_is_unique, // @[issue-slot.scala:52:14] input io_in_uop_bits_flush_on_commit, // @[issue-slot.scala:52:14] input [2:0] io_in_uop_bits_csr_cmd, // @[issue-slot.scala:52:14] input io_in_uop_bits_ldst_is_rs1, // @[issue-slot.scala:52:14] input [5:0] io_in_uop_bits_ldst, // @[issue-slot.scala:52:14] input [5:0] io_in_uop_bits_lrs1, // @[issue-slot.scala:52:14] input [5:0] io_in_uop_bits_lrs2, // @[issue-slot.scala:52:14] input [5:0] io_in_uop_bits_lrs3, // @[issue-slot.scala:52:14] input [1:0] io_in_uop_bits_dst_rtype, // @[issue-slot.scala:52:14] input [1:0] io_in_uop_bits_lrs1_rtype, // @[issue-slot.scala:52:14] input [1:0] io_in_uop_bits_lrs2_rtype, // @[issue-slot.scala:52:14] input io_in_uop_bits_frs3_en, // @[issue-slot.scala:52:14] input io_in_uop_bits_fcn_dw, // @[issue-slot.scala:52:14] input [4:0] io_in_uop_bits_fcn_op, // @[issue-slot.scala:52:14] input io_in_uop_bits_fp_val, // @[issue-slot.scala:52:14] input [2:0] io_in_uop_bits_fp_rm, // @[issue-slot.scala:52:14] input [1:0] io_in_uop_bits_fp_typ, // @[issue-slot.scala:52:14] input io_in_uop_bits_xcpt_pf_if, // @[issue-slot.scala:52:14] input io_in_uop_bits_xcpt_ae_if, // @[issue-slot.scala:52:14] input io_in_uop_bits_xcpt_ma_if, // @[issue-slot.scala:52:14] input io_in_uop_bits_bp_debug_if, // @[issue-slot.scala:52:14] input io_in_uop_bits_bp_xcpt_if, // @[issue-slot.scala:52:14] input [2:0] io_in_uop_bits_debug_fsrc, // @[issue-slot.scala:52:14] input [2:0] io_in_uop_bits_debug_tsrc, // @[issue-slot.scala:52:14] output [31:0] io_out_uop_inst, // @[issue-slot.scala:52:14] output [31:0] io_out_uop_debug_inst, // @[issue-slot.scala:52:14] output io_out_uop_is_rvc, // @[issue-slot.scala:52:14] output [39:0] io_out_uop_debug_pc, // @[issue-slot.scala:52:14] output io_out_uop_iq_type_0, // @[issue-slot.scala:52:14] output io_out_uop_iq_type_1, // @[issue-slot.scala:52:14] output io_out_uop_iq_type_2, // @[issue-slot.scala:52:14] output io_out_uop_iq_type_3, // @[issue-slot.scala:52:14] output io_out_uop_fu_code_0, // @[issue-slot.scala:52:14] output io_out_uop_fu_code_1, // @[issue-slot.scala:52:14] output io_out_uop_fu_code_2, // @[issue-slot.scala:52:14] output io_out_uop_fu_code_3, // @[issue-slot.scala:52:14] output io_out_uop_fu_code_4, // @[issue-slot.scala:52:14] output io_out_uop_fu_code_5, // @[issue-slot.scala:52:14] output io_out_uop_fu_code_6, // @[issue-slot.scala:52:14] output io_out_uop_fu_code_7, // @[issue-slot.scala:52:14] output io_out_uop_fu_code_8, // @[issue-slot.scala:52:14] output io_out_uop_fu_code_9, // @[issue-slot.scala:52:14] output io_out_uop_iw_issued, // @[issue-slot.scala:52:14] output io_out_uop_iw_p1_bypass_hint, // @[issue-slot.scala:52:14] output io_out_uop_iw_p2_bypass_hint, // @[issue-slot.scala:52:14] output io_out_uop_iw_p3_bypass_hint, // @[issue-slot.scala:52:14] output [1:0] io_out_uop_dis_col_sel, // @[issue-slot.scala:52:14] output [11:0] io_out_uop_br_mask, // @[issue-slot.scala:52:14] output [3:0] io_out_uop_br_tag, // @[issue-slot.scala:52:14] output [3:0] io_out_uop_br_type, // @[issue-slot.scala:52:14] output io_out_uop_is_sfb, // @[issue-slot.scala:52:14] output io_out_uop_is_fence, // @[issue-slot.scala:52:14] output io_out_uop_is_fencei, // @[issue-slot.scala:52:14] output io_out_uop_is_sfence, // @[issue-slot.scala:52:14] output io_out_uop_is_amo, // @[issue-slot.scala:52:14] output io_out_uop_is_eret, // @[issue-slot.scala:52:14] output io_out_uop_is_sys_pc2epc, // @[issue-slot.scala:52:14] output io_out_uop_is_rocc, // @[issue-slot.scala:52:14] output io_out_uop_is_mov, // @[issue-slot.scala:52:14] output [4:0] io_out_uop_ftq_idx, // @[issue-slot.scala:52:14] output io_out_uop_edge_inst, // @[issue-slot.scala:52:14] output [5:0] io_out_uop_pc_lob, // @[issue-slot.scala:52:14] output io_out_uop_taken, // @[issue-slot.scala:52:14] output io_out_uop_imm_rename, // @[issue-slot.scala:52:14] output [2:0] io_out_uop_imm_sel, // @[issue-slot.scala:52:14] output [4:0] io_out_uop_pimm, // @[issue-slot.scala:52:14] output [19:0] io_out_uop_imm_packed, // @[issue-slot.scala:52:14] output [1:0] io_out_uop_op1_sel, // @[issue-slot.scala:52:14] output [2:0] io_out_uop_op2_sel, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_ldst, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_wen, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_ren1, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_ren2, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_ren3, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_swap12, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_swap23, // @[issue-slot.scala:52:14] output [1:0] io_out_uop_fp_ctrl_typeTagIn, // @[issue-slot.scala:52:14] output [1:0] io_out_uop_fp_ctrl_typeTagOut, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_fromint, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_toint, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_fastpipe, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_fma, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_div, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_sqrt, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_wflags, // @[issue-slot.scala:52:14] output io_out_uop_fp_ctrl_vec, // @[issue-slot.scala:52:14] output [5:0] io_out_uop_rob_idx, // @[issue-slot.scala:52:14] output [3:0] io_out_uop_ldq_idx, // @[issue-slot.scala:52:14] output [3:0] io_out_uop_stq_idx, // @[issue-slot.scala:52:14] output [1:0] io_out_uop_rxq_idx, // @[issue-slot.scala:52:14] output [6:0] io_out_uop_pdst, // @[issue-slot.scala:52:14] output [6:0] io_out_uop_prs1, // @[issue-slot.scala:52:14] output [6:0] io_out_uop_prs2, // @[issue-slot.scala:52:14] output [6:0] io_out_uop_prs3, // @[issue-slot.scala:52:14] output [4:0] io_out_uop_ppred, // @[issue-slot.scala:52:14] output io_out_uop_prs1_busy, // @[issue-slot.scala:52:14] output io_out_uop_prs2_busy, // @[issue-slot.scala:52:14] output io_out_uop_prs3_busy, // @[issue-slot.scala:52:14] output io_out_uop_ppred_busy, // @[issue-slot.scala:52:14] output [6:0] io_out_uop_stale_pdst, // @[issue-slot.scala:52:14] output io_out_uop_exception, // @[issue-slot.scala:52:14] output [63:0] io_out_uop_exc_cause, // @[issue-slot.scala:52:14] output [4:0] io_out_uop_mem_cmd, // @[issue-slot.scala:52:14] output [1:0] io_out_uop_mem_size, // @[issue-slot.scala:52:14] output io_out_uop_mem_signed, // @[issue-slot.scala:52:14] output io_out_uop_uses_ldq, // @[issue-slot.scala:52:14] output io_out_uop_uses_stq, // @[issue-slot.scala:52:14] output io_out_uop_is_unique, // @[issue-slot.scala:52:14] output io_out_uop_flush_on_commit, // @[issue-slot.scala:52:14] output [2:0] io_out_uop_csr_cmd, // @[issue-slot.scala:52:14] output io_out_uop_ldst_is_rs1, // @[issue-slot.scala:52:14] output [5:0] io_out_uop_ldst, // @[issue-slot.scala:52:14] output [5:0] io_out_uop_lrs1, // @[issue-slot.scala:52:14] output [5:0] io_out_uop_lrs2, // @[issue-slot.scala:52:14] output [5:0] io_out_uop_lrs3, // @[issue-slot.scala:52:14] output [1:0] io_out_uop_dst_rtype, // @[issue-slot.scala:52:14] output [1:0] io_out_uop_lrs1_rtype, // @[issue-slot.scala:52:14] output [1:0] io_out_uop_lrs2_rtype, // @[issue-slot.scala:52:14] output io_out_uop_frs3_en, // @[issue-slot.scala:52:14] output io_out_uop_fcn_dw, // @[issue-slot.scala:52:14] output [4:0] io_out_uop_fcn_op, // @[issue-slot.scala:52:14] output io_out_uop_fp_val, // @[issue-slot.scala:52:14] output [2:0] io_out_uop_fp_rm, // @[issue-slot.scala:52:14] output [1:0] io_out_uop_fp_typ, // @[issue-slot.scala:52:14] output io_out_uop_xcpt_pf_if, // @[issue-slot.scala:52:14] output io_out_uop_xcpt_ae_if, // @[issue-slot.scala:52:14] output io_out_uop_xcpt_ma_if, // @[issue-slot.scala:52:14] output io_out_uop_bp_debug_if, // @[issue-slot.scala:52:14] output io_out_uop_bp_xcpt_if, // @[issue-slot.scala:52:14] output [2:0] io_out_uop_debug_fsrc, // @[issue-slot.scala:52:14] output [2:0] io_out_uop_debug_tsrc, // @[issue-slot.scala:52:14] input [11:0] io_brupdate_b1_resolve_mask, // @[issue-slot.scala:52:14] input [11:0] io_brupdate_b1_mispredict_mask, // @[issue-slot.scala:52:14] input [31:0] io_brupdate_b2_uop_inst, // @[issue-slot.scala:52:14] input [31:0] io_brupdate_b2_uop_debug_inst, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_is_rvc, // @[issue-slot.scala:52:14] input [39:0] io_brupdate_b2_uop_debug_pc, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_iq_type_0, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_iq_type_1, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_iq_type_2, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_iq_type_3, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fu_code_0, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fu_code_1, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fu_code_2, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fu_code_3, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fu_code_4, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fu_code_5, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fu_code_6, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fu_code_7, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fu_code_8, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fu_code_9, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_iw_issued, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_iw_issued_partial_agen, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_iw_issued_partial_dgen, // @[issue-slot.scala:52:14] input [1:0] io_brupdate_b2_uop_iw_p1_speculative_child, // @[issue-slot.scala:52:14] input [1:0] io_brupdate_b2_uop_iw_p2_speculative_child, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_iw_p1_bypass_hint, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_iw_p2_bypass_hint, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_iw_p3_bypass_hint, // @[issue-slot.scala:52:14] input [1:0] io_brupdate_b2_uop_dis_col_sel, // @[issue-slot.scala:52:14] input [11:0] io_brupdate_b2_uop_br_mask, // @[issue-slot.scala:52:14] input [3:0] io_brupdate_b2_uop_br_tag, // @[issue-slot.scala:52:14] input [3:0] io_brupdate_b2_uop_br_type, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_is_sfb, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_is_fence, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_is_fencei, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_is_sfence, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_is_amo, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_is_eret, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_is_sys_pc2epc, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_is_rocc, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_is_mov, // @[issue-slot.scala:52:14] input [4:0] io_brupdate_b2_uop_ftq_idx, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_edge_inst, // @[issue-slot.scala:52:14] input [5:0] io_brupdate_b2_uop_pc_lob, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_taken, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_imm_rename, // @[issue-slot.scala:52:14] input [2:0] io_brupdate_b2_uop_imm_sel, // @[issue-slot.scala:52:14] input [4:0] io_brupdate_b2_uop_pimm, // @[issue-slot.scala:52:14] input [19:0] io_brupdate_b2_uop_imm_packed, // @[issue-slot.scala:52:14] input [1:0] io_brupdate_b2_uop_op1_sel, // @[issue-slot.scala:52:14] input [2:0] io_brupdate_b2_uop_op2_sel, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_ldst, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_wen, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_ren1, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_ren2, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_ren3, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_swap12, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_swap23, // @[issue-slot.scala:52:14] input [1:0] io_brupdate_b2_uop_fp_ctrl_typeTagIn, // @[issue-slot.scala:52:14] input [1:0] io_brupdate_b2_uop_fp_ctrl_typeTagOut, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_fromint, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_toint, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_fastpipe, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_fma, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_div, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_sqrt, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_wflags, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_ctrl_vec, // @[issue-slot.scala:52:14] input [5:0] io_brupdate_b2_uop_rob_idx, // @[issue-slot.scala:52:14] input [3:0] io_brupdate_b2_uop_ldq_idx, // @[issue-slot.scala:52:14] input [3:0] io_brupdate_b2_uop_stq_idx, // @[issue-slot.scala:52:14] input [1:0] io_brupdate_b2_uop_rxq_idx, // @[issue-slot.scala:52:14] input [6:0] io_brupdate_b2_uop_pdst, // @[issue-slot.scala:52:14] input [6:0] io_brupdate_b2_uop_prs1, // @[issue-slot.scala:52:14] input [6:0] io_brupdate_b2_uop_prs2, // @[issue-slot.scala:52:14] input [6:0] io_brupdate_b2_uop_prs3, // @[issue-slot.scala:52:14] input [4:0] io_brupdate_b2_uop_ppred, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_prs1_busy, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_prs2_busy, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_prs3_busy, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_ppred_busy, // @[issue-slot.scala:52:14] input [6:0] io_brupdate_b2_uop_stale_pdst, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_exception, // @[issue-slot.scala:52:14] input [63:0] io_brupdate_b2_uop_exc_cause, // @[issue-slot.scala:52:14] input [4:0] io_brupdate_b2_uop_mem_cmd, // @[issue-slot.scala:52:14] input [1:0] io_brupdate_b2_uop_mem_size, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_mem_signed, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_uses_ldq, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_uses_stq, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_is_unique, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_flush_on_commit, // @[issue-slot.scala:52:14] input [2:0] io_brupdate_b2_uop_csr_cmd, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_ldst_is_rs1, // @[issue-slot.scala:52:14] input [5:0] io_brupdate_b2_uop_ldst, // @[issue-slot.scala:52:14] input [5:0] io_brupdate_b2_uop_lrs1, // @[issue-slot.scala:52:14] input [5:0] io_brupdate_b2_uop_lrs2, // @[issue-slot.scala:52:14] input [5:0] io_brupdate_b2_uop_lrs3, // @[issue-slot.scala:52:14] input [1:0] io_brupdate_b2_uop_dst_rtype, // @[issue-slot.scala:52:14] input [1:0] io_brupdate_b2_uop_lrs1_rtype, // @[issue-slot.scala:52:14] input [1:0] io_brupdate_b2_uop_lrs2_rtype, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_frs3_en, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fcn_dw, // @[issue-slot.scala:52:14] input [4:0] io_brupdate_b2_uop_fcn_op, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_fp_val, // @[issue-slot.scala:52:14] input [2:0] io_brupdate_b2_uop_fp_rm, // @[issue-slot.scala:52:14] input [1:0] io_brupdate_b2_uop_fp_typ, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_xcpt_pf_if, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_xcpt_ae_if, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_xcpt_ma_if, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_bp_debug_if, // @[issue-slot.scala:52:14] input io_brupdate_b2_uop_bp_xcpt_if, // @[issue-slot.scala:52:14] input [2:0] io_brupdate_b2_uop_debug_fsrc, // @[issue-slot.scala:52:14] input [2:0] io_brupdate_b2_uop_debug_tsrc, // @[issue-slot.scala:52:14] input io_brupdate_b2_mispredict, // @[issue-slot.scala:52:14] input io_brupdate_b2_taken, // @[issue-slot.scala:52:14] input [2:0] io_brupdate_b2_cfi_type, // @[issue-slot.scala:52:14] input [1:0] io_brupdate_b2_pc_sel, // @[issue-slot.scala:52:14] input [39:0] io_brupdate_b2_jalr_target, // @[issue-slot.scala:52:14] input [20:0] io_brupdate_b2_target_offset, // @[issue-slot.scala:52:14] input io_kill, // @[issue-slot.scala:52:14] input io_clear, // @[issue-slot.scala:52:14] input io_squash_grant, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_valid, // @[issue-slot.scala:52:14] input [31:0] io_wakeup_ports_0_bits_uop_inst, // @[issue-slot.scala:52:14] input [31:0] io_wakeup_ports_0_bits_uop_debug_inst, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_is_rvc, // @[issue-slot.scala:52:14] input [39:0] io_wakeup_ports_0_bits_uop_debug_pc, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_iq_type_0, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_iq_type_1, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_iq_type_2, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_iq_type_3, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fu_code_0, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fu_code_1, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fu_code_2, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fu_code_3, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fu_code_4, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fu_code_5, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fu_code_6, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fu_code_7, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fu_code_8, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fu_code_9, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_iw_issued, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_iw_issued_partial_agen, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_iw_issued_partial_dgen, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_0_bits_uop_iw_p1_speculative_child, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_0_bits_uop_iw_p2_speculative_child, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_iw_p1_bypass_hint, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_iw_p2_bypass_hint, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_iw_p3_bypass_hint, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_0_bits_uop_dis_col_sel, // @[issue-slot.scala:52:14] input [11:0] io_wakeup_ports_0_bits_uop_br_mask, // @[issue-slot.scala:52:14] input [3:0] io_wakeup_ports_0_bits_uop_br_tag, // @[issue-slot.scala:52:14] input [3:0] io_wakeup_ports_0_bits_uop_br_type, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_is_sfb, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_is_fence, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_is_fencei, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_is_sfence, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_is_amo, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_is_eret, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_is_sys_pc2epc, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_is_rocc, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_is_mov, // @[issue-slot.scala:52:14] input [4:0] io_wakeup_ports_0_bits_uop_ftq_idx, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_edge_inst, // @[issue-slot.scala:52:14] input [5:0] io_wakeup_ports_0_bits_uop_pc_lob, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_taken, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_imm_rename, // @[issue-slot.scala:52:14] input [2:0] io_wakeup_ports_0_bits_uop_imm_sel, // @[issue-slot.scala:52:14] input [4:0] io_wakeup_ports_0_bits_uop_pimm, // @[issue-slot.scala:52:14] input [19:0] io_wakeup_ports_0_bits_uop_imm_packed, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_0_bits_uop_op1_sel, // @[issue-slot.scala:52:14] input [2:0] io_wakeup_ports_0_bits_uop_op2_sel, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_ldst, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_wen, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_ren1, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_ren2, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_ren3, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_swap12, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_swap23, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_0_bits_uop_fp_ctrl_typeTagIn, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_0_bits_uop_fp_ctrl_typeTagOut, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_fromint, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_toint, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_fastpipe, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_fma, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_div, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_sqrt, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_wflags, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_ctrl_vec, // @[issue-slot.scala:52:14] input [5:0] io_wakeup_ports_0_bits_uop_rob_idx, // @[issue-slot.scala:52:14] input [3:0] io_wakeup_ports_0_bits_uop_ldq_idx, // @[issue-slot.scala:52:14] input [3:0] io_wakeup_ports_0_bits_uop_stq_idx, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_0_bits_uop_rxq_idx, // @[issue-slot.scala:52:14] input [6:0] io_wakeup_ports_0_bits_uop_pdst, // @[issue-slot.scala:52:14] input [6:0] io_wakeup_ports_0_bits_uop_prs1, // @[issue-slot.scala:52:14] input [6:0] io_wakeup_ports_0_bits_uop_prs2, // @[issue-slot.scala:52:14] input [6:0] io_wakeup_ports_0_bits_uop_prs3, // @[issue-slot.scala:52:14] input [4:0] io_wakeup_ports_0_bits_uop_ppred, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_prs1_busy, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_prs2_busy, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_prs3_busy, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_ppred_busy, // @[issue-slot.scala:52:14] input [6:0] io_wakeup_ports_0_bits_uop_stale_pdst, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_exception, // @[issue-slot.scala:52:14] input [63:0] io_wakeup_ports_0_bits_uop_exc_cause, // @[issue-slot.scala:52:14] input [4:0] io_wakeup_ports_0_bits_uop_mem_cmd, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_0_bits_uop_mem_size, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_mem_signed, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_uses_ldq, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_uses_stq, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_is_unique, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_flush_on_commit, // @[issue-slot.scala:52:14] input [2:0] io_wakeup_ports_0_bits_uop_csr_cmd, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_ldst_is_rs1, // @[issue-slot.scala:52:14] input [5:0] io_wakeup_ports_0_bits_uop_ldst, // @[issue-slot.scala:52:14] input [5:0] io_wakeup_ports_0_bits_uop_lrs1, // @[issue-slot.scala:52:14] input [5:0] io_wakeup_ports_0_bits_uop_lrs2, // @[issue-slot.scala:52:14] input [5:0] io_wakeup_ports_0_bits_uop_lrs3, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_0_bits_uop_dst_rtype, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_0_bits_uop_lrs1_rtype, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_0_bits_uop_lrs2_rtype, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_frs3_en, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fcn_dw, // @[issue-slot.scala:52:14] input [4:0] io_wakeup_ports_0_bits_uop_fcn_op, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_fp_val, // @[issue-slot.scala:52:14] input [2:0] io_wakeup_ports_0_bits_uop_fp_rm, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_0_bits_uop_fp_typ, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_xcpt_pf_if, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_xcpt_ae_if, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_xcpt_ma_if, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_bp_debug_if, // @[issue-slot.scala:52:14] input io_wakeup_ports_0_bits_uop_bp_xcpt_if, // @[issue-slot.scala:52:14] input [2:0] io_wakeup_ports_0_bits_uop_debug_fsrc, // @[issue-slot.scala:52:14] input [2:0] io_wakeup_ports_0_bits_uop_debug_tsrc, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_valid, // @[issue-slot.scala:52:14] input [31:0] io_wakeup_ports_1_bits_uop_inst, // @[issue-slot.scala:52:14] input [31:0] io_wakeup_ports_1_bits_uop_debug_inst, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_is_rvc, // @[issue-slot.scala:52:14] input [39:0] io_wakeup_ports_1_bits_uop_debug_pc, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_iq_type_0, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_iq_type_1, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_iq_type_2, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_iq_type_3, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fu_code_0, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fu_code_1, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fu_code_2, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fu_code_3, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fu_code_4, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fu_code_5, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fu_code_6, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fu_code_7, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fu_code_8, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fu_code_9, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_iw_issued, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_iw_issued_partial_agen, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_iw_issued_partial_dgen, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_1_bits_uop_iw_p1_speculative_child, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_1_bits_uop_iw_p2_speculative_child, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_iw_p1_bypass_hint, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_iw_p2_bypass_hint, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_iw_p3_bypass_hint, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_1_bits_uop_dis_col_sel, // @[issue-slot.scala:52:14] input [11:0] io_wakeup_ports_1_bits_uop_br_mask, // @[issue-slot.scala:52:14] input [3:0] io_wakeup_ports_1_bits_uop_br_tag, // @[issue-slot.scala:52:14] input [3:0] io_wakeup_ports_1_bits_uop_br_type, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_is_sfb, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_is_fence, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_is_fencei, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_is_sfence, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_is_amo, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_is_eret, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_is_sys_pc2epc, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_is_rocc, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_is_mov, // @[issue-slot.scala:52:14] input [4:0] io_wakeup_ports_1_bits_uop_ftq_idx, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_edge_inst, // @[issue-slot.scala:52:14] input [5:0] io_wakeup_ports_1_bits_uop_pc_lob, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_taken, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_imm_rename, // @[issue-slot.scala:52:14] input [2:0] io_wakeup_ports_1_bits_uop_imm_sel, // @[issue-slot.scala:52:14] input [4:0] io_wakeup_ports_1_bits_uop_pimm, // @[issue-slot.scala:52:14] input [19:0] io_wakeup_ports_1_bits_uop_imm_packed, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_1_bits_uop_op1_sel, // @[issue-slot.scala:52:14] input [2:0] io_wakeup_ports_1_bits_uop_op2_sel, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_ldst, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_wen, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_ren1, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_ren2, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_ren3, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_swap12, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_swap23, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_1_bits_uop_fp_ctrl_typeTagIn, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_1_bits_uop_fp_ctrl_typeTagOut, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_fromint, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_toint, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_fastpipe, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_fma, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_div, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_sqrt, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_wflags, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_ctrl_vec, // @[issue-slot.scala:52:14] input [5:0] io_wakeup_ports_1_bits_uop_rob_idx, // @[issue-slot.scala:52:14] input [3:0] io_wakeup_ports_1_bits_uop_ldq_idx, // @[issue-slot.scala:52:14] input [3:0] io_wakeup_ports_1_bits_uop_stq_idx, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_1_bits_uop_rxq_idx, // @[issue-slot.scala:52:14] input [6:0] io_wakeup_ports_1_bits_uop_pdst, // @[issue-slot.scala:52:14] input [6:0] io_wakeup_ports_1_bits_uop_prs1, // @[issue-slot.scala:52:14] input [6:0] io_wakeup_ports_1_bits_uop_prs2, // @[issue-slot.scala:52:14] input [6:0] io_wakeup_ports_1_bits_uop_prs3, // @[issue-slot.scala:52:14] input [4:0] io_wakeup_ports_1_bits_uop_ppred, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_prs1_busy, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_prs2_busy, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_prs3_busy, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_ppred_busy, // @[issue-slot.scala:52:14] input [6:0] io_wakeup_ports_1_bits_uop_stale_pdst, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_exception, // @[issue-slot.scala:52:14] input [63:0] io_wakeup_ports_1_bits_uop_exc_cause, // @[issue-slot.scala:52:14] input [4:0] io_wakeup_ports_1_bits_uop_mem_cmd, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_1_bits_uop_mem_size, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_mem_signed, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_uses_ldq, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_uses_stq, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_is_unique, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_flush_on_commit, // @[issue-slot.scala:52:14] input [2:0] io_wakeup_ports_1_bits_uop_csr_cmd, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_ldst_is_rs1, // @[issue-slot.scala:52:14] input [5:0] io_wakeup_ports_1_bits_uop_ldst, // @[issue-slot.scala:52:14] input [5:0] io_wakeup_ports_1_bits_uop_lrs1, // @[issue-slot.scala:52:14] input [5:0] io_wakeup_ports_1_bits_uop_lrs2, // @[issue-slot.scala:52:14] input [5:0] io_wakeup_ports_1_bits_uop_lrs3, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_1_bits_uop_dst_rtype, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_1_bits_uop_lrs1_rtype, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_1_bits_uop_lrs2_rtype, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_frs3_en, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fcn_dw, // @[issue-slot.scala:52:14] input [4:0] io_wakeup_ports_1_bits_uop_fcn_op, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_fp_val, // @[issue-slot.scala:52:14] input [2:0] io_wakeup_ports_1_bits_uop_fp_rm, // @[issue-slot.scala:52:14] input [1:0] io_wakeup_ports_1_bits_uop_fp_typ, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_xcpt_pf_if, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_xcpt_ae_if, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_xcpt_ma_if, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_bp_debug_if, // @[issue-slot.scala:52:14] input io_wakeup_ports_1_bits_uop_bp_xcpt_if, // @[issue-slot.scala:52:14] input [2:0] io_wakeup_ports_1_bits_uop_debug_fsrc, // @[issue-slot.scala:52:14] input [2:0] io_wakeup_ports_1_bits_uop_debug_tsrc // @[issue-slot.scala:52:14] ); wire [11:0] next_uop_out_br_mask; // @[util.scala:104:23] wire io_grant_0 = io_grant; // @[issue-slot.scala:49:7] wire io_in_uop_valid_0 = io_in_uop_valid; // @[issue-slot.scala:49:7] wire [31:0] io_in_uop_bits_inst_0 = io_in_uop_bits_inst; // @[issue-slot.scala:49:7] wire [31:0] io_in_uop_bits_debug_inst_0 = io_in_uop_bits_debug_inst; // @[issue-slot.scala:49:7] wire io_in_uop_bits_is_rvc_0 = io_in_uop_bits_is_rvc; // @[issue-slot.scala:49:7] wire [39:0] io_in_uop_bits_debug_pc_0 = io_in_uop_bits_debug_pc; // @[issue-slot.scala:49:7] wire io_in_uop_bits_iq_type_0_0 = io_in_uop_bits_iq_type_0; // @[issue-slot.scala:49:7] wire io_in_uop_bits_iq_type_1_0 = io_in_uop_bits_iq_type_1; // @[issue-slot.scala:49:7] wire io_in_uop_bits_iq_type_2_0 = io_in_uop_bits_iq_type_2; // @[issue-slot.scala:49:7] wire io_in_uop_bits_iq_type_3_0 = io_in_uop_bits_iq_type_3; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fu_code_0_0 = io_in_uop_bits_fu_code_0; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fu_code_1_0 = io_in_uop_bits_fu_code_1; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fu_code_2_0 = io_in_uop_bits_fu_code_2; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fu_code_3_0 = io_in_uop_bits_fu_code_3; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fu_code_4_0 = io_in_uop_bits_fu_code_4; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fu_code_5_0 = io_in_uop_bits_fu_code_5; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fu_code_6_0 = io_in_uop_bits_fu_code_6; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fu_code_7_0 = io_in_uop_bits_fu_code_7; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fu_code_8_0 = io_in_uop_bits_fu_code_8; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fu_code_9_0 = io_in_uop_bits_fu_code_9; // @[issue-slot.scala:49:7] wire io_in_uop_bits_iw_issued_0 = io_in_uop_bits_iw_issued; // @[issue-slot.scala:49:7] wire io_in_uop_bits_iw_p1_bypass_hint_0 = io_in_uop_bits_iw_p1_bypass_hint; // @[issue-slot.scala:49:7] wire io_in_uop_bits_iw_p2_bypass_hint_0 = io_in_uop_bits_iw_p2_bypass_hint; // @[issue-slot.scala:49:7] wire io_in_uop_bits_iw_p3_bypass_hint_0 = io_in_uop_bits_iw_p3_bypass_hint; // @[issue-slot.scala:49:7] wire [1:0] io_in_uop_bits_dis_col_sel_0 = io_in_uop_bits_dis_col_sel; // @[issue-slot.scala:49:7] wire [11:0] io_in_uop_bits_br_mask_0 = io_in_uop_bits_br_mask; // @[issue-slot.scala:49:7] wire [3:0] io_in_uop_bits_br_tag_0 = io_in_uop_bits_br_tag; // @[issue-slot.scala:49:7] wire [3:0] io_in_uop_bits_br_type_0 = io_in_uop_bits_br_type; // @[issue-slot.scala:49:7] wire io_in_uop_bits_is_sfb_0 = io_in_uop_bits_is_sfb; // @[issue-slot.scala:49:7] wire io_in_uop_bits_is_fence_0 = io_in_uop_bits_is_fence; // @[issue-slot.scala:49:7] wire io_in_uop_bits_is_fencei_0 = io_in_uop_bits_is_fencei; // @[issue-slot.scala:49:7] wire io_in_uop_bits_is_sfence_0 = io_in_uop_bits_is_sfence; // @[issue-slot.scala:49:7] wire io_in_uop_bits_is_amo_0 = io_in_uop_bits_is_amo; // @[issue-slot.scala:49:7] wire io_in_uop_bits_is_eret_0 = io_in_uop_bits_is_eret; // @[issue-slot.scala:49:7] wire io_in_uop_bits_is_sys_pc2epc_0 = io_in_uop_bits_is_sys_pc2epc; // @[issue-slot.scala:49:7] wire io_in_uop_bits_is_rocc_0 = io_in_uop_bits_is_rocc; // @[issue-slot.scala:49:7] wire io_in_uop_bits_is_mov_0 = io_in_uop_bits_is_mov; // @[issue-slot.scala:49:7] wire [4:0] io_in_uop_bits_ftq_idx_0 = io_in_uop_bits_ftq_idx; // @[issue-slot.scala:49:7] wire io_in_uop_bits_edge_inst_0 = io_in_uop_bits_edge_inst; // @[issue-slot.scala:49:7] wire [5:0] io_in_uop_bits_pc_lob_0 = io_in_uop_bits_pc_lob; // @[issue-slot.scala:49:7] wire io_in_uop_bits_taken_0 = io_in_uop_bits_taken; // @[issue-slot.scala:49:7] wire io_in_uop_bits_imm_rename_0 = io_in_uop_bits_imm_rename; // @[issue-slot.scala:49:7] wire [2:0] io_in_uop_bits_imm_sel_0 = io_in_uop_bits_imm_sel; // @[issue-slot.scala:49:7] wire [4:0] io_in_uop_bits_pimm_0 = io_in_uop_bits_pimm; // @[issue-slot.scala:49:7] wire [19:0] io_in_uop_bits_imm_packed_0 = io_in_uop_bits_imm_packed; // @[issue-slot.scala:49:7] wire [1:0] io_in_uop_bits_op1_sel_0 = io_in_uop_bits_op1_sel; // @[issue-slot.scala:49:7] wire [2:0] io_in_uop_bits_op2_sel_0 = io_in_uop_bits_op2_sel; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_ldst_0 = io_in_uop_bits_fp_ctrl_ldst; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_wen_0 = io_in_uop_bits_fp_ctrl_wen; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_ren1_0 = io_in_uop_bits_fp_ctrl_ren1; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_ren2_0 = io_in_uop_bits_fp_ctrl_ren2; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_ren3_0 = io_in_uop_bits_fp_ctrl_ren3; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_swap12_0 = io_in_uop_bits_fp_ctrl_swap12; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_swap23_0 = io_in_uop_bits_fp_ctrl_swap23; // @[issue-slot.scala:49:7] wire [1:0] io_in_uop_bits_fp_ctrl_typeTagIn_0 = io_in_uop_bits_fp_ctrl_typeTagIn; // @[issue-slot.scala:49:7] wire [1:0] io_in_uop_bits_fp_ctrl_typeTagOut_0 = io_in_uop_bits_fp_ctrl_typeTagOut; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_fromint_0 = io_in_uop_bits_fp_ctrl_fromint; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_toint_0 = io_in_uop_bits_fp_ctrl_toint; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_fastpipe_0 = io_in_uop_bits_fp_ctrl_fastpipe; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_fma_0 = io_in_uop_bits_fp_ctrl_fma; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_div_0 = io_in_uop_bits_fp_ctrl_div; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_sqrt_0 = io_in_uop_bits_fp_ctrl_sqrt; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_wflags_0 = io_in_uop_bits_fp_ctrl_wflags; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_ctrl_vec_0 = io_in_uop_bits_fp_ctrl_vec; // @[issue-slot.scala:49:7] wire [5:0] io_in_uop_bits_rob_idx_0 = io_in_uop_bits_rob_idx; // @[issue-slot.scala:49:7] wire [3:0] io_in_uop_bits_ldq_idx_0 = io_in_uop_bits_ldq_idx; // @[issue-slot.scala:49:7] wire [3:0] io_in_uop_bits_stq_idx_0 = io_in_uop_bits_stq_idx; // @[issue-slot.scala:49:7] wire [1:0] io_in_uop_bits_rxq_idx_0 = io_in_uop_bits_rxq_idx; // @[issue-slot.scala:49:7] wire [6:0] io_in_uop_bits_pdst_0 = io_in_uop_bits_pdst; // @[issue-slot.scala:49:7] wire [6:0] io_in_uop_bits_prs1_0 = io_in_uop_bits_prs1; // @[issue-slot.scala:49:7] wire [6:0] io_in_uop_bits_prs2_0 = io_in_uop_bits_prs2; // @[issue-slot.scala:49:7] wire [6:0] io_in_uop_bits_prs3_0 = io_in_uop_bits_prs3; // @[issue-slot.scala:49:7] wire [4:0] io_in_uop_bits_ppred_0 = io_in_uop_bits_ppred; // @[issue-slot.scala:49:7] wire io_in_uop_bits_prs1_busy_0 = io_in_uop_bits_prs1_busy; // @[issue-slot.scala:49:7] wire io_in_uop_bits_prs2_busy_0 = io_in_uop_bits_prs2_busy; // @[issue-slot.scala:49:7] wire io_in_uop_bits_prs3_busy_0 = io_in_uop_bits_prs3_busy; // @[issue-slot.scala:49:7] wire io_in_uop_bits_ppred_busy_0 = io_in_uop_bits_ppred_busy; // @[issue-slot.scala:49:7] wire [6:0] io_in_uop_bits_stale_pdst_0 = io_in_uop_bits_stale_pdst; // @[issue-slot.scala:49:7] wire io_in_uop_bits_exception_0 = io_in_uop_bits_exception; // @[issue-slot.scala:49:7] wire [63:0] io_in_uop_bits_exc_cause_0 = io_in_uop_bits_exc_cause; // @[issue-slot.scala:49:7] wire [4:0] io_in_uop_bits_mem_cmd_0 = io_in_uop_bits_mem_cmd; // @[issue-slot.scala:49:7] wire [1:0] io_in_uop_bits_mem_size_0 = io_in_uop_bits_mem_size; // @[issue-slot.scala:49:7] wire io_in_uop_bits_mem_signed_0 = io_in_uop_bits_mem_signed; // @[issue-slot.scala:49:7] wire io_in_uop_bits_uses_ldq_0 = io_in_uop_bits_uses_ldq; // @[issue-slot.scala:49:7] wire io_in_uop_bits_uses_stq_0 = io_in_uop_bits_uses_stq; // @[issue-slot.scala:49:7] wire io_in_uop_bits_is_unique_0 = io_in_uop_bits_is_unique; // @[issue-slot.scala:49:7] wire io_in_uop_bits_flush_on_commit_0 = io_in_uop_bits_flush_on_commit; // @[issue-slot.scala:49:7] wire [2:0] io_in_uop_bits_csr_cmd_0 = io_in_uop_bits_csr_cmd; // @[issue-slot.scala:49:7] wire io_in_uop_bits_ldst_is_rs1_0 = io_in_uop_bits_ldst_is_rs1; // @[issue-slot.scala:49:7] wire [5:0] io_in_uop_bits_ldst_0 = io_in_uop_bits_ldst; // @[issue-slot.scala:49:7] wire [5:0] io_in_uop_bits_lrs1_0 = io_in_uop_bits_lrs1; // @[issue-slot.scala:49:7] wire [5:0] io_in_uop_bits_lrs2_0 = io_in_uop_bits_lrs2; // @[issue-slot.scala:49:7] wire [5:0] io_in_uop_bits_lrs3_0 = io_in_uop_bits_lrs3; // @[issue-slot.scala:49:7] wire [1:0] io_in_uop_bits_dst_rtype_0 = io_in_uop_bits_dst_rtype; // @[issue-slot.scala:49:7] wire [1:0] io_in_uop_bits_lrs1_rtype_0 = io_in_uop_bits_lrs1_rtype; // @[issue-slot.scala:49:7] wire [1:0] io_in_uop_bits_lrs2_rtype_0 = io_in_uop_bits_lrs2_rtype; // @[issue-slot.scala:49:7] wire io_in_uop_bits_frs3_en_0 = io_in_uop_bits_frs3_en; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fcn_dw_0 = io_in_uop_bits_fcn_dw; // @[issue-slot.scala:49:7] wire [4:0] io_in_uop_bits_fcn_op_0 = io_in_uop_bits_fcn_op; // @[issue-slot.scala:49:7] wire io_in_uop_bits_fp_val_0 = io_in_uop_bits_fp_val; // @[issue-slot.scala:49:7] wire [2:0] io_in_uop_bits_fp_rm_0 = io_in_uop_bits_fp_rm; // @[issue-slot.scala:49:7] wire [1:0] io_in_uop_bits_fp_typ_0 = io_in_uop_bits_fp_typ; // @[issue-slot.scala:49:7] wire io_in_uop_bits_xcpt_pf_if_0 = io_in_uop_bits_xcpt_pf_if; // @[issue-slot.scala:49:7] wire io_in_uop_bits_xcpt_ae_if_0 = io_in_uop_bits_xcpt_ae_if; // @[issue-slot.scala:49:7] wire io_in_uop_bits_xcpt_ma_if_0 = io_in_uop_bits_xcpt_ma_if; // @[issue-slot.scala:49:7] wire io_in_uop_bits_bp_debug_if_0 = io_in_uop_bits_bp_debug_if; // @[issue-slot.scala:49:7] wire io_in_uop_bits_bp_xcpt_if_0 = io_in_uop_bits_bp_xcpt_if; // @[issue-slot.scala:49:7] wire [2:0] io_in_uop_bits_debug_fsrc_0 = io_in_uop_bits_debug_fsrc; // @[issue-slot.scala:49:7] wire [2:0] io_in_uop_bits_debug_tsrc_0 = io_in_uop_bits_debug_tsrc; // @[issue-slot.scala:49:7] wire [11:0] io_brupdate_b1_resolve_mask_0 = io_brupdate_b1_resolve_mask; // @[issue-slot.scala:49:7] wire [11:0] io_brupdate_b1_mispredict_mask_0 = io_brupdate_b1_mispredict_mask; // @[issue-slot.scala:49:7] wire [31:0] io_brupdate_b2_uop_inst_0 = io_brupdate_b2_uop_inst; // @[issue-slot.scala:49:7] wire [31:0] io_brupdate_b2_uop_debug_inst_0 = io_brupdate_b2_uop_debug_inst; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_is_rvc_0 = io_brupdate_b2_uop_is_rvc; // @[issue-slot.scala:49:7] wire [39:0] io_brupdate_b2_uop_debug_pc_0 = io_brupdate_b2_uop_debug_pc; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_iq_type_0_0 = io_brupdate_b2_uop_iq_type_0; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_iq_type_1_0 = io_brupdate_b2_uop_iq_type_1; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_iq_type_2_0 = io_brupdate_b2_uop_iq_type_2; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_iq_type_3_0 = io_brupdate_b2_uop_iq_type_3; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fu_code_0_0 = io_brupdate_b2_uop_fu_code_0; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fu_code_1_0 = io_brupdate_b2_uop_fu_code_1; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fu_code_2_0 = io_brupdate_b2_uop_fu_code_2; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fu_code_3_0 = io_brupdate_b2_uop_fu_code_3; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fu_code_4_0 = io_brupdate_b2_uop_fu_code_4; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fu_code_5_0 = io_brupdate_b2_uop_fu_code_5; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fu_code_6_0 = io_brupdate_b2_uop_fu_code_6; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fu_code_7_0 = io_brupdate_b2_uop_fu_code_7; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fu_code_8_0 = io_brupdate_b2_uop_fu_code_8; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fu_code_9_0 = io_brupdate_b2_uop_fu_code_9; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_iw_issued_0 = io_brupdate_b2_uop_iw_issued; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_iw_issued_partial_agen_0 = io_brupdate_b2_uop_iw_issued_partial_agen; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_iw_issued_partial_dgen_0 = io_brupdate_b2_uop_iw_issued_partial_dgen; // @[issue-slot.scala:49:7] wire [1:0] io_brupdate_b2_uop_iw_p1_speculative_child_0 = io_brupdate_b2_uop_iw_p1_speculative_child; // @[issue-slot.scala:49:7] wire [1:0] io_brupdate_b2_uop_iw_p2_speculative_child_0 = io_brupdate_b2_uop_iw_p2_speculative_child; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_iw_p1_bypass_hint_0 = io_brupdate_b2_uop_iw_p1_bypass_hint; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_iw_p2_bypass_hint_0 = io_brupdate_b2_uop_iw_p2_bypass_hint; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_iw_p3_bypass_hint_0 = io_brupdate_b2_uop_iw_p3_bypass_hint; // @[issue-slot.scala:49:7] wire [1:0] io_brupdate_b2_uop_dis_col_sel_0 = io_brupdate_b2_uop_dis_col_sel; // @[issue-slot.scala:49:7] wire [11:0] io_brupdate_b2_uop_br_mask_0 = io_brupdate_b2_uop_br_mask; // @[issue-slot.scala:49:7] wire [3:0] io_brupdate_b2_uop_br_tag_0 = io_brupdate_b2_uop_br_tag; // @[issue-slot.scala:49:7] wire [3:0] io_brupdate_b2_uop_br_type_0 = io_brupdate_b2_uop_br_type; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_is_sfb_0 = io_brupdate_b2_uop_is_sfb; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_is_fence_0 = io_brupdate_b2_uop_is_fence; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_is_fencei_0 = io_brupdate_b2_uop_is_fencei; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_is_sfence_0 = io_brupdate_b2_uop_is_sfence; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_is_amo_0 = io_brupdate_b2_uop_is_amo; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_is_eret_0 = io_brupdate_b2_uop_is_eret; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_is_sys_pc2epc_0 = io_brupdate_b2_uop_is_sys_pc2epc; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_is_rocc_0 = io_brupdate_b2_uop_is_rocc; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_is_mov_0 = io_brupdate_b2_uop_is_mov; // @[issue-slot.scala:49:7] wire [4:0] io_brupdate_b2_uop_ftq_idx_0 = io_brupdate_b2_uop_ftq_idx; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_edge_inst_0 = io_brupdate_b2_uop_edge_inst; // @[issue-slot.scala:49:7] wire [5:0] io_brupdate_b2_uop_pc_lob_0 = io_brupdate_b2_uop_pc_lob; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_taken_0 = io_brupdate_b2_uop_taken; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_imm_rename_0 = io_brupdate_b2_uop_imm_rename; // @[issue-slot.scala:49:7] wire [2:0] io_brupdate_b2_uop_imm_sel_0 = io_brupdate_b2_uop_imm_sel; // @[issue-slot.scala:49:7] wire [4:0] io_brupdate_b2_uop_pimm_0 = io_brupdate_b2_uop_pimm; // @[issue-slot.scala:49:7] wire [19:0] io_brupdate_b2_uop_imm_packed_0 = io_brupdate_b2_uop_imm_packed; // @[issue-slot.scala:49:7] wire [1:0] io_brupdate_b2_uop_op1_sel_0 = io_brupdate_b2_uop_op1_sel; // @[issue-slot.scala:49:7] wire [2:0] io_brupdate_b2_uop_op2_sel_0 = io_brupdate_b2_uop_op2_sel; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_ldst_0 = io_brupdate_b2_uop_fp_ctrl_ldst; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_wen_0 = io_brupdate_b2_uop_fp_ctrl_wen; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_ren1_0 = io_brupdate_b2_uop_fp_ctrl_ren1; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_ren2_0 = io_brupdate_b2_uop_fp_ctrl_ren2; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_ren3_0 = io_brupdate_b2_uop_fp_ctrl_ren3; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_swap12_0 = io_brupdate_b2_uop_fp_ctrl_swap12; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_swap23_0 = io_brupdate_b2_uop_fp_ctrl_swap23; // @[issue-slot.scala:49:7] wire [1:0] io_brupdate_b2_uop_fp_ctrl_typeTagIn_0 = io_brupdate_b2_uop_fp_ctrl_typeTagIn; // @[issue-slot.scala:49:7] wire [1:0] io_brupdate_b2_uop_fp_ctrl_typeTagOut_0 = io_brupdate_b2_uop_fp_ctrl_typeTagOut; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_fromint_0 = io_brupdate_b2_uop_fp_ctrl_fromint; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_toint_0 = io_brupdate_b2_uop_fp_ctrl_toint; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_fastpipe_0 = io_brupdate_b2_uop_fp_ctrl_fastpipe; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_fma_0 = io_brupdate_b2_uop_fp_ctrl_fma; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_div_0 = io_brupdate_b2_uop_fp_ctrl_div; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_sqrt_0 = io_brupdate_b2_uop_fp_ctrl_sqrt; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_wflags_0 = io_brupdate_b2_uop_fp_ctrl_wflags; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_ctrl_vec_0 = io_brupdate_b2_uop_fp_ctrl_vec; // @[issue-slot.scala:49:7] wire [5:0] io_brupdate_b2_uop_rob_idx_0 = io_brupdate_b2_uop_rob_idx; // @[issue-slot.scala:49:7] wire [3:0] io_brupdate_b2_uop_ldq_idx_0 = io_brupdate_b2_uop_ldq_idx; // @[issue-slot.scala:49:7] wire [3:0] io_brupdate_b2_uop_stq_idx_0 = io_brupdate_b2_uop_stq_idx; // @[issue-slot.scala:49:7] wire [1:0] io_brupdate_b2_uop_rxq_idx_0 = io_brupdate_b2_uop_rxq_idx; // @[issue-slot.scala:49:7] wire [6:0] io_brupdate_b2_uop_pdst_0 = io_brupdate_b2_uop_pdst; // @[issue-slot.scala:49:7] wire [6:0] io_brupdate_b2_uop_prs1_0 = io_brupdate_b2_uop_prs1; // @[issue-slot.scala:49:7] wire [6:0] io_brupdate_b2_uop_prs2_0 = io_brupdate_b2_uop_prs2; // @[issue-slot.scala:49:7] wire [6:0] io_brupdate_b2_uop_prs3_0 = io_brupdate_b2_uop_prs3; // @[issue-slot.scala:49:7] wire [4:0] io_brupdate_b2_uop_ppred_0 = io_brupdate_b2_uop_ppred; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_prs1_busy_0 = io_brupdate_b2_uop_prs1_busy; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_prs2_busy_0 = io_brupdate_b2_uop_prs2_busy; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_prs3_busy_0 = io_brupdate_b2_uop_prs3_busy; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_ppred_busy_0 = io_brupdate_b2_uop_ppred_busy; // @[issue-slot.scala:49:7] wire [6:0] io_brupdate_b2_uop_stale_pdst_0 = io_brupdate_b2_uop_stale_pdst; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_exception_0 = io_brupdate_b2_uop_exception; // @[issue-slot.scala:49:7] wire [63:0] io_brupdate_b2_uop_exc_cause_0 = io_brupdate_b2_uop_exc_cause; // @[issue-slot.scala:49:7] wire [4:0] io_brupdate_b2_uop_mem_cmd_0 = io_brupdate_b2_uop_mem_cmd; // @[issue-slot.scala:49:7] wire [1:0] io_brupdate_b2_uop_mem_size_0 = io_brupdate_b2_uop_mem_size; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_mem_signed_0 = io_brupdate_b2_uop_mem_signed; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_uses_ldq_0 = io_brupdate_b2_uop_uses_ldq; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_uses_stq_0 = io_brupdate_b2_uop_uses_stq; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_is_unique_0 = io_brupdate_b2_uop_is_unique; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_flush_on_commit_0 = io_brupdate_b2_uop_flush_on_commit; // @[issue-slot.scala:49:7] wire [2:0] io_brupdate_b2_uop_csr_cmd_0 = io_brupdate_b2_uop_csr_cmd; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_ldst_is_rs1_0 = io_brupdate_b2_uop_ldst_is_rs1; // @[issue-slot.scala:49:7] wire [5:0] io_brupdate_b2_uop_ldst_0 = io_brupdate_b2_uop_ldst; // @[issue-slot.scala:49:7] wire [5:0] io_brupdate_b2_uop_lrs1_0 = io_brupdate_b2_uop_lrs1; // @[issue-slot.scala:49:7] wire [5:0] io_brupdate_b2_uop_lrs2_0 = io_brupdate_b2_uop_lrs2; // @[issue-slot.scala:49:7] wire [5:0] io_brupdate_b2_uop_lrs3_0 = io_brupdate_b2_uop_lrs3; // @[issue-slot.scala:49:7] wire [1:0] io_brupdate_b2_uop_dst_rtype_0 = io_brupdate_b2_uop_dst_rtype; // @[issue-slot.scala:49:7] wire [1:0] io_brupdate_b2_uop_lrs1_rtype_0 = io_brupdate_b2_uop_lrs1_rtype; // @[issue-slot.scala:49:7] wire [1:0] io_brupdate_b2_uop_lrs2_rtype_0 = io_brupdate_b2_uop_lrs2_rtype; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_frs3_en_0 = io_brupdate_b2_uop_frs3_en; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fcn_dw_0 = io_brupdate_b2_uop_fcn_dw; // @[issue-slot.scala:49:7] wire [4:0] io_brupdate_b2_uop_fcn_op_0 = io_brupdate_b2_uop_fcn_op; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_fp_val_0 = io_brupdate_b2_uop_fp_val; // @[issue-slot.scala:49:7] wire [2:0] io_brupdate_b2_uop_fp_rm_0 = io_brupdate_b2_uop_fp_rm; // @[issue-slot.scala:49:7] wire [1:0] io_brupdate_b2_uop_fp_typ_0 = io_brupdate_b2_uop_fp_typ; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_xcpt_pf_if_0 = io_brupdate_b2_uop_xcpt_pf_if; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_xcpt_ae_if_0 = io_brupdate_b2_uop_xcpt_ae_if; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_xcpt_ma_if_0 = io_brupdate_b2_uop_xcpt_ma_if; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_bp_debug_if_0 = io_brupdate_b2_uop_bp_debug_if; // @[issue-slot.scala:49:7] wire io_brupdate_b2_uop_bp_xcpt_if_0 = io_brupdate_b2_uop_bp_xcpt_if; // @[issue-slot.scala:49:7] wire [2:0] io_brupdate_b2_uop_debug_fsrc_0 = io_brupdate_b2_uop_debug_fsrc; // @[issue-slot.scala:49:7] wire [2:0] io_brupdate_b2_uop_debug_tsrc_0 = io_brupdate_b2_uop_debug_tsrc; // @[issue-slot.scala:49:7] wire io_brupdate_b2_mispredict_0 = io_brupdate_b2_mispredict; // @[issue-slot.scala:49:7] wire io_brupdate_b2_taken_0 = io_brupdate_b2_taken; // @[issue-slot.scala:49:7] wire [2:0] io_brupdate_b2_cfi_type_0 = io_brupdate_b2_cfi_type; // @[issue-slot.scala:49:7] wire [1:0] io_brupdate_b2_pc_sel_0 = io_brupdate_b2_pc_sel; // @[issue-slot.scala:49:7] wire [39:0] io_brupdate_b2_jalr_target_0 = io_brupdate_b2_jalr_target; // @[issue-slot.scala:49:7] wire [20:0] io_brupdate_b2_target_offset_0 = io_brupdate_b2_target_offset; // @[issue-slot.scala:49:7] wire io_kill_0 = io_kill; // @[issue-slot.scala:49:7] wire io_clear_0 = io_clear; // @[issue-slot.scala:49:7] wire io_squash_grant_0 = io_squash_grant; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_valid_0 = io_wakeup_ports_0_valid; // @[issue-slot.scala:49:7] wire [31:0] io_wakeup_ports_0_bits_uop_inst_0 = io_wakeup_ports_0_bits_uop_inst; // @[issue-slot.scala:49:7] wire [31:0] io_wakeup_ports_0_bits_uop_debug_inst_0 = io_wakeup_ports_0_bits_uop_debug_inst; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_is_rvc_0 = io_wakeup_ports_0_bits_uop_is_rvc; // @[issue-slot.scala:49:7] wire [39:0] io_wakeup_ports_0_bits_uop_debug_pc_0 = io_wakeup_ports_0_bits_uop_debug_pc; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_iq_type_0_0 = io_wakeup_ports_0_bits_uop_iq_type_0; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_iq_type_1_0 = io_wakeup_ports_0_bits_uop_iq_type_1; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_iq_type_2_0 = io_wakeup_ports_0_bits_uop_iq_type_2; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_iq_type_3_0 = io_wakeup_ports_0_bits_uop_iq_type_3; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fu_code_0_0 = io_wakeup_ports_0_bits_uop_fu_code_0; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fu_code_1_0 = io_wakeup_ports_0_bits_uop_fu_code_1; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fu_code_2_0 = io_wakeup_ports_0_bits_uop_fu_code_2; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fu_code_3_0 = io_wakeup_ports_0_bits_uop_fu_code_3; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fu_code_4_0 = io_wakeup_ports_0_bits_uop_fu_code_4; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fu_code_5_0 = io_wakeup_ports_0_bits_uop_fu_code_5; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fu_code_6_0 = io_wakeup_ports_0_bits_uop_fu_code_6; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fu_code_7_0 = io_wakeup_ports_0_bits_uop_fu_code_7; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fu_code_8_0 = io_wakeup_ports_0_bits_uop_fu_code_8; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fu_code_9_0 = io_wakeup_ports_0_bits_uop_fu_code_9; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_iw_issued_0 = io_wakeup_ports_0_bits_uop_iw_issued; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_iw_issued_partial_agen_0 = io_wakeup_ports_0_bits_uop_iw_issued_partial_agen; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_iw_issued_partial_dgen_0 = io_wakeup_ports_0_bits_uop_iw_issued_partial_dgen; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_0_bits_uop_iw_p1_speculative_child_0 = io_wakeup_ports_0_bits_uop_iw_p1_speculative_child; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_0_bits_uop_iw_p2_speculative_child_0 = io_wakeup_ports_0_bits_uop_iw_p2_speculative_child; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_iw_p1_bypass_hint_0 = io_wakeup_ports_0_bits_uop_iw_p1_bypass_hint; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_iw_p2_bypass_hint_0 = io_wakeup_ports_0_bits_uop_iw_p2_bypass_hint; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_iw_p3_bypass_hint_0 = io_wakeup_ports_0_bits_uop_iw_p3_bypass_hint; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_0_bits_uop_dis_col_sel_0 = io_wakeup_ports_0_bits_uop_dis_col_sel; // @[issue-slot.scala:49:7] wire [11:0] io_wakeup_ports_0_bits_uop_br_mask_0 = io_wakeup_ports_0_bits_uop_br_mask; // @[issue-slot.scala:49:7] wire [3:0] io_wakeup_ports_0_bits_uop_br_tag_0 = io_wakeup_ports_0_bits_uop_br_tag; // @[issue-slot.scala:49:7] wire [3:0] io_wakeup_ports_0_bits_uop_br_type_0 = io_wakeup_ports_0_bits_uop_br_type; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_is_sfb_0 = io_wakeup_ports_0_bits_uop_is_sfb; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_is_fence_0 = io_wakeup_ports_0_bits_uop_is_fence; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_is_fencei_0 = io_wakeup_ports_0_bits_uop_is_fencei; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_is_sfence_0 = io_wakeup_ports_0_bits_uop_is_sfence; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_is_amo_0 = io_wakeup_ports_0_bits_uop_is_amo; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_is_eret_0 = io_wakeup_ports_0_bits_uop_is_eret; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_is_sys_pc2epc_0 = io_wakeup_ports_0_bits_uop_is_sys_pc2epc; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_is_rocc_0 = io_wakeup_ports_0_bits_uop_is_rocc; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_is_mov_0 = io_wakeup_ports_0_bits_uop_is_mov; // @[issue-slot.scala:49:7] wire [4:0] io_wakeup_ports_0_bits_uop_ftq_idx_0 = io_wakeup_ports_0_bits_uop_ftq_idx; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_edge_inst_0 = io_wakeup_ports_0_bits_uop_edge_inst; // @[issue-slot.scala:49:7] wire [5:0] io_wakeup_ports_0_bits_uop_pc_lob_0 = io_wakeup_ports_0_bits_uop_pc_lob; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_taken_0 = io_wakeup_ports_0_bits_uop_taken; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_imm_rename_0 = io_wakeup_ports_0_bits_uop_imm_rename; // @[issue-slot.scala:49:7] wire [2:0] io_wakeup_ports_0_bits_uop_imm_sel_0 = io_wakeup_ports_0_bits_uop_imm_sel; // @[issue-slot.scala:49:7] wire [4:0] io_wakeup_ports_0_bits_uop_pimm_0 = io_wakeup_ports_0_bits_uop_pimm; // @[issue-slot.scala:49:7] wire [19:0] io_wakeup_ports_0_bits_uop_imm_packed_0 = io_wakeup_ports_0_bits_uop_imm_packed; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_0_bits_uop_op1_sel_0 = io_wakeup_ports_0_bits_uop_op1_sel; // @[issue-slot.scala:49:7] wire [2:0] io_wakeup_ports_0_bits_uop_op2_sel_0 = io_wakeup_ports_0_bits_uop_op2_sel; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_ldst_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_ldst; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_wen_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_wen; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_ren1_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_ren1; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_ren2_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_ren2; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_ren3_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_ren3; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_swap12_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_swap12; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_swap23_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_swap23; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_0_bits_uop_fp_ctrl_typeTagIn_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_typeTagIn; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_0_bits_uop_fp_ctrl_typeTagOut_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_typeTagOut; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_fromint_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_fromint; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_toint_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_toint; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_fastpipe_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_fastpipe; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_fma_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_fma; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_div_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_div; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_sqrt_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_sqrt; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_wflags_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_wflags; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_ctrl_vec_0 = io_wakeup_ports_0_bits_uop_fp_ctrl_vec; // @[issue-slot.scala:49:7] wire [5:0] io_wakeup_ports_0_bits_uop_rob_idx_0 = io_wakeup_ports_0_bits_uop_rob_idx; // @[issue-slot.scala:49:7] wire [3:0] io_wakeup_ports_0_bits_uop_ldq_idx_0 = io_wakeup_ports_0_bits_uop_ldq_idx; // @[issue-slot.scala:49:7] wire [3:0] io_wakeup_ports_0_bits_uop_stq_idx_0 = io_wakeup_ports_0_bits_uop_stq_idx; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_0_bits_uop_rxq_idx_0 = io_wakeup_ports_0_bits_uop_rxq_idx; // @[issue-slot.scala:49:7] wire [6:0] io_wakeup_ports_0_bits_uop_pdst_0 = io_wakeup_ports_0_bits_uop_pdst; // @[issue-slot.scala:49:7] wire [6:0] io_wakeup_ports_0_bits_uop_prs1_0 = io_wakeup_ports_0_bits_uop_prs1; // @[issue-slot.scala:49:7] wire [6:0] io_wakeup_ports_0_bits_uop_prs2_0 = io_wakeup_ports_0_bits_uop_prs2; // @[issue-slot.scala:49:7] wire [6:0] io_wakeup_ports_0_bits_uop_prs3_0 = io_wakeup_ports_0_bits_uop_prs3; // @[issue-slot.scala:49:7] wire [4:0] io_wakeup_ports_0_bits_uop_ppred_0 = io_wakeup_ports_0_bits_uop_ppred; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_prs1_busy_0 = io_wakeup_ports_0_bits_uop_prs1_busy; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_prs2_busy_0 = io_wakeup_ports_0_bits_uop_prs2_busy; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_prs3_busy_0 = io_wakeup_ports_0_bits_uop_prs3_busy; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_ppred_busy_0 = io_wakeup_ports_0_bits_uop_ppred_busy; // @[issue-slot.scala:49:7] wire [6:0] io_wakeup_ports_0_bits_uop_stale_pdst_0 = io_wakeup_ports_0_bits_uop_stale_pdst; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_exception_0 = io_wakeup_ports_0_bits_uop_exception; // @[issue-slot.scala:49:7] wire [63:0] io_wakeup_ports_0_bits_uop_exc_cause_0 = io_wakeup_ports_0_bits_uop_exc_cause; // @[issue-slot.scala:49:7] wire [4:0] io_wakeup_ports_0_bits_uop_mem_cmd_0 = io_wakeup_ports_0_bits_uop_mem_cmd; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_0_bits_uop_mem_size_0 = io_wakeup_ports_0_bits_uop_mem_size; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_mem_signed_0 = io_wakeup_ports_0_bits_uop_mem_signed; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_uses_ldq_0 = io_wakeup_ports_0_bits_uop_uses_ldq; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_uses_stq_0 = io_wakeup_ports_0_bits_uop_uses_stq; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_is_unique_0 = io_wakeup_ports_0_bits_uop_is_unique; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_flush_on_commit_0 = io_wakeup_ports_0_bits_uop_flush_on_commit; // @[issue-slot.scala:49:7] wire [2:0] io_wakeup_ports_0_bits_uop_csr_cmd_0 = io_wakeup_ports_0_bits_uop_csr_cmd; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_ldst_is_rs1_0 = io_wakeup_ports_0_bits_uop_ldst_is_rs1; // @[issue-slot.scala:49:7] wire [5:0] io_wakeup_ports_0_bits_uop_ldst_0 = io_wakeup_ports_0_bits_uop_ldst; // @[issue-slot.scala:49:7] wire [5:0] io_wakeup_ports_0_bits_uop_lrs1_0 = io_wakeup_ports_0_bits_uop_lrs1; // @[issue-slot.scala:49:7] wire [5:0] io_wakeup_ports_0_bits_uop_lrs2_0 = io_wakeup_ports_0_bits_uop_lrs2; // @[issue-slot.scala:49:7] wire [5:0] io_wakeup_ports_0_bits_uop_lrs3_0 = io_wakeup_ports_0_bits_uop_lrs3; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_0_bits_uop_dst_rtype_0 = io_wakeup_ports_0_bits_uop_dst_rtype; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_0_bits_uop_lrs1_rtype_0 = io_wakeup_ports_0_bits_uop_lrs1_rtype; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_0_bits_uop_lrs2_rtype_0 = io_wakeup_ports_0_bits_uop_lrs2_rtype; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_frs3_en_0 = io_wakeup_ports_0_bits_uop_frs3_en; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fcn_dw_0 = io_wakeup_ports_0_bits_uop_fcn_dw; // @[issue-slot.scala:49:7] wire [4:0] io_wakeup_ports_0_bits_uop_fcn_op_0 = io_wakeup_ports_0_bits_uop_fcn_op; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_fp_val_0 = io_wakeup_ports_0_bits_uop_fp_val; // @[issue-slot.scala:49:7] wire [2:0] io_wakeup_ports_0_bits_uop_fp_rm_0 = io_wakeup_ports_0_bits_uop_fp_rm; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_0_bits_uop_fp_typ_0 = io_wakeup_ports_0_bits_uop_fp_typ; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_xcpt_pf_if_0 = io_wakeup_ports_0_bits_uop_xcpt_pf_if; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_xcpt_ae_if_0 = io_wakeup_ports_0_bits_uop_xcpt_ae_if; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_xcpt_ma_if_0 = io_wakeup_ports_0_bits_uop_xcpt_ma_if; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_bp_debug_if_0 = io_wakeup_ports_0_bits_uop_bp_debug_if; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_uop_bp_xcpt_if_0 = io_wakeup_ports_0_bits_uop_bp_xcpt_if; // @[issue-slot.scala:49:7] wire [2:0] io_wakeup_ports_0_bits_uop_debug_fsrc_0 = io_wakeup_ports_0_bits_uop_debug_fsrc; // @[issue-slot.scala:49:7] wire [2:0] io_wakeup_ports_0_bits_uop_debug_tsrc_0 = io_wakeup_ports_0_bits_uop_debug_tsrc; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_valid_0 = io_wakeup_ports_1_valid; // @[issue-slot.scala:49:7] wire [31:0] io_wakeup_ports_1_bits_uop_inst_0 = io_wakeup_ports_1_bits_uop_inst; // @[issue-slot.scala:49:7] wire [31:0] io_wakeup_ports_1_bits_uop_debug_inst_0 = io_wakeup_ports_1_bits_uop_debug_inst; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_is_rvc_0 = io_wakeup_ports_1_bits_uop_is_rvc; // @[issue-slot.scala:49:7] wire [39:0] io_wakeup_ports_1_bits_uop_debug_pc_0 = io_wakeup_ports_1_bits_uop_debug_pc; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_iq_type_0_0 = io_wakeup_ports_1_bits_uop_iq_type_0; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_iq_type_1_0 = io_wakeup_ports_1_bits_uop_iq_type_1; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_iq_type_2_0 = io_wakeup_ports_1_bits_uop_iq_type_2; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_iq_type_3_0 = io_wakeup_ports_1_bits_uop_iq_type_3; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fu_code_0_0 = io_wakeup_ports_1_bits_uop_fu_code_0; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fu_code_1_0 = io_wakeup_ports_1_bits_uop_fu_code_1; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fu_code_2_0 = io_wakeup_ports_1_bits_uop_fu_code_2; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fu_code_3_0 = io_wakeup_ports_1_bits_uop_fu_code_3; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fu_code_4_0 = io_wakeup_ports_1_bits_uop_fu_code_4; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fu_code_5_0 = io_wakeup_ports_1_bits_uop_fu_code_5; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fu_code_6_0 = io_wakeup_ports_1_bits_uop_fu_code_6; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fu_code_7_0 = io_wakeup_ports_1_bits_uop_fu_code_7; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fu_code_8_0 = io_wakeup_ports_1_bits_uop_fu_code_8; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fu_code_9_0 = io_wakeup_ports_1_bits_uop_fu_code_9; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_iw_issued_0 = io_wakeup_ports_1_bits_uop_iw_issued; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_iw_issued_partial_agen_0 = io_wakeup_ports_1_bits_uop_iw_issued_partial_agen; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_iw_issued_partial_dgen_0 = io_wakeup_ports_1_bits_uop_iw_issued_partial_dgen; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_1_bits_uop_iw_p1_speculative_child_0 = io_wakeup_ports_1_bits_uop_iw_p1_speculative_child; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_1_bits_uop_iw_p2_speculative_child_0 = io_wakeup_ports_1_bits_uop_iw_p2_speculative_child; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_iw_p1_bypass_hint_0 = io_wakeup_ports_1_bits_uop_iw_p1_bypass_hint; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_iw_p2_bypass_hint_0 = io_wakeup_ports_1_bits_uop_iw_p2_bypass_hint; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_iw_p3_bypass_hint_0 = io_wakeup_ports_1_bits_uop_iw_p3_bypass_hint; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_1_bits_uop_dis_col_sel_0 = io_wakeup_ports_1_bits_uop_dis_col_sel; // @[issue-slot.scala:49:7] wire [11:0] io_wakeup_ports_1_bits_uop_br_mask_0 = io_wakeup_ports_1_bits_uop_br_mask; // @[issue-slot.scala:49:7] wire [3:0] io_wakeup_ports_1_bits_uop_br_tag_0 = io_wakeup_ports_1_bits_uop_br_tag; // @[issue-slot.scala:49:7] wire [3:0] io_wakeup_ports_1_bits_uop_br_type_0 = io_wakeup_ports_1_bits_uop_br_type; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_is_sfb_0 = io_wakeup_ports_1_bits_uop_is_sfb; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_is_fence_0 = io_wakeup_ports_1_bits_uop_is_fence; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_is_fencei_0 = io_wakeup_ports_1_bits_uop_is_fencei; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_is_sfence_0 = io_wakeup_ports_1_bits_uop_is_sfence; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_is_amo_0 = io_wakeup_ports_1_bits_uop_is_amo; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_is_eret_0 = io_wakeup_ports_1_bits_uop_is_eret; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_is_sys_pc2epc_0 = io_wakeup_ports_1_bits_uop_is_sys_pc2epc; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_is_rocc_0 = io_wakeup_ports_1_bits_uop_is_rocc; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_is_mov_0 = io_wakeup_ports_1_bits_uop_is_mov; // @[issue-slot.scala:49:7] wire [4:0] io_wakeup_ports_1_bits_uop_ftq_idx_0 = io_wakeup_ports_1_bits_uop_ftq_idx; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_edge_inst_0 = io_wakeup_ports_1_bits_uop_edge_inst; // @[issue-slot.scala:49:7] wire [5:0] io_wakeup_ports_1_bits_uop_pc_lob_0 = io_wakeup_ports_1_bits_uop_pc_lob; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_taken_0 = io_wakeup_ports_1_bits_uop_taken; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_imm_rename_0 = io_wakeup_ports_1_bits_uop_imm_rename; // @[issue-slot.scala:49:7] wire [2:0] io_wakeup_ports_1_bits_uop_imm_sel_0 = io_wakeup_ports_1_bits_uop_imm_sel; // @[issue-slot.scala:49:7] wire [4:0] io_wakeup_ports_1_bits_uop_pimm_0 = io_wakeup_ports_1_bits_uop_pimm; // @[issue-slot.scala:49:7] wire [19:0] io_wakeup_ports_1_bits_uop_imm_packed_0 = io_wakeup_ports_1_bits_uop_imm_packed; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_1_bits_uop_op1_sel_0 = io_wakeup_ports_1_bits_uop_op1_sel; // @[issue-slot.scala:49:7] wire [2:0] io_wakeup_ports_1_bits_uop_op2_sel_0 = io_wakeup_ports_1_bits_uop_op2_sel; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_ldst_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_ldst; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_wen_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_wen; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_ren1_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_ren1; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_ren2_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_ren2; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_ren3_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_ren3; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_swap12_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_swap12; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_swap23_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_swap23; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_1_bits_uop_fp_ctrl_typeTagIn_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_typeTagIn; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_1_bits_uop_fp_ctrl_typeTagOut_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_typeTagOut; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_fromint_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_fromint; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_toint_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_toint; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_fastpipe_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_fastpipe; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_fma_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_fma; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_div_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_div; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_sqrt_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_sqrt; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_wflags_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_wflags; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_ctrl_vec_0 = io_wakeup_ports_1_bits_uop_fp_ctrl_vec; // @[issue-slot.scala:49:7] wire [5:0] io_wakeup_ports_1_bits_uop_rob_idx_0 = io_wakeup_ports_1_bits_uop_rob_idx; // @[issue-slot.scala:49:7] wire [3:0] io_wakeup_ports_1_bits_uop_ldq_idx_0 = io_wakeup_ports_1_bits_uop_ldq_idx; // @[issue-slot.scala:49:7] wire [3:0] io_wakeup_ports_1_bits_uop_stq_idx_0 = io_wakeup_ports_1_bits_uop_stq_idx; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_1_bits_uop_rxq_idx_0 = io_wakeup_ports_1_bits_uop_rxq_idx; // @[issue-slot.scala:49:7] wire [6:0] io_wakeup_ports_1_bits_uop_pdst_0 = io_wakeup_ports_1_bits_uop_pdst; // @[issue-slot.scala:49:7] wire [6:0] io_wakeup_ports_1_bits_uop_prs1_0 = io_wakeup_ports_1_bits_uop_prs1; // @[issue-slot.scala:49:7] wire [6:0] io_wakeup_ports_1_bits_uop_prs2_0 = io_wakeup_ports_1_bits_uop_prs2; // @[issue-slot.scala:49:7] wire [6:0] io_wakeup_ports_1_bits_uop_prs3_0 = io_wakeup_ports_1_bits_uop_prs3; // @[issue-slot.scala:49:7] wire [4:0] io_wakeup_ports_1_bits_uop_ppred_0 = io_wakeup_ports_1_bits_uop_ppred; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_prs1_busy_0 = io_wakeup_ports_1_bits_uop_prs1_busy; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_prs2_busy_0 = io_wakeup_ports_1_bits_uop_prs2_busy; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_prs3_busy_0 = io_wakeup_ports_1_bits_uop_prs3_busy; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_ppred_busy_0 = io_wakeup_ports_1_bits_uop_ppred_busy; // @[issue-slot.scala:49:7] wire [6:0] io_wakeup_ports_1_bits_uop_stale_pdst_0 = io_wakeup_ports_1_bits_uop_stale_pdst; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_exception_0 = io_wakeup_ports_1_bits_uop_exception; // @[issue-slot.scala:49:7] wire [63:0] io_wakeup_ports_1_bits_uop_exc_cause_0 = io_wakeup_ports_1_bits_uop_exc_cause; // @[issue-slot.scala:49:7] wire [4:0] io_wakeup_ports_1_bits_uop_mem_cmd_0 = io_wakeup_ports_1_bits_uop_mem_cmd; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_1_bits_uop_mem_size_0 = io_wakeup_ports_1_bits_uop_mem_size; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_mem_signed_0 = io_wakeup_ports_1_bits_uop_mem_signed; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_uses_ldq_0 = io_wakeup_ports_1_bits_uop_uses_ldq; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_uses_stq_0 = io_wakeup_ports_1_bits_uop_uses_stq; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_is_unique_0 = io_wakeup_ports_1_bits_uop_is_unique; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_flush_on_commit_0 = io_wakeup_ports_1_bits_uop_flush_on_commit; // @[issue-slot.scala:49:7] wire [2:0] io_wakeup_ports_1_bits_uop_csr_cmd_0 = io_wakeup_ports_1_bits_uop_csr_cmd; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_ldst_is_rs1_0 = io_wakeup_ports_1_bits_uop_ldst_is_rs1; // @[issue-slot.scala:49:7] wire [5:0] io_wakeup_ports_1_bits_uop_ldst_0 = io_wakeup_ports_1_bits_uop_ldst; // @[issue-slot.scala:49:7] wire [5:0] io_wakeup_ports_1_bits_uop_lrs1_0 = io_wakeup_ports_1_bits_uop_lrs1; // @[issue-slot.scala:49:7] wire [5:0] io_wakeup_ports_1_bits_uop_lrs2_0 = io_wakeup_ports_1_bits_uop_lrs2; // @[issue-slot.scala:49:7] wire [5:0] io_wakeup_ports_1_bits_uop_lrs3_0 = io_wakeup_ports_1_bits_uop_lrs3; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_1_bits_uop_dst_rtype_0 = io_wakeup_ports_1_bits_uop_dst_rtype; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_1_bits_uop_lrs1_rtype_0 = io_wakeup_ports_1_bits_uop_lrs1_rtype; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_1_bits_uop_lrs2_rtype_0 = io_wakeup_ports_1_bits_uop_lrs2_rtype; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_frs3_en_0 = io_wakeup_ports_1_bits_uop_frs3_en; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fcn_dw_0 = io_wakeup_ports_1_bits_uop_fcn_dw; // @[issue-slot.scala:49:7] wire [4:0] io_wakeup_ports_1_bits_uop_fcn_op_0 = io_wakeup_ports_1_bits_uop_fcn_op; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_fp_val_0 = io_wakeup_ports_1_bits_uop_fp_val; // @[issue-slot.scala:49:7] wire [2:0] io_wakeup_ports_1_bits_uop_fp_rm_0 = io_wakeup_ports_1_bits_uop_fp_rm; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_1_bits_uop_fp_typ_0 = io_wakeup_ports_1_bits_uop_fp_typ; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_xcpt_pf_if_0 = io_wakeup_ports_1_bits_uop_xcpt_pf_if; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_xcpt_ae_if_0 = io_wakeup_ports_1_bits_uop_xcpt_ae_if; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_xcpt_ma_if_0 = io_wakeup_ports_1_bits_uop_xcpt_ma_if; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_bp_debug_if_0 = io_wakeup_ports_1_bits_uop_bp_debug_if; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_uop_bp_xcpt_if_0 = io_wakeup_ports_1_bits_uop_bp_xcpt_if; // @[issue-slot.scala:49:7] wire [2:0] io_wakeup_ports_1_bits_uop_debug_fsrc_0 = io_wakeup_ports_1_bits_uop_debug_fsrc; // @[issue-slot.scala:49:7] wire [2:0] io_wakeup_ports_1_bits_uop_debug_tsrc_0 = io_wakeup_ports_1_bits_uop_debug_tsrc; // @[issue-slot.scala:49:7] wire io_iss_uop_iw_issued_partial_agen = 1'h0; // @[issue-slot.scala:49:7] wire io_iss_uop_iw_issued_partial_dgen = 1'h0; // @[issue-slot.scala:49:7] wire io_in_uop_bits_iw_issued_partial_agen = 1'h0; // @[issue-slot.scala:49:7] wire io_in_uop_bits_iw_issued_partial_dgen = 1'h0; // @[issue-slot.scala:49:7] wire io_out_uop_iw_issued_partial_agen = 1'h0; // @[issue-slot.scala:49:7] wire io_out_uop_iw_issued_partial_dgen = 1'h0; // @[issue-slot.scala:49:7] wire io_wakeup_ports_0_bits_rebusy = 1'h0; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_bypassable = 1'h0; // @[issue-slot.scala:49:7] wire io_wakeup_ports_1_bits_rebusy = 1'h0; // @[issue-slot.scala:49:7] wire io_pred_wakeup_port_valid = 1'h0; // @[issue-slot.scala:49:7] wire next_uop_out_iw_issued_partial_agen = 1'h0; // @[util.scala:104:23] wire next_uop_out_iw_issued_partial_dgen = 1'h0; // @[util.scala:104:23] wire next_uop_iw_issued_partial_agen = 1'h0; // @[issue-slot.scala:59:28] wire next_uop_iw_issued_partial_dgen = 1'h0; // @[issue-slot.scala:59:28] wire rebusied_prs1 = 1'h0; // @[issue-slot.scala:92:31] wire rebusied_prs2 = 1'h0; // @[issue-slot.scala:93:31] wire rebusied = 1'h0; // @[issue-slot.scala:94:32] wire prs1_rebusys_0 = 1'h0; // @[issue-slot.scala:102:91] wire prs1_rebusys_1 = 1'h0; // @[issue-slot.scala:102:91] wire prs2_rebusys_0 = 1'h0; // @[issue-slot.scala:103:91] wire prs2_rebusys_1 = 1'h0; // @[issue-slot.scala:103:91] wire _next_uop_iw_p1_bypass_hint_T_1 = 1'h0; // @[Mux.scala:30:73] wire _next_uop_iw_p2_bypass_hint_T_1 = 1'h0; // @[Mux.scala:30:73] wire _next_uop_iw_p3_bypass_hint_T_1 = 1'h0; // @[Mux.scala:30:73] wire agen_ready = 1'h0; // @[issue-slot.scala:137:114] wire dgen_ready = 1'h0; // @[issue-slot.scala:138:114] wire [1:0] io_in_uop_bits_iw_p1_speculative_child = 2'h0; // @[issue-slot.scala:49:7] wire [1:0] io_in_uop_bits_iw_p2_speculative_child = 2'h0; // @[issue-slot.scala:49:7] wire [1:0] io_out_uop_iw_p1_speculative_child = 2'h0; // @[issue-slot.scala:49:7] wire [1:0] io_out_uop_iw_p2_speculative_child = 2'h0; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_0_bits_speculative_mask = 2'h0; // @[issue-slot.scala:49:7] wire [1:0] io_wakeup_ports_1_bits_speculative_mask = 2'h0; // @[issue-slot.scala:49:7] wire [1:0] io_child_rebusys = 2'h0; // @[issue-slot.scala:49:7] wire [1:0] next_uop_iw_p1_speculative_child = 2'h0; // @[issue-slot.scala:59:28] wire [1:0] next_uop_iw_p2_speculative_child = 2'h0; // @[issue-slot.scala:59:28] wire [1:0] _next_uop_iw_p1_speculative_child_T = 2'h0; // @[Mux.scala:30:73] wire [1:0] _next_uop_iw_p1_speculative_child_T_1 = 2'h0; // @[Mux.scala:30:73] wire [1:0] _next_uop_iw_p1_speculative_child_T_2 = 2'h0; // @[Mux.scala:30:73] wire [1:0] _next_uop_iw_p1_speculative_child_WIRE = 2'h0; // @[Mux.scala:30:73] wire [1:0] _next_uop_iw_p2_speculative_child_T = 2'h0; // @[Mux.scala:30:73] wire [1:0] _next_uop_iw_p2_speculative_child_T_1 = 2'h0; // @[Mux.scala:30:73] wire [1:0] _next_uop_iw_p2_speculative_child_T_2 = 2'h0; // @[Mux.scala:30:73] wire [1:0] _next_uop_iw_p2_speculative_child_WIRE = 2'h0; // @[Mux.scala:30:73] wire io_wakeup_ports_0_bits_bypassable = 1'h1; // @[issue-slot.scala:49:7] wire [4:0] io_pred_wakeup_port_bits = 5'h0; // @[issue-slot.scala:49:7] wire _io_will_be_valid_T_1; // @[issue-slot.scala:65:34] wire _io_request_T_4; // @[issue-slot.scala:140:51] wire [31:0] next_uop_inst; // @[issue-slot.scala:59:28] wire [31:0] next_uop_debug_inst; // @[issue-slot.scala:59:28] wire next_uop_is_rvc; // @[issue-slot.scala:59:28] wire [39:0] next_uop_debug_pc; // @[issue-slot.scala:59:28] wire next_uop_iq_type_0; // @[issue-slot.scala:59:28] wire next_uop_iq_type_1; // @[issue-slot.scala:59:28] wire next_uop_iq_type_2; // @[issue-slot.scala:59:28] wire next_uop_iq_type_3; // @[issue-slot.scala:59:28] wire next_uop_fu_code_0; // @[issue-slot.scala:59:28] wire next_uop_fu_code_1; // @[issue-slot.scala:59:28] wire next_uop_fu_code_2; // @[issue-slot.scala:59:28] wire next_uop_fu_code_3; // @[issue-slot.scala:59:28] wire next_uop_fu_code_4; // @[issue-slot.scala:59:28] wire next_uop_fu_code_5; // @[issue-slot.scala:59:28] wire next_uop_fu_code_6; // @[issue-slot.scala:59:28] wire next_uop_fu_code_7; // @[issue-slot.scala:59:28] wire next_uop_fu_code_8; // @[issue-slot.scala:59:28] wire next_uop_fu_code_9; // @[issue-slot.scala:59:28] wire next_uop_iw_issued; // @[issue-slot.scala:59:28] wire next_uop_iw_p1_bypass_hint; // @[issue-slot.scala:59:28] wire next_uop_iw_p2_bypass_hint; // @[issue-slot.scala:59:28] wire next_uop_iw_p3_bypass_hint; // @[issue-slot.scala:59:28] wire [1:0] next_uop_dis_col_sel; // @[issue-slot.scala:59:28] wire [11:0] next_uop_br_mask; // @[issue-slot.scala:59:28] wire [3:0] next_uop_br_tag; // @[issue-slot.scala:59:28] wire [3:0] next_uop_br_type; // @[issue-slot.scala:59:28] wire next_uop_is_sfb; // @[issue-slot.scala:59:28] wire next_uop_is_fence; // @[issue-slot.scala:59:28] wire next_uop_is_fencei; // @[issue-slot.scala:59:28] wire next_uop_is_sfence; // @[issue-slot.scala:59:28] wire next_uop_is_amo; // @[issue-slot.scala:59:28] wire next_uop_is_eret; // @[issue-slot.scala:59:28] wire next_uop_is_sys_pc2epc; // @[issue-slot.scala:59:28] wire next_uop_is_rocc; // @[issue-slot.scala:59:28] wire next_uop_is_mov; // @[issue-slot.scala:59:28] wire [4:0] next_uop_ftq_idx; // @[issue-slot.scala:59:28] wire next_uop_edge_inst; // @[issue-slot.scala:59:28] wire [5:0] next_uop_pc_lob; // @[issue-slot.scala:59:28] wire next_uop_taken; // @[issue-slot.scala:59:28] wire next_uop_imm_rename; // @[issue-slot.scala:59:28] wire [2:0] next_uop_imm_sel; // @[issue-slot.scala:59:28] wire [4:0] next_uop_pimm; // @[issue-slot.scala:59:28] wire [19:0] next_uop_imm_packed; // @[issue-slot.scala:59:28] wire [1:0] next_uop_op1_sel; // @[issue-slot.scala:59:28] wire [2:0] next_uop_op2_sel; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_ldst; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_wen; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_ren1; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_ren2; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_ren3; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_swap12; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_swap23; // @[issue-slot.scala:59:28] wire [1:0] next_uop_fp_ctrl_typeTagIn; // @[issue-slot.scala:59:28] wire [1:0] next_uop_fp_ctrl_typeTagOut; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_fromint; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_toint; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_fastpipe; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_fma; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_div; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_sqrt; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_wflags; // @[issue-slot.scala:59:28] wire next_uop_fp_ctrl_vec; // @[issue-slot.scala:59:28] wire [5:0] next_uop_rob_idx; // @[issue-slot.scala:59:28] wire [3:0] next_uop_ldq_idx; // @[issue-slot.scala:59:28] wire [3:0] next_uop_stq_idx; // @[issue-slot.scala:59:28] wire [1:0] next_uop_rxq_idx; // @[issue-slot.scala:59:28] wire [6:0] next_uop_pdst; // @[issue-slot.scala:59:28] wire [6:0] next_uop_prs1; // @[issue-slot.scala:59:28] wire [6:0] next_uop_prs2; // @[issue-slot.scala:59:28] wire [6:0] next_uop_prs3; // @[issue-slot.scala:59:28] wire [4:0] next_uop_ppred; // @[issue-slot.scala:59:28] wire next_uop_prs1_busy; // @[issue-slot.scala:59:28] wire next_uop_prs2_busy; // @[issue-slot.scala:59:28] wire next_uop_prs3_busy; // @[issue-slot.scala:59:28] wire next_uop_ppred_busy; // @[issue-slot.scala:59:28] wire [6:0] next_uop_stale_pdst; // @[issue-slot.scala:59:28] wire next_uop_exception; // @[issue-slot.scala:59:28] wire [63:0] next_uop_exc_cause; // @[issue-slot.scala:59:28] wire [4:0] next_uop_mem_cmd; // @[issue-slot.scala:59:28] wire [1:0] next_uop_mem_size; // @[issue-slot.scala:59:28] wire next_uop_mem_signed; // @[issue-slot.scala:59:28] wire next_uop_uses_ldq; // @[issue-slot.scala:59:28] wire next_uop_uses_stq; // @[issue-slot.scala:59:28] wire next_uop_is_unique; // @[issue-slot.scala:59:28] wire next_uop_flush_on_commit; // @[issue-slot.scala:59:28] wire [2:0] next_uop_csr_cmd; // @[issue-slot.scala:59:28] wire next_uop_ldst_is_rs1; // @[issue-slot.scala:59:28] wire [5:0] next_uop_ldst; // @[issue-slot.scala:59:28] wire [5:0] next_uop_lrs1; // @[issue-slot.scala:59:28] wire [5:0] next_uop_lrs2; // @[issue-slot.scala:59:28] wire [5:0] next_uop_lrs3; // @[issue-slot.scala:59:28] wire [1:0] next_uop_dst_rtype; // @[issue-slot.scala:59:28] wire [1:0] next_uop_lrs1_rtype; // @[issue-slot.scala:59:28] wire [1:0] next_uop_lrs2_rtype; // @[issue-slot.scala:59:28] wire next_uop_frs3_en; // @[issue-slot.scala:59:28] wire next_uop_fcn_dw; // @[issue-slot.scala:59:28] wire [4:0] next_uop_fcn_op; // @[issue-slot.scala:59:28] wire next_uop_fp_val; // @[issue-slot.scala:59:28] wire [2:0] next_uop_fp_rm; // @[issue-slot.scala:59:28] wire [1:0] next_uop_fp_typ; // @[issue-slot.scala:59:28] wire next_uop_xcpt_pf_if; // @[issue-slot.scala:59:28] wire next_uop_xcpt_ae_if; // @[issue-slot.scala:59:28] wire next_uop_xcpt_ma_if; // @[issue-slot.scala:59:28] wire next_uop_bp_debug_if; // @[issue-slot.scala:59:28] wire next_uop_bp_xcpt_if; // @[issue-slot.scala:59:28] wire [2:0] next_uop_debug_fsrc; // @[issue-slot.scala:59:28] wire [2:0] next_uop_debug_tsrc; // @[issue-slot.scala:59:28] wire io_iss_uop_iq_type_0_0; // @[issue-slot.scala:49:7] wire io_iss_uop_iq_type_1_0; // @[issue-slot.scala:49:7] wire io_iss_uop_iq_type_2_0; // @[issue-slot.scala:49:7] wire io_iss_uop_iq_type_3_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fu_code_0_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fu_code_1_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fu_code_2_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fu_code_3_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fu_code_4_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fu_code_5_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fu_code_6_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fu_code_7_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fu_code_8_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fu_code_9_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_ldst_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_wen_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_ren1_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_ren2_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_ren3_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_swap12_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_swap23_0; // @[issue-slot.scala:49:7] wire [1:0] io_iss_uop_fp_ctrl_typeTagIn_0; // @[issue-slot.scala:49:7] wire [1:0] io_iss_uop_fp_ctrl_typeTagOut_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_fromint_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_toint_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_fastpipe_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_fma_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_div_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_sqrt_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_wflags_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_ctrl_vec_0; // @[issue-slot.scala:49:7] wire [31:0] io_iss_uop_inst_0; // @[issue-slot.scala:49:7] wire [31:0] io_iss_uop_debug_inst_0; // @[issue-slot.scala:49:7] wire io_iss_uop_is_rvc_0; // @[issue-slot.scala:49:7] wire [39:0] io_iss_uop_debug_pc_0; // @[issue-slot.scala:49:7] wire io_iss_uop_iw_issued_0; // @[issue-slot.scala:49:7] wire [1:0] io_iss_uop_iw_p1_speculative_child_0; // @[issue-slot.scala:49:7] wire [1:0] io_iss_uop_iw_p2_speculative_child_0; // @[issue-slot.scala:49:7] wire io_iss_uop_iw_p1_bypass_hint_0; // @[issue-slot.scala:49:7] wire io_iss_uop_iw_p2_bypass_hint_0; // @[issue-slot.scala:49:7] wire io_iss_uop_iw_p3_bypass_hint_0; // @[issue-slot.scala:49:7] wire [1:0] io_iss_uop_dis_col_sel_0; // @[issue-slot.scala:49:7] wire [11:0] io_iss_uop_br_mask_0; // @[issue-slot.scala:49:7] wire [3:0] io_iss_uop_br_tag_0; // @[issue-slot.scala:49:7] wire [3:0] io_iss_uop_br_type_0; // @[issue-slot.scala:49:7] wire io_iss_uop_is_sfb_0; // @[issue-slot.scala:49:7] wire io_iss_uop_is_fence_0; // @[issue-slot.scala:49:7] wire io_iss_uop_is_fencei_0; // @[issue-slot.scala:49:7] wire io_iss_uop_is_sfence_0; // @[issue-slot.scala:49:7] wire io_iss_uop_is_amo_0; // @[issue-slot.scala:49:7] wire io_iss_uop_is_eret_0; // @[issue-slot.scala:49:7] wire io_iss_uop_is_sys_pc2epc_0; // @[issue-slot.scala:49:7] wire io_iss_uop_is_rocc_0; // @[issue-slot.scala:49:7] wire io_iss_uop_is_mov_0; // @[issue-slot.scala:49:7] wire [4:0] io_iss_uop_ftq_idx_0; // @[issue-slot.scala:49:7] wire io_iss_uop_edge_inst_0; // @[issue-slot.scala:49:7] wire [5:0] io_iss_uop_pc_lob_0; // @[issue-slot.scala:49:7] wire io_iss_uop_taken_0; // @[issue-slot.scala:49:7] wire io_iss_uop_imm_rename_0; // @[issue-slot.scala:49:7] wire [2:0] io_iss_uop_imm_sel_0; // @[issue-slot.scala:49:7] wire [4:0] io_iss_uop_pimm_0; // @[issue-slot.scala:49:7] wire [19:0] io_iss_uop_imm_packed_0; // @[issue-slot.scala:49:7] wire [1:0] io_iss_uop_op1_sel_0; // @[issue-slot.scala:49:7] wire [2:0] io_iss_uop_op2_sel_0; // @[issue-slot.scala:49:7] wire [5:0] io_iss_uop_rob_idx_0; // @[issue-slot.scala:49:7] wire [3:0] io_iss_uop_ldq_idx_0; // @[issue-slot.scala:49:7] wire [3:0] io_iss_uop_stq_idx_0; // @[issue-slot.scala:49:7] wire [1:0] io_iss_uop_rxq_idx_0; // @[issue-slot.scala:49:7] wire [6:0] io_iss_uop_pdst_0; // @[issue-slot.scala:49:7] wire [6:0] io_iss_uop_prs1_0; // @[issue-slot.scala:49:7] wire [6:0] io_iss_uop_prs2_0; // @[issue-slot.scala:49:7] wire [6:0] io_iss_uop_prs3_0; // @[issue-slot.scala:49:7] wire [4:0] io_iss_uop_ppred_0; // @[issue-slot.scala:49:7] wire io_iss_uop_prs1_busy_0; // @[issue-slot.scala:49:7] wire io_iss_uop_prs2_busy_0; // @[issue-slot.scala:49:7] wire io_iss_uop_prs3_busy_0; // @[issue-slot.scala:49:7] wire io_iss_uop_ppred_busy_0; // @[issue-slot.scala:49:7] wire [6:0] io_iss_uop_stale_pdst_0; // @[issue-slot.scala:49:7] wire io_iss_uop_exception_0; // @[issue-slot.scala:49:7] wire [63:0] io_iss_uop_exc_cause_0; // @[issue-slot.scala:49:7] wire [4:0] io_iss_uop_mem_cmd_0; // @[issue-slot.scala:49:7] wire [1:0] io_iss_uop_mem_size_0; // @[issue-slot.scala:49:7] wire io_iss_uop_mem_signed_0; // @[issue-slot.scala:49:7] wire io_iss_uop_uses_ldq_0; // @[issue-slot.scala:49:7] wire io_iss_uop_uses_stq_0; // @[issue-slot.scala:49:7] wire io_iss_uop_is_unique_0; // @[issue-slot.scala:49:7] wire io_iss_uop_flush_on_commit_0; // @[issue-slot.scala:49:7] wire [2:0] io_iss_uop_csr_cmd_0; // @[issue-slot.scala:49:7] wire io_iss_uop_ldst_is_rs1_0; // @[issue-slot.scala:49:7] wire [5:0] io_iss_uop_ldst_0; // @[issue-slot.scala:49:7] wire [5:0] io_iss_uop_lrs1_0; // @[issue-slot.scala:49:7] wire [5:0] io_iss_uop_lrs2_0; // @[issue-slot.scala:49:7] wire [5:0] io_iss_uop_lrs3_0; // @[issue-slot.scala:49:7] wire [1:0] io_iss_uop_dst_rtype_0; // @[issue-slot.scala:49:7] wire [1:0] io_iss_uop_lrs1_rtype_0; // @[issue-slot.scala:49:7] wire [1:0] io_iss_uop_lrs2_rtype_0; // @[issue-slot.scala:49:7] wire io_iss_uop_frs3_en_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fcn_dw_0; // @[issue-slot.scala:49:7] wire [4:0] io_iss_uop_fcn_op_0; // @[issue-slot.scala:49:7] wire io_iss_uop_fp_val_0; // @[issue-slot.scala:49:7] wire [2:0] io_iss_uop_fp_rm_0; // @[issue-slot.scala:49:7] wire [1:0] io_iss_uop_fp_typ_0; // @[issue-slot.scala:49:7] wire io_iss_uop_xcpt_pf_if_0; // @[issue-slot.scala:49:7] wire io_iss_uop_xcpt_ae_if_0; // @[issue-slot.scala:49:7] wire io_iss_uop_xcpt_ma_if_0; // @[issue-slot.scala:49:7] wire io_iss_uop_bp_debug_if_0; // @[issue-slot.scala:49:7] wire io_iss_uop_bp_xcpt_if_0; // @[issue-slot.scala:49:7] wire [2:0] io_iss_uop_debug_fsrc_0; // @[issue-slot.scala:49:7] wire [2:0] io_iss_uop_debug_tsrc_0; // @[issue-slot.scala:49:7] wire io_out_uop_iq_type_0_0; // @[issue-slot.scala:49:7] wire io_out_uop_iq_type_1_0; // @[issue-slot.scala:49:7] wire io_out_uop_iq_type_2_0; // @[issue-slot.scala:49:7] wire io_out_uop_iq_type_3_0; // @[issue-slot.scala:49:7] wire io_out_uop_fu_code_0_0; // @[issue-slot.scala:49:7] wire io_out_uop_fu_code_1_0; // @[issue-slot.scala:49:7] wire io_out_uop_fu_code_2_0; // @[issue-slot.scala:49:7] wire io_out_uop_fu_code_3_0; // @[issue-slot.scala:49:7] wire io_out_uop_fu_code_4_0; // @[issue-slot.scala:49:7] wire io_out_uop_fu_code_5_0; // @[issue-slot.scala:49:7] wire io_out_uop_fu_code_6_0; // @[issue-slot.scala:49:7] wire io_out_uop_fu_code_7_0; // @[issue-slot.scala:49:7] wire io_out_uop_fu_code_8_0; // @[issue-slot.scala:49:7] wire io_out_uop_fu_code_9_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_ldst_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_wen_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_ren1_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_ren2_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_ren3_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_swap12_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_swap23_0; // @[issue-slot.scala:49:7] wire [1:0] io_out_uop_fp_ctrl_typeTagIn_0; // @[issue-slot.scala:49:7] wire [1:0] io_out_uop_fp_ctrl_typeTagOut_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_fromint_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_toint_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_fastpipe_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_fma_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_div_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_sqrt_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_wflags_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_ctrl_vec_0; // @[issue-slot.scala:49:7] wire [31:0] io_out_uop_inst_0; // @[issue-slot.scala:49:7] wire [31:0] io_out_uop_debug_inst_0; // @[issue-slot.scala:49:7] wire io_out_uop_is_rvc_0; // @[issue-slot.scala:49:7] wire [39:0] io_out_uop_debug_pc_0; // @[issue-slot.scala:49:7] wire io_out_uop_iw_issued_0; // @[issue-slot.scala:49:7] wire io_out_uop_iw_p1_bypass_hint_0; // @[issue-slot.scala:49:7] wire io_out_uop_iw_p2_bypass_hint_0; // @[issue-slot.scala:49:7] wire io_out_uop_iw_p3_bypass_hint_0; // @[issue-slot.scala:49:7] wire [1:0] io_out_uop_dis_col_sel_0; // @[issue-slot.scala:49:7] wire [11:0] io_out_uop_br_mask_0; // @[issue-slot.scala:49:7] wire [3:0] io_out_uop_br_tag_0; // @[issue-slot.scala:49:7] wire [3:0] io_out_uop_br_type_0; // @[issue-slot.scala:49:7] wire io_out_uop_is_sfb_0; // @[issue-slot.scala:49:7] wire io_out_uop_is_fence_0; // @[issue-slot.scala:49:7] wire io_out_uop_is_fencei_0; // @[issue-slot.scala:49:7] wire io_out_uop_is_sfence_0; // @[issue-slot.scala:49:7] wire io_out_uop_is_amo_0; // @[issue-slot.scala:49:7] wire io_out_uop_is_eret_0; // @[issue-slot.scala:49:7] wire io_out_uop_is_sys_pc2epc_0; // @[issue-slot.scala:49:7] wire io_out_uop_is_rocc_0; // @[issue-slot.scala:49:7] wire io_out_uop_is_mov_0; // @[issue-slot.scala:49:7] wire [4:0] io_out_uop_ftq_idx_0; // @[issue-slot.scala:49:7] wire io_out_uop_edge_inst_0; // @[issue-slot.scala:49:7] wire [5:0] io_out_uop_pc_lob_0; // @[issue-slot.scala:49:7] wire io_out_uop_taken_0; // @[issue-slot.scala:49:7] wire io_out_uop_imm_rename_0; // @[issue-slot.scala:49:7] wire [2:0] io_out_uop_imm_sel_0; // @[issue-slot.scala:49:7] wire [4:0] io_out_uop_pimm_0; // @[issue-slot.scala:49:7] wire [19:0] io_out_uop_imm_packed_0; // @[issue-slot.scala:49:7] wire [1:0] io_out_uop_op1_sel_0; // @[issue-slot.scala:49:7] wire [2:0] io_out_uop_op2_sel_0; // @[issue-slot.scala:49:7] wire [5:0] io_out_uop_rob_idx_0; // @[issue-slot.scala:49:7] wire [3:0] io_out_uop_ldq_idx_0; // @[issue-slot.scala:49:7] wire [3:0] io_out_uop_stq_idx_0; // @[issue-slot.scala:49:7] wire [1:0] io_out_uop_rxq_idx_0; // @[issue-slot.scala:49:7] wire [6:0] io_out_uop_pdst_0; // @[issue-slot.scala:49:7] wire [6:0] io_out_uop_prs1_0; // @[issue-slot.scala:49:7] wire [6:0] io_out_uop_prs2_0; // @[issue-slot.scala:49:7] wire [6:0] io_out_uop_prs3_0; // @[issue-slot.scala:49:7] wire [4:0] io_out_uop_ppred_0; // @[issue-slot.scala:49:7] wire io_out_uop_prs1_busy_0; // @[issue-slot.scala:49:7] wire io_out_uop_prs2_busy_0; // @[issue-slot.scala:49:7] wire io_out_uop_prs3_busy_0; // @[issue-slot.scala:49:7] wire io_out_uop_ppred_busy_0; // @[issue-slot.scala:49:7] wire [6:0] io_out_uop_stale_pdst_0; // @[issue-slot.scala:49:7] wire io_out_uop_exception_0; // @[issue-slot.scala:49:7] wire [63:0] io_out_uop_exc_cause_0; // @[issue-slot.scala:49:7] wire [4:0] io_out_uop_mem_cmd_0; // @[issue-slot.scala:49:7] wire [1:0] io_out_uop_mem_size_0; // @[issue-slot.scala:49:7] wire io_out_uop_mem_signed_0; // @[issue-slot.scala:49:7] wire io_out_uop_uses_ldq_0; // @[issue-slot.scala:49:7] wire io_out_uop_uses_stq_0; // @[issue-slot.scala:49:7] wire io_out_uop_is_unique_0; // @[issue-slot.scala:49:7] wire io_out_uop_flush_on_commit_0; // @[issue-slot.scala:49:7] wire [2:0] io_out_uop_csr_cmd_0; // @[issue-slot.scala:49:7] wire io_out_uop_ldst_is_rs1_0; // @[issue-slot.scala:49:7] wire [5:0] io_out_uop_ldst_0; // @[issue-slot.scala:49:7] wire [5:0] io_out_uop_lrs1_0; // @[issue-slot.scala:49:7] wire [5:0] io_out_uop_lrs2_0; // @[issue-slot.scala:49:7] wire [5:0] io_out_uop_lrs3_0; // @[issue-slot.scala:49:7] wire [1:0] io_out_uop_dst_rtype_0; // @[issue-slot.scala:49:7] wire [1:0] io_out_uop_lrs1_rtype_0; // @[issue-slot.scala:49:7] wire [1:0] io_out_uop_lrs2_rtype_0; // @[issue-slot.scala:49:7] wire io_out_uop_frs3_en_0; // @[issue-slot.scala:49:7] wire io_out_uop_fcn_dw_0; // @[issue-slot.scala:49:7] wire [4:0] io_out_uop_fcn_op_0; // @[issue-slot.scala:49:7] wire io_out_uop_fp_val_0; // @[issue-slot.scala:49:7] wire [2:0] io_out_uop_fp_rm_0; // @[issue-slot.scala:49:7] wire [1:0] io_out_uop_fp_typ_0; // @[issue-slot.scala:49:7] wire io_out_uop_xcpt_pf_if_0; // @[issue-slot.scala:49:7] wire io_out_uop_xcpt_ae_if_0; // @[issue-slot.scala:49:7] wire io_out_uop_xcpt_ma_if_0; // @[issue-slot.scala:49:7] wire io_out_uop_bp_debug_if_0; // @[issue-slot.scala:49:7] wire io_out_uop_bp_xcpt_if_0; // @[issue-slot.scala:49:7] wire [2:0] io_out_uop_debug_fsrc_0; // @[issue-slot.scala:49:7] wire [2:0] io_out_uop_debug_tsrc_0; // @[issue-slot.scala:49:7] wire io_valid_0; // @[issue-slot.scala:49:7] wire io_will_be_valid_0; // @[issue-slot.scala:49:7] wire io_request_0; // @[issue-slot.scala:49:7] reg slot_valid; // @[issue-slot.scala:55:27] assign io_valid_0 = slot_valid; // @[issue-slot.scala:49:7, :55:27] reg [31:0] slot_uop_inst; // @[issue-slot.scala:56:21] assign io_iss_uop_inst_0 = slot_uop_inst; // @[issue-slot.scala:49:7, :56:21] wire [31:0] next_uop_out_inst = slot_uop_inst; // @[util.scala:104:23] reg [31:0] slot_uop_debug_inst; // @[issue-slot.scala:56:21] assign io_iss_uop_debug_inst_0 = slot_uop_debug_inst; // @[issue-slot.scala:49:7, :56:21] wire [31:0] next_uop_out_debug_inst = slot_uop_debug_inst; // @[util.scala:104:23] reg slot_uop_is_rvc; // @[issue-slot.scala:56:21] assign io_iss_uop_is_rvc_0 = slot_uop_is_rvc; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_is_rvc = slot_uop_is_rvc; // @[util.scala:104:23] reg [39:0] slot_uop_debug_pc; // @[issue-slot.scala:56:21] assign io_iss_uop_debug_pc_0 = slot_uop_debug_pc; // @[issue-slot.scala:49:7, :56:21] wire [39:0] next_uop_out_debug_pc = slot_uop_debug_pc; // @[util.scala:104:23] reg slot_uop_iq_type_0; // @[issue-slot.scala:56:21] assign io_iss_uop_iq_type_0_0 = slot_uop_iq_type_0; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_iq_type_0 = slot_uop_iq_type_0; // @[util.scala:104:23] reg slot_uop_iq_type_1; // @[issue-slot.scala:56:21] assign io_iss_uop_iq_type_1_0 = slot_uop_iq_type_1; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_iq_type_1 = slot_uop_iq_type_1; // @[util.scala:104:23] reg slot_uop_iq_type_2; // @[issue-slot.scala:56:21] assign io_iss_uop_iq_type_2_0 = slot_uop_iq_type_2; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_iq_type_2 = slot_uop_iq_type_2; // @[util.scala:104:23] reg slot_uop_iq_type_3; // @[issue-slot.scala:56:21] assign io_iss_uop_iq_type_3_0 = slot_uop_iq_type_3; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_iq_type_3 = slot_uop_iq_type_3; // @[util.scala:104:23] reg slot_uop_fu_code_0; // @[issue-slot.scala:56:21] assign io_iss_uop_fu_code_0_0 = slot_uop_fu_code_0; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fu_code_0 = slot_uop_fu_code_0; // @[util.scala:104:23] reg slot_uop_fu_code_1; // @[issue-slot.scala:56:21] assign io_iss_uop_fu_code_1_0 = slot_uop_fu_code_1; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fu_code_1 = slot_uop_fu_code_1; // @[util.scala:104:23] reg slot_uop_fu_code_2; // @[issue-slot.scala:56:21] assign io_iss_uop_fu_code_2_0 = slot_uop_fu_code_2; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fu_code_2 = slot_uop_fu_code_2; // @[util.scala:104:23] reg slot_uop_fu_code_3; // @[issue-slot.scala:56:21] assign io_iss_uop_fu_code_3_0 = slot_uop_fu_code_3; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fu_code_3 = slot_uop_fu_code_3; // @[util.scala:104:23] reg slot_uop_fu_code_4; // @[issue-slot.scala:56:21] assign io_iss_uop_fu_code_4_0 = slot_uop_fu_code_4; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fu_code_4 = slot_uop_fu_code_4; // @[util.scala:104:23] reg slot_uop_fu_code_5; // @[issue-slot.scala:56:21] assign io_iss_uop_fu_code_5_0 = slot_uop_fu_code_5; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fu_code_5 = slot_uop_fu_code_5; // @[util.scala:104:23] reg slot_uop_fu_code_6; // @[issue-slot.scala:56:21] assign io_iss_uop_fu_code_6_0 = slot_uop_fu_code_6; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fu_code_6 = slot_uop_fu_code_6; // @[util.scala:104:23] reg slot_uop_fu_code_7; // @[issue-slot.scala:56:21] assign io_iss_uop_fu_code_7_0 = slot_uop_fu_code_7; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fu_code_7 = slot_uop_fu_code_7; // @[util.scala:104:23] reg slot_uop_fu_code_8; // @[issue-slot.scala:56:21] assign io_iss_uop_fu_code_8_0 = slot_uop_fu_code_8; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fu_code_8 = slot_uop_fu_code_8; // @[util.scala:104:23] reg slot_uop_fu_code_9; // @[issue-slot.scala:56:21] assign io_iss_uop_fu_code_9_0 = slot_uop_fu_code_9; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fu_code_9 = slot_uop_fu_code_9; // @[util.scala:104:23] reg slot_uop_iw_issued; // @[issue-slot.scala:56:21] assign io_iss_uop_iw_issued_0 = slot_uop_iw_issued; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_iw_issued = slot_uop_iw_issued; // @[util.scala:104:23] reg [1:0] slot_uop_iw_p1_speculative_child; // @[issue-slot.scala:56:21] assign io_iss_uop_iw_p1_speculative_child_0 = slot_uop_iw_p1_speculative_child; // @[issue-slot.scala:49:7, :56:21] wire [1:0] next_uop_out_iw_p1_speculative_child = slot_uop_iw_p1_speculative_child; // @[util.scala:104:23] reg [1:0] slot_uop_iw_p2_speculative_child; // @[issue-slot.scala:56:21] assign io_iss_uop_iw_p2_speculative_child_0 = slot_uop_iw_p2_speculative_child; // @[issue-slot.scala:49:7, :56:21] wire [1:0] next_uop_out_iw_p2_speculative_child = slot_uop_iw_p2_speculative_child; // @[util.scala:104:23] reg slot_uop_iw_p1_bypass_hint; // @[issue-slot.scala:56:21] assign io_iss_uop_iw_p1_bypass_hint_0 = slot_uop_iw_p1_bypass_hint; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_iw_p1_bypass_hint = slot_uop_iw_p1_bypass_hint; // @[util.scala:104:23] reg slot_uop_iw_p2_bypass_hint; // @[issue-slot.scala:56:21] assign io_iss_uop_iw_p2_bypass_hint_0 = slot_uop_iw_p2_bypass_hint; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_iw_p2_bypass_hint = slot_uop_iw_p2_bypass_hint; // @[util.scala:104:23] reg slot_uop_iw_p3_bypass_hint; // @[issue-slot.scala:56:21] assign io_iss_uop_iw_p3_bypass_hint_0 = slot_uop_iw_p3_bypass_hint; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_iw_p3_bypass_hint = slot_uop_iw_p3_bypass_hint; // @[util.scala:104:23] reg [1:0] slot_uop_dis_col_sel; // @[issue-slot.scala:56:21] assign io_iss_uop_dis_col_sel_0 = slot_uop_dis_col_sel; // @[issue-slot.scala:49:7, :56:21] wire [1:0] next_uop_out_dis_col_sel = slot_uop_dis_col_sel; // @[util.scala:104:23] reg [11:0] slot_uop_br_mask; // @[issue-slot.scala:56:21] assign io_iss_uop_br_mask_0 = slot_uop_br_mask; // @[issue-slot.scala:49:7, :56:21] reg [3:0] slot_uop_br_tag; // @[issue-slot.scala:56:21] assign io_iss_uop_br_tag_0 = slot_uop_br_tag; // @[issue-slot.scala:49:7, :56:21] wire [3:0] next_uop_out_br_tag = slot_uop_br_tag; // @[util.scala:104:23] reg [3:0] slot_uop_br_type; // @[issue-slot.scala:56:21] assign io_iss_uop_br_type_0 = slot_uop_br_type; // @[issue-slot.scala:49:7, :56:21] wire [3:0] next_uop_out_br_type = slot_uop_br_type; // @[util.scala:104:23] reg slot_uop_is_sfb; // @[issue-slot.scala:56:21] assign io_iss_uop_is_sfb_0 = slot_uop_is_sfb; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_is_sfb = slot_uop_is_sfb; // @[util.scala:104:23] reg slot_uop_is_fence; // @[issue-slot.scala:56:21] assign io_iss_uop_is_fence_0 = slot_uop_is_fence; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_is_fence = slot_uop_is_fence; // @[util.scala:104:23] reg slot_uop_is_fencei; // @[issue-slot.scala:56:21] assign io_iss_uop_is_fencei_0 = slot_uop_is_fencei; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_is_fencei = slot_uop_is_fencei; // @[util.scala:104:23] reg slot_uop_is_sfence; // @[issue-slot.scala:56:21] assign io_iss_uop_is_sfence_0 = slot_uop_is_sfence; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_is_sfence = slot_uop_is_sfence; // @[util.scala:104:23] reg slot_uop_is_amo; // @[issue-slot.scala:56:21] assign io_iss_uop_is_amo_0 = slot_uop_is_amo; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_is_amo = slot_uop_is_amo; // @[util.scala:104:23] reg slot_uop_is_eret; // @[issue-slot.scala:56:21] assign io_iss_uop_is_eret_0 = slot_uop_is_eret; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_is_eret = slot_uop_is_eret; // @[util.scala:104:23] reg slot_uop_is_sys_pc2epc; // @[issue-slot.scala:56:21] assign io_iss_uop_is_sys_pc2epc_0 = slot_uop_is_sys_pc2epc; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_is_sys_pc2epc = slot_uop_is_sys_pc2epc; // @[util.scala:104:23] reg slot_uop_is_rocc; // @[issue-slot.scala:56:21] assign io_iss_uop_is_rocc_0 = slot_uop_is_rocc; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_is_rocc = slot_uop_is_rocc; // @[util.scala:104:23] reg slot_uop_is_mov; // @[issue-slot.scala:56:21] assign io_iss_uop_is_mov_0 = slot_uop_is_mov; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_is_mov = slot_uop_is_mov; // @[util.scala:104:23] reg [4:0] slot_uop_ftq_idx; // @[issue-slot.scala:56:21] assign io_iss_uop_ftq_idx_0 = slot_uop_ftq_idx; // @[issue-slot.scala:49:7, :56:21] wire [4:0] next_uop_out_ftq_idx = slot_uop_ftq_idx; // @[util.scala:104:23] reg slot_uop_edge_inst; // @[issue-slot.scala:56:21] assign io_iss_uop_edge_inst_0 = slot_uop_edge_inst; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_edge_inst = slot_uop_edge_inst; // @[util.scala:104:23] reg [5:0] slot_uop_pc_lob; // @[issue-slot.scala:56:21] assign io_iss_uop_pc_lob_0 = slot_uop_pc_lob; // @[issue-slot.scala:49:7, :56:21] wire [5:0] next_uop_out_pc_lob = slot_uop_pc_lob; // @[util.scala:104:23] reg slot_uop_taken; // @[issue-slot.scala:56:21] assign io_iss_uop_taken_0 = slot_uop_taken; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_taken = slot_uop_taken; // @[util.scala:104:23] reg slot_uop_imm_rename; // @[issue-slot.scala:56:21] assign io_iss_uop_imm_rename_0 = slot_uop_imm_rename; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_imm_rename = slot_uop_imm_rename; // @[util.scala:104:23] reg [2:0] slot_uop_imm_sel; // @[issue-slot.scala:56:21] assign io_iss_uop_imm_sel_0 = slot_uop_imm_sel; // @[issue-slot.scala:49:7, :56:21] wire [2:0] next_uop_out_imm_sel = slot_uop_imm_sel; // @[util.scala:104:23] reg [4:0] slot_uop_pimm; // @[issue-slot.scala:56:21] assign io_iss_uop_pimm_0 = slot_uop_pimm; // @[issue-slot.scala:49:7, :56:21] wire [4:0] next_uop_out_pimm = slot_uop_pimm; // @[util.scala:104:23] reg [19:0] slot_uop_imm_packed; // @[issue-slot.scala:56:21] assign io_iss_uop_imm_packed_0 = slot_uop_imm_packed; // @[issue-slot.scala:49:7, :56:21] wire [19:0] next_uop_out_imm_packed = slot_uop_imm_packed; // @[util.scala:104:23] reg [1:0] slot_uop_op1_sel; // @[issue-slot.scala:56:21] assign io_iss_uop_op1_sel_0 = slot_uop_op1_sel; // @[issue-slot.scala:49:7, :56:21] wire [1:0] next_uop_out_op1_sel = slot_uop_op1_sel; // @[util.scala:104:23] reg [2:0] slot_uop_op2_sel; // @[issue-slot.scala:56:21] assign io_iss_uop_op2_sel_0 = slot_uop_op2_sel; // @[issue-slot.scala:49:7, :56:21] wire [2:0] next_uop_out_op2_sel = slot_uop_op2_sel; // @[util.scala:104:23] reg slot_uop_fp_ctrl_ldst; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_ldst_0 = slot_uop_fp_ctrl_ldst; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_ldst = slot_uop_fp_ctrl_ldst; // @[util.scala:104:23] reg slot_uop_fp_ctrl_wen; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_wen_0 = slot_uop_fp_ctrl_wen; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_wen = slot_uop_fp_ctrl_wen; // @[util.scala:104:23] reg slot_uop_fp_ctrl_ren1; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_ren1_0 = slot_uop_fp_ctrl_ren1; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_ren1 = slot_uop_fp_ctrl_ren1; // @[util.scala:104:23] reg slot_uop_fp_ctrl_ren2; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_ren2_0 = slot_uop_fp_ctrl_ren2; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_ren2 = slot_uop_fp_ctrl_ren2; // @[util.scala:104:23] reg slot_uop_fp_ctrl_ren3; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_ren3_0 = slot_uop_fp_ctrl_ren3; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_ren3 = slot_uop_fp_ctrl_ren3; // @[util.scala:104:23] reg slot_uop_fp_ctrl_swap12; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_swap12_0 = slot_uop_fp_ctrl_swap12; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_swap12 = slot_uop_fp_ctrl_swap12; // @[util.scala:104:23] reg slot_uop_fp_ctrl_swap23; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_swap23_0 = slot_uop_fp_ctrl_swap23; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_swap23 = slot_uop_fp_ctrl_swap23; // @[util.scala:104:23] reg [1:0] slot_uop_fp_ctrl_typeTagIn; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_typeTagIn_0 = slot_uop_fp_ctrl_typeTagIn; // @[issue-slot.scala:49:7, :56:21] wire [1:0] next_uop_out_fp_ctrl_typeTagIn = slot_uop_fp_ctrl_typeTagIn; // @[util.scala:104:23] reg [1:0] slot_uop_fp_ctrl_typeTagOut; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_typeTagOut_0 = slot_uop_fp_ctrl_typeTagOut; // @[issue-slot.scala:49:7, :56:21] wire [1:0] next_uop_out_fp_ctrl_typeTagOut = slot_uop_fp_ctrl_typeTagOut; // @[util.scala:104:23] reg slot_uop_fp_ctrl_fromint; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_fromint_0 = slot_uop_fp_ctrl_fromint; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_fromint = slot_uop_fp_ctrl_fromint; // @[util.scala:104:23] reg slot_uop_fp_ctrl_toint; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_toint_0 = slot_uop_fp_ctrl_toint; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_toint = slot_uop_fp_ctrl_toint; // @[util.scala:104:23] reg slot_uop_fp_ctrl_fastpipe; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_fastpipe_0 = slot_uop_fp_ctrl_fastpipe; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_fastpipe = slot_uop_fp_ctrl_fastpipe; // @[util.scala:104:23] reg slot_uop_fp_ctrl_fma; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_fma_0 = slot_uop_fp_ctrl_fma; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_fma = slot_uop_fp_ctrl_fma; // @[util.scala:104:23] reg slot_uop_fp_ctrl_div; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_div_0 = slot_uop_fp_ctrl_div; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_div = slot_uop_fp_ctrl_div; // @[util.scala:104:23] reg slot_uop_fp_ctrl_sqrt; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_sqrt_0 = slot_uop_fp_ctrl_sqrt; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_sqrt = slot_uop_fp_ctrl_sqrt; // @[util.scala:104:23] reg slot_uop_fp_ctrl_wflags; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_wflags_0 = slot_uop_fp_ctrl_wflags; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_wflags = slot_uop_fp_ctrl_wflags; // @[util.scala:104:23] reg slot_uop_fp_ctrl_vec; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_ctrl_vec_0 = slot_uop_fp_ctrl_vec; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_ctrl_vec = slot_uop_fp_ctrl_vec; // @[util.scala:104:23] reg [5:0] slot_uop_rob_idx; // @[issue-slot.scala:56:21] assign io_iss_uop_rob_idx_0 = slot_uop_rob_idx; // @[issue-slot.scala:49:7, :56:21] wire [5:0] next_uop_out_rob_idx = slot_uop_rob_idx; // @[util.scala:104:23] reg [3:0] slot_uop_ldq_idx; // @[issue-slot.scala:56:21] assign io_iss_uop_ldq_idx_0 = slot_uop_ldq_idx; // @[issue-slot.scala:49:7, :56:21] wire [3:0] next_uop_out_ldq_idx = slot_uop_ldq_idx; // @[util.scala:104:23] reg [3:0] slot_uop_stq_idx; // @[issue-slot.scala:56:21] assign io_iss_uop_stq_idx_0 = slot_uop_stq_idx; // @[issue-slot.scala:49:7, :56:21] wire [3:0] next_uop_out_stq_idx = slot_uop_stq_idx; // @[util.scala:104:23] reg [1:0] slot_uop_rxq_idx; // @[issue-slot.scala:56:21] assign io_iss_uop_rxq_idx_0 = slot_uop_rxq_idx; // @[issue-slot.scala:49:7, :56:21] wire [1:0] next_uop_out_rxq_idx = slot_uop_rxq_idx; // @[util.scala:104:23] reg [6:0] slot_uop_pdst; // @[issue-slot.scala:56:21] assign io_iss_uop_pdst_0 = slot_uop_pdst; // @[issue-slot.scala:49:7, :56:21] wire [6:0] next_uop_out_pdst = slot_uop_pdst; // @[util.scala:104:23] reg [6:0] slot_uop_prs1; // @[issue-slot.scala:56:21] assign io_iss_uop_prs1_0 = slot_uop_prs1; // @[issue-slot.scala:49:7, :56:21] wire [6:0] next_uop_out_prs1 = slot_uop_prs1; // @[util.scala:104:23] reg [6:0] slot_uop_prs2; // @[issue-slot.scala:56:21] assign io_iss_uop_prs2_0 = slot_uop_prs2; // @[issue-slot.scala:49:7, :56:21] wire [6:0] next_uop_out_prs2 = slot_uop_prs2; // @[util.scala:104:23] reg [6:0] slot_uop_prs3; // @[issue-slot.scala:56:21] assign io_iss_uop_prs3_0 = slot_uop_prs3; // @[issue-slot.scala:49:7, :56:21] wire [6:0] next_uop_out_prs3 = slot_uop_prs3; // @[util.scala:104:23] reg [4:0] slot_uop_ppred; // @[issue-slot.scala:56:21] assign io_iss_uop_ppred_0 = slot_uop_ppred; // @[issue-slot.scala:49:7, :56:21] wire [4:0] next_uop_out_ppred = slot_uop_ppred; // @[util.scala:104:23] reg slot_uop_prs1_busy; // @[issue-slot.scala:56:21] assign io_iss_uop_prs1_busy_0 = slot_uop_prs1_busy; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_prs1_busy = slot_uop_prs1_busy; // @[util.scala:104:23] reg slot_uop_prs2_busy; // @[issue-slot.scala:56:21] assign io_iss_uop_prs2_busy_0 = slot_uop_prs2_busy; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_prs2_busy = slot_uop_prs2_busy; // @[util.scala:104:23] reg slot_uop_prs3_busy; // @[issue-slot.scala:56:21] assign io_iss_uop_prs3_busy_0 = slot_uop_prs3_busy; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_prs3_busy = slot_uop_prs3_busy; // @[util.scala:104:23] wire _iss_ready_T_6 = slot_uop_prs3_busy; // @[issue-slot.scala:56:21, :136:131] reg slot_uop_ppred_busy; // @[issue-slot.scala:56:21] assign io_iss_uop_ppred_busy_0 = slot_uop_ppred_busy; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_ppred_busy = slot_uop_ppred_busy; // @[util.scala:104:23] wire _iss_ready_T_3 = slot_uop_ppred_busy; // @[issue-slot.scala:56:21, :136:88] wire _agen_ready_T_2 = slot_uop_ppred_busy; // @[issue-slot.scala:56:21, :137:95] wire _dgen_ready_T_2 = slot_uop_ppred_busy; // @[issue-slot.scala:56:21, :138:95] reg [6:0] slot_uop_stale_pdst; // @[issue-slot.scala:56:21] assign io_iss_uop_stale_pdst_0 = slot_uop_stale_pdst; // @[issue-slot.scala:49:7, :56:21] wire [6:0] next_uop_out_stale_pdst = slot_uop_stale_pdst; // @[util.scala:104:23] reg slot_uop_exception; // @[issue-slot.scala:56:21] assign io_iss_uop_exception_0 = slot_uop_exception; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_exception = slot_uop_exception; // @[util.scala:104:23] reg [63:0] slot_uop_exc_cause; // @[issue-slot.scala:56:21] assign io_iss_uop_exc_cause_0 = slot_uop_exc_cause; // @[issue-slot.scala:49:7, :56:21] wire [63:0] next_uop_out_exc_cause = slot_uop_exc_cause; // @[util.scala:104:23] reg [4:0] slot_uop_mem_cmd; // @[issue-slot.scala:56:21] assign io_iss_uop_mem_cmd_0 = slot_uop_mem_cmd; // @[issue-slot.scala:49:7, :56:21] wire [4:0] next_uop_out_mem_cmd = slot_uop_mem_cmd; // @[util.scala:104:23] reg [1:0] slot_uop_mem_size; // @[issue-slot.scala:56:21] assign io_iss_uop_mem_size_0 = slot_uop_mem_size; // @[issue-slot.scala:49:7, :56:21] wire [1:0] next_uop_out_mem_size = slot_uop_mem_size; // @[util.scala:104:23] reg slot_uop_mem_signed; // @[issue-slot.scala:56:21] assign io_iss_uop_mem_signed_0 = slot_uop_mem_signed; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_mem_signed = slot_uop_mem_signed; // @[util.scala:104:23] reg slot_uop_uses_ldq; // @[issue-slot.scala:56:21] assign io_iss_uop_uses_ldq_0 = slot_uop_uses_ldq; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_uses_ldq = slot_uop_uses_ldq; // @[util.scala:104:23] reg slot_uop_uses_stq; // @[issue-slot.scala:56:21] assign io_iss_uop_uses_stq_0 = slot_uop_uses_stq; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_uses_stq = slot_uop_uses_stq; // @[util.scala:104:23] reg slot_uop_is_unique; // @[issue-slot.scala:56:21] assign io_iss_uop_is_unique_0 = slot_uop_is_unique; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_is_unique = slot_uop_is_unique; // @[util.scala:104:23] reg slot_uop_flush_on_commit; // @[issue-slot.scala:56:21] assign io_iss_uop_flush_on_commit_0 = slot_uop_flush_on_commit; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_flush_on_commit = slot_uop_flush_on_commit; // @[util.scala:104:23] reg [2:0] slot_uop_csr_cmd; // @[issue-slot.scala:56:21] assign io_iss_uop_csr_cmd_0 = slot_uop_csr_cmd; // @[issue-slot.scala:49:7, :56:21] wire [2:0] next_uop_out_csr_cmd = slot_uop_csr_cmd; // @[util.scala:104:23] reg slot_uop_ldst_is_rs1; // @[issue-slot.scala:56:21] assign io_iss_uop_ldst_is_rs1_0 = slot_uop_ldst_is_rs1; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_ldst_is_rs1 = slot_uop_ldst_is_rs1; // @[util.scala:104:23] reg [5:0] slot_uop_ldst; // @[issue-slot.scala:56:21] assign io_iss_uop_ldst_0 = slot_uop_ldst; // @[issue-slot.scala:49:7, :56:21] wire [5:0] next_uop_out_ldst = slot_uop_ldst; // @[util.scala:104:23] reg [5:0] slot_uop_lrs1; // @[issue-slot.scala:56:21] assign io_iss_uop_lrs1_0 = slot_uop_lrs1; // @[issue-slot.scala:49:7, :56:21] wire [5:0] next_uop_out_lrs1 = slot_uop_lrs1; // @[util.scala:104:23] reg [5:0] slot_uop_lrs2; // @[issue-slot.scala:56:21] assign io_iss_uop_lrs2_0 = slot_uop_lrs2; // @[issue-slot.scala:49:7, :56:21] wire [5:0] next_uop_out_lrs2 = slot_uop_lrs2; // @[util.scala:104:23] reg [5:0] slot_uop_lrs3; // @[issue-slot.scala:56:21] assign io_iss_uop_lrs3_0 = slot_uop_lrs3; // @[issue-slot.scala:49:7, :56:21] wire [5:0] next_uop_out_lrs3 = slot_uop_lrs3; // @[util.scala:104:23] reg [1:0] slot_uop_dst_rtype; // @[issue-slot.scala:56:21] assign io_iss_uop_dst_rtype_0 = slot_uop_dst_rtype; // @[issue-slot.scala:49:7, :56:21] wire [1:0] next_uop_out_dst_rtype = slot_uop_dst_rtype; // @[util.scala:104:23] reg [1:0] slot_uop_lrs1_rtype; // @[issue-slot.scala:56:21] assign io_iss_uop_lrs1_rtype_0 = slot_uop_lrs1_rtype; // @[issue-slot.scala:49:7, :56:21] wire [1:0] next_uop_out_lrs1_rtype = slot_uop_lrs1_rtype; // @[util.scala:104:23] reg [1:0] slot_uop_lrs2_rtype; // @[issue-slot.scala:56:21] assign io_iss_uop_lrs2_rtype_0 = slot_uop_lrs2_rtype; // @[issue-slot.scala:49:7, :56:21] wire [1:0] next_uop_out_lrs2_rtype = slot_uop_lrs2_rtype; // @[util.scala:104:23] reg slot_uop_frs3_en; // @[issue-slot.scala:56:21] assign io_iss_uop_frs3_en_0 = slot_uop_frs3_en; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_frs3_en = slot_uop_frs3_en; // @[util.scala:104:23] reg slot_uop_fcn_dw; // @[issue-slot.scala:56:21] assign io_iss_uop_fcn_dw_0 = slot_uop_fcn_dw; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fcn_dw = slot_uop_fcn_dw; // @[util.scala:104:23] reg [4:0] slot_uop_fcn_op; // @[issue-slot.scala:56:21] assign io_iss_uop_fcn_op_0 = slot_uop_fcn_op; // @[issue-slot.scala:49:7, :56:21] wire [4:0] next_uop_out_fcn_op = slot_uop_fcn_op; // @[util.scala:104:23] reg slot_uop_fp_val; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_val_0 = slot_uop_fp_val; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_fp_val = slot_uop_fp_val; // @[util.scala:104:23] reg [2:0] slot_uop_fp_rm; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_rm_0 = slot_uop_fp_rm; // @[issue-slot.scala:49:7, :56:21] wire [2:0] next_uop_out_fp_rm = slot_uop_fp_rm; // @[util.scala:104:23] reg [1:0] slot_uop_fp_typ; // @[issue-slot.scala:56:21] assign io_iss_uop_fp_typ_0 = slot_uop_fp_typ; // @[issue-slot.scala:49:7, :56:21] wire [1:0] next_uop_out_fp_typ = slot_uop_fp_typ; // @[util.scala:104:23] reg slot_uop_xcpt_pf_if; // @[issue-slot.scala:56:21] assign io_iss_uop_xcpt_pf_if_0 = slot_uop_xcpt_pf_if; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_xcpt_pf_if = slot_uop_xcpt_pf_if; // @[util.scala:104:23] reg slot_uop_xcpt_ae_if; // @[issue-slot.scala:56:21] assign io_iss_uop_xcpt_ae_if_0 = slot_uop_xcpt_ae_if; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_xcpt_ae_if = slot_uop_xcpt_ae_if; // @[util.scala:104:23] reg slot_uop_xcpt_ma_if; // @[issue-slot.scala:56:21] assign io_iss_uop_xcpt_ma_if_0 = slot_uop_xcpt_ma_if; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_xcpt_ma_if = slot_uop_xcpt_ma_if; // @[util.scala:104:23] reg slot_uop_bp_debug_if; // @[issue-slot.scala:56:21] assign io_iss_uop_bp_debug_if_0 = slot_uop_bp_debug_if; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_bp_debug_if = slot_uop_bp_debug_if; // @[util.scala:104:23] reg slot_uop_bp_xcpt_if; // @[issue-slot.scala:56:21] assign io_iss_uop_bp_xcpt_if_0 = slot_uop_bp_xcpt_if; // @[issue-slot.scala:49:7, :56:21] wire next_uop_out_bp_xcpt_if = slot_uop_bp_xcpt_if; // @[util.scala:104:23] reg [2:0] slot_uop_debug_fsrc; // @[issue-slot.scala:56:21] assign io_iss_uop_debug_fsrc_0 = slot_uop_debug_fsrc; // @[issue-slot.scala:49:7, :56:21] wire [2:0] next_uop_out_debug_fsrc = slot_uop_debug_fsrc; // @[util.scala:104:23] reg [2:0] slot_uop_debug_tsrc; // @[issue-slot.scala:56:21] assign io_iss_uop_debug_tsrc_0 = slot_uop_debug_tsrc; // @[issue-slot.scala:49:7, :56:21] wire [2:0] next_uop_out_debug_tsrc = slot_uop_debug_tsrc; // @[util.scala:104:23] wire next_valid; // @[issue-slot.scala:58:28] assign next_uop_inst = next_uop_out_inst; // @[util.scala:104:23] assign next_uop_debug_inst = next_uop_out_debug_inst; // @[util.scala:104:23] assign next_uop_is_rvc = next_uop_out_is_rvc; // @[util.scala:104:23] assign next_uop_debug_pc = next_uop_out_debug_pc; // @[util.scala:104:23] assign next_uop_iq_type_0 = next_uop_out_iq_type_0; // @[util.scala:104:23] assign next_uop_iq_type_1 = next_uop_out_iq_type_1; // @[util.scala:104:23] assign next_uop_iq_type_2 = next_uop_out_iq_type_2; // @[util.scala:104:23] assign next_uop_iq_type_3 = next_uop_out_iq_type_3; // @[util.scala:104:23] assign next_uop_fu_code_0 = next_uop_out_fu_code_0; // @[util.scala:104:23] assign next_uop_fu_code_1 = next_uop_out_fu_code_1; // @[util.scala:104:23] assign next_uop_fu_code_2 = next_uop_out_fu_code_2; // @[util.scala:104:23] assign next_uop_fu_code_3 = next_uop_out_fu_code_3; // @[util.scala:104:23] assign next_uop_fu_code_4 = next_uop_out_fu_code_4; // @[util.scala:104:23] assign next_uop_fu_code_5 = next_uop_out_fu_code_5; // @[util.scala:104:23] assign next_uop_fu_code_6 = next_uop_out_fu_code_6; // @[util.scala:104:23] assign next_uop_fu_code_7 = next_uop_out_fu_code_7; // @[util.scala:104:23] assign next_uop_fu_code_8 = next_uop_out_fu_code_8; // @[util.scala:104:23] assign next_uop_fu_code_9 = next_uop_out_fu_code_9; // @[util.scala:104:23] wire [11:0] _next_uop_out_br_mask_T_1; // @[util.scala:93:25] assign next_uop_dis_col_sel = next_uop_out_dis_col_sel; // @[util.scala:104:23] assign next_uop_br_mask = next_uop_out_br_mask; // @[util.scala:104:23] assign next_uop_br_tag = next_uop_out_br_tag; // @[util.scala:104:23] assign next_uop_br_type = next_uop_out_br_type; // @[util.scala:104:23] assign next_uop_is_sfb = next_uop_out_is_sfb; // @[util.scala:104:23] assign next_uop_is_fence = next_uop_out_is_fence; // @[util.scala:104:23] assign next_uop_is_fencei = next_uop_out_is_fencei; // @[util.scala:104:23] assign next_uop_is_sfence = next_uop_out_is_sfence; // @[util.scala:104:23] assign next_uop_is_amo = next_uop_out_is_amo; // @[util.scala:104:23] assign next_uop_is_eret = next_uop_out_is_eret; // @[util.scala:104:23] assign next_uop_is_sys_pc2epc = next_uop_out_is_sys_pc2epc; // @[util.scala:104:23] assign next_uop_is_rocc = next_uop_out_is_rocc; // @[util.scala:104:23] assign next_uop_is_mov = next_uop_out_is_mov; // @[util.scala:104:23] assign next_uop_ftq_idx = next_uop_out_ftq_idx; // @[util.scala:104:23] assign next_uop_edge_inst = next_uop_out_edge_inst; // @[util.scala:104:23] assign next_uop_pc_lob = next_uop_out_pc_lob; // @[util.scala:104:23] assign next_uop_taken = next_uop_out_taken; // @[util.scala:104:23] assign next_uop_imm_rename = next_uop_out_imm_rename; // @[util.scala:104:23] assign next_uop_imm_sel = next_uop_out_imm_sel; // @[util.scala:104:23] assign next_uop_pimm = next_uop_out_pimm; // @[util.scala:104:23] assign next_uop_imm_packed = next_uop_out_imm_packed; // @[util.scala:104:23] assign next_uop_op1_sel = next_uop_out_op1_sel; // @[util.scala:104:23] assign next_uop_op2_sel = next_uop_out_op2_sel; // @[util.scala:104:23] assign next_uop_fp_ctrl_ldst = next_uop_out_fp_ctrl_ldst; // @[util.scala:104:23] assign next_uop_fp_ctrl_wen = next_uop_out_fp_ctrl_wen; // @[util.scala:104:23] assign next_uop_fp_ctrl_ren1 = next_uop_out_fp_ctrl_ren1; // @[util.scala:104:23] assign next_uop_fp_ctrl_ren2 = next_uop_out_fp_ctrl_ren2; // @[util.scala:104:23] assign next_uop_fp_ctrl_ren3 = next_uop_out_fp_ctrl_ren3; // @[util.scala:104:23] assign next_uop_fp_ctrl_swap12 = next_uop_out_fp_ctrl_swap12; // @[util.scala:104:23] assign next_uop_fp_ctrl_swap23 = next_uop_out_fp_ctrl_swap23; // @[util.scala:104:23] assign next_uop_fp_ctrl_typeTagIn = next_uop_out_fp_ctrl_typeTagIn; // @[util.scala:104:23] assign next_uop_fp_ctrl_typeTagOut = next_uop_out_fp_ctrl_typeTagOut; // @[util.scala:104:23] assign next_uop_fp_ctrl_fromint = next_uop_out_fp_ctrl_fromint; // @[util.scala:104:23] assign next_uop_fp_ctrl_toint = next_uop_out_fp_ctrl_toint; // @[util.scala:104:23] assign next_uop_fp_ctrl_fastpipe = next_uop_out_fp_ctrl_fastpipe; // @[util.scala:104:23] assign next_uop_fp_ctrl_fma = next_uop_out_fp_ctrl_fma; // @[util.scala:104:23] assign next_uop_fp_ctrl_div = next_uop_out_fp_ctrl_div; // @[util.scala:104:23] assign next_uop_fp_ctrl_sqrt = next_uop_out_fp_ctrl_sqrt; // @[util.scala:104:23] assign next_uop_fp_ctrl_wflags = next_uop_out_fp_ctrl_wflags; // @[util.scala:104:23] assign next_uop_fp_ctrl_vec = next_uop_out_fp_ctrl_vec; // @[util.scala:104:23] assign next_uop_rob_idx = next_uop_out_rob_idx; // @[util.scala:104:23] assign next_uop_ldq_idx = next_uop_out_ldq_idx; // @[util.scala:104:23] assign next_uop_stq_idx = next_uop_out_stq_idx; // @[util.scala:104:23] assign next_uop_rxq_idx = next_uop_out_rxq_idx; // @[util.scala:104:23] assign next_uop_pdst = next_uop_out_pdst; // @[util.scala:104:23] assign next_uop_prs1 = next_uop_out_prs1; // @[util.scala:104:23] assign next_uop_prs2 = next_uop_out_prs2; // @[util.scala:104:23] assign next_uop_prs3 = next_uop_out_prs3; // @[util.scala:104:23] assign next_uop_ppred = next_uop_out_ppred; // @[util.scala:104:23] assign next_uop_ppred_busy = next_uop_out_ppred_busy; // @[util.scala:104:23] assign next_uop_stale_pdst = next_uop_out_stale_pdst; // @[util.scala:104:23] assign next_uop_exception = next_uop_out_exception; // @[util.scala:104:23] assign next_uop_exc_cause = next_uop_out_exc_cause; // @[util.scala:104:23] assign next_uop_mem_cmd = next_uop_out_mem_cmd; // @[util.scala:104:23] assign next_uop_mem_size = next_uop_out_mem_size; // @[util.scala:104:23] assign next_uop_mem_signed = next_uop_out_mem_signed; // @[util.scala:104:23] assign next_uop_uses_ldq = next_uop_out_uses_ldq; // @[util.scala:104:23] assign next_uop_uses_stq = next_uop_out_uses_stq; // @[util.scala:104:23] assign next_uop_is_unique = next_uop_out_is_unique; // @[util.scala:104:23] assign next_uop_flush_on_commit = next_uop_out_flush_on_commit; // @[util.scala:104:23] assign next_uop_csr_cmd = next_uop_out_csr_cmd; // @[util.scala:104:23] assign next_uop_ldst_is_rs1 = next_uop_out_ldst_is_rs1; // @[util.scala:104:23] assign next_uop_ldst = next_uop_out_ldst; // @[util.scala:104:23] assign next_uop_lrs1 = next_uop_out_lrs1; // @[util.scala:104:23] assign next_uop_lrs2 = next_uop_out_lrs2; // @[util.scala:104:23] assign next_uop_lrs3 = next_uop_out_lrs3; // @[util.scala:104:23] assign next_uop_dst_rtype = next_uop_out_dst_rtype; // @[util.scala:104:23] assign next_uop_lrs1_rtype = next_uop_out_lrs1_rtype; // @[util.scala:104:23] assign next_uop_lrs2_rtype = next_uop_out_lrs2_rtype; // @[util.scala:104:23] assign next_uop_frs3_en = next_uop_out_frs3_en; // @[util.scala:104:23] assign next_uop_fcn_dw = next_uop_out_fcn_dw; // @[util.scala:104:23] assign next_uop_fcn_op = next_uop_out_fcn_op; // @[util.scala:104:23] assign next_uop_fp_val = next_uop_out_fp_val; // @[util.scala:104:23] assign next_uop_fp_rm = next_uop_out_fp_rm; // @[util.scala:104:23] assign next_uop_fp_typ = next_uop_out_fp_typ; // @[util.scala:104:23] assign next_uop_xcpt_pf_if = next_uop_out_xcpt_pf_if; // @[util.scala:104:23] assign next_uop_xcpt_ae_if = next_uop_out_xcpt_ae_if; // @[util.scala:104:23] assign next_uop_xcpt_ma_if = next_uop_out_xcpt_ma_if; // @[util.scala:104:23] assign next_uop_bp_debug_if = next_uop_out_bp_debug_if; // @[util.scala:104:23] assign next_uop_bp_xcpt_if = next_uop_out_bp_xcpt_if; // @[util.scala:104:23] assign next_uop_debug_fsrc = next_uop_out_debug_fsrc; // @[util.scala:104:23] assign next_uop_debug_tsrc = next_uop_out_debug_tsrc; // @[util.scala:104:23] wire [11:0] _next_uop_out_br_mask_T = ~io_brupdate_b1_resolve_mask_0; // @[util.scala:93:27] assign _next_uop_out_br_mask_T_1 = slot_uop_br_mask & _next_uop_out_br_mask_T; // @[util.scala:93:{25,27}] assign next_uop_out_br_mask = _next_uop_out_br_mask_T_1; // @[util.scala:93:25, :104:23] assign io_out_uop_inst_0 = next_uop_inst; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_debug_inst_0 = next_uop_debug_inst; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_is_rvc_0 = next_uop_is_rvc; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_debug_pc_0 = next_uop_debug_pc; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_iq_type_0_0 = next_uop_iq_type_0; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_iq_type_1_0 = next_uop_iq_type_1; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_iq_type_2_0 = next_uop_iq_type_2; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_iq_type_3_0 = next_uop_iq_type_3; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fu_code_0_0 = next_uop_fu_code_0; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fu_code_1_0 = next_uop_fu_code_1; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fu_code_2_0 = next_uop_fu_code_2; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fu_code_3_0 = next_uop_fu_code_3; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fu_code_4_0 = next_uop_fu_code_4; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fu_code_5_0 = next_uop_fu_code_5; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fu_code_6_0 = next_uop_fu_code_6; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fu_code_7_0 = next_uop_fu_code_7; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fu_code_8_0 = next_uop_fu_code_8; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fu_code_9_0 = next_uop_fu_code_9; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_iw_issued_0 = next_uop_iw_issued; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_iw_p1_bypass_hint_0 = next_uop_iw_p1_bypass_hint; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_iw_p2_bypass_hint_0 = next_uop_iw_p2_bypass_hint; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_iw_p3_bypass_hint_0 = next_uop_iw_p3_bypass_hint; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_dis_col_sel_0 = next_uop_dis_col_sel; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_br_mask_0 = next_uop_br_mask; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_br_tag_0 = next_uop_br_tag; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_br_type_0 = next_uop_br_type; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_is_sfb_0 = next_uop_is_sfb; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_is_fence_0 = next_uop_is_fence; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_is_fencei_0 = next_uop_is_fencei; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_is_sfence_0 = next_uop_is_sfence; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_is_amo_0 = next_uop_is_amo; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_is_eret_0 = next_uop_is_eret; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_is_sys_pc2epc_0 = next_uop_is_sys_pc2epc; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_is_rocc_0 = next_uop_is_rocc; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_is_mov_0 = next_uop_is_mov; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_ftq_idx_0 = next_uop_ftq_idx; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_edge_inst_0 = next_uop_edge_inst; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_pc_lob_0 = next_uop_pc_lob; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_taken_0 = next_uop_taken; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_imm_rename_0 = next_uop_imm_rename; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_imm_sel_0 = next_uop_imm_sel; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_pimm_0 = next_uop_pimm; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_imm_packed_0 = next_uop_imm_packed; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_op1_sel_0 = next_uop_op1_sel; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_op2_sel_0 = next_uop_op2_sel; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_ldst_0 = next_uop_fp_ctrl_ldst; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_wen_0 = next_uop_fp_ctrl_wen; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_ren1_0 = next_uop_fp_ctrl_ren1; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_ren2_0 = next_uop_fp_ctrl_ren2; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_ren3_0 = next_uop_fp_ctrl_ren3; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_swap12_0 = next_uop_fp_ctrl_swap12; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_swap23_0 = next_uop_fp_ctrl_swap23; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_typeTagIn_0 = next_uop_fp_ctrl_typeTagIn; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_typeTagOut_0 = next_uop_fp_ctrl_typeTagOut; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_fromint_0 = next_uop_fp_ctrl_fromint; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_toint_0 = next_uop_fp_ctrl_toint; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_fastpipe_0 = next_uop_fp_ctrl_fastpipe; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_fma_0 = next_uop_fp_ctrl_fma; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_div_0 = next_uop_fp_ctrl_div; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_sqrt_0 = next_uop_fp_ctrl_sqrt; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_wflags_0 = next_uop_fp_ctrl_wflags; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_ctrl_vec_0 = next_uop_fp_ctrl_vec; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_rob_idx_0 = next_uop_rob_idx; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_ldq_idx_0 = next_uop_ldq_idx; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_stq_idx_0 = next_uop_stq_idx; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_rxq_idx_0 = next_uop_rxq_idx; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_pdst_0 = next_uop_pdst; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_prs1_0 = next_uop_prs1; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_prs2_0 = next_uop_prs2; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_prs3_0 = next_uop_prs3; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_ppred_0 = next_uop_ppred; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_prs1_busy_0 = next_uop_prs1_busy; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_prs2_busy_0 = next_uop_prs2_busy; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_prs3_busy_0 = next_uop_prs3_busy; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_ppred_busy_0 = next_uop_ppred_busy; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_stale_pdst_0 = next_uop_stale_pdst; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_exception_0 = next_uop_exception; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_exc_cause_0 = next_uop_exc_cause; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_mem_cmd_0 = next_uop_mem_cmd; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_mem_size_0 = next_uop_mem_size; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_mem_signed_0 = next_uop_mem_signed; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_uses_ldq_0 = next_uop_uses_ldq; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_uses_stq_0 = next_uop_uses_stq; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_is_unique_0 = next_uop_is_unique; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_flush_on_commit_0 = next_uop_flush_on_commit; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_csr_cmd_0 = next_uop_csr_cmd; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_ldst_is_rs1_0 = next_uop_ldst_is_rs1; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_ldst_0 = next_uop_ldst; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_lrs1_0 = next_uop_lrs1; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_lrs2_0 = next_uop_lrs2; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_lrs3_0 = next_uop_lrs3; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_dst_rtype_0 = next_uop_dst_rtype; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_lrs1_rtype_0 = next_uop_lrs1_rtype; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_lrs2_rtype_0 = next_uop_lrs2_rtype; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_frs3_en_0 = next_uop_frs3_en; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fcn_dw_0 = next_uop_fcn_dw; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fcn_op_0 = next_uop_fcn_op; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_val_0 = next_uop_fp_val; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_rm_0 = next_uop_fp_rm; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_fp_typ_0 = next_uop_fp_typ; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_xcpt_pf_if_0 = next_uop_xcpt_pf_if; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_xcpt_ae_if_0 = next_uop_xcpt_ae_if; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_xcpt_ma_if_0 = next_uop_xcpt_ma_if; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_bp_debug_if_0 = next_uop_bp_debug_if; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_bp_xcpt_if_0 = next_uop_bp_xcpt_if; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_debug_fsrc_0 = next_uop_debug_fsrc; // @[issue-slot.scala:49:7, :59:28] assign io_out_uop_debug_tsrc_0 = next_uop_debug_tsrc; // @[issue-slot.scala:49:7, :59:28] wire [11:0] _killed_T = io_brupdate_b1_mispredict_mask_0 & slot_uop_br_mask; // @[util.scala:126:51] wire _killed_T_1 = |_killed_T; // @[util.scala:126:{51,59}] wire killed = _killed_T_1 | io_kill_0; // @[util.scala:61:61, :126:59] wire _io_will_be_valid_T = ~killed; // @[util.scala:61:61] assign _io_will_be_valid_T_1 = next_valid & _io_will_be_valid_T; // @[issue-slot.scala:58:28, :65:{34,37}] assign io_will_be_valid_0 = _io_will_be_valid_T_1; // @[issue-slot.scala:49:7, :65:34] wire _slot_valid_T = ~killed; // @[util.scala:61:61] wire _slot_valid_T_1 = next_valid & _slot_valid_T; // @[issue-slot.scala:58:28, :74:{30,33}]
Generate the Verilog code corresponding to the following Chisel files. File tage.scala: package boom.v4.ifu import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.{Field, Parameters} import freechips.rocketchip.diplomacy._ import freechips.rocketchip.tilelink._ import boom.v4.common._ import boom.v4.util.{BoomCoreStringPrefix, MaskLower, WrapInc} import scala.math.min class TageResp extends Bundle { val ctr = UInt(3.W) val u = UInt(2.W) } class TageTable(val nRows: Int, val tagSz: Int, val histLength: Int, val uBitPeriod: Int, val singlePorted: Boolean) (implicit p: Parameters) extends BoomModule()(p) with HasBoomFrontendParameters { require(histLength <= globalHistoryLength) val nWrBypassEntries = 2 val io = IO( new Bundle { val f1_req_valid = Input(Bool()) val f1_req_pc = Input(UInt(vaddrBitsExtended.W)) val f1_req_ghist = Input(UInt(globalHistoryLength.W)) val f2_resp = Output(Vec(bankWidth, Valid(new TageResp))) val update_mask = Input(Vec(bankWidth, Bool())) val update_taken = Input(Vec(bankWidth, Bool())) val update_alloc = Input(Vec(bankWidth, Bool())) val update_old_ctr = Input(Vec(bankWidth, UInt(3.W))) val update_pc = Input(UInt()) val update_hist = Input(UInt()) val update_u_mask = Input(Vec(bankWidth, Bool())) val update_u = Input(Vec(bankWidth, UInt(2.W))) }) def compute_folded_hist(hist: UInt, l: Int) = { val nChunks = (histLength + l - 1) / l val hist_chunks = (0 until nChunks) map {i => hist(min((i+1)*l, histLength)-1, i*l) } hist_chunks.reduce(_^_) } def compute_tag_and_hash(unhashed_idx: UInt, hist: UInt) = { val idx_history = compute_folded_hist(hist, log2Ceil(nRows)) val idx = (unhashed_idx ^ idx_history)(log2Ceil(nRows)-1,0) val tag_history = compute_folded_hist(hist, tagSz) val tag = ((unhashed_idx >> log2Ceil(nRows)) ^ tag_history)(tagSz-1,0) (idx, tag) } def inc_ctr(ctr: UInt, taken: Bool): UInt = { Mux(!taken, Mux(ctr === 0.U, 0.U, ctr - 1.U), Mux(ctr === 7.U, 7.U, ctr + 1.U)) } val doing_reset = RegInit(true.B) val reset_idx = RegInit(0.U(log2Ceil(nRows).W)) reset_idx := reset_idx + doing_reset when (reset_idx === (nRows-1).U) { doing_reset := false.B } class TageEntry extends Bundle { val valid = Bool() // TODO: Remove this valid bit val tag = UInt(tagSz.W) val ctr = UInt(3.W) } val tageEntrySz = 1 + tagSz + 3 val (s1_hashed_idx, s1_tag) = compute_tag_and_hash(fetchIdx(io.f1_req_pc), io.f1_req_ghist) val us = SyncReadMem(nRows, Vec(bankWidth*2, Bool())) val table = SyncReadMem(nRows, Vec(bankWidth, UInt(tageEntrySz.W))) us.suggestName(s"tage_u_${histLength}") table.suggestName(s"tage_table_${histLength}") val mems = Seq((f"tage_l$histLength", nRows, bankWidth * tageEntrySz)) val s2_tag = RegNext(s1_tag) val s2_req_rtage = Wire(Vec(bankWidth, new TageEntry)) val s2_req_rus = Wire(Vec(bankWidth*2, Bool())) val s2_req_rhits = VecInit(s2_req_rtage.map(e => e.valid && e.tag === s2_tag && !doing_reset)) for (w <- 0 until bankWidth) { // This bit indicates the TAGE table matched here io.f2_resp(w).valid := s2_req_rhits(w) io.f2_resp(w).bits.u := Cat(s2_req_rus(w*2+1), s2_req_rus(w*2)) io.f2_resp(w).bits.ctr := s2_req_rtage(w).ctr } val clear_u_ctr = RegInit(0.U((log2Ceil(uBitPeriod) + log2Ceil(nRows) + 1).W)) when (doing_reset) { clear_u_ctr := 1.U } .otherwise { clear_u_ctr := clear_u_ctr + 1.U } val doing_clear_u = clear_u_ctr(log2Ceil(uBitPeriod)-1,0) === 0.U val clear_u_hi = clear_u_ctr(log2Ceil(uBitPeriod) + log2Ceil(nRows)) === 1.U val clear_u_lo = clear_u_ctr(log2Ceil(uBitPeriod) + log2Ceil(nRows)) === 0.U val clear_u_idx = clear_u_ctr >> log2Ceil(uBitPeriod) val clear_u_mask = VecInit((0 until bankWidth*2) map { i => if (i % 2 == 0) clear_u_lo else clear_u_hi }).asUInt val (update_idx, update_tag) = compute_tag_and_hash(fetchIdx(io.update_pc), io.update_hist) val update_wdata = Wire(Vec(bankWidth, new TageEntry)) val wen = WireInit(doing_reset || io.update_mask.reduce(_||_)) val rdata = if (singlePorted) table.read(s1_hashed_idx, !wen && io.f1_req_valid) else table.read(s1_hashed_idx, io.f1_req_valid) when (RegNext(wen) && singlePorted.B) { s2_req_rtage := 0.U.asTypeOf(Vec(bankWidth, new TageEntry)) } .otherwise { s2_req_rtage := VecInit(rdata.map(_.asTypeOf(new TageEntry))) } when (wen) { val widx = Mux(doing_reset, reset_idx, update_idx) val wdata = Mux(doing_reset, VecInit(Seq.fill(bankWidth) { 0.U(tageEntrySz.W) }), VecInit(update_wdata.map(_.asUInt))) val wmask = Mux(doing_reset, ~(0.U(bankWidth.W)), io.update_mask.asUInt) table.write(widx, wdata, wmask.asBools) } val update_u_mask = VecInit((0 until bankWidth*2) map {i => io.update_u_mask(i / 2)}) val update_u_wen = WireInit(doing_reset || doing_clear_u || update_u_mask.reduce(_||_)) val u_rdata = if (singlePorted) { us.read(s1_hashed_idx, !update_u_wen && io.f1_req_valid) } else { us.read(s1_hashed_idx, io.f1_req_valid) } s2_req_rus := u_rdata when (update_u_wen) { val widx = Mux(doing_reset, reset_idx, Mux(doing_clear_u, clear_u_idx, update_idx)) val wdata = Mux(doing_reset || doing_clear_u, VecInit(0.U((bankWidth*2).W).asBools), VecInit(io.update_u.asUInt.asBools)) val wmask = Mux(doing_reset, ~(0.U((bankWidth*2).W)), Mux(doing_clear_u, clear_u_mask, update_u_mask.asUInt)) us.write(widx, wdata, wmask.asBools) } val wrbypass_tags = Reg(Vec(nWrBypassEntries, UInt(tagSz.W))) val wrbypass_idxs = Reg(Vec(nWrBypassEntries, UInt(log2Ceil(nRows).W))) val wrbypass = Reg(Vec(nWrBypassEntries, Vec(bankWidth, UInt(3.W)))) val wrbypass_enq_idx = RegInit(0.U(log2Ceil(nWrBypassEntries).W)) val wrbypass_hits = VecInit((0 until nWrBypassEntries) map { i => !doing_reset && wrbypass_tags(i) === update_tag && wrbypass_idxs(i) === update_idx }) val wrbypass_hit = wrbypass_hits.reduce(_||_) val wrbypass_hit_idx = PriorityEncoder(wrbypass_hits) for (w <- 0 until bankWidth) { update_wdata(w).ctr := Mux(io.update_alloc(w), Mux(io.update_taken(w), 4.U, 3.U ), Mux(wrbypass_hit, inc_ctr(wrbypass(wrbypass_hit_idx)(w), io.update_taken(w)), inc_ctr(io.update_old_ctr(w), io.update_taken(w)) ) ) update_wdata(w).valid := true.B update_wdata(w).tag := update_tag } when (io.update_mask.reduce(_||_)) { when (wrbypass_hits.reduce(_||_)) { wrbypass(wrbypass_hit_idx) := VecInit(update_wdata.map(_.ctr)) } .otherwise { wrbypass (wrbypass_enq_idx) := VecInit(update_wdata.map(_.ctr)) wrbypass_tags(wrbypass_enq_idx) := update_tag wrbypass_idxs(wrbypass_enq_idx) := update_idx wrbypass_enq_idx := WrapInc(wrbypass_enq_idx, nWrBypassEntries) } } } case class BoomTageParams( // nSets, histLen, tagSz tableInfo: Seq[Tuple3[Int, Int, Int]] = Seq(( 128, 2, 7), ( 128, 4, 7), ( 256, 8, 8), ( 256, 16, 8), ( 128, 32, 9), ( 128, 64, 9)), uBitPeriod: Int = 2048, singlePorted: Boolean = false ) class TageBranchPredictorBank(params: BoomTageParams = BoomTageParams())(implicit p: Parameters) extends BranchPredictorBank()(p) { val tageUBitPeriod = params.uBitPeriod val tageNTables = params.tableInfo.size class TageMeta extends Bundle { val provider = Vec(bankWidth, Valid(UInt(log2Ceil(tageNTables).W))) val alt_differs = Vec(bankWidth, Output(Bool())) val provider_u = Vec(bankWidth, Output(UInt(2.W))) val provider_ctr = Vec(bankWidth, Output(UInt(3.W))) val allocate = Vec(bankWidth, Valid(UInt(log2Ceil(tageNTables).W))) } val f3_meta = Wire(new TageMeta) override val metaSz = f3_meta.asUInt.getWidth require(metaSz <= bpdMaxMetaLength) def inc_u(u: UInt, alt_differs: Bool, mispredict: Bool): UInt = { Mux(!alt_differs, u, Mux(mispredict, Mux(u === 0.U, 0.U, u - 1.U), Mux(u === 3.U, 3.U, u + 1.U))) } val tt = params.tableInfo map { case (n, l, s) => { val t = Module(new TageTable(n, s, l, params.uBitPeriod, params.singlePorted)) t.io.f1_req_valid := RegNext(io.f0_valid) t.io.f1_req_pc := RegNext(bankAlign(io.f0_pc)) t.io.f1_req_ghist := io.f1_ghist (t, t.mems) } } val tables = tt.map(_._1) val mems = tt.map(_._2).flatten val f2_resps = VecInit(tables.map(_.io.f2_resp)) val f3_resps = RegNext(f2_resps) val s1_update_meta = s1_update.bits.meta.asTypeOf(new TageMeta) val s1_update_mispredict_mask = UIntToOH(s1_update.bits.cfi_idx.bits) & Fill(bankWidth, s1_update.bits.cfi_mispredicted) val s1_update_mask = WireInit((0.U).asTypeOf(Vec(tageNTables, Vec(bankWidth, Bool())))) val s1_update_u_mask = WireInit((0.U).asTypeOf(Vec(tageNTables, Vec(bankWidth, UInt(1.W))))) val s1_update_taken = Wire(Vec(tageNTables, Vec(bankWidth, Bool()))) val s1_update_old_ctr = Wire(Vec(tageNTables, Vec(bankWidth, UInt(3.W)))) val s1_update_alloc = Wire(Vec(tageNTables, Vec(bankWidth, Bool()))) val s1_update_u = Wire(Vec(tageNTables, Vec(bankWidth, UInt(2.W)))) s1_update_taken := DontCare s1_update_old_ctr := DontCare s1_update_alloc := DontCare s1_update_u := DontCare for (w <- 0 until bankWidth) { var s2_provided = false.B var s2_provider = 0.U var s2_alt_provided = false.B var s2_alt_provider = 0.U for (i <- 0 until tageNTables) { val hit = f2_resps(i)(w).valid s2_alt_provided = s2_alt_provided || (s2_provided && hit) s2_provided = s2_provided || hit s2_alt_provider = Mux(hit, s2_provider, s2_alt_provider) s2_provider = Mux(hit, i.U, s2_provider) } val s3_provided = RegNext(s2_provided) val s3_provider = RegNext(s2_provider) val s3_alt_provided = RegNext(s2_alt_provided) val s3_alt_provider = RegNext(s2_alt_provider) val prov = RegNext(f2_resps(s2_provider)(w).bits) val alt = RegNext(f2_resps(s2_alt_provider)(w).bits) io.resp.f3(w).taken := Mux(s3_provided, Mux(prov.ctr === 3.U || prov.ctr === 4.U, Mux(s3_alt_provided, alt.ctr(2), io.resp_in(0).f3(w).taken), prov.ctr(2)), io.resp_in(0).f3(w).taken ) f3_meta.provider(w).valid := s3_provided f3_meta.provider(w).bits := s3_provider f3_meta.alt_differs(w) := s3_alt_provided && alt.ctr(2) =/= io.resp.f3(w).taken f3_meta.provider_u(w) := prov.u f3_meta.provider_ctr(w) := prov.ctr // Create a mask of tables which did not hit our query, and also contain useless entries // and also uses a longer history than the provider val allocatable_slots = ( VecInit(f3_resps.map(r => !r(w).valid && r(w).bits.u === 0.U)).asUInt & ~(MaskLower(UIntToOH(f3_meta.provider(w).bits)) & Fill(tageNTables, f3_meta.provider(w).valid)) ) val alloc_lfsr = random.LFSR(tageNTables max 2) val first_entry = PriorityEncoder(allocatable_slots) val masked_entry = PriorityEncoder(allocatable_slots & alloc_lfsr) val alloc_entry = Mux(allocatable_slots(masked_entry), masked_entry, first_entry) f3_meta.allocate(w).valid := allocatable_slots =/= 0.U f3_meta.allocate(w).bits := alloc_entry val update_was_taken = (s1_update.bits.cfi_idx.valid && (s1_update.bits.cfi_idx.bits === w.U) && s1_update.bits.cfi_taken) when (s1_update.bits.br_mask(w) && s1_update.valid && s1_update.bits.is_commit_update) { when (s1_update_meta.provider(w).valid) { val provider = s1_update_meta.provider(w).bits s1_update_mask(provider)(w) := true.B s1_update_u_mask(provider)(w) := true.B val new_u = inc_u(s1_update_meta.provider_u(w), s1_update_meta.alt_differs(w), s1_update_mispredict_mask(w)) s1_update_u (provider)(w) := new_u s1_update_taken (provider)(w) := update_was_taken s1_update_old_ctr(provider)(w) := s1_update_meta.provider_ctr(w) s1_update_alloc (provider)(w) := false.B } } } when (s1_update.valid && s1_update.bits.is_commit_update && s1_update.bits.cfi_mispredicted && s1_update.bits.cfi_idx.valid) { val idx = s1_update.bits.cfi_idx.bits val allocate = s1_update_meta.allocate(idx) when (allocate.valid) { s1_update_mask (allocate.bits)(idx) := true.B s1_update_taken(allocate.bits)(idx) := s1_update.bits.cfi_taken s1_update_alloc(allocate.bits)(idx) := true.B s1_update_u_mask(allocate.bits)(idx) := true.B s1_update_u (allocate.bits)(idx) := 0.U } .otherwise { val provider = s1_update_meta.provider(idx) val decr_mask = Mux(provider.valid, ~MaskLower(UIntToOH(provider.bits)), 0.U) for (i <- 0 until tageNTables) { when (decr_mask(i)) { s1_update_u_mask(i)(idx) := true.B s1_update_u (i)(idx) := 0.U } } } } for (i <- 0 until tageNTables) { for (w <- 0 until bankWidth) { tables(i).io.update_mask(w) := RegNext(s1_update_mask(i)(w)) tables(i).io.update_taken(w) := RegNext(s1_update_taken(i)(w)) tables(i).io.update_alloc(w) := RegNext(s1_update_alloc(i)(w)) tables(i).io.update_old_ctr(w) := RegNext(s1_update_old_ctr(i)(w)) tables(i).io.update_u_mask(w) := RegNext(s1_update_u_mask(i)(w)) tables(i).io.update_u(w) := RegNext(s1_update_u(i)(w)) } tables(i).io.update_pc := RegNext(s1_update.bits.pc) tables(i).io.update_hist := RegNext(s1_update.bits.ghist) } //io.f3_meta := Cat(f3_meta.asUInt, micro.io.f3_meta(micro.metaSz-1,0), base.io.f3_meta(base.metaSz-1, 0)) io.f3_meta := f3_meta.asUInt }
module tage_u_2( // @[tage.scala:89:27] input [6:0] R0_addr, input R0_en, input R0_clk, output [7:0] R0_data, input [6:0] W0_addr, input W0_en, input W0_clk, input [7:0] W0_data, input [7:0] W0_mask ); tage_u_2_ext tage_u_2_ext ( // @[tage.scala:89:27] .R0_addr (R0_addr), .R0_en (R0_en), .R0_clk (R0_clk), .R0_data (R0_data), .W0_addr (W0_addr), .W0_en (W0_en), .W0_clk (W0_clk), .W0_data (W0_data), .W0_mask (W0_mask) ); // @[tage.scala:89:27] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Transposer.scala: package gemmini import chisel3._ import chisel3.util._ import Util._ trait Transposer[T <: Data] extends Module { def dim: Int def dataType: T val io = IO(new Bundle { val inRow = Flipped(Decoupled(Vec(dim, dataType))) val outCol = Decoupled(Vec(dim, dataType)) }) } class PipelinedTransposer[T <: Data](val dim: Int, val dataType: T) extends Transposer[T] { require(isPow2(dim)) val regArray = Seq.fill(dim, dim)(Reg(dataType)) val regArrayT = regArray.transpose val sMoveUp :: sMoveLeft :: Nil = Enum(2) val state = RegInit(sMoveUp) val leftCounter = RegInit(0.U(log2Ceil(dim+1).W)) //(io.inRow.fire && state === sMoveLeft, dim+1) val upCounter = RegInit(0.U(log2Ceil(dim+1).W)) //Counter(io.inRow.fire && state === sMoveUp, dim+1) io.outCol.valid := 0.U io.inRow.ready := 0.U switch(state) { is(sMoveUp) { io.inRow.ready := upCounter <= dim.U io.outCol.valid := leftCounter > 0.U when(io.inRow.fire) { upCounter := upCounter + 1.U } when(upCounter === (dim-1).U) { state := sMoveLeft leftCounter := 0.U } when(io.outCol.fire) { leftCounter := leftCounter - 1.U } } is(sMoveLeft) { io.inRow.ready := leftCounter <= dim.U // TODO: this is naive io.outCol.valid := upCounter > 0.U when(leftCounter === (dim-1).U) { state := sMoveUp } when(io.inRow.fire) { leftCounter := leftCounter + 1.U upCounter := 0.U } when(io.outCol.fire) { upCounter := upCounter - 1.U } } } // Propagate input from bottom row to top row systolically in the move up phase // TODO: need to iterate over columns to connect Chisel values of type T // Should be able to operate directly on the Vec, but Seq and Vec don't mix (try Array?) for (colIdx <- 0 until dim) { regArray.foldRight(io.inRow.bits(colIdx)) { case (regRow, prevReg) => when (state === sMoveUp) { regRow(colIdx) := prevReg } regRow(colIdx) } } // Propagate input from right side to left side systolically in the move left phase for (rowIdx <- 0 until dim) { regArrayT.foldRight(io.inRow.bits(rowIdx)) { case (regCol, prevReg) => when (state === sMoveLeft) { regCol(rowIdx) := prevReg } regCol(rowIdx) } } // Pull from the left side or the top side based on the state for (idx <- 0 until dim) { when (state === sMoveUp) { io.outCol.bits(idx) := regArray(0)(idx) }.elsewhen(state === sMoveLeft) { io.outCol.bits(idx) := regArrayT(0)(idx) }.otherwise { io.outCol.bits(idx) := DontCare } } } class AlwaysOutTransposer[T <: Data](val dim: Int, val dataType: T) extends Transposer[T] { require(isPow2(dim)) val LEFT_DIR = 0.U(1.W) val UP_DIR = 1.U(1.W) class PE extends Module { val io = IO(new Bundle { val inR = Input(dataType) val inD = Input(dataType) val outL = Output(dataType) val outU = Output(dataType) val dir = Input(UInt(1.W)) val en = Input(Bool()) }) val reg = RegEnable(Mux(io.dir === LEFT_DIR, io.inR, io.inD), io.en) io.outU := reg io.outL := reg } val pes = Seq.fill(dim,dim)(Module(new PE)) val counter = RegInit(0.U((log2Ceil(dim) max 1).W)) // TODO replace this with a standard Chisel counter val dir = RegInit(LEFT_DIR) // Wire up horizontal signals for (row <- 0 until dim; col <- 0 until dim) { val right_in = if (col == dim-1) io.inRow.bits(row) else pes(row)(col+1).io.outL pes(row)(col).io.inR := right_in } // Wire up vertical signals for (row <- 0 until dim; col <- 0 until dim) { val down_in = if (row == dim-1) io.inRow.bits(col) else pes(row+1)(col).io.outU pes(row)(col).io.inD := down_in } // Wire up global signals pes.flatten.foreach(_.io.dir := dir) pes.flatten.foreach(_.io.en := io.inRow.fire) io.outCol.valid := true.B io.inRow.ready := true.B val left_out = VecInit(pes.transpose.head.map(_.io.outL)) val up_out = VecInit(pes.head.map(_.io.outU)) io.outCol.bits := Mux(dir === LEFT_DIR, left_out, up_out) when (io.inRow.fire) { counter := wrappingAdd(counter, 1.U, dim) } when (counter === (dim-1).U && io.inRow.fire) { dir := ~dir } } class NaiveTransposer[T <: Data](val dim: Int, val dataType: T) extends Transposer[T] { val regArray = Seq.fill(dim, dim)(Reg(dataType)) val regArrayT = regArray.transpose // state = 0 => filling regArray row-wise, state = 1 => draining regArray column-wise val state = RegInit(0.U(1.W)) val countInc = io.inRow.fire || io.outCol.fire val (countValue, countWrap) = Counter(countInc, dim) io.inRow.ready := state === 0.U io.outCol.valid := state === 1.U for (i <- 0 until dim) { for (j <- 0 until dim) { when(countValue === i.U && io.inRow.fire) { regArray(i)(j) := io.inRow.bits(j) } } } for (i <- 0 until dim) { io.outCol.bits(i) := 0.U for (j <- 0 until dim) { when(countValue === j.U) { io.outCol.bits(i) := regArrayT(j)(i) } } } when (io.inRow.fire && countWrap) { state := 1.U } when (io.outCol.fire && countWrap) { state := 0.U } assert(!(state === 0.U) || !io.outCol.fire) assert(!(state === 1.U) || !io.inRow.fire) }
module PE_134( // @[Transposer.scala:100:9] input clock, // @[Transposer.scala:100:9] input reset, // @[Transposer.scala:100:9] input [7:0] io_inR, // @[Transposer.scala:101:16] input [7:0] io_inD, // @[Transposer.scala:101:16] output [7:0] io_outL, // @[Transposer.scala:101:16] output [7:0] io_outU, // @[Transposer.scala:101:16] input io_dir, // @[Transposer.scala:101:16] input io_en // @[Transposer.scala:101:16] ); wire [7:0] io_inR_0 = io_inR; // @[Transposer.scala:100:9] wire [7:0] io_inD_0 = io_inD; // @[Transposer.scala:100:9] wire io_dir_0 = io_dir; // @[Transposer.scala:100:9] wire io_en_0 = io_en; // @[Transposer.scala:100:9] wire [7:0] io_outL_0; // @[Transposer.scala:100:9] wire [7:0] io_outU_0; // @[Transposer.scala:100:9] wire _reg_T = ~io_dir_0; // @[Transposer.scala:100:9, :110:36] wire [7:0] _reg_T_1 = _reg_T ? io_inR_0 : io_inD_0; // @[Transposer.scala:100:9, :110:{28,36}] reg [7:0] reg_0; // @[Transposer.scala:110:24] assign io_outL_0 = reg_0; // @[Transposer.scala:100:9, :110:24] assign io_outU_0 = reg_0; // @[Transposer.scala:100:9, :110:24] always @(posedge clock) begin // @[Transposer.scala:100:9] if (io_en_0) // @[Transposer.scala:100:9] reg_0 <= _reg_T_1; // @[Transposer.scala:110:{24,28}] always @(posedge) assign io_outL = io_outL_0; // @[Transposer.scala:100:9] assign io_outU = io_outU_0; // @[Transposer.scala:100:9] endmodule
Generate the Verilog code corresponding to the following Chisel files. File AsyncQueue.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ case class AsyncQueueParams( depth: Int = 8, sync: Int = 3, safe: Boolean = true, // If safe is true, then effort is made to resynchronize the crossing indices when either side is reset. // This makes it safe/possible to reset one side of the crossing (but not the other) when the queue is empty. narrow: Boolean = false) // If narrow is true then the read mux is moved to the source side of the crossing. // This reduces the number of level shifters in the case where the clock crossing is also a voltage crossing, // at the expense of a combinational path from the sink to the source and back to the sink. { require (depth > 0 && isPow2(depth)) require (sync >= 2) val bits = log2Ceil(depth) val wires = if (narrow) 1 else depth } object AsyncQueueParams { // When there is only one entry, we don't need narrow. def singleton(sync: Int = 3, safe: Boolean = true) = AsyncQueueParams(1, sync, safe, false) } class AsyncBundleSafety extends Bundle { val ridx_valid = Input (Bool()) val widx_valid = Output(Bool()) val source_reset_n = Output(Bool()) val sink_reset_n = Input (Bool()) } class AsyncBundle[T <: Data](private val gen: T, val params: AsyncQueueParams = AsyncQueueParams()) extends Bundle { // Data-path synchronization val mem = Output(Vec(params.wires, gen)) val ridx = Input (UInt((params.bits+1).W)) val widx = Output(UInt((params.bits+1).W)) val index = params.narrow.option(Input(UInt(params.bits.W))) // Signals used to self-stabilize a safe AsyncQueue val safe = params.safe.option(new AsyncBundleSafety) } object GrayCounter { def apply(bits: Int, increment: Bool = true.B, clear: Bool = false.B, name: String = "binary"): UInt = { val incremented = Wire(UInt(bits.W)) val binary = RegNext(next=incremented, init=0.U).suggestName(name) incremented := Mux(clear, 0.U, binary + increment.asUInt) incremented ^ (incremented >> 1) } } class AsyncValidSync(sync: Int, desc: String) extends RawModule { val io = IO(new Bundle { val in = Input(Bool()) val out = Output(Bool()) }) val clock = IO(Input(Clock())) val reset = IO(Input(AsyncReset())) withClockAndReset(clock, reset){ io.out := AsyncResetSynchronizerShiftReg(io.in, sync, Some(desc)) } } class AsyncQueueSource[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSource_${gen.typeName}" val io = IO(new Bundle { // These come from the source domain val enq = Flipped(Decoupled(gen)) // These cross to the sink clock domain val async = new AsyncBundle(gen, params) }) val bits = params.bits val sink_ready = WireInit(true.B) val mem = Reg(Vec(params.depth, gen)) // This does NOT need to be reset at all. val widx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.enq.fire, !sink_ready, "widx_bin")) val ridx = AsyncResetSynchronizerShiftReg(io.async.ridx, params.sync, Some("ridx_gray")) val ready = sink_ready && widx =/= (ridx ^ (params.depth | params.depth >> 1).U) val index = if (bits == 0) 0.U else io.async.widx(bits-1, 0) ^ (io.async.widx(bits, bits) << (bits-1)) when (io.enq.fire) { mem(index) := io.enq.bits } val ready_reg = withReset(reset.asAsyncReset)(RegNext(next=ready, init=false.B).suggestName("ready_reg")) io.enq.ready := ready_reg && sink_ready val widx_reg = withReset(reset.asAsyncReset)(RegNext(next=widx, init=0.U).suggestName("widx_gray")) io.async.widx := widx_reg io.async.index match { case Some(index) => io.async.mem(0) := mem(index) case None => io.async.mem := mem } io.async.safe.foreach { sio => val source_valid_0 = Module(new AsyncValidSync(params.sync, "source_valid_0")) val source_valid_1 = Module(new AsyncValidSync(params.sync, "source_valid_1")) val sink_extend = Module(new AsyncValidSync(params.sync, "sink_extend")) val sink_valid = Module(new AsyncValidSync(params.sync, "sink_valid")) source_valid_0.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset source_valid_1.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_extend .reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_valid .reset := reset.asAsyncReset source_valid_0.clock := clock source_valid_1.clock := clock sink_extend .clock := clock sink_valid .clock := clock source_valid_0.io.in := true.B source_valid_1.io.in := source_valid_0.io.out sio.widx_valid := source_valid_1.io.out sink_extend.io.in := sio.ridx_valid sink_valid.io.in := sink_extend.io.out sink_ready := sink_valid.io.out sio.source_reset_n := !reset.asBool // Assert that if there is stuff in the queue, then reset cannot happen // Impossible to write because dequeue can occur on the receiving side, // then reset allowed to happen, but write side cannot know that dequeue // occurred. // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // assert (!(reset || !sio.sink_reset_n) || !io.enq.valid, "Enqueue while sink is reset and AsyncQueueSource is unprotected") // assert (!reset_rise || prev_idx_match.asBool, "Sink reset while AsyncQueueSource not empty") } } class AsyncQueueSink[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSink_${gen.typeName}" val io = IO(new Bundle { // These come from the sink domain val deq = Decoupled(gen) // These cross to the source clock domain val async = Flipped(new AsyncBundle(gen, params)) }) val bits = params.bits val source_ready = WireInit(true.B) val ridx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.deq.fire, !source_ready, "ridx_bin")) val widx = AsyncResetSynchronizerShiftReg(io.async.widx, params.sync, Some("widx_gray")) val valid = source_ready && ridx =/= widx // The mux is safe because timing analysis ensures ridx has reached the register // On an ASIC, changes to the unread location cannot affect the selected value // On an FPGA, only one input changes at a time => mem updates don't cause glitches // The register only latches when the selected valued is not being written val index = if (bits == 0) 0.U else ridx(bits-1, 0) ^ (ridx(bits, bits) << (bits-1)) io.async.index.foreach { _ := index } // This register does not NEED to be reset, as its contents will not // be considered unless the asynchronously reset deq valid register is set. // It is possible that bits latches when the source domain is reset / has power cut // This is safe, because isolation gates brought mem low before the zeroed widx reached us val deq_bits_nxt = io.async.mem(if (params.narrow) 0.U else index) io.deq.bits := ClockCrossingReg(deq_bits_nxt, en = valid, doInit = false, name = Some("deq_bits_reg")) val valid_reg = withReset(reset.asAsyncReset)(RegNext(next=valid, init=false.B).suggestName("valid_reg")) io.deq.valid := valid_reg && source_ready val ridx_reg = withReset(reset.asAsyncReset)(RegNext(next=ridx, init=0.U).suggestName("ridx_gray")) io.async.ridx := ridx_reg io.async.safe.foreach { sio => val sink_valid_0 = Module(new AsyncValidSync(params.sync, "sink_valid_0")) val sink_valid_1 = Module(new AsyncValidSync(params.sync, "sink_valid_1")) val source_extend = Module(new AsyncValidSync(params.sync, "source_extend")) val source_valid = Module(new AsyncValidSync(params.sync, "source_valid")) sink_valid_0 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset sink_valid_1 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_extend.reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_valid .reset := reset.asAsyncReset sink_valid_0 .clock := clock sink_valid_1 .clock := clock source_extend.clock := clock source_valid .clock := clock sink_valid_0.io.in := true.B sink_valid_1.io.in := sink_valid_0.io.out sio.ridx_valid := sink_valid_1.io.out source_extend.io.in := sio.widx_valid source_valid.io.in := source_extend.io.out source_ready := source_valid.io.out sio.sink_reset_n := !reset.asBool // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // // val reset_and_extend = !source_ready || !sio.source_reset_n || reset.asBool // val reset_and_extend_prev = RegNext(reset_and_extend, true.B) // val reset_rise = !reset_and_extend_prev && reset_and_extend // val prev_idx_match = AsyncResetReg(updateData=(io.async.widx===io.async.ridx), resetData=0) // assert (!reset_rise || prev_idx_match.asBool, "Source reset while AsyncQueueSink not empty") } } object FromAsyncBundle { // Sometimes it makes sense for the sink to have different sync than the source def apply[T <: Data](x: AsyncBundle[T]): DecoupledIO[T] = apply(x, x.params.sync) def apply[T <: Data](x: AsyncBundle[T], sync: Int): DecoupledIO[T] = { val sink = Module(new AsyncQueueSink(chiselTypeOf(x.mem(0)), x.params.copy(sync = sync))) sink.io.async <> x sink.io.deq } } object ToAsyncBundle { def apply[T <: Data](x: ReadyValidIO[T], params: AsyncQueueParams = AsyncQueueParams()): AsyncBundle[T] = { val source = Module(new AsyncQueueSource(chiselTypeOf(x.bits), params)) source.io.enq <> x source.io.async } } class AsyncQueue[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Crossing[T] { val io = IO(new CrossingIO(gen)) val source = withClockAndReset(io.enq_clock, io.enq_reset) { Module(new AsyncQueueSource(gen, params)) } val sink = withClockAndReset(io.deq_clock, io.deq_reset) { Module(new AsyncQueueSink (gen, params)) } source.io.enq <> io.enq io.deq <> sink.io.deq sink.io.async <> source.io.async }
module AsyncQueue_13( // @[AsyncQueue.scala:226:7] input io_enq_clock, // @[AsyncQueue.scala:227:14] input io_enq_reset, // @[AsyncQueue.scala:227:14] output io_enq_ready, // @[AsyncQueue.scala:227:14] input io_enq_valid, // @[AsyncQueue.scala:227:14] input [31:0] io_enq_bits_phit, // @[AsyncQueue.scala:227:14] input io_deq_clock, // @[AsyncQueue.scala:227:14] input io_deq_reset, // @[AsyncQueue.scala:227:14] input io_deq_ready, // @[AsyncQueue.scala:227:14] output io_deq_valid, // @[AsyncQueue.scala:227:14] output [31:0] io_deq_bits_phit // @[AsyncQueue.scala:227:14] ); wire [3:0] _sink_io_async_ridx; // @[AsyncQueue.scala:229:70] wire _sink_io_async_safe_ridx_valid; // @[AsyncQueue.scala:229:70] wire _sink_io_async_safe_sink_reset_n; // @[AsyncQueue.scala:229:70] wire [31:0] _source_io_async_mem_0_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_1_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_2_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_3_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_4_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_5_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_6_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_7_phit; // @[AsyncQueue.scala:228:70] wire [3:0] _source_io_async_widx; // @[AsyncQueue.scala:228:70] wire _source_io_async_safe_widx_valid; // @[AsyncQueue.scala:228:70] wire _source_io_async_safe_source_reset_n; // @[AsyncQueue.scala:228:70] wire io_enq_clock_0 = io_enq_clock; // @[AsyncQueue.scala:226:7] wire io_enq_reset_0 = io_enq_reset; // @[AsyncQueue.scala:226:7] wire io_enq_valid_0 = io_enq_valid; // @[AsyncQueue.scala:226:7] wire [31:0] io_enq_bits_phit_0 = io_enq_bits_phit; // @[AsyncQueue.scala:226:7] wire io_deq_clock_0 = io_deq_clock; // @[AsyncQueue.scala:226:7] wire io_deq_reset_0 = io_deq_reset; // @[AsyncQueue.scala:226:7] wire io_deq_ready_0 = io_deq_ready; // @[AsyncQueue.scala:226:7] wire io_enq_ready_0; // @[AsyncQueue.scala:226:7] wire [31:0] io_deq_bits_phit_0; // @[AsyncQueue.scala:226:7] wire io_deq_valid_0; // @[AsyncQueue.scala:226:7] AsyncQueueSource_Phit_13 source ( // @[AsyncQueue.scala:228:70] .clock (io_enq_clock_0), // @[AsyncQueue.scala:226:7] .reset (io_enq_reset_0), // @[AsyncQueue.scala:226:7] .io_enq_ready (io_enq_ready_0), .io_enq_valid (io_enq_valid_0), // @[AsyncQueue.scala:226:7] .io_enq_bits_phit (io_enq_bits_phit_0), // @[AsyncQueue.scala:226:7] .io_async_mem_0_phit (_source_io_async_mem_0_phit), .io_async_mem_1_phit (_source_io_async_mem_1_phit), .io_async_mem_2_phit (_source_io_async_mem_2_phit), .io_async_mem_3_phit (_source_io_async_mem_3_phit), .io_async_mem_4_phit (_source_io_async_mem_4_phit), .io_async_mem_5_phit (_source_io_async_mem_5_phit), .io_async_mem_6_phit (_source_io_async_mem_6_phit), .io_async_mem_7_phit (_source_io_async_mem_7_phit), .io_async_ridx (_sink_io_async_ridx), // @[AsyncQueue.scala:229:70] .io_async_widx (_source_io_async_widx), .io_async_safe_ridx_valid (_sink_io_async_safe_ridx_valid), // @[AsyncQueue.scala:229:70] .io_async_safe_widx_valid (_source_io_async_safe_widx_valid), .io_async_safe_source_reset_n (_source_io_async_safe_source_reset_n), .io_async_safe_sink_reset_n (_sink_io_async_safe_sink_reset_n) // @[AsyncQueue.scala:229:70] ); // @[AsyncQueue.scala:228:70] AsyncQueueSink_Phit_13 sink ( // @[AsyncQueue.scala:229:70] .clock (io_deq_clock_0), // @[AsyncQueue.scala:226:7] .reset (io_deq_reset_0), // @[AsyncQueue.scala:226:7] .io_deq_ready (io_deq_ready_0), // @[AsyncQueue.scala:226:7] .io_deq_valid (io_deq_valid_0), .io_deq_bits_phit (io_deq_bits_phit_0), .io_async_mem_0_phit (_source_io_async_mem_0_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_1_phit (_source_io_async_mem_1_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_2_phit (_source_io_async_mem_2_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_3_phit (_source_io_async_mem_3_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_4_phit (_source_io_async_mem_4_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_5_phit (_source_io_async_mem_5_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_6_phit (_source_io_async_mem_6_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_7_phit (_source_io_async_mem_7_phit), // @[AsyncQueue.scala:228:70] .io_async_ridx (_sink_io_async_ridx), .io_async_widx (_source_io_async_widx), // @[AsyncQueue.scala:228:70] .io_async_safe_ridx_valid (_sink_io_async_safe_ridx_valid), .io_async_safe_widx_valid (_source_io_async_safe_widx_valid), // @[AsyncQueue.scala:228:70] .io_async_safe_source_reset_n (_source_io_async_safe_source_reset_n), // @[AsyncQueue.scala:228:70] .io_async_safe_sink_reset_n (_sink_io_async_safe_sink_reset_n) ); // @[AsyncQueue.scala:229:70] assign io_enq_ready = io_enq_ready_0; // @[AsyncQueue.scala:226:7] assign io_deq_valid = io_deq_valid_0; // @[AsyncQueue.scala:226:7] assign io_deq_bits_phit = io_deq_bits_phit_0; // @[AsyncQueue.scala:226:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File RouteComputer.scala: package constellation.router import chisel3._ import chisel3.util._ import chisel3.util.experimental.decode.{TruthTable, decoder} import org.chipsalliance.cde.config.{Field, Parameters} import freechips.rocketchip.util._ import freechips.rocketchip.rocket.DecodeLogic import constellation.channel._ import constellation.routing.{FlowRoutingBundle, FlowRoutingInfo} import constellation.noc.{HasNoCParams} class RouteComputerReq(implicit val p: Parameters) extends Bundle with HasNoCParams { val src_virt_id = UInt(virtualChannelBits.W) val flow = new FlowRoutingBundle } class RouteComputerResp( val outParams: Seq[ChannelParams], val egressParams: Seq[EgressChannelParams])(implicit val p: Parameters) extends Bundle with HasRouterOutputParams { val vc_sel = MixedVec(allOutParams.map { u => Vec(u.nVirtualChannels, Bool()) }) } class RouteComputer( val routerParams: RouterParams, val inParams: Seq[ChannelParams], val outParams: Seq[ChannelParams], val ingressParams: Seq[IngressChannelParams], val egressParams: Seq[EgressChannelParams] )(implicit val p: Parameters) extends Module with HasRouterParams with HasRouterInputParams with HasRouterOutputParams with HasNoCParams { val io = IO(new Bundle { val req = MixedVec(allInParams.map { u => Flipped(Decoupled(new RouteComputerReq)) }) val resp = MixedVec(allInParams.map { u => Output(new RouteComputerResp(outParams, egressParams)) }) }) (io.req zip io.resp).zipWithIndex.map { case ((req, resp), i) => req.ready := true.B if (outParams.size == 0) { assert(!req.valid) resp.vc_sel := DontCare } else { def toUInt(t: (Int, FlowRoutingInfo)): UInt = { val l2 = (BigInt(t._1) << req.bits.flow.vnet_id .getWidth) | t._2.vNetId val l3 = ( l2 << req.bits.flow.ingress_node .getWidth) | t._2.ingressNode val l4 = ( l3 << req.bits.flow.ingress_node_id.getWidth) | t._2.ingressNodeId val l5 = ( l4 << req.bits.flow.egress_node .getWidth) | t._2.egressNode val l6 = ( l5 << req.bits.flow.egress_node_id .getWidth) | t._2.egressNodeId l6.U(req.bits.getWidth.W) } val flow = req.bits.flow val table = allInParams(i).possibleFlows.toSeq.distinct.map { pI => allInParams(i).channelRoutingInfos.map { cI => var row: String = "b" (0 until nOutputs).foreach { o => (0 until outParams(o).nVirtualChannels).foreach { outVId => row = row + (if (routingRelation(cI, outParams(o).channelRoutingInfos(outVId), pI)) "1" else "0") } } ((cI.vc, pI), row) } }.flatten val addr = req.bits.asUInt val width = outParams.map(_.nVirtualChannels).reduce(_+_) val decoded = if (table.size > 0) { val truthTable = TruthTable( table.map { e => (BitPat(toUInt(e._1)), BitPat(e._2)) }, BitPat("b" + "?" * width) ) Reverse(decoder(addr, truthTable)) } else { 0.U(width.W) } var idx = 0 (0 until nAllOutputs).foreach { o => if (o < nOutputs) { (0 until outParams(o).nVirtualChannels).foreach { outVId => resp.vc_sel(o)(outVId) := decoded(idx) idx += 1 } } else { resp.vc_sel(o)(0) := false.B } } } } }
module RouteComputer( // @[RouteComputer.scala:29:7] input [3:0] io_req_0_bits_src_virt_id, // @[RouteComputer.scala:40:14] input [2:0] io_req_0_bits_flow_vnet_id, // @[RouteComputer.scala:40:14] input [3:0] io_req_0_bits_flow_ingress_node, // @[RouteComputer.scala:40:14] input [2:0] io_req_0_bits_flow_ingress_node_id, // @[RouteComputer.scala:40:14] input [3:0] io_req_0_bits_flow_egress_node, // @[RouteComputer.scala:40:14] input [2:0] io_req_0_bits_flow_egress_node_id, // @[RouteComputer.scala:40:14] output io_resp_0_vc_sel_0_2, // @[RouteComputer.scala:40:14] output io_resp_0_vc_sel_0_3, // @[RouteComputer.scala:40:14] output io_resp_0_vc_sel_0_6, // @[RouteComputer.scala:40:14] output io_resp_0_vc_sel_0_7 // @[RouteComputer.scala:40:14] ); wire [20:0] decoded_invInputs = ~{io_req_0_bits_src_virt_id, io_req_0_bits_flow_vnet_id, io_req_0_bits_flow_ingress_node, io_req_0_bits_flow_ingress_node_id, io_req_0_bits_flow_egress_node, io_req_0_bits_flow_egress_node_id}; // @[pla.scala:78:21] wire [23:0] _decoded_orMatrixOutputs_T_6 = {&{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[17], decoded_invInputs[20]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[0], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[20]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[1], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[20]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], io_req_0_bits_flow_ingress_node_id[2], decoded_invInputs[10], decoded_invInputs[11], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[17], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[0], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], io_req_0_bits_flow_ingress_node_id[2], decoded_invInputs[10], decoded_invInputs[11], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[1], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], io_req_0_bits_flow_ingress_node_id[2], decoded_invInputs[10], decoded_invInputs[11], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[0], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[17], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[0], decoded_invInputs[5], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[0], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[1], decoded_invInputs[5], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[0], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[2], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[0], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[3], io_req_0_bits_flow_egress_node[2], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[0], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[20]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[1], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[17], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[0], decoded_invInputs[5], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[1], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[1], decoded_invInputs[5], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[1], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[2], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[1], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[3], io_req_0_bits_flow_egress_node[2], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[1], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[20]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[17], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[17], decoded_invInputs[20]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[0], decoded_invInputs[5], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[0], decoded_invInputs[5], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[20]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[1], decoded_invInputs[5], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[1], decoded_invInputs[5], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[20]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], io_req_0_bits_flow_egress_node[2], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[2], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], decoded_invInputs[20]}}; // @[pla.scala:78:21, :90:45, :91:29, :98:{53,70}, :114:19] assign io_resp_0_vc_sel_0_2 = |_decoded_orMatrixOutputs_T_6; // @[pla.scala:114:{19,36}] assign io_resp_0_vc_sel_0_3 = |{&{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], io_req_0_bits_src_virt_id[0], decoded_invInputs[20]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], io_req_0_bits_flow_ingress_node_id[2], decoded_invInputs[10], decoded_invInputs[11], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], io_req_0_bits_src_virt_id[0], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[0], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], io_req_0_bits_src_virt_id[0], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[1], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], io_req_0_bits_src_virt_id[0], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], io_req_0_bits_src_virt_id[0], decoded_invInputs[18], decoded_invInputs[19]}, &{io_req_0_bits_flow_egress_node_id[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[6], io_req_0_bits_flow_ingress_node_id[0], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], decoded_invInputs[15], decoded_invInputs[16], io_req_0_bits_src_virt_id[0], decoded_invInputs[20]}}; // @[pla.scala:78:21, :90:45, :91:29, :98:{53,70}, :114:{19,36}] assign io_resp_0_vc_sel_0_6 = |{&{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[17], decoded_invInputs[20]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[0], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[20]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[1], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[20]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[0], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[17], decoded_invInputs[18], decoded_invInputs[19]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[0], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[0], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[1], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[0], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[1], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[17], decoded_invInputs[18], decoded_invInputs[19]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[0], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[1], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[1], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[1], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[17], decoded_invInputs[18], decoded_invInputs[19]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[17], decoded_invInputs[20]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[0], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[0], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[20]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[1], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[18], decoded_invInputs[19]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_egress_node[1], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], decoded_invInputs[20]}}; // @[pla.scala:78:21, :90:45, :91:29, :98:{53,70}, :114:{19,36}] assign io_resp_0_vc_sel_0_7 = |{&{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], io_req_0_bits_src_virt_id[0], decoded_invInputs[20]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[0], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], io_req_0_bits_src_virt_id[0], decoded_invInputs[18], decoded_invInputs[19]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], io_req_0_bits_flow_ingress_node[1], io_req_0_bits_flow_ingress_node[2], decoded_invInputs[13], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], io_req_0_bits_src_virt_id[0], decoded_invInputs[18], decoded_invInputs[19]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], io_req_0_bits_src_virt_id[0], decoded_invInputs[18], decoded_invInputs[19]}, &{decoded_invInputs[0], decoded_invInputs[1], decoded_invInputs[2], decoded_invInputs[5], decoded_invInputs[6], decoded_invInputs[7], decoded_invInputs[8], decoded_invInputs[9], decoded_invInputs[10], decoded_invInputs[11], decoded_invInputs[12], io_req_0_bits_flow_ingress_node[3], io_req_0_bits_flow_vnet_id[0], io_req_0_bits_flow_vnet_id[1], decoded_invInputs[16], io_req_0_bits_src_virt_id[0], decoded_invInputs[20]}}; // @[pla.scala:78:21, :90:45, :91:29, :98:{53,70}, :114:{19,36}] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Tile.scala: // See README.md for license details. package gemmini import chisel3._ import chisel3.util._ import Util._ /** * A Tile is a purely combinational 2D array of passThrough PEs. * a, b, s, and in_propag are broadcast across the entire array and are passed through to the Tile's outputs * @param width The data width of each PE in bits * @param rows Number of PEs on each row * @param columns Number of PEs on each column */ class Tile[T <: Data](inputType: T, outputType: T, accType: T, df: Dataflow.Value, tree_reduction: Boolean, max_simultaneous_matmuls: Int, val rows: Int, val columns: Int)(implicit ev: Arithmetic[T]) extends Module { val io = IO(new Bundle { val in_a = Input(Vec(rows, inputType)) val in_b = Input(Vec(columns, outputType)) // This is the output of the tile next to it val in_d = Input(Vec(columns, outputType)) val in_control = Input(Vec(columns, new PEControl(accType))) val in_id = Input(Vec(columns, UInt(log2Up(max_simultaneous_matmuls).W))) val in_last = Input(Vec(columns, Bool())) val out_a = Output(Vec(rows, inputType)) val out_c = Output(Vec(columns, outputType)) val out_b = Output(Vec(columns, outputType)) val out_control = Output(Vec(columns, new PEControl(accType))) val out_id = Output(Vec(columns, UInt(log2Up(max_simultaneous_matmuls).W))) val out_last = Output(Vec(columns, Bool())) val in_valid = Input(Vec(columns, Bool())) val out_valid = Output(Vec(columns, Bool())) val bad_dataflow = Output(Bool()) }) import ev._ val tile = Seq.fill(rows, columns)(Module(new PE(inputType, outputType, accType, df, max_simultaneous_matmuls))) val tileT = tile.transpose // TODO: abstract hori/vert broadcast, all these connections look the same // Broadcast 'a' horizontally across the Tile for (r <- 0 until rows) { tile(r).foldLeft(io.in_a(r)) { case (in_a, pe) => pe.io.in_a := in_a pe.io.out_a } } // Broadcast 'b' vertically across the Tile for (c <- 0 until columns) { tileT(c).foldLeft(io.in_b(c)) { case (in_b, pe) => pe.io.in_b := (if (tree_reduction) in_b.zero else in_b) pe.io.out_b } } // Broadcast 'd' vertically across the Tile for (c <- 0 until columns) { tileT(c).foldLeft(io.in_d(c)) { case (in_d, pe) => pe.io.in_d := in_d pe.io.out_c } } // Broadcast 'control' vertically across the Tile for (c <- 0 until columns) { tileT(c).foldLeft(io.in_control(c)) { case (in_ctrl, pe) => pe.io.in_control := in_ctrl pe.io.out_control } } // Broadcast 'garbage' vertically across the Tile for (c <- 0 until columns) { tileT(c).foldLeft(io.in_valid(c)) { case (v, pe) => pe.io.in_valid := v pe.io.out_valid } } // Broadcast 'id' vertically across the Tile for (c <- 0 until columns) { tileT(c).foldLeft(io.in_id(c)) { case (id, pe) => pe.io.in_id := id pe.io.out_id } } // Broadcast 'last' vertically across the Tile for (c <- 0 until columns) { tileT(c).foldLeft(io.in_last(c)) { case (last, pe) => pe.io.in_last := last pe.io.out_last } } // Drive the Tile's bottom IO for (c <- 0 until columns) { io.out_c(c) := tile(rows-1)(c).io.out_c io.out_control(c) := tile(rows-1)(c).io.out_control io.out_id(c) := tile(rows-1)(c).io.out_id io.out_last(c) := tile(rows-1)(c).io.out_last io.out_valid(c) := tile(rows-1)(c).io.out_valid io.out_b(c) := { if (tree_reduction) { val prods = tileT(c).map(_.io.out_b) accumulateTree(prods :+ io.in_b(c)) } else { tile(rows - 1)(c).io.out_b } } } io.bad_dataflow := tile.map(_.map(_.io.bad_dataflow).reduce(_||_)).reduce(_||_) // Drive the Tile's right IO for (r <- 0 until rows) { io.out_a(r) := tile(r)(columns-1).io.out_a } }
module Tile_244( // @[Tile.scala:16:7] input clock, // @[Tile.scala:16:7] input reset, // @[Tile.scala:16:7] input [7:0] io_in_a_0, // @[Tile.scala:17:14] input [19:0] io_in_b_0, // @[Tile.scala:17:14] input [19:0] io_in_d_0, // @[Tile.scala:17:14] input io_in_control_0_dataflow, // @[Tile.scala:17:14] input io_in_control_0_propagate, // @[Tile.scala:17:14] input [4:0] io_in_control_0_shift, // @[Tile.scala:17:14] input [2:0] io_in_id_0, // @[Tile.scala:17:14] input io_in_last_0, // @[Tile.scala:17:14] output [7:0] io_out_a_0, // @[Tile.scala:17:14] output [19:0] io_out_c_0, // @[Tile.scala:17:14] output [19:0] io_out_b_0, // @[Tile.scala:17:14] output io_out_control_0_dataflow, // @[Tile.scala:17:14] output io_out_control_0_propagate, // @[Tile.scala:17:14] output [4:0] io_out_control_0_shift, // @[Tile.scala:17:14] output [2:0] io_out_id_0, // @[Tile.scala:17:14] output io_out_last_0, // @[Tile.scala:17:14] input io_in_valid_0, // @[Tile.scala:17:14] output io_out_valid_0, // @[Tile.scala:17:14] output io_bad_dataflow // @[Tile.scala:17:14] ); wire [7:0] io_in_a_0_0 = io_in_a_0; // @[Tile.scala:16:7] wire [19:0] io_in_b_0_0 = io_in_b_0; // @[Tile.scala:16:7] wire [19:0] io_in_d_0_0 = io_in_d_0; // @[Tile.scala:16:7] wire io_in_control_0_dataflow_0 = io_in_control_0_dataflow; // @[Tile.scala:16:7] wire io_in_control_0_propagate_0 = io_in_control_0_propagate; // @[Tile.scala:16:7] wire [4:0] io_in_control_0_shift_0 = io_in_control_0_shift; // @[Tile.scala:16:7] wire [2:0] io_in_id_0_0 = io_in_id_0; // @[Tile.scala:16:7] wire io_in_last_0_0 = io_in_last_0; // @[Tile.scala:16:7] wire io_in_valid_0_0 = io_in_valid_0; // @[Tile.scala:16:7] wire [7:0] io_out_a_0_0; // @[Tile.scala:16:7] wire [19:0] io_out_c_0_0; // @[Tile.scala:16:7] wire [19:0] io_out_b_0_0; // @[Tile.scala:16:7] wire io_out_control_0_dataflow_0; // @[Tile.scala:16:7] wire io_out_control_0_propagate_0; // @[Tile.scala:16:7] wire [4:0] io_out_control_0_shift_0; // @[Tile.scala:16:7] wire [2:0] io_out_id_0_0; // @[Tile.scala:16:7] wire io_out_last_0_0; // @[Tile.scala:16:7] wire io_out_valid_0_0; // @[Tile.scala:16:7] wire io_bad_dataflow_0; // @[Tile.scala:16:7] PE_500 tile_0_0 ( // @[Tile.scala:42:44] .clock (clock), .reset (reset), .io_in_a (io_in_a_0_0), // @[Tile.scala:16:7] .io_in_b (io_in_b_0_0), // @[Tile.scala:16:7] .io_in_d (io_in_d_0_0), // @[Tile.scala:16:7] .io_out_a (io_out_a_0_0), .io_out_b (io_out_b_0_0), .io_out_c (io_out_c_0_0), .io_in_control_dataflow (io_in_control_0_dataflow_0), // @[Tile.scala:16:7] .io_in_control_propagate (io_in_control_0_propagate_0), // @[Tile.scala:16:7] .io_in_control_shift (io_in_control_0_shift_0), // @[Tile.scala:16:7] .io_out_control_dataflow (io_out_control_0_dataflow_0), .io_out_control_propagate (io_out_control_0_propagate_0), .io_out_control_shift (io_out_control_0_shift_0), .io_in_id (io_in_id_0_0), // @[Tile.scala:16:7] .io_out_id (io_out_id_0_0), .io_in_last (io_in_last_0_0), // @[Tile.scala:16:7] .io_out_last (io_out_last_0_0), .io_in_valid (io_in_valid_0_0), // @[Tile.scala:16:7] .io_out_valid (io_out_valid_0_0), .io_bad_dataflow (io_bad_dataflow_0) ); // @[Tile.scala:42:44] assign io_out_a_0 = io_out_a_0_0; // @[Tile.scala:16:7] assign io_out_c_0 = io_out_c_0_0; // @[Tile.scala:16:7] assign io_out_b_0 = io_out_b_0_0; // @[Tile.scala:16:7] assign io_out_control_0_dataflow = io_out_control_0_dataflow_0; // @[Tile.scala:16:7] assign io_out_control_0_propagate = io_out_control_0_propagate_0; // @[Tile.scala:16:7] assign io_out_control_0_shift = io_out_control_0_shift_0; // @[Tile.scala:16:7] assign io_out_id_0 = io_out_id_0_0; // @[Tile.scala:16:7] assign io_out_last_0 = io_out_last_0_0; // @[Tile.scala:16:7] assign io_out_valid_0 = io_out_valid_0_0; // @[Tile.scala:16:7] assign io_bad_dataflow = io_bad_dataflow_0; // @[Tile.scala:16:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File PE.scala: // See README.md for license details. package gemmini import chisel3._ import chisel3.util._ class PEControl[T <: Data : Arithmetic](accType: T) extends Bundle { val dataflow = UInt(1.W) // TODO make this an Enum val propagate = UInt(1.W) // Which register should be propagated (and which should be accumulated)? val shift = UInt(log2Up(accType.getWidth).W) // TODO this isn't correct for Floats } class MacUnit[T <: Data](inputType: T, cType: T, dType: T) (implicit ev: Arithmetic[T]) extends Module { import ev._ val io = IO(new Bundle { val in_a = Input(inputType) val in_b = Input(inputType) val in_c = Input(cType) val out_d = Output(dType) }) io.out_d := io.in_c.mac(io.in_a, io.in_b) } // TODO update documentation /** * A PE implementing a MAC operation. Configured as fully combinational when integrated into a Mesh. * @param width Data width of operands */ class PE[T <: Data](inputType: T, outputType: T, accType: T, df: Dataflow.Value, max_simultaneous_matmuls: Int) (implicit ev: Arithmetic[T]) extends Module { // Debugging variables import ev._ val io = IO(new Bundle { val in_a = Input(inputType) val in_b = Input(outputType) val in_d = Input(outputType) val out_a = Output(inputType) val out_b = Output(outputType) val out_c = Output(outputType) val in_control = Input(new PEControl(accType)) val out_control = Output(new PEControl(accType)) val in_id = Input(UInt(log2Up(max_simultaneous_matmuls).W)) val out_id = Output(UInt(log2Up(max_simultaneous_matmuls).W)) val in_last = Input(Bool()) val out_last = Output(Bool()) val in_valid = Input(Bool()) val out_valid = Output(Bool()) val bad_dataflow = Output(Bool()) }) val cType = if (df == Dataflow.WS) inputType else accType // When creating PEs that support multiple dataflows, the // elaboration/synthesis tools often fail to consolidate and de-duplicate // MAC units. To force mac circuitry to be re-used, we create a "mac_unit" // module here which just performs a single MAC operation val mac_unit = Module(new MacUnit(inputType, if (df == Dataflow.WS) outputType else accType, outputType)) val a = io.in_a val b = io.in_b val d = io.in_d val c1 = Reg(cType) val c2 = Reg(cType) val dataflow = io.in_control.dataflow val prop = io.in_control.propagate val shift = io.in_control.shift val id = io.in_id val last = io.in_last val valid = io.in_valid io.out_a := a io.out_control.dataflow := dataflow io.out_control.propagate := prop io.out_control.shift := shift io.out_id := id io.out_last := last io.out_valid := valid mac_unit.io.in_a := a val last_s = RegEnable(prop, valid) val flip = last_s =/= prop val shift_offset = Mux(flip, shift, 0.U) // Which dataflow are we using? val OUTPUT_STATIONARY = Dataflow.OS.id.U(1.W) val WEIGHT_STATIONARY = Dataflow.WS.id.U(1.W) // Is c1 being computed on, or propagated forward (in the output-stationary dataflow)? val COMPUTE = 0.U(1.W) val PROPAGATE = 1.U(1.W) io.bad_dataflow := false.B when ((df == Dataflow.OS).B || ((df == Dataflow.BOTH).B && dataflow === OUTPUT_STATIONARY)) { when(prop === PROPAGATE) { io.out_c := (c1 >> shift_offset).clippedToWidthOf(outputType) io.out_b := b mac_unit.io.in_b := b.asTypeOf(inputType) mac_unit.io.in_c := c2 c2 := mac_unit.io.out_d c1 := d.withWidthOf(cType) }.otherwise { io.out_c := (c2 >> shift_offset).clippedToWidthOf(outputType) io.out_b := b mac_unit.io.in_b := b.asTypeOf(inputType) mac_unit.io.in_c := c1 c1 := mac_unit.io.out_d c2 := d.withWidthOf(cType) } }.elsewhen ((df == Dataflow.WS).B || ((df == Dataflow.BOTH).B && dataflow === WEIGHT_STATIONARY)) { when(prop === PROPAGATE) { io.out_c := c1 mac_unit.io.in_b := c2.asTypeOf(inputType) mac_unit.io.in_c := b io.out_b := mac_unit.io.out_d c1 := d }.otherwise { io.out_c := c2 mac_unit.io.in_b := c1.asTypeOf(inputType) mac_unit.io.in_c := b io.out_b := mac_unit.io.out_d c2 := d } }.otherwise { io.bad_dataflow := true.B //assert(false.B, "unknown dataflow") io.out_c := DontCare io.out_b := DontCare mac_unit.io.in_b := b.asTypeOf(inputType) mac_unit.io.in_c := c2 } when (!valid) { c1 := c1 c2 := c2 mac_unit.io.in_b := DontCare mac_unit.io.in_c := DontCare } } File Arithmetic.scala: // A simple type class for Chisel datatypes that can add and multiply. To add your own type, simply create your own: // implicit MyTypeArithmetic extends Arithmetic[MyType] { ... } package gemmini import chisel3._ import chisel3.util._ import hardfloat._ // Bundles that represent the raw bits of custom datatypes case class Float(expWidth: Int, sigWidth: Int) extends Bundle { val bits = UInt((expWidth + sigWidth).W) val bias: Int = (1 << (expWidth-1)) - 1 } case class DummySInt(w: Int) extends Bundle { val bits = UInt(w.W) def dontCare: DummySInt = { val o = Wire(new DummySInt(w)) o.bits := 0.U o } } // The Arithmetic typeclass which implements various arithmetic operations on custom datatypes abstract class Arithmetic[T <: Data] { implicit def cast(t: T): ArithmeticOps[T] } abstract class ArithmeticOps[T <: Data](self: T) { def *(t: T): T def mac(m1: T, m2: T): T // Returns (m1 * m2 + self) def +(t: T): T def -(t: T): T def >>(u: UInt): T // This is a rounding shift! Rounds away from 0 def >(t: T): Bool def identity: T def withWidthOf(t: T): T def clippedToWidthOf(t: T): T // Like "withWidthOf", except that it saturates def relu: T def zero: T def minimum: T // Optional parameters, which only need to be defined if you want to enable various optimizations for transformers def divider(denom_t: UInt, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[T])] = None def sqrt: Option[(DecoupledIO[UInt], DecoupledIO[T])] = None def reciprocal[U <: Data](u: U, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[U])] = None def mult_with_reciprocal[U <: Data](reciprocal: U) = self } object Arithmetic { implicit object UIntArithmetic extends Arithmetic[UInt] { override implicit def cast(self: UInt) = new ArithmeticOps(self) { override def *(t: UInt) = self * t override def mac(m1: UInt, m2: UInt) = m1 * m2 + self override def +(t: UInt) = self + t override def -(t: UInt) = self - t override def >>(u: UInt) = { // The equation we use can be found here: https://riscv.github.io/documents/riscv-v-spec/#_vector_fixed_point_rounding_mode_register_vxrm // TODO Do we need to explicitly handle the cases where "u" is a small number (like 0)? What is the default behavior here? val point_five = Mux(u === 0.U, 0.U, self(u - 1.U)) val zeros = Mux(u <= 1.U, 0.U, self.asUInt & ((1.U << (u - 1.U)).asUInt - 1.U)) =/= 0.U val ones_digit = self(u) val r = point_five & (zeros | ones_digit) (self >> u).asUInt + r } override def >(t: UInt): Bool = self > t override def withWidthOf(t: UInt) = self.asTypeOf(t) override def clippedToWidthOf(t: UInt) = { val sat = ((1 << (t.getWidth-1))-1).U Mux(self > sat, sat, self)(t.getWidth-1, 0) } override def relu: UInt = self override def zero: UInt = 0.U override def identity: UInt = 1.U override def minimum: UInt = 0.U } } implicit object SIntArithmetic extends Arithmetic[SInt] { override implicit def cast(self: SInt) = new ArithmeticOps(self) { override def *(t: SInt) = self * t override def mac(m1: SInt, m2: SInt) = m1 * m2 + self override def +(t: SInt) = self + t override def -(t: SInt) = self - t override def >>(u: UInt) = { // The equation we use can be found here: https://riscv.github.io/documents/riscv-v-spec/#_vector_fixed_point_rounding_mode_register_vxrm // TODO Do we need to explicitly handle the cases where "u" is a small number (like 0)? What is the default behavior here? val point_five = Mux(u === 0.U, 0.U, self(u - 1.U)) val zeros = Mux(u <= 1.U, 0.U, self.asUInt & ((1.U << (u - 1.U)).asUInt - 1.U)) =/= 0.U val ones_digit = self(u) val r = (point_five & (zeros | ones_digit)).asBool (self >> u).asSInt + Mux(r, 1.S, 0.S) } override def >(t: SInt): Bool = self > t override def withWidthOf(t: SInt) = { if (self.getWidth >= t.getWidth) self(t.getWidth-1, 0).asSInt else { val sign_bits = t.getWidth - self.getWidth val sign = self(self.getWidth-1) Cat(Cat(Seq.fill(sign_bits)(sign)), self).asTypeOf(t) } } override def clippedToWidthOf(t: SInt): SInt = { val maxsat = ((1 << (t.getWidth-1))-1).S val minsat = (-(1 << (t.getWidth-1))).S MuxCase(self, Seq((self > maxsat) -> maxsat, (self < minsat) -> minsat))(t.getWidth-1, 0).asSInt } override def relu: SInt = Mux(self >= 0.S, self, 0.S) override def zero: SInt = 0.S override def identity: SInt = 1.S override def minimum: SInt = (-(1 << (self.getWidth-1))).S override def divider(denom_t: UInt, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[SInt])] = { // TODO this uses a floating point divider, but we should use an integer divider instead val input = Wire(Decoupled(denom_t.cloneType)) val output = Wire(Decoupled(self.cloneType)) // We translate our integer to floating-point form so that we can use the hardfloat divider val expWidth = log2Up(self.getWidth) + 1 val sigWidth = self.getWidth def sin_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_minMag // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def uin_to_float(x: UInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := false.B in_to_rec_fn.io.in := x in_to_rec_fn.io.roundingMode := consts.round_minMag // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def float_to_in(x: UInt) = { val rec_fn_to_in = Module(new RecFNToIN(expWidth = expWidth, sigWidth, self.getWidth)) rec_fn_to_in.io.signedOut := true.B rec_fn_to_in.io.in := x rec_fn_to_in.io.roundingMode := consts.round_minMag // consts.round_near_maxMag rec_fn_to_in.io.out.asSInt } val self_rec = sin_to_float(self) val denom_rec = uin_to_float(input.bits) // Instantiate the hardloat divider val divider = Module(new DivSqrtRecFN_small(expWidth, sigWidth, options)) input.ready := divider.io.inReady divider.io.inValid := input.valid divider.io.sqrtOp := false.B divider.io.a := self_rec divider.io.b := denom_rec divider.io.roundingMode := consts.round_minMag divider.io.detectTininess := consts.tininess_afterRounding output.valid := divider.io.outValid_div output.bits := float_to_in(divider.io.out) assert(!output.valid || output.ready) Some((input, output)) } override def sqrt: Option[(DecoupledIO[UInt], DecoupledIO[SInt])] = { // TODO this uses a floating point divider, but we should use an integer divider instead val input = Wire(Decoupled(UInt(0.W))) val output = Wire(Decoupled(self.cloneType)) input.bits := DontCare // We translate our integer to floating-point form so that we can use the hardfloat divider val expWidth = log2Up(self.getWidth) + 1 val sigWidth = self.getWidth def in_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_minMag // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def float_to_in(x: UInt) = { val rec_fn_to_in = Module(new RecFNToIN(expWidth = expWidth, sigWidth, self.getWidth)) rec_fn_to_in.io.signedOut := true.B rec_fn_to_in.io.in := x rec_fn_to_in.io.roundingMode := consts.round_minMag // consts.round_near_maxMag rec_fn_to_in.io.out.asSInt } val self_rec = in_to_float(self) // Instantiate the hardloat sqrt val sqrter = Module(new DivSqrtRecFN_small(expWidth, sigWidth, 0)) input.ready := sqrter.io.inReady sqrter.io.inValid := input.valid sqrter.io.sqrtOp := true.B sqrter.io.a := self_rec sqrter.io.b := DontCare sqrter.io.roundingMode := consts.round_minMag sqrter.io.detectTininess := consts.tininess_afterRounding output.valid := sqrter.io.outValid_sqrt output.bits := float_to_in(sqrter.io.out) assert(!output.valid || output.ready) Some((input, output)) } override def reciprocal[U <: Data](u: U, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[U])] = u match { case Float(expWidth, sigWidth) => val input = Wire(Decoupled(UInt(0.W))) val output = Wire(Decoupled(u.cloneType)) input.bits := DontCare // We translate our integer to floating-point form so that we can use the hardfloat divider def in_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_near_even // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } val self_rec = in_to_float(self) val one_rec = in_to_float(1.S) // Instantiate the hardloat divider val divider = Module(new DivSqrtRecFN_small(expWidth, sigWidth, options)) input.ready := divider.io.inReady divider.io.inValid := input.valid divider.io.sqrtOp := false.B divider.io.a := one_rec divider.io.b := self_rec divider.io.roundingMode := consts.round_near_even divider.io.detectTininess := consts.tininess_afterRounding output.valid := divider.io.outValid_div output.bits := fNFromRecFN(expWidth, sigWidth, divider.io.out).asTypeOf(u) assert(!output.valid || output.ready) Some((input, output)) case _ => None } override def mult_with_reciprocal[U <: Data](reciprocal: U): SInt = reciprocal match { case recip @ Float(expWidth, sigWidth) => def in_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_near_even // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def float_to_in(x: UInt) = { val rec_fn_to_in = Module(new RecFNToIN(expWidth = expWidth, sigWidth, self.getWidth)) rec_fn_to_in.io.signedOut := true.B rec_fn_to_in.io.in := x rec_fn_to_in.io.roundingMode := consts.round_minMag rec_fn_to_in.io.out.asSInt } val self_rec = in_to_float(self) val reciprocal_rec = recFNFromFN(expWidth, sigWidth, recip.bits) // Instantiate the hardloat divider val muladder = Module(new MulRecFN(expWidth, sigWidth)) muladder.io.roundingMode := consts.round_near_even muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := self_rec muladder.io.b := reciprocal_rec float_to_in(muladder.io.out) case _ => self } } } implicit object FloatArithmetic extends Arithmetic[Float] { // TODO Floating point arithmetic currently switches between recoded and standard formats for every operation. However, it should stay in the recoded format as it travels through the systolic array override implicit def cast(self: Float): ArithmeticOps[Float] = new ArithmeticOps(self) { override def *(t: Float): Float = { val t_rec = recFNFromFN(t.expWidth, t.sigWidth, t.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) val t_resizer = Module(new RecFNToRecFN(t.expWidth, t.sigWidth, self.expWidth, self.sigWidth)) t_resizer.io.in := t_rec t_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag t_resizer.io.detectTininess := consts.tininess_afterRounding val t_rec_resized = t_resizer.io.out val muladder = Module(new MulRecFN(self.expWidth, self.sigWidth)) muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := self_rec muladder.io.b := t_rec_resized val out = Wire(Float(self.expWidth, self.sigWidth)) out.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) out } override def mac(m1: Float, m2: Float): Float = { // Recode all operands val m1_rec = recFNFromFN(m1.expWidth, m1.sigWidth, m1.bits) val m2_rec = recFNFromFN(m2.expWidth, m2.sigWidth, m2.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Resize m1 to self's width val m1_resizer = Module(new RecFNToRecFN(m1.expWidth, m1.sigWidth, self.expWidth, self.sigWidth)) m1_resizer.io.in := m1_rec m1_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag m1_resizer.io.detectTininess := consts.tininess_afterRounding val m1_rec_resized = m1_resizer.io.out // Resize m2 to self's width val m2_resizer = Module(new RecFNToRecFN(m2.expWidth, m2.sigWidth, self.expWidth, self.sigWidth)) m2_resizer.io.in := m2_rec m2_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag m2_resizer.io.detectTininess := consts.tininess_afterRounding val m2_rec_resized = m2_resizer.io.out // Perform multiply-add val muladder = Module(new MulAddRecFN(self.expWidth, self.sigWidth)) muladder.io.op := 0.U muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := m1_rec_resized muladder.io.b := m2_rec_resized muladder.io.c := self_rec // Convert result to standard format // TODO remove these intermediate recodings val out = Wire(Float(self.expWidth, self.sigWidth)) out.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) out } override def +(t: Float): Float = { require(self.getWidth >= t.getWidth) // This just makes it easier to write the resizing code // Recode all operands val t_rec = recFNFromFN(t.expWidth, t.sigWidth, t.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Generate 1 as a float val in_to_rec_fn = Module(new INToRecFN(1, self.expWidth, self.sigWidth)) in_to_rec_fn.io.signedIn := false.B in_to_rec_fn.io.in := 1.U in_to_rec_fn.io.roundingMode := consts.round_near_even // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding val one_rec = in_to_rec_fn.io.out // Resize t val t_resizer = Module(new RecFNToRecFN(t.expWidth, t.sigWidth, self.expWidth, self.sigWidth)) t_resizer.io.in := t_rec t_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag t_resizer.io.detectTininess := consts.tininess_afterRounding val t_rec_resized = t_resizer.io.out // Perform addition val muladder = Module(new MulAddRecFN(self.expWidth, self.sigWidth)) muladder.io.op := 0.U muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := t_rec_resized muladder.io.b := one_rec muladder.io.c := self_rec val result = Wire(Float(self.expWidth, self.sigWidth)) result.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) result } override def -(t: Float): Float = { val t_sgn = t.bits(t.getWidth-1) val neg_t = Cat(~t_sgn, t.bits(t.getWidth-2,0)).asTypeOf(t) self + neg_t } override def >>(u: UInt): Float = { // Recode self val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Get 2^(-u) as a recoded float val shift_exp = Wire(UInt(self.expWidth.W)) shift_exp := self.bias.U - u val shift_fn = Cat(0.U(1.W), shift_exp, 0.U((self.sigWidth-1).W)) val shift_rec = recFNFromFN(self.expWidth, self.sigWidth, shift_fn) assert(shift_exp =/= 0.U, "scaling by denormalized numbers is not currently supported") // Multiply self and 2^(-u) val muladder = Module(new MulRecFN(self.expWidth, self.sigWidth)) muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := self_rec muladder.io.b := shift_rec val result = Wire(Float(self.expWidth, self.sigWidth)) result.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) result } override def >(t: Float): Bool = { // Recode all operands val t_rec = recFNFromFN(t.expWidth, t.sigWidth, t.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Resize t to self's width val t_resizer = Module(new RecFNToRecFN(t.expWidth, t.sigWidth, self.expWidth, self.sigWidth)) t_resizer.io.in := t_rec t_resizer.io.roundingMode := consts.round_near_even t_resizer.io.detectTininess := consts.tininess_afterRounding val t_rec_resized = t_resizer.io.out val comparator = Module(new CompareRecFN(self.expWidth, self.sigWidth)) comparator.io.a := self_rec comparator.io.b := t_rec_resized comparator.io.signaling := false.B comparator.io.gt } override def withWidthOf(t: Float): Float = { val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) val resizer = Module(new RecFNToRecFN(self.expWidth, self.sigWidth, t.expWidth, t.sigWidth)) resizer.io.in := self_rec resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag resizer.io.detectTininess := consts.tininess_afterRounding val result = Wire(Float(t.expWidth, t.sigWidth)) result.bits := fNFromRecFN(t.expWidth, t.sigWidth, resizer.io.out) result } override def clippedToWidthOf(t: Float): Float = { // TODO check for overflow. Right now, we just assume that overflow doesn't happen val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) val resizer = Module(new RecFNToRecFN(self.expWidth, self.sigWidth, t.expWidth, t.sigWidth)) resizer.io.in := self_rec resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag resizer.io.detectTininess := consts.tininess_afterRounding val result = Wire(Float(t.expWidth, t.sigWidth)) result.bits := fNFromRecFN(t.expWidth, t.sigWidth, resizer.io.out) result } override def relu: Float = { val raw = rawFloatFromFN(self.expWidth, self.sigWidth, self.bits) val result = Wire(Float(self.expWidth, self.sigWidth)) result.bits := Mux(!raw.isZero && raw.sign, 0.U, self.bits) result } override def zero: Float = 0.U.asTypeOf(self) override def identity: Float = Cat(0.U(2.W), ~(0.U((self.expWidth-1).W)), 0.U((self.sigWidth-1).W)).asTypeOf(self) override def minimum: Float = Cat(1.U, ~(0.U(self.expWidth.W)), 0.U((self.sigWidth-1).W)).asTypeOf(self) } } implicit object DummySIntArithmetic extends Arithmetic[DummySInt] { override implicit def cast(self: DummySInt) = new ArithmeticOps(self) { override def *(t: DummySInt) = self.dontCare override def mac(m1: DummySInt, m2: DummySInt) = self.dontCare override def +(t: DummySInt) = self.dontCare override def -(t: DummySInt) = self.dontCare override def >>(t: UInt) = self.dontCare override def >(t: DummySInt): Bool = false.B override def identity = self.dontCare override def withWidthOf(t: DummySInt) = self.dontCare override def clippedToWidthOf(t: DummySInt) = self.dontCare override def relu = self.dontCare override def zero = self.dontCare override def minimum: DummySInt = self.dontCare } } }
module MacUnit_131( // @[PE.scala:14:7] input clock, // @[PE.scala:14:7] input reset, // @[PE.scala:14:7] input [7:0] io_in_a, // @[PE.scala:16:14] input [7:0] io_in_b, // @[PE.scala:16:14] input [19:0] io_in_c, // @[PE.scala:16:14] output [19:0] io_out_d // @[PE.scala:16:14] ); wire [7:0] io_in_a_0 = io_in_a; // @[PE.scala:14:7] wire [7:0] io_in_b_0 = io_in_b; // @[PE.scala:14:7] wire [19:0] io_in_c_0 = io_in_c; // @[PE.scala:14:7] wire [19:0] _io_out_d_T_3; // @[Arithmetic.scala:93:54] wire [19:0] io_out_d_0; // @[PE.scala:14:7] wire [15:0] _io_out_d_T = {{8{io_in_a_0[7]}}, io_in_a_0} * {{8{io_in_b_0[7]}}, io_in_b_0}; // @[PE.scala:14:7] wire [20:0] _io_out_d_T_1 = {{5{_io_out_d_T[15]}}, _io_out_d_T} + {io_in_c_0[19], io_in_c_0}; // @[PE.scala:14:7] wire [19:0] _io_out_d_T_2 = _io_out_d_T_1[19:0]; // @[Arithmetic.scala:93:54] assign _io_out_d_T_3 = _io_out_d_T_2; // @[Arithmetic.scala:93:54] assign io_out_d_0 = _io_out_d_T_3; // @[PE.scala:14:7] assign io_out_d = io_out_d_0; // @[PE.scala:14:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File AsyncResetReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ /** This black-boxes an Async Reset * (or Set) * Register. * * Because Chisel doesn't support * parameterized black boxes, * we unfortunately have to * instantiate a number of these. * * We also have to hard-code the set/ * reset behavior. * * Do not confuse an asynchronous * reset signal with an asynchronously * reset reg. You should still * properly synchronize your reset * deassertion. * * @param d Data input * @param q Data Output * @param clk Clock Input * @param rst Reset Input * @param en Write Enable Input * */ class AsyncResetReg(resetValue: Int = 0) extends RawModule { val io = IO(new Bundle { val d = Input(Bool()) val q = Output(Bool()) val en = Input(Bool()) val clk = Input(Clock()) val rst = Input(Reset()) }) val reg = withClockAndReset(io.clk, io.rst.asAsyncReset)(RegInit(resetValue.U(1.W))) when (io.en) { reg := io.d } io.q := reg } class SimpleRegIO(val w: Int) extends Bundle{ val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) val en = Input(Bool()) } class AsyncResetRegVec(val w: Int, val init: BigInt) extends Module { override def desiredName = s"AsyncResetRegVec_w${w}_i${init}" val io = IO(new SimpleRegIO(w)) val reg = withReset(reset.asAsyncReset)(RegInit(init.U(w.W))) when (io.en) { reg := io.d } io.q := reg } object AsyncResetReg { // Create Single Registers def apply(d: Bool, clk: Clock, rst: Bool, init: Boolean, name: Option[String]): Bool = { val reg = Module(new AsyncResetReg(if (init) 1 else 0)) reg.io.d := d reg.io.clk := clk reg.io.rst := rst reg.io.en := true.B name.foreach(reg.suggestName(_)) reg.io.q } def apply(d: Bool, clk: Clock, rst: Bool): Bool = apply(d, clk, rst, false, None) def apply(d: Bool, clk: Clock, rst: Bool, name: String): Bool = apply(d, clk, rst, false, Some(name)) // Create Vectors of Registers def apply(updateData: UInt, resetData: BigInt, enable: Bool, name: Option[String] = None): UInt = { val w = updateData.getWidth max resetData.bitLength val reg = Module(new AsyncResetRegVec(w, resetData)) name.foreach(reg.suggestName(_)) reg.io.d := updateData reg.io.en := enable reg.io.q } def apply(updateData: UInt, resetData: BigInt, enable: Bool, name: String): UInt = apply(updateData, resetData, enable, Some(name)) def apply(updateData: UInt, resetData: BigInt): UInt = apply(updateData, resetData, enable = true.B) def apply(updateData: UInt, resetData: BigInt, name: String): UInt = apply(updateData, resetData, enable = true.B, Some(name)) def apply(updateData: UInt, enable: Bool): UInt = apply(updateData, resetData=BigInt(0), enable) def apply(updateData: UInt, enable: Bool, name: String): UInt = apply(updateData, resetData = BigInt(0), enable, Some(name)) def apply(updateData: UInt): UInt = apply(updateData, resetData = BigInt(0), enable = true.B) def apply(updateData: UInt, name:String): UInt = apply(updateData, resetData = BigInt(0), enable = true.B, Some(name)) }
module AsyncResetRegVec_w2_i0_14( // @[AsyncResetReg.scala:56:7] input clock, // @[AsyncResetReg.scala:56:7] input reset, // @[AsyncResetReg.scala:56:7] input [1:0] io_d, // @[AsyncResetReg.scala:59:14] output [1:0] io_q // @[AsyncResetReg.scala:59:14] ); wire [1:0] io_d_0 = io_d; // @[AsyncResetReg.scala:56:7] wire _reg_T = reset; // @[AsyncResetReg.scala:61:29] wire io_en = 1'h1; // @[AsyncResetReg.scala:56:7, :59:14] wire [1:0] io_q_0; // @[AsyncResetReg.scala:56:7] reg [1:0] reg_0; // @[AsyncResetReg.scala:61:50] assign io_q_0 = reg_0; // @[AsyncResetReg.scala:56:7, :61:50] always @(posedge clock or posedge _reg_T) begin // @[AsyncResetReg.scala:56:7, :61:29] if (_reg_T) // @[AsyncResetReg.scala:56:7, :61:29] reg_0 <= 2'h0; // @[AsyncResetReg.scala:61:50] else // @[AsyncResetReg.scala:56:7] reg_0 <= io_d_0; // @[AsyncResetReg.scala:56:7, :61:50] always @(posedge, posedge)
Generate the Verilog code corresponding to the following Chisel files. File IngressUnit.scala: package constellation.router import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.{Field, Parameters} import freechips.rocketchip.util._ import constellation.channel._ class IngressUnit( ingressNodeId: Int, cParam: IngressChannelParams, outParams: Seq[ChannelParams], egressParams: Seq[EgressChannelParams], combineRCVA: Boolean, combineSAST: Boolean, ) (implicit p: Parameters) extends AbstractInputUnit(cParam, outParams, egressParams)(p) { class IngressUnitIO extends AbstractInputUnitIO(cParam, outParams, egressParams) { val in = Flipped(Decoupled(new IngressFlit(cParam.payloadBits))) } val io = IO(new IngressUnitIO) val route_buffer = Module(new Queue(new Flit(cParam.payloadBits), 2)) val route_q = Module(new Queue(new RouteComputerResp(outParams, egressParams), 2, flow=combineRCVA)) assert(!(io.in.valid && !cParam.possibleFlows.toSeq.map(_.egressId.U === io.in.bits.egress_id).orR)) route_buffer.io.enq.bits.head := io.in.bits.head route_buffer.io.enq.bits.tail := io.in.bits.tail val flows = cParam.possibleFlows.toSeq if (flows.size == 0) { route_buffer.io.enq.bits.flow := DontCare } else { route_buffer.io.enq.bits.flow.ingress_node := cParam.destId.U route_buffer.io.enq.bits.flow.ingress_node_id := ingressNodeId.U route_buffer.io.enq.bits.flow.vnet_id := cParam.vNetId.U route_buffer.io.enq.bits.flow.egress_node := Mux1H( flows.map(_.egressId.U === io.in.bits.egress_id), flows.map(_.egressNode.U) ) route_buffer.io.enq.bits.flow.egress_node_id := Mux1H( flows.map(_.egressId.U === io.in.bits.egress_id), flows.map(_.egressNodeId.U) ) } route_buffer.io.enq.bits.payload := io.in.bits.payload route_buffer.io.enq.bits.virt_channel_id := DontCare io.router_req.bits.src_virt_id := 0.U io.router_req.bits.flow := route_buffer.io.enq.bits.flow val at_dest = route_buffer.io.enq.bits.flow.egress_node === nodeId.U route_buffer.io.enq.valid := io.in.valid && ( io.router_req.ready || !io.in.bits.head || at_dest) io.router_req.valid := io.in.valid && route_buffer.io.enq.ready && io.in.bits.head && !at_dest io.in.ready := route_buffer.io.enq.ready && ( io.router_req.ready || !io.in.bits.head || at_dest) route_q.io.enq.valid := io.router_req.fire route_q.io.enq.bits := io.router_resp when (io.in.fire && io.in.bits.head && at_dest) { route_q.io.enq.valid := true.B route_q.io.enq.bits.vc_sel.foreach(_.foreach(_ := false.B)) for (o <- 0 until nEgress) { when (egressParams(o).egressId.U === io.in.bits.egress_id) { route_q.io.enq.bits.vc_sel(o+nOutputs)(0) := true.B } } } assert(!(route_q.io.enq.valid && !route_q.io.enq.ready)) val vcalloc_buffer = Module(new Queue(new Flit(cParam.payloadBits), 2)) val vcalloc_q = Module(new Queue(new VCAllocResp(outParams, egressParams), 1, pipe=true)) vcalloc_buffer.io.enq.bits := route_buffer.io.deq.bits io.vcalloc_req.bits.vc_sel := route_q.io.deq.bits.vc_sel io.vcalloc_req.bits.flow := route_buffer.io.deq.bits.flow io.vcalloc_req.bits.in_vc := 0.U val head = route_buffer.io.deq.bits.head val tail = route_buffer.io.deq.bits.tail vcalloc_buffer.io.enq.valid := (route_buffer.io.deq.valid && (route_q.io.deq.valid || !head) && (io.vcalloc_req.ready || !head) ) io.vcalloc_req.valid := (route_buffer.io.deq.valid && route_q.io.deq.valid && head && vcalloc_buffer.io.enq.ready && vcalloc_q.io.enq.ready) route_buffer.io.deq.ready := (vcalloc_buffer.io.enq.ready && (route_q.io.deq.valid || !head) && (io.vcalloc_req.ready || !head) && (vcalloc_q.io.enq.ready || !head)) route_q.io.deq.ready := (route_buffer.io.deq.fire && tail) vcalloc_q.io.enq.valid := io.vcalloc_req.fire vcalloc_q.io.enq.bits := io.vcalloc_resp assert(!(vcalloc_q.io.enq.valid && !vcalloc_q.io.enq.ready)) io.salloc_req(0).bits.vc_sel := vcalloc_q.io.deq.bits.vc_sel io.salloc_req(0).bits.tail := vcalloc_buffer.io.deq.bits.tail val c = (vcalloc_q.io.deq.bits.vc_sel.asUInt & io.out_credit_available.asUInt) =/= 0.U val vcalloc_tail = vcalloc_buffer.io.deq.bits.tail io.salloc_req(0).valid := vcalloc_buffer.io.deq.valid && vcalloc_q.io.deq.valid && c && !io.block vcalloc_buffer.io.deq.ready := io.salloc_req(0).ready && vcalloc_q.io.deq.valid && c && !io.block vcalloc_q.io.deq.ready := vcalloc_tail && vcalloc_buffer.io.deq.fire val out_bundle = if (combineSAST) { Wire(Valid(new SwitchBundle(outParams, egressParams))) } else { Reg(Valid(new SwitchBundle(outParams, egressParams))) } io.out(0) := out_bundle out_bundle.valid := vcalloc_buffer.io.deq.fire out_bundle.bits.flit := vcalloc_buffer.io.deq.bits out_bundle.bits.flit.virt_channel_id := 0.U val out_channel_oh = vcalloc_q.io.deq.bits.vc_sel.map(_.reduce(_||_)).toSeq out_bundle.bits.out_virt_channel := Mux1H(out_channel_oh, vcalloc_q.io.deq.bits.vc_sel.map(v => OHToUInt(v)).toSeq) io.debug.va_stall := io.vcalloc_req.valid && !io.vcalloc_req.ready io.debug.sa_stall := io.salloc_req(0).valid && !io.salloc_req(0).ready // TODO: We should not generate input/ingress/output/egress units for untraversable channels if (!cParam.traversable) { io.in.ready := false.B io.router_req.valid := false.B io.router_req.bits := DontCare io.vcalloc_req.valid := false.B io.vcalloc_req.bits := DontCare io.salloc_req.foreach(_.valid := false.B) io.salloc_req.foreach(_.bits := DontCare) io.out.foreach(_.valid := false.B) io.out.foreach(_.bits := DontCare) } }
module IngressUnit_4( // @[IngressUnit.scala:11:7] input clock, // @[IngressUnit.scala:11:7] input reset, // @[IngressUnit.scala:11:7] output [3:0] io_router_req_bits_flow_egress_node, // @[IngressUnit.scala:24:14] output [1:0] io_router_req_bits_flow_egress_node_id, // @[IngressUnit.scala:24:14] input io_router_resp_vc_sel_0_0, // @[IngressUnit.scala:24:14] input io_router_resp_vc_sel_0_1, // @[IngressUnit.scala:24:14] input io_router_resp_vc_sel_0_2, // @[IngressUnit.scala:24:14] input io_router_resp_vc_sel_0_3, // @[IngressUnit.scala:24:14] input io_router_resp_vc_sel_0_4, // @[IngressUnit.scala:24:14] input io_router_resp_vc_sel_0_5, // @[IngressUnit.scala:24:14] input io_vcalloc_req_ready, // @[IngressUnit.scala:24:14] output io_vcalloc_req_valid, // @[IngressUnit.scala:24:14] output io_vcalloc_req_bits_vc_sel_1_0, // @[IngressUnit.scala:24:14] output io_vcalloc_req_bits_vc_sel_0_0, // @[IngressUnit.scala:24:14] output io_vcalloc_req_bits_vc_sel_0_1, // @[IngressUnit.scala:24:14] output io_vcalloc_req_bits_vc_sel_0_2, // @[IngressUnit.scala:24:14] output io_vcalloc_req_bits_vc_sel_0_3, // @[IngressUnit.scala:24:14] output io_vcalloc_req_bits_vc_sel_0_4, // @[IngressUnit.scala:24:14] output io_vcalloc_req_bits_vc_sel_0_5, // @[IngressUnit.scala:24:14] input io_vcalloc_resp_vc_sel_1_0, // @[IngressUnit.scala:24:14] input io_vcalloc_resp_vc_sel_0_0, // @[IngressUnit.scala:24:14] input io_vcalloc_resp_vc_sel_0_1, // @[IngressUnit.scala:24:14] input io_vcalloc_resp_vc_sel_0_2, // @[IngressUnit.scala:24:14] input io_vcalloc_resp_vc_sel_0_3, // @[IngressUnit.scala:24:14] input io_vcalloc_resp_vc_sel_0_4, // @[IngressUnit.scala:24:14] input io_vcalloc_resp_vc_sel_0_5, // @[IngressUnit.scala:24:14] input io_out_credit_available_1_0, // @[IngressUnit.scala:24:14] input io_out_credit_available_0_0, // @[IngressUnit.scala:24:14] input io_out_credit_available_0_1, // @[IngressUnit.scala:24:14] input io_out_credit_available_0_2, // @[IngressUnit.scala:24:14] input io_out_credit_available_0_3, // @[IngressUnit.scala:24:14] input io_out_credit_available_0_4, // @[IngressUnit.scala:24:14] input io_out_credit_available_0_5, // @[IngressUnit.scala:24:14] input io_salloc_req_0_ready, // @[IngressUnit.scala:24:14] output io_salloc_req_0_valid, // @[IngressUnit.scala:24:14] output io_salloc_req_0_bits_vc_sel_1_0, // @[IngressUnit.scala:24:14] output io_salloc_req_0_bits_vc_sel_0_0, // @[IngressUnit.scala:24:14] output io_salloc_req_0_bits_vc_sel_0_1, // @[IngressUnit.scala:24:14] output io_salloc_req_0_bits_vc_sel_0_2, // @[IngressUnit.scala:24:14] output io_salloc_req_0_bits_vc_sel_0_3, // @[IngressUnit.scala:24:14] output io_salloc_req_0_bits_vc_sel_0_4, // @[IngressUnit.scala:24:14] output io_salloc_req_0_bits_vc_sel_0_5, // @[IngressUnit.scala:24:14] output io_salloc_req_0_bits_tail, // @[IngressUnit.scala:24:14] output io_out_0_valid, // @[IngressUnit.scala:24:14] output io_out_0_bits_flit_head, // @[IngressUnit.scala:24:14] output io_out_0_bits_flit_tail, // @[IngressUnit.scala:24:14] output [72:0] io_out_0_bits_flit_payload, // @[IngressUnit.scala:24:14] output [1:0] io_out_0_bits_flit_flow_vnet_id, // @[IngressUnit.scala:24:14] output [3:0] io_out_0_bits_flit_flow_ingress_node, // @[IngressUnit.scala:24:14] output [1:0] io_out_0_bits_flit_flow_ingress_node_id, // @[IngressUnit.scala:24:14] output [3:0] io_out_0_bits_flit_flow_egress_node, // @[IngressUnit.scala:24:14] output [1:0] io_out_0_bits_flit_flow_egress_node_id, // @[IngressUnit.scala:24:14] output [2:0] io_out_0_bits_out_virt_channel, // @[IngressUnit.scala:24:14] output io_in_ready, // @[IngressUnit.scala:24:14] input io_in_valid, // @[IngressUnit.scala:24:14] input io_in_bits_head, // @[IngressUnit.scala:24:14] input io_in_bits_tail, // @[IngressUnit.scala:24:14] input [72:0] io_in_bits_payload, // @[IngressUnit.scala:24:14] input [4:0] io_in_bits_egress_id // @[IngressUnit.scala:24:14] ); wire _vcalloc_q_io_enq_ready; // @[IngressUnit.scala:76:25] wire _vcalloc_q_io_deq_valid; // @[IngressUnit.scala:76:25] wire _vcalloc_q_io_deq_bits_vc_sel_1_0; // @[IngressUnit.scala:76:25] wire _vcalloc_q_io_deq_bits_vc_sel_0_0; // @[IngressUnit.scala:76:25] wire _vcalloc_q_io_deq_bits_vc_sel_0_1; // @[IngressUnit.scala:76:25] wire _vcalloc_q_io_deq_bits_vc_sel_0_2; // @[IngressUnit.scala:76:25] wire _vcalloc_q_io_deq_bits_vc_sel_0_3; // @[IngressUnit.scala:76:25] wire _vcalloc_q_io_deq_bits_vc_sel_0_4; // @[IngressUnit.scala:76:25] wire _vcalloc_q_io_deq_bits_vc_sel_0_5; // @[IngressUnit.scala:76:25] wire _vcalloc_buffer_io_enq_ready; // @[IngressUnit.scala:75:30] wire _vcalloc_buffer_io_deq_valid; // @[IngressUnit.scala:75:30] wire _vcalloc_buffer_io_deq_bits_head; // @[IngressUnit.scala:75:30] wire _vcalloc_buffer_io_deq_bits_tail; // @[IngressUnit.scala:75:30] wire [72:0] _vcalloc_buffer_io_deq_bits_payload; // @[IngressUnit.scala:75:30] wire [1:0] _vcalloc_buffer_io_deq_bits_flow_vnet_id; // @[IngressUnit.scala:75:30] wire [3:0] _vcalloc_buffer_io_deq_bits_flow_ingress_node; // @[IngressUnit.scala:75:30] wire [1:0] _vcalloc_buffer_io_deq_bits_flow_ingress_node_id; // @[IngressUnit.scala:75:30] wire [3:0] _vcalloc_buffer_io_deq_bits_flow_egress_node; // @[IngressUnit.scala:75:30] wire [1:0] _vcalloc_buffer_io_deq_bits_flow_egress_node_id; // @[IngressUnit.scala:75:30] wire _route_q_io_enq_ready; // @[IngressUnit.scala:27:23] wire _route_q_io_deq_valid; // @[IngressUnit.scala:27:23] wire _route_buffer_io_enq_ready; // @[IngressUnit.scala:26:28] wire _route_buffer_io_deq_valid; // @[IngressUnit.scala:26:28] wire _route_buffer_io_deq_bits_head; // @[IngressUnit.scala:26:28] wire _route_buffer_io_deq_bits_tail; // @[IngressUnit.scala:26:28] wire [72:0] _route_buffer_io_deq_bits_payload; // @[IngressUnit.scala:26:28] wire [1:0] _route_buffer_io_deq_bits_flow_vnet_id; // @[IngressUnit.scala:26:28] wire [3:0] _route_buffer_io_deq_bits_flow_ingress_node; // @[IngressUnit.scala:26:28] wire [1:0] _route_buffer_io_deq_bits_flow_ingress_node_id; // @[IngressUnit.scala:26:28] wire [3:0] _route_buffer_io_deq_bits_flow_egress_node; // @[IngressUnit.scala:26:28] wire [1:0] _route_buffer_io_deq_bits_flow_egress_node_id; // @[IngressUnit.scala:26:28] wire [2:0] _route_buffer_io_deq_bits_virt_channel_id; // @[IngressUnit.scala:26:28] wire _route_buffer_io_enq_bits_flow_egress_node_id_T = io_in_bits_egress_id == 5'hF; // @[IngressUnit.scala:30:72] wire _route_buffer_io_enq_bits_flow_egress_node_id_T_1 = io_in_bits_egress_id == 5'hD; // @[IngressUnit.scala:30:72] wire _route_buffer_io_enq_bits_flow_egress_node_id_T_2 = io_in_bits_egress_id == 5'h11; // @[IngressUnit.scala:30:72] wire _route_buffer_io_enq_bits_flow_egress_node_id_T_3 = io_in_bits_egress_id == 5'hB; // @[IngressUnit.scala:30:72] wire _route_buffer_io_enq_bits_flow_egress_node_id_T_13 = io_in_bits_egress_id == 5'h9; // @[IngressUnit.scala:30:72] wire [3:0] _route_buffer_io_enq_bits_flow_egress_node_T_13 = (_route_buffer_io_enq_bits_flow_egress_node_id_T ? 4'hB : 4'h0) | (_route_buffer_io_enq_bits_flow_egress_node_id_T_1 ? 4'hA : 4'h0) | (_route_buffer_io_enq_bits_flow_egress_node_id_T_2 ? 4'hC : 4'h0) | (_route_buffer_io_enq_bits_flow_egress_node_id_T_3 ? 4'h9 : 4'h0) | {_route_buffer_io_enq_bits_flow_egress_node_id_T_13, 3'h0}; // @[Mux.scala:30:73] wire [1:0] route_buffer_io_enq_bits_flow_egress_node_id = {1'h0, _route_buffer_io_enq_bits_flow_egress_node_id_T_13}; // @[IngressUnit.scala:30:72, :45:50] wire _GEN = _route_buffer_io_enq_ready & io_in_valid & io_in_bits_head & _route_buffer_io_enq_bits_flow_egress_node_T_13 == 4'h2; // @[Mux.scala:30:73] wire route_q_io_enq_valid = _GEN | io_in_valid & _route_buffer_io_enq_ready & io_in_bits_head & _route_buffer_io_enq_bits_flow_egress_node_T_13 != 4'h2; // @[Mux.scala:30:73] wire io_vcalloc_req_valid_0 = _route_buffer_io_deq_valid & _route_q_io_deq_valid & _route_buffer_io_deq_bits_head & _vcalloc_buffer_io_enq_ready & _vcalloc_q_io_enq_ready; // @[IngressUnit.scala:26:28, :27:23, :75:30, :76:25, :91:{54,78}, :92:{10,41}] wire route_buffer_io_deq_ready = _vcalloc_buffer_io_enq_ready & (_route_q_io_deq_valid | ~_route_buffer_io_deq_bits_head) & (io_vcalloc_req_ready | ~_route_buffer_io_deq_bits_head) & (_vcalloc_q_io_enq_ready | ~_route_buffer_io_deq_bits_head); // @[IngressUnit.scala:26:28, :27:23, :75:30, :76:25, :88:30, :93:61, :94:{27,37}, :95:{27,37}, :96:29] wire vcalloc_q_io_enq_valid = io_vcalloc_req_ready & io_vcalloc_req_valid_0; // @[Decoupled.scala:51:35]
Generate the Verilog code corresponding to the following Chisel files. File Nodes.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.util.{AsyncQueueParams,RationalDirection} case object TLMonitorBuilder extends Field[TLMonitorArgs => TLMonitorBase](args => new TLMonitor(args)) object TLImp extends NodeImp[TLMasterPortParameters, TLSlavePortParameters, TLEdgeOut, TLEdgeIn, TLBundle] { def edgeO(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeOut(pd, pu, p, sourceInfo) def edgeI(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeIn (pd, pu, p, sourceInfo) def bundleO(eo: TLEdgeOut) = TLBundle(eo.bundle) def bundleI(ei: TLEdgeIn) = TLBundle(ei.bundle) def render(ei: TLEdgeIn) = RenderedEdge(colour = "#000000" /* black */, label = (ei.manager.beatBytes * 8).toString) override def monitor(bundle: TLBundle, edge: TLEdgeIn): Unit = { val monitor = Module(edge.params(TLMonitorBuilder)(TLMonitorArgs(edge))) monitor.io.in := bundle } override def mixO(pd: TLMasterPortParameters, node: OutwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLMasterPortParameters = pd.v1copy(clients = pd.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) }) override def mixI(pu: TLSlavePortParameters, node: InwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLSlavePortParameters = pu.v1copy(managers = pu.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) }) } trait TLFormatNode extends FormatNode[TLEdgeIn, TLEdgeOut] case class TLClientNode(portParams: Seq[TLMasterPortParameters])(implicit valName: ValName) extends SourceNode(TLImp)(portParams) with TLFormatNode case class TLManagerNode(portParams: Seq[TLSlavePortParameters])(implicit valName: ValName) extends SinkNode(TLImp)(portParams) with TLFormatNode case class TLAdapterNode( clientFn: TLMasterPortParameters => TLMasterPortParameters = { s => s }, managerFn: TLSlavePortParameters => TLSlavePortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLJunctionNode( clientFn: Seq[TLMasterPortParameters] => Seq[TLMasterPortParameters], managerFn: Seq[TLSlavePortParameters] => Seq[TLSlavePortParameters])( implicit valName: ValName) extends JunctionNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLIdentityNode()(implicit valName: ValName) extends IdentityNode(TLImp)() with TLFormatNode object TLNameNode { def apply(name: ValName) = TLIdentityNode()(name) def apply(name: Option[String]): TLIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLIdentityNode = apply(Some(name)) } case class TLEphemeralNode()(implicit valName: ValName) extends EphemeralNode(TLImp)() object TLTempNode { def apply(): TLEphemeralNode = TLEphemeralNode()(ValName("temp")) } case class TLNexusNode( clientFn: Seq[TLMasterPortParameters] => TLMasterPortParameters, managerFn: Seq[TLSlavePortParameters] => TLSlavePortParameters)( implicit valName: ValName) extends NexusNode(TLImp)(clientFn, managerFn) with TLFormatNode abstract class TLCustomNode(implicit valName: ValName) extends CustomNode(TLImp) with TLFormatNode // Asynchronous crossings trait TLAsyncFormatNode extends FormatNode[TLAsyncEdgeParameters, TLAsyncEdgeParameters] object TLAsyncImp extends SimpleNodeImp[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncEdgeParameters, TLAsyncBundle] { def edge(pd: TLAsyncClientPortParameters, pu: TLAsyncManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLAsyncEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLAsyncEdgeParameters) = new TLAsyncBundle(e.bundle) def render(e: TLAsyncEdgeParameters) = RenderedEdge(colour = "#ff0000" /* red */, label = e.manager.async.depth.toString) override def mixO(pd: TLAsyncClientPortParameters, node: OutwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLAsyncManagerPortParameters, node: InwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLAsyncAdapterNode( clientFn: TLAsyncClientPortParameters => TLAsyncClientPortParameters = { s => s }, managerFn: TLAsyncManagerPortParameters => TLAsyncManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLAsyncImp)(clientFn, managerFn) with TLAsyncFormatNode case class TLAsyncIdentityNode()(implicit valName: ValName) extends IdentityNode(TLAsyncImp)() with TLAsyncFormatNode object TLAsyncNameNode { def apply(name: ValName) = TLAsyncIdentityNode()(name) def apply(name: Option[String]): TLAsyncIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLAsyncIdentityNode = apply(Some(name)) } case class TLAsyncSourceNode(sync: Option[Int])(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLAsyncImp)( dFn = { p => TLAsyncClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = p.base.minLatency + sync.getOrElse(p.async.sync)) }) with FormatNode[TLEdgeIn, TLAsyncEdgeParameters] // discard cycles in other clock domain case class TLAsyncSinkNode(async: AsyncQueueParams)(implicit valName: ValName) extends MixedAdapterNode(TLAsyncImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = p.base.minLatency + async.sync) }, uFn = { p => TLAsyncManagerPortParameters(async, p) }) with FormatNode[TLAsyncEdgeParameters, TLEdgeOut] // Rationally related crossings trait TLRationalFormatNode extends FormatNode[TLRationalEdgeParameters, TLRationalEdgeParameters] object TLRationalImp extends SimpleNodeImp[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalEdgeParameters, TLRationalBundle] { def edge(pd: TLRationalClientPortParameters, pu: TLRationalManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLRationalEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLRationalEdgeParameters) = new TLRationalBundle(e.bundle) def render(e: TLRationalEdgeParameters) = RenderedEdge(colour = "#00ff00" /* green */) override def mixO(pd: TLRationalClientPortParameters, node: OutwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLRationalManagerPortParameters, node: InwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLRationalAdapterNode( clientFn: TLRationalClientPortParameters => TLRationalClientPortParameters = { s => s }, managerFn: TLRationalManagerPortParameters => TLRationalManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLRationalImp)(clientFn, managerFn) with TLRationalFormatNode case class TLRationalIdentityNode()(implicit valName: ValName) extends IdentityNode(TLRationalImp)() with TLRationalFormatNode object TLRationalNameNode { def apply(name: ValName) = TLRationalIdentityNode()(name) def apply(name: Option[String]): TLRationalIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLRationalIdentityNode = apply(Some(name)) } case class TLRationalSourceNode()(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLRationalImp)( dFn = { p => TLRationalClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLRationalEdgeParameters] // discard cycles from other clock domain case class TLRationalSinkNode(direction: RationalDirection)(implicit valName: ValName) extends MixedAdapterNode(TLRationalImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLRationalManagerPortParameters(direction, p) }) with FormatNode[TLRationalEdgeParameters, TLEdgeOut] // Credited version of TileLink channels trait TLCreditedFormatNode extends FormatNode[TLCreditedEdgeParameters, TLCreditedEdgeParameters] object TLCreditedImp extends SimpleNodeImp[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedEdgeParameters, TLCreditedBundle] { def edge(pd: TLCreditedClientPortParameters, pu: TLCreditedManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLCreditedEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLCreditedEdgeParameters) = new TLCreditedBundle(e.bundle) def render(e: TLCreditedEdgeParameters) = RenderedEdge(colour = "#ffff00" /* yellow */, e.delay.toString) override def mixO(pd: TLCreditedClientPortParameters, node: OutwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLCreditedManagerPortParameters, node: InwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLCreditedAdapterNode( clientFn: TLCreditedClientPortParameters => TLCreditedClientPortParameters = { s => s }, managerFn: TLCreditedManagerPortParameters => TLCreditedManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLCreditedImp)(clientFn, managerFn) with TLCreditedFormatNode case class TLCreditedIdentityNode()(implicit valName: ValName) extends IdentityNode(TLCreditedImp)() with TLCreditedFormatNode object TLCreditedNameNode { def apply(name: ValName) = TLCreditedIdentityNode()(name) def apply(name: Option[String]): TLCreditedIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLCreditedIdentityNode = apply(Some(name)) } case class TLCreditedSourceNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLCreditedImp)( dFn = { p => TLCreditedClientPortParameters(delay, p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLCreditedEdgeParameters] // discard cycles from other clock domain case class TLCreditedSinkNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLCreditedImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLCreditedManagerPortParameters(delay, p) }) with FormatNode[TLCreditedEdgeParameters, TLEdgeOut] File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File TLSerdes.scala: package testchipip.serdes import chisel3._ import chisel3.util._ import freechips.rocketchip.diplomacy._ import org.chipsalliance.cde.config._ import freechips.rocketchip.util._ import freechips.rocketchip.tilelink._ object TLSerdesser { // This should be the standard bundle type for TLSerdesser val STANDARD_TLBUNDLE_PARAMS = TLBundleParameters( addressBits=64, dataBits=64, sourceBits=8, sinkBits=8, sizeBits=8, echoFields=Nil, requestFields=Nil, responseFields=Nil, hasBCE=true) } class SerdesDebugIO extends Bundle { val ser_busy = Output(Bool()) val des_busy = Output(Bool()) } class TLSerdesser( val flitWidth: Int, clientPortParams: Option[TLMasterPortParameters], managerPortParams: Option[TLSlavePortParameters], val bundleParams: TLBundleParameters = TLSerdesser.STANDARD_TLBUNDLE_PARAMS, nameSuffix: Option[String] = None ) (implicit p: Parameters) extends LazyModule { require (clientPortParams.isDefined || managerPortParams.isDefined) val clientNode = clientPortParams.map { c => TLClientNode(Seq(c)) } val managerNode = managerPortParams.map { m => TLManagerNode(Seq(m)) } override lazy val desiredName = (Seq("TLSerdesser") ++ nameSuffix).mkString("_") lazy val module = new Impl class Impl extends LazyModuleImp(this) { val io = IO(new Bundle { val ser = Vec(5, new DecoupledFlitIO(flitWidth)) val debug = new SerdesDebugIO }) val client_tl = clientNode.map(_.out(0)._1).getOrElse(0.U.asTypeOf(new TLBundle(bundleParams))) val client_edge = clientNode.map(_.out(0)._2) val manager_tl = managerNode.map(_.in(0)._1).getOrElse(0.U.asTypeOf(new TLBundle(bundleParams))) val manager_edge = managerNode.map(_.in(0)._2) val clientParams = client_edge.map(_.bundle).getOrElse(bundleParams) val managerParams = manager_edge.map(_.bundle).getOrElse(bundleParams) val mergedParams = clientParams.union(managerParams).union(bundleParams) require(mergedParams.echoFields.isEmpty, "TLSerdesser does not support TileLink with echo fields") require(mergedParams.requestFields.isEmpty, "TLSerdesser does not support TileLink with request fields") require(mergedParams.responseFields.isEmpty, "TLSerdesser does not support TileLink with response fields") require(mergedParams == bundleParams, s"TLSerdesser is misconfigured, the combined inwards/outwards parameters cannot be serialized using the provided bundle params\n$mergedParams > $bundleParams") val out_channels = Seq( (manager_tl.e, manager_edge.map(e => Module(new TLEToBeat(e, mergedParams, nameSuffix)))), (client_tl.d, client_edge.map (e => Module(new TLDToBeat(e, mergedParams, nameSuffix)))), (manager_tl.c, manager_edge.map(e => Module(new TLCToBeat(e, mergedParams, nameSuffix)))), (client_tl.b, client_edge.map (e => Module(new TLBToBeat(e, mergedParams, nameSuffix)))), (manager_tl.a, manager_edge.map(e => Module(new TLAToBeat(e, mergedParams, nameSuffix)))) ) io.ser.map(_.out.valid := false.B) io.ser.map(_.out.bits := DontCare) val out_sers = out_channels.zipWithIndex.map { case ((c,b),i) => b.map { b => b.io.protocol <> c val ser = Module(new GenericSerializer(b.io.beat.bits.cloneType, flitWidth)).suggestName(s"ser_$i") ser.io.in <> b.io.beat io.ser(i).out <> ser.io.out ser }}.flatten io.debug.ser_busy := out_sers.map(_.io.busy).orR val in_channels = Seq( (client_tl.e, Module(new TLEFromBeat(mergedParams, nameSuffix))), (manager_tl.d, Module(new TLDFromBeat(mergedParams, nameSuffix))), (client_tl.c, Module(new TLCFromBeat(mergedParams, nameSuffix))), (manager_tl.b, Module(new TLBFromBeat(mergedParams, nameSuffix))), (client_tl.a, Module(new TLAFromBeat(mergedParams, nameSuffix))) ) val in_desers = in_channels.zipWithIndex.map { case ((c,b),i) => c <> b.io.protocol val des = Module(new GenericDeserializer(b.io.beat.bits.cloneType, flitWidth)).suggestName(s"des_$i") des.io.in <> io.ser(i).in b.io.beat <> des.io.out des } io.debug.des_busy := in_desers.map(_.io.busy).orR } }
module TLSerdesser_SerialRAM( // @[TLSerdes.scala:39:9] input clock, // @[TLSerdes.scala:39:9] input reset, // @[TLSerdes.scala:39:9] output auto_manager_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_manager_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_manager_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_manager_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_manager_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input auto_manager_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_manager_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_manager_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_manager_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_manager_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_manager_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_manager_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_manager_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_manager_in_d_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_manager_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output auto_manager_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output [2:0] auto_manager_in_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_manager_in_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_manager_in_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_manager_in_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output io_ser_0_in_ready, // @[TLSerdes.scala:40:16] input io_ser_0_in_valid, // @[TLSerdes.scala:40:16] input [31:0] io_ser_0_in_bits_flit, // @[TLSerdes.scala:40:16] output [31:0] io_ser_0_out_bits_flit, // @[TLSerdes.scala:40:16] output io_ser_1_in_ready, // @[TLSerdes.scala:40:16] input io_ser_1_in_valid, // @[TLSerdes.scala:40:16] input [31:0] io_ser_1_in_bits_flit, // @[TLSerdes.scala:40:16] output io_ser_2_in_ready, // @[TLSerdes.scala:40:16] input io_ser_2_in_valid, // @[TLSerdes.scala:40:16] input [31:0] io_ser_2_in_bits_flit, // @[TLSerdes.scala:40:16] input io_ser_2_out_ready, // @[TLSerdes.scala:40:16] output io_ser_2_out_valid, // @[TLSerdes.scala:40:16] output [31:0] io_ser_2_out_bits_flit, // @[TLSerdes.scala:40:16] output io_ser_3_in_ready, // @[TLSerdes.scala:40:16] input io_ser_3_in_valid, // @[TLSerdes.scala:40:16] input [31:0] io_ser_3_in_bits_flit, // @[TLSerdes.scala:40:16] output io_ser_4_in_ready, // @[TLSerdes.scala:40:16] input io_ser_4_in_valid, // @[TLSerdes.scala:40:16] input [31:0] io_ser_4_in_bits_flit, // @[TLSerdes.scala:40:16] input io_ser_4_out_ready, // @[TLSerdes.scala:40:16] output io_ser_4_out_valid, // @[TLSerdes.scala:40:16] output [31:0] io_ser_4_out_bits_flit // @[TLSerdes.scala:40:16] ); wire _des_4_io_out_valid; // @[TLSerdes.scala:86:23] wire _des_4_io_out_bits_head; // @[TLSerdes.scala:86:23] wire _des_4_io_out_bits_tail; // @[TLSerdes.scala:86:23] wire _des_3_io_out_valid; // @[TLSerdes.scala:86:23] wire _des_3_io_out_bits_head; // @[TLSerdes.scala:86:23] wire _des_3_io_out_bits_tail; // @[TLSerdes.scala:86:23] wire _des_2_io_out_valid; // @[TLSerdes.scala:86:23] wire _des_2_io_out_bits_head; // @[TLSerdes.scala:86:23] wire _des_2_io_out_bits_tail; // @[TLSerdes.scala:86:23] wire _des_1_io_out_valid; // @[TLSerdes.scala:86:23] wire [64:0] _des_1_io_out_bits_payload; // @[TLSerdes.scala:86:23] wire _des_1_io_out_bits_head; // @[TLSerdes.scala:86:23] wire _des_1_io_out_bits_tail; // @[TLSerdes.scala:86:23] wire _des_0_io_out_valid; // @[TLSerdes.scala:86:23] wire _des_0_io_out_bits_head; // @[TLSerdes.scala:86:23] wire _des_0_io_out_bits_tail; // @[TLSerdes.scala:86:23] wire _in_channels_4_2_io_beat_ready; // @[TLSerdes.scala:82:28] wire _in_channels_3_2_io_beat_ready; // @[TLSerdes.scala:81:28] wire _in_channels_2_2_io_beat_ready; // @[TLSerdes.scala:80:28] wire _in_channels_1_2_io_protocol_valid; // @[TLSerdes.scala:79:28] wire [2:0] _in_channels_1_2_io_protocol_bits_opcode; // @[TLSerdes.scala:79:28] wire [1:0] _in_channels_1_2_io_protocol_bits_param; // @[TLSerdes.scala:79:28] wire [7:0] _in_channels_1_2_io_protocol_bits_size; // @[TLSerdes.scala:79:28] wire [7:0] _in_channels_1_2_io_protocol_bits_source; // @[TLSerdes.scala:79:28] wire [7:0] _in_channels_1_2_io_protocol_bits_sink; // @[TLSerdes.scala:79:28] wire _in_channels_1_2_io_protocol_bits_denied; // @[TLSerdes.scala:79:28] wire _in_channels_1_2_io_protocol_bits_corrupt; // @[TLSerdes.scala:79:28] wire _in_channels_1_2_io_beat_ready; // @[TLSerdes.scala:79:28] wire _in_channels_0_2_io_beat_ready; // @[TLSerdes.scala:78:28] wire _ser_4_io_in_ready; // @[TLSerdes.scala:69:23] wire _out_channels_4_2_io_protocol_ready; // @[TLSerdes.scala:63:50] wire _out_channels_4_2_io_beat_valid; // @[TLSerdes.scala:63:50] wire [85:0] _out_channels_4_2_io_beat_bits_payload; // @[TLSerdes.scala:63:50] wire _out_channels_4_2_io_beat_bits_head; // @[TLSerdes.scala:63:50] wire _out_channels_4_2_io_beat_bits_tail; // @[TLSerdes.scala:63:50] wire _out_channels_2_2_io_beat_bits_head; // @[TLSerdes.scala:61:50] wire _out_channels_0_2_io_beat_bits_head; // @[TLSerdes.scala:59:50] TLMonitor_72 monitor ( // @[Nodes.scala:27:25] .clock (clock), .reset (reset), .io_in_a_ready (_out_channels_4_2_io_protocol_ready), // @[TLSerdes.scala:63:50] .io_in_a_valid (auto_manager_in_a_valid), .io_in_a_bits_opcode (auto_manager_in_a_bits_opcode), .io_in_a_bits_param (auto_manager_in_a_bits_param), .io_in_a_bits_size (auto_manager_in_a_bits_size), .io_in_a_bits_source (auto_manager_in_a_bits_source), .io_in_a_bits_address (auto_manager_in_a_bits_address), .io_in_a_bits_mask (auto_manager_in_a_bits_mask), .io_in_a_bits_corrupt (auto_manager_in_a_bits_corrupt), .io_in_d_ready (auto_manager_in_d_ready), .io_in_d_valid (_in_channels_1_2_io_protocol_valid), // @[TLSerdes.scala:79:28] .io_in_d_bits_opcode (_in_channels_1_2_io_protocol_bits_opcode), // @[TLSerdes.scala:79:28] .io_in_d_bits_param (_in_channels_1_2_io_protocol_bits_param), // @[TLSerdes.scala:79:28] .io_in_d_bits_size (_in_channels_1_2_io_protocol_bits_size[3:0]), // @[TLSerdes.scala:79:28, :85:9] .io_in_d_bits_source (_in_channels_1_2_io_protocol_bits_source[0]), // @[TLSerdes.scala:79:28, :85:9] .io_in_d_bits_sink (_in_channels_1_2_io_protocol_bits_sink[2:0]), // @[TLSerdes.scala:79:28, :85:9] .io_in_d_bits_denied (_in_channels_1_2_io_protocol_bits_denied), // @[TLSerdes.scala:79:28] .io_in_d_bits_corrupt (_in_channels_1_2_io_protocol_bits_corrupt) // @[TLSerdes.scala:79:28] ); // @[Nodes.scala:27:25] TLEToBeat_SerialRAM_a64d64s8k8z8c out_channels_0_2 ( // @[TLSerdes.scala:59:50] .clock (clock), .reset (reset), .io_beat_bits_head (_out_channels_0_2_io_beat_bits_head) ); // @[TLSerdes.scala:59:50] TLCToBeat_SerialRAM_a64d64s8k8z8c out_channels_2_2 ( // @[TLSerdes.scala:61:50] .clock (clock), .reset (reset), .io_beat_bits_head (_out_channels_2_2_io_beat_bits_head) ); // @[TLSerdes.scala:61:50] TLAToBeat_SerialRAM_a64d64s8k8z8c out_channels_4_2 ( // @[TLSerdes.scala:63:50] .clock (clock), .reset (reset), .io_protocol_ready (_out_channels_4_2_io_protocol_ready), .io_protocol_valid (auto_manager_in_a_valid), .io_protocol_bits_opcode (auto_manager_in_a_bits_opcode), .io_protocol_bits_param (auto_manager_in_a_bits_param), .io_protocol_bits_size ({4'h0, auto_manager_in_a_bits_size}), // @[TLSerdes.scala:68:21] .io_protocol_bits_source ({7'h0, auto_manager_in_a_bits_source}), // @[TLSerdes.scala:68:21] .io_protocol_bits_address ({32'h0, auto_manager_in_a_bits_address}), // @[TLSerdes.scala:68:21] .io_protocol_bits_mask (auto_manager_in_a_bits_mask), .io_protocol_bits_data (auto_manager_in_a_bits_data), .io_protocol_bits_corrupt (auto_manager_in_a_bits_corrupt), .io_beat_ready (_ser_4_io_in_ready), // @[TLSerdes.scala:69:23] .io_beat_valid (_out_channels_4_2_io_beat_valid), .io_beat_bits_payload (_out_channels_4_2_io_beat_bits_payload), .io_beat_bits_head (_out_channels_4_2_io_beat_bits_head), .io_beat_bits_tail (_out_channels_4_2_io_beat_bits_tail) ); // @[TLSerdes.scala:63:50] GenericSerializer_TLBeatw10_f32 ser_0 ( // @[TLSerdes.scala:69:23] .io_in_bits_head (_out_channels_0_2_io_beat_bits_head), // @[TLSerdes.scala:59:50] .io_out_bits_flit (io_ser_0_out_bits_flit) ); // @[TLSerdes.scala:69:23] GenericSerializer_TLBeatw88_f32 ser_2 ( // @[TLSerdes.scala:69:23] .clock (clock), .reset (reset), .io_in_ready (/* unused */), .io_in_valid (1'h0), // @[TLSerdes.scala:39:9, :40:16, :59:50, :61:50, :69:23] .io_in_bits_payload (86'h0), // @[TLSerdes.scala:61:50, :69:23] .io_in_bits_head (_out_channels_2_2_io_beat_bits_head), // @[TLSerdes.scala:61:50] .io_in_bits_tail (1'h1), // @[TLSerdes.scala:59:50, :61:50, :69:23] .io_out_ready (io_ser_2_out_ready), .io_out_valid (io_ser_2_out_valid), .io_out_bits_flit (io_ser_2_out_bits_flit) ); // @[TLSerdes.scala:69:23] GenericSerializer_TLBeatw88_f32 ser_4 ( // @[TLSerdes.scala:69:23] .clock (clock), .reset (reset), .io_in_ready (_ser_4_io_in_ready), .io_in_valid (_out_channels_4_2_io_beat_valid), // @[TLSerdes.scala:63:50] .io_in_bits_payload (_out_channels_4_2_io_beat_bits_payload), // @[TLSerdes.scala:63:50] .io_in_bits_head (_out_channels_4_2_io_beat_bits_head), // @[TLSerdes.scala:63:50] .io_in_bits_tail (_out_channels_4_2_io_beat_bits_tail), // @[TLSerdes.scala:63:50] .io_out_ready (io_ser_4_out_ready), .io_out_valid (io_ser_4_out_valid), .io_out_bits_flit (io_ser_4_out_bits_flit) ); // @[TLSerdes.scala:69:23] TLEFromBeat_SerialRAM_a64d64s8k8z8c in_channels_0_2 ( // @[TLSerdes.scala:78:28] .clock (clock), .reset (reset), .io_beat_ready (_in_channels_0_2_io_beat_ready), .io_beat_valid (_des_0_io_out_valid), // @[TLSerdes.scala:86:23] .io_beat_bits_head (_des_0_io_out_bits_head), // @[TLSerdes.scala:86:23] .io_beat_bits_tail (_des_0_io_out_bits_tail) // @[TLSerdes.scala:86:23] ); // @[TLSerdes.scala:78:28] TLDFromBeat_SerialRAM_a64d64s8k8z8c in_channels_1_2 ( // @[TLSerdes.scala:79:28] .clock (clock), .reset (reset), .io_protocol_ready (auto_manager_in_d_ready), .io_protocol_valid (_in_channels_1_2_io_protocol_valid), .io_protocol_bits_opcode (_in_channels_1_2_io_protocol_bits_opcode), .io_protocol_bits_param (_in_channels_1_2_io_protocol_bits_param), .io_protocol_bits_size (_in_channels_1_2_io_protocol_bits_size), .io_protocol_bits_source (_in_channels_1_2_io_protocol_bits_source), .io_protocol_bits_sink (_in_channels_1_2_io_protocol_bits_sink), .io_protocol_bits_denied (_in_channels_1_2_io_protocol_bits_denied), .io_protocol_bits_data (auto_manager_in_d_bits_data), .io_protocol_bits_corrupt (_in_channels_1_2_io_protocol_bits_corrupt), .io_beat_ready (_in_channels_1_2_io_beat_ready), .io_beat_valid (_des_1_io_out_valid), // @[TLSerdes.scala:86:23] .io_beat_bits_payload (_des_1_io_out_bits_payload), // @[TLSerdes.scala:86:23] .io_beat_bits_head (_des_1_io_out_bits_head), // @[TLSerdes.scala:86:23] .io_beat_bits_tail (_des_1_io_out_bits_tail) // @[TLSerdes.scala:86:23] ); // @[TLSerdes.scala:79:28] TLCFromBeat_SerialRAM_a64d64s8k8z8c in_channels_2_2 ( // @[TLSerdes.scala:80:28] .clock (clock), .reset (reset), .io_beat_ready (_in_channels_2_2_io_beat_ready), .io_beat_valid (_des_2_io_out_valid), // @[TLSerdes.scala:86:23] .io_beat_bits_head (_des_2_io_out_bits_head), // @[TLSerdes.scala:86:23] .io_beat_bits_tail (_des_2_io_out_bits_tail) // @[TLSerdes.scala:86:23] ); // @[TLSerdes.scala:80:28] TLBFromBeat_SerialRAM_a64d64s8k8z8c in_channels_3_2 ( // @[TLSerdes.scala:81:28] .clock (clock), .reset (reset), .io_beat_ready (_in_channels_3_2_io_beat_ready), .io_beat_valid (_des_3_io_out_valid), // @[TLSerdes.scala:86:23] .io_beat_bits_head (_des_3_io_out_bits_head), // @[TLSerdes.scala:86:23] .io_beat_bits_tail (_des_3_io_out_bits_tail) // @[TLSerdes.scala:86:23] ); // @[TLSerdes.scala:81:28] TLAFromBeat_SerialRAM_a64d64s8k8z8c in_channels_4_2 ( // @[TLSerdes.scala:82:28] .clock (clock), .reset (reset), .io_beat_ready (_in_channels_4_2_io_beat_ready), .io_beat_valid (_des_4_io_out_valid), // @[TLSerdes.scala:86:23] .io_beat_bits_head (_des_4_io_out_bits_head), // @[TLSerdes.scala:86:23] .io_beat_bits_tail (_des_4_io_out_bits_tail) // @[TLSerdes.scala:86:23] ); // @[TLSerdes.scala:82:28] GenericDeserializer_TLBeatw10_f32 des_0 ( // @[TLSerdes.scala:86:23] .io_in_ready (io_ser_0_in_ready), .io_in_valid (io_ser_0_in_valid), .io_in_bits_flit (io_ser_0_in_bits_flit), .io_out_ready (_in_channels_0_2_io_beat_ready), // @[TLSerdes.scala:78:28] .io_out_valid (_des_0_io_out_valid), .io_out_bits_head (_des_0_io_out_bits_head), .io_out_bits_tail (_des_0_io_out_bits_tail) ); // @[TLSerdes.scala:86:23] GenericDeserializer_TLBeatw67_f32 des_1 ( // @[TLSerdes.scala:86:23] .clock (clock), .reset (reset), .io_in_ready (io_ser_1_in_ready), .io_in_valid (io_ser_1_in_valid), .io_in_bits_flit (io_ser_1_in_bits_flit), .io_out_ready (_in_channels_1_2_io_beat_ready), // @[TLSerdes.scala:79:28] .io_out_valid (_des_1_io_out_valid), .io_out_bits_payload (_des_1_io_out_bits_payload), .io_out_bits_head (_des_1_io_out_bits_head), .io_out_bits_tail (_des_1_io_out_bits_tail) ); // @[TLSerdes.scala:86:23] GenericDeserializer_TLBeatw88_f32 des_2 ( // @[TLSerdes.scala:86:23] .clock (clock), .reset (reset), .io_in_ready (io_ser_2_in_ready), .io_in_valid (io_ser_2_in_valid), .io_in_bits_flit (io_ser_2_in_bits_flit), .io_out_ready (_in_channels_2_2_io_beat_ready), // @[TLSerdes.scala:80:28] .io_out_valid (_des_2_io_out_valid), .io_out_bits_payload (/* unused */), .io_out_bits_head (_des_2_io_out_bits_head), .io_out_bits_tail (_des_2_io_out_bits_tail) ); // @[TLSerdes.scala:86:23] GenericDeserializer_TLBeatw87_f32 des_3 ( // @[TLSerdes.scala:86:23] .clock (clock), .reset (reset), .io_in_ready (io_ser_3_in_ready), .io_in_valid (io_ser_3_in_valid), .io_in_bits_flit (io_ser_3_in_bits_flit), .io_out_ready (_in_channels_3_2_io_beat_ready), // @[TLSerdes.scala:81:28] .io_out_valid (_des_3_io_out_valid), .io_out_bits_head (_des_3_io_out_bits_head), .io_out_bits_tail (_des_3_io_out_bits_tail) ); // @[TLSerdes.scala:86:23] GenericDeserializer_TLBeatw88_f32 des_4 ( // @[TLSerdes.scala:86:23] .clock (clock), .reset (reset), .io_in_ready (io_ser_4_in_ready), .io_in_valid (io_ser_4_in_valid), .io_in_bits_flit (io_ser_4_in_bits_flit), .io_out_ready (_in_channels_4_2_io_beat_ready), // @[TLSerdes.scala:82:28] .io_out_valid (_des_4_io_out_valid), .io_out_bits_payload (/* unused */), .io_out_bits_head (_des_4_io_out_bits_head), .io_out_bits_tail (_des_4_io_out_bits_tail) ); // @[TLSerdes.scala:86:23] assign auto_manager_in_a_ready = _out_channels_4_2_io_protocol_ready; // @[TLSerdes.scala:39:9, :63:50] assign auto_manager_in_d_valid = _in_channels_1_2_io_protocol_valid; // @[TLSerdes.scala:39:9, :79:28] assign auto_manager_in_d_bits_opcode = _in_channels_1_2_io_protocol_bits_opcode; // @[TLSerdes.scala:39:9, :79:28] assign auto_manager_in_d_bits_param = _in_channels_1_2_io_protocol_bits_param; // @[TLSerdes.scala:39:9, :79:28] assign auto_manager_in_d_bits_size = _in_channels_1_2_io_protocol_bits_size[3:0]; // @[TLSerdes.scala:39:9, :79:28, :85:9] assign auto_manager_in_d_bits_source = _in_channels_1_2_io_protocol_bits_source[0]; // @[TLSerdes.scala:39:9, :79:28, :85:9] assign auto_manager_in_d_bits_sink = _in_channels_1_2_io_protocol_bits_sink[2:0]; // @[TLSerdes.scala:39:9, :79:28, :85:9] assign auto_manager_in_d_bits_denied = _in_channels_1_2_io_protocol_bits_denied; // @[TLSerdes.scala:39:9, :79:28] assign auto_manager_in_d_bits_corrupt = _in_channels_1_2_io_protocol_bits_corrupt; // @[TLSerdes.scala:39:9, :79:28] endmodule
Generate the Verilog code corresponding to the following Chisel files. File primitives.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object lowMask { def apply(in: UInt, topBound: BigInt, bottomBound: BigInt): UInt = { require(topBound != bottomBound) val numInVals = BigInt(1)<<in.getWidth if (topBound < bottomBound) { lowMask(~in, numInVals - 1 - topBound, numInVals - 1 - bottomBound) } else if (numInVals > 64 /* Empirical */) { // For simulation performance, we should avoid generating // exteremely wide shifters, so we divide and conquer. // Empirically, this does not impact synthesis QoR. val mid = numInVals / 2 val msb = in(in.getWidth - 1) val lsbs = in(in.getWidth - 2, 0) if (mid < topBound) { if (mid <= bottomBound) { Mux(msb, lowMask(lsbs, topBound - mid, bottomBound - mid), 0.U ) } else { Mux(msb, lowMask(lsbs, topBound - mid, 0) ## ((BigInt(1)<<(mid - bottomBound).toInt) - 1).U, lowMask(lsbs, mid, bottomBound) ) } } else { ~Mux(msb, 0.U, ~lowMask(lsbs, topBound, bottomBound)) } } else { val shift = (BigInt(-1)<<numInVals.toInt).S>>in Reverse( shift( (numInVals - 1 - bottomBound).toInt, (numInVals - topBound).toInt ) ) } } } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object countLeadingZeros { def apply(in: UInt): UInt = PriorityEncoder(in.asBools.reverse) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object orReduceBy2 { def apply(in: UInt): UInt = { val reducedWidth = (in.getWidth + 1)>>1 val reducedVec = Wire(Vec(reducedWidth, Bool())) for (ix <- 0 until reducedWidth - 1) { reducedVec(ix) := in(ix * 2 + 1, ix * 2).orR } reducedVec(reducedWidth - 1) := in(in.getWidth - 1, (reducedWidth - 1) * 2).orR reducedVec.asUInt } } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object orReduceBy4 { def apply(in: UInt): UInt = { val reducedWidth = (in.getWidth + 3)>>2 val reducedVec = Wire(Vec(reducedWidth, Bool())) for (ix <- 0 until reducedWidth - 1) { reducedVec(ix) := in(ix * 4 + 3, ix * 4).orR } reducedVec(reducedWidth - 1) := in(in.getWidth - 1, (reducedWidth - 1) * 4).orR reducedVec.asUInt } } File MulAddRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ import consts._ //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFN_interIo(expWidth: Int, sigWidth: Int) extends Bundle { //*** ENCODE SOME OF THESE CASES IN FEWER BITS?: val isSigNaNAny = Bool() val isNaNAOrB = Bool() val isInfA = Bool() val isZeroA = Bool() val isInfB = Bool() val isZeroB = Bool() val signProd = Bool() val isNaNC = Bool() val isInfC = Bool() val isZeroC = Bool() val sExpSum = SInt((expWidth + 2).W) val doSubMags = Bool() val CIsDominant = Bool() val CDom_CAlignDist = UInt(log2Ceil(sigWidth + 1).W) val highAlignedSigC = UInt((sigWidth + 2).W) val bit0AlignedSigC = UInt(1.W) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFNToRaw_preMul(expWidth: Int, sigWidth: Int) extends RawModule { override def desiredName = s"MulAddRecFNToRaw_preMul_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val op = Input(Bits(2.W)) val a = Input(Bits((expWidth + sigWidth + 1).W)) val b = Input(Bits((expWidth + sigWidth + 1).W)) val c = Input(Bits((expWidth + sigWidth + 1).W)) val mulAddA = Output(UInt(sigWidth.W)) val mulAddB = Output(UInt(sigWidth.W)) val mulAddC = Output(UInt((sigWidth * 2).W)) val toPostMul = Output(new MulAddRecFN_interIo(expWidth, sigWidth)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ //*** POSSIBLE TO REDUCE THIS BY 1 OR 2 BITS? (CURRENTLY 2 BITS BETWEEN //*** UNSHIFTED C AND PRODUCT): val sigSumWidth = sigWidth * 3 + 3 //------------------------------------------------------------------------ //------------------------------------------------------------------------ val rawA = rawFloatFromRecFN(expWidth, sigWidth, io.a) val rawB = rawFloatFromRecFN(expWidth, sigWidth, io.b) val rawC = rawFloatFromRecFN(expWidth, sigWidth, io.c) val signProd = rawA.sign ^ rawB.sign ^ io.op(1) //*** REVIEW THE BIAS FOR 'sExpAlignedProd': val sExpAlignedProd = rawA.sExp +& rawB.sExp + (-(BigInt(1)<<expWidth) + sigWidth + 3).S val doSubMags = signProd ^ rawC.sign ^ io.op(0) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sNatCAlignDist = sExpAlignedProd - rawC.sExp val posNatCAlignDist = sNatCAlignDist(expWidth + 1, 0) val isMinCAlign = rawA.isZero || rawB.isZero || (sNatCAlignDist < 0.S) val CIsDominant = ! rawC.isZero && (isMinCAlign || (posNatCAlignDist <= sigWidth.U)) val CAlignDist = Mux(isMinCAlign, 0.U, Mux(posNatCAlignDist < (sigSumWidth - 1).U, posNatCAlignDist(log2Ceil(sigSumWidth) - 1, 0), (sigSumWidth - 1).U ) ) val mainAlignedSigC = (Mux(doSubMags, ~rawC.sig, rawC.sig) ## Fill(sigSumWidth - sigWidth + 2, doSubMags)).asSInt>>CAlignDist val reduced4CExtra = (orReduceBy4(rawC.sig<<((sigSumWidth - sigWidth - 1) & 3)) & lowMask( CAlignDist>>2, //*** NOT NEEDED?: // (sigSumWidth + 2)>>2, (sigSumWidth - 1)>>2, (sigSumWidth - sigWidth - 1)>>2 ) ).orR val alignedSigC = Cat(mainAlignedSigC>>3, Mux(doSubMags, mainAlignedSigC(2, 0).andR && ! reduced4CExtra, mainAlignedSigC(2, 0).orR || reduced4CExtra ) ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ io.mulAddA := rawA.sig io.mulAddB := rawB.sig io.mulAddC := alignedSigC(sigWidth * 2, 1) io.toPostMul.isSigNaNAny := isSigNaNRawFloat(rawA) || isSigNaNRawFloat(rawB) || isSigNaNRawFloat(rawC) io.toPostMul.isNaNAOrB := rawA.isNaN || rawB.isNaN io.toPostMul.isInfA := rawA.isInf io.toPostMul.isZeroA := rawA.isZero io.toPostMul.isInfB := rawB.isInf io.toPostMul.isZeroB := rawB.isZero io.toPostMul.signProd := signProd io.toPostMul.isNaNC := rawC.isNaN io.toPostMul.isInfC := rawC.isInf io.toPostMul.isZeroC := rawC.isZero io.toPostMul.sExpSum := Mux(CIsDominant, rawC.sExp, sExpAlignedProd - sigWidth.S) io.toPostMul.doSubMags := doSubMags io.toPostMul.CIsDominant := CIsDominant io.toPostMul.CDom_CAlignDist := CAlignDist(log2Ceil(sigWidth + 1) - 1, 0) io.toPostMul.highAlignedSigC := alignedSigC(sigSumWidth - 1, sigWidth * 2 + 1) io.toPostMul.bit0AlignedSigC := alignedSigC(0) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFNToRaw_postMul(expWidth: Int, sigWidth: Int) extends RawModule { override def desiredName = s"MulAddRecFNToRaw_postMul_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val fromPreMul = Input(new MulAddRecFN_interIo(expWidth, sigWidth)) val mulAddResult = Input(UInt((sigWidth * 2 + 1).W)) val roundingMode = Input(UInt(3.W)) val invalidExc = Output(Bool()) val rawOut = Output(new RawFloat(expWidth, sigWidth + 2)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sigSumWidth = sigWidth * 3 + 3 //------------------------------------------------------------------------ //------------------------------------------------------------------------ val roundingMode_min = (io.roundingMode === round_min) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val opSignC = io.fromPreMul.signProd ^ io.fromPreMul.doSubMags val sigSum = Cat(Mux(io.mulAddResult(sigWidth * 2), io.fromPreMul.highAlignedSigC + 1.U, io.fromPreMul.highAlignedSigC ), io.mulAddResult(sigWidth * 2 - 1, 0), io.fromPreMul.bit0AlignedSigC ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val CDom_sign = opSignC val CDom_sExp = io.fromPreMul.sExpSum - io.fromPreMul.doSubMags.zext val CDom_absSigSum = Mux(io.fromPreMul.doSubMags, ~sigSum(sigSumWidth - 1, sigWidth + 1), 0.U(1.W) ## //*** IF GAP IS REDUCED TO 1 BIT, MUST REDUCE THIS COMPONENT TO 1 BIT TOO: io.fromPreMul.highAlignedSigC(sigWidth + 1, sigWidth) ## sigSum(sigSumWidth - 3, sigWidth + 2) ) val CDom_absSigSumExtra = Mux(io.fromPreMul.doSubMags, (~sigSum(sigWidth, 1)).orR, sigSum(sigWidth + 1, 1).orR ) val CDom_mainSig = (CDom_absSigSum<<io.fromPreMul.CDom_CAlignDist)( sigWidth * 2 + 1, sigWidth - 3) val CDom_reduced4SigExtra = (orReduceBy4(CDom_absSigSum(sigWidth - 1, 0)<<(~sigWidth & 3)) & lowMask(io.fromPreMul.CDom_CAlignDist>>2, 0, sigWidth>>2)).orR val CDom_sig = Cat(CDom_mainSig>>3, CDom_mainSig(2, 0).orR || CDom_reduced4SigExtra || CDom_absSigSumExtra ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val notCDom_signSigSum = sigSum(sigWidth * 2 + 3) val notCDom_absSigSum = Mux(notCDom_signSigSum, ~sigSum(sigWidth * 2 + 2, 0), sigSum(sigWidth * 2 + 2, 0) + io.fromPreMul.doSubMags ) val notCDom_reduced2AbsSigSum = orReduceBy2(notCDom_absSigSum) val notCDom_normDistReduced2 = countLeadingZeros(notCDom_reduced2AbsSigSum) val notCDom_nearNormDist = notCDom_normDistReduced2<<1 val notCDom_sExp = io.fromPreMul.sExpSum - notCDom_nearNormDist.asUInt.zext val notCDom_mainSig = (notCDom_absSigSum<<notCDom_nearNormDist)( sigWidth * 2 + 3, sigWidth - 1) val notCDom_reduced4SigExtra = (orReduceBy2( notCDom_reduced2AbsSigSum(sigWidth>>1, 0)<<((sigWidth>>1) & 1)) & lowMask(notCDom_normDistReduced2>>1, 0, (sigWidth + 2)>>2) ).orR val notCDom_sig = Cat(notCDom_mainSig>>3, notCDom_mainSig(2, 0).orR || notCDom_reduced4SigExtra ) val notCDom_completeCancellation = (notCDom_sig(sigWidth + 2, sigWidth + 1) === 0.U) val notCDom_sign = Mux(notCDom_completeCancellation, roundingMode_min, io.fromPreMul.signProd ^ notCDom_signSigSum ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val notNaN_isInfProd = io.fromPreMul.isInfA || io.fromPreMul.isInfB val notNaN_isInfOut = notNaN_isInfProd || io.fromPreMul.isInfC val notNaN_addZeros = (io.fromPreMul.isZeroA || io.fromPreMul.isZeroB) && io.fromPreMul.isZeroC io.invalidExc := io.fromPreMul.isSigNaNAny || (io.fromPreMul.isInfA && io.fromPreMul.isZeroB) || (io.fromPreMul.isZeroA && io.fromPreMul.isInfB) || (! io.fromPreMul.isNaNAOrB && (io.fromPreMul.isInfA || io.fromPreMul.isInfB) && io.fromPreMul.isInfC && io.fromPreMul.doSubMags) io.rawOut.isNaN := io.fromPreMul.isNaNAOrB || io.fromPreMul.isNaNC io.rawOut.isInf := notNaN_isInfOut //*** IMPROVE?: io.rawOut.isZero := notNaN_addZeros || (! io.fromPreMul.CIsDominant && notCDom_completeCancellation) io.rawOut.sign := (notNaN_isInfProd && io.fromPreMul.signProd) || (io.fromPreMul.isInfC && opSignC) || (notNaN_addZeros && ! roundingMode_min && io.fromPreMul.signProd && opSignC) || (notNaN_addZeros && roundingMode_min && (io.fromPreMul.signProd || opSignC)) || (! notNaN_isInfOut && ! notNaN_addZeros && Mux(io.fromPreMul.CIsDominant, CDom_sign, notCDom_sign)) io.rawOut.sExp := Mux(io.fromPreMul.CIsDominant, CDom_sExp, notCDom_sExp) io.rawOut.sig := Mux(io.fromPreMul.CIsDominant, CDom_sig, notCDom_sig) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFN(expWidth: Int, sigWidth: Int) extends RawModule { override def desiredName = s"MulAddRecFN_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val op = Input(Bits(2.W)) val a = Input(Bits((expWidth + sigWidth + 1).W)) val b = Input(Bits((expWidth + sigWidth + 1).W)) val c = Input(Bits((expWidth + sigWidth + 1).W)) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((expWidth + sigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val mulAddRecFNToRaw_preMul = Module(new MulAddRecFNToRaw_preMul(expWidth, sigWidth)) val mulAddRecFNToRaw_postMul = Module(new MulAddRecFNToRaw_postMul(expWidth, sigWidth)) mulAddRecFNToRaw_preMul.io.op := io.op mulAddRecFNToRaw_preMul.io.a := io.a mulAddRecFNToRaw_preMul.io.b := io.b mulAddRecFNToRaw_preMul.io.c := io.c val mulAddResult = (mulAddRecFNToRaw_preMul.io.mulAddA * mulAddRecFNToRaw_preMul.io.mulAddB) +& mulAddRecFNToRaw_preMul.io.mulAddC mulAddRecFNToRaw_postMul.io.fromPreMul := mulAddRecFNToRaw_preMul.io.toPostMul mulAddRecFNToRaw_postMul.io.mulAddResult := mulAddResult mulAddRecFNToRaw_postMul.io.roundingMode := io.roundingMode //------------------------------------------------------------------------ //------------------------------------------------------------------------ val roundRawFNToRecFN = Module(new RoundRawFNToRecFN(expWidth, sigWidth, 0)) roundRawFNToRecFN.io.invalidExc := mulAddRecFNToRaw_postMul.io.invalidExc roundRawFNToRecFN.io.infiniteExc := false.B roundRawFNToRecFN.io.in := mulAddRecFNToRaw_postMul.io.rawOut roundRawFNToRecFN.io.roundingMode := io.roundingMode roundRawFNToRecFN.io.detectTininess := io.detectTininess io.out := roundRawFNToRecFN.io.out io.exceptionFlags := roundRawFNToRecFN.io.exceptionFlags }
module MulAddRecFNToRaw_postMul_e8_s24_9( // @[MulAddRecFN.scala:169:7] input io_fromPreMul_isSigNaNAny, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_isNaNC, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_isInfC, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_isZeroC, // @[MulAddRecFN.scala:172:16] input [9:0] io_fromPreMul_sExpSum, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_doSubMags, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_CIsDominant, // @[MulAddRecFN.scala:172:16] input [25:0] io_fromPreMul_highAlignedSigC, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_bit0AlignedSigC, // @[MulAddRecFN.scala:172:16] input [48:0] io_mulAddResult, // @[MulAddRecFN.scala:172:16] output io_invalidExc, // @[MulAddRecFN.scala:172:16] output io_rawOut_isNaN, // @[MulAddRecFN.scala:172:16] output io_rawOut_isInf, // @[MulAddRecFN.scala:172:16] output io_rawOut_isZero, // @[MulAddRecFN.scala:172:16] output io_rawOut_sign, // @[MulAddRecFN.scala:172:16] output [9:0] io_rawOut_sExp, // @[MulAddRecFN.scala:172:16] output [26:0] io_rawOut_sig // @[MulAddRecFN.scala:172:16] ); wire io_fromPreMul_isSigNaNAny_0 = io_fromPreMul_isSigNaNAny; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isNaNC_0 = io_fromPreMul_isNaNC; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isInfC_0 = io_fromPreMul_isInfC; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isZeroC_0 = io_fromPreMul_isZeroC; // @[MulAddRecFN.scala:169:7] wire [9:0] io_fromPreMul_sExpSum_0 = io_fromPreMul_sExpSum; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_doSubMags_0 = io_fromPreMul_doSubMags; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_CIsDominant_0 = io_fromPreMul_CIsDominant; // @[MulAddRecFN.scala:169:7] wire [25:0] io_fromPreMul_highAlignedSigC_0 = io_fromPreMul_highAlignedSigC; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_bit0AlignedSigC_0 = io_fromPreMul_bit0AlignedSigC; // @[MulAddRecFN.scala:169:7] wire [48:0] io_mulAddResult_0 = io_mulAddResult; // @[MulAddRecFN.scala:169:7] wire [2:0] _CDom_reduced4SigExtra_T_4 = 3'h7; // @[primitives.scala:52:21] wire [8:0] CDom_reduced4SigExtra_shift = 9'h1FE; // @[primitives.scala:76:56] wire [3:0] _CDom_reduced4SigExtra_T_6 = 4'hF; // @[primitives.scala:77:20] wire [3:0] _CDom_reduced4SigExtra_T_15 = 4'hF; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_7 = 2'h3; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_10 = 2'h3; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_11 = 2'h3; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_14 = 2'h3; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_16 = 2'h3; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_19 = 2'h3; // @[primitives.scala:77:20] wire [5:0] _CDom_reduced4SigExtra_T_5 = 6'h3F; // @[primitives.scala:77:20, :78:22] wire [5:0] _CDom_reduced4SigExtra_T_20 = 6'h3F; // @[primitives.scala:77:20, :78:22] wire [2:0] io_roundingMode = 3'h0; // @[MulAddRecFN.scala:169:7, :172:16, :223:51] wire [2:0] _CDom_reduced4SigExtra_T_3 = 3'h0; // @[MulAddRecFN.scala:169:7, :172:16, :223:51] wire [4:0] io_fromPreMul_CDom_CAlignDist = 5'h0; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isZeroA = 1'h1; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_signProd = 1'h1; // @[MulAddRecFN.scala:169:7] wire _CDom_reduced4SigExtra_T_8 = 1'h1; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_9 = 1'h1; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_12 = 1'h1; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_13 = 1'h1; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_17 = 1'h1; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_18 = 1'h1; // @[primitives.scala:77:20] wire _notNaN_addZeros_T = 1'h1; // @[MulAddRecFN.scala:267:32] wire _io_invalidExc_T_4 = 1'h1; // @[MulAddRecFN.scala:274:10] wire _io_rawOut_sign_T_3 = 1'h1; // @[MulAddRecFN.scala:287:29] wire _io_rawOut_sign_T_9 = 1'h1; // @[MulAddRecFN.scala:290:37] wire io_fromPreMul_isNaNAOrB = 1'h0; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isInfA = 1'h0; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isInfB = 1'h0; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isZeroB = 1'h0; // @[MulAddRecFN.scala:169:7] wire roundingMode_min = 1'h0; // @[MulAddRecFN.scala:186:45] wire notNaN_isInfProd = 1'h0; // @[MulAddRecFN.scala:264:49] wire _io_invalidExc_T = 1'h0; // @[MulAddRecFN.scala:272:31] wire _io_invalidExc_T_2 = 1'h0; // @[MulAddRecFN.scala:273:32] wire _io_invalidExc_T_5 = 1'h0; // @[MulAddRecFN.scala:275:36] wire _io_invalidExc_T_6 = 1'h0; // @[MulAddRecFN.scala:274:36] wire _io_invalidExc_T_7 = 1'h0; // @[MulAddRecFN.scala:275:61] wire _io_invalidExc_T_8 = 1'h0; // @[MulAddRecFN.scala:276:35] wire _io_rawOut_sign_T = 1'h0; // @[MulAddRecFN.scala:285:27] wire _io_rawOut_sign_T_8 = 1'h0; // @[MulAddRecFN.scala:289:26] wire _io_rawOut_sign_T_10 = 1'h0; // @[MulAddRecFN.scala:289:46] wire _io_invalidExc_T_1 = io_fromPreMul_isSigNaNAny_0; // @[MulAddRecFN.scala:169:7, :271:35] wire _io_rawOut_isNaN_T = io_fromPreMul_isNaNC_0; // @[MulAddRecFN.scala:169:7, :278:48] wire notNaN_isInfOut = io_fromPreMul_isInfC_0; // @[MulAddRecFN.scala:169:7, :265:44] wire notNaN_addZeros = io_fromPreMul_isZeroC_0; // @[MulAddRecFN.scala:169:7, :267:58] wire _io_invalidExc_T_9; // @[MulAddRecFN.scala:273:57] wire _io_rawOut_isZero_T_2; // @[MulAddRecFN.scala:282:25] wire _io_rawOut_sign_T_17; // @[MulAddRecFN.scala:290:50] wire [9:0] _io_rawOut_sExp_T; // @[MulAddRecFN.scala:293:26] wire [26:0] _io_rawOut_sig_T; // @[MulAddRecFN.scala:294:25] wire io_rawOut_isNaN_0; // @[MulAddRecFN.scala:169:7] wire io_rawOut_isInf_0; // @[MulAddRecFN.scala:169:7] wire io_rawOut_isZero_0; // @[MulAddRecFN.scala:169:7] wire io_rawOut_sign_0; // @[MulAddRecFN.scala:169:7] wire [9:0] io_rawOut_sExp_0; // @[MulAddRecFN.scala:169:7] wire [26:0] io_rawOut_sig_0; // @[MulAddRecFN.scala:169:7] wire io_invalidExc_0; // @[MulAddRecFN.scala:169:7] wire opSignC = ~io_fromPreMul_doSubMags_0; // @[MulAddRecFN.scala:169:7, :190:42] wire _sigSum_T = io_mulAddResult_0[48]; // @[MulAddRecFN.scala:169:7, :192:32] wire [26:0] _sigSum_T_1 = {1'h0, io_fromPreMul_highAlignedSigC_0} + 27'h1; // @[MulAddRecFN.scala:169:7, :193:47] wire [25:0] _sigSum_T_2 = _sigSum_T_1[25:0]; // @[MulAddRecFN.scala:193:47] wire [25:0] _sigSum_T_3 = _sigSum_T ? _sigSum_T_2 : io_fromPreMul_highAlignedSigC_0; // @[MulAddRecFN.scala:169:7, :192:{16,32}, :193:47] wire [47:0] _sigSum_T_4 = io_mulAddResult_0[47:0]; // @[MulAddRecFN.scala:169:7, :196:28] wire [73:0] sigSum_hi = {_sigSum_T_3, _sigSum_T_4}; // @[MulAddRecFN.scala:192:{12,16}, :196:28] wire [74:0] sigSum = {sigSum_hi, io_fromPreMul_bit0AlignedSigC_0}; // @[MulAddRecFN.scala:169:7, :192:12] wire [1:0] _CDom_sExp_T = {1'h0, io_fromPreMul_doSubMags_0}; // @[MulAddRecFN.scala:169:7, :203:69] wire [10:0] _GEN = {io_fromPreMul_sExpSum_0[9], io_fromPreMul_sExpSum_0}; // @[MulAddRecFN.scala:169:7, :203:43] wire [10:0] _CDom_sExp_T_1 = _GEN - {{9{_CDom_sExp_T[1]}}, _CDom_sExp_T}; // @[MulAddRecFN.scala:203:{43,69}] wire [9:0] _CDom_sExp_T_2 = _CDom_sExp_T_1[9:0]; // @[MulAddRecFN.scala:203:43] wire [9:0] CDom_sExp = _CDom_sExp_T_2; // @[MulAddRecFN.scala:203:43] wire [49:0] _CDom_absSigSum_T = sigSum[74:25]; // @[MulAddRecFN.scala:192:12, :206:20] wire [49:0] _CDom_absSigSum_T_1 = ~_CDom_absSigSum_T; // @[MulAddRecFN.scala:206:{13,20}] wire [1:0] _CDom_absSigSum_T_2 = io_fromPreMul_highAlignedSigC_0[25:24]; // @[MulAddRecFN.scala:169:7, :209:46] wire [2:0] _CDom_absSigSum_T_3 = {1'h0, _CDom_absSigSum_T_2}; // @[MulAddRecFN.scala:207:22, :209:46] wire [46:0] _CDom_absSigSum_T_4 = sigSum[72:26]; // @[MulAddRecFN.scala:192:12, :210:23] wire [49:0] _CDom_absSigSum_T_5 = {_CDom_absSigSum_T_3, _CDom_absSigSum_T_4}; // @[MulAddRecFN.scala:207:22, :209:71, :210:23] wire [49:0] CDom_absSigSum = io_fromPreMul_doSubMags_0 ? _CDom_absSigSum_T_1 : _CDom_absSigSum_T_5; // @[MulAddRecFN.scala:169:7, :205:12, :206:13, :209:71] wire [23:0] _CDom_absSigSumExtra_T = sigSum[24:1]; // @[MulAddRecFN.scala:192:12, :215:21] wire [23:0] _CDom_absSigSumExtra_T_1 = ~_CDom_absSigSumExtra_T; // @[MulAddRecFN.scala:215:{14,21}] wire _CDom_absSigSumExtra_T_2 = |_CDom_absSigSumExtra_T_1; // @[MulAddRecFN.scala:215:{14,36}] wire [24:0] _CDom_absSigSumExtra_T_3 = sigSum[25:1]; // @[MulAddRecFN.scala:192:12, :216:19] wire _CDom_absSigSumExtra_T_4 = |_CDom_absSigSumExtra_T_3; // @[MulAddRecFN.scala:216:{19,37}] wire CDom_absSigSumExtra = io_fromPreMul_doSubMags_0 ? _CDom_absSigSumExtra_T_2 : _CDom_absSigSumExtra_T_4; // @[MulAddRecFN.scala:169:7, :214:12, :215:36, :216:37] wire [80:0] _CDom_mainSig_T = {31'h0, CDom_absSigSum}; // @[MulAddRecFN.scala:205:12, :219:24] wire [28:0] CDom_mainSig = _CDom_mainSig_T[49:21]; // @[MulAddRecFN.scala:219:{24,56}] wire [23:0] _CDom_reduced4SigExtra_T = CDom_absSigSum[23:0]; // @[MulAddRecFN.scala:205:12, :222:36] wire [26:0] _CDom_reduced4SigExtra_T_1 = {_CDom_reduced4SigExtra_T, 3'h0}; // @[MulAddRecFN.scala:169:7, :172:16, :222:{36,53}, :223:51] wire _CDom_reduced4SigExtra_reducedVec_0_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_1_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_2_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_3_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_4_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_5_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_6_T_1; // @[primitives.scala:123:57] wire CDom_reduced4SigExtra_reducedVec_0; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_1; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_2; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_3; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_4; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_5; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_6; // @[primitives.scala:118:30] wire [3:0] _CDom_reduced4SigExtra_reducedVec_0_T = _CDom_reduced4SigExtra_T_1[3:0]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_0_T_1 = |_CDom_reduced4SigExtra_reducedVec_0_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_0 = _CDom_reduced4SigExtra_reducedVec_0_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_1_T = _CDom_reduced4SigExtra_T_1[7:4]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_1_T_1 = |_CDom_reduced4SigExtra_reducedVec_1_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_1 = _CDom_reduced4SigExtra_reducedVec_1_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_2_T = _CDom_reduced4SigExtra_T_1[11:8]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_2_T_1 = |_CDom_reduced4SigExtra_reducedVec_2_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_2 = _CDom_reduced4SigExtra_reducedVec_2_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_3_T = _CDom_reduced4SigExtra_T_1[15:12]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_3_T_1 = |_CDom_reduced4SigExtra_reducedVec_3_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_3 = _CDom_reduced4SigExtra_reducedVec_3_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_4_T = _CDom_reduced4SigExtra_T_1[19:16]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_4_T_1 = |_CDom_reduced4SigExtra_reducedVec_4_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_4 = _CDom_reduced4SigExtra_reducedVec_4_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_5_T = _CDom_reduced4SigExtra_T_1[23:20]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_5_T_1 = |_CDom_reduced4SigExtra_reducedVec_5_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_5 = _CDom_reduced4SigExtra_reducedVec_5_T_1; // @[primitives.scala:118:30, :120:54] wire [2:0] _CDom_reduced4SigExtra_reducedVec_6_T = _CDom_reduced4SigExtra_T_1[26:24]; // @[primitives.scala:123:15] assign _CDom_reduced4SigExtra_reducedVec_6_T_1 = |_CDom_reduced4SigExtra_reducedVec_6_T; // @[primitives.scala:123:{15,57}] assign CDom_reduced4SigExtra_reducedVec_6 = _CDom_reduced4SigExtra_reducedVec_6_T_1; // @[primitives.scala:118:30, :123:57] wire [1:0] CDom_reduced4SigExtra_lo_hi = {CDom_reduced4SigExtra_reducedVec_2, CDom_reduced4SigExtra_reducedVec_1}; // @[primitives.scala:118:30, :124:20] wire [2:0] CDom_reduced4SigExtra_lo = {CDom_reduced4SigExtra_lo_hi, CDom_reduced4SigExtra_reducedVec_0}; // @[primitives.scala:118:30, :124:20] wire [1:0] CDom_reduced4SigExtra_hi_lo = {CDom_reduced4SigExtra_reducedVec_4, CDom_reduced4SigExtra_reducedVec_3}; // @[primitives.scala:118:30, :124:20] wire [1:0] CDom_reduced4SigExtra_hi_hi = {CDom_reduced4SigExtra_reducedVec_6, CDom_reduced4SigExtra_reducedVec_5}; // @[primitives.scala:118:30, :124:20] wire [3:0] CDom_reduced4SigExtra_hi = {CDom_reduced4SigExtra_hi_hi, CDom_reduced4SigExtra_hi_lo}; // @[primitives.scala:124:20] wire [6:0] _CDom_reduced4SigExtra_T_2 = {CDom_reduced4SigExtra_hi, CDom_reduced4SigExtra_lo}; // @[primitives.scala:124:20] wire [6:0] _CDom_reduced4SigExtra_T_21 = {1'h0, _CDom_reduced4SigExtra_T_2[5:0]}; // @[primitives.scala:124:20] wire CDom_reduced4SigExtra = |_CDom_reduced4SigExtra_T_21; // @[MulAddRecFN.scala:222:72, :223:73] wire [25:0] _CDom_sig_T = CDom_mainSig[28:3]; // @[MulAddRecFN.scala:219:56, :225:25] wire [2:0] _CDom_sig_T_1 = CDom_mainSig[2:0]; // @[MulAddRecFN.scala:219:56, :226:25] wire _CDom_sig_T_2 = |_CDom_sig_T_1; // @[MulAddRecFN.scala:226:{25,32}] wire _CDom_sig_T_3 = _CDom_sig_T_2 | CDom_reduced4SigExtra; // @[MulAddRecFN.scala:223:73, :226:{32,36}] wire _CDom_sig_T_4 = _CDom_sig_T_3 | CDom_absSigSumExtra; // @[MulAddRecFN.scala:214:12, :226:{36,61}] wire [26:0] CDom_sig = {_CDom_sig_T, _CDom_sig_T_4}; // @[MulAddRecFN.scala:225:{12,25}, :226:61] wire notCDom_signSigSum = sigSum[51]; // @[MulAddRecFN.scala:192:12, :232:36] wire [50:0] _notCDom_absSigSum_T = sigSum[50:0]; // @[MulAddRecFN.scala:192:12, :235:20] wire [50:0] _notCDom_absSigSum_T_2 = sigSum[50:0]; // @[MulAddRecFN.scala:192:12, :235:20, :236:19] wire [50:0] _notCDom_absSigSum_T_1 = ~_notCDom_absSigSum_T; // @[MulAddRecFN.scala:235:{13,20}] wire [51:0] _notCDom_absSigSum_T_3 = {1'h0, _notCDom_absSigSum_T_2} + {51'h0, io_fromPreMul_doSubMags_0}; // @[MulAddRecFN.scala:169:7, :236:{19,41}] wire [50:0] _notCDom_absSigSum_T_4 = _notCDom_absSigSum_T_3[50:0]; // @[MulAddRecFN.scala:236:41] wire [50:0] notCDom_absSigSum = notCDom_signSigSum ? _notCDom_absSigSum_T_1 : _notCDom_absSigSum_T_4; // @[MulAddRecFN.scala:232:36, :234:12, :235:13, :236:41] wire _notCDom_reduced2AbsSigSum_reducedVec_0_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_1_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_2_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_3_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_4_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_5_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_6_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_7_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_8_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_9_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_10_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_11_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_12_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_13_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_14_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_15_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_16_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_17_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_18_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_19_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_20_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_21_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_22_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_23_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_24_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_25_T_1; // @[primitives.scala:106:57] wire notCDom_reduced2AbsSigSum_reducedVec_0; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_1; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_2; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_3; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_4; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_5; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_6; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_7; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_8; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_9; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_10; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_11; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_12; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_13; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_14; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_15; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_16; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_17; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_18; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_19; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_20; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_21; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_22; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_23; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_24; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_25; // @[primitives.scala:101:30] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_0_T = notCDom_absSigSum[1:0]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_0_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_0_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_0 = _notCDom_reduced2AbsSigSum_reducedVec_0_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_1_T = notCDom_absSigSum[3:2]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_1_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_1_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_1 = _notCDom_reduced2AbsSigSum_reducedVec_1_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_2_T = notCDom_absSigSum[5:4]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_2_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_2_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_2 = _notCDom_reduced2AbsSigSum_reducedVec_2_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_3_T = notCDom_absSigSum[7:6]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_3_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_3_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_3 = _notCDom_reduced2AbsSigSum_reducedVec_3_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_4_T = notCDom_absSigSum[9:8]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_4_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_4_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_4 = _notCDom_reduced2AbsSigSum_reducedVec_4_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_5_T = notCDom_absSigSum[11:10]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_5_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_5_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_5 = _notCDom_reduced2AbsSigSum_reducedVec_5_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_6_T = notCDom_absSigSum[13:12]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_6_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_6_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_6 = _notCDom_reduced2AbsSigSum_reducedVec_6_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_7_T = notCDom_absSigSum[15:14]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_7_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_7_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_7 = _notCDom_reduced2AbsSigSum_reducedVec_7_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_8_T = notCDom_absSigSum[17:16]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_8_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_8_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_8 = _notCDom_reduced2AbsSigSum_reducedVec_8_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_9_T = notCDom_absSigSum[19:18]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_9_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_9_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_9 = _notCDom_reduced2AbsSigSum_reducedVec_9_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_10_T = notCDom_absSigSum[21:20]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_10_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_10_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_10 = _notCDom_reduced2AbsSigSum_reducedVec_10_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_11_T = notCDom_absSigSum[23:22]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_11_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_11_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_11 = _notCDom_reduced2AbsSigSum_reducedVec_11_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_12_T = notCDom_absSigSum[25:24]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_12_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_12_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_12 = _notCDom_reduced2AbsSigSum_reducedVec_12_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_13_T = notCDom_absSigSum[27:26]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_13_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_13_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_13 = _notCDom_reduced2AbsSigSum_reducedVec_13_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_14_T = notCDom_absSigSum[29:28]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_14_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_14_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_14 = _notCDom_reduced2AbsSigSum_reducedVec_14_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_15_T = notCDom_absSigSum[31:30]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_15_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_15_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_15 = _notCDom_reduced2AbsSigSum_reducedVec_15_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_16_T = notCDom_absSigSum[33:32]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_16_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_16_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_16 = _notCDom_reduced2AbsSigSum_reducedVec_16_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_17_T = notCDom_absSigSum[35:34]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_17_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_17_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_17 = _notCDom_reduced2AbsSigSum_reducedVec_17_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_18_T = notCDom_absSigSum[37:36]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_18_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_18_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_18 = _notCDom_reduced2AbsSigSum_reducedVec_18_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_19_T = notCDom_absSigSum[39:38]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_19_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_19_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_19 = _notCDom_reduced2AbsSigSum_reducedVec_19_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_20_T = notCDom_absSigSum[41:40]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_20_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_20_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_20 = _notCDom_reduced2AbsSigSum_reducedVec_20_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_21_T = notCDom_absSigSum[43:42]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_21_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_21_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_21 = _notCDom_reduced2AbsSigSum_reducedVec_21_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_22_T = notCDom_absSigSum[45:44]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_22_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_22_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_22 = _notCDom_reduced2AbsSigSum_reducedVec_22_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_23_T = notCDom_absSigSum[47:46]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_23_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_23_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_23 = _notCDom_reduced2AbsSigSum_reducedVec_23_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_24_T = notCDom_absSigSum[49:48]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_24_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_24_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_24 = _notCDom_reduced2AbsSigSum_reducedVec_24_T_1; // @[primitives.scala:101:30, :103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_25_T = notCDom_absSigSum[50]; // @[primitives.scala:106:15] assign _notCDom_reduced2AbsSigSum_reducedVec_25_T_1 = _notCDom_reduced2AbsSigSum_reducedVec_25_T; // @[primitives.scala:106:{15,57}] assign notCDom_reduced2AbsSigSum_reducedVec_25 = _notCDom_reduced2AbsSigSum_reducedVec_25_T_1; // @[primitives.scala:101:30, :106:57] wire [1:0] notCDom_reduced2AbsSigSum_lo_lo_lo_hi = {notCDom_reduced2AbsSigSum_reducedVec_2, notCDom_reduced2AbsSigSum_reducedVec_1}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_lo_lo_lo = {notCDom_reduced2AbsSigSum_lo_lo_lo_hi, notCDom_reduced2AbsSigSum_reducedVec_0}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_lo_lo_hi_hi = {notCDom_reduced2AbsSigSum_reducedVec_5, notCDom_reduced2AbsSigSum_reducedVec_4}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_lo_lo_hi = {notCDom_reduced2AbsSigSum_lo_lo_hi_hi, notCDom_reduced2AbsSigSum_reducedVec_3}; // @[primitives.scala:101:30, :107:20] wire [5:0] notCDom_reduced2AbsSigSum_lo_lo = {notCDom_reduced2AbsSigSum_lo_lo_hi, notCDom_reduced2AbsSigSum_lo_lo_lo}; // @[primitives.scala:107:20] wire [1:0] notCDom_reduced2AbsSigSum_lo_hi_lo_hi = {notCDom_reduced2AbsSigSum_reducedVec_8, notCDom_reduced2AbsSigSum_reducedVec_7}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_lo_hi_lo = {notCDom_reduced2AbsSigSum_lo_hi_lo_hi, notCDom_reduced2AbsSigSum_reducedVec_6}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_lo_hi_hi_lo = {notCDom_reduced2AbsSigSum_reducedVec_10, notCDom_reduced2AbsSigSum_reducedVec_9}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_lo_hi_hi_hi = {notCDom_reduced2AbsSigSum_reducedVec_12, notCDom_reduced2AbsSigSum_reducedVec_11}; // @[primitives.scala:101:30, :107:20] wire [3:0] notCDom_reduced2AbsSigSum_lo_hi_hi = {notCDom_reduced2AbsSigSum_lo_hi_hi_hi, notCDom_reduced2AbsSigSum_lo_hi_hi_lo}; // @[primitives.scala:107:20] wire [6:0] notCDom_reduced2AbsSigSum_lo_hi = {notCDom_reduced2AbsSigSum_lo_hi_hi, notCDom_reduced2AbsSigSum_lo_hi_lo}; // @[primitives.scala:107:20] wire [12:0] notCDom_reduced2AbsSigSum_lo = {notCDom_reduced2AbsSigSum_lo_hi, notCDom_reduced2AbsSigSum_lo_lo}; // @[primitives.scala:107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_lo_lo_hi = {notCDom_reduced2AbsSigSum_reducedVec_15, notCDom_reduced2AbsSigSum_reducedVec_14}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_hi_lo_lo = {notCDom_reduced2AbsSigSum_hi_lo_lo_hi, notCDom_reduced2AbsSigSum_reducedVec_13}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_lo_hi_hi = {notCDom_reduced2AbsSigSum_reducedVec_18, notCDom_reduced2AbsSigSum_reducedVec_17}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_hi_lo_hi = {notCDom_reduced2AbsSigSum_hi_lo_hi_hi, notCDom_reduced2AbsSigSum_reducedVec_16}; // @[primitives.scala:101:30, :107:20] wire [5:0] notCDom_reduced2AbsSigSum_hi_lo = {notCDom_reduced2AbsSigSum_hi_lo_hi, notCDom_reduced2AbsSigSum_hi_lo_lo}; // @[primitives.scala:107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_hi_lo_hi = {notCDom_reduced2AbsSigSum_reducedVec_21, notCDom_reduced2AbsSigSum_reducedVec_20}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_hi_hi_lo = {notCDom_reduced2AbsSigSum_hi_hi_lo_hi, notCDom_reduced2AbsSigSum_reducedVec_19}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_hi_hi_lo = {notCDom_reduced2AbsSigSum_reducedVec_23, notCDom_reduced2AbsSigSum_reducedVec_22}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_hi_hi_hi = {notCDom_reduced2AbsSigSum_reducedVec_25, notCDom_reduced2AbsSigSum_reducedVec_24}; // @[primitives.scala:101:30, :107:20] wire [3:0] notCDom_reduced2AbsSigSum_hi_hi_hi = {notCDom_reduced2AbsSigSum_hi_hi_hi_hi, notCDom_reduced2AbsSigSum_hi_hi_hi_lo}; // @[primitives.scala:107:20] wire [6:0] notCDom_reduced2AbsSigSum_hi_hi = {notCDom_reduced2AbsSigSum_hi_hi_hi, notCDom_reduced2AbsSigSum_hi_hi_lo}; // @[primitives.scala:107:20] wire [12:0] notCDom_reduced2AbsSigSum_hi = {notCDom_reduced2AbsSigSum_hi_hi, notCDom_reduced2AbsSigSum_hi_lo}; // @[primitives.scala:107:20] wire [25:0] notCDom_reduced2AbsSigSum = {notCDom_reduced2AbsSigSum_hi, notCDom_reduced2AbsSigSum_lo}; // @[primitives.scala:107:20] wire _notCDom_normDistReduced2_T = notCDom_reduced2AbsSigSum[0]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_1 = notCDom_reduced2AbsSigSum[1]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_2 = notCDom_reduced2AbsSigSum[2]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_3 = notCDom_reduced2AbsSigSum[3]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_4 = notCDom_reduced2AbsSigSum[4]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_5 = notCDom_reduced2AbsSigSum[5]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_6 = notCDom_reduced2AbsSigSum[6]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_7 = notCDom_reduced2AbsSigSum[7]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_8 = notCDom_reduced2AbsSigSum[8]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_9 = notCDom_reduced2AbsSigSum[9]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_10 = notCDom_reduced2AbsSigSum[10]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_11 = notCDom_reduced2AbsSigSum[11]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_12 = notCDom_reduced2AbsSigSum[12]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_13 = notCDom_reduced2AbsSigSum[13]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_14 = notCDom_reduced2AbsSigSum[14]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_15 = notCDom_reduced2AbsSigSum[15]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_16 = notCDom_reduced2AbsSigSum[16]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_17 = notCDom_reduced2AbsSigSum[17]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_18 = notCDom_reduced2AbsSigSum[18]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_19 = notCDom_reduced2AbsSigSum[19]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_20 = notCDom_reduced2AbsSigSum[20]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_21 = notCDom_reduced2AbsSigSum[21]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_22 = notCDom_reduced2AbsSigSum[22]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_23 = notCDom_reduced2AbsSigSum[23]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_24 = notCDom_reduced2AbsSigSum[24]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_25 = notCDom_reduced2AbsSigSum[25]; // @[primitives.scala:91:52, :107:20] wire [4:0] _notCDom_normDistReduced2_T_26 = {4'hC, ~_notCDom_normDistReduced2_T_1}; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_27 = _notCDom_normDistReduced2_T_2 ? 5'h17 : _notCDom_normDistReduced2_T_26; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_28 = _notCDom_normDistReduced2_T_3 ? 5'h16 : _notCDom_normDistReduced2_T_27; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_29 = _notCDom_normDistReduced2_T_4 ? 5'h15 : _notCDom_normDistReduced2_T_28; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_30 = _notCDom_normDistReduced2_T_5 ? 5'h14 : _notCDom_normDistReduced2_T_29; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_31 = _notCDom_normDistReduced2_T_6 ? 5'h13 : _notCDom_normDistReduced2_T_30; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_32 = _notCDom_normDistReduced2_T_7 ? 5'h12 : _notCDom_normDistReduced2_T_31; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_33 = _notCDom_normDistReduced2_T_8 ? 5'h11 : _notCDom_normDistReduced2_T_32; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_34 = _notCDom_normDistReduced2_T_9 ? 5'h10 : _notCDom_normDistReduced2_T_33; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_35 = _notCDom_normDistReduced2_T_10 ? 5'hF : _notCDom_normDistReduced2_T_34; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_36 = _notCDom_normDistReduced2_T_11 ? 5'hE : _notCDom_normDistReduced2_T_35; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_37 = _notCDom_normDistReduced2_T_12 ? 5'hD : _notCDom_normDistReduced2_T_36; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_38 = _notCDom_normDistReduced2_T_13 ? 5'hC : _notCDom_normDistReduced2_T_37; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_39 = _notCDom_normDistReduced2_T_14 ? 5'hB : _notCDom_normDistReduced2_T_38; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_40 = _notCDom_normDistReduced2_T_15 ? 5'hA : _notCDom_normDistReduced2_T_39; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_41 = _notCDom_normDistReduced2_T_16 ? 5'h9 : _notCDom_normDistReduced2_T_40; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_42 = _notCDom_normDistReduced2_T_17 ? 5'h8 : _notCDom_normDistReduced2_T_41; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_43 = _notCDom_normDistReduced2_T_18 ? 5'h7 : _notCDom_normDistReduced2_T_42; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_44 = _notCDom_normDistReduced2_T_19 ? 5'h6 : _notCDom_normDistReduced2_T_43; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_45 = _notCDom_normDistReduced2_T_20 ? 5'h5 : _notCDom_normDistReduced2_T_44; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_46 = _notCDom_normDistReduced2_T_21 ? 5'h4 : _notCDom_normDistReduced2_T_45; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_47 = _notCDom_normDistReduced2_T_22 ? 5'h3 : _notCDom_normDistReduced2_T_46; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_48 = _notCDom_normDistReduced2_T_23 ? 5'h2 : _notCDom_normDistReduced2_T_47; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_49 = _notCDom_normDistReduced2_T_24 ? 5'h1 : _notCDom_normDistReduced2_T_48; // @[Mux.scala:50:70] wire [4:0] notCDom_normDistReduced2 = _notCDom_normDistReduced2_T_25 ? 5'h0 : _notCDom_normDistReduced2_T_49; // @[Mux.scala:50:70] wire [5:0] notCDom_nearNormDist = {notCDom_normDistReduced2, 1'h0}; // @[Mux.scala:50:70] wire [6:0] _notCDom_sExp_T = {1'h0, notCDom_nearNormDist}; // @[MulAddRecFN.scala:240:56, :241:76] wire [10:0] _notCDom_sExp_T_1 = _GEN - {{4{_notCDom_sExp_T[6]}}, _notCDom_sExp_T}; // @[MulAddRecFN.scala:203:43, :241:{46,76}] wire [9:0] _notCDom_sExp_T_2 = _notCDom_sExp_T_1[9:0]; // @[MulAddRecFN.scala:241:46] wire [9:0] notCDom_sExp = _notCDom_sExp_T_2; // @[MulAddRecFN.scala:241:46] wire [113:0] _notCDom_mainSig_T = {63'h0, notCDom_absSigSum} << notCDom_nearNormDist; // @[MulAddRecFN.scala:234:12, :240:56, :243:27] wire [28:0] notCDom_mainSig = _notCDom_mainSig_T[51:23]; // @[MulAddRecFN.scala:243:{27,50}] wire [12:0] _notCDom_reduced4SigExtra_T = notCDom_reduced2AbsSigSum[12:0]; // @[primitives.scala:107:20] wire [12:0] _notCDom_reduced4SigExtra_T_1 = _notCDom_reduced4SigExtra_T; // @[MulAddRecFN.scala:247:{39,55}] wire _notCDom_reduced4SigExtra_reducedVec_0_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_1_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_2_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_3_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_4_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_5_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_6_T_1; // @[primitives.scala:106:57] wire notCDom_reduced4SigExtra_reducedVec_0; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_1; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_2; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_3; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_4; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_5; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_6; // @[primitives.scala:101:30] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_0_T = _notCDom_reduced4SigExtra_T_1[1:0]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_0_T_1 = |_notCDom_reduced4SigExtra_reducedVec_0_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_0 = _notCDom_reduced4SigExtra_reducedVec_0_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_1_T = _notCDom_reduced4SigExtra_T_1[3:2]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_1_T_1 = |_notCDom_reduced4SigExtra_reducedVec_1_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_1 = _notCDom_reduced4SigExtra_reducedVec_1_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_2_T = _notCDom_reduced4SigExtra_T_1[5:4]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_2_T_1 = |_notCDom_reduced4SigExtra_reducedVec_2_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_2 = _notCDom_reduced4SigExtra_reducedVec_2_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_3_T = _notCDom_reduced4SigExtra_T_1[7:6]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_3_T_1 = |_notCDom_reduced4SigExtra_reducedVec_3_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_3 = _notCDom_reduced4SigExtra_reducedVec_3_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_4_T = _notCDom_reduced4SigExtra_T_1[9:8]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_4_T_1 = |_notCDom_reduced4SigExtra_reducedVec_4_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_4 = _notCDom_reduced4SigExtra_reducedVec_4_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_5_T = _notCDom_reduced4SigExtra_T_1[11:10]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_5_T_1 = |_notCDom_reduced4SigExtra_reducedVec_5_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_5 = _notCDom_reduced4SigExtra_reducedVec_5_T_1; // @[primitives.scala:101:30, :103:54] wire _notCDom_reduced4SigExtra_reducedVec_6_T = _notCDom_reduced4SigExtra_T_1[12]; // @[primitives.scala:106:15] assign _notCDom_reduced4SigExtra_reducedVec_6_T_1 = _notCDom_reduced4SigExtra_reducedVec_6_T; // @[primitives.scala:106:{15,57}] assign notCDom_reduced4SigExtra_reducedVec_6 = _notCDom_reduced4SigExtra_reducedVec_6_T_1; // @[primitives.scala:101:30, :106:57] wire [1:0] notCDom_reduced4SigExtra_lo_hi = {notCDom_reduced4SigExtra_reducedVec_2, notCDom_reduced4SigExtra_reducedVec_1}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced4SigExtra_lo = {notCDom_reduced4SigExtra_lo_hi, notCDom_reduced4SigExtra_reducedVec_0}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced4SigExtra_hi_lo = {notCDom_reduced4SigExtra_reducedVec_4, notCDom_reduced4SigExtra_reducedVec_3}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced4SigExtra_hi_hi = {notCDom_reduced4SigExtra_reducedVec_6, notCDom_reduced4SigExtra_reducedVec_5}; // @[primitives.scala:101:30, :107:20] wire [3:0] notCDom_reduced4SigExtra_hi = {notCDom_reduced4SigExtra_hi_hi, notCDom_reduced4SigExtra_hi_lo}; // @[primitives.scala:107:20] wire [6:0] _notCDom_reduced4SigExtra_T_2 = {notCDom_reduced4SigExtra_hi, notCDom_reduced4SigExtra_lo}; // @[primitives.scala:107:20] wire [3:0] _notCDom_reduced4SigExtra_T_3 = notCDom_normDistReduced2[4:1]; // @[Mux.scala:50:70] wire [3:0] _notCDom_reduced4SigExtra_T_4 = ~_notCDom_reduced4SigExtra_T_3; // @[primitives.scala:52:21] wire [16:0] notCDom_reduced4SigExtra_shift = $signed(17'sh10000 >>> _notCDom_reduced4SigExtra_T_4); // @[primitives.scala:52:21, :76:56] wire [5:0] _notCDom_reduced4SigExtra_T_5 = notCDom_reduced4SigExtra_shift[6:1]; // @[primitives.scala:76:56, :78:22] wire [3:0] _notCDom_reduced4SigExtra_T_6 = _notCDom_reduced4SigExtra_T_5[3:0]; // @[primitives.scala:77:20, :78:22] wire [1:0] _notCDom_reduced4SigExtra_T_7 = _notCDom_reduced4SigExtra_T_6[1:0]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_8 = _notCDom_reduced4SigExtra_T_7[0]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_9 = _notCDom_reduced4SigExtra_T_7[1]; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_10 = {_notCDom_reduced4SigExtra_T_8, _notCDom_reduced4SigExtra_T_9}; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_11 = _notCDom_reduced4SigExtra_T_6[3:2]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_12 = _notCDom_reduced4SigExtra_T_11[0]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_13 = _notCDom_reduced4SigExtra_T_11[1]; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_14 = {_notCDom_reduced4SigExtra_T_12, _notCDom_reduced4SigExtra_T_13}; // @[primitives.scala:77:20] wire [3:0] _notCDom_reduced4SigExtra_T_15 = {_notCDom_reduced4SigExtra_T_10, _notCDom_reduced4SigExtra_T_14}; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_16 = _notCDom_reduced4SigExtra_T_5[5:4]; // @[primitives.scala:77:20, :78:22] wire _notCDom_reduced4SigExtra_T_17 = _notCDom_reduced4SigExtra_T_16[0]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_18 = _notCDom_reduced4SigExtra_T_16[1]; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_19 = {_notCDom_reduced4SigExtra_T_17, _notCDom_reduced4SigExtra_T_18}; // @[primitives.scala:77:20] wire [5:0] _notCDom_reduced4SigExtra_T_20 = {_notCDom_reduced4SigExtra_T_15, _notCDom_reduced4SigExtra_T_19}; // @[primitives.scala:77:20] wire [6:0] _notCDom_reduced4SigExtra_T_21 = {1'h0, _notCDom_reduced4SigExtra_T_2[5:0] & _notCDom_reduced4SigExtra_T_20}; // @[primitives.scala:77:20, :107:20] wire notCDom_reduced4SigExtra = |_notCDom_reduced4SigExtra_T_21; // @[MulAddRecFN.scala:247:78, :249:11] wire [25:0] _notCDom_sig_T = notCDom_mainSig[28:3]; // @[MulAddRecFN.scala:243:50, :251:28] wire [2:0] _notCDom_sig_T_1 = notCDom_mainSig[2:0]; // @[MulAddRecFN.scala:243:50, :252:28] wire _notCDom_sig_T_2 = |_notCDom_sig_T_1; // @[MulAddRecFN.scala:252:{28,35}] wire _notCDom_sig_T_3 = _notCDom_sig_T_2 | notCDom_reduced4SigExtra; // @[MulAddRecFN.scala:249:11, :252:{35,39}] wire [26:0] notCDom_sig = {_notCDom_sig_T, _notCDom_sig_T_3}; // @[MulAddRecFN.scala:251:{12,28}, :252:39] wire [1:0] _notCDom_completeCancellation_T = notCDom_sig[26:25]; // @[MulAddRecFN.scala:251:12, :255:21] wire notCDom_completeCancellation = _notCDom_completeCancellation_T == 2'h0; // @[primitives.scala:103:54] wire _notCDom_sign_T = ~notCDom_signSigSum; // @[MulAddRecFN.scala:232:36, :259:36] wire notCDom_sign = ~notCDom_completeCancellation & _notCDom_sign_T; // @[MulAddRecFN.scala:255:50, :257:12, :259:36] assign io_rawOut_isInf_0 = notNaN_isInfOut; // @[MulAddRecFN.scala:169:7, :265:44] wire _io_rawOut_sign_T_4 = notNaN_addZeros; // @[MulAddRecFN.scala:267:58, :287:26] wire _io_invalidExc_T_3 = _io_invalidExc_T_1; // @[MulAddRecFN.scala:271:35, :272:57] assign _io_invalidExc_T_9 = _io_invalidExc_T_3; // @[MulAddRecFN.scala:272:57, :273:57] assign io_invalidExc_0 = _io_invalidExc_T_9; // @[MulAddRecFN.scala:169:7, :273:57] assign io_rawOut_isNaN_0 = _io_rawOut_isNaN_T; // @[MulAddRecFN.scala:169:7, :278:48] wire _io_rawOut_isZero_T = ~io_fromPreMul_CIsDominant_0; // @[MulAddRecFN.scala:169:7, :283:14] wire _io_rawOut_isZero_T_1 = _io_rawOut_isZero_T & notCDom_completeCancellation; // @[MulAddRecFN.scala:255:50, :283:{14,42}] assign _io_rawOut_isZero_T_2 = notNaN_addZeros | _io_rawOut_isZero_T_1; // @[MulAddRecFN.scala:267:58, :282:25, :283:42] assign io_rawOut_isZero_0 = _io_rawOut_isZero_T_2; // @[MulAddRecFN.scala:169:7, :282:25] wire _io_rawOut_sign_T_1 = io_fromPreMul_isInfC_0 & opSignC; // @[MulAddRecFN.scala:169:7, :190:42, :286:31] wire _io_rawOut_sign_T_2 = _io_rawOut_sign_T_1; // @[MulAddRecFN.scala:285:54, :286:31] wire _io_rawOut_sign_T_5 = _io_rawOut_sign_T_4; // @[MulAddRecFN.scala:287:{26,48}] wire _io_rawOut_sign_T_6 = _io_rawOut_sign_T_5 & opSignC; // @[MulAddRecFN.scala:190:42, :287:48, :288:36] wire _io_rawOut_sign_T_7 = _io_rawOut_sign_T_2 | _io_rawOut_sign_T_6; // @[MulAddRecFN.scala:285:54, :286:43, :288:36] wire _io_rawOut_sign_T_11 = _io_rawOut_sign_T_7; // @[MulAddRecFN.scala:286:43, :288:48] wire _io_rawOut_sign_T_12 = ~notNaN_isInfOut; // @[MulAddRecFN.scala:265:44, :291:10] wire _io_rawOut_sign_T_13 = ~notNaN_addZeros; // @[MulAddRecFN.scala:267:58, :291:31] wire _io_rawOut_sign_T_14 = _io_rawOut_sign_T_12 & _io_rawOut_sign_T_13; // @[MulAddRecFN.scala:291:{10,28,31}] wire _io_rawOut_sign_T_15 = io_fromPreMul_CIsDominant_0 ? opSignC : notCDom_sign; // @[MulAddRecFN.scala:169:7, :190:42, :257:12, :292:17] wire _io_rawOut_sign_T_16 = _io_rawOut_sign_T_14 & _io_rawOut_sign_T_15; // @[MulAddRecFN.scala:291:{28,49}, :292:17] assign _io_rawOut_sign_T_17 = _io_rawOut_sign_T_11 | _io_rawOut_sign_T_16; // @[MulAddRecFN.scala:288:48, :290:50, :291:49] assign io_rawOut_sign_0 = _io_rawOut_sign_T_17; // @[MulAddRecFN.scala:169:7, :290:50] assign _io_rawOut_sExp_T = io_fromPreMul_CIsDominant_0 ? CDom_sExp : notCDom_sExp; // @[MulAddRecFN.scala:169:7, :203:43, :241:46, :293:26] assign io_rawOut_sExp_0 = _io_rawOut_sExp_T; // @[MulAddRecFN.scala:169:7, :293:26] assign _io_rawOut_sig_T = io_fromPreMul_CIsDominant_0 ? CDom_sig : notCDom_sig; // @[MulAddRecFN.scala:169:7, :225:12, :251:12, :294:25] assign io_rawOut_sig_0 = _io_rawOut_sig_T; // @[MulAddRecFN.scala:169:7, :294:25] assign io_invalidExc = io_invalidExc_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_isNaN = io_rawOut_isNaN_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_isInf = io_rawOut_isInf_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_isZero = io_rawOut_isZero_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_sign = io_rawOut_sign_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_sExp = io_rawOut_sExp_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_sig = io_rawOut_sig_0; // @[MulAddRecFN.scala:169:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File SinkA.scala: /* * Copyright 2019 SiFive, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You should have received a copy of LICENSE.Apache2 along with * this software. If not, you may obtain a copy at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package sifive.blocks.inclusivecache import chisel3._ import chisel3.util._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.util._ class PutBufferAEntry(params: InclusiveCacheParameters) extends InclusiveCacheBundle(params) { val data = UInt(params.inner.bundle.dataBits.W) val mask = UInt((params.inner.bundle.dataBits/8).W) val corrupt = Bool() } class PutBufferPop(params: InclusiveCacheParameters) extends InclusiveCacheBundle(params) { val index = UInt(params.putBits.W) val last = Bool() } class SinkA(params: InclusiveCacheParameters) extends Module { val io = IO(new Bundle { val req = Decoupled(new FullRequest(params)) val a = Flipped(Decoupled(new TLBundleA(params.inner.bundle))) // for use by SourceD: val pb_pop = Flipped(Decoupled(new PutBufferPop(params))) val pb_beat = new PutBufferAEntry(params) }) // No restrictions on the type of buffer val a = params.micro.innerBuf.a(io.a) val putbuffer = Module(new ListBuffer(ListBufferParameters(new PutBufferAEntry(params), params.putLists, params.putBeats, false))) val lists = RegInit((0.U(params.putLists.W))) val lists_set = WireInit(init = 0.U(params.putLists.W)) val lists_clr = WireInit(init = 0.U(params.putLists.W)) lists := (lists | lists_set) & ~lists_clr val free = !lists.andR val freeOH = ~(leftOR(~lists) << 1) & ~lists val freeIdx = OHToUInt(freeOH) val first = params.inner.first(a) val hasData = params.inner.hasData(a.bits) // We need to split the A input to three places: // If it is the first beat, it must go to req // If it has Data, it must go to the putbuffer // If it has Data AND is the first beat, it must claim a list val req_block = first && !io.req.ready val buf_block = hasData && !putbuffer.io.push.ready val set_block = hasData && first && !free params.ccover(a.valid && req_block, "SINKA_REQ_STALL", "No MSHR available to sink request") params.ccover(a.valid && buf_block, "SINKA_BUF_STALL", "No space in putbuffer for beat") params.ccover(a.valid && set_block, "SINKA_SET_STALL", "No space in putbuffer for request") a.ready := !req_block && !buf_block && !set_block io.req.valid := a.valid && first && !buf_block && !set_block putbuffer.io.push.valid := a.valid && hasData && !req_block && !set_block when (a.valid && first && hasData && !req_block && !buf_block) { lists_set := freeOH } val (tag, set, offset) = params.parseAddress(a.bits.address) val put = Mux(first, freeIdx, RegEnable(freeIdx, first)) io.req.bits.prio := VecInit(1.U(3.W).asBools) io.req.bits.control:= false.B io.req.bits.opcode := a.bits.opcode io.req.bits.param := a.bits.param io.req.bits.size := a.bits.size io.req.bits.source := a.bits.source io.req.bits.offset := offset io.req.bits.set := set io.req.bits.tag := tag io.req.bits.put := put putbuffer.io.push.bits.index := put putbuffer.io.push.bits.data.data := a.bits.data putbuffer.io.push.bits.data.mask := a.bits.mask putbuffer.io.push.bits.data.corrupt := a.bits.corrupt // Grant access to pop the data putbuffer.io.pop.bits := io.pb_pop.bits.index putbuffer.io.pop.valid := io.pb_pop.fire io.pb_pop.ready := putbuffer.io.valid(io.pb_pop.bits.index) io.pb_beat := putbuffer.io.data when (io.pb_pop.fire && io.pb_pop.bits.last) { lists_clr := UIntToOH(io.pb_pop.bits.index, params.putLists) } } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module SinkA( // @[SinkA.scala:38:7] input clock, // @[SinkA.scala:38:7] input reset, // @[SinkA.scala:38:7] input io_req_ready, // @[SinkA.scala:40:14] output io_req_valid, // @[SinkA.scala:40:14] output [2:0] io_req_bits_opcode, // @[SinkA.scala:40:14] output [2:0] io_req_bits_param, // @[SinkA.scala:40:14] output [2:0] io_req_bits_size, // @[SinkA.scala:40:14] output [5:0] io_req_bits_source, // @[SinkA.scala:40:14] output [10:0] io_req_bits_tag, // @[SinkA.scala:40:14] output [5:0] io_req_bits_offset, // @[SinkA.scala:40:14] output [5:0] io_req_bits_put, // @[SinkA.scala:40:14] output [9:0] io_req_bits_set, // @[SinkA.scala:40:14] output io_a_ready, // @[SinkA.scala:40:14] input io_a_valid, // @[SinkA.scala:40:14] input [2:0] io_a_bits_opcode, // @[SinkA.scala:40:14] input [2:0] io_a_bits_param, // @[SinkA.scala:40:14] input [2:0] io_a_bits_size, // @[SinkA.scala:40:14] input [5:0] io_a_bits_source, // @[SinkA.scala:40:14] input [31:0] io_a_bits_address, // @[SinkA.scala:40:14] input [7:0] io_a_bits_mask, // @[SinkA.scala:40:14] input [63:0] io_a_bits_data, // @[SinkA.scala:40:14] input io_a_bits_corrupt, // @[SinkA.scala:40:14] output io_pb_pop_ready, // @[SinkA.scala:40:14] input io_pb_pop_valid, // @[SinkA.scala:40:14] input [5:0] io_pb_pop_bits_index, // @[SinkA.scala:40:14] input io_pb_pop_bits_last, // @[SinkA.scala:40:14] output [63:0] io_pb_beat_data, // @[SinkA.scala:40:14] output [7:0] io_pb_beat_mask, // @[SinkA.scala:40:14] output io_pb_beat_corrupt // @[SinkA.scala:40:14] ); wire io_pb_pop_ready_0; // @[SinkA.scala:105:40] wire _putbuffer_io_push_ready; // @[SinkA.scala:51:25] wire [39:0] _putbuffer_io_valid; // @[SinkA.scala:51:25] reg [39:0] lists; // @[SinkA.scala:52:22] wire [39:0] _freeOH_T_22 = ~lists; // @[SinkA.scala:52:22, :59:25] wire [38:0] _freeOH_T_3 = _freeOH_T_22[38:0] | {_freeOH_T_22[37:0], 1'h0}; // @[package.scala:253:{43,53}] wire [38:0] _freeOH_T_6 = _freeOH_T_3 | {_freeOH_T_3[36:0], 2'h0}; // @[package.scala:253:{43,53}] wire [38:0] _freeOH_T_9 = _freeOH_T_6 | {_freeOH_T_6[34:0], 4'h0}; // @[package.scala:253:{43,48,53}] wire [38:0] _freeOH_T_12 = _freeOH_T_9 | {_freeOH_T_9[30:0], 8'h0}; // @[package.scala:253:{43,53}] wire [38:0] _freeOH_T_15 = _freeOH_T_12 | {_freeOH_T_12[22:0], 16'h0}; // @[package.scala:253:{43,48,53}] wire [39:0] _GEN = {~(_freeOH_T_15 | {_freeOH_T_15[6:0], 32'h0}), 1'h1} & _freeOH_T_22; // @[package.scala:253:{43,48,53}] wire [30:0] _freeIdx_T_1 = {24'h0, _GEN[39:33]} | _GEN[31:1]; // @[OneHot.scala:31:18, :32:28] wire [14:0] _freeIdx_T_3 = _freeIdx_T_1[30:16] | _freeIdx_T_1[14:0]; // @[OneHot.scala:30:18, :31:18, :32:28] wire [6:0] _freeIdx_T_5 = _freeIdx_T_3[14:8] | _freeIdx_T_3[6:0]; // @[OneHot.scala:30:18, :31:18, :32:28] wire [2:0] _freeIdx_T_7 = _freeIdx_T_5[6:4] | _freeIdx_T_5[2:0]; // @[OneHot.scala:30:18, :31:18, :32:28] wire [5:0] freeIdx = {|(_GEN[39:32]), |(_freeIdx_T_1[30:15]), |(_freeIdx_T_3[14:7]), |(_freeIdx_T_5[6:3]), |(_freeIdx_T_7[2:1]), _freeIdx_T_7[2] | _freeIdx_T_7[0]}; // @[OneHot.scala:30:18, :31:18, :32:{10,14,28}] reg [2:0] first_counter; // @[Edges.scala:229:27] wire first = first_counter == 3'h0; // @[Edges.scala:229:27, :231:25] wire req_block = first & ~io_req_ready; // @[Edges.scala:231:25] wire buf_block = ~(io_a_bits_opcode[2]) & ~_putbuffer_io_push_ready; // @[Edges.scala:92:{28,37}] wire set_block = ~(io_a_bits_opcode[2]) & first & (&lists); // @[Edges.scala:92:{28,37}, :231:25] wire io_a_ready_0 = ~req_block & ~buf_block & ~set_block; // @[SinkA.scala:70:25, :71:27, :72:{27,36}, :78:{14,25,28,39,42}] wire _io_req_valid_T = io_a_valid & first; // @[Edges.scala:231:25] reg [5:0] put_r; // @[SinkA.scala:84:42] wire [5:0] put = first ? freeIdx : put_r; // @[OneHot.scala:32:10] wire putbuffer_io_pop_valid = io_pb_pop_ready_0 & io_pb_pop_valid; // @[Decoupled.scala:51:35] wire [39:0] _io_pb_pop_ready_T = _putbuffer_io_valid >> io_pb_pop_bits_index; // @[SinkA.scala:51:25, :105:40] assign io_pb_pop_ready_0 = _io_pb_pop_ready_T[0]; // @[SinkA.scala:105:40] wire [63:0] _lists_clr_T = 64'h1 << io_pb_pop_bits_index; // @[OneHot.scala:65:12] wire [12:0] _first_beats1_decode_T = 13'h3F << io_a_bits_size; // @[package.scala:243:71] always @(posedge clock) begin // @[SinkA.scala:38:7] if (reset) begin // @[SinkA.scala:38:7] lists <= 40'h0; // @[SinkA.scala:52:22] first_counter <= 3'h0; // @[Edges.scala:229:27] end else begin // @[SinkA.scala:38:7] lists <= (lists | (_io_req_valid_T & ~(io_a_bits_opcode[2]) & ~req_block & ~buf_block ? _GEN : 40'h0)) & ~(putbuffer_io_pop_valid & io_pb_pop_bits_last ? _lists_clr_T[39:0] : 40'h0); // @[OneHot.scala:65:{12,27}] if (io_a_ready_0 & io_a_valid) // @[Decoupled.scala:51:35] first_counter <= first ? (io_a_bits_opcode[2] ? 3'h0 : ~(_first_beats1_decode_T[5:3])) : first_counter - 3'h1; // @[package.scala:243:{46,71,76}] end if (first) // @[Edges.scala:231:25] put_r <= freeIdx; // @[OneHot.scala:32:10] always @(posedge)
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceLine import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import freechips.rocketchip.diplomacy.EnableMonitors import freechips.rocketchip.formal.{MonitorDirection, IfThen, Property, PropertyClass, TestplanTestType, TLMonitorStrictMode} import freechips.rocketchip.util.PlusArg case class TLMonitorArgs(edge: TLEdge) abstract class TLMonitorBase(args: TLMonitorArgs) extends Module { val io = IO(new Bundle { val in = Input(new TLBundle(args.edge.bundle)) }) def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit legalize(io.in, args.edge, reset) } object TLMonitor { def apply(enable: Boolean, node: TLNode)(implicit p: Parameters): TLNode = { if (enable) { EnableMonitors { implicit p => node := TLEphemeralNode()(ValName("monitor")) } } else { node } } } class TLMonitor(args: TLMonitorArgs, monitorDir: MonitorDirection = MonitorDirection.Monitor) extends TLMonitorBase(args) { require (args.edge.params(TLMonitorStrictMode) || (! args.edge.params(TestplanTestType).formal)) val cover_prop_class = PropertyClass.Default //Like assert but can flip to being an assumption for formal verification def monAssert(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir, cond, message, PropertyClass.Default) } def assume(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir.flip, cond, message, PropertyClass.Default) } def extra = { args.edge.sourceInfo match { case SourceLine(filename, line, col) => s" (connected at $filename:$line:$col)" case _ => "" } } def visible(address: UInt, source: UInt, edge: TLEdge) = edge.client.clients.map { c => !c.sourceId.contains(source) || c.visibility.map(_.contains(address)).reduce(_ || _) }.reduce(_ && _) def legalizeFormatA(bundle: TLBundleA, edge: TLEdge): Unit = { //switch this flag to turn on diplomacy in error messages def diplomacyInfo = if (true) "" else "\nThe diplomacy information for the edge is as follows:\n" + edge.formatEdge + "\n" monAssert (TLMessages.isA(bundle.opcode), "'A' channel has invalid opcode" + extra) // Reuse these subexpressions to save some firrtl lines val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) monAssert (visible(edge.address(bundle), bundle.source, edge), "'A' channel carries an address illegal for the specified bank visibility") //The monitor doesn’t check for acquire T vs acquire B, it assumes that acquire B implies acquire T and only checks for acquire B //TODO: check for acquireT? when (bundle.opcode === TLMessages.AcquireBlock) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquireBlock carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquireBlock smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquireBlock address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquireBlock carries invalid grow param" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquireBlock contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquireBlock is corrupt" + extra) } when (bundle.opcode === TLMessages.AcquirePerm) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquirePerm carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquirePerm smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquirePerm address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquirePerm carries invalid grow param" + extra) monAssert (bundle.param =/= TLPermissions.NtoB, "'A' channel AcquirePerm requests NtoB" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquirePerm contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquirePerm is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.emitsGet(bundle.source, bundle.size), "'A' channel carries Get type which master claims it can't emit" + diplomacyInfo + extra) monAssert (edge.slave.supportsGetSafe(edge.address(bundle), bundle.size, None), "'A' channel carries Get type which slave claims it can't support" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel Get carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.emitsPutFull(bundle.source, bundle.size) && edge.slave.supportsPutFullSafe(edge.address(bundle), bundle.size), "'A' channel carries PutFull type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel PutFull carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.emitsPutPartial(bundle.source, bundle.size) && edge.slave.supportsPutPartialSafe(edge.address(bundle), bundle.size), "'A' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel PutPartial carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'A' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.emitsArithmetic(bundle.source, bundle.size) && edge.slave.supportsArithmeticSafe(edge.address(bundle), bundle.size), "'A' channel carries Arithmetic type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Arithmetic carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'A' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.emitsLogical(bundle.source, bundle.size) && edge.slave.supportsLogicalSafe(edge.address(bundle), bundle.size), "'A' channel carries Logical type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Logical carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'A' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.emitsHint(bundle.source, bundle.size) && edge.slave.supportsHintSafe(edge.address(bundle), bundle.size), "'A' channel carries Hint type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Hint carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Hint address not aligned to size" + extra) monAssert (TLHints.isHints(bundle.param), "'A' channel Hint carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Hint is corrupt" + extra) } } def legalizeFormatB(bundle: TLBundleB, edge: TLEdge): Unit = { monAssert (TLMessages.isB(bundle.opcode), "'B' channel has invalid opcode" + extra) monAssert (visible(edge.address(bundle), bundle.source, edge), "'B' channel carries an address illegal for the specified bank visibility") // Reuse these subexpressions to save some firrtl lines val address_ok = edge.manager.containsSafe(edge.address(bundle)) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) val legal_source = Mux1H(edge.client.find(bundle.source), edge.client.clients.map(c => c.sourceId.start.U)) === bundle.source when (bundle.opcode === TLMessages.Probe) { assume (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'B' channel carries Probe type which is unexpected using diplomatic parameters" + extra) assume (address_ok, "'B' channel Probe carries unmanaged address" + extra) assume (legal_source, "'B' channel Probe carries source that is not first source" + extra) assume (is_aligned, "'B' channel Probe address not aligned to size" + extra) assume (TLPermissions.isCap(bundle.param), "'B' channel Probe carries invalid cap param" + extra) assume (bundle.mask === mask, "'B' channel Probe contains invalid mask" + extra) assume (!bundle.corrupt, "'B' channel Probe is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.supportsGet(edge.source(bundle), bundle.size) && edge.slave.emitsGetSafe(edge.address(bundle), bundle.size), "'B' channel carries Get type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel Get carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Get carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.supportsPutFull(edge.source(bundle), bundle.size) && edge.slave.emitsPutFullSafe(edge.address(bundle), bundle.size), "'B' channel carries PutFull type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutFull carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutFull carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.supportsPutPartial(edge.source(bundle), bundle.size) && edge.slave.emitsPutPartialSafe(edge.address(bundle), bundle.size), "'B' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutPartial carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutPartial carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'B' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.supportsArithmetic(edge.source(bundle), bundle.size) && edge.slave.emitsArithmeticSafe(edge.address(bundle), bundle.size), "'B' channel carries Arithmetic type unsupported by master" + extra) monAssert (address_ok, "'B' channel Arithmetic carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Arithmetic carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'B' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.supportsLogical(edge.source(bundle), bundle.size) && edge.slave.emitsLogicalSafe(edge.address(bundle), bundle.size), "'B' channel carries Logical type unsupported by client" + extra) monAssert (address_ok, "'B' channel Logical carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Logical carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'B' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.supportsHint(edge.source(bundle), bundle.size) && edge.slave.emitsHintSafe(edge.address(bundle), bundle.size), "'B' channel carries Hint type unsupported by client" + extra) monAssert (address_ok, "'B' channel Hint carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Hint carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Hint address not aligned to size" + extra) monAssert (bundle.mask === mask, "'B' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Hint is corrupt" + extra) } } def legalizeFormatC(bundle: TLBundleC, edge: TLEdge): Unit = { monAssert (TLMessages.isC(bundle.opcode), "'C' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val address_ok = edge.manager.containsSafe(edge.address(bundle)) monAssert (visible(edge.address(bundle), bundle.source, edge), "'C' channel carries an address illegal for the specified bank visibility") when (bundle.opcode === TLMessages.ProbeAck) { monAssert (address_ok, "'C' channel ProbeAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAck carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAck smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAck address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAck carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel ProbeAck is corrupt" + extra) } when (bundle.opcode === TLMessages.ProbeAckData) { monAssert (address_ok, "'C' channel ProbeAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAckData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAckData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAckData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAckData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.Release) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries Release type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel Release carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel Release smaller than a beat" + extra) monAssert (is_aligned, "'C' channel Release address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel Release carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel Release is corrupt" + extra) } when (bundle.opcode === TLMessages.ReleaseData) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries ReleaseData type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel ReleaseData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ReleaseData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ReleaseData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ReleaseData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.AccessAck) { monAssert (address_ok, "'C' channel AccessAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel AccessAck is corrupt" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { monAssert (address_ok, "'C' channel AccessAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAckData carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAckData address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAckData carries invalid param" + extra) } when (bundle.opcode === TLMessages.HintAck) { monAssert (address_ok, "'C' channel HintAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel HintAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel HintAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel HintAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel HintAck is corrupt" + extra) } } def legalizeFormatD(bundle: TLBundleD, edge: TLEdge): Unit = { assume (TLMessages.isD(bundle.opcode), "'D' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val sink_ok = bundle.sink < edge.manager.endSinkId.U val deny_put_ok = edge.manager.mayDenyPut.B val deny_get_ok = edge.manager.mayDenyGet.B when (bundle.opcode === TLMessages.ReleaseAck) { assume (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel ReleaseAck smaller than a beat" + extra) assume (bundle.param === 0.U, "'D' channel ReleaseeAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel ReleaseAck is corrupt" + extra) assume (!bundle.denied, "'D' channel ReleaseAck is denied" + extra) } when (bundle.opcode === TLMessages.Grant) { assume (source_ok, "'D' channel Grant carries invalid source ID" + extra) assume (sink_ok, "'D' channel Grant carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel Grant smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel Grant carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel Grant carries toN param" + extra) assume (!bundle.corrupt, "'D' channel Grant is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel Grant is denied" + extra) } when (bundle.opcode === TLMessages.GrantData) { assume (source_ok, "'D' channel GrantData carries invalid source ID" + extra) assume (sink_ok, "'D' channel GrantData carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel GrantData smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel GrantData carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel GrantData carries toN param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel GrantData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel GrantData is denied" + extra) } when (bundle.opcode === TLMessages.AccessAck) { assume (source_ok, "'D' channel AccessAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel AccessAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel AccessAck is denied" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { assume (source_ok, "'D' channel AccessAckData carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAckData carries invalid param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel AccessAckData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel AccessAckData is denied" + extra) } when (bundle.opcode === TLMessages.HintAck) { assume (source_ok, "'D' channel HintAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel HintAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel HintAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel HintAck is denied" + extra) } } def legalizeFormatE(bundle: TLBundleE, edge: TLEdge): Unit = { val sink_ok = bundle.sink < edge.manager.endSinkId.U monAssert (sink_ok, "'E' channels carries invalid sink ID" + extra) } def legalizeFormat(bundle: TLBundle, edge: TLEdge) = { when (bundle.a.valid) { legalizeFormatA(bundle.a.bits, edge) } when (bundle.d.valid) { legalizeFormatD(bundle.d.bits, edge) } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { when (bundle.b.valid) { legalizeFormatB(bundle.b.bits, edge) } when (bundle.c.valid) { legalizeFormatC(bundle.c.bits, edge) } when (bundle.e.valid) { legalizeFormatE(bundle.e.bits, edge) } } else { monAssert (!bundle.b.valid, "'B' channel valid and not TL-C" + extra) monAssert (!bundle.c.valid, "'C' channel valid and not TL-C" + extra) monAssert (!bundle.e.valid, "'E' channel valid and not TL-C" + extra) } } def legalizeMultibeatA(a: DecoupledIO[TLBundleA], edge: TLEdge): Unit = { val a_first = edge.first(a.bits, a.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (a.valid && !a_first) { monAssert (a.bits.opcode === opcode, "'A' channel opcode changed within multibeat operation" + extra) monAssert (a.bits.param === param, "'A' channel param changed within multibeat operation" + extra) monAssert (a.bits.size === size, "'A' channel size changed within multibeat operation" + extra) monAssert (a.bits.source === source, "'A' channel source changed within multibeat operation" + extra) monAssert (a.bits.address=== address,"'A' channel address changed with multibeat operation" + extra) } when (a.fire && a_first) { opcode := a.bits.opcode param := a.bits.param size := a.bits.size source := a.bits.source address := a.bits.address } } def legalizeMultibeatB(b: DecoupledIO[TLBundleB], edge: TLEdge): Unit = { val b_first = edge.first(b.bits, b.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (b.valid && !b_first) { monAssert (b.bits.opcode === opcode, "'B' channel opcode changed within multibeat operation" + extra) monAssert (b.bits.param === param, "'B' channel param changed within multibeat operation" + extra) monAssert (b.bits.size === size, "'B' channel size changed within multibeat operation" + extra) monAssert (b.bits.source === source, "'B' channel source changed within multibeat operation" + extra) monAssert (b.bits.address=== address,"'B' channel addresss changed with multibeat operation" + extra) } when (b.fire && b_first) { opcode := b.bits.opcode param := b.bits.param size := b.bits.size source := b.bits.source address := b.bits.address } } def legalizeADSourceFormal(bundle: TLBundle, edge: TLEdge): Unit = { // Symbolic variable val sym_source = Wire(UInt(edge.client.endSourceId.W)) // TODO: Connect sym_source to a fixed value for simulation and to a // free wire in formal sym_source := 0.U // Type casting Int to UInt val maxSourceId = Wire(UInt(edge.client.endSourceId.W)) maxSourceId := edge.client.endSourceId.U // Delayed verison of sym_source val sym_source_d = Reg(UInt(edge.client.endSourceId.W)) sym_source_d := sym_source // These will be constraints for FV setup Property( MonitorDirection.Monitor, (sym_source === sym_source_d), "sym_source should remain stable", PropertyClass.Default) Property( MonitorDirection.Monitor, (sym_source <= maxSourceId), "sym_source should take legal value", PropertyClass.Default) val my_resp_pend = RegInit(false.B) val my_opcode = Reg(UInt()) val my_size = Reg(UInt()) val a_first = bundle.a.valid && edge.first(bundle.a.bits, bundle.a.fire) val d_first = bundle.d.valid && edge.first(bundle.d.bits, bundle.d.fire) val my_a_first_beat = a_first && (bundle.a.bits.source === sym_source) val my_d_first_beat = d_first && (bundle.d.bits.source === sym_source) val my_clr_resp_pend = (bundle.d.fire && my_d_first_beat) val my_set_resp_pend = (bundle.a.fire && my_a_first_beat && !my_clr_resp_pend) when (my_set_resp_pend) { my_resp_pend := true.B } .elsewhen (my_clr_resp_pend) { my_resp_pend := false.B } when (my_a_first_beat) { my_opcode := bundle.a.bits.opcode my_size := bundle.a.bits.size } val my_resp_size = Mux(my_a_first_beat, bundle.a.bits.size, my_size) val my_resp_opcode = Mux(my_a_first_beat, bundle.a.bits.opcode, my_opcode) val my_resp_opcode_legal = Wire(Bool()) when ((my_resp_opcode === TLMessages.Get) || (my_resp_opcode === TLMessages.ArithmeticData) || (my_resp_opcode === TLMessages.LogicalData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAckData) } .elsewhen ((my_resp_opcode === TLMessages.PutFullData) || (my_resp_opcode === TLMessages.PutPartialData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAck) } .otherwise { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.HintAck) } monAssert (IfThen(my_resp_pend, !my_a_first_beat), "Request message should not be sent with a source ID, for which a response message" + "is already pending (not received until current cycle) for a prior request message" + "with the same source ID" + extra) assume (IfThen(my_clr_resp_pend, (my_set_resp_pend || my_resp_pend)), "Response message should be accepted with a source ID only if a request message with the" + "same source ID has been accepted or is being accepted in the current cycle" + extra) assume (IfThen(my_d_first_beat, (my_a_first_beat || my_resp_pend)), "Response message should be sent with a source ID only if a request message with the" + "same source ID has been accepted or is being sent in the current cycle" + extra) assume (IfThen(my_d_first_beat, (bundle.d.bits.size === my_resp_size)), "If d_valid is 1, then d_size should be same as a_size of the corresponding request" + "message" + extra) assume (IfThen(my_d_first_beat, my_resp_opcode_legal), "If d_valid is 1, then d_opcode should correspond with a_opcode of the corresponding" + "request message" + extra) } def legalizeMultibeatC(c: DecoupledIO[TLBundleC], edge: TLEdge): Unit = { val c_first = edge.first(c.bits, c.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (c.valid && !c_first) { monAssert (c.bits.opcode === opcode, "'C' channel opcode changed within multibeat operation" + extra) monAssert (c.bits.param === param, "'C' channel param changed within multibeat operation" + extra) monAssert (c.bits.size === size, "'C' channel size changed within multibeat operation" + extra) monAssert (c.bits.source === source, "'C' channel source changed within multibeat operation" + extra) monAssert (c.bits.address=== address,"'C' channel address changed with multibeat operation" + extra) } when (c.fire && c_first) { opcode := c.bits.opcode param := c.bits.param size := c.bits.size source := c.bits.source address := c.bits.address } } def legalizeMultibeatD(d: DecoupledIO[TLBundleD], edge: TLEdge): Unit = { val d_first = edge.first(d.bits, d.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val sink = Reg(UInt()) val denied = Reg(Bool()) when (d.valid && !d_first) { assume (d.bits.opcode === opcode, "'D' channel opcode changed within multibeat operation" + extra) assume (d.bits.param === param, "'D' channel param changed within multibeat operation" + extra) assume (d.bits.size === size, "'D' channel size changed within multibeat operation" + extra) assume (d.bits.source === source, "'D' channel source changed within multibeat operation" + extra) assume (d.bits.sink === sink, "'D' channel sink changed with multibeat operation" + extra) assume (d.bits.denied === denied, "'D' channel denied changed with multibeat operation" + extra) } when (d.fire && d_first) { opcode := d.bits.opcode param := d.bits.param size := d.bits.size source := d.bits.source sink := d.bits.sink denied := d.bits.denied } } def legalizeMultibeat(bundle: TLBundle, edge: TLEdge): Unit = { legalizeMultibeatA(bundle.a, edge) legalizeMultibeatD(bundle.d, edge) if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { legalizeMultibeatB(bundle.b, edge) legalizeMultibeatC(bundle.c, edge) } } //This is left in for almond which doesn't adhere to the tilelink protocol @deprecated("Use legalizeADSource instead if possible","") def legalizeADSourceOld(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.client.endSourceId.W)) val a_first = edge.first(bundle.a.bits, bundle.a.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val a_set = WireInit(0.U(edge.client.endSourceId.W)) when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) assert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) assume((a_set | inflight)(bundle.d.bits.source), "'D' channel acknowledged for nothing inflight" + extra) } if (edge.manager.minLatency > 0) { assume(a_set =/= d_clr || !a_set.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") assert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeADSource(bundle: TLBundle, edge: TLEdge): Unit = { val a_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val a_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_a_opcode_bus_size = log2Ceil(a_opcode_bus_size) val log_a_size_bus_size = log2Ceil(a_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) // size up to avoid width error inflight.suggestName("inflight") val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) inflight_opcodes.suggestName("inflight_opcodes") val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) inflight_sizes.suggestName("inflight_sizes") val a_first = edge.first(bundle.a.bits, bundle.a.fire) a_first.suggestName("a_first") val d_first = edge.first(bundle.d.bits, bundle.d.fire) d_first.suggestName("d_first") val a_set = WireInit(0.U(edge.client.endSourceId.W)) val a_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) a_set.suggestName("a_set") a_set_wo_ready.suggestName("a_set_wo_ready") val a_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) a_opcodes_set.suggestName("a_opcodes_set") val a_sizes_set = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) a_sizes_set.suggestName("a_sizes_set") val a_opcode_lookup = WireInit(0.U((a_opcode_bus_size - 1).W)) a_opcode_lookup.suggestName("a_opcode_lookup") a_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_a_opcode_bus_size.U) & size_to_numfullbits(1.U << log_a_opcode_bus_size.U)) >> 1.U val a_size_lookup = WireInit(0.U((1 << log_a_size_bus_size).W)) a_size_lookup.suggestName("a_size_lookup") a_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_a_size_bus_size.U) & size_to_numfullbits(1.U << log_a_size_bus_size.U)) >> 1.U val responseMap = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.Grant, TLMessages.Grant)) val responseMapSecondOption = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.GrantData, TLMessages.Grant)) val a_opcodes_set_interm = WireInit(0.U(a_opcode_bus_size.W)) a_opcodes_set_interm.suggestName("a_opcodes_set_interm") val a_sizes_set_interm = WireInit(0.U(a_size_bus_size.W)) a_sizes_set_interm.suggestName("a_sizes_set_interm") when (bundle.a.valid && a_first && edge.isRequest(bundle.a.bits)) { a_set_wo_ready := UIntToOH(bundle.a.bits.source) } when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) a_opcodes_set_interm := (bundle.a.bits.opcode << 1.U) | 1.U a_sizes_set_interm := (bundle.a.bits.size << 1.U) | 1.U a_opcodes_set := (a_opcodes_set_interm) << (bundle.a.bits.source << log_a_opcode_bus_size.U) a_sizes_set := (a_sizes_set_interm) << (bundle.a.bits.source << log_a_size_bus_size.U) monAssert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) d_opcodes_clr.suggestName("d_opcodes_clr") val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_a_opcode_bus_size.U) << (bundle.d.bits.source << log_a_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_a_size_bus_size.U) << (bundle.d.bits.source << log_a_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { val same_cycle_resp = bundle.a.valid && a_first && edge.isRequest(bundle.a.bits) && (bundle.a.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.opcode === responseMap(bundle.a.bits.opcode)) || (bundle.d.bits.opcode === responseMapSecondOption(bundle.a.bits.opcode)), "'D' channel contains improper opcode response" + extra) assume((bundle.a.bits.size === bundle.d.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.opcode === responseMap(a_opcode_lookup)) || (bundle.d.bits.opcode === responseMapSecondOption(a_opcode_lookup)), "'D' channel contains improper opcode response" + extra) assume((bundle.d.bits.size === a_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && a_first && bundle.a.valid && (bundle.a.bits.source === bundle.d.bits.source) && !d_release_ack) { assume((!bundle.d.ready) || bundle.a.ready, "ready check") } if (edge.manager.minLatency > 0) { assume(a_set_wo_ready =/= d_clr_wo_ready || !a_set_wo_ready.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr inflight_opcodes := (inflight_opcodes | a_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | a_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeCDSource(bundle: TLBundle, edge: TLEdge): Unit = { val c_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val c_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_c_opcode_bus_size = log2Ceil(c_opcode_bus_size) val log_c_size_bus_size = log2Ceil(c_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) inflight.suggestName("inflight") inflight_opcodes.suggestName("inflight_opcodes") inflight_sizes.suggestName("inflight_sizes") val c_first = edge.first(bundle.c.bits, bundle.c.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) c_first.suggestName("c_first") d_first.suggestName("d_first") val c_set = WireInit(0.U(edge.client.endSourceId.W)) val c_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val c_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val c_sizes_set = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) c_set.suggestName("c_set") c_set_wo_ready.suggestName("c_set_wo_ready") c_opcodes_set.suggestName("c_opcodes_set") c_sizes_set.suggestName("c_sizes_set") val c_opcode_lookup = WireInit(0.U((1 << log_c_opcode_bus_size).W)) val c_size_lookup = WireInit(0.U((1 << log_c_size_bus_size).W)) c_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_c_opcode_bus_size.U) & size_to_numfullbits(1.U << log_c_opcode_bus_size.U)) >> 1.U c_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_c_size_bus_size.U) & size_to_numfullbits(1.U << log_c_size_bus_size.U)) >> 1.U c_opcode_lookup.suggestName("c_opcode_lookup") c_size_lookup.suggestName("c_size_lookup") val c_opcodes_set_interm = WireInit(0.U(c_opcode_bus_size.W)) val c_sizes_set_interm = WireInit(0.U(c_size_bus_size.W)) c_opcodes_set_interm.suggestName("c_opcodes_set_interm") c_sizes_set_interm.suggestName("c_sizes_set_interm") when (bundle.c.valid && c_first && edge.isRequest(bundle.c.bits)) { c_set_wo_ready := UIntToOH(bundle.c.bits.source) } when (bundle.c.fire && c_first && edge.isRequest(bundle.c.bits)) { c_set := UIntToOH(bundle.c.bits.source) c_opcodes_set_interm := (bundle.c.bits.opcode << 1.U) | 1.U c_sizes_set_interm := (bundle.c.bits.size << 1.U) | 1.U c_opcodes_set := (c_opcodes_set_interm) << (bundle.c.bits.source << log_c_opcode_bus_size.U) c_sizes_set := (c_sizes_set_interm) << (bundle.c.bits.source << log_c_size_bus_size.U) monAssert(!inflight(bundle.c.bits.source), "'C' channel re-used a source ID" + extra) } val c_probe_ack = bundle.c.bits.opcode === TLMessages.ProbeAck || bundle.c.bits.opcode === TLMessages.ProbeAckData val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") d_opcodes_clr.suggestName("d_opcodes_clr") d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_c_opcode_bus_size.U) << (bundle.d.bits.source << log_c_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_c_size_bus_size.U) << (bundle.d.bits.source << log_c_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { val same_cycle_resp = bundle.c.valid && c_first && edge.isRequest(bundle.c.bits) && (bundle.c.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.size === bundle.c.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.size === c_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && c_first && bundle.c.valid && (bundle.c.bits.source === bundle.d.bits.source) && d_release_ack && !c_probe_ack) { assume((!bundle.d.ready) || bundle.c.ready, "ready check") } if (edge.manager.minLatency > 0) { when (c_set_wo_ready.orR) { assume(c_set_wo_ready =/= d_clr_wo_ready, s"'C' and 'D' concurrent, despite minlatency > 0" + extra) } } inflight := (inflight | c_set) & ~d_clr inflight_opcodes := (inflight_opcodes | c_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | c_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.c.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeDESink(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.manager.endSinkId.W)) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val e_first = true.B val d_set = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.d.fire && d_first && edge.isRequest(bundle.d.bits)) { d_set := UIntToOH(bundle.d.bits.sink) assume(!inflight(bundle.d.bits.sink), "'D' channel re-used a sink ID" + extra) } val e_clr = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.e.fire && e_first && edge.isResponse(bundle.e.bits)) { e_clr := UIntToOH(bundle.e.bits.sink) monAssert((d_set | inflight)(bundle.e.bits.sink), "'E' channel acknowledged for nothing inflight" + extra) } // edge.client.minLatency applies to BC, not DE inflight := (inflight | d_set) & ~e_clr } def legalizeUnique(bundle: TLBundle, edge: TLEdge): Unit = { val sourceBits = log2Ceil(edge.client.endSourceId) val tooBig = 14 // >16kB worth of flight information gets to be too much if (sourceBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with source bits (${sourceBits}) > ${tooBig}; A=>D transaction flight will not be checked") } else { if (args.edge.params(TestplanTestType).simulation) { if (args.edge.params(TLMonitorStrictMode)) { legalizeADSource(bundle, edge) legalizeCDSource(bundle, edge) } else { legalizeADSourceOld(bundle, edge) } } if (args.edge.params(TestplanTestType).formal) { legalizeADSourceFormal(bundle, edge) } } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { // legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize... val sinkBits = log2Ceil(edge.manager.endSinkId) if (sinkBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with sink bits (${sinkBits}) > ${tooBig}; D=>E transaction flight will not be checked") } else { legalizeDESink(bundle, edge) } } } def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit = { legalizeFormat (bundle, edge) legalizeMultibeat (bundle, edge) legalizeUnique (bundle, edge) } } File Misc.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import scala.math._ class ParameterizedBundle(implicit p: Parameters) extends Bundle trait Clocked extends Bundle { val clock = Clock() val reset = Bool() } object DecoupledHelper { def apply(rvs: Bool*) = new DecoupledHelper(rvs) } class DecoupledHelper(val rvs: Seq[Bool]) { def fire(exclude: Bool, includes: Bool*) = { require(rvs.contains(exclude), "Excluded Bool not present in DecoupledHelper! Note that DecoupledHelper uses referential equality for exclusion! If you don't want to exclude anything, use fire()!") (rvs.filter(_ ne exclude) ++ includes).reduce(_ && _) } def fire() = { rvs.reduce(_ && _) } } object MuxT { def apply[T <: Data, U <: Data](cond: Bool, con: (T, U), alt: (T, U)): (T, U) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2)) def apply[T <: Data, U <: Data, W <: Data](cond: Bool, con: (T, U, W), alt: (T, U, W)): (T, U, W) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3)) def apply[T <: Data, U <: Data, W <: Data, X <: Data](cond: Bool, con: (T, U, W, X), alt: (T, U, W, X)): (T, U, W, X) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3), Mux(cond, con._4, alt._4)) } /** Creates a cascade of n MuxTs to search for a key value. */ object MuxTLookup { def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } } object ValidMux { def apply[T <: Data](v1: ValidIO[T], v2: ValidIO[T]*): ValidIO[T] = { apply(v1 +: v2.toSeq) } def apply[T <: Data](valids: Seq[ValidIO[T]]): ValidIO[T] = { val out = Wire(Valid(valids.head.bits.cloneType)) out.valid := valids.map(_.valid).reduce(_ || _) out.bits := MuxCase(valids.head.bits, valids.map(v => (v.valid -> v.bits))) out } } object Str { def apply(s: String): UInt = { var i = BigInt(0) require(s.forall(validChar _)) for (c <- s) i = (i << 8) | c i.U((s.length*8).W) } def apply(x: Char): UInt = { require(validChar(x)) x.U(8.W) } def apply(x: UInt): UInt = apply(x, 10) def apply(x: UInt, radix: Int): UInt = { val rad = radix.U val w = x.getWidth require(w > 0) var q = x var s = digit(q % rad) for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad s = Cat(Mux((radix == 10).B && q === 0.U, Str(' '), digit(q % rad)), s) } s } def apply(x: SInt): UInt = apply(x, 10) def apply(x: SInt, radix: Int): UInt = { val neg = x < 0.S val abs = x.abs.asUInt if (radix != 10) { Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix)) } else { val rad = radix.U val w = abs.getWidth require(w > 0) var q = abs var s = digit(q % rad) var needSign = neg for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad val placeSpace = q === 0.U val space = Mux(needSign, Str('-'), Str(' ')) needSign = needSign && !placeSpace s = Cat(Mux(placeSpace, space, digit(q % rad)), s) } Cat(Mux(needSign, Str('-'), Str(' ')), s) } } private def digit(d: UInt): UInt = Mux(d < 10.U, Str('0')+d, Str(('a'-10).toChar)+d)(7,0) private def validChar(x: Char) = x == (x & 0xFF) } object Split { def apply(x: UInt, n0: Int) = { val w = x.getWidth (x.extract(w-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n2: Int, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n2), x.extract(n2-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } } object Random { def apply(mod: Int, random: UInt): UInt = { if (isPow2(mod)) random.extract(log2Ceil(mod)-1,0) else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod)) } def apply(mod: Int): UInt = apply(mod, randomizer) def oneHot(mod: Int, random: UInt): UInt = { if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0)) else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).asUInt } def oneHot(mod: Int): UInt = oneHot(mod, randomizer) private def randomizer = LFSR(16) private def partition(value: UInt, slices: Int) = Seq.tabulate(slices)(i => value < (((i + 1) << value.getWidth) / slices).U) } object Majority { def apply(in: Set[Bool]): Bool = { val n = (in.size >> 1) + 1 val clauses = in.subsets(n).map(_.reduce(_ && _)) clauses.reduce(_ || _) } def apply(in: Seq[Bool]): Bool = apply(in.toSet) def apply(in: UInt): Bool = apply(in.asBools.toSet) } object PopCountAtLeast { private def two(x: UInt): (Bool, Bool) = x.getWidth match { case 1 => (x.asBool, false.B) case n => val half = x.getWidth / 2 val (leftOne, leftTwo) = two(x(half - 1, 0)) val (rightOne, rightTwo) = two(x(x.getWidth - 1, half)) (leftOne || rightOne, leftTwo || rightTwo || (leftOne && rightOne)) } def apply(x: UInt, n: Int): Bool = n match { case 0 => true.B case 1 => x.orR case 2 => two(x)._2 case 3 => PopCount(x) >= n.U } } // This gets used everywhere, so make the smallest circuit possible ... // Given an address and size, create a mask of beatBytes size // eg: (0x3, 0, 4) => 0001, (0x3, 1, 4) => 0011, (0x3, 2, 4) => 1111 // groupBy applies an interleaved OR reduction; groupBy=2 take 0010 => 01 object MaskGen { def apply(addr_lo: UInt, lgSize: UInt, beatBytes: Int, groupBy: Int = 1): UInt = { require (groupBy >= 1 && beatBytes >= groupBy) require (isPow2(beatBytes) && isPow2(groupBy)) val lgBytes = log2Ceil(beatBytes) val sizeOH = UIntToOH(lgSize | 0.U(log2Up(beatBytes).W), log2Up(beatBytes)) | (groupBy*2 - 1).U def helper(i: Int): Seq[(Bool, Bool)] = { if (i == 0) { Seq((lgSize >= lgBytes.asUInt, true.B)) } else { val sub = helper(i-1) val size = sizeOH(lgBytes - i) val bit = addr_lo(lgBytes - i) val nbit = !bit Seq.tabulate (1 << i) { j => val (sub_acc, sub_eq) = sub(j/2) val eq = sub_eq && (if (j % 2 == 1) bit else nbit) val acc = sub_acc || (size && eq) (acc, eq) } } } if (groupBy == beatBytes) 1.U else Cat(helper(lgBytes-log2Ceil(groupBy)).map(_._1).reverse) } } File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.diplomacy import chisel3._ import chisel3.util.{DecoupledIO, Queue, ReadyValidIO, isPow2, log2Ceil, log2Floor} import freechips.rocketchip.util.ShiftQueue /** Options for describing the attributes of memory regions */ object RegionType { // Define the 'more relaxed than' ordering val cases = Seq(CACHED, TRACKED, UNCACHED, IDEMPOTENT, VOLATILE, PUT_EFFECTS, GET_EFFECTS) sealed trait T extends Ordered[T] { def compare(that: T): Int = cases.indexOf(that) compare cases.indexOf(this) } case object CACHED extends T // an intermediate agent may have cached a copy of the region for you case object TRACKED extends T // the region may have been cached by another master, but coherence is being provided case object UNCACHED extends T // the region has not been cached yet, but should be cached when possible case object IDEMPOTENT extends T // gets return most recently put content, but content should not be cached case object VOLATILE extends T // content may change without a put, but puts and gets have no side effects case object PUT_EFFECTS extends T // puts produce side effects and so must not be combined/delayed case object GET_EFFECTS extends T // gets produce side effects and so must not be issued speculatively } // A non-empty half-open range; [start, end) case class IdRange(start: Int, end: Int) extends Ordered[IdRange] { require (start >= 0, s"Ids cannot be negative, but got: $start.") require (start <= end, "Id ranges cannot be negative.") def compare(x: IdRange) = { val primary = (this.start - x.start).signum val secondary = (x.end - this.end).signum if (primary != 0) primary else secondary } def overlaps(x: IdRange) = start < x.end && x.start < end def contains(x: IdRange) = start <= x.start && x.end <= end def contains(x: Int) = start <= x && x < end def contains(x: UInt) = if (size == 0) { false.B } else if (size == 1) { // simple comparison x === start.U } else { // find index of largest different bit val largestDeltaBit = log2Floor(start ^ (end-1)) val smallestCommonBit = largestDeltaBit + 1 // may not exist in x val uncommonMask = (1 << smallestCommonBit) - 1 val uncommonBits = (x | 0.U(smallestCommonBit.W))(largestDeltaBit, 0) // the prefix must match exactly (note: may shift ALL bits away) (x >> smallestCommonBit) === (start >> smallestCommonBit).U && // firrtl constant prop range analysis can eliminate these two: (start & uncommonMask).U <= uncommonBits && uncommonBits <= ((end-1) & uncommonMask).U } def shift(x: Int) = IdRange(start+x, end+x) def size = end - start def isEmpty = end == start def range = start until end } object IdRange { def overlaps(s: Seq[IdRange]) = if (s.isEmpty) None else { val ranges = s.sorted (ranges.tail zip ranges.init) find { case (a, b) => a overlaps b } } } // An potentially empty inclusive range of 2-powers [min, max] (in bytes) case class TransferSizes(min: Int, max: Int) { def this(x: Int) = this(x, x) require (min <= max, s"Min transfer $min > max transfer $max") require (min >= 0 && max >= 0, s"TransferSizes must be positive, got: ($min, $max)") require (max == 0 || isPow2(max), s"TransferSizes must be a power of 2, got: $max") require (min == 0 || isPow2(min), s"TransferSizes must be a power of 2, got: $min") require (max == 0 || min != 0, s"TransferSize 0 is forbidden unless (0,0), got: ($min, $max)") def none = min == 0 def contains(x: Int) = isPow2(x) && min <= x && x <= max def containsLg(x: Int) = contains(1 << x) def containsLg(x: UInt) = if (none) false.B else if (min == max) { log2Ceil(min).U === x } else { log2Ceil(min).U <= x && x <= log2Ceil(max).U } def contains(x: TransferSizes) = x.none || (min <= x.min && x.max <= max) def intersect(x: TransferSizes) = if (x.max < min || max < x.min) TransferSizes.none else TransferSizes(scala.math.max(min, x.min), scala.math.min(max, x.max)) // Not a union, because the result may contain sizes contained by neither term // NOT TO BE CONFUSED WITH COVERPOINTS def mincover(x: TransferSizes) = { if (none) { x } else if (x.none) { this } else { TransferSizes(scala.math.min(min, x.min), scala.math.max(max, x.max)) } } override def toString() = "TransferSizes[%d, %d]".format(min, max) } object TransferSizes { def apply(x: Int) = new TransferSizes(x) val none = new TransferSizes(0) def mincover(seq: Seq[TransferSizes]) = seq.foldLeft(none)(_ mincover _) def intersect(seq: Seq[TransferSizes]) = seq.reduce(_ intersect _) implicit def asBool(x: TransferSizes) = !x.none } // AddressSets specify the address space managed by the manager // Base is the base address, and mask are the bits consumed by the manager // e.g: base=0x200, mask=0xff describes a device managing 0x200-0x2ff // e.g: base=0x1000, mask=0xf0f decribes a device managing 0x1000-0x100f, 0x1100-0x110f, ... case class AddressSet(base: BigInt, mask: BigInt) extends Ordered[AddressSet] { // Forbid misaligned base address (and empty sets) require ((base & mask) == 0, s"Mis-aligned AddressSets are forbidden, got: ${this.toString}") require (base >= 0, s"AddressSet negative base is ambiguous: $base") // TL2 address widths are not fixed => negative is ambiguous // We do allow negative mask (=> ignore all high bits) def contains(x: BigInt) = ((x ^ base) & ~mask) == 0 def contains(x: UInt) = ((x ^ base.U).zext & (~mask).S) === 0.S // turn x into an address contained in this set def legalize(x: UInt): UInt = base.U | (mask.U & x) // overlap iff bitwise: both care (~mask0 & ~mask1) => both equal (base0=base1) def overlaps(x: AddressSet) = (~(mask | x.mask) & (base ^ x.base)) == 0 // contains iff bitwise: x.mask => mask && contains(x.base) def contains(x: AddressSet) = ((x.mask | (base ^ x.base)) & ~mask) == 0 // The number of bytes to which the manager must be aligned def alignment = ((mask + 1) & ~mask) // Is this a contiguous memory range def contiguous = alignment == mask+1 def finite = mask >= 0 def max = { require (finite, "Max cannot be calculated on infinite mask"); base | mask } // Widen the match function to ignore all bits in imask def widen(imask: BigInt) = AddressSet(base & ~imask, mask | imask) // Return an AddressSet that only contains the addresses both sets contain def intersect(x: AddressSet): Option[AddressSet] = { if (!overlaps(x)) { None } else { val r_mask = mask & x.mask val r_base = base | x.base Some(AddressSet(r_base, r_mask)) } } def subtract(x: AddressSet): Seq[AddressSet] = { intersect(x) match { case None => Seq(this) case Some(remove) => AddressSet.enumerateBits(mask & ~remove.mask).map { bit => val nmask = (mask & (bit-1)) | remove.mask val nbase = (remove.base ^ bit) & ~nmask AddressSet(nbase, nmask) } } } // AddressSets have one natural Ordering (the containment order, if contiguous) def compare(x: AddressSet) = { val primary = (this.base - x.base).signum // smallest address first val secondary = (x.mask - this.mask).signum // largest mask first if (primary != 0) primary else secondary } // We always want to see things in hex override def toString() = { if (mask >= 0) { "AddressSet(0x%x, 0x%x)".format(base, mask) } else { "AddressSet(0x%x, ~0x%x)".format(base, ~mask) } } def toRanges = { require (finite, "Ranges cannot be calculated on infinite mask") val size = alignment val fragments = mask & ~(size-1) val bits = bitIndexes(fragments) (BigInt(0) until (BigInt(1) << bits.size)).map { i => val off = bitIndexes(i).foldLeft(base) { case (a, b) => a.setBit(bits(b)) } AddressRange(off, size) } } } object AddressSet { val everything = AddressSet(0, -1) def misaligned(base: BigInt, size: BigInt, tail: Seq[AddressSet] = Seq()): Seq[AddressSet] = { if (size == 0) tail.reverse else { val maxBaseAlignment = base & (-base) // 0 for infinite (LSB) val maxSizeAlignment = BigInt(1) << log2Floor(size) // MSB of size val step = if (maxBaseAlignment == 0 || maxBaseAlignment > maxSizeAlignment) maxSizeAlignment else maxBaseAlignment misaligned(base+step, size-step, AddressSet(base, step-1) +: tail) } } def unify(seq: Seq[AddressSet], bit: BigInt): Seq[AddressSet] = { // Pair terms up by ignoring 'bit' seq.distinct.groupBy(x => x.copy(base = x.base & ~bit)).map { case (key, seq) => if (seq.size == 1) { seq.head // singleton -> unaffected } else { key.copy(mask = key.mask | bit) // pair - widen mask by bit } }.toList } def unify(seq: Seq[AddressSet]): Seq[AddressSet] = { val bits = seq.map(_.base).foldLeft(BigInt(0))(_ | _) AddressSet.enumerateBits(bits).foldLeft(seq) { case (acc, bit) => unify(acc, bit) }.sorted } def enumerateMask(mask: BigInt): Seq[BigInt] = { def helper(id: BigInt, tail: Seq[BigInt]): Seq[BigInt] = if (id == mask) (id +: tail).reverse else helper(((~mask | id) + 1) & mask, id +: tail) helper(0, Nil) } def enumerateBits(mask: BigInt): Seq[BigInt] = { def helper(x: BigInt): Seq[BigInt] = { if (x == 0) { Nil } else { val bit = x & (-x) bit +: helper(x & ~bit) } } helper(mask) } } case class BufferParams(depth: Int, flow: Boolean, pipe: Boolean) { require (depth >= 0, "Buffer depth must be >= 0") def isDefined = depth > 0 def latency = if (isDefined && !flow) 1 else 0 def apply[T <: Data](x: DecoupledIO[T]) = if (isDefined) Queue(x, depth, flow=flow, pipe=pipe) else x def irrevocable[T <: Data](x: ReadyValidIO[T]) = if (isDefined) Queue.irrevocable(x, depth, flow=flow, pipe=pipe) else x def sq[T <: Data](x: DecoupledIO[T]) = if (!isDefined) x else { val sq = Module(new ShiftQueue(x.bits, depth, flow=flow, pipe=pipe)) sq.io.enq <> x sq.io.deq } override def toString() = "BufferParams:%d%s%s".format(depth, if (flow) "F" else "", if (pipe) "P" else "") } object BufferParams { implicit def apply(depth: Int): BufferParams = BufferParams(depth, false, false) val default = BufferParams(2) val none = BufferParams(0) val flow = BufferParams(1, true, false) val pipe = BufferParams(1, false, true) } case class TriStateValue(value: Boolean, set: Boolean) { def update(orig: Boolean) = if (set) value else orig } object TriStateValue { implicit def apply(value: Boolean): TriStateValue = TriStateValue(value, true) def unset = TriStateValue(false, false) } trait DirectedBuffers[T] { def copyIn(x: BufferParams): T def copyOut(x: BufferParams): T def copyInOut(x: BufferParams): T } trait IdMapEntry { def name: String def from: IdRange def to: IdRange def isCache: Boolean def requestFifo: Boolean def maxTransactionsInFlight: Option[Int] def pretty(fmt: String) = if (from ne to) { // if the subclass uses the same reference for both from and to, assume its format string has an arity of 5 fmt.format(to.start, to.end, from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } else { fmt.format(from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } } abstract class IdMap[T <: IdMapEntry] { protected val fmt: String val mapping: Seq[T] def pretty: String = mapping.map(_.pretty(fmt)).mkString(",\n") } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module TLMonitor_93( // @[Monitor.scala:36:7] input clock, // @[Monitor.scala:36:7] input reset, // @[Monitor.scala:36:7] input io_in_a_ready, // @[Monitor.scala:20:14] input io_in_a_valid, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_opcode, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_param, // @[Monitor.scala:20:14] input [1:0] io_in_a_bits_size, // @[Monitor.scala:20:14] input [10:0] io_in_a_bits_source, // @[Monitor.scala:20:14] input [16:0] io_in_a_bits_address, // @[Monitor.scala:20:14] input [7:0] io_in_a_bits_mask, // @[Monitor.scala:20:14] input io_in_a_bits_corrupt, // @[Monitor.scala:20:14] input io_in_d_ready, // @[Monitor.scala:20:14] input io_in_d_valid, // @[Monitor.scala:20:14] input [1:0] io_in_d_bits_size, // @[Monitor.scala:20:14] input [10:0] io_in_d_bits_source // @[Monitor.scala:20:14] ); wire [31:0] _plusarg_reader_out; // @[PlusArg.scala:80:11] wire a_first_done = io_in_a_ready & io_in_a_valid; // @[Decoupled.scala:51:35] reg a_first_counter; // @[Edges.scala:229:27] reg [2:0] opcode; // @[Monitor.scala:387:22] reg [2:0] param; // @[Monitor.scala:388:22] reg [1:0] size; // @[Monitor.scala:389:22] reg [10:0] source; // @[Monitor.scala:390:22] reg [16:0] address; // @[Monitor.scala:391:22] reg d_first_counter; // @[Edges.scala:229:27] reg [1:0] size_1; // @[Monitor.scala:540:22] reg [10:0] source_1; // @[Monitor.scala:541:22] reg [1039:0] inflight; // @[Monitor.scala:614:27] reg [4159:0] inflight_opcodes; // @[Monitor.scala:616:35] reg [4159:0] inflight_sizes; // @[Monitor.scala:618:33] reg a_first_counter_1; // @[Edges.scala:229:27] reg d_first_counter_1; // @[Edges.scala:229:27] wire _GEN = a_first_done & ~a_first_counter_1; // @[Decoupled.scala:51:35] reg [31:0] watchdog; // @[Monitor.scala:709:27]
Generate the Verilog code corresponding to the following Chisel files. File util.scala: //****************************************************************************** // Copyright (c) 2015 - 2019, The Regents of the University of California (Regents). // All Rights Reserved. See LICENSE and LICENSE.SiFive for license details. //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ // Utility Functions //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ package boom.v3.util import chisel3._ import chisel3.util._ import freechips.rocketchip.rocket.Instructions._ import freechips.rocketchip.rocket._ import freechips.rocketchip.util.{Str} import org.chipsalliance.cde.config.{Parameters} import freechips.rocketchip.tile.{TileKey} import boom.v3.common.{MicroOp} import boom.v3.exu.{BrUpdateInfo} /** * Object to XOR fold a input register of fullLength into a compressedLength. */ object Fold { def apply(input: UInt, compressedLength: Int, fullLength: Int): UInt = { val clen = compressedLength val hlen = fullLength if (hlen <= clen) { input } else { var res = 0.U(clen.W) var remaining = input.asUInt for (i <- 0 to hlen-1 by clen) { val len = if (i + clen > hlen ) (hlen - i) else clen require(len > 0) res = res(clen-1,0) ^ remaining(len-1,0) remaining = remaining >> len.U } res } } } /** * Object to check if MicroOp was killed due to a branch mispredict. * Uses "Fast" branch masks */ object IsKilledByBranch { def apply(brupdate: BrUpdateInfo, uop: MicroOp): Bool = { return maskMatch(brupdate.b1.mispredict_mask, uop.br_mask) } def apply(brupdate: BrUpdateInfo, uop_mask: UInt): Bool = { return maskMatch(brupdate.b1.mispredict_mask, uop_mask) } } /** * Object to return new MicroOp with a new BR mask given a MicroOp mask * and old BR mask. */ object GetNewUopAndBrMask { def apply(uop: MicroOp, brupdate: BrUpdateInfo) (implicit p: Parameters): MicroOp = { val newuop = WireInit(uop) newuop.br_mask := uop.br_mask & ~brupdate.b1.resolve_mask newuop } } /** * Object to return a BR mask given a MicroOp mask and old BR mask. */ object GetNewBrMask { def apply(brupdate: BrUpdateInfo, uop: MicroOp): UInt = { return uop.br_mask & ~brupdate.b1.resolve_mask } def apply(brupdate: BrUpdateInfo, br_mask: UInt): UInt = { return br_mask & ~brupdate.b1.resolve_mask } } object UpdateBrMask { def apply(brupdate: BrUpdateInfo, uop: MicroOp): MicroOp = { val out = WireInit(uop) out.br_mask := GetNewBrMask(brupdate, uop) out } def apply[T <: boom.v3.common.HasBoomUOP](brupdate: BrUpdateInfo, bundle: T): T = { val out = WireInit(bundle) out.uop.br_mask := GetNewBrMask(brupdate, bundle.uop.br_mask) out } def apply[T <: boom.v3.common.HasBoomUOP](brupdate: BrUpdateInfo, bundle: Valid[T]): Valid[T] = { val out = WireInit(bundle) out.bits.uop.br_mask := GetNewBrMask(brupdate, bundle.bits.uop.br_mask) out.valid := bundle.valid && !IsKilledByBranch(brupdate, bundle.bits.uop.br_mask) out } } /** * Object to check if at least 1 bit matches in two masks */ object maskMatch { def apply(msk1: UInt, msk2: UInt): Bool = (msk1 & msk2) =/= 0.U } /** * Object to clear one bit in a mask given an index */ object clearMaskBit { def apply(msk: UInt, idx: UInt): UInt = (msk & ~(1.U << idx))(msk.getWidth-1, 0) } /** * Object to shift a register over by one bit and concat a new one */ object PerformShiftRegister { def apply(reg_val: UInt, new_bit: Bool): UInt = { reg_val := Cat(reg_val(reg_val.getWidth-1, 0).asUInt, new_bit.asUInt).asUInt reg_val } } /** * Object to shift a register over by one bit, wrapping the top bit around to the bottom * (XOR'ed with a new-bit), and evicting a bit at index HLEN. * This is used to simulate a longer HLEN-width shift register that is folded * down to a compressed CLEN. */ object PerformCircularShiftRegister { def apply(csr: UInt, new_bit: Bool, evict_bit: Bool, hlen: Int, clen: Int): UInt = { val carry = csr(clen-1) val newval = Cat(csr, new_bit ^ carry) ^ (evict_bit << (hlen % clen).U) newval } } /** * Object to increment an input value, wrapping it if * necessary. */ object WrapAdd { // "n" is the number of increments, so we wrap at n-1. def apply(value: UInt, amt: UInt, n: Int): UInt = { if (isPow2(n)) { (value + amt)(log2Ceil(n)-1,0) } else { val sum = Cat(0.U(1.W), value) + Cat(0.U(1.W), amt) Mux(sum >= n.U, sum - n.U, sum) } } } /** * Object to decrement an input value, wrapping it if * necessary. */ object WrapSub { // "n" is the number of increments, so we wrap to n-1. def apply(value: UInt, amt: Int, n: Int): UInt = { if (isPow2(n)) { (value - amt.U)(log2Ceil(n)-1,0) } else { val v = Cat(0.U(1.W), value) val b = Cat(0.U(1.W), amt.U) Mux(value >= amt.U, value - amt.U, n.U - amt.U + value) } } } /** * Object to increment an input value, wrapping it if * necessary. */ object WrapInc { // "n" is the number of increments, so we wrap at n-1. def apply(value: UInt, n: Int): UInt = { if (isPow2(n)) { (value + 1.U)(log2Ceil(n)-1,0) } else { val wrap = (value === (n-1).U) Mux(wrap, 0.U, value + 1.U) } } } /** * Object to decrement an input value, wrapping it if * necessary. */ object WrapDec { // "n" is the number of increments, so we wrap at n-1. def apply(value: UInt, n: Int): UInt = { if (isPow2(n)) { (value - 1.U)(log2Ceil(n)-1,0) } else { val wrap = (value === 0.U) Mux(wrap, (n-1).U, value - 1.U) } } } /** * Object to mask off lower bits of a PC to align to a "b" * Byte boundary. */ object AlignPCToBoundary { def apply(pc: UInt, b: Int): UInt = { // Invert for scenario where pc longer than b // (which would clear all bits above size(b)). ~(~pc | (b-1).U) } } /** * Object to rotate a signal left by one */ object RotateL1 { def apply(signal: UInt): UInt = { val w = signal.getWidth val out = Cat(signal(w-2,0), signal(w-1)) return out } } /** * Object to sext a value to a particular length. */ object Sext { def apply(x: UInt, length: Int): UInt = { if (x.getWidth == length) return x else return Cat(Fill(length-x.getWidth, x(x.getWidth-1)), x) } } /** * Object to translate from BOOM's special "packed immediate" to a 32b signed immediate * Asking for U-type gives it shifted up 12 bits. */ object ImmGen { import boom.v3.common.{LONGEST_IMM_SZ, IS_B, IS_I, IS_J, IS_S, IS_U} def apply(ip: UInt, isel: UInt): SInt = { val sign = ip(LONGEST_IMM_SZ-1).asSInt val i30_20 = Mux(isel === IS_U, ip(18,8).asSInt, sign) val i19_12 = Mux(isel === IS_U || isel === IS_J, ip(7,0).asSInt, sign) val i11 = Mux(isel === IS_U, 0.S, Mux(isel === IS_J || isel === IS_B, ip(8).asSInt, sign)) val i10_5 = Mux(isel === IS_U, 0.S, ip(18,14).asSInt) val i4_1 = Mux(isel === IS_U, 0.S, ip(13,9).asSInt) val i0 = Mux(isel === IS_S || isel === IS_I, ip(8).asSInt, 0.S) return Cat(sign, i30_20, i19_12, i11, i10_5, i4_1, i0).asSInt } } /** * Object to get the FP rounding mode out of a packed immediate. */ object ImmGenRm { def apply(ip: UInt): UInt = { return ip(2,0) } } /** * Object to get the FP function fype from a packed immediate. * Note: only works if !(IS_B or IS_S) */ object ImmGenTyp { def apply(ip: UInt): UInt = { return ip(9,8) } } /** * Object to see if an instruction is a JALR. */ object DebugIsJALR { def apply(inst: UInt): Bool = { // TODO Chisel not sure why this won't compile // val is_jalr = rocket.DecodeLogic(inst, List(Bool(false)), // Array( // JALR -> Bool(true))) inst(6,0) === "b1100111".U } } /** * Object to take an instruction and output its branch or jal target. Only used * for a debug assert (no where else would we jump straight from instruction * bits to a target). */ object DebugGetBJImm { def apply(inst: UInt): UInt = { // TODO Chisel not sure why this won't compile //val csignals = //rocket.DecodeLogic(inst, // List(Bool(false), Bool(false)), // Array( // BEQ -> List(Bool(true ), Bool(false)), // BNE -> List(Bool(true ), Bool(false)), // BGE -> List(Bool(true ), Bool(false)), // BGEU -> List(Bool(true ), Bool(false)), // BLT -> List(Bool(true ), Bool(false)), // BLTU -> List(Bool(true ), Bool(false)) // )) //val is_br :: nothing :: Nil = csignals val is_br = (inst(6,0) === "b1100011".U) val br_targ = Cat(Fill(12, inst(31)), Fill(8,inst(31)), inst(7), inst(30,25), inst(11,8), 0.U(1.W)) val jal_targ= Cat(Fill(12, inst(31)), inst(19,12), inst(20), inst(30,25), inst(24,21), 0.U(1.W)) Mux(is_br, br_targ, jal_targ) } } /** * Object to return the lowest bit position after the head. */ object AgePriorityEncoder { def apply(in: Seq[Bool], head: UInt): UInt = { val n = in.size val width = log2Ceil(in.size) val n_padded = 1 << width val temp_vec = (0 until n_padded).map(i => if (i < n) in(i) && i.U >= head else false.B) ++ in val idx = PriorityEncoder(temp_vec) idx(width-1, 0) //discard msb } } /** * Object to determine whether queue * index i0 is older than index i1. */ object IsOlder { def apply(i0: UInt, i1: UInt, head: UInt) = ((i0 < i1) ^ (i0 < head) ^ (i1 < head)) } /** * Set all bits at or below the highest order '1'. */ object MaskLower { def apply(in: UInt) = { val n = in.getWidth (0 until n).map(i => in >> i.U).reduce(_|_) } } /** * Set all bits at or above the lowest order '1'. */ object MaskUpper { def apply(in: UInt) = { val n = in.getWidth (0 until n).map(i => (in << i.U)(n-1,0)).reduce(_|_) } } /** * Transpose a matrix of Chisel Vecs. */ object Transpose { def apply[T <: chisel3.Data](in: Vec[Vec[T]]) = { val n = in(0).size VecInit((0 until n).map(i => VecInit(in.map(row => row(i))))) } } /** * N-wide one-hot priority encoder. */ object SelectFirstN { def apply(in: UInt, n: Int) = { val sels = Wire(Vec(n, UInt(in.getWidth.W))) var mask = in for (i <- 0 until n) { sels(i) := PriorityEncoderOH(mask) mask = mask & ~sels(i) } sels } } /** * Connect the first k of n valid input interfaces to k output interfaces. */ class Compactor[T <: chisel3.Data](n: Int, k: Int, gen: T) extends Module { require(n >= k) val io = IO(new Bundle { val in = Vec(n, Flipped(DecoupledIO(gen))) val out = Vec(k, DecoupledIO(gen)) }) if (n == k) { io.out <> io.in } else { val counts = io.in.map(_.valid).scanLeft(1.U(k.W)) ((c,e) => Mux(e, (c<<1)(k-1,0), c)) val sels = Transpose(VecInit(counts map (c => VecInit(c.asBools)))) map (col => (col zip io.in.map(_.valid)) map {case (c,v) => c && v}) val in_readys = counts map (row => (row.asBools zip io.out.map(_.ready)) map {case (c,r) => c && r} reduce (_||_)) val out_valids = sels map (col => col.reduce(_||_)) val out_data = sels map (s => Mux1H(s, io.in.map(_.bits))) in_readys zip io.in foreach {case (r,i) => i.ready := r} out_valids zip out_data zip io.out foreach {case ((v,d),o) => o.valid := v; o.bits := d} } } /** * Create a queue that can be killed with a branch kill signal. * Assumption: enq.valid only high if not killed by branch (so don't check IsKilled on io.enq). */ class BranchKillableQueue[T <: boom.v3.common.HasBoomUOP](gen: T, entries: Int, flush_fn: boom.v3.common.MicroOp => Bool = u => true.B, flow: Boolean = true) (implicit p: org.chipsalliance.cde.config.Parameters) extends boom.v3.common.BoomModule()(p) with boom.v3.common.HasBoomCoreParameters { val io = IO(new Bundle { val enq = Flipped(Decoupled(gen)) val deq = Decoupled(gen) val brupdate = Input(new BrUpdateInfo()) val flush = Input(Bool()) val empty = Output(Bool()) val count = Output(UInt(log2Ceil(entries).W)) }) val ram = Mem(entries, gen) val valids = RegInit(VecInit(Seq.fill(entries) {false.B})) val uops = Reg(Vec(entries, new MicroOp)) val enq_ptr = Counter(entries) val deq_ptr = Counter(entries) val maybe_full = RegInit(false.B) val ptr_match = enq_ptr.value === deq_ptr.value io.empty := ptr_match && !maybe_full val full = ptr_match && maybe_full val do_enq = WireInit(io.enq.fire) val do_deq = WireInit((io.deq.ready || !valids(deq_ptr.value)) && !io.empty) for (i <- 0 until entries) { val mask = uops(i).br_mask val uop = uops(i) valids(i) := valids(i) && !IsKilledByBranch(io.brupdate, mask) && !(io.flush && flush_fn(uop)) when (valids(i)) { uops(i).br_mask := GetNewBrMask(io.brupdate, mask) } } when (do_enq) { ram(enq_ptr.value) := io.enq.bits valids(enq_ptr.value) := true.B //!IsKilledByBranch(io.brupdate, io.enq.bits.uop) uops(enq_ptr.value) := io.enq.bits.uop uops(enq_ptr.value).br_mask := GetNewBrMask(io.brupdate, io.enq.bits.uop) enq_ptr.inc() } when (do_deq) { valids(deq_ptr.value) := false.B deq_ptr.inc() } when (do_enq =/= do_deq) { maybe_full := do_enq } io.enq.ready := !full val out = Wire(gen) out := ram(deq_ptr.value) out.uop := uops(deq_ptr.value) io.deq.valid := !io.empty && valids(deq_ptr.value) && !IsKilledByBranch(io.brupdate, out.uop) && !(io.flush && flush_fn(out.uop)) io.deq.bits := out io.deq.bits.uop.br_mask := GetNewBrMask(io.brupdate, out.uop) // For flow queue behavior. if (flow) { when (io.empty) { io.deq.valid := io.enq.valid //&& !IsKilledByBranch(io.brupdate, io.enq.bits.uop) io.deq.bits := io.enq.bits io.deq.bits.uop.br_mask := GetNewBrMask(io.brupdate, io.enq.bits.uop) do_deq := false.B when (io.deq.ready) { do_enq := false.B } } } private val ptr_diff = enq_ptr.value - deq_ptr.value if (isPow2(entries)) { io.count := Cat(maybe_full && ptr_match, ptr_diff) } else { io.count := Mux(ptr_match, Mux(maybe_full, entries.asUInt, 0.U), Mux(deq_ptr.value > enq_ptr.value, entries.asUInt + ptr_diff, ptr_diff)) } } // ------------------------------------------ // Printf helper functions // ------------------------------------------ object BoolToChar { /** * Take in a Chisel Bool and convert it into a Str * based on the Chars given * * @param c_bool Chisel Bool * @param trueChar Scala Char if bool is true * @param falseChar Scala Char if bool is false * @return UInt ASCII Char for "trueChar" or "falseChar" */ def apply(c_bool: Bool, trueChar: Char, falseChar: Char = '-'): UInt = { Mux(c_bool, Str(trueChar), Str(falseChar)) } } object CfiTypeToChars { /** * Get a Vec of Strs that can be used for printing * * @param cfi_type specific cfi type * @return Vec of Strs (must be indexed to get specific char) */ def apply(cfi_type: UInt) = { val strings = Seq("----", "BR ", "JAL ", "JALR") val multiVec = VecInit(for(string <- strings) yield { VecInit(for (c <- string) yield { Str(c) }) }) multiVec(cfi_type) } } object BpdTypeToChars { /** * Get a Vec of Strs that can be used for printing * * @param bpd_type specific bpd type * @return Vec of Strs (must be indexed to get specific char) */ def apply(bpd_type: UInt) = { val strings = Seq("BR ", "JUMP", "----", "RET ", "----", "CALL", "----", "----") val multiVec = VecInit(for(string <- strings) yield { VecInit(for (c <- string) yield { Str(c) }) }) multiVec(bpd_type) } } object RobTypeToChars { /** * Get a Vec of Strs that can be used for printing * * @param rob_type specific rob type * @return Vec of Strs (must be indexed to get specific char) */ def apply(rob_type: UInt) = { val strings = Seq("RST", "NML", "RBK", " WT") val multiVec = VecInit(for(string <- strings) yield { VecInit(for (c <- string) yield { Str(c) }) }) multiVec(rob_type) } } object XRegToChars { /** * Get a Vec of Strs that can be used for printing * * @param xreg specific register number * @return Vec of Strs (must be indexed to get specific char) */ def apply(xreg: UInt) = { val strings = Seq(" x0", " ra", " sp", " gp", " tp", " t0", " t1", " t2", " s0", " s1", " a0", " a1", " a2", " a3", " a4", " a5", " a6", " a7", " s2", " s3", " s4", " s5", " s6", " s7", " s8", " s9", "s10", "s11", " t3", " t4", " t5", " t6") val multiVec = VecInit(for(string <- strings) yield { VecInit(for (c <- string) yield { Str(c) }) }) multiVec(xreg) } } object FPRegToChars { /** * Get a Vec of Strs that can be used for printing * * @param fpreg specific register number * @return Vec of Strs (must be indexed to get specific char) */ def apply(fpreg: UInt) = { val strings = Seq(" ft0", " ft1", " ft2", " ft3", " ft4", " ft5", " ft6", " ft7", " fs0", " fs1", " fa0", " fa1", " fa2", " fa3", " fa4", " fa5", " fa6", " fa7", " fs2", " fs3", " fs4", " fs5", " fs6", " fs7", " fs8", " fs9", "fs10", "fs11", " ft8", " ft9", "ft10", "ft11") val multiVec = VecInit(for(string <- strings) yield { VecInit(for (c <- string) yield { Str(c) }) }) multiVec(fpreg) } } object BoomCoreStringPrefix { /** * Add prefix to BOOM strings (currently only adds the hartId) * * @param strs list of strings * @return String combining the list with the prefix per line */ def apply(strs: String*)(implicit p: Parameters) = { val prefix = "[C" + s"${p(TileKey).tileId}" + "] " strs.map(str => prefix + str + "\n").mkString("") } } File consts.scala: //****************************************************************************** // Copyright (c) 2011 - 2018, The Regents of the University of California (Regents). // All Rights Reserved. See LICENSE and LICENSE.SiFive for license details. //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ // RISCV Processor Constants //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ package boom.v3.common.constants import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util.Str import freechips.rocketchip.rocket.RVCExpander /** * Mixin for issue queue types */ trait IQType { val IQT_SZ = 3 val IQT_INT = 1.U(IQT_SZ.W) val IQT_MEM = 2.U(IQT_SZ.W) val IQT_FP = 4.U(IQT_SZ.W) val IQT_MFP = 6.U(IQT_SZ.W) } /** * Mixin for scalar operation constants */ trait ScalarOpConstants { val X = BitPat("b?") val Y = BitPat("b1") val N = BitPat("b0") //************************************ // Extra Constants // Which branch predictor predicted us val BSRC_SZ = 2 val BSRC_1 = 0.U(BSRC_SZ.W) // 1-cycle branch pred val BSRC_2 = 1.U(BSRC_SZ.W) // 2-cycle branch pred val BSRC_3 = 2.U(BSRC_SZ.W) // 3-cycle branch pred val BSRC_C = 3.U(BSRC_SZ.W) // core branch resolution //************************************ // Control Signals // CFI types val CFI_SZ = 3 val CFI_X = 0.U(CFI_SZ.W) // Not a CFI instruction val CFI_BR = 1.U(CFI_SZ.W) // Branch val CFI_JAL = 2.U(CFI_SZ.W) // JAL val CFI_JALR = 3.U(CFI_SZ.W) // JALR // PC Select Signal val PC_PLUS4 = 0.U(2.W) // PC + 4 val PC_BRJMP = 1.U(2.W) // brjmp_target val PC_JALR = 2.U(2.W) // jump_reg_target // Branch Type val BR_N = 0.U(4.W) // Next val BR_NE = 1.U(4.W) // Branch on NotEqual val BR_EQ = 2.U(4.W) // Branch on Equal val BR_GE = 3.U(4.W) // Branch on Greater/Equal val BR_GEU = 4.U(4.W) // Branch on Greater/Equal Unsigned val BR_LT = 5.U(4.W) // Branch on Less Than val BR_LTU = 6.U(4.W) // Branch on Less Than Unsigned val BR_J = 7.U(4.W) // Jump val BR_JR = 8.U(4.W) // Jump Register // RS1 Operand Select Signal val OP1_RS1 = 0.U(2.W) // Register Source #1 val OP1_ZERO= 1.U(2.W) val OP1_PC = 2.U(2.W) val OP1_X = BitPat("b??") // RS2 Operand Select Signal val OP2_RS2 = 0.U(3.W) // Register Source #2 val OP2_IMM = 1.U(3.W) // immediate val OP2_ZERO= 2.U(3.W) // constant 0 val OP2_NEXT= 3.U(3.W) // constant 2/4 (for PC+2/4) val OP2_IMMC= 4.U(3.W) // for CSR imm found in RS1 val OP2_X = BitPat("b???") // Register File Write Enable Signal val REN_0 = false.B val REN_1 = true.B // Is 32b Word or 64b Doubldword? val SZ_DW = 1 val DW_X = true.B // Bool(xLen==64) val DW_32 = false.B val DW_64 = true.B val DW_XPR = true.B // Bool(xLen==64) // Memory Enable Signal val MEN_0 = false.B val MEN_1 = true.B val MEN_X = false.B // Immediate Extend Select val IS_I = 0.U(3.W) // I-Type (LD,ALU) val IS_S = 1.U(3.W) // S-Type (ST) val IS_B = 2.U(3.W) // SB-Type (BR) val IS_U = 3.U(3.W) // U-Type (LUI/AUIPC) val IS_J = 4.U(3.W) // UJ-Type (J/JAL) val IS_X = BitPat("b???") // Decode Stage Control Signals val RT_FIX = 0.U(2.W) val RT_FLT = 1.U(2.W) val RT_PAS = 3.U(2.W) // pass-through (prs1 := lrs1, etc) val RT_X = 2.U(2.W) // not-a-register (but shouldn't get a busy-bit, etc.) // TODO rename RT_NAR // Micro-op opcodes // TODO change micro-op opcodes into using enum val UOPC_SZ = 7 val uopX = BitPat.dontCare(UOPC_SZ) val uopNOP = 0.U(UOPC_SZ.W) val uopLD = 1.U(UOPC_SZ.W) val uopSTA = 2.U(UOPC_SZ.W) // store address generation val uopSTD = 3.U(UOPC_SZ.W) // store data generation val uopLUI = 4.U(UOPC_SZ.W) val uopADDI = 5.U(UOPC_SZ.W) val uopANDI = 6.U(UOPC_SZ.W) val uopORI = 7.U(UOPC_SZ.W) val uopXORI = 8.U(UOPC_SZ.W) val uopSLTI = 9.U(UOPC_SZ.W) val uopSLTIU= 10.U(UOPC_SZ.W) val uopSLLI = 11.U(UOPC_SZ.W) val uopSRAI = 12.U(UOPC_SZ.W) val uopSRLI = 13.U(UOPC_SZ.W) val uopSLL = 14.U(UOPC_SZ.W) val uopADD = 15.U(UOPC_SZ.W) val uopSUB = 16.U(UOPC_SZ.W) val uopSLT = 17.U(UOPC_SZ.W) val uopSLTU = 18.U(UOPC_SZ.W) val uopAND = 19.U(UOPC_SZ.W) val uopOR = 20.U(UOPC_SZ.W) val uopXOR = 21.U(UOPC_SZ.W) val uopSRA = 22.U(UOPC_SZ.W) val uopSRL = 23.U(UOPC_SZ.W) val uopBEQ = 24.U(UOPC_SZ.W) val uopBNE = 25.U(UOPC_SZ.W) val uopBGE = 26.U(UOPC_SZ.W) val uopBGEU = 27.U(UOPC_SZ.W) val uopBLT = 28.U(UOPC_SZ.W) val uopBLTU = 29.U(UOPC_SZ.W) val uopCSRRW= 30.U(UOPC_SZ.W) val uopCSRRS= 31.U(UOPC_SZ.W) val uopCSRRC= 32.U(UOPC_SZ.W) val uopCSRRWI=33.U(UOPC_SZ.W) val uopCSRRSI=34.U(UOPC_SZ.W) val uopCSRRCI=35.U(UOPC_SZ.W) val uopJ = 36.U(UOPC_SZ.W) val uopJAL = 37.U(UOPC_SZ.W) val uopJALR = 38.U(UOPC_SZ.W) val uopAUIPC= 39.U(UOPC_SZ.W) //val uopSRET = 40.U(UOPC_SZ.W) val uopCFLSH= 41.U(UOPC_SZ.W) val uopFENCE= 42.U(UOPC_SZ.W) val uopADDIW= 43.U(UOPC_SZ.W) val uopADDW = 44.U(UOPC_SZ.W) val uopSUBW = 45.U(UOPC_SZ.W) val uopSLLIW= 46.U(UOPC_SZ.W) val uopSLLW = 47.U(UOPC_SZ.W) val uopSRAIW= 48.U(UOPC_SZ.W) val uopSRAW = 49.U(UOPC_SZ.W) val uopSRLIW= 50.U(UOPC_SZ.W) val uopSRLW = 51.U(UOPC_SZ.W) val uopMUL = 52.U(UOPC_SZ.W) val uopMULH = 53.U(UOPC_SZ.W) val uopMULHU= 54.U(UOPC_SZ.W) val uopMULHSU=55.U(UOPC_SZ.W) val uopMULW = 56.U(UOPC_SZ.W) val uopDIV = 57.U(UOPC_SZ.W) val uopDIVU = 58.U(UOPC_SZ.W) val uopREM = 59.U(UOPC_SZ.W) val uopREMU = 60.U(UOPC_SZ.W) val uopDIVW = 61.U(UOPC_SZ.W) val uopDIVUW= 62.U(UOPC_SZ.W) val uopREMW = 63.U(UOPC_SZ.W) val uopREMUW= 64.U(UOPC_SZ.W) val uopFENCEI = 65.U(UOPC_SZ.W) // = 66.U(UOPC_SZ.W) val uopAMO_AG = 67.U(UOPC_SZ.W) // AMO-address gen (use normal STD for datagen) val uopFMV_W_X = 68.U(UOPC_SZ.W) val uopFMV_D_X = 69.U(UOPC_SZ.W) val uopFMV_X_W = 70.U(UOPC_SZ.W) val uopFMV_X_D = 71.U(UOPC_SZ.W) val uopFSGNJ_S = 72.U(UOPC_SZ.W) val uopFSGNJ_D = 73.U(UOPC_SZ.W) val uopFCVT_S_D = 74.U(UOPC_SZ.W) val uopFCVT_D_S = 75.U(UOPC_SZ.W) val uopFCVT_S_X = 76.U(UOPC_SZ.W) val uopFCVT_D_X = 77.U(UOPC_SZ.W) val uopFCVT_X_S = 78.U(UOPC_SZ.W) val uopFCVT_X_D = 79.U(UOPC_SZ.W) val uopCMPR_S = 80.U(UOPC_SZ.W) val uopCMPR_D = 81.U(UOPC_SZ.W) val uopFCLASS_S = 82.U(UOPC_SZ.W) val uopFCLASS_D = 83.U(UOPC_SZ.W) val uopFMINMAX_S = 84.U(UOPC_SZ.W) val uopFMINMAX_D = 85.U(UOPC_SZ.W) // = 86.U(UOPC_SZ.W) val uopFADD_S = 87.U(UOPC_SZ.W) val uopFSUB_S = 88.U(UOPC_SZ.W) val uopFMUL_S = 89.U(UOPC_SZ.W) val uopFADD_D = 90.U(UOPC_SZ.W) val uopFSUB_D = 91.U(UOPC_SZ.W) val uopFMUL_D = 92.U(UOPC_SZ.W) val uopFMADD_S = 93.U(UOPC_SZ.W) val uopFMSUB_S = 94.U(UOPC_SZ.W) val uopFNMADD_S = 95.U(UOPC_SZ.W) val uopFNMSUB_S = 96.U(UOPC_SZ.W) val uopFMADD_D = 97.U(UOPC_SZ.W) val uopFMSUB_D = 98.U(UOPC_SZ.W) val uopFNMADD_D = 99.U(UOPC_SZ.W) val uopFNMSUB_D = 100.U(UOPC_SZ.W) val uopFDIV_S = 101.U(UOPC_SZ.W) val uopFDIV_D = 102.U(UOPC_SZ.W) val uopFSQRT_S = 103.U(UOPC_SZ.W) val uopFSQRT_D = 104.U(UOPC_SZ.W) val uopWFI = 105.U(UOPC_SZ.W) // pass uop down the CSR pipeline val uopERET = 106.U(UOPC_SZ.W) // pass uop down the CSR pipeline, also is ERET val uopSFENCE = 107.U(UOPC_SZ.W) val uopROCC = 108.U(UOPC_SZ.W) val uopMOV = 109.U(UOPC_SZ.W) // conditional mov decoded from "add rd, x0, rs2" // The Bubble Instruction (Machine generated NOP) // Insert (XOR x0,x0,x0) which is different from software compiler // generated NOPs which are (ADDI x0, x0, 0). // Reasoning for this is to let visualizers and stat-trackers differentiate // between software NOPs and machine-generated Bubbles in the pipeline. val BUBBLE = (0x4033).U(32.W) def NullMicroOp()(implicit p: Parameters): boom.v3.common.MicroOp = { val uop = Wire(new boom.v3.common.MicroOp) uop := DontCare // Overridden in the following lines uop.uopc := uopNOP // maybe not required, but helps on asserts that try to catch spurious behavior uop.bypassable := false.B uop.fp_val := false.B uop.uses_stq := false.B uop.uses_ldq := false.B uop.pdst := 0.U uop.dst_rtype := RT_X val cs = Wire(new boom.v3.common.CtrlSignals()) cs := DontCare // Overridden in the following lines cs.br_type := BR_N cs.csr_cmd := freechips.rocketchip.rocket.CSR.N cs.is_load := false.B cs.is_sta := false.B cs.is_std := false.B uop.ctrl := cs uop } } /** * Mixin for RISCV constants */ trait RISCVConstants { // abstract out instruction decode magic numbers val RD_MSB = 11 val RD_LSB = 7 val RS1_MSB = 19 val RS1_LSB = 15 val RS2_MSB = 24 val RS2_LSB = 20 val RS3_MSB = 31 val RS3_LSB = 27 val CSR_ADDR_MSB = 31 val CSR_ADDR_LSB = 20 val CSR_ADDR_SZ = 12 // location of the fifth bit in the shamt (for checking for illegal ops for SRAIW,etc.) val SHAMT_5_BIT = 25 val LONGEST_IMM_SZ = 20 val X0 = 0.U val RA = 1.U // return address register // memory consistency model // The C/C++ atomics MCM requires that two loads to the same address maintain program order. // The Cortex A9 does NOT enforce load/load ordering (which leads to buggy behavior). val MCM_ORDER_DEPENDENT_LOADS = true val jal_opc = (0x6f).U val jalr_opc = (0x67).U def GetUop(inst: UInt): UInt = inst(6,0) def GetRd (inst: UInt): UInt = inst(RD_MSB,RD_LSB) def GetRs1(inst: UInt): UInt = inst(RS1_MSB,RS1_LSB) def ExpandRVC(inst: UInt)(implicit p: Parameters): UInt = { val rvc_exp = Module(new RVCExpander) rvc_exp.io.in := inst Mux(rvc_exp.io.rvc, rvc_exp.io.out.bits, inst) } // Note: Accepts only EXPANDED rvc instructions def ComputeBranchTarget(pc: UInt, inst: UInt, xlen: Int)(implicit p: Parameters): UInt = { val b_imm32 = Cat(Fill(20,inst(31)), inst(7), inst(30,25), inst(11,8), 0.U(1.W)) ((pc.asSInt + b_imm32.asSInt).asSInt & (-2).S).asUInt } // Note: Accepts only EXPANDED rvc instructions def ComputeJALTarget(pc: UInt, inst: UInt, xlen: Int)(implicit p: Parameters): UInt = { val j_imm32 = Cat(Fill(12,inst(31)), inst(19,12), inst(20), inst(30,25), inst(24,21), 0.U(1.W)) ((pc.asSInt + j_imm32.asSInt).asSInt & (-2).S).asUInt } // Note: Accepts only EXPANDED rvc instructions def GetCfiType(inst: UInt)(implicit p: Parameters): UInt = { val bdecode = Module(new boom.v3.exu.BranchDecode) bdecode.io.inst := inst bdecode.io.pc := 0.U bdecode.io.out.cfi_type } } /** * Mixin for exception cause constants */ trait ExcCauseConstants { // a memory disambigious misspeculation occurred val MINI_EXCEPTION_MEM_ORDERING = 16.U val MINI_EXCEPTION_CSR_REPLAY = 17.U require (!freechips.rocketchip.rocket.Causes.all.contains(16)) require (!freechips.rocketchip.rocket.Causes.all.contains(17)) } File issue-slot.scala: //****************************************************************************** // Copyright (c) 2015 - 2018, The Regents of the University of California (Regents). // All Rights Reserved. See LICENSE and LICENSE.SiFive for license details. //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ // RISCV Processor Issue Slot Logic //-------------------------------------------------------------------------- //------------------------------------------------------------------------------ // // Note: stores (and AMOs) are "broken down" into 2 uops, but stored within a single issue-slot. // TODO XXX make a separate issueSlot for MemoryIssueSlots, and only they break apart stores. // TODO Disable ldspec for FP queue. package boom.v3.exu import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.Parameters import boom.v3.common._ import boom.v3.util._ import FUConstants._ /** * IO bundle to interact with Issue slot * * @param numWakeupPorts number of wakeup ports for the slot */ class IssueSlotIO(val numWakeupPorts: Int)(implicit p: Parameters) extends BoomBundle { val valid = Output(Bool()) val will_be_valid = Output(Bool()) // TODO code review, do we need this signal so explicitely? val request = Output(Bool()) val request_hp = Output(Bool()) val grant = Input(Bool()) val brupdate = Input(new BrUpdateInfo()) val kill = Input(Bool()) // pipeline flush val clear = Input(Bool()) // entry being moved elsewhere (not mutually exclusive with grant) val ldspec_miss = Input(Bool()) // Previous cycle's speculative load wakeup was mispredicted. val wakeup_ports = Flipped(Vec(numWakeupPorts, Valid(new IqWakeup(maxPregSz)))) val pred_wakeup_port = Flipped(Valid(UInt(log2Ceil(ftqSz).W))) val spec_ld_wakeup = Flipped(Vec(memWidth, Valid(UInt(width=maxPregSz.W)))) val in_uop = Flipped(Valid(new MicroOp())) // if valid, this WILL overwrite an entry! val out_uop = Output(new MicroOp()) // the updated slot uop; will be shifted upwards in a collasping queue. val uop = Output(new MicroOp()) // the current Slot's uop. Sent down the pipeline when issued. val debug = { val result = new Bundle { val p1 = Bool() val p2 = Bool() val p3 = Bool() val ppred = Bool() val state = UInt(width=2.W) } Output(result) } } /** * Single issue slot. Holds a uop within the issue queue * * @param numWakeupPorts number of wakeup ports */ class IssueSlot(val numWakeupPorts: Int)(implicit p: Parameters) extends BoomModule with IssueUnitConstants { val io = IO(new IssueSlotIO(numWakeupPorts)) // slot invalid? // slot is valid, holding 1 uop // slot is valid, holds 2 uops (like a store) def is_invalid = state === s_invalid def is_valid = state =/= s_invalid val next_state = Wire(UInt()) // the next state of this slot (which might then get moved to a new slot) val next_uopc = Wire(UInt()) // the next uopc of this slot (which might then get moved to a new slot) val next_lrs1_rtype = Wire(UInt()) // the next reg type of this slot (which might then get moved to a new slot) val next_lrs2_rtype = Wire(UInt()) // the next reg type of this slot (which might then get moved to a new slot) val state = RegInit(s_invalid) val p1 = RegInit(false.B) val p2 = RegInit(false.B) val p3 = RegInit(false.B) val ppred = RegInit(false.B) // Poison if woken up by speculative load. // Poison lasts 1 cycle (as ldMiss will come on the next cycle). // SO if poisoned is true, set it to false! val p1_poisoned = RegInit(false.B) val p2_poisoned = RegInit(false.B) p1_poisoned := false.B p2_poisoned := false.B val next_p1_poisoned = Mux(io.in_uop.valid, io.in_uop.bits.iw_p1_poisoned, p1_poisoned) val next_p2_poisoned = Mux(io.in_uop.valid, io.in_uop.bits.iw_p2_poisoned, p2_poisoned) val slot_uop = RegInit(NullMicroOp) val next_uop = Mux(io.in_uop.valid, io.in_uop.bits, slot_uop) //----------------------------------------------------------------------------- // next slot state computation // compute the next state for THIS entry slot (in a collasping queue, the // current uop may get moved elsewhere, and a new uop can enter when (io.kill) { state := s_invalid } .elsewhen (io.in_uop.valid) { state := io.in_uop.bits.iw_state } .elsewhen (io.clear) { state := s_invalid } .otherwise { state := next_state } //----------------------------------------------------------------------------- // "update" state // compute the next state for the micro-op in this slot. This micro-op may // be moved elsewhere, so the "next_state" travels with it. // defaults next_state := state next_uopc := slot_uop.uopc next_lrs1_rtype := slot_uop.lrs1_rtype next_lrs2_rtype := slot_uop.lrs2_rtype when (io.kill) { next_state := s_invalid } .elsewhen ((io.grant && (state === s_valid_1)) || (io.grant && (state === s_valid_2) && p1 && p2 && ppred)) { // try to issue this uop. when (!(io.ldspec_miss && (p1_poisoned || p2_poisoned))) { next_state := s_invalid } } .elsewhen (io.grant && (state === s_valid_2)) { when (!(io.ldspec_miss && (p1_poisoned || p2_poisoned))) { next_state := s_valid_1 when (p1) { slot_uop.uopc := uopSTD next_uopc := uopSTD slot_uop.lrs1_rtype := RT_X next_lrs1_rtype := RT_X } .otherwise { slot_uop.lrs2_rtype := RT_X next_lrs2_rtype := RT_X } } } when (io.in_uop.valid) { slot_uop := io.in_uop.bits assert (is_invalid || io.clear || io.kill, "trying to overwrite a valid issue slot.") } // Wakeup Compare Logic // these signals are the "next_p*" for the current slot's micro-op. // they are important for shifting the current slot_uop up to an other entry. val next_p1 = WireInit(p1) val next_p2 = WireInit(p2) val next_p3 = WireInit(p3) val next_ppred = WireInit(ppred) when (io.in_uop.valid) { p1 := !(io.in_uop.bits.prs1_busy) p2 := !(io.in_uop.bits.prs2_busy) p3 := !(io.in_uop.bits.prs3_busy) ppred := !(io.in_uop.bits.ppred_busy) } when (io.ldspec_miss && next_p1_poisoned) { assert(next_uop.prs1 =/= 0.U, "Poison bit can't be set for prs1=x0!") p1 := false.B } when (io.ldspec_miss && next_p2_poisoned) { assert(next_uop.prs2 =/= 0.U, "Poison bit can't be set for prs2=x0!") p2 := false.B } for (i <- 0 until numWakeupPorts) { when (io.wakeup_ports(i).valid && (io.wakeup_ports(i).bits.pdst === next_uop.prs1)) { p1 := true.B } when (io.wakeup_ports(i).valid && (io.wakeup_ports(i).bits.pdst === next_uop.prs2)) { p2 := true.B } when (io.wakeup_ports(i).valid && (io.wakeup_ports(i).bits.pdst === next_uop.prs3)) { p3 := true.B } } when (io.pred_wakeup_port.valid && io.pred_wakeup_port.bits === next_uop.ppred) { ppred := true.B } for (w <- 0 until memWidth) { assert (!(io.spec_ld_wakeup(w).valid && io.spec_ld_wakeup(w).bits === 0.U), "Loads to x0 should never speculatively wakeup other instructions") } // TODO disable if FP IQ. for (w <- 0 until memWidth) { when (io.spec_ld_wakeup(w).valid && io.spec_ld_wakeup(w).bits === next_uop.prs1 && next_uop.lrs1_rtype === RT_FIX) { p1 := true.B p1_poisoned := true.B assert (!next_p1_poisoned) } when (io.spec_ld_wakeup(w).valid && io.spec_ld_wakeup(w).bits === next_uop.prs2 && next_uop.lrs2_rtype === RT_FIX) { p2 := true.B p2_poisoned := true.B assert (!next_p2_poisoned) } } // Handle branch misspeculations val next_br_mask = GetNewBrMask(io.brupdate, slot_uop) // was this micro-op killed by a branch? if yes, we can't let it be valid if // we compact it into an other entry when (IsKilledByBranch(io.brupdate, slot_uop)) { next_state := s_invalid } when (!io.in_uop.valid) { slot_uop.br_mask := next_br_mask } //------------------------------------------------------------- // Request Logic io.request := is_valid && p1 && p2 && p3 && ppred && !io.kill val high_priority = slot_uop.is_br || slot_uop.is_jal || slot_uop.is_jalr io.request_hp := io.request && high_priority when (state === s_valid_1) { io.request := p1 && p2 && p3 && ppred && !io.kill } .elsewhen (state === s_valid_2) { io.request := (p1 || p2) && ppred && !io.kill } .otherwise { io.request := false.B } //assign outputs io.valid := is_valid io.uop := slot_uop io.uop.iw_p1_poisoned := p1_poisoned io.uop.iw_p2_poisoned := p2_poisoned // micro-op will vacate due to grant. val may_vacate = io.grant && ((state === s_valid_1) || (state === s_valid_2) && p1 && p2 && ppred) val squash_grant = io.ldspec_miss && (p1_poisoned || p2_poisoned) io.will_be_valid := is_valid && !(may_vacate && !squash_grant) io.out_uop := slot_uop io.out_uop.iw_state := next_state io.out_uop.uopc := next_uopc io.out_uop.lrs1_rtype := next_lrs1_rtype io.out_uop.lrs2_rtype := next_lrs2_rtype io.out_uop.br_mask := next_br_mask io.out_uop.prs1_busy := !p1 io.out_uop.prs2_busy := !p2 io.out_uop.prs3_busy := !p3 io.out_uop.ppred_busy := !ppred io.out_uop.iw_p1_poisoned := p1_poisoned io.out_uop.iw_p2_poisoned := p2_poisoned when (state === s_valid_2) { when (p1 && p2 && ppred) { ; // send out the entire instruction as one uop } .elsewhen (p1 && ppred) { io.uop.uopc := slot_uop.uopc io.uop.lrs2_rtype := RT_X } .elsewhen (p2 && ppred) { io.uop.uopc := uopSTD io.uop.lrs1_rtype := RT_X } } // debug outputs io.debug.p1 := p1 io.debug.p2 := p2 io.debug.p3 := p3 io.debug.ppred := ppred io.debug.state := state }
module IssueSlot_134( // @[issue-slot.scala:69:7] input clock, // @[issue-slot.scala:69:7] input reset, // @[issue-slot.scala:69:7] output io_valid, // @[issue-slot.scala:73:14] output io_will_be_valid, // @[issue-slot.scala:73:14] output io_request, // @[issue-slot.scala:73:14] output io_request_hp, // @[issue-slot.scala:73:14] input io_grant, // @[issue-slot.scala:73:14] input [15:0] io_brupdate_b1_resolve_mask, // @[issue-slot.scala:73:14] input [15:0] io_brupdate_b1_mispredict_mask, // @[issue-slot.scala:73:14] input [6:0] io_brupdate_b2_uop_uopc, // @[issue-slot.scala:73:14] input [31:0] io_brupdate_b2_uop_inst, // @[issue-slot.scala:73:14] input [31:0] io_brupdate_b2_uop_debug_inst, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_is_rvc, // @[issue-slot.scala:73:14] input [39:0] io_brupdate_b2_uop_debug_pc, // @[issue-slot.scala:73:14] input [2:0] io_brupdate_b2_uop_iq_type, // @[issue-slot.scala:73:14] input [9:0] io_brupdate_b2_uop_fu_code, // @[issue-slot.scala:73:14] input [3:0] io_brupdate_b2_uop_ctrl_br_type, // @[issue-slot.scala:73:14] input [1:0] io_brupdate_b2_uop_ctrl_op1_sel, // @[issue-slot.scala:73:14] input [2:0] io_brupdate_b2_uop_ctrl_op2_sel, // @[issue-slot.scala:73:14] input [2:0] io_brupdate_b2_uop_ctrl_imm_sel, // @[issue-slot.scala:73:14] input [4:0] io_brupdate_b2_uop_ctrl_op_fcn, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_ctrl_fcn_dw, // @[issue-slot.scala:73:14] input [2:0] io_brupdate_b2_uop_ctrl_csr_cmd, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_ctrl_is_load, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_ctrl_is_sta, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_ctrl_is_std, // @[issue-slot.scala:73:14] input [1:0] io_brupdate_b2_uop_iw_state, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_iw_p1_poisoned, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_iw_p2_poisoned, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_is_br, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_is_jalr, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_is_jal, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_is_sfb, // @[issue-slot.scala:73:14] input [15:0] io_brupdate_b2_uop_br_mask, // @[issue-slot.scala:73:14] input [3:0] io_brupdate_b2_uop_br_tag, // @[issue-slot.scala:73:14] input [4:0] io_brupdate_b2_uop_ftq_idx, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_edge_inst, // @[issue-slot.scala:73:14] input [5:0] io_brupdate_b2_uop_pc_lob, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_taken, // @[issue-slot.scala:73:14] input [19:0] io_brupdate_b2_uop_imm_packed, // @[issue-slot.scala:73:14] input [11:0] io_brupdate_b2_uop_csr_addr, // @[issue-slot.scala:73:14] input [6:0] io_brupdate_b2_uop_rob_idx, // @[issue-slot.scala:73:14] input [4:0] io_brupdate_b2_uop_ldq_idx, // @[issue-slot.scala:73:14] input [4:0] io_brupdate_b2_uop_stq_idx, // @[issue-slot.scala:73:14] input [1:0] io_brupdate_b2_uop_rxq_idx, // @[issue-slot.scala:73:14] input [6:0] io_brupdate_b2_uop_pdst, // @[issue-slot.scala:73:14] input [6:0] io_brupdate_b2_uop_prs1, // @[issue-slot.scala:73:14] input [6:0] io_brupdate_b2_uop_prs2, // @[issue-slot.scala:73:14] input [6:0] io_brupdate_b2_uop_prs3, // @[issue-slot.scala:73:14] input [4:0] io_brupdate_b2_uop_ppred, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_prs1_busy, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_prs2_busy, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_prs3_busy, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_ppred_busy, // @[issue-slot.scala:73:14] input [6:0] io_brupdate_b2_uop_stale_pdst, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_exception, // @[issue-slot.scala:73:14] input [63:0] io_brupdate_b2_uop_exc_cause, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_bypassable, // @[issue-slot.scala:73:14] input [4:0] io_brupdate_b2_uop_mem_cmd, // @[issue-slot.scala:73:14] input [1:0] io_brupdate_b2_uop_mem_size, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_mem_signed, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_is_fence, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_is_fencei, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_is_amo, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_uses_ldq, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_uses_stq, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_is_sys_pc2epc, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_is_unique, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_flush_on_commit, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_ldst_is_rs1, // @[issue-slot.scala:73:14] input [5:0] io_brupdate_b2_uop_ldst, // @[issue-slot.scala:73:14] input [5:0] io_brupdate_b2_uop_lrs1, // @[issue-slot.scala:73:14] input [5:0] io_brupdate_b2_uop_lrs2, // @[issue-slot.scala:73:14] input [5:0] io_brupdate_b2_uop_lrs3, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_ldst_val, // @[issue-slot.scala:73:14] input [1:0] io_brupdate_b2_uop_dst_rtype, // @[issue-slot.scala:73:14] input [1:0] io_brupdate_b2_uop_lrs1_rtype, // @[issue-slot.scala:73:14] input [1:0] io_brupdate_b2_uop_lrs2_rtype, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_frs3_en, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_fp_val, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_fp_single, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_xcpt_pf_if, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_xcpt_ae_if, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_xcpt_ma_if, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_bp_debug_if, // @[issue-slot.scala:73:14] input io_brupdate_b2_uop_bp_xcpt_if, // @[issue-slot.scala:73:14] input [1:0] io_brupdate_b2_uop_debug_fsrc, // @[issue-slot.scala:73:14] input [1:0] io_brupdate_b2_uop_debug_tsrc, // @[issue-slot.scala:73:14] input io_brupdate_b2_valid, // @[issue-slot.scala:73:14] input io_brupdate_b2_mispredict, // @[issue-slot.scala:73:14] input io_brupdate_b2_taken, // @[issue-slot.scala:73:14] input [2:0] io_brupdate_b2_cfi_type, // @[issue-slot.scala:73:14] input [1:0] io_brupdate_b2_pc_sel, // @[issue-slot.scala:73:14] input [39:0] io_brupdate_b2_jalr_target, // @[issue-slot.scala:73:14] input [20:0] io_brupdate_b2_target_offset, // @[issue-slot.scala:73:14] input io_kill, // @[issue-slot.scala:73:14] input io_clear, // @[issue-slot.scala:73:14] input io_ldspec_miss, // @[issue-slot.scala:73:14] input io_wakeup_ports_0_valid, // @[issue-slot.scala:73:14] input [6:0] io_wakeup_ports_0_bits_pdst, // @[issue-slot.scala:73:14] input io_wakeup_ports_0_bits_poisoned, // @[issue-slot.scala:73:14] input io_wakeup_ports_1_valid, // @[issue-slot.scala:73:14] input [6:0] io_wakeup_ports_1_bits_pdst, // @[issue-slot.scala:73:14] input io_wakeup_ports_1_bits_poisoned, // @[issue-slot.scala:73:14] input io_wakeup_ports_2_valid, // @[issue-slot.scala:73:14] input [6:0] io_wakeup_ports_2_bits_pdst, // @[issue-slot.scala:73:14] input io_wakeup_ports_2_bits_poisoned, // @[issue-slot.scala:73:14] input io_wakeup_ports_3_valid, // @[issue-slot.scala:73:14] input [6:0] io_wakeup_ports_3_bits_pdst, // @[issue-slot.scala:73:14] input io_wakeup_ports_3_bits_poisoned, // @[issue-slot.scala:73:14] input io_wakeup_ports_4_valid, // @[issue-slot.scala:73:14] input [6:0] io_wakeup_ports_4_bits_pdst, // @[issue-slot.scala:73:14] input io_wakeup_ports_4_bits_poisoned, // @[issue-slot.scala:73:14] input io_wakeup_ports_5_valid, // @[issue-slot.scala:73:14] input [6:0] io_wakeup_ports_5_bits_pdst, // @[issue-slot.scala:73:14] input io_wakeup_ports_5_bits_poisoned, // @[issue-slot.scala:73:14] input io_wakeup_ports_6_valid, // @[issue-slot.scala:73:14] input [6:0] io_wakeup_ports_6_bits_pdst, // @[issue-slot.scala:73:14] input io_wakeup_ports_6_bits_poisoned, // @[issue-slot.scala:73:14] input io_spec_ld_wakeup_0_valid, // @[issue-slot.scala:73:14] input [6:0] io_spec_ld_wakeup_0_bits, // @[issue-slot.scala:73:14] input io_in_uop_valid, // @[issue-slot.scala:73:14] input [6:0] io_in_uop_bits_uopc, // @[issue-slot.scala:73:14] input [31:0] io_in_uop_bits_inst, // @[issue-slot.scala:73:14] input [31:0] io_in_uop_bits_debug_inst, // @[issue-slot.scala:73:14] input io_in_uop_bits_is_rvc, // @[issue-slot.scala:73:14] input [39:0] io_in_uop_bits_debug_pc, // @[issue-slot.scala:73:14] input [2:0] io_in_uop_bits_iq_type, // @[issue-slot.scala:73:14] input [9:0] io_in_uop_bits_fu_code, // @[issue-slot.scala:73:14] input [3:0] io_in_uop_bits_ctrl_br_type, // @[issue-slot.scala:73:14] input [1:0] io_in_uop_bits_ctrl_op1_sel, // @[issue-slot.scala:73:14] input [2:0] io_in_uop_bits_ctrl_op2_sel, // @[issue-slot.scala:73:14] input [2:0] io_in_uop_bits_ctrl_imm_sel, // @[issue-slot.scala:73:14] input [4:0] io_in_uop_bits_ctrl_op_fcn, // @[issue-slot.scala:73:14] input io_in_uop_bits_ctrl_fcn_dw, // @[issue-slot.scala:73:14] input [2:0] io_in_uop_bits_ctrl_csr_cmd, // @[issue-slot.scala:73:14] input io_in_uop_bits_ctrl_is_load, // @[issue-slot.scala:73:14] input io_in_uop_bits_ctrl_is_sta, // @[issue-slot.scala:73:14] input io_in_uop_bits_ctrl_is_std, // @[issue-slot.scala:73:14] input [1:0] io_in_uop_bits_iw_state, // @[issue-slot.scala:73:14] input io_in_uop_bits_iw_p1_poisoned, // @[issue-slot.scala:73:14] input io_in_uop_bits_iw_p2_poisoned, // @[issue-slot.scala:73:14] input io_in_uop_bits_is_br, // @[issue-slot.scala:73:14] input io_in_uop_bits_is_jalr, // @[issue-slot.scala:73:14] input io_in_uop_bits_is_jal, // @[issue-slot.scala:73:14] input io_in_uop_bits_is_sfb, // @[issue-slot.scala:73:14] input [15:0] io_in_uop_bits_br_mask, // @[issue-slot.scala:73:14] input [3:0] io_in_uop_bits_br_tag, // @[issue-slot.scala:73:14] input [4:0] io_in_uop_bits_ftq_idx, // @[issue-slot.scala:73:14] input io_in_uop_bits_edge_inst, // @[issue-slot.scala:73:14] input [5:0] io_in_uop_bits_pc_lob, // @[issue-slot.scala:73:14] input io_in_uop_bits_taken, // @[issue-slot.scala:73:14] input [19:0] io_in_uop_bits_imm_packed, // @[issue-slot.scala:73:14] input [11:0] io_in_uop_bits_csr_addr, // @[issue-slot.scala:73:14] input [6:0] io_in_uop_bits_rob_idx, // @[issue-slot.scala:73:14] input [4:0] io_in_uop_bits_ldq_idx, // @[issue-slot.scala:73:14] input [4:0] io_in_uop_bits_stq_idx, // @[issue-slot.scala:73:14] input [1:0] io_in_uop_bits_rxq_idx, // @[issue-slot.scala:73:14] input [6:0] io_in_uop_bits_pdst, // @[issue-slot.scala:73:14] input [6:0] io_in_uop_bits_prs1, // @[issue-slot.scala:73:14] input [6:0] io_in_uop_bits_prs2, // @[issue-slot.scala:73:14] input [6:0] io_in_uop_bits_prs3, // @[issue-slot.scala:73:14] input [4:0] io_in_uop_bits_ppred, // @[issue-slot.scala:73:14] input io_in_uop_bits_prs1_busy, // @[issue-slot.scala:73:14] input io_in_uop_bits_prs2_busy, // @[issue-slot.scala:73:14] input io_in_uop_bits_prs3_busy, // @[issue-slot.scala:73:14] input io_in_uop_bits_ppred_busy, // @[issue-slot.scala:73:14] input [6:0] io_in_uop_bits_stale_pdst, // @[issue-slot.scala:73:14] input io_in_uop_bits_exception, // @[issue-slot.scala:73:14] input [63:0] io_in_uop_bits_exc_cause, // @[issue-slot.scala:73:14] input io_in_uop_bits_bypassable, // @[issue-slot.scala:73:14] input [4:0] io_in_uop_bits_mem_cmd, // @[issue-slot.scala:73:14] input [1:0] io_in_uop_bits_mem_size, // @[issue-slot.scala:73:14] input io_in_uop_bits_mem_signed, // @[issue-slot.scala:73:14] input io_in_uop_bits_is_fence, // @[issue-slot.scala:73:14] input io_in_uop_bits_is_fencei, // @[issue-slot.scala:73:14] input io_in_uop_bits_is_amo, // @[issue-slot.scala:73:14] input io_in_uop_bits_uses_ldq, // @[issue-slot.scala:73:14] input io_in_uop_bits_uses_stq, // @[issue-slot.scala:73:14] input io_in_uop_bits_is_sys_pc2epc, // @[issue-slot.scala:73:14] input io_in_uop_bits_is_unique, // @[issue-slot.scala:73:14] input io_in_uop_bits_flush_on_commit, // @[issue-slot.scala:73:14] input io_in_uop_bits_ldst_is_rs1, // @[issue-slot.scala:73:14] input [5:0] io_in_uop_bits_ldst, // @[issue-slot.scala:73:14] input [5:0] io_in_uop_bits_lrs1, // @[issue-slot.scala:73:14] input [5:0] io_in_uop_bits_lrs2, // @[issue-slot.scala:73:14] input [5:0] io_in_uop_bits_lrs3, // @[issue-slot.scala:73:14] input io_in_uop_bits_ldst_val, // @[issue-slot.scala:73:14] input [1:0] io_in_uop_bits_dst_rtype, // @[issue-slot.scala:73:14] input [1:0] io_in_uop_bits_lrs1_rtype, // @[issue-slot.scala:73:14] input [1:0] io_in_uop_bits_lrs2_rtype, // @[issue-slot.scala:73:14] input io_in_uop_bits_frs3_en, // @[issue-slot.scala:73:14] input io_in_uop_bits_fp_val, // @[issue-slot.scala:73:14] input io_in_uop_bits_fp_single, // @[issue-slot.scala:73:14] input io_in_uop_bits_xcpt_pf_if, // @[issue-slot.scala:73:14] input io_in_uop_bits_xcpt_ae_if, // @[issue-slot.scala:73:14] input io_in_uop_bits_xcpt_ma_if, // @[issue-slot.scala:73:14] input io_in_uop_bits_bp_debug_if, // @[issue-slot.scala:73:14] input io_in_uop_bits_bp_xcpt_if, // @[issue-slot.scala:73:14] input [1:0] io_in_uop_bits_debug_fsrc, // @[issue-slot.scala:73:14] input [1:0] io_in_uop_bits_debug_tsrc, // @[issue-slot.scala:73:14] output [6:0] io_out_uop_uopc, // @[issue-slot.scala:73:14] output [31:0] io_out_uop_inst, // @[issue-slot.scala:73:14] output [31:0] io_out_uop_debug_inst, // @[issue-slot.scala:73:14] output io_out_uop_is_rvc, // @[issue-slot.scala:73:14] output [39:0] io_out_uop_debug_pc, // @[issue-slot.scala:73:14] output [2:0] io_out_uop_iq_type, // @[issue-slot.scala:73:14] output [9:0] io_out_uop_fu_code, // @[issue-slot.scala:73:14] output [3:0] io_out_uop_ctrl_br_type, // @[issue-slot.scala:73:14] output [1:0] io_out_uop_ctrl_op1_sel, // @[issue-slot.scala:73:14] output [2:0] io_out_uop_ctrl_op2_sel, // @[issue-slot.scala:73:14] output [2:0] io_out_uop_ctrl_imm_sel, // @[issue-slot.scala:73:14] output [4:0] io_out_uop_ctrl_op_fcn, // @[issue-slot.scala:73:14] output io_out_uop_ctrl_fcn_dw, // @[issue-slot.scala:73:14] output [2:0] io_out_uop_ctrl_csr_cmd, // @[issue-slot.scala:73:14] output io_out_uop_ctrl_is_load, // @[issue-slot.scala:73:14] output io_out_uop_ctrl_is_sta, // @[issue-slot.scala:73:14] output io_out_uop_ctrl_is_std, // @[issue-slot.scala:73:14] output [1:0] io_out_uop_iw_state, // @[issue-slot.scala:73:14] output io_out_uop_iw_p1_poisoned, // @[issue-slot.scala:73:14] output io_out_uop_iw_p2_poisoned, // @[issue-slot.scala:73:14] output io_out_uop_is_br, // @[issue-slot.scala:73:14] output io_out_uop_is_jalr, // @[issue-slot.scala:73:14] output io_out_uop_is_jal, // @[issue-slot.scala:73:14] output io_out_uop_is_sfb, // @[issue-slot.scala:73:14] output [15:0] io_out_uop_br_mask, // @[issue-slot.scala:73:14] output [3:0] io_out_uop_br_tag, // @[issue-slot.scala:73:14] output [4:0] io_out_uop_ftq_idx, // @[issue-slot.scala:73:14] output io_out_uop_edge_inst, // @[issue-slot.scala:73:14] output [5:0] io_out_uop_pc_lob, // @[issue-slot.scala:73:14] output io_out_uop_taken, // @[issue-slot.scala:73:14] output [19:0] io_out_uop_imm_packed, // @[issue-slot.scala:73:14] output [11:0] io_out_uop_csr_addr, // @[issue-slot.scala:73:14] output [6:0] io_out_uop_rob_idx, // @[issue-slot.scala:73:14] output [4:0] io_out_uop_ldq_idx, // @[issue-slot.scala:73:14] output [4:0] io_out_uop_stq_idx, // @[issue-slot.scala:73:14] output [1:0] io_out_uop_rxq_idx, // @[issue-slot.scala:73:14] output [6:0] io_out_uop_pdst, // @[issue-slot.scala:73:14] output [6:0] io_out_uop_prs1, // @[issue-slot.scala:73:14] output [6:0] io_out_uop_prs2, // @[issue-slot.scala:73:14] output [6:0] io_out_uop_prs3, // @[issue-slot.scala:73:14] output [4:0] io_out_uop_ppred, // @[issue-slot.scala:73:14] output io_out_uop_prs1_busy, // @[issue-slot.scala:73:14] output io_out_uop_prs2_busy, // @[issue-slot.scala:73:14] output io_out_uop_prs3_busy, // @[issue-slot.scala:73:14] output io_out_uop_ppred_busy, // @[issue-slot.scala:73:14] output [6:0] io_out_uop_stale_pdst, // @[issue-slot.scala:73:14] output io_out_uop_exception, // @[issue-slot.scala:73:14] output [63:0] io_out_uop_exc_cause, // @[issue-slot.scala:73:14] output io_out_uop_bypassable, // @[issue-slot.scala:73:14] output [4:0] io_out_uop_mem_cmd, // @[issue-slot.scala:73:14] output [1:0] io_out_uop_mem_size, // @[issue-slot.scala:73:14] output io_out_uop_mem_signed, // @[issue-slot.scala:73:14] output io_out_uop_is_fence, // @[issue-slot.scala:73:14] output io_out_uop_is_fencei, // @[issue-slot.scala:73:14] output io_out_uop_is_amo, // @[issue-slot.scala:73:14] output io_out_uop_uses_ldq, // @[issue-slot.scala:73:14] output io_out_uop_uses_stq, // @[issue-slot.scala:73:14] output io_out_uop_is_sys_pc2epc, // @[issue-slot.scala:73:14] output io_out_uop_is_unique, // @[issue-slot.scala:73:14] output io_out_uop_flush_on_commit, // @[issue-slot.scala:73:14] output io_out_uop_ldst_is_rs1, // @[issue-slot.scala:73:14] output [5:0] io_out_uop_ldst, // @[issue-slot.scala:73:14] output [5:0] io_out_uop_lrs1, // @[issue-slot.scala:73:14] output [5:0] io_out_uop_lrs2, // @[issue-slot.scala:73:14] output [5:0] io_out_uop_lrs3, // @[issue-slot.scala:73:14] output io_out_uop_ldst_val, // @[issue-slot.scala:73:14] output [1:0] io_out_uop_dst_rtype, // @[issue-slot.scala:73:14] output [1:0] io_out_uop_lrs1_rtype, // @[issue-slot.scala:73:14] output [1:0] io_out_uop_lrs2_rtype, // @[issue-slot.scala:73:14] output io_out_uop_frs3_en, // @[issue-slot.scala:73:14] output io_out_uop_fp_val, // @[issue-slot.scala:73:14] output io_out_uop_fp_single, // @[issue-slot.scala:73:14] output io_out_uop_xcpt_pf_if, // @[issue-slot.scala:73:14] output io_out_uop_xcpt_ae_if, // @[issue-slot.scala:73:14] output io_out_uop_xcpt_ma_if, // @[issue-slot.scala:73:14] output io_out_uop_bp_debug_if, // @[issue-slot.scala:73:14] output io_out_uop_bp_xcpt_if, // @[issue-slot.scala:73:14] output [1:0] io_out_uop_debug_fsrc, // @[issue-slot.scala:73:14] output [1:0] io_out_uop_debug_tsrc, // @[issue-slot.scala:73:14] output [6:0] io_uop_uopc, // @[issue-slot.scala:73:14] output [31:0] io_uop_inst, // @[issue-slot.scala:73:14] output [31:0] io_uop_debug_inst, // @[issue-slot.scala:73:14] output io_uop_is_rvc, // @[issue-slot.scala:73:14] output [39:0] io_uop_debug_pc, // @[issue-slot.scala:73:14] output [2:0] io_uop_iq_type, // @[issue-slot.scala:73:14] output [9:0] io_uop_fu_code, // @[issue-slot.scala:73:14] output [3:0] io_uop_ctrl_br_type, // @[issue-slot.scala:73:14] output [1:0] io_uop_ctrl_op1_sel, // @[issue-slot.scala:73:14] output [2:0] io_uop_ctrl_op2_sel, // @[issue-slot.scala:73:14] output [2:0] io_uop_ctrl_imm_sel, // @[issue-slot.scala:73:14] output [4:0] io_uop_ctrl_op_fcn, // @[issue-slot.scala:73:14] output io_uop_ctrl_fcn_dw, // @[issue-slot.scala:73:14] output [2:0] io_uop_ctrl_csr_cmd, // @[issue-slot.scala:73:14] output io_uop_ctrl_is_load, // @[issue-slot.scala:73:14] output io_uop_ctrl_is_sta, // @[issue-slot.scala:73:14] output io_uop_ctrl_is_std, // @[issue-slot.scala:73:14] output [1:0] io_uop_iw_state, // @[issue-slot.scala:73:14] output io_uop_iw_p1_poisoned, // @[issue-slot.scala:73:14] output io_uop_iw_p2_poisoned, // @[issue-slot.scala:73:14] output io_uop_is_br, // @[issue-slot.scala:73:14] output io_uop_is_jalr, // @[issue-slot.scala:73:14] output io_uop_is_jal, // @[issue-slot.scala:73:14] output io_uop_is_sfb, // @[issue-slot.scala:73:14] output [15:0] io_uop_br_mask, // @[issue-slot.scala:73:14] output [3:0] io_uop_br_tag, // @[issue-slot.scala:73:14] output [4:0] io_uop_ftq_idx, // @[issue-slot.scala:73:14] output io_uop_edge_inst, // @[issue-slot.scala:73:14] output [5:0] io_uop_pc_lob, // @[issue-slot.scala:73:14] output io_uop_taken, // @[issue-slot.scala:73:14] output [19:0] io_uop_imm_packed, // @[issue-slot.scala:73:14] output [11:0] io_uop_csr_addr, // @[issue-slot.scala:73:14] output [6:0] io_uop_rob_idx, // @[issue-slot.scala:73:14] output [4:0] io_uop_ldq_idx, // @[issue-slot.scala:73:14] output [4:0] io_uop_stq_idx, // @[issue-slot.scala:73:14] output [1:0] io_uop_rxq_idx, // @[issue-slot.scala:73:14] output [6:0] io_uop_pdst, // @[issue-slot.scala:73:14] output [6:0] io_uop_prs1, // @[issue-slot.scala:73:14] output [6:0] io_uop_prs2, // @[issue-slot.scala:73:14] output [6:0] io_uop_prs3, // @[issue-slot.scala:73:14] output [4:0] io_uop_ppred, // @[issue-slot.scala:73:14] output io_uop_prs1_busy, // @[issue-slot.scala:73:14] output io_uop_prs2_busy, // @[issue-slot.scala:73:14] output io_uop_prs3_busy, // @[issue-slot.scala:73:14] output io_uop_ppred_busy, // @[issue-slot.scala:73:14] output [6:0] io_uop_stale_pdst, // @[issue-slot.scala:73:14] output io_uop_exception, // @[issue-slot.scala:73:14] output [63:0] io_uop_exc_cause, // @[issue-slot.scala:73:14] output io_uop_bypassable, // @[issue-slot.scala:73:14] output [4:0] io_uop_mem_cmd, // @[issue-slot.scala:73:14] output [1:0] io_uop_mem_size, // @[issue-slot.scala:73:14] output io_uop_mem_signed, // @[issue-slot.scala:73:14] output io_uop_is_fence, // @[issue-slot.scala:73:14] output io_uop_is_fencei, // @[issue-slot.scala:73:14] output io_uop_is_amo, // @[issue-slot.scala:73:14] output io_uop_uses_ldq, // @[issue-slot.scala:73:14] output io_uop_uses_stq, // @[issue-slot.scala:73:14] output io_uop_is_sys_pc2epc, // @[issue-slot.scala:73:14] output io_uop_is_unique, // @[issue-slot.scala:73:14] output io_uop_flush_on_commit, // @[issue-slot.scala:73:14] output io_uop_ldst_is_rs1, // @[issue-slot.scala:73:14] output [5:0] io_uop_ldst, // @[issue-slot.scala:73:14] output [5:0] io_uop_lrs1, // @[issue-slot.scala:73:14] output [5:0] io_uop_lrs2, // @[issue-slot.scala:73:14] output [5:0] io_uop_lrs3, // @[issue-slot.scala:73:14] output io_uop_ldst_val, // @[issue-slot.scala:73:14] output [1:0] io_uop_dst_rtype, // @[issue-slot.scala:73:14] output [1:0] io_uop_lrs1_rtype, // @[issue-slot.scala:73:14] output [1:0] io_uop_lrs2_rtype, // @[issue-slot.scala:73:14] output io_uop_frs3_en, // @[issue-slot.scala:73:14] output io_uop_fp_val, // @[issue-slot.scala:73:14] output io_uop_fp_single, // @[issue-slot.scala:73:14] output io_uop_xcpt_pf_if, // @[issue-slot.scala:73:14] output io_uop_xcpt_ae_if, // @[issue-slot.scala:73:14] output io_uop_xcpt_ma_if, // @[issue-slot.scala:73:14] output io_uop_bp_debug_if, // @[issue-slot.scala:73:14] output io_uop_bp_xcpt_if, // @[issue-slot.scala:73:14] output [1:0] io_uop_debug_fsrc, // @[issue-slot.scala:73:14] output [1:0] io_uop_debug_tsrc, // @[issue-slot.scala:73:14] output io_debug_p1, // @[issue-slot.scala:73:14] output io_debug_p2, // @[issue-slot.scala:73:14] output io_debug_p3, // @[issue-slot.scala:73:14] output io_debug_ppred, // @[issue-slot.scala:73:14] output [1:0] io_debug_state // @[issue-slot.scala:73:14] ); wire io_grant_0 = io_grant; // @[issue-slot.scala:69:7] wire [15:0] io_brupdate_b1_resolve_mask_0 = io_brupdate_b1_resolve_mask; // @[issue-slot.scala:69:7] wire [15:0] io_brupdate_b1_mispredict_mask_0 = io_brupdate_b1_mispredict_mask; // @[issue-slot.scala:69:7] wire [6:0] io_brupdate_b2_uop_uopc_0 = io_brupdate_b2_uop_uopc; // @[issue-slot.scala:69:7] wire [31:0] io_brupdate_b2_uop_inst_0 = io_brupdate_b2_uop_inst; // @[issue-slot.scala:69:7] wire [31:0] io_brupdate_b2_uop_debug_inst_0 = io_brupdate_b2_uop_debug_inst; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_is_rvc_0 = io_brupdate_b2_uop_is_rvc; // @[issue-slot.scala:69:7] wire [39:0] io_brupdate_b2_uop_debug_pc_0 = io_brupdate_b2_uop_debug_pc; // @[issue-slot.scala:69:7] wire [2:0] io_brupdate_b2_uop_iq_type_0 = io_brupdate_b2_uop_iq_type; // @[issue-slot.scala:69:7] wire [9:0] io_brupdate_b2_uop_fu_code_0 = io_brupdate_b2_uop_fu_code; // @[issue-slot.scala:69:7] wire [3:0] io_brupdate_b2_uop_ctrl_br_type_0 = io_brupdate_b2_uop_ctrl_br_type; // @[issue-slot.scala:69:7] wire [1:0] io_brupdate_b2_uop_ctrl_op1_sel_0 = io_brupdate_b2_uop_ctrl_op1_sel; // @[issue-slot.scala:69:7] wire [2:0] io_brupdate_b2_uop_ctrl_op2_sel_0 = io_brupdate_b2_uop_ctrl_op2_sel; // @[issue-slot.scala:69:7] wire [2:0] io_brupdate_b2_uop_ctrl_imm_sel_0 = io_brupdate_b2_uop_ctrl_imm_sel; // @[issue-slot.scala:69:7] wire [4:0] io_brupdate_b2_uop_ctrl_op_fcn_0 = io_brupdate_b2_uop_ctrl_op_fcn; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_ctrl_fcn_dw_0 = io_brupdate_b2_uop_ctrl_fcn_dw; // @[issue-slot.scala:69:7] wire [2:0] io_brupdate_b2_uop_ctrl_csr_cmd_0 = io_brupdate_b2_uop_ctrl_csr_cmd; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_ctrl_is_load_0 = io_brupdate_b2_uop_ctrl_is_load; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_ctrl_is_sta_0 = io_brupdate_b2_uop_ctrl_is_sta; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_ctrl_is_std_0 = io_brupdate_b2_uop_ctrl_is_std; // @[issue-slot.scala:69:7] wire [1:0] io_brupdate_b2_uop_iw_state_0 = io_brupdate_b2_uop_iw_state; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_iw_p1_poisoned_0 = io_brupdate_b2_uop_iw_p1_poisoned; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_iw_p2_poisoned_0 = io_brupdate_b2_uop_iw_p2_poisoned; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_is_br_0 = io_brupdate_b2_uop_is_br; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_is_jalr_0 = io_brupdate_b2_uop_is_jalr; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_is_jal_0 = io_brupdate_b2_uop_is_jal; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_is_sfb_0 = io_brupdate_b2_uop_is_sfb; // @[issue-slot.scala:69:7] wire [15:0] io_brupdate_b2_uop_br_mask_0 = io_brupdate_b2_uop_br_mask; // @[issue-slot.scala:69:7] wire [3:0] io_brupdate_b2_uop_br_tag_0 = io_brupdate_b2_uop_br_tag; // @[issue-slot.scala:69:7] wire [4:0] io_brupdate_b2_uop_ftq_idx_0 = io_brupdate_b2_uop_ftq_idx; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_edge_inst_0 = io_brupdate_b2_uop_edge_inst; // @[issue-slot.scala:69:7] wire [5:0] io_brupdate_b2_uop_pc_lob_0 = io_brupdate_b2_uop_pc_lob; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_taken_0 = io_brupdate_b2_uop_taken; // @[issue-slot.scala:69:7] wire [19:0] io_brupdate_b2_uop_imm_packed_0 = io_brupdate_b2_uop_imm_packed; // @[issue-slot.scala:69:7] wire [11:0] io_brupdate_b2_uop_csr_addr_0 = io_brupdate_b2_uop_csr_addr; // @[issue-slot.scala:69:7] wire [6:0] io_brupdate_b2_uop_rob_idx_0 = io_brupdate_b2_uop_rob_idx; // @[issue-slot.scala:69:7] wire [4:0] io_brupdate_b2_uop_ldq_idx_0 = io_brupdate_b2_uop_ldq_idx; // @[issue-slot.scala:69:7] wire [4:0] io_brupdate_b2_uop_stq_idx_0 = io_brupdate_b2_uop_stq_idx; // @[issue-slot.scala:69:7] wire [1:0] io_brupdate_b2_uop_rxq_idx_0 = io_brupdate_b2_uop_rxq_idx; // @[issue-slot.scala:69:7] wire [6:0] io_brupdate_b2_uop_pdst_0 = io_brupdate_b2_uop_pdst; // @[issue-slot.scala:69:7] wire [6:0] io_brupdate_b2_uop_prs1_0 = io_brupdate_b2_uop_prs1; // @[issue-slot.scala:69:7] wire [6:0] io_brupdate_b2_uop_prs2_0 = io_brupdate_b2_uop_prs2; // @[issue-slot.scala:69:7] wire [6:0] io_brupdate_b2_uop_prs3_0 = io_brupdate_b2_uop_prs3; // @[issue-slot.scala:69:7] wire [4:0] io_brupdate_b2_uop_ppred_0 = io_brupdate_b2_uop_ppred; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_prs1_busy_0 = io_brupdate_b2_uop_prs1_busy; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_prs2_busy_0 = io_brupdate_b2_uop_prs2_busy; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_prs3_busy_0 = io_brupdate_b2_uop_prs3_busy; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_ppred_busy_0 = io_brupdate_b2_uop_ppred_busy; // @[issue-slot.scala:69:7] wire [6:0] io_brupdate_b2_uop_stale_pdst_0 = io_brupdate_b2_uop_stale_pdst; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_exception_0 = io_brupdate_b2_uop_exception; // @[issue-slot.scala:69:7] wire [63:0] io_brupdate_b2_uop_exc_cause_0 = io_brupdate_b2_uop_exc_cause; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_bypassable_0 = io_brupdate_b2_uop_bypassable; // @[issue-slot.scala:69:7] wire [4:0] io_brupdate_b2_uop_mem_cmd_0 = io_brupdate_b2_uop_mem_cmd; // @[issue-slot.scala:69:7] wire [1:0] io_brupdate_b2_uop_mem_size_0 = io_brupdate_b2_uop_mem_size; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_mem_signed_0 = io_brupdate_b2_uop_mem_signed; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_is_fence_0 = io_brupdate_b2_uop_is_fence; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_is_fencei_0 = io_brupdate_b2_uop_is_fencei; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_is_amo_0 = io_brupdate_b2_uop_is_amo; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_uses_ldq_0 = io_brupdate_b2_uop_uses_ldq; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_uses_stq_0 = io_brupdate_b2_uop_uses_stq; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_is_sys_pc2epc_0 = io_brupdate_b2_uop_is_sys_pc2epc; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_is_unique_0 = io_brupdate_b2_uop_is_unique; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_flush_on_commit_0 = io_brupdate_b2_uop_flush_on_commit; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_ldst_is_rs1_0 = io_brupdate_b2_uop_ldst_is_rs1; // @[issue-slot.scala:69:7] wire [5:0] io_brupdate_b2_uop_ldst_0 = io_brupdate_b2_uop_ldst; // @[issue-slot.scala:69:7] wire [5:0] io_brupdate_b2_uop_lrs1_0 = io_brupdate_b2_uop_lrs1; // @[issue-slot.scala:69:7] wire [5:0] io_brupdate_b2_uop_lrs2_0 = io_brupdate_b2_uop_lrs2; // @[issue-slot.scala:69:7] wire [5:0] io_brupdate_b2_uop_lrs3_0 = io_brupdate_b2_uop_lrs3; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_ldst_val_0 = io_brupdate_b2_uop_ldst_val; // @[issue-slot.scala:69:7] wire [1:0] io_brupdate_b2_uop_dst_rtype_0 = io_brupdate_b2_uop_dst_rtype; // @[issue-slot.scala:69:7] wire [1:0] io_brupdate_b2_uop_lrs1_rtype_0 = io_brupdate_b2_uop_lrs1_rtype; // @[issue-slot.scala:69:7] wire [1:0] io_brupdate_b2_uop_lrs2_rtype_0 = io_brupdate_b2_uop_lrs2_rtype; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_frs3_en_0 = io_brupdate_b2_uop_frs3_en; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_fp_val_0 = io_brupdate_b2_uop_fp_val; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_fp_single_0 = io_brupdate_b2_uop_fp_single; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_xcpt_pf_if_0 = io_brupdate_b2_uop_xcpt_pf_if; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_xcpt_ae_if_0 = io_brupdate_b2_uop_xcpt_ae_if; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_xcpt_ma_if_0 = io_brupdate_b2_uop_xcpt_ma_if; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_bp_debug_if_0 = io_brupdate_b2_uop_bp_debug_if; // @[issue-slot.scala:69:7] wire io_brupdate_b2_uop_bp_xcpt_if_0 = io_brupdate_b2_uop_bp_xcpt_if; // @[issue-slot.scala:69:7] wire [1:0] io_brupdate_b2_uop_debug_fsrc_0 = io_brupdate_b2_uop_debug_fsrc; // @[issue-slot.scala:69:7] wire [1:0] io_brupdate_b2_uop_debug_tsrc_0 = io_brupdate_b2_uop_debug_tsrc; // @[issue-slot.scala:69:7] wire io_brupdate_b2_valid_0 = io_brupdate_b2_valid; // @[issue-slot.scala:69:7] wire io_brupdate_b2_mispredict_0 = io_brupdate_b2_mispredict; // @[issue-slot.scala:69:7] wire io_brupdate_b2_taken_0 = io_brupdate_b2_taken; // @[issue-slot.scala:69:7] wire [2:0] io_brupdate_b2_cfi_type_0 = io_brupdate_b2_cfi_type; // @[issue-slot.scala:69:7] wire [1:0] io_brupdate_b2_pc_sel_0 = io_brupdate_b2_pc_sel; // @[issue-slot.scala:69:7] wire [39:0] io_brupdate_b2_jalr_target_0 = io_brupdate_b2_jalr_target; // @[issue-slot.scala:69:7] wire [20:0] io_brupdate_b2_target_offset_0 = io_brupdate_b2_target_offset; // @[issue-slot.scala:69:7] wire io_kill_0 = io_kill; // @[issue-slot.scala:69:7] wire io_clear_0 = io_clear; // @[issue-slot.scala:69:7] wire io_ldspec_miss_0 = io_ldspec_miss; // @[issue-slot.scala:69:7] wire io_wakeup_ports_0_valid_0 = io_wakeup_ports_0_valid; // @[issue-slot.scala:69:7] wire [6:0] io_wakeup_ports_0_bits_pdst_0 = io_wakeup_ports_0_bits_pdst; // @[issue-slot.scala:69:7] wire io_wakeup_ports_0_bits_poisoned_0 = io_wakeup_ports_0_bits_poisoned; // @[issue-slot.scala:69:7] wire io_wakeup_ports_1_valid_0 = io_wakeup_ports_1_valid; // @[issue-slot.scala:69:7] wire [6:0] io_wakeup_ports_1_bits_pdst_0 = io_wakeup_ports_1_bits_pdst; // @[issue-slot.scala:69:7] wire io_wakeup_ports_1_bits_poisoned_0 = io_wakeup_ports_1_bits_poisoned; // @[issue-slot.scala:69:7] wire io_wakeup_ports_2_valid_0 = io_wakeup_ports_2_valid; // @[issue-slot.scala:69:7] wire [6:0] io_wakeup_ports_2_bits_pdst_0 = io_wakeup_ports_2_bits_pdst; // @[issue-slot.scala:69:7] wire io_wakeup_ports_2_bits_poisoned_0 = io_wakeup_ports_2_bits_poisoned; // @[issue-slot.scala:69:7] wire io_wakeup_ports_3_valid_0 = io_wakeup_ports_3_valid; // @[issue-slot.scala:69:7] wire [6:0] io_wakeup_ports_3_bits_pdst_0 = io_wakeup_ports_3_bits_pdst; // @[issue-slot.scala:69:7] wire io_wakeup_ports_3_bits_poisoned_0 = io_wakeup_ports_3_bits_poisoned; // @[issue-slot.scala:69:7] wire io_wakeup_ports_4_valid_0 = io_wakeup_ports_4_valid; // @[issue-slot.scala:69:7] wire [6:0] io_wakeup_ports_4_bits_pdst_0 = io_wakeup_ports_4_bits_pdst; // @[issue-slot.scala:69:7] wire io_wakeup_ports_4_bits_poisoned_0 = io_wakeup_ports_4_bits_poisoned; // @[issue-slot.scala:69:7] wire io_wakeup_ports_5_valid_0 = io_wakeup_ports_5_valid; // @[issue-slot.scala:69:7] wire [6:0] io_wakeup_ports_5_bits_pdst_0 = io_wakeup_ports_5_bits_pdst; // @[issue-slot.scala:69:7] wire io_wakeup_ports_5_bits_poisoned_0 = io_wakeup_ports_5_bits_poisoned; // @[issue-slot.scala:69:7] wire io_wakeup_ports_6_valid_0 = io_wakeup_ports_6_valid; // @[issue-slot.scala:69:7] wire [6:0] io_wakeup_ports_6_bits_pdst_0 = io_wakeup_ports_6_bits_pdst; // @[issue-slot.scala:69:7] wire io_wakeup_ports_6_bits_poisoned_0 = io_wakeup_ports_6_bits_poisoned; // @[issue-slot.scala:69:7] wire io_spec_ld_wakeup_0_valid_0 = io_spec_ld_wakeup_0_valid; // @[issue-slot.scala:69:7] wire [6:0] io_spec_ld_wakeup_0_bits_0 = io_spec_ld_wakeup_0_bits; // @[issue-slot.scala:69:7] wire io_in_uop_valid_0 = io_in_uop_valid; // @[issue-slot.scala:69:7] wire [6:0] io_in_uop_bits_uopc_0 = io_in_uop_bits_uopc; // @[issue-slot.scala:69:7] wire [31:0] io_in_uop_bits_inst_0 = io_in_uop_bits_inst; // @[issue-slot.scala:69:7] wire [31:0] io_in_uop_bits_debug_inst_0 = io_in_uop_bits_debug_inst; // @[issue-slot.scala:69:7] wire io_in_uop_bits_is_rvc_0 = io_in_uop_bits_is_rvc; // @[issue-slot.scala:69:7] wire [39:0] io_in_uop_bits_debug_pc_0 = io_in_uop_bits_debug_pc; // @[issue-slot.scala:69:7] wire [2:0] io_in_uop_bits_iq_type_0 = io_in_uop_bits_iq_type; // @[issue-slot.scala:69:7] wire [9:0] io_in_uop_bits_fu_code_0 = io_in_uop_bits_fu_code; // @[issue-slot.scala:69:7] wire [3:0] io_in_uop_bits_ctrl_br_type_0 = io_in_uop_bits_ctrl_br_type; // @[issue-slot.scala:69:7] wire [1:0] io_in_uop_bits_ctrl_op1_sel_0 = io_in_uop_bits_ctrl_op1_sel; // @[issue-slot.scala:69:7] wire [2:0] io_in_uop_bits_ctrl_op2_sel_0 = io_in_uop_bits_ctrl_op2_sel; // @[issue-slot.scala:69:7] wire [2:0] io_in_uop_bits_ctrl_imm_sel_0 = io_in_uop_bits_ctrl_imm_sel; // @[issue-slot.scala:69:7] wire [4:0] io_in_uop_bits_ctrl_op_fcn_0 = io_in_uop_bits_ctrl_op_fcn; // @[issue-slot.scala:69:7] wire io_in_uop_bits_ctrl_fcn_dw_0 = io_in_uop_bits_ctrl_fcn_dw; // @[issue-slot.scala:69:7] wire [2:0] io_in_uop_bits_ctrl_csr_cmd_0 = io_in_uop_bits_ctrl_csr_cmd; // @[issue-slot.scala:69:7] wire io_in_uop_bits_ctrl_is_load_0 = io_in_uop_bits_ctrl_is_load; // @[issue-slot.scala:69:7] wire io_in_uop_bits_ctrl_is_sta_0 = io_in_uop_bits_ctrl_is_sta; // @[issue-slot.scala:69:7] wire io_in_uop_bits_ctrl_is_std_0 = io_in_uop_bits_ctrl_is_std; // @[issue-slot.scala:69:7] wire [1:0] io_in_uop_bits_iw_state_0 = io_in_uop_bits_iw_state; // @[issue-slot.scala:69:7] wire io_in_uop_bits_iw_p1_poisoned_0 = io_in_uop_bits_iw_p1_poisoned; // @[issue-slot.scala:69:7] wire io_in_uop_bits_iw_p2_poisoned_0 = io_in_uop_bits_iw_p2_poisoned; // @[issue-slot.scala:69:7] wire io_in_uop_bits_is_br_0 = io_in_uop_bits_is_br; // @[issue-slot.scala:69:7] wire io_in_uop_bits_is_jalr_0 = io_in_uop_bits_is_jalr; // @[issue-slot.scala:69:7] wire io_in_uop_bits_is_jal_0 = io_in_uop_bits_is_jal; // @[issue-slot.scala:69:7] wire io_in_uop_bits_is_sfb_0 = io_in_uop_bits_is_sfb; // @[issue-slot.scala:69:7] wire [15:0] io_in_uop_bits_br_mask_0 = io_in_uop_bits_br_mask; // @[issue-slot.scala:69:7] wire [3:0] io_in_uop_bits_br_tag_0 = io_in_uop_bits_br_tag; // @[issue-slot.scala:69:7] wire [4:0] io_in_uop_bits_ftq_idx_0 = io_in_uop_bits_ftq_idx; // @[issue-slot.scala:69:7] wire io_in_uop_bits_edge_inst_0 = io_in_uop_bits_edge_inst; // @[issue-slot.scala:69:7] wire [5:0] io_in_uop_bits_pc_lob_0 = io_in_uop_bits_pc_lob; // @[issue-slot.scala:69:7] wire io_in_uop_bits_taken_0 = io_in_uop_bits_taken; // @[issue-slot.scala:69:7] wire [19:0] io_in_uop_bits_imm_packed_0 = io_in_uop_bits_imm_packed; // @[issue-slot.scala:69:7] wire [11:0] io_in_uop_bits_csr_addr_0 = io_in_uop_bits_csr_addr; // @[issue-slot.scala:69:7] wire [6:0] io_in_uop_bits_rob_idx_0 = io_in_uop_bits_rob_idx; // @[issue-slot.scala:69:7] wire [4:0] io_in_uop_bits_ldq_idx_0 = io_in_uop_bits_ldq_idx; // @[issue-slot.scala:69:7] wire [4:0] io_in_uop_bits_stq_idx_0 = io_in_uop_bits_stq_idx; // @[issue-slot.scala:69:7] wire [1:0] io_in_uop_bits_rxq_idx_0 = io_in_uop_bits_rxq_idx; // @[issue-slot.scala:69:7] wire [6:0] io_in_uop_bits_pdst_0 = io_in_uop_bits_pdst; // @[issue-slot.scala:69:7] wire [6:0] io_in_uop_bits_prs1_0 = io_in_uop_bits_prs1; // @[issue-slot.scala:69:7] wire [6:0] io_in_uop_bits_prs2_0 = io_in_uop_bits_prs2; // @[issue-slot.scala:69:7] wire [6:0] io_in_uop_bits_prs3_0 = io_in_uop_bits_prs3; // @[issue-slot.scala:69:7] wire [4:0] io_in_uop_bits_ppred_0 = io_in_uop_bits_ppred; // @[issue-slot.scala:69:7] wire io_in_uop_bits_prs1_busy_0 = io_in_uop_bits_prs1_busy; // @[issue-slot.scala:69:7] wire io_in_uop_bits_prs2_busy_0 = io_in_uop_bits_prs2_busy; // @[issue-slot.scala:69:7] wire io_in_uop_bits_prs3_busy_0 = io_in_uop_bits_prs3_busy; // @[issue-slot.scala:69:7] wire io_in_uop_bits_ppred_busy_0 = io_in_uop_bits_ppred_busy; // @[issue-slot.scala:69:7] wire [6:0] io_in_uop_bits_stale_pdst_0 = io_in_uop_bits_stale_pdst; // @[issue-slot.scala:69:7] wire io_in_uop_bits_exception_0 = io_in_uop_bits_exception; // @[issue-slot.scala:69:7] wire [63:0] io_in_uop_bits_exc_cause_0 = io_in_uop_bits_exc_cause; // @[issue-slot.scala:69:7] wire io_in_uop_bits_bypassable_0 = io_in_uop_bits_bypassable; // @[issue-slot.scala:69:7] wire [4:0] io_in_uop_bits_mem_cmd_0 = io_in_uop_bits_mem_cmd; // @[issue-slot.scala:69:7] wire [1:0] io_in_uop_bits_mem_size_0 = io_in_uop_bits_mem_size; // @[issue-slot.scala:69:7] wire io_in_uop_bits_mem_signed_0 = io_in_uop_bits_mem_signed; // @[issue-slot.scala:69:7] wire io_in_uop_bits_is_fence_0 = io_in_uop_bits_is_fence; // @[issue-slot.scala:69:7] wire io_in_uop_bits_is_fencei_0 = io_in_uop_bits_is_fencei; // @[issue-slot.scala:69:7] wire io_in_uop_bits_is_amo_0 = io_in_uop_bits_is_amo; // @[issue-slot.scala:69:7] wire io_in_uop_bits_uses_ldq_0 = io_in_uop_bits_uses_ldq; // @[issue-slot.scala:69:7] wire io_in_uop_bits_uses_stq_0 = io_in_uop_bits_uses_stq; // @[issue-slot.scala:69:7] wire io_in_uop_bits_is_sys_pc2epc_0 = io_in_uop_bits_is_sys_pc2epc; // @[issue-slot.scala:69:7] wire io_in_uop_bits_is_unique_0 = io_in_uop_bits_is_unique; // @[issue-slot.scala:69:7] wire io_in_uop_bits_flush_on_commit_0 = io_in_uop_bits_flush_on_commit; // @[issue-slot.scala:69:7] wire io_in_uop_bits_ldst_is_rs1_0 = io_in_uop_bits_ldst_is_rs1; // @[issue-slot.scala:69:7] wire [5:0] io_in_uop_bits_ldst_0 = io_in_uop_bits_ldst; // @[issue-slot.scala:69:7] wire [5:0] io_in_uop_bits_lrs1_0 = io_in_uop_bits_lrs1; // @[issue-slot.scala:69:7] wire [5:0] io_in_uop_bits_lrs2_0 = io_in_uop_bits_lrs2; // @[issue-slot.scala:69:7] wire [5:0] io_in_uop_bits_lrs3_0 = io_in_uop_bits_lrs3; // @[issue-slot.scala:69:7] wire io_in_uop_bits_ldst_val_0 = io_in_uop_bits_ldst_val; // @[issue-slot.scala:69:7] wire [1:0] io_in_uop_bits_dst_rtype_0 = io_in_uop_bits_dst_rtype; // @[issue-slot.scala:69:7] wire [1:0] io_in_uop_bits_lrs1_rtype_0 = io_in_uop_bits_lrs1_rtype; // @[issue-slot.scala:69:7] wire [1:0] io_in_uop_bits_lrs2_rtype_0 = io_in_uop_bits_lrs2_rtype; // @[issue-slot.scala:69:7] wire io_in_uop_bits_frs3_en_0 = io_in_uop_bits_frs3_en; // @[issue-slot.scala:69:7] wire io_in_uop_bits_fp_val_0 = io_in_uop_bits_fp_val; // @[issue-slot.scala:69:7] wire io_in_uop_bits_fp_single_0 = io_in_uop_bits_fp_single; // @[issue-slot.scala:69:7] wire io_in_uop_bits_xcpt_pf_if_0 = io_in_uop_bits_xcpt_pf_if; // @[issue-slot.scala:69:7] wire io_in_uop_bits_xcpt_ae_if_0 = io_in_uop_bits_xcpt_ae_if; // @[issue-slot.scala:69:7] wire io_in_uop_bits_xcpt_ma_if_0 = io_in_uop_bits_xcpt_ma_if; // @[issue-slot.scala:69:7] wire io_in_uop_bits_bp_debug_if_0 = io_in_uop_bits_bp_debug_if; // @[issue-slot.scala:69:7] wire io_in_uop_bits_bp_xcpt_if_0 = io_in_uop_bits_bp_xcpt_if; // @[issue-slot.scala:69:7] wire [1:0] io_in_uop_bits_debug_fsrc_0 = io_in_uop_bits_debug_fsrc; // @[issue-slot.scala:69:7] wire [1:0] io_in_uop_bits_debug_tsrc_0 = io_in_uop_bits_debug_tsrc; // @[issue-slot.scala:69:7] wire io_pred_wakeup_port_valid = 1'h0; // @[issue-slot.scala:69:7] wire slot_uop_uop_is_rvc = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_ctrl_fcn_dw = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_ctrl_is_load = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_ctrl_is_sta = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_ctrl_is_std = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_iw_p1_poisoned = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_iw_p2_poisoned = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_is_br = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_is_jalr = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_is_jal = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_is_sfb = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_edge_inst = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_taken = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_prs1_busy = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_prs2_busy = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_prs3_busy = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_ppred_busy = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_exception = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_bypassable = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_mem_signed = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_is_fence = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_is_fencei = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_is_amo = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_uses_ldq = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_uses_stq = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_is_sys_pc2epc = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_is_unique = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_flush_on_commit = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_ldst_is_rs1 = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_ldst_val = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_frs3_en = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_fp_val = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_fp_single = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_xcpt_pf_if = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_xcpt_ae_if = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_xcpt_ma_if = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_bp_debug_if = 1'h0; // @[consts.scala:269:19] wire slot_uop_uop_bp_xcpt_if = 1'h0; // @[consts.scala:269:19] wire slot_uop_cs_fcn_dw = 1'h0; // @[consts.scala:279:18] wire slot_uop_cs_is_load = 1'h0; // @[consts.scala:279:18] wire slot_uop_cs_is_sta = 1'h0; // @[consts.scala:279:18] wire slot_uop_cs_is_std = 1'h0; // @[consts.scala:279:18] wire [4:0] io_pred_wakeup_port_bits = 5'h0; // @[issue-slot.scala:69:7] wire [4:0] slot_uop_uop_ctrl_op_fcn = 5'h0; // @[consts.scala:269:19] wire [4:0] slot_uop_uop_ftq_idx = 5'h0; // @[consts.scala:269:19] wire [4:0] slot_uop_uop_ldq_idx = 5'h0; // @[consts.scala:269:19] wire [4:0] slot_uop_uop_stq_idx = 5'h0; // @[consts.scala:269:19] wire [4:0] slot_uop_uop_ppred = 5'h0; // @[consts.scala:269:19] wire [4:0] slot_uop_uop_mem_cmd = 5'h0; // @[consts.scala:269:19] wire [4:0] slot_uop_cs_op_fcn = 5'h0; // @[consts.scala:279:18] wire [2:0] slot_uop_uop_iq_type = 3'h0; // @[consts.scala:269:19] wire [2:0] slot_uop_uop_ctrl_op2_sel = 3'h0; // @[consts.scala:269:19] wire [2:0] slot_uop_uop_ctrl_imm_sel = 3'h0; // @[consts.scala:269:19] wire [2:0] slot_uop_uop_ctrl_csr_cmd = 3'h0; // @[consts.scala:269:19] wire [2:0] slot_uop_cs_op2_sel = 3'h0; // @[consts.scala:279:18] wire [2:0] slot_uop_cs_imm_sel = 3'h0; // @[consts.scala:279:18] wire [2:0] slot_uop_cs_csr_cmd = 3'h0; // @[consts.scala:279:18] wire [1:0] slot_uop_uop_ctrl_op1_sel = 2'h0; // @[consts.scala:269:19] wire [1:0] slot_uop_uop_iw_state = 2'h0; // @[consts.scala:269:19] wire [1:0] slot_uop_uop_rxq_idx = 2'h0; // @[consts.scala:269:19] wire [1:0] slot_uop_uop_mem_size = 2'h0; // @[consts.scala:269:19] wire [1:0] slot_uop_uop_lrs1_rtype = 2'h0; // @[consts.scala:269:19] wire [1:0] slot_uop_uop_lrs2_rtype = 2'h0; // @[consts.scala:269:19] wire [1:0] slot_uop_uop_debug_fsrc = 2'h0; // @[consts.scala:269:19] wire [1:0] slot_uop_uop_debug_tsrc = 2'h0; // @[consts.scala:269:19] wire [1:0] slot_uop_cs_op1_sel = 2'h0; // @[consts.scala:279:18] wire [3:0] slot_uop_uop_ctrl_br_type = 4'h0; // @[consts.scala:269:19] wire [3:0] slot_uop_uop_br_tag = 4'h0; // @[consts.scala:269:19] wire [3:0] slot_uop_cs_br_type = 4'h0; // @[consts.scala:279:18] wire [1:0] slot_uop_uop_dst_rtype = 2'h2; // @[consts.scala:269:19] wire [5:0] slot_uop_uop_pc_lob = 6'h0; // @[consts.scala:269:19] wire [5:0] slot_uop_uop_ldst = 6'h0; // @[consts.scala:269:19] wire [5:0] slot_uop_uop_lrs1 = 6'h0; // @[consts.scala:269:19] wire [5:0] slot_uop_uop_lrs2 = 6'h0; // @[consts.scala:269:19] wire [5:0] slot_uop_uop_lrs3 = 6'h0; // @[consts.scala:269:19] wire [63:0] slot_uop_uop_exc_cause = 64'h0; // @[consts.scala:269:19] wire [6:0] slot_uop_uop_uopc = 7'h0; // @[consts.scala:269:19] wire [6:0] slot_uop_uop_rob_idx = 7'h0; // @[consts.scala:269:19] wire [6:0] slot_uop_uop_pdst = 7'h0; // @[consts.scala:269:19] wire [6:0] slot_uop_uop_prs1 = 7'h0; // @[consts.scala:269:19] wire [6:0] slot_uop_uop_prs2 = 7'h0; // @[consts.scala:269:19] wire [6:0] slot_uop_uop_prs3 = 7'h0; // @[consts.scala:269:19] wire [6:0] slot_uop_uop_stale_pdst = 7'h0; // @[consts.scala:269:19] wire [11:0] slot_uop_uop_csr_addr = 12'h0; // @[consts.scala:269:19] wire [19:0] slot_uop_uop_imm_packed = 20'h0; // @[consts.scala:269:19] wire [15:0] slot_uop_uop_br_mask = 16'h0; // @[consts.scala:269:19] wire [9:0] slot_uop_uop_fu_code = 10'h0; // @[consts.scala:269:19] wire [39:0] slot_uop_uop_debug_pc = 40'h0; // @[consts.scala:269:19] wire [31:0] slot_uop_uop_inst = 32'h0; // @[consts.scala:269:19] wire [31:0] slot_uop_uop_debug_inst = 32'h0; // @[consts.scala:269:19] wire _io_valid_T; // @[issue-slot.scala:79:24] wire _io_will_be_valid_T_4; // @[issue-slot.scala:262:32] wire _io_request_hp_T; // @[issue-slot.scala:243:31] wire [6:0] next_uopc; // @[issue-slot.scala:82:29] wire [1:0] next_state; // @[issue-slot.scala:81:29] wire [15:0] next_br_mask; // @[util.scala:85:25] wire _io_out_uop_prs1_busy_T; // @[issue-slot.scala:270:28] wire _io_out_uop_prs2_busy_T; // @[issue-slot.scala:271:28] wire _io_out_uop_prs3_busy_T; // @[issue-slot.scala:272:28] wire _io_out_uop_ppred_busy_T; // @[issue-slot.scala:273:28] wire [1:0] next_lrs1_rtype; // @[issue-slot.scala:83:29] wire [1:0] next_lrs2_rtype; // @[issue-slot.scala:84:29] wire [3:0] io_out_uop_ctrl_br_type_0; // @[issue-slot.scala:69:7] wire [1:0] io_out_uop_ctrl_op1_sel_0; // @[issue-slot.scala:69:7] wire [2:0] io_out_uop_ctrl_op2_sel_0; // @[issue-slot.scala:69:7] wire [2:0] io_out_uop_ctrl_imm_sel_0; // @[issue-slot.scala:69:7] wire [4:0] io_out_uop_ctrl_op_fcn_0; // @[issue-slot.scala:69:7] wire io_out_uop_ctrl_fcn_dw_0; // @[issue-slot.scala:69:7] wire [2:0] io_out_uop_ctrl_csr_cmd_0; // @[issue-slot.scala:69:7] wire io_out_uop_ctrl_is_load_0; // @[issue-slot.scala:69:7] wire io_out_uop_ctrl_is_sta_0; // @[issue-slot.scala:69:7] wire io_out_uop_ctrl_is_std_0; // @[issue-slot.scala:69:7] wire [6:0] io_out_uop_uopc_0; // @[issue-slot.scala:69:7] wire [31:0] io_out_uop_inst_0; // @[issue-slot.scala:69:7] wire [31:0] io_out_uop_debug_inst_0; // @[issue-slot.scala:69:7] wire io_out_uop_is_rvc_0; // @[issue-slot.scala:69:7] wire [39:0] io_out_uop_debug_pc_0; // @[issue-slot.scala:69:7] wire [2:0] io_out_uop_iq_type_0; // @[issue-slot.scala:69:7] wire [9:0] io_out_uop_fu_code_0; // @[issue-slot.scala:69:7] wire [1:0] io_out_uop_iw_state_0; // @[issue-slot.scala:69:7] wire io_out_uop_iw_p1_poisoned_0; // @[issue-slot.scala:69:7] wire io_out_uop_iw_p2_poisoned_0; // @[issue-slot.scala:69:7] wire io_out_uop_is_br_0; // @[issue-slot.scala:69:7] wire io_out_uop_is_jalr_0; // @[issue-slot.scala:69:7] wire io_out_uop_is_jal_0; // @[issue-slot.scala:69:7] wire io_out_uop_is_sfb_0; // @[issue-slot.scala:69:7] wire [15:0] io_out_uop_br_mask_0; // @[issue-slot.scala:69:7] wire [3:0] io_out_uop_br_tag_0; // @[issue-slot.scala:69:7] wire [4:0] io_out_uop_ftq_idx_0; // @[issue-slot.scala:69:7] wire io_out_uop_edge_inst_0; // @[issue-slot.scala:69:7] wire [5:0] io_out_uop_pc_lob_0; // @[issue-slot.scala:69:7] wire io_out_uop_taken_0; // @[issue-slot.scala:69:7] wire [19:0] io_out_uop_imm_packed_0; // @[issue-slot.scala:69:7] wire [11:0] io_out_uop_csr_addr_0; // @[issue-slot.scala:69:7] wire [6:0] io_out_uop_rob_idx_0; // @[issue-slot.scala:69:7] wire [4:0] io_out_uop_ldq_idx_0; // @[issue-slot.scala:69:7] wire [4:0] io_out_uop_stq_idx_0; // @[issue-slot.scala:69:7] wire [1:0] io_out_uop_rxq_idx_0; // @[issue-slot.scala:69:7] wire [6:0] io_out_uop_pdst_0; // @[issue-slot.scala:69:7] wire [6:0] io_out_uop_prs1_0; // @[issue-slot.scala:69:7] wire [6:0] io_out_uop_prs2_0; // @[issue-slot.scala:69:7] wire [6:0] io_out_uop_prs3_0; // @[issue-slot.scala:69:7] wire [4:0] io_out_uop_ppred_0; // @[issue-slot.scala:69:7] wire io_out_uop_prs1_busy_0; // @[issue-slot.scala:69:7] wire io_out_uop_prs2_busy_0; // @[issue-slot.scala:69:7] wire io_out_uop_prs3_busy_0; // @[issue-slot.scala:69:7] wire io_out_uop_ppred_busy_0; // @[issue-slot.scala:69:7] wire [6:0] io_out_uop_stale_pdst_0; // @[issue-slot.scala:69:7] wire io_out_uop_exception_0; // @[issue-slot.scala:69:7] wire [63:0] io_out_uop_exc_cause_0; // @[issue-slot.scala:69:7] wire io_out_uop_bypassable_0; // @[issue-slot.scala:69:7] wire [4:0] io_out_uop_mem_cmd_0; // @[issue-slot.scala:69:7] wire [1:0] io_out_uop_mem_size_0; // @[issue-slot.scala:69:7] wire io_out_uop_mem_signed_0; // @[issue-slot.scala:69:7] wire io_out_uop_is_fence_0; // @[issue-slot.scala:69:7] wire io_out_uop_is_fencei_0; // @[issue-slot.scala:69:7] wire io_out_uop_is_amo_0; // @[issue-slot.scala:69:7] wire io_out_uop_uses_ldq_0; // @[issue-slot.scala:69:7] wire io_out_uop_uses_stq_0; // @[issue-slot.scala:69:7] wire io_out_uop_is_sys_pc2epc_0; // @[issue-slot.scala:69:7] wire io_out_uop_is_unique_0; // @[issue-slot.scala:69:7] wire io_out_uop_flush_on_commit_0; // @[issue-slot.scala:69:7] wire io_out_uop_ldst_is_rs1_0; // @[issue-slot.scala:69:7] wire [5:0] io_out_uop_ldst_0; // @[issue-slot.scala:69:7] wire [5:0] io_out_uop_lrs1_0; // @[issue-slot.scala:69:7] wire [5:0] io_out_uop_lrs2_0; // @[issue-slot.scala:69:7] wire [5:0] io_out_uop_lrs3_0; // @[issue-slot.scala:69:7] wire io_out_uop_ldst_val_0; // @[issue-slot.scala:69:7] wire [1:0] io_out_uop_dst_rtype_0; // @[issue-slot.scala:69:7] wire [1:0] io_out_uop_lrs1_rtype_0; // @[issue-slot.scala:69:7] wire [1:0] io_out_uop_lrs2_rtype_0; // @[issue-slot.scala:69:7] wire io_out_uop_frs3_en_0; // @[issue-slot.scala:69:7] wire io_out_uop_fp_val_0; // @[issue-slot.scala:69:7] wire io_out_uop_fp_single_0; // @[issue-slot.scala:69:7] wire io_out_uop_xcpt_pf_if_0; // @[issue-slot.scala:69:7] wire io_out_uop_xcpt_ae_if_0; // @[issue-slot.scala:69:7] wire io_out_uop_xcpt_ma_if_0; // @[issue-slot.scala:69:7] wire io_out_uop_bp_debug_if_0; // @[issue-slot.scala:69:7] wire io_out_uop_bp_xcpt_if_0; // @[issue-slot.scala:69:7] wire [1:0] io_out_uop_debug_fsrc_0; // @[issue-slot.scala:69:7] wire [1:0] io_out_uop_debug_tsrc_0; // @[issue-slot.scala:69:7] wire [3:0] io_uop_ctrl_br_type_0; // @[issue-slot.scala:69:7] wire [1:0] io_uop_ctrl_op1_sel_0; // @[issue-slot.scala:69:7] wire [2:0] io_uop_ctrl_op2_sel_0; // @[issue-slot.scala:69:7] wire [2:0] io_uop_ctrl_imm_sel_0; // @[issue-slot.scala:69:7] wire [4:0] io_uop_ctrl_op_fcn_0; // @[issue-slot.scala:69:7] wire io_uop_ctrl_fcn_dw_0; // @[issue-slot.scala:69:7] wire [2:0] io_uop_ctrl_csr_cmd_0; // @[issue-slot.scala:69:7] wire io_uop_ctrl_is_load_0; // @[issue-slot.scala:69:7] wire io_uop_ctrl_is_sta_0; // @[issue-slot.scala:69:7] wire io_uop_ctrl_is_std_0; // @[issue-slot.scala:69:7] wire [6:0] io_uop_uopc_0; // @[issue-slot.scala:69:7] wire [31:0] io_uop_inst_0; // @[issue-slot.scala:69:7] wire [31:0] io_uop_debug_inst_0; // @[issue-slot.scala:69:7] wire io_uop_is_rvc_0; // @[issue-slot.scala:69:7] wire [39:0] io_uop_debug_pc_0; // @[issue-slot.scala:69:7] wire [2:0] io_uop_iq_type_0; // @[issue-slot.scala:69:7] wire [9:0] io_uop_fu_code_0; // @[issue-slot.scala:69:7] wire [1:0] io_uop_iw_state_0; // @[issue-slot.scala:69:7] wire io_uop_iw_p1_poisoned_0; // @[issue-slot.scala:69:7] wire io_uop_iw_p2_poisoned_0; // @[issue-slot.scala:69:7] wire io_uop_is_br_0; // @[issue-slot.scala:69:7] wire io_uop_is_jalr_0; // @[issue-slot.scala:69:7] wire io_uop_is_jal_0; // @[issue-slot.scala:69:7] wire io_uop_is_sfb_0; // @[issue-slot.scala:69:7] wire [15:0] io_uop_br_mask_0; // @[issue-slot.scala:69:7] wire [3:0] io_uop_br_tag_0; // @[issue-slot.scala:69:7] wire [4:0] io_uop_ftq_idx_0; // @[issue-slot.scala:69:7] wire io_uop_edge_inst_0; // @[issue-slot.scala:69:7] wire [5:0] io_uop_pc_lob_0; // @[issue-slot.scala:69:7] wire io_uop_taken_0; // @[issue-slot.scala:69:7] wire [19:0] io_uop_imm_packed_0; // @[issue-slot.scala:69:7] wire [11:0] io_uop_csr_addr_0; // @[issue-slot.scala:69:7] wire [6:0] io_uop_rob_idx_0; // @[issue-slot.scala:69:7] wire [4:0] io_uop_ldq_idx_0; // @[issue-slot.scala:69:7] wire [4:0] io_uop_stq_idx_0; // @[issue-slot.scala:69:7] wire [1:0] io_uop_rxq_idx_0; // @[issue-slot.scala:69:7] wire [6:0] io_uop_pdst_0; // @[issue-slot.scala:69:7] wire [6:0] io_uop_prs1_0; // @[issue-slot.scala:69:7] wire [6:0] io_uop_prs2_0; // @[issue-slot.scala:69:7] wire [6:0] io_uop_prs3_0; // @[issue-slot.scala:69:7] wire [4:0] io_uop_ppred_0; // @[issue-slot.scala:69:7] wire io_uop_prs1_busy_0; // @[issue-slot.scala:69:7] wire io_uop_prs2_busy_0; // @[issue-slot.scala:69:7] wire io_uop_prs3_busy_0; // @[issue-slot.scala:69:7] wire io_uop_ppred_busy_0; // @[issue-slot.scala:69:7] wire [6:0] io_uop_stale_pdst_0; // @[issue-slot.scala:69:7] wire io_uop_exception_0; // @[issue-slot.scala:69:7] wire [63:0] io_uop_exc_cause_0; // @[issue-slot.scala:69:7] wire io_uop_bypassable_0; // @[issue-slot.scala:69:7] wire [4:0] io_uop_mem_cmd_0; // @[issue-slot.scala:69:7] wire [1:0] io_uop_mem_size_0; // @[issue-slot.scala:69:7] wire io_uop_mem_signed_0; // @[issue-slot.scala:69:7] wire io_uop_is_fence_0; // @[issue-slot.scala:69:7] wire io_uop_is_fencei_0; // @[issue-slot.scala:69:7] wire io_uop_is_amo_0; // @[issue-slot.scala:69:7] wire io_uop_uses_ldq_0; // @[issue-slot.scala:69:7] wire io_uop_uses_stq_0; // @[issue-slot.scala:69:7] wire io_uop_is_sys_pc2epc_0; // @[issue-slot.scala:69:7] wire io_uop_is_unique_0; // @[issue-slot.scala:69:7] wire io_uop_flush_on_commit_0; // @[issue-slot.scala:69:7] wire io_uop_ldst_is_rs1_0; // @[issue-slot.scala:69:7] wire [5:0] io_uop_ldst_0; // @[issue-slot.scala:69:7] wire [5:0] io_uop_lrs1_0; // @[issue-slot.scala:69:7] wire [5:0] io_uop_lrs2_0; // @[issue-slot.scala:69:7] wire [5:0] io_uop_lrs3_0; // @[issue-slot.scala:69:7] wire io_uop_ldst_val_0; // @[issue-slot.scala:69:7] wire [1:0] io_uop_dst_rtype_0; // @[issue-slot.scala:69:7] wire [1:0] io_uop_lrs1_rtype_0; // @[issue-slot.scala:69:7] wire [1:0] io_uop_lrs2_rtype_0; // @[issue-slot.scala:69:7] wire io_uop_frs3_en_0; // @[issue-slot.scala:69:7] wire io_uop_fp_val_0; // @[issue-slot.scala:69:7] wire io_uop_fp_single_0; // @[issue-slot.scala:69:7] wire io_uop_xcpt_pf_if_0; // @[issue-slot.scala:69:7] wire io_uop_xcpt_ae_if_0; // @[issue-slot.scala:69:7] wire io_uop_xcpt_ma_if_0; // @[issue-slot.scala:69:7] wire io_uop_bp_debug_if_0; // @[issue-slot.scala:69:7] wire io_uop_bp_xcpt_if_0; // @[issue-slot.scala:69:7] wire [1:0] io_uop_debug_fsrc_0; // @[issue-slot.scala:69:7] wire [1:0] io_uop_debug_tsrc_0; // @[issue-slot.scala:69:7] wire io_debug_p1_0; // @[issue-slot.scala:69:7] wire io_debug_p2_0; // @[issue-slot.scala:69:7] wire io_debug_p3_0; // @[issue-slot.scala:69:7] wire io_debug_ppred_0; // @[issue-slot.scala:69:7] wire [1:0] io_debug_state_0; // @[issue-slot.scala:69:7] wire io_valid_0; // @[issue-slot.scala:69:7] wire io_will_be_valid_0; // @[issue-slot.scala:69:7] wire io_request_0; // @[issue-slot.scala:69:7] wire io_request_hp_0; // @[issue-slot.scala:69:7] assign io_out_uop_iw_state_0 = next_state; // @[issue-slot.scala:69:7, :81:29] assign io_out_uop_uopc_0 = next_uopc; // @[issue-slot.scala:69:7, :82:29] assign io_out_uop_lrs1_rtype_0 = next_lrs1_rtype; // @[issue-slot.scala:69:7, :83:29] assign io_out_uop_lrs2_rtype_0 = next_lrs2_rtype; // @[issue-slot.scala:69:7, :84:29] reg [1:0] state; // @[issue-slot.scala:86:22] assign io_debug_state_0 = state; // @[issue-slot.scala:69:7, :86:22] reg p1; // @[issue-slot.scala:87:22] assign io_debug_p1_0 = p1; // @[issue-slot.scala:69:7, :87:22] wire next_p1 = p1; // @[issue-slot.scala:87:22, :163:25] reg p2; // @[issue-slot.scala:88:22] assign io_debug_p2_0 = p2; // @[issue-slot.scala:69:7, :88:22] wire next_p2 = p2; // @[issue-slot.scala:88:22, :164:25] reg p3; // @[issue-slot.scala:89:22] assign io_debug_p3_0 = p3; // @[issue-slot.scala:69:7, :89:22] wire next_p3 = p3; // @[issue-slot.scala:89:22, :165:25] reg ppred; // @[issue-slot.scala:90:22] assign io_debug_ppred_0 = ppred; // @[issue-slot.scala:69:7, :90:22] wire next_ppred = ppred; // @[issue-slot.scala:90:22, :166:28] reg p1_poisoned; // @[issue-slot.scala:95:28] assign io_out_uop_iw_p1_poisoned_0 = p1_poisoned; // @[issue-slot.scala:69:7, :95:28] assign io_uop_iw_p1_poisoned_0 = p1_poisoned; // @[issue-slot.scala:69:7, :95:28] reg p2_poisoned; // @[issue-slot.scala:96:28] assign io_out_uop_iw_p2_poisoned_0 = p2_poisoned; // @[issue-slot.scala:69:7, :96:28] assign io_uop_iw_p2_poisoned_0 = p2_poisoned; // @[issue-slot.scala:69:7, :96:28] wire next_p1_poisoned = io_in_uop_valid_0 ? io_in_uop_bits_iw_p1_poisoned_0 : p1_poisoned; // @[issue-slot.scala:69:7, :95:28, :99:29] wire next_p2_poisoned = io_in_uop_valid_0 ? io_in_uop_bits_iw_p2_poisoned_0 : p2_poisoned; // @[issue-slot.scala:69:7, :96:28, :100:29] reg [6:0] slot_uop_uopc; // @[issue-slot.scala:102:25] reg [31:0] slot_uop_inst; // @[issue-slot.scala:102:25] assign io_out_uop_inst_0 = slot_uop_inst; // @[issue-slot.scala:69:7, :102:25] assign io_uop_inst_0 = slot_uop_inst; // @[issue-slot.scala:69:7, :102:25] reg [31:0] slot_uop_debug_inst; // @[issue-slot.scala:102:25] assign io_out_uop_debug_inst_0 = slot_uop_debug_inst; // @[issue-slot.scala:69:7, :102:25] assign io_uop_debug_inst_0 = slot_uop_debug_inst; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_is_rvc; // @[issue-slot.scala:102:25] assign io_out_uop_is_rvc_0 = slot_uop_is_rvc; // @[issue-slot.scala:69:7, :102:25] assign io_uop_is_rvc_0 = slot_uop_is_rvc; // @[issue-slot.scala:69:7, :102:25] reg [39:0] slot_uop_debug_pc; // @[issue-slot.scala:102:25] assign io_out_uop_debug_pc_0 = slot_uop_debug_pc; // @[issue-slot.scala:69:7, :102:25] assign io_uop_debug_pc_0 = slot_uop_debug_pc; // @[issue-slot.scala:69:7, :102:25] reg [2:0] slot_uop_iq_type; // @[issue-slot.scala:102:25] assign io_out_uop_iq_type_0 = slot_uop_iq_type; // @[issue-slot.scala:69:7, :102:25] assign io_uop_iq_type_0 = slot_uop_iq_type; // @[issue-slot.scala:69:7, :102:25] reg [9:0] slot_uop_fu_code; // @[issue-slot.scala:102:25] assign io_out_uop_fu_code_0 = slot_uop_fu_code; // @[issue-slot.scala:69:7, :102:25] assign io_uop_fu_code_0 = slot_uop_fu_code; // @[issue-slot.scala:69:7, :102:25] reg [3:0] slot_uop_ctrl_br_type; // @[issue-slot.scala:102:25] assign io_out_uop_ctrl_br_type_0 = slot_uop_ctrl_br_type; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ctrl_br_type_0 = slot_uop_ctrl_br_type; // @[issue-slot.scala:69:7, :102:25] reg [1:0] slot_uop_ctrl_op1_sel; // @[issue-slot.scala:102:25] assign io_out_uop_ctrl_op1_sel_0 = slot_uop_ctrl_op1_sel; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ctrl_op1_sel_0 = slot_uop_ctrl_op1_sel; // @[issue-slot.scala:69:7, :102:25] reg [2:0] slot_uop_ctrl_op2_sel; // @[issue-slot.scala:102:25] assign io_out_uop_ctrl_op2_sel_0 = slot_uop_ctrl_op2_sel; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ctrl_op2_sel_0 = slot_uop_ctrl_op2_sel; // @[issue-slot.scala:69:7, :102:25] reg [2:0] slot_uop_ctrl_imm_sel; // @[issue-slot.scala:102:25] assign io_out_uop_ctrl_imm_sel_0 = slot_uop_ctrl_imm_sel; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ctrl_imm_sel_0 = slot_uop_ctrl_imm_sel; // @[issue-slot.scala:69:7, :102:25] reg [4:0] slot_uop_ctrl_op_fcn; // @[issue-slot.scala:102:25] assign io_out_uop_ctrl_op_fcn_0 = slot_uop_ctrl_op_fcn; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ctrl_op_fcn_0 = slot_uop_ctrl_op_fcn; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_ctrl_fcn_dw; // @[issue-slot.scala:102:25] assign io_out_uop_ctrl_fcn_dw_0 = slot_uop_ctrl_fcn_dw; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ctrl_fcn_dw_0 = slot_uop_ctrl_fcn_dw; // @[issue-slot.scala:69:7, :102:25] reg [2:0] slot_uop_ctrl_csr_cmd; // @[issue-slot.scala:102:25] assign io_out_uop_ctrl_csr_cmd_0 = slot_uop_ctrl_csr_cmd; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ctrl_csr_cmd_0 = slot_uop_ctrl_csr_cmd; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_ctrl_is_load; // @[issue-slot.scala:102:25] assign io_out_uop_ctrl_is_load_0 = slot_uop_ctrl_is_load; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ctrl_is_load_0 = slot_uop_ctrl_is_load; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_ctrl_is_sta; // @[issue-slot.scala:102:25] assign io_out_uop_ctrl_is_sta_0 = slot_uop_ctrl_is_sta; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ctrl_is_sta_0 = slot_uop_ctrl_is_sta; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_ctrl_is_std; // @[issue-slot.scala:102:25] assign io_out_uop_ctrl_is_std_0 = slot_uop_ctrl_is_std; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ctrl_is_std_0 = slot_uop_ctrl_is_std; // @[issue-slot.scala:69:7, :102:25] reg [1:0] slot_uop_iw_state; // @[issue-slot.scala:102:25] assign io_uop_iw_state_0 = slot_uop_iw_state; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_iw_p1_poisoned; // @[issue-slot.scala:102:25] reg slot_uop_iw_p2_poisoned; // @[issue-slot.scala:102:25] reg slot_uop_is_br; // @[issue-slot.scala:102:25] assign io_out_uop_is_br_0 = slot_uop_is_br; // @[issue-slot.scala:69:7, :102:25] assign io_uop_is_br_0 = slot_uop_is_br; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_is_jalr; // @[issue-slot.scala:102:25] assign io_out_uop_is_jalr_0 = slot_uop_is_jalr; // @[issue-slot.scala:69:7, :102:25] assign io_uop_is_jalr_0 = slot_uop_is_jalr; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_is_jal; // @[issue-slot.scala:102:25] assign io_out_uop_is_jal_0 = slot_uop_is_jal; // @[issue-slot.scala:69:7, :102:25] assign io_uop_is_jal_0 = slot_uop_is_jal; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_is_sfb; // @[issue-slot.scala:102:25] assign io_out_uop_is_sfb_0 = slot_uop_is_sfb; // @[issue-slot.scala:69:7, :102:25] assign io_uop_is_sfb_0 = slot_uop_is_sfb; // @[issue-slot.scala:69:7, :102:25] reg [15:0] slot_uop_br_mask; // @[issue-slot.scala:102:25] assign io_uop_br_mask_0 = slot_uop_br_mask; // @[issue-slot.scala:69:7, :102:25] reg [3:0] slot_uop_br_tag; // @[issue-slot.scala:102:25] assign io_out_uop_br_tag_0 = slot_uop_br_tag; // @[issue-slot.scala:69:7, :102:25] assign io_uop_br_tag_0 = slot_uop_br_tag; // @[issue-slot.scala:69:7, :102:25] reg [4:0] slot_uop_ftq_idx; // @[issue-slot.scala:102:25] assign io_out_uop_ftq_idx_0 = slot_uop_ftq_idx; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ftq_idx_0 = slot_uop_ftq_idx; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_edge_inst; // @[issue-slot.scala:102:25] assign io_out_uop_edge_inst_0 = slot_uop_edge_inst; // @[issue-slot.scala:69:7, :102:25] assign io_uop_edge_inst_0 = slot_uop_edge_inst; // @[issue-slot.scala:69:7, :102:25] reg [5:0] slot_uop_pc_lob; // @[issue-slot.scala:102:25] assign io_out_uop_pc_lob_0 = slot_uop_pc_lob; // @[issue-slot.scala:69:7, :102:25] assign io_uop_pc_lob_0 = slot_uop_pc_lob; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_taken; // @[issue-slot.scala:102:25] assign io_out_uop_taken_0 = slot_uop_taken; // @[issue-slot.scala:69:7, :102:25] assign io_uop_taken_0 = slot_uop_taken; // @[issue-slot.scala:69:7, :102:25] reg [19:0] slot_uop_imm_packed; // @[issue-slot.scala:102:25] assign io_out_uop_imm_packed_0 = slot_uop_imm_packed; // @[issue-slot.scala:69:7, :102:25] assign io_uop_imm_packed_0 = slot_uop_imm_packed; // @[issue-slot.scala:69:7, :102:25] reg [11:0] slot_uop_csr_addr; // @[issue-slot.scala:102:25] assign io_out_uop_csr_addr_0 = slot_uop_csr_addr; // @[issue-slot.scala:69:7, :102:25] assign io_uop_csr_addr_0 = slot_uop_csr_addr; // @[issue-slot.scala:69:7, :102:25] reg [6:0] slot_uop_rob_idx; // @[issue-slot.scala:102:25] assign io_out_uop_rob_idx_0 = slot_uop_rob_idx; // @[issue-slot.scala:69:7, :102:25] assign io_uop_rob_idx_0 = slot_uop_rob_idx; // @[issue-slot.scala:69:7, :102:25] reg [4:0] slot_uop_ldq_idx; // @[issue-slot.scala:102:25] assign io_out_uop_ldq_idx_0 = slot_uop_ldq_idx; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ldq_idx_0 = slot_uop_ldq_idx; // @[issue-slot.scala:69:7, :102:25] reg [4:0] slot_uop_stq_idx; // @[issue-slot.scala:102:25] assign io_out_uop_stq_idx_0 = slot_uop_stq_idx; // @[issue-slot.scala:69:7, :102:25] assign io_uop_stq_idx_0 = slot_uop_stq_idx; // @[issue-slot.scala:69:7, :102:25] reg [1:0] slot_uop_rxq_idx; // @[issue-slot.scala:102:25] assign io_out_uop_rxq_idx_0 = slot_uop_rxq_idx; // @[issue-slot.scala:69:7, :102:25] assign io_uop_rxq_idx_0 = slot_uop_rxq_idx; // @[issue-slot.scala:69:7, :102:25] reg [6:0] slot_uop_pdst; // @[issue-slot.scala:102:25] assign io_out_uop_pdst_0 = slot_uop_pdst; // @[issue-slot.scala:69:7, :102:25] assign io_uop_pdst_0 = slot_uop_pdst; // @[issue-slot.scala:69:7, :102:25] reg [6:0] slot_uop_prs1; // @[issue-slot.scala:102:25] assign io_out_uop_prs1_0 = slot_uop_prs1; // @[issue-slot.scala:69:7, :102:25] assign io_uop_prs1_0 = slot_uop_prs1; // @[issue-slot.scala:69:7, :102:25] reg [6:0] slot_uop_prs2; // @[issue-slot.scala:102:25] assign io_out_uop_prs2_0 = slot_uop_prs2; // @[issue-slot.scala:69:7, :102:25] assign io_uop_prs2_0 = slot_uop_prs2; // @[issue-slot.scala:69:7, :102:25] reg [6:0] slot_uop_prs3; // @[issue-slot.scala:102:25] assign io_out_uop_prs3_0 = slot_uop_prs3; // @[issue-slot.scala:69:7, :102:25] assign io_uop_prs3_0 = slot_uop_prs3; // @[issue-slot.scala:69:7, :102:25] reg [4:0] slot_uop_ppred; // @[issue-slot.scala:102:25] assign io_out_uop_ppred_0 = slot_uop_ppred; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ppred_0 = slot_uop_ppred; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_prs1_busy; // @[issue-slot.scala:102:25] assign io_uop_prs1_busy_0 = slot_uop_prs1_busy; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_prs2_busy; // @[issue-slot.scala:102:25] assign io_uop_prs2_busy_0 = slot_uop_prs2_busy; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_prs3_busy; // @[issue-slot.scala:102:25] assign io_uop_prs3_busy_0 = slot_uop_prs3_busy; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_ppred_busy; // @[issue-slot.scala:102:25] assign io_uop_ppred_busy_0 = slot_uop_ppred_busy; // @[issue-slot.scala:69:7, :102:25] reg [6:0] slot_uop_stale_pdst; // @[issue-slot.scala:102:25] assign io_out_uop_stale_pdst_0 = slot_uop_stale_pdst; // @[issue-slot.scala:69:7, :102:25] assign io_uop_stale_pdst_0 = slot_uop_stale_pdst; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_exception; // @[issue-slot.scala:102:25] assign io_out_uop_exception_0 = slot_uop_exception; // @[issue-slot.scala:69:7, :102:25] assign io_uop_exception_0 = slot_uop_exception; // @[issue-slot.scala:69:7, :102:25] reg [63:0] slot_uop_exc_cause; // @[issue-slot.scala:102:25] assign io_out_uop_exc_cause_0 = slot_uop_exc_cause; // @[issue-slot.scala:69:7, :102:25] assign io_uop_exc_cause_0 = slot_uop_exc_cause; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_bypassable; // @[issue-slot.scala:102:25] assign io_out_uop_bypassable_0 = slot_uop_bypassable; // @[issue-slot.scala:69:7, :102:25] assign io_uop_bypassable_0 = slot_uop_bypassable; // @[issue-slot.scala:69:7, :102:25] reg [4:0] slot_uop_mem_cmd; // @[issue-slot.scala:102:25] assign io_out_uop_mem_cmd_0 = slot_uop_mem_cmd; // @[issue-slot.scala:69:7, :102:25] assign io_uop_mem_cmd_0 = slot_uop_mem_cmd; // @[issue-slot.scala:69:7, :102:25] reg [1:0] slot_uop_mem_size; // @[issue-slot.scala:102:25] assign io_out_uop_mem_size_0 = slot_uop_mem_size; // @[issue-slot.scala:69:7, :102:25] assign io_uop_mem_size_0 = slot_uop_mem_size; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_mem_signed; // @[issue-slot.scala:102:25] assign io_out_uop_mem_signed_0 = slot_uop_mem_signed; // @[issue-slot.scala:69:7, :102:25] assign io_uop_mem_signed_0 = slot_uop_mem_signed; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_is_fence; // @[issue-slot.scala:102:25] assign io_out_uop_is_fence_0 = slot_uop_is_fence; // @[issue-slot.scala:69:7, :102:25] assign io_uop_is_fence_0 = slot_uop_is_fence; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_is_fencei; // @[issue-slot.scala:102:25] assign io_out_uop_is_fencei_0 = slot_uop_is_fencei; // @[issue-slot.scala:69:7, :102:25] assign io_uop_is_fencei_0 = slot_uop_is_fencei; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_is_amo; // @[issue-slot.scala:102:25] assign io_out_uop_is_amo_0 = slot_uop_is_amo; // @[issue-slot.scala:69:7, :102:25] assign io_uop_is_amo_0 = slot_uop_is_amo; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_uses_ldq; // @[issue-slot.scala:102:25] assign io_out_uop_uses_ldq_0 = slot_uop_uses_ldq; // @[issue-slot.scala:69:7, :102:25] assign io_uop_uses_ldq_0 = slot_uop_uses_ldq; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_uses_stq; // @[issue-slot.scala:102:25] assign io_out_uop_uses_stq_0 = slot_uop_uses_stq; // @[issue-slot.scala:69:7, :102:25] assign io_uop_uses_stq_0 = slot_uop_uses_stq; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_is_sys_pc2epc; // @[issue-slot.scala:102:25] assign io_out_uop_is_sys_pc2epc_0 = slot_uop_is_sys_pc2epc; // @[issue-slot.scala:69:7, :102:25] assign io_uop_is_sys_pc2epc_0 = slot_uop_is_sys_pc2epc; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_is_unique; // @[issue-slot.scala:102:25] assign io_out_uop_is_unique_0 = slot_uop_is_unique; // @[issue-slot.scala:69:7, :102:25] assign io_uop_is_unique_0 = slot_uop_is_unique; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_flush_on_commit; // @[issue-slot.scala:102:25] assign io_out_uop_flush_on_commit_0 = slot_uop_flush_on_commit; // @[issue-slot.scala:69:7, :102:25] assign io_uop_flush_on_commit_0 = slot_uop_flush_on_commit; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_ldst_is_rs1; // @[issue-slot.scala:102:25] assign io_out_uop_ldst_is_rs1_0 = slot_uop_ldst_is_rs1; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ldst_is_rs1_0 = slot_uop_ldst_is_rs1; // @[issue-slot.scala:69:7, :102:25] reg [5:0] slot_uop_ldst; // @[issue-slot.scala:102:25] assign io_out_uop_ldst_0 = slot_uop_ldst; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ldst_0 = slot_uop_ldst; // @[issue-slot.scala:69:7, :102:25] reg [5:0] slot_uop_lrs1; // @[issue-slot.scala:102:25] assign io_out_uop_lrs1_0 = slot_uop_lrs1; // @[issue-slot.scala:69:7, :102:25] assign io_uop_lrs1_0 = slot_uop_lrs1; // @[issue-slot.scala:69:7, :102:25] reg [5:0] slot_uop_lrs2; // @[issue-slot.scala:102:25] assign io_out_uop_lrs2_0 = slot_uop_lrs2; // @[issue-slot.scala:69:7, :102:25] assign io_uop_lrs2_0 = slot_uop_lrs2; // @[issue-slot.scala:69:7, :102:25] reg [5:0] slot_uop_lrs3; // @[issue-slot.scala:102:25] assign io_out_uop_lrs3_0 = slot_uop_lrs3; // @[issue-slot.scala:69:7, :102:25] assign io_uop_lrs3_0 = slot_uop_lrs3; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_ldst_val; // @[issue-slot.scala:102:25] assign io_out_uop_ldst_val_0 = slot_uop_ldst_val; // @[issue-slot.scala:69:7, :102:25] assign io_uop_ldst_val_0 = slot_uop_ldst_val; // @[issue-slot.scala:69:7, :102:25] reg [1:0] slot_uop_dst_rtype; // @[issue-slot.scala:102:25] assign io_out_uop_dst_rtype_0 = slot_uop_dst_rtype; // @[issue-slot.scala:69:7, :102:25] assign io_uop_dst_rtype_0 = slot_uop_dst_rtype; // @[issue-slot.scala:69:7, :102:25] reg [1:0] slot_uop_lrs1_rtype; // @[issue-slot.scala:102:25] reg [1:0] slot_uop_lrs2_rtype; // @[issue-slot.scala:102:25] reg slot_uop_frs3_en; // @[issue-slot.scala:102:25] assign io_out_uop_frs3_en_0 = slot_uop_frs3_en; // @[issue-slot.scala:69:7, :102:25] assign io_uop_frs3_en_0 = slot_uop_frs3_en; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_fp_val; // @[issue-slot.scala:102:25] assign io_out_uop_fp_val_0 = slot_uop_fp_val; // @[issue-slot.scala:69:7, :102:25] assign io_uop_fp_val_0 = slot_uop_fp_val; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_fp_single; // @[issue-slot.scala:102:25] assign io_out_uop_fp_single_0 = slot_uop_fp_single; // @[issue-slot.scala:69:7, :102:25] assign io_uop_fp_single_0 = slot_uop_fp_single; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_xcpt_pf_if; // @[issue-slot.scala:102:25] assign io_out_uop_xcpt_pf_if_0 = slot_uop_xcpt_pf_if; // @[issue-slot.scala:69:7, :102:25] assign io_uop_xcpt_pf_if_0 = slot_uop_xcpt_pf_if; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_xcpt_ae_if; // @[issue-slot.scala:102:25] assign io_out_uop_xcpt_ae_if_0 = slot_uop_xcpt_ae_if; // @[issue-slot.scala:69:7, :102:25] assign io_uop_xcpt_ae_if_0 = slot_uop_xcpt_ae_if; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_xcpt_ma_if; // @[issue-slot.scala:102:25] assign io_out_uop_xcpt_ma_if_0 = slot_uop_xcpt_ma_if; // @[issue-slot.scala:69:7, :102:25] assign io_uop_xcpt_ma_if_0 = slot_uop_xcpt_ma_if; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_bp_debug_if; // @[issue-slot.scala:102:25] assign io_out_uop_bp_debug_if_0 = slot_uop_bp_debug_if; // @[issue-slot.scala:69:7, :102:25] assign io_uop_bp_debug_if_0 = slot_uop_bp_debug_if; // @[issue-slot.scala:69:7, :102:25] reg slot_uop_bp_xcpt_if; // @[issue-slot.scala:102:25] assign io_out_uop_bp_xcpt_if_0 = slot_uop_bp_xcpt_if; // @[issue-slot.scala:69:7, :102:25] assign io_uop_bp_xcpt_if_0 = slot_uop_bp_xcpt_if; // @[issue-slot.scala:69:7, :102:25] reg [1:0] slot_uop_debug_fsrc; // @[issue-slot.scala:102:25] assign io_out_uop_debug_fsrc_0 = slot_uop_debug_fsrc; // @[issue-slot.scala:69:7, :102:25] assign io_uop_debug_fsrc_0 = slot_uop_debug_fsrc; // @[issue-slot.scala:69:7, :102:25] reg [1:0] slot_uop_debug_tsrc; // @[issue-slot.scala:102:25] assign io_out_uop_debug_tsrc_0 = slot_uop_debug_tsrc; // @[issue-slot.scala:69:7, :102:25] assign io_uop_debug_tsrc_0 = slot_uop_debug_tsrc; // @[issue-slot.scala:69:7, :102:25] wire [6:0] next_uop_uopc = io_in_uop_valid_0 ? io_in_uop_bits_uopc_0 : slot_uop_uopc; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [31:0] next_uop_inst = io_in_uop_valid_0 ? io_in_uop_bits_inst_0 : slot_uop_inst; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [31:0] next_uop_debug_inst = io_in_uop_valid_0 ? io_in_uop_bits_debug_inst_0 : slot_uop_debug_inst; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_is_rvc = io_in_uop_valid_0 ? io_in_uop_bits_is_rvc_0 : slot_uop_is_rvc; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [39:0] next_uop_debug_pc = io_in_uop_valid_0 ? io_in_uop_bits_debug_pc_0 : slot_uop_debug_pc; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [2:0] next_uop_iq_type = io_in_uop_valid_0 ? io_in_uop_bits_iq_type_0 : slot_uop_iq_type; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [9:0] next_uop_fu_code = io_in_uop_valid_0 ? io_in_uop_bits_fu_code_0 : slot_uop_fu_code; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [3:0] next_uop_ctrl_br_type = io_in_uop_valid_0 ? io_in_uop_bits_ctrl_br_type_0 : slot_uop_ctrl_br_type; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [1:0] next_uop_ctrl_op1_sel = io_in_uop_valid_0 ? io_in_uop_bits_ctrl_op1_sel_0 : slot_uop_ctrl_op1_sel; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [2:0] next_uop_ctrl_op2_sel = io_in_uop_valid_0 ? io_in_uop_bits_ctrl_op2_sel_0 : slot_uop_ctrl_op2_sel; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [2:0] next_uop_ctrl_imm_sel = io_in_uop_valid_0 ? io_in_uop_bits_ctrl_imm_sel_0 : slot_uop_ctrl_imm_sel; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [4:0] next_uop_ctrl_op_fcn = io_in_uop_valid_0 ? io_in_uop_bits_ctrl_op_fcn_0 : slot_uop_ctrl_op_fcn; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_ctrl_fcn_dw = io_in_uop_valid_0 ? io_in_uop_bits_ctrl_fcn_dw_0 : slot_uop_ctrl_fcn_dw; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [2:0] next_uop_ctrl_csr_cmd = io_in_uop_valid_0 ? io_in_uop_bits_ctrl_csr_cmd_0 : slot_uop_ctrl_csr_cmd; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_ctrl_is_load = io_in_uop_valid_0 ? io_in_uop_bits_ctrl_is_load_0 : slot_uop_ctrl_is_load; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_ctrl_is_sta = io_in_uop_valid_0 ? io_in_uop_bits_ctrl_is_sta_0 : slot_uop_ctrl_is_sta; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_ctrl_is_std = io_in_uop_valid_0 ? io_in_uop_bits_ctrl_is_std_0 : slot_uop_ctrl_is_std; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [1:0] next_uop_iw_state = io_in_uop_valid_0 ? io_in_uop_bits_iw_state_0 : slot_uop_iw_state; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_iw_p1_poisoned = io_in_uop_valid_0 ? io_in_uop_bits_iw_p1_poisoned_0 : slot_uop_iw_p1_poisoned; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_iw_p2_poisoned = io_in_uop_valid_0 ? io_in_uop_bits_iw_p2_poisoned_0 : slot_uop_iw_p2_poisoned; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_is_br = io_in_uop_valid_0 ? io_in_uop_bits_is_br_0 : slot_uop_is_br; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_is_jalr = io_in_uop_valid_0 ? io_in_uop_bits_is_jalr_0 : slot_uop_is_jalr; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_is_jal = io_in_uop_valid_0 ? io_in_uop_bits_is_jal_0 : slot_uop_is_jal; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_is_sfb = io_in_uop_valid_0 ? io_in_uop_bits_is_sfb_0 : slot_uop_is_sfb; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [15:0] next_uop_br_mask = io_in_uop_valid_0 ? io_in_uop_bits_br_mask_0 : slot_uop_br_mask; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [3:0] next_uop_br_tag = io_in_uop_valid_0 ? io_in_uop_bits_br_tag_0 : slot_uop_br_tag; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [4:0] next_uop_ftq_idx = io_in_uop_valid_0 ? io_in_uop_bits_ftq_idx_0 : slot_uop_ftq_idx; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_edge_inst = io_in_uop_valid_0 ? io_in_uop_bits_edge_inst_0 : slot_uop_edge_inst; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [5:0] next_uop_pc_lob = io_in_uop_valid_0 ? io_in_uop_bits_pc_lob_0 : slot_uop_pc_lob; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_taken = io_in_uop_valid_0 ? io_in_uop_bits_taken_0 : slot_uop_taken; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [19:0] next_uop_imm_packed = io_in_uop_valid_0 ? io_in_uop_bits_imm_packed_0 : slot_uop_imm_packed; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [11:0] next_uop_csr_addr = io_in_uop_valid_0 ? io_in_uop_bits_csr_addr_0 : slot_uop_csr_addr; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [6:0] next_uop_rob_idx = io_in_uop_valid_0 ? io_in_uop_bits_rob_idx_0 : slot_uop_rob_idx; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [4:0] next_uop_ldq_idx = io_in_uop_valid_0 ? io_in_uop_bits_ldq_idx_0 : slot_uop_ldq_idx; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [4:0] next_uop_stq_idx = io_in_uop_valid_0 ? io_in_uop_bits_stq_idx_0 : slot_uop_stq_idx; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [1:0] next_uop_rxq_idx = io_in_uop_valid_0 ? io_in_uop_bits_rxq_idx_0 : slot_uop_rxq_idx; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [6:0] next_uop_pdst = io_in_uop_valid_0 ? io_in_uop_bits_pdst_0 : slot_uop_pdst; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [6:0] next_uop_prs1 = io_in_uop_valid_0 ? io_in_uop_bits_prs1_0 : slot_uop_prs1; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [6:0] next_uop_prs2 = io_in_uop_valid_0 ? io_in_uop_bits_prs2_0 : slot_uop_prs2; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [6:0] next_uop_prs3 = io_in_uop_valid_0 ? io_in_uop_bits_prs3_0 : slot_uop_prs3; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [4:0] next_uop_ppred = io_in_uop_valid_0 ? io_in_uop_bits_ppred_0 : slot_uop_ppred; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_prs1_busy = io_in_uop_valid_0 ? io_in_uop_bits_prs1_busy_0 : slot_uop_prs1_busy; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_prs2_busy = io_in_uop_valid_0 ? io_in_uop_bits_prs2_busy_0 : slot_uop_prs2_busy; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_prs3_busy = io_in_uop_valid_0 ? io_in_uop_bits_prs3_busy_0 : slot_uop_prs3_busy; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_ppred_busy = io_in_uop_valid_0 ? io_in_uop_bits_ppred_busy_0 : slot_uop_ppred_busy; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [6:0] next_uop_stale_pdst = io_in_uop_valid_0 ? io_in_uop_bits_stale_pdst_0 : slot_uop_stale_pdst; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_exception = io_in_uop_valid_0 ? io_in_uop_bits_exception_0 : slot_uop_exception; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [63:0] next_uop_exc_cause = io_in_uop_valid_0 ? io_in_uop_bits_exc_cause_0 : slot_uop_exc_cause; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_bypassable = io_in_uop_valid_0 ? io_in_uop_bits_bypassable_0 : slot_uop_bypassable; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [4:0] next_uop_mem_cmd = io_in_uop_valid_0 ? io_in_uop_bits_mem_cmd_0 : slot_uop_mem_cmd; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [1:0] next_uop_mem_size = io_in_uop_valid_0 ? io_in_uop_bits_mem_size_0 : slot_uop_mem_size; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_mem_signed = io_in_uop_valid_0 ? io_in_uop_bits_mem_signed_0 : slot_uop_mem_signed; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_is_fence = io_in_uop_valid_0 ? io_in_uop_bits_is_fence_0 : slot_uop_is_fence; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_is_fencei = io_in_uop_valid_0 ? io_in_uop_bits_is_fencei_0 : slot_uop_is_fencei; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_is_amo = io_in_uop_valid_0 ? io_in_uop_bits_is_amo_0 : slot_uop_is_amo; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_uses_ldq = io_in_uop_valid_0 ? io_in_uop_bits_uses_ldq_0 : slot_uop_uses_ldq; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_uses_stq = io_in_uop_valid_0 ? io_in_uop_bits_uses_stq_0 : slot_uop_uses_stq; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_is_sys_pc2epc = io_in_uop_valid_0 ? io_in_uop_bits_is_sys_pc2epc_0 : slot_uop_is_sys_pc2epc; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_is_unique = io_in_uop_valid_0 ? io_in_uop_bits_is_unique_0 : slot_uop_is_unique; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_flush_on_commit = io_in_uop_valid_0 ? io_in_uop_bits_flush_on_commit_0 : slot_uop_flush_on_commit; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_ldst_is_rs1 = io_in_uop_valid_0 ? io_in_uop_bits_ldst_is_rs1_0 : slot_uop_ldst_is_rs1; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [5:0] next_uop_ldst = io_in_uop_valid_0 ? io_in_uop_bits_ldst_0 : slot_uop_ldst; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [5:0] next_uop_lrs1 = io_in_uop_valid_0 ? io_in_uop_bits_lrs1_0 : slot_uop_lrs1; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [5:0] next_uop_lrs2 = io_in_uop_valid_0 ? io_in_uop_bits_lrs2_0 : slot_uop_lrs2; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [5:0] next_uop_lrs3 = io_in_uop_valid_0 ? io_in_uop_bits_lrs3_0 : slot_uop_lrs3; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_ldst_val = io_in_uop_valid_0 ? io_in_uop_bits_ldst_val_0 : slot_uop_ldst_val; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [1:0] next_uop_dst_rtype = io_in_uop_valid_0 ? io_in_uop_bits_dst_rtype_0 : slot_uop_dst_rtype; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [1:0] next_uop_lrs1_rtype = io_in_uop_valid_0 ? io_in_uop_bits_lrs1_rtype_0 : slot_uop_lrs1_rtype; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [1:0] next_uop_lrs2_rtype = io_in_uop_valid_0 ? io_in_uop_bits_lrs2_rtype_0 : slot_uop_lrs2_rtype; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_frs3_en = io_in_uop_valid_0 ? io_in_uop_bits_frs3_en_0 : slot_uop_frs3_en; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_fp_val = io_in_uop_valid_0 ? io_in_uop_bits_fp_val_0 : slot_uop_fp_val; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_fp_single = io_in_uop_valid_0 ? io_in_uop_bits_fp_single_0 : slot_uop_fp_single; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_xcpt_pf_if = io_in_uop_valid_0 ? io_in_uop_bits_xcpt_pf_if_0 : slot_uop_xcpt_pf_if; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_xcpt_ae_if = io_in_uop_valid_0 ? io_in_uop_bits_xcpt_ae_if_0 : slot_uop_xcpt_ae_if; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_xcpt_ma_if = io_in_uop_valid_0 ? io_in_uop_bits_xcpt_ma_if_0 : slot_uop_xcpt_ma_if; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_bp_debug_if = io_in_uop_valid_0 ? io_in_uop_bits_bp_debug_if_0 : slot_uop_bp_debug_if; // @[issue-slot.scala:69:7, :102:25, :103:21] wire next_uop_bp_xcpt_if = io_in_uop_valid_0 ? io_in_uop_bits_bp_xcpt_if_0 : slot_uop_bp_xcpt_if; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [1:0] next_uop_debug_fsrc = io_in_uop_valid_0 ? io_in_uop_bits_debug_fsrc_0 : slot_uop_debug_fsrc; // @[issue-slot.scala:69:7, :102:25, :103:21] wire [1:0] next_uop_debug_tsrc = io_in_uop_valid_0 ? io_in_uop_bits_debug_tsrc_0 : slot_uop_debug_tsrc; // @[issue-slot.scala:69:7, :102:25, :103:21] wire _T_11 = state == 2'h2; // @[issue-slot.scala:86:22, :134:25] wire _T_7 = io_grant_0 & state == 2'h1 | io_grant_0 & _T_11 & p1 & p2 & ppred; // @[issue-slot.scala:69:7, :86:22, :87:22, :88:22, :90:22, :133:{26,36,52}, :134:{15,25,40,46,52}] wire _T_12 = io_grant_0 & _T_11; // @[issue-slot.scala:69:7, :134:25, :139:25] wire _T_14 = io_ldspec_miss_0 & (p1_poisoned | p2_poisoned); // @[issue-slot.scala:69:7, :95:28, :96:28, :140:{28,44}] wire _GEN = _T_12 & ~_T_14; // @[issue-slot.scala:126:14, :139:{25,51}, :140:{11,28,62}, :141:18] wire _GEN_0 = io_kill_0 | _T_7; // @[issue-slot.scala:69:7, :102:25, :131:18, :133:52, :134:63, :139:51] wire _GEN_1 = _GEN_0 | ~(_T_12 & ~_T_14 & p1); // @[issue-slot.scala:87:22, :102:25, :131:18, :134:63, :139:{25,51}, :140:{11,28,62}, :142:17, :143:23] assign next_uopc = _GEN_1 ? slot_uop_uopc : 7'h3; // @[issue-slot.scala:82:29, :102:25, :131:18, :134:63, :139:51] assign next_lrs1_rtype = _GEN_1 ? slot_uop_lrs1_rtype : 2'h2; // @[issue-slot.scala:83:29, :102:25, :131:18, :134:63, :139:51] wire _GEN_2 = _GEN_0 | ~_GEN | p1; // @[issue-slot.scala:87:22, :102:25, :126:14, :131:18, :134:63, :139:51, :140:62, :141:18, :142:17] assign next_lrs2_rtype = _GEN_2 ? slot_uop_lrs2_rtype : 2'h2; // @[issue-slot.scala:84:29, :102:25, :131:18, :134:63, :139:51, :140:62, :142:17] wire _p1_T = ~io_in_uop_bits_prs1_busy_0; // @[issue-slot.scala:69:7, :169:11] wire _p2_T = ~io_in_uop_bits_prs2_busy_0; // @[issue-slot.scala:69:7, :170:11] wire _p3_T = ~io_in_uop_bits_prs3_busy_0; // @[issue-slot.scala:69:7, :171:11] wire _ppred_T = ~io_in_uop_bits_ppred_busy_0; // @[issue-slot.scala:69:7, :172:14] wire _T_22 = io_ldspec_miss_0 & next_p1_poisoned; // @[issue-slot.scala:69:7, :99:29, :175:24] wire _T_27 = io_ldspec_miss_0 & next_p2_poisoned; // @[issue-slot.scala:69:7, :100:29, :179:24] wire _T_85 = io_spec_ld_wakeup_0_valid_0 & io_spec_ld_wakeup_0_bits_0 == next_uop_prs1 & next_uop_lrs1_rtype == 2'h0; // @[issue-slot.scala:69:7, :103:21, :209:38, :210:{33,51}, :211:27] wire _T_93 = io_spec_ld_wakeup_0_valid_0 & io_spec_ld_wakeup_0_bits_0 == next_uop_prs2 & next_uop_lrs2_rtype == 2'h0; // @[issue-slot.scala:69:7, :103:21, :216:38, :217:{33,51}, :218:27]
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceLine import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import freechips.rocketchip.diplomacy.EnableMonitors import freechips.rocketchip.formal.{MonitorDirection, IfThen, Property, PropertyClass, TestplanTestType, TLMonitorStrictMode} import freechips.rocketchip.util.PlusArg case class TLMonitorArgs(edge: TLEdge) abstract class TLMonitorBase(args: TLMonitorArgs) extends Module { val io = IO(new Bundle { val in = Input(new TLBundle(args.edge.bundle)) }) def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit legalize(io.in, args.edge, reset) } object TLMonitor { def apply(enable: Boolean, node: TLNode)(implicit p: Parameters): TLNode = { if (enable) { EnableMonitors { implicit p => node := TLEphemeralNode()(ValName("monitor")) } } else { node } } } class TLMonitor(args: TLMonitorArgs, monitorDir: MonitorDirection = MonitorDirection.Monitor) extends TLMonitorBase(args) { require (args.edge.params(TLMonitorStrictMode) || (! args.edge.params(TestplanTestType).formal)) val cover_prop_class = PropertyClass.Default //Like assert but can flip to being an assumption for formal verification def monAssert(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir, cond, message, PropertyClass.Default) } def assume(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir.flip, cond, message, PropertyClass.Default) } def extra = { args.edge.sourceInfo match { case SourceLine(filename, line, col) => s" (connected at $filename:$line:$col)" case _ => "" } } def visible(address: UInt, source: UInt, edge: TLEdge) = edge.client.clients.map { c => !c.sourceId.contains(source) || c.visibility.map(_.contains(address)).reduce(_ || _) }.reduce(_ && _) def legalizeFormatA(bundle: TLBundleA, edge: TLEdge): Unit = { //switch this flag to turn on diplomacy in error messages def diplomacyInfo = if (true) "" else "\nThe diplomacy information for the edge is as follows:\n" + edge.formatEdge + "\n" monAssert (TLMessages.isA(bundle.opcode), "'A' channel has invalid opcode" + extra) // Reuse these subexpressions to save some firrtl lines val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) monAssert (visible(edge.address(bundle), bundle.source, edge), "'A' channel carries an address illegal for the specified bank visibility") //The monitor doesn’t check for acquire T vs acquire B, it assumes that acquire B implies acquire T and only checks for acquire B //TODO: check for acquireT? when (bundle.opcode === TLMessages.AcquireBlock) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquireBlock carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquireBlock smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquireBlock address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquireBlock carries invalid grow param" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquireBlock contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquireBlock is corrupt" + extra) } when (bundle.opcode === TLMessages.AcquirePerm) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquirePerm carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquirePerm smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquirePerm address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquirePerm carries invalid grow param" + extra) monAssert (bundle.param =/= TLPermissions.NtoB, "'A' channel AcquirePerm requests NtoB" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquirePerm contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquirePerm is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.emitsGet(bundle.source, bundle.size), "'A' channel carries Get type which master claims it can't emit" + diplomacyInfo + extra) monAssert (edge.slave.supportsGetSafe(edge.address(bundle), bundle.size, None), "'A' channel carries Get type which slave claims it can't support" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel Get carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.emitsPutFull(bundle.source, bundle.size) && edge.slave.supportsPutFullSafe(edge.address(bundle), bundle.size), "'A' channel carries PutFull type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel PutFull carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.emitsPutPartial(bundle.source, bundle.size) && edge.slave.supportsPutPartialSafe(edge.address(bundle), bundle.size), "'A' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel PutPartial carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'A' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.emitsArithmetic(bundle.source, bundle.size) && edge.slave.supportsArithmeticSafe(edge.address(bundle), bundle.size), "'A' channel carries Arithmetic type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Arithmetic carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'A' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.emitsLogical(bundle.source, bundle.size) && edge.slave.supportsLogicalSafe(edge.address(bundle), bundle.size), "'A' channel carries Logical type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Logical carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'A' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.emitsHint(bundle.source, bundle.size) && edge.slave.supportsHintSafe(edge.address(bundle), bundle.size), "'A' channel carries Hint type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Hint carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Hint address not aligned to size" + extra) monAssert (TLHints.isHints(bundle.param), "'A' channel Hint carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Hint is corrupt" + extra) } } def legalizeFormatB(bundle: TLBundleB, edge: TLEdge): Unit = { monAssert (TLMessages.isB(bundle.opcode), "'B' channel has invalid opcode" + extra) monAssert (visible(edge.address(bundle), bundle.source, edge), "'B' channel carries an address illegal for the specified bank visibility") // Reuse these subexpressions to save some firrtl lines val address_ok = edge.manager.containsSafe(edge.address(bundle)) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) val legal_source = Mux1H(edge.client.find(bundle.source), edge.client.clients.map(c => c.sourceId.start.U)) === bundle.source when (bundle.opcode === TLMessages.Probe) { assume (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'B' channel carries Probe type which is unexpected using diplomatic parameters" + extra) assume (address_ok, "'B' channel Probe carries unmanaged address" + extra) assume (legal_source, "'B' channel Probe carries source that is not first source" + extra) assume (is_aligned, "'B' channel Probe address not aligned to size" + extra) assume (TLPermissions.isCap(bundle.param), "'B' channel Probe carries invalid cap param" + extra) assume (bundle.mask === mask, "'B' channel Probe contains invalid mask" + extra) assume (!bundle.corrupt, "'B' channel Probe is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.supportsGet(edge.source(bundle), bundle.size) && edge.slave.emitsGetSafe(edge.address(bundle), bundle.size), "'B' channel carries Get type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel Get carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Get carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.supportsPutFull(edge.source(bundle), bundle.size) && edge.slave.emitsPutFullSafe(edge.address(bundle), bundle.size), "'B' channel carries PutFull type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutFull carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutFull carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.supportsPutPartial(edge.source(bundle), bundle.size) && edge.slave.emitsPutPartialSafe(edge.address(bundle), bundle.size), "'B' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutPartial carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutPartial carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'B' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.supportsArithmetic(edge.source(bundle), bundle.size) && edge.slave.emitsArithmeticSafe(edge.address(bundle), bundle.size), "'B' channel carries Arithmetic type unsupported by master" + extra) monAssert (address_ok, "'B' channel Arithmetic carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Arithmetic carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'B' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.supportsLogical(edge.source(bundle), bundle.size) && edge.slave.emitsLogicalSafe(edge.address(bundle), bundle.size), "'B' channel carries Logical type unsupported by client" + extra) monAssert (address_ok, "'B' channel Logical carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Logical carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'B' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.supportsHint(edge.source(bundle), bundle.size) && edge.slave.emitsHintSafe(edge.address(bundle), bundle.size), "'B' channel carries Hint type unsupported by client" + extra) monAssert (address_ok, "'B' channel Hint carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Hint carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Hint address not aligned to size" + extra) monAssert (bundle.mask === mask, "'B' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Hint is corrupt" + extra) } } def legalizeFormatC(bundle: TLBundleC, edge: TLEdge): Unit = { monAssert (TLMessages.isC(bundle.opcode), "'C' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val address_ok = edge.manager.containsSafe(edge.address(bundle)) monAssert (visible(edge.address(bundle), bundle.source, edge), "'C' channel carries an address illegal for the specified bank visibility") when (bundle.opcode === TLMessages.ProbeAck) { monAssert (address_ok, "'C' channel ProbeAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAck carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAck smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAck address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAck carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel ProbeAck is corrupt" + extra) } when (bundle.opcode === TLMessages.ProbeAckData) { monAssert (address_ok, "'C' channel ProbeAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAckData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAckData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAckData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAckData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.Release) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries Release type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel Release carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel Release smaller than a beat" + extra) monAssert (is_aligned, "'C' channel Release address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel Release carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel Release is corrupt" + extra) } when (bundle.opcode === TLMessages.ReleaseData) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries ReleaseData type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel ReleaseData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ReleaseData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ReleaseData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ReleaseData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.AccessAck) { monAssert (address_ok, "'C' channel AccessAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel AccessAck is corrupt" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { monAssert (address_ok, "'C' channel AccessAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAckData carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAckData address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAckData carries invalid param" + extra) } when (bundle.opcode === TLMessages.HintAck) { monAssert (address_ok, "'C' channel HintAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel HintAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel HintAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel HintAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel HintAck is corrupt" + extra) } } def legalizeFormatD(bundle: TLBundleD, edge: TLEdge): Unit = { assume (TLMessages.isD(bundle.opcode), "'D' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val sink_ok = bundle.sink < edge.manager.endSinkId.U val deny_put_ok = edge.manager.mayDenyPut.B val deny_get_ok = edge.manager.mayDenyGet.B when (bundle.opcode === TLMessages.ReleaseAck) { assume (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel ReleaseAck smaller than a beat" + extra) assume (bundle.param === 0.U, "'D' channel ReleaseeAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel ReleaseAck is corrupt" + extra) assume (!bundle.denied, "'D' channel ReleaseAck is denied" + extra) } when (bundle.opcode === TLMessages.Grant) { assume (source_ok, "'D' channel Grant carries invalid source ID" + extra) assume (sink_ok, "'D' channel Grant carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel Grant smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel Grant carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel Grant carries toN param" + extra) assume (!bundle.corrupt, "'D' channel Grant is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel Grant is denied" + extra) } when (bundle.opcode === TLMessages.GrantData) { assume (source_ok, "'D' channel GrantData carries invalid source ID" + extra) assume (sink_ok, "'D' channel GrantData carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel GrantData smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel GrantData carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel GrantData carries toN param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel GrantData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel GrantData is denied" + extra) } when (bundle.opcode === TLMessages.AccessAck) { assume (source_ok, "'D' channel AccessAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel AccessAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel AccessAck is denied" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { assume (source_ok, "'D' channel AccessAckData carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAckData carries invalid param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel AccessAckData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel AccessAckData is denied" + extra) } when (bundle.opcode === TLMessages.HintAck) { assume (source_ok, "'D' channel HintAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel HintAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel HintAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel HintAck is denied" + extra) } } def legalizeFormatE(bundle: TLBundleE, edge: TLEdge): Unit = { val sink_ok = bundle.sink < edge.manager.endSinkId.U monAssert (sink_ok, "'E' channels carries invalid sink ID" + extra) } def legalizeFormat(bundle: TLBundle, edge: TLEdge) = { when (bundle.a.valid) { legalizeFormatA(bundle.a.bits, edge) } when (bundle.d.valid) { legalizeFormatD(bundle.d.bits, edge) } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { when (bundle.b.valid) { legalizeFormatB(bundle.b.bits, edge) } when (bundle.c.valid) { legalizeFormatC(bundle.c.bits, edge) } when (bundle.e.valid) { legalizeFormatE(bundle.e.bits, edge) } } else { monAssert (!bundle.b.valid, "'B' channel valid and not TL-C" + extra) monAssert (!bundle.c.valid, "'C' channel valid and not TL-C" + extra) monAssert (!bundle.e.valid, "'E' channel valid and not TL-C" + extra) } } def legalizeMultibeatA(a: DecoupledIO[TLBundleA], edge: TLEdge): Unit = { val a_first = edge.first(a.bits, a.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (a.valid && !a_first) { monAssert (a.bits.opcode === opcode, "'A' channel opcode changed within multibeat operation" + extra) monAssert (a.bits.param === param, "'A' channel param changed within multibeat operation" + extra) monAssert (a.bits.size === size, "'A' channel size changed within multibeat operation" + extra) monAssert (a.bits.source === source, "'A' channel source changed within multibeat operation" + extra) monAssert (a.bits.address=== address,"'A' channel address changed with multibeat operation" + extra) } when (a.fire && a_first) { opcode := a.bits.opcode param := a.bits.param size := a.bits.size source := a.bits.source address := a.bits.address } } def legalizeMultibeatB(b: DecoupledIO[TLBundleB], edge: TLEdge): Unit = { val b_first = edge.first(b.bits, b.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (b.valid && !b_first) { monAssert (b.bits.opcode === opcode, "'B' channel opcode changed within multibeat operation" + extra) monAssert (b.bits.param === param, "'B' channel param changed within multibeat operation" + extra) monAssert (b.bits.size === size, "'B' channel size changed within multibeat operation" + extra) monAssert (b.bits.source === source, "'B' channel source changed within multibeat operation" + extra) monAssert (b.bits.address=== address,"'B' channel addresss changed with multibeat operation" + extra) } when (b.fire && b_first) { opcode := b.bits.opcode param := b.bits.param size := b.bits.size source := b.bits.source address := b.bits.address } } def legalizeADSourceFormal(bundle: TLBundle, edge: TLEdge): Unit = { // Symbolic variable val sym_source = Wire(UInt(edge.client.endSourceId.W)) // TODO: Connect sym_source to a fixed value for simulation and to a // free wire in formal sym_source := 0.U // Type casting Int to UInt val maxSourceId = Wire(UInt(edge.client.endSourceId.W)) maxSourceId := edge.client.endSourceId.U // Delayed verison of sym_source val sym_source_d = Reg(UInt(edge.client.endSourceId.W)) sym_source_d := sym_source // These will be constraints for FV setup Property( MonitorDirection.Monitor, (sym_source === sym_source_d), "sym_source should remain stable", PropertyClass.Default) Property( MonitorDirection.Monitor, (sym_source <= maxSourceId), "sym_source should take legal value", PropertyClass.Default) val my_resp_pend = RegInit(false.B) val my_opcode = Reg(UInt()) val my_size = Reg(UInt()) val a_first = bundle.a.valid && edge.first(bundle.a.bits, bundle.a.fire) val d_first = bundle.d.valid && edge.first(bundle.d.bits, bundle.d.fire) val my_a_first_beat = a_first && (bundle.a.bits.source === sym_source) val my_d_first_beat = d_first && (bundle.d.bits.source === sym_source) val my_clr_resp_pend = (bundle.d.fire && my_d_first_beat) val my_set_resp_pend = (bundle.a.fire && my_a_first_beat && !my_clr_resp_pend) when (my_set_resp_pend) { my_resp_pend := true.B } .elsewhen (my_clr_resp_pend) { my_resp_pend := false.B } when (my_a_first_beat) { my_opcode := bundle.a.bits.opcode my_size := bundle.a.bits.size } val my_resp_size = Mux(my_a_first_beat, bundle.a.bits.size, my_size) val my_resp_opcode = Mux(my_a_first_beat, bundle.a.bits.opcode, my_opcode) val my_resp_opcode_legal = Wire(Bool()) when ((my_resp_opcode === TLMessages.Get) || (my_resp_opcode === TLMessages.ArithmeticData) || (my_resp_opcode === TLMessages.LogicalData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAckData) } .elsewhen ((my_resp_opcode === TLMessages.PutFullData) || (my_resp_opcode === TLMessages.PutPartialData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAck) } .otherwise { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.HintAck) } monAssert (IfThen(my_resp_pend, !my_a_first_beat), "Request message should not be sent with a source ID, for which a response message" + "is already pending (not received until current cycle) for a prior request message" + "with the same source ID" + extra) assume (IfThen(my_clr_resp_pend, (my_set_resp_pend || my_resp_pend)), "Response message should be accepted with a source ID only if a request message with the" + "same source ID has been accepted or is being accepted in the current cycle" + extra) assume (IfThen(my_d_first_beat, (my_a_first_beat || my_resp_pend)), "Response message should be sent with a source ID only if a request message with the" + "same source ID has been accepted or is being sent in the current cycle" + extra) assume (IfThen(my_d_first_beat, (bundle.d.bits.size === my_resp_size)), "If d_valid is 1, then d_size should be same as a_size of the corresponding request" + "message" + extra) assume (IfThen(my_d_first_beat, my_resp_opcode_legal), "If d_valid is 1, then d_opcode should correspond with a_opcode of the corresponding" + "request message" + extra) } def legalizeMultibeatC(c: DecoupledIO[TLBundleC], edge: TLEdge): Unit = { val c_first = edge.first(c.bits, c.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (c.valid && !c_first) { monAssert (c.bits.opcode === opcode, "'C' channel opcode changed within multibeat operation" + extra) monAssert (c.bits.param === param, "'C' channel param changed within multibeat operation" + extra) monAssert (c.bits.size === size, "'C' channel size changed within multibeat operation" + extra) monAssert (c.bits.source === source, "'C' channel source changed within multibeat operation" + extra) monAssert (c.bits.address=== address,"'C' channel address changed with multibeat operation" + extra) } when (c.fire && c_first) { opcode := c.bits.opcode param := c.bits.param size := c.bits.size source := c.bits.source address := c.bits.address } } def legalizeMultibeatD(d: DecoupledIO[TLBundleD], edge: TLEdge): Unit = { val d_first = edge.first(d.bits, d.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val sink = Reg(UInt()) val denied = Reg(Bool()) when (d.valid && !d_first) { assume (d.bits.opcode === opcode, "'D' channel opcode changed within multibeat operation" + extra) assume (d.bits.param === param, "'D' channel param changed within multibeat operation" + extra) assume (d.bits.size === size, "'D' channel size changed within multibeat operation" + extra) assume (d.bits.source === source, "'D' channel source changed within multibeat operation" + extra) assume (d.bits.sink === sink, "'D' channel sink changed with multibeat operation" + extra) assume (d.bits.denied === denied, "'D' channel denied changed with multibeat operation" + extra) } when (d.fire && d_first) { opcode := d.bits.opcode param := d.bits.param size := d.bits.size source := d.bits.source sink := d.bits.sink denied := d.bits.denied } } def legalizeMultibeat(bundle: TLBundle, edge: TLEdge): Unit = { legalizeMultibeatA(bundle.a, edge) legalizeMultibeatD(bundle.d, edge) if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { legalizeMultibeatB(bundle.b, edge) legalizeMultibeatC(bundle.c, edge) } } //This is left in for almond which doesn't adhere to the tilelink protocol @deprecated("Use legalizeADSource instead if possible","") def legalizeADSourceOld(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.client.endSourceId.W)) val a_first = edge.first(bundle.a.bits, bundle.a.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val a_set = WireInit(0.U(edge.client.endSourceId.W)) when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) assert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) assume((a_set | inflight)(bundle.d.bits.source), "'D' channel acknowledged for nothing inflight" + extra) } if (edge.manager.minLatency > 0) { assume(a_set =/= d_clr || !a_set.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") assert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeADSource(bundle: TLBundle, edge: TLEdge): Unit = { val a_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val a_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_a_opcode_bus_size = log2Ceil(a_opcode_bus_size) val log_a_size_bus_size = log2Ceil(a_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) // size up to avoid width error inflight.suggestName("inflight") val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) inflight_opcodes.suggestName("inflight_opcodes") val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) inflight_sizes.suggestName("inflight_sizes") val a_first = edge.first(bundle.a.bits, bundle.a.fire) a_first.suggestName("a_first") val d_first = edge.first(bundle.d.bits, bundle.d.fire) d_first.suggestName("d_first") val a_set = WireInit(0.U(edge.client.endSourceId.W)) val a_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) a_set.suggestName("a_set") a_set_wo_ready.suggestName("a_set_wo_ready") val a_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) a_opcodes_set.suggestName("a_opcodes_set") val a_sizes_set = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) a_sizes_set.suggestName("a_sizes_set") val a_opcode_lookup = WireInit(0.U((a_opcode_bus_size - 1).W)) a_opcode_lookup.suggestName("a_opcode_lookup") a_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_a_opcode_bus_size.U) & size_to_numfullbits(1.U << log_a_opcode_bus_size.U)) >> 1.U val a_size_lookup = WireInit(0.U((1 << log_a_size_bus_size).W)) a_size_lookup.suggestName("a_size_lookup") a_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_a_size_bus_size.U) & size_to_numfullbits(1.U << log_a_size_bus_size.U)) >> 1.U val responseMap = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.Grant, TLMessages.Grant)) val responseMapSecondOption = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.GrantData, TLMessages.Grant)) val a_opcodes_set_interm = WireInit(0.U(a_opcode_bus_size.W)) a_opcodes_set_interm.suggestName("a_opcodes_set_interm") val a_sizes_set_interm = WireInit(0.U(a_size_bus_size.W)) a_sizes_set_interm.suggestName("a_sizes_set_interm") when (bundle.a.valid && a_first && edge.isRequest(bundle.a.bits)) { a_set_wo_ready := UIntToOH(bundle.a.bits.source) } when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) a_opcodes_set_interm := (bundle.a.bits.opcode << 1.U) | 1.U a_sizes_set_interm := (bundle.a.bits.size << 1.U) | 1.U a_opcodes_set := (a_opcodes_set_interm) << (bundle.a.bits.source << log_a_opcode_bus_size.U) a_sizes_set := (a_sizes_set_interm) << (bundle.a.bits.source << log_a_size_bus_size.U) monAssert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) d_opcodes_clr.suggestName("d_opcodes_clr") val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_a_opcode_bus_size.U) << (bundle.d.bits.source << log_a_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_a_size_bus_size.U) << (bundle.d.bits.source << log_a_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { val same_cycle_resp = bundle.a.valid && a_first && edge.isRequest(bundle.a.bits) && (bundle.a.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.opcode === responseMap(bundle.a.bits.opcode)) || (bundle.d.bits.opcode === responseMapSecondOption(bundle.a.bits.opcode)), "'D' channel contains improper opcode response" + extra) assume((bundle.a.bits.size === bundle.d.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.opcode === responseMap(a_opcode_lookup)) || (bundle.d.bits.opcode === responseMapSecondOption(a_opcode_lookup)), "'D' channel contains improper opcode response" + extra) assume((bundle.d.bits.size === a_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && a_first && bundle.a.valid && (bundle.a.bits.source === bundle.d.bits.source) && !d_release_ack) { assume((!bundle.d.ready) || bundle.a.ready, "ready check") } if (edge.manager.minLatency > 0) { assume(a_set_wo_ready =/= d_clr_wo_ready || !a_set_wo_ready.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr inflight_opcodes := (inflight_opcodes | a_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | a_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeCDSource(bundle: TLBundle, edge: TLEdge): Unit = { val c_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val c_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_c_opcode_bus_size = log2Ceil(c_opcode_bus_size) val log_c_size_bus_size = log2Ceil(c_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) inflight.suggestName("inflight") inflight_opcodes.suggestName("inflight_opcodes") inflight_sizes.suggestName("inflight_sizes") val c_first = edge.first(bundle.c.bits, bundle.c.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) c_first.suggestName("c_first") d_first.suggestName("d_first") val c_set = WireInit(0.U(edge.client.endSourceId.W)) val c_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val c_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val c_sizes_set = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) c_set.suggestName("c_set") c_set_wo_ready.suggestName("c_set_wo_ready") c_opcodes_set.suggestName("c_opcodes_set") c_sizes_set.suggestName("c_sizes_set") val c_opcode_lookup = WireInit(0.U((1 << log_c_opcode_bus_size).W)) val c_size_lookup = WireInit(0.U((1 << log_c_size_bus_size).W)) c_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_c_opcode_bus_size.U) & size_to_numfullbits(1.U << log_c_opcode_bus_size.U)) >> 1.U c_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_c_size_bus_size.U) & size_to_numfullbits(1.U << log_c_size_bus_size.U)) >> 1.U c_opcode_lookup.suggestName("c_opcode_lookup") c_size_lookup.suggestName("c_size_lookup") val c_opcodes_set_interm = WireInit(0.U(c_opcode_bus_size.W)) val c_sizes_set_interm = WireInit(0.U(c_size_bus_size.W)) c_opcodes_set_interm.suggestName("c_opcodes_set_interm") c_sizes_set_interm.suggestName("c_sizes_set_interm") when (bundle.c.valid && c_first && edge.isRequest(bundle.c.bits)) { c_set_wo_ready := UIntToOH(bundle.c.bits.source) } when (bundle.c.fire && c_first && edge.isRequest(bundle.c.bits)) { c_set := UIntToOH(bundle.c.bits.source) c_opcodes_set_interm := (bundle.c.bits.opcode << 1.U) | 1.U c_sizes_set_interm := (bundle.c.bits.size << 1.U) | 1.U c_opcodes_set := (c_opcodes_set_interm) << (bundle.c.bits.source << log_c_opcode_bus_size.U) c_sizes_set := (c_sizes_set_interm) << (bundle.c.bits.source << log_c_size_bus_size.U) monAssert(!inflight(bundle.c.bits.source), "'C' channel re-used a source ID" + extra) } val c_probe_ack = bundle.c.bits.opcode === TLMessages.ProbeAck || bundle.c.bits.opcode === TLMessages.ProbeAckData val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") d_opcodes_clr.suggestName("d_opcodes_clr") d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_c_opcode_bus_size.U) << (bundle.d.bits.source << log_c_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_c_size_bus_size.U) << (bundle.d.bits.source << log_c_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { val same_cycle_resp = bundle.c.valid && c_first && edge.isRequest(bundle.c.bits) && (bundle.c.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.size === bundle.c.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.size === c_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && c_first && bundle.c.valid && (bundle.c.bits.source === bundle.d.bits.source) && d_release_ack && !c_probe_ack) { assume((!bundle.d.ready) || bundle.c.ready, "ready check") } if (edge.manager.minLatency > 0) { when (c_set_wo_ready.orR) { assume(c_set_wo_ready =/= d_clr_wo_ready, s"'C' and 'D' concurrent, despite minlatency > 0" + extra) } } inflight := (inflight | c_set) & ~d_clr inflight_opcodes := (inflight_opcodes | c_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | c_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.c.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeDESink(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.manager.endSinkId.W)) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val e_first = true.B val d_set = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.d.fire && d_first && edge.isRequest(bundle.d.bits)) { d_set := UIntToOH(bundle.d.bits.sink) assume(!inflight(bundle.d.bits.sink), "'D' channel re-used a sink ID" + extra) } val e_clr = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.e.fire && e_first && edge.isResponse(bundle.e.bits)) { e_clr := UIntToOH(bundle.e.bits.sink) monAssert((d_set | inflight)(bundle.e.bits.sink), "'E' channel acknowledged for nothing inflight" + extra) } // edge.client.minLatency applies to BC, not DE inflight := (inflight | d_set) & ~e_clr } def legalizeUnique(bundle: TLBundle, edge: TLEdge): Unit = { val sourceBits = log2Ceil(edge.client.endSourceId) val tooBig = 14 // >16kB worth of flight information gets to be too much if (sourceBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with source bits (${sourceBits}) > ${tooBig}; A=>D transaction flight will not be checked") } else { if (args.edge.params(TestplanTestType).simulation) { if (args.edge.params(TLMonitorStrictMode)) { legalizeADSource(bundle, edge) legalizeCDSource(bundle, edge) } else { legalizeADSourceOld(bundle, edge) } } if (args.edge.params(TestplanTestType).formal) { legalizeADSourceFormal(bundle, edge) } } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { // legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize... val sinkBits = log2Ceil(edge.manager.endSinkId) if (sinkBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with sink bits (${sinkBits}) > ${tooBig}; D=>E transaction flight will not be checked") } else { legalizeDESink(bundle, edge) } } } def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit = { legalizeFormat (bundle, edge) legalizeMultibeat (bundle, edge) legalizeUnique (bundle, edge) } } File Misc.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import scala.math._ class ParameterizedBundle(implicit p: Parameters) extends Bundle trait Clocked extends Bundle { val clock = Clock() val reset = Bool() } object DecoupledHelper { def apply(rvs: Bool*) = new DecoupledHelper(rvs) } class DecoupledHelper(val rvs: Seq[Bool]) { def fire(exclude: Bool, includes: Bool*) = { require(rvs.contains(exclude), "Excluded Bool not present in DecoupledHelper! Note that DecoupledHelper uses referential equality for exclusion! If you don't want to exclude anything, use fire()!") (rvs.filter(_ ne exclude) ++ includes).reduce(_ && _) } def fire() = { rvs.reduce(_ && _) } } object MuxT { def apply[T <: Data, U <: Data](cond: Bool, con: (T, U), alt: (T, U)): (T, U) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2)) def apply[T <: Data, U <: Data, W <: Data](cond: Bool, con: (T, U, W), alt: (T, U, W)): (T, U, W) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3)) def apply[T <: Data, U <: Data, W <: Data, X <: Data](cond: Bool, con: (T, U, W, X), alt: (T, U, W, X)): (T, U, W, X) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3), Mux(cond, con._4, alt._4)) } /** Creates a cascade of n MuxTs to search for a key value. */ object MuxTLookup { def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } } object ValidMux { def apply[T <: Data](v1: ValidIO[T], v2: ValidIO[T]*): ValidIO[T] = { apply(v1 +: v2.toSeq) } def apply[T <: Data](valids: Seq[ValidIO[T]]): ValidIO[T] = { val out = Wire(Valid(valids.head.bits.cloneType)) out.valid := valids.map(_.valid).reduce(_ || _) out.bits := MuxCase(valids.head.bits, valids.map(v => (v.valid -> v.bits))) out } } object Str { def apply(s: String): UInt = { var i = BigInt(0) require(s.forall(validChar _)) for (c <- s) i = (i << 8) | c i.U((s.length*8).W) } def apply(x: Char): UInt = { require(validChar(x)) x.U(8.W) } def apply(x: UInt): UInt = apply(x, 10) def apply(x: UInt, radix: Int): UInt = { val rad = radix.U val w = x.getWidth require(w > 0) var q = x var s = digit(q % rad) for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad s = Cat(Mux((radix == 10).B && q === 0.U, Str(' '), digit(q % rad)), s) } s } def apply(x: SInt): UInt = apply(x, 10) def apply(x: SInt, radix: Int): UInt = { val neg = x < 0.S val abs = x.abs.asUInt if (radix != 10) { Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix)) } else { val rad = radix.U val w = abs.getWidth require(w > 0) var q = abs var s = digit(q % rad) var needSign = neg for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad val placeSpace = q === 0.U val space = Mux(needSign, Str('-'), Str(' ')) needSign = needSign && !placeSpace s = Cat(Mux(placeSpace, space, digit(q % rad)), s) } Cat(Mux(needSign, Str('-'), Str(' ')), s) } } private def digit(d: UInt): UInt = Mux(d < 10.U, Str('0')+d, Str(('a'-10).toChar)+d)(7,0) private def validChar(x: Char) = x == (x & 0xFF) } object Split { def apply(x: UInt, n0: Int) = { val w = x.getWidth (x.extract(w-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n2: Int, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n2), x.extract(n2-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } } object Random { def apply(mod: Int, random: UInt): UInt = { if (isPow2(mod)) random.extract(log2Ceil(mod)-1,0) else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod)) } def apply(mod: Int): UInt = apply(mod, randomizer) def oneHot(mod: Int, random: UInt): UInt = { if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0)) else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).asUInt } def oneHot(mod: Int): UInt = oneHot(mod, randomizer) private def randomizer = LFSR(16) private def partition(value: UInt, slices: Int) = Seq.tabulate(slices)(i => value < (((i + 1) << value.getWidth) / slices).U) } object Majority { def apply(in: Set[Bool]): Bool = { val n = (in.size >> 1) + 1 val clauses = in.subsets(n).map(_.reduce(_ && _)) clauses.reduce(_ || _) } def apply(in: Seq[Bool]): Bool = apply(in.toSet) def apply(in: UInt): Bool = apply(in.asBools.toSet) } object PopCountAtLeast { private def two(x: UInt): (Bool, Bool) = x.getWidth match { case 1 => (x.asBool, false.B) case n => val half = x.getWidth / 2 val (leftOne, leftTwo) = two(x(half - 1, 0)) val (rightOne, rightTwo) = two(x(x.getWidth - 1, half)) (leftOne || rightOne, leftTwo || rightTwo || (leftOne && rightOne)) } def apply(x: UInt, n: Int): Bool = n match { case 0 => true.B case 1 => x.orR case 2 => two(x)._2 case 3 => PopCount(x) >= n.U } } // This gets used everywhere, so make the smallest circuit possible ... // Given an address and size, create a mask of beatBytes size // eg: (0x3, 0, 4) => 0001, (0x3, 1, 4) => 0011, (0x3, 2, 4) => 1111 // groupBy applies an interleaved OR reduction; groupBy=2 take 0010 => 01 object MaskGen { def apply(addr_lo: UInt, lgSize: UInt, beatBytes: Int, groupBy: Int = 1): UInt = { require (groupBy >= 1 && beatBytes >= groupBy) require (isPow2(beatBytes) && isPow2(groupBy)) val lgBytes = log2Ceil(beatBytes) val sizeOH = UIntToOH(lgSize | 0.U(log2Up(beatBytes).W), log2Up(beatBytes)) | (groupBy*2 - 1).U def helper(i: Int): Seq[(Bool, Bool)] = { if (i == 0) { Seq((lgSize >= lgBytes.asUInt, true.B)) } else { val sub = helper(i-1) val size = sizeOH(lgBytes - i) val bit = addr_lo(lgBytes - i) val nbit = !bit Seq.tabulate (1 << i) { j => val (sub_acc, sub_eq) = sub(j/2) val eq = sub_eq && (if (j % 2 == 1) bit else nbit) val acc = sub_acc || (size && eq) (acc, eq) } } } if (groupBy == beatBytes) 1.U else Cat(helper(lgBytes-log2Ceil(groupBy)).map(_._1).reverse) } } File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Bundles.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import freechips.rocketchip.util._ import scala.collection.immutable.ListMap import chisel3.util.Decoupled import chisel3.util.DecoupledIO import chisel3.reflect.DataMirror abstract class TLBundleBase(val params: TLBundleParameters) extends Bundle // common combos in lazy policy: // Put + Acquire // Release + AccessAck object TLMessages { // A B C D E def PutFullData = 0.U // . . => AccessAck def PutPartialData = 1.U // . . => AccessAck def ArithmeticData = 2.U // . . => AccessAckData def LogicalData = 3.U // . . => AccessAckData def Get = 4.U // . . => AccessAckData def Hint = 5.U // . . => HintAck def AcquireBlock = 6.U // . => Grant[Data] def AcquirePerm = 7.U // . => Grant[Data] def Probe = 6.U // . => ProbeAck[Data] def AccessAck = 0.U // . . def AccessAckData = 1.U // . . def HintAck = 2.U // . . def ProbeAck = 4.U // . def ProbeAckData = 5.U // . def Release = 6.U // . => ReleaseAck def ReleaseData = 7.U // . => ReleaseAck def Grant = 4.U // . => GrantAck def GrantData = 5.U // . => GrantAck def ReleaseAck = 6.U // . def GrantAck = 0.U // . def isA(x: UInt) = x <= AcquirePerm def isB(x: UInt) = x <= Probe def isC(x: UInt) = x <= ReleaseData def isD(x: UInt) = x <= ReleaseAck def adResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, Grant, Grant) def bcResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, ProbeAck, ProbeAck) def a = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("AcquireBlock",TLPermissions.PermMsgGrow), ("AcquirePerm",TLPermissions.PermMsgGrow)) def b = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("Probe",TLPermissions.PermMsgCap)) def c = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("ProbeAck",TLPermissions.PermMsgReport), ("ProbeAckData",TLPermissions.PermMsgReport), ("Release",TLPermissions.PermMsgReport), ("ReleaseData",TLPermissions.PermMsgReport)) def d = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("Grant",TLPermissions.PermMsgCap), ("GrantData",TLPermissions.PermMsgCap), ("ReleaseAck",TLPermissions.PermMsgReserved)) } /** * The three primary TileLink permissions are: * (T)runk: the agent is (or is on inwards path to) the global point of serialization. * (B)ranch: the agent is on an outwards path to * (N)one: * These permissions are permuted by transfer operations in various ways. * Operations can cap permissions, request for them to be grown or shrunk, * or for a report on their current status. */ object TLPermissions { val aWidth = 2 val bdWidth = 2 val cWidth = 3 // Cap types (Grant = new permissions, Probe = permisions <= target) def toT = 0.U(bdWidth.W) def toB = 1.U(bdWidth.W) def toN = 2.U(bdWidth.W) def isCap(x: UInt) = x <= toN // Grow types (Acquire = permissions >= target) def NtoB = 0.U(aWidth.W) def NtoT = 1.U(aWidth.W) def BtoT = 2.U(aWidth.W) def isGrow(x: UInt) = x <= BtoT // Shrink types (ProbeAck, Release) def TtoB = 0.U(cWidth.W) def TtoN = 1.U(cWidth.W) def BtoN = 2.U(cWidth.W) def isShrink(x: UInt) = x <= BtoN // Report types (ProbeAck, Release) def TtoT = 3.U(cWidth.W) def BtoB = 4.U(cWidth.W) def NtoN = 5.U(cWidth.W) def isReport(x: UInt) = x <= NtoN def PermMsgGrow:Seq[String] = Seq("Grow NtoB", "Grow NtoT", "Grow BtoT") def PermMsgCap:Seq[String] = Seq("Cap toT", "Cap toB", "Cap toN") def PermMsgReport:Seq[String] = Seq("Shrink TtoB", "Shrink TtoN", "Shrink BtoN", "Report TotT", "Report BtoB", "Report NtoN") def PermMsgReserved:Seq[String] = Seq("Reserved") } object TLAtomics { val width = 3 // Arithmetic types def MIN = 0.U(width.W) def MAX = 1.U(width.W) def MINU = 2.U(width.W) def MAXU = 3.U(width.W) def ADD = 4.U(width.W) def isArithmetic(x: UInt) = x <= ADD // Logical types def XOR = 0.U(width.W) def OR = 1.U(width.W) def AND = 2.U(width.W) def SWAP = 3.U(width.W) def isLogical(x: UInt) = x <= SWAP def ArithMsg:Seq[String] = Seq("MIN", "MAX", "MINU", "MAXU", "ADD") def LogicMsg:Seq[String] = Seq("XOR", "OR", "AND", "SWAP") } object TLHints { val width = 1 def PREFETCH_READ = 0.U(width.W) def PREFETCH_WRITE = 1.U(width.W) def isHints(x: UInt) = x <= PREFETCH_WRITE def HintsMsg:Seq[String] = Seq("PrefetchRead", "PrefetchWrite") } sealed trait TLChannel extends TLBundleBase { val channelName: String } sealed trait TLDataChannel extends TLChannel sealed trait TLAddrChannel extends TLDataChannel final class TLBundleA(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleA_${params.shortName}" val channelName = "'A' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(List(TLAtomics.width, TLPermissions.aWidth, TLHints.width).max.W) // amo_opcode || grow perms || hint val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleB(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleB_${params.shortName}" val channelName = "'B' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val address = UInt(params.addressBits.W) // from // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleC(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleC_${params.shortName}" val channelName = "'C' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.cWidth.W) // shrink or report perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleD(params: TLBundleParameters) extends TLBundleBase(params) with TLDataChannel { override def typeName = s"TLBundleD_${params.shortName}" val channelName = "'D' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val sink = UInt(params.sinkBits.W) // from val denied = Bool() // implies corrupt iff *Data val user = BundleMap(params.responseFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleE(params: TLBundleParameters) extends TLBundleBase(params) with TLChannel { override def typeName = s"TLBundleE_${params.shortName}" val channelName = "'E' channel" val sink = UInt(params.sinkBits.W) // to } class TLBundle(val params: TLBundleParameters) extends Record { // Emulate a Bundle with elements abcde or ad depending on params.hasBCE private val optA = Some (Decoupled(new TLBundleA(params))) private val optB = params.hasBCE.option(Flipped(Decoupled(new TLBundleB(params)))) private val optC = params.hasBCE.option(Decoupled(new TLBundleC(params))) private val optD = Some (Flipped(Decoupled(new TLBundleD(params)))) private val optE = params.hasBCE.option(Decoupled(new TLBundleE(params))) def a: DecoupledIO[TLBundleA] = optA.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleA(params))))) def b: DecoupledIO[TLBundleB] = optB.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleB(params))))) def c: DecoupledIO[TLBundleC] = optC.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleC(params))))) def d: DecoupledIO[TLBundleD] = optD.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleD(params))))) def e: DecoupledIO[TLBundleE] = optE.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleE(params))))) val elements = if (params.hasBCE) ListMap("e" -> e, "d" -> d, "c" -> c, "b" -> b, "a" -> a) else ListMap("d" -> d, "a" -> a) def tieoff(): Unit = { DataMirror.specifiedDirectionOf(a.ready) match { case SpecifiedDirection.Input => a.ready := false.B c.ready := false.B e.ready := false.B b.valid := false.B d.valid := false.B case SpecifiedDirection.Output => a.valid := false.B c.valid := false.B e.valid := false.B b.ready := false.B d.ready := false.B case _ => } } } object TLBundle { def apply(params: TLBundleParameters) = new TLBundle(params) } class TLAsyncBundleBase(val params: TLAsyncBundleParameters) extends Bundle class TLAsyncBundle(params: TLAsyncBundleParameters) extends TLAsyncBundleBase(params) { val a = new AsyncBundle(new TLBundleA(params.base), params.async) val b = Flipped(new AsyncBundle(new TLBundleB(params.base), params.async)) val c = new AsyncBundle(new TLBundleC(params.base), params.async) val d = Flipped(new AsyncBundle(new TLBundleD(params.base), params.async)) val e = new AsyncBundle(new TLBundleE(params.base), params.async) } class TLRationalBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = RationalIO(new TLBundleA(params)) val b = Flipped(RationalIO(new TLBundleB(params))) val c = RationalIO(new TLBundleC(params)) val d = Flipped(RationalIO(new TLBundleD(params))) val e = RationalIO(new TLBundleE(params)) } class TLCreditedBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = CreditedIO(new TLBundleA(params)) val b = Flipped(CreditedIO(new TLBundleB(params))) val c = CreditedIO(new TLBundleC(params)) val d = Flipped(CreditedIO(new TLBundleD(params))) val e = CreditedIO(new TLBundleE(params)) } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.diplomacy import chisel3._ import chisel3.util.{DecoupledIO, Queue, ReadyValidIO, isPow2, log2Ceil, log2Floor} import freechips.rocketchip.util.ShiftQueue /** Options for describing the attributes of memory regions */ object RegionType { // Define the 'more relaxed than' ordering val cases = Seq(CACHED, TRACKED, UNCACHED, IDEMPOTENT, VOLATILE, PUT_EFFECTS, GET_EFFECTS) sealed trait T extends Ordered[T] { def compare(that: T): Int = cases.indexOf(that) compare cases.indexOf(this) } case object CACHED extends T // an intermediate agent may have cached a copy of the region for you case object TRACKED extends T // the region may have been cached by another master, but coherence is being provided case object UNCACHED extends T // the region has not been cached yet, but should be cached when possible case object IDEMPOTENT extends T // gets return most recently put content, but content should not be cached case object VOLATILE extends T // content may change without a put, but puts and gets have no side effects case object PUT_EFFECTS extends T // puts produce side effects and so must not be combined/delayed case object GET_EFFECTS extends T // gets produce side effects and so must not be issued speculatively } // A non-empty half-open range; [start, end) case class IdRange(start: Int, end: Int) extends Ordered[IdRange] { require (start >= 0, s"Ids cannot be negative, but got: $start.") require (start <= end, "Id ranges cannot be negative.") def compare(x: IdRange) = { val primary = (this.start - x.start).signum val secondary = (x.end - this.end).signum if (primary != 0) primary else secondary } def overlaps(x: IdRange) = start < x.end && x.start < end def contains(x: IdRange) = start <= x.start && x.end <= end def contains(x: Int) = start <= x && x < end def contains(x: UInt) = if (size == 0) { false.B } else if (size == 1) { // simple comparison x === start.U } else { // find index of largest different bit val largestDeltaBit = log2Floor(start ^ (end-1)) val smallestCommonBit = largestDeltaBit + 1 // may not exist in x val uncommonMask = (1 << smallestCommonBit) - 1 val uncommonBits = (x | 0.U(smallestCommonBit.W))(largestDeltaBit, 0) // the prefix must match exactly (note: may shift ALL bits away) (x >> smallestCommonBit) === (start >> smallestCommonBit).U && // firrtl constant prop range analysis can eliminate these two: (start & uncommonMask).U <= uncommonBits && uncommonBits <= ((end-1) & uncommonMask).U } def shift(x: Int) = IdRange(start+x, end+x) def size = end - start def isEmpty = end == start def range = start until end } object IdRange { def overlaps(s: Seq[IdRange]) = if (s.isEmpty) None else { val ranges = s.sorted (ranges.tail zip ranges.init) find { case (a, b) => a overlaps b } } } // An potentially empty inclusive range of 2-powers [min, max] (in bytes) case class TransferSizes(min: Int, max: Int) { def this(x: Int) = this(x, x) require (min <= max, s"Min transfer $min > max transfer $max") require (min >= 0 && max >= 0, s"TransferSizes must be positive, got: ($min, $max)") require (max == 0 || isPow2(max), s"TransferSizes must be a power of 2, got: $max") require (min == 0 || isPow2(min), s"TransferSizes must be a power of 2, got: $min") require (max == 0 || min != 0, s"TransferSize 0 is forbidden unless (0,0), got: ($min, $max)") def none = min == 0 def contains(x: Int) = isPow2(x) && min <= x && x <= max def containsLg(x: Int) = contains(1 << x) def containsLg(x: UInt) = if (none) false.B else if (min == max) { log2Ceil(min).U === x } else { log2Ceil(min).U <= x && x <= log2Ceil(max).U } def contains(x: TransferSizes) = x.none || (min <= x.min && x.max <= max) def intersect(x: TransferSizes) = if (x.max < min || max < x.min) TransferSizes.none else TransferSizes(scala.math.max(min, x.min), scala.math.min(max, x.max)) // Not a union, because the result may contain sizes contained by neither term // NOT TO BE CONFUSED WITH COVERPOINTS def mincover(x: TransferSizes) = { if (none) { x } else if (x.none) { this } else { TransferSizes(scala.math.min(min, x.min), scala.math.max(max, x.max)) } } override def toString() = "TransferSizes[%d, %d]".format(min, max) } object TransferSizes { def apply(x: Int) = new TransferSizes(x) val none = new TransferSizes(0) def mincover(seq: Seq[TransferSizes]) = seq.foldLeft(none)(_ mincover _) def intersect(seq: Seq[TransferSizes]) = seq.reduce(_ intersect _) implicit def asBool(x: TransferSizes) = !x.none } // AddressSets specify the address space managed by the manager // Base is the base address, and mask are the bits consumed by the manager // e.g: base=0x200, mask=0xff describes a device managing 0x200-0x2ff // e.g: base=0x1000, mask=0xf0f decribes a device managing 0x1000-0x100f, 0x1100-0x110f, ... case class AddressSet(base: BigInt, mask: BigInt) extends Ordered[AddressSet] { // Forbid misaligned base address (and empty sets) require ((base & mask) == 0, s"Mis-aligned AddressSets are forbidden, got: ${this.toString}") require (base >= 0, s"AddressSet negative base is ambiguous: $base") // TL2 address widths are not fixed => negative is ambiguous // We do allow negative mask (=> ignore all high bits) def contains(x: BigInt) = ((x ^ base) & ~mask) == 0 def contains(x: UInt) = ((x ^ base.U).zext & (~mask).S) === 0.S // turn x into an address contained in this set def legalize(x: UInt): UInt = base.U | (mask.U & x) // overlap iff bitwise: both care (~mask0 & ~mask1) => both equal (base0=base1) def overlaps(x: AddressSet) = (~(mask | x.mask) & (base ^ x.base)) == 0 // contains iff bitwise: x.mask => mask && contains(x.base) def contains(x: AddressSet) = ((x.mask | (base ^ x.base)) & ~mask) == 0 // The number of bytes to which the manager must be aligned def alignment = ((mask + 1) & ~mask) // Is this a contiguous memory range def contiguous = alignment == mask+1 def finite = mask >= 0 def max = { require (finite, "Max cannot be calculated on infinite mask"); base | mask } // Widen the match function to ignore all bits in imask def widen(imask: BigInt) = AddressSet(base & ~imask, mask | imask) // Return an AddressSet that only contains the addresses both sets contain def intersect(x: AddressSet): Option[AddressSet] = { if (!overlaps(x)) { None } else { val r_mask = mask & x.mask val r_base = base | x.base Some(AddressSet(r_base, r_mask)) } } def subtract(x: AddressSet): Seq[AddressSet] = { intersect(x) match { case None => Seq(this) case Some(remove) => AddressSet.enumerateBits(mask & ~remove.mask).map { bit => val nmask = (mask & (bit-1)) | remove.mask val nbase = (remove.base ^ bit) & ~nmask AddressSet(nbase, nmask) } } } // AddressSets have one natural Ordering (the containment order, if contiguous) def compare(x: AddressSet) = { val primary = (this.base - x.base).signum // smallest address first val secondary = (x.mask - this.mask).signum // largest mask first if (primary != 0) primary else secondary } // We always want to see things in hex override def toString() = { if (mask >= 0) { "AddressSet(0x%x, 0x%x)".format(base, mask) } else { "AddressSet(0x%x, ~0x%x)".format(base, ~mask) } } def toRanges = { require (finite, "Ranges cannot be calculated on infinite mask") val size = alignment val fragments = mask & ~(size-1) val bits = bitIndexes(fragments) (BigInt(0) until (BigInt(1) << bits.size)).map { i => val off = bitIndexes(i).foldLeft(base) { case (a, b) => a.setBit(bits(b)) } AddressRange(off, size) } } } object AddressSet { val everything = AddressSet(0, -1) def misaligned(base: BigInt, size: BigInt, tail: Seq[AddressSet] = Seq()): Seq[AddressSet] = { if (size == 0) tail.reverse else { val maxBaseAlignment = base & (-base) // 0 for infinite (LSB) val maxSizeAlignment = BigInt(1) << log2Floor(size) // MSB of size val step = if (maxBaseAlignment == 0 || maxBaseAlignment > maxSizeAlignment) maxSizeAlignment else maxBaseAlignment misaligned(base+step, size-step, AddressSet(base, step-1) +: tail) } } def unify(seq: Seq[AddressSet], bit: BigInt): Seq[AddressSet] = { // Pair terms up by ignoring 'bit' seq.distinct.groupBy(x => x.copy(base = x.base & ~bit)).map { case (key, seq) => if (seq.size == 1) { seq.head // singleton -> unaffected } else { key.copy(mask = key.mask | bit) // pair - widen mask by bit } }.toList } def unify(seq: Seq[AddressSet]): Seq[AddressSet] = { val bits = seq.map(_.base).foldLeft(BigInt(0))(_ | _) AddressSet.enumerateBits(bits).foldLeft(seq) { case (acc, bit) => unify(acc, bit) }.sorted } def enumerateMask(mask: BigInt): Seq[BigInt] = { def helper(id: BigInt, tail: Seq[BigInt]): Seq[BigInt] = if (id == mask) (id +: tail).reverse else helper(((~mask | id) + 1) & mask, id +: tail) helper(0, Nil) } def enumerateBits(mask: BigInt): Seq[BigInt] = { def helper(x: BigInt): Seq[BigInt] = { if (x == 0) { Nil } else { val bit = x & (-x) bit +: helper(x & ~bit) } } helper(mask) } } case class BufferParams(depth: Int, flow: Boolean, pipe: Boolean) { require (depth >= 0, "Buffer depth must be >= 0") def isDefined = depth > 0 def latency = if (isDefined && !flow) 1 else 0 def apply[T <: Data](x: DecoupledIO[T]) = if (isDefined) Queue(x, depth, flow=flow, pipe=pipe) else x def irrevocable[T <: Data](x: ReadyValidIO[T]) = if (isDefined) Queue.irrevocable(x, depth, flow=flow, pipe=pipe) else x def sq[T <: Data](x: DecoupledIO[T]) = if (!isDefined) x else { val sq = Module(new ShiftQueue(x.bits, depth, flow=flow, pipe=pipe)) sq.io.enq <> x sq.io.deq } override def toString() = "BufferParams:%d%s%s".format(depth, if (flow) "F" else "", if (pipe) "P" else "") } object BufferParams { implicit def apply(depth: Int): BufferParams = BufferParams(depth, false, false) val default = BufferParams(2) val none = BufferParams(0) val flow = BufferParams(1, true, false) val pipe = BufferParams(1, false, true) } case class TriStateValue(value: Boolean, set: Boolean) { def update(orig: Boolean) = if (set) value else orig } object TriStateValue { implicit def apply(value: Boolean): TriStateValue = TriStateValue(value, true) def unset = TriStateValue(false, false) } trait DirectedBuffers[T] { def copyIn(x: BufferParams): T def copyOut(x: BufferParams): T def copyInOut(x: BufferParams): T } trait IdMapEntry { def name: String def from: IdRange def to: IdRange def isCache: Boolean def requestFifo: Boolean def maxTransactionsInFlight: Option[Int] def pretty(fmt: String) = if (from ne to) { // if the subclass uses the same reference for both from and to, assume its format string has an arity of 5 fmt.format(to.start, to.end, from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } else { fmt.format(from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } } abstract class IdMap[T <: IdMapEntry] { protected val fmt: String val mapping: Seq[T] def pretty: String = mapping.map(_.pretty(fmt)).mkString(",\n") } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module TLMonitor_58( // @[Monitor.scala:36:7] input clock, // @[Monitor.scala:36:7] input reset, // @[Monitor.scala:36:7] input io_in_a_ready, // @[Monitor.scala:20:14] input io_in_a_valid, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_opcode, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_param, // @[Monitor.scala:20:14] input [1:0] io_in_a_bits_size, // @[Monitor.scala:20:14] input [10:0] io_in_a_bits_source, // @[Monitor.scala:20:14] input [28:0] io_in_a_bits_address, // @[Monitor.scala:20:14] input [7:0] io_in_a_bits_mask, // @[Monitor.scala:20:14] input [63:0] io_in_a_bits_data, // @[Monitor.scala:20:14] input io_in_a_bits_corrupt, // @[Monitor.scala:20:14] input io_in_d_ready, // @[Monitor.scala:20:14] input io_in_d_valid, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_opcode, // @[Monitor.scala:20:14] input [1:0] io_in_d_bits_size, // @[Monitor.scala:20:14] input [10:0] io_in_d_bits_source, // @[Monitor.scala:20:14] input [63:0] io_in_d_bits_data // @[Monitor.scala:20:14] ); wire [31:0] _plusarg_reader_1_out; // @[PlusArg.scala:80:11] wire [31:0] _plusarg_reader_out; // @[PlusArg.scala:80:11] wire io_in_a_ready_0 = io_in_a_ready; // @[Monitor.scala:36:7] wire io_in_a_valid_0 = io_in_a_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_opcode_0 = io_in_a_bits_opcode; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_param_0 = io_in_a_bits_param; // @[Monitor.scala:36:7] wire [1:0] io_in_a_bits_size_0 = io_in_a_bits_size; // @[Monitor.scala:36:7] wire [10:0] io_in_a_bits_source_0 = io_in_a_bits_source; // @[Monitor.scala:36:7] wire [28:0] io_in_a_bits_address_0 = io_in_a_bits_address; // @[Monitor.scala:36:7] wire [7:0] io_in_a_bits_mask_0 = io_in_a_bits_mask; // @[Monitor.scala:36:7] wire [63:0] io_in_a_bits_data_0 = io_in_a_bits_data; // @[Monitor.scala:36:7] wire io_in_a_bits_corrupt_0 = io_in_a_bits_corrupt; // @[Monitor.scala:36:7] wire io_in_d_ready_0 = io_in_d_ready; // @[Monitor.scala:36:7] wire io_in_d_valid_0 = io_in_d_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_opcode_0 = io_in_d_bits_opcode; // @[Monitor.scala:36:7] wire [1:0] io_in_d_bits_size_0 = io_in_d_bits_size; // @[Monitor.scala:36:7] wire [10:0] io_in_d_bits_source_0 = io_in_d_bits_source; // @[Monitor.scala:36:7] wire [63:0] io_in_d_bits_data_0 = io_in_d_bits_data; // @[Monitor.scala:36:7] wire io_in_d_bits_sink = 1'h0; // @[Monitor.scala:36:7] wire io_in_d_bits_denied = 1'h0; // @[Monitor.scala:36:7] wire io_in_d_bits_corrupt = 1'h0; // @[Monitor.scala:36:7] wire _source_ok_T = 1'h0; // @[Parameters.scala:54:10] wire _source_ok_T_6 = 1'h0; // @[Parameters.scala:54:10] wire sink_ok = 1'h0; // @[Monitor.scala:309:31] wire a_first_beats1_decode = 1'h0; // @[Edges.scala:220:59] wire a_first_beats1 = 1'h0; // @[Edges.scala:221:14] wire a_first_count = 1'h0; // @[Edges.scala:234:25] wire d_first_beats1_decode = 1'h0; // @[Edges.scala:220:59] wire d_first_beats1 = 1'h0; // @[Edges.scala:221:14] wire d_first_count = 1'h0; // @[Edges.scala:234:25] wire a_first_beats1_decode_1 = 1'h0; // @[Edges.scala:220:59] wire a_first_beats1_1 = 1'h0; // @[Edges.scala:221:14] wire a_first_count_1 = 1'h0; // @[Edges.scala:234:25] wire d_first_beats1_decode_1 = 1'h0; // @[Edges.scala:220:59] wire d_first_beats1_1 = 1'h0; // @[Edges.scala:221:14] wire d_first_count_1 = 1'h0; // @[Edges.scala:234:25] wire _c_first_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_T = 1'h0; // @[Decoupled.scala:51:35] wire c_first_beats1_decode = 1'h0; // @[Edges.scala:220:59] wire c_first_beats1_opdata = 1'h0; // @[Edges.scala:102:36] wire c_first_beats1 = 1'h0; // @[Edges.scala:221:14] wire _c_first_last_T = 1'h0; // @[Edges.scala:232:25] wire c_first_done = 1'h0; // @[Edges.scala:233:22] wire _c_first_count_T = 1'h0; // @[Edges.scala:234:27] wire c_first_count = 1'h0; // @[Edges.scala:234:25] wire _c_first_counter_T = 1'h0; // @[Edges.scala:236:21] wire d_first_beats1_decode_2 = 1'h0; // @[Edges.scala:220:59] wire d_first_beats1_2 = 1'h0; // @[Edges.scala:221:14] wire d_first_count_2 = 1'h0; // @[Edges.scala:234:25] wire _c_set_wo_ready_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T = 1'h0; // @[Monitor.scala:772:47] wire _c_probe_ack_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T_1 = 1'h0; // @[Monitor.scala:772:95] wire c_probe_ack = 1'h0; // @[Monitor.scala:772:71] wire _same_cycle_resp_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_3 = 1'h0; // @[Monitor.scala:795:44] wire _same_cycle_resp_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_4 = 1'h0; // @[Edges.scala:68:36] wire _same_cycle_resp_T_5 = 1'h0; // @[Edges.scala:68:51] wire _same_cycle_resp_T_6 = 1'h0; // @[Edges.scala:68:40] wire _same_cycle_resp_T_7 = 1'h0; // @[Monitor.scala:795:55] wire _same_cycle_resp_WIRE_4_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_5_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire same_cycle_resp_1 = 1'h0; // @[Monitor.scala:795:88] wire _source_ok_T_1 = 1'h1; // @[Parameters.scala:54:32] wire _source_ok_T_2 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_3 = 1'h1; // @[Parameters.scala:54:67] wire _source_ok_T_7 = 1'h1; // @[Parameters.scala:54:32] wire _source_ok_T_8 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_9 = 1'h1; // @[Parameters.scala:54:67] wire _a_first_last_T_1 = 1'h1; // @[Edges.scala:232:43] wire a_first_last = 1'h1; // @[Edges.scala:232:33] wire _d_first_last_T_1 = 1'h1; // @[Edges.scala:232:43] wire d_first_last = 1'h1; // @[Edges.scala:232:33] wire _a_first_last_T_3 = 1'h1; // @[Edges.scala:232:43] wire a_first_last_1 = 1'h1; // @[Edges.scala:232:33] wire _d_first_last_T_3 = 1'h1; // @[Edges.scala:232:43] wire d_first_last_1 = 1'h1; // @[Edges.scala:232:33] wire c_first_counter1 = 1'h1; // @[Edges.scala:230:28] wire c_first = 1'h1; // @[Edges.scala:231:25] wire _c_first_last_T_1 = 1'h1; // @[Edges.scala:232:43] wire c_first_last = 1'h1; // @[Edges.scala:232:33] wire _d_first_last_T_5 = 1'h1; // @[Edges.scala:232:43] wire d_first_last_2 = 1'h1; // @[Edges.scala:232:33] wire [1:0] _c_first_counter1_T = 2'h3; // @[Edges.scala:230:28] wire [1:0] io_in_d_bits_param = 2'h0; // @[Monitor.scala:36:7] wire [1:0] _c_first_WIRE_bits_size = 2'h0; // @[Bundles.scala:265:74] wire [1:0] _c_first_WIRE_1_bits_size = 2'h0; // @[Bundles.scala:265:61] wire [1:0] _c_first_WIRE_2_bits_size = 2'h0; // @[Bundles.scala:265:74] wire [1:0] _c_first_WIRE_3_bits_size = 2'h0; // @[Bundles.scala:265:61] wire [1:0] _c_set_wo_ready_WIRE_bits_size = 2'h0; // @[Bundles.scala:265:74] wire [1:0] _c_set_wo_ready_WIRE_1_bits_size = 2'h0; // @[Bundles.scala:265:61] wire [1:0] _c_set_WIRE_bits_size = 2'h0; // @[Bundles.scala:265:74] wire [1:0] _c_set_WIRE_1_bits_size = 2'h0; // @[Bundles.scala:265:61] wire [1:0] _c_opcodes_set_interm_WIRE_bits_size = 2'h0; // @[Bundles.scala:265:74] wire [1:0] _c_opcodes_set_interm_WIRE_1_bits_size = 2'h0; // @[Bundles.scala:265:61] wire [1:0] _c_sizes_set_interm_WIRE_bits_size = 2'h0; // @[Bundles.scala:265:74] wire [1:0] _c_sizes_set_interm_WIRE_1_bits_size = 2'h0; // @[Bundles.scala:265:61] wire [1:0] _c_opcodes_set_WIRE_bits_size = 2'h0; // @[Bundles.scala:265:74] wire [1:0] _c_opcodes_set_WIRE_1_bits_size = 2'h0; // @[Bundles.scala:265:61] wire [1:0] _c_sizes_set_WIRE_bits_size = 2'h0; // @[Bundles.scala:265:74] wire [1:0] _c_sizes_set_WIRE_1_bits_size = 2'h0; // @[Bundles.scala:265:61] wire [1:0] _c_probe_ack_WIRE_bits_size = 2'h0; // @[Bundles.scala:265:74] wire [1:0] _c_probe_ack_WIRE_1_bits_size = 2'h0; // @[Bundles.scala:265:61] wire [1:0] _c_probe_ack_WIRE_2_bits_size = 2'h0; // @[Bundles.scala:265:74] wire [1:0] _c_probe_ack_WIRE_3_bits_size = 2'h0; // @[Bundles.scala:265:61] wire [1:0] _same_cycle_resp_WIRE_bits_size = 2'h0; // @[Bundles.scala:265:74] wire [1:0] _same_cycle_resp_WIRE_1_bits_size = 2'h0; // @[Bundles.scala:265:61] wire [1:0] _same_cycle_resp_WIRE_2_bits_size = 2'h0; // @[Bundles.scala:265:74] wire [1:0] _same_cycle_resp_WIRE_3_bits_size = 2'h0; // @[Bundles.scala:265:61] wire [1:0] _same_cycle_resp_WIRE_4_bits_size = 2'h0; // @[Bundles.scala:265:74] wire [1:0] _same_cycle_resp_WIRE_5_bits_size = 2'h0; // @[Bundles.scala:265:61] wire [63:0] _c_first_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_first_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_wo_ready_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_wo_ready_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_4_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_5_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [28:0] _c_first_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_first_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_first_WIRE_2_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_first_WIRE_3_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_set_wo_ready_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_set_wo_ready_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_set_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_set_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_opcodes_set_interm_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_opcodes_set_interm_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_sizes_set_interm_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_sizes_set_interm_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_opcodes_set_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_opcodes_set_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_sizes_set_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_sizes_set_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_probe_ack_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_probe_ack_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_probe_ack_WIRE_2_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_probe_ack_WIRE_3_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _same_cycle_resp_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _same_cycle_resp_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _same_cycle_resp_WIRE_2_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _same_cycle_resp_WIRE_3_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _same_cycle_resp_WIRE_4_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _same_cycle_resp_WIRE_5_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [10:0] _c_first_WIRE_bits_source = 11'h0; // @[Bundles.scala:265:74] wire [10:0] _c_first_WIRE_1_bits_source = 11'h0; // @[Bundles.scala:265:61] wire [10:0] _c_first_WIRE_2_bits_source = 11'h0; // @[Bundles.scala:265:74] wire [10:0] _c_first_WIRE_3_bits_source = 11'h0; // @[Bundles.scala:265:61] wire [10:0] _c_set_wo_ready_WIRE_bits_source = 11'h0; // @[Bundles.scala:265:74] wire [10:0] _c_set_wo_ready_WIRE_1_bits_source = 11'h0; // @[Bundles.scala:265:61] wire [10:0] _c_set_WIRE_bits_source = 11'h0; // @[Bundles.scala:265:74] wire [10:0] _c_set_WIRE_1_bits_source = 11'h0; // @[Bundles.scala:265:61] wire [10:0] _c_opcodes_set_interm_WIRE_bits_source = 11'h0; // @[Bundles.scala:265:74] wire [10:0] _c_opcodes_set_interm_WIRE_1_bits_source = 11'h0; // @[Bundles.scala:265:61] wire [10:0] _c_sizes_set_interm_WIRE_bits_source = 11'h0; // @[Bundles.scala:265:74] wire [10:0] _c_sizes_set_interm_WIRE_1_bits_source = 11'h0; // @[Bundles.scala:265:61] wire [10:0] _c_opcodes_set_WIRE_bits_source = 11'h0; // @[Bundles.scala:265:74] wire [10:0] _c_opcodes_set_WIRE_1_bits_source = 11'h0; // @[Bundles.scala:265:61] wire [10:0] _c_sizes_set_WIRE_bits_source = 11'h0; // @[Bundles.scala:265:74] wire [10:0] _c_sizes_set_WIRE_1_bits_source = 11'h0; // @[Bundles.scala:265:61] wire [10:0] _c_probe_ack_WIRE_bits_source = 11'h0; // @[Bundles.scala:265:74] wire [10:0] _c_probe_ack_WIRE_1_bits_source = 11'h0; // @[Bundles.scala:265:61] wire [10:0] _c_probe_ack_WIRE_2_bits_source = 11'h0; // @[Bundles.scala:265:74] wire [10:0] _c_probe_ack_WIRE_3_bits_source = 11'h0; // @[Bundles.scala:265:61] wire [10:0] _same_cycle_resp_WIRE_bits_source = 11'h0; // @[Bundles.scala:265:74] wire [10:0] _same_cycle_resp_WIRE_1_bits_source = 11'h0; // @[Bundles.scala:265:61] wire [10:0] _same_cycle_resp_WIRE_2_bits_source = 11'h0; // @[Bundles.scala:265:74] wire [10:0] _same_cycle_resp_WIRE_3_bits_source = 11'h0; // @[Bundles.scala:265:61] wire [10:0] _same_cycle_resp_WIRE_4_bits_source = 11'h0; // @[Bundles.scala:265:74] wire [10:0] _same_cycle_resp_WIRE_5_bits_source = 11'h0; // @[Bundles.scala:265:61] wire [2:0] responseMap_0 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMap_1 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_0 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_1 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] _c_first_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_beats1_decode_T_2 = 3'h0; // @[package.scala:243:46] wire [2:0] c_sizes_set_interm = 3'h0; // @[Monitor.scala:755:40] wire [2:0] _c_set_wo_ready_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_T = 3'h0; // @[Monitor.scala:766:51] wire [2:0] _c_opcodes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_4_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_4_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_5_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_5_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [15:0] _a_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _a_size_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_opcodes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_sizes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _c_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _c_size_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_opcodes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_sizes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [16:0] _a_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _a_size_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_opcodes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_sizes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _c_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _c_size_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_opcodes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_sizes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [15:0] _a_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _a_size_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_opcodes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_sizes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _c_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _c_size_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_opcodes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_sizes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [16385:0] _c_sizes_set_T_1 = 16386'h0; // @[Monitor.scala:768:52] wire [13:0] _c_opcodes_set_T = 14'h0; // @[Monitor.scala:767:79] wire [13:0] _c_sizes_set_T = 14'h0; // @[Monitor.scala:768:77] wire [16386:0] _c_opcodes_set_T_1 = 16387'h0; // @[Monitor.scala:767:54] wire [2:0] responseMap_2 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_3 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_4 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_2 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_3 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_4 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] _c_sizes_set_interm_T_1 = 3'h1; // @[Monitor.scala:766:59] wire [3:0] _c_opcodes_set_interm_T_1 = 4'h1; // @[Monitor.scala:765:61] wire [3:0] c_opcodes_set_interm = 4'h0; // @[Monitor.scala:754:40] wire [3:0] _c_opcodes_set_interm_T = 4'h0; // @[Monitor.scala:765:53] wire [2047:0] _c_set_wo_ready_T = 2048'h1; // @[OneHot.scala:58:35] wire [2047:0] _c_set_T = 2048'h1; // @[OneHot.scala:58:35] wire [4159:0] c_opcodes_set = 4160'h0; // @[Monitor.scala:740:34] wire [4159:0] c_sizes_set = 4160'h0; // @[Monitor.scala:741:34] wire [1039:0] c_set = 1040'h0; // @[Monitor.scala:738:34] wire [1039:0] c_set_wo_ready = 1040'h0; // @[Monitor.scala:739:34] wire [2:0] _c_first_beats1_decode_T_1 = 3'h7; // @[package.scala:243:76] wire [5:0] _c_first_beats1_decode_T = 6'h7; // @[package.scala:243:71] wire [2:0] responseMap_6 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMap_7 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_7 = 3'h4; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_6 = 3'h5; // @[Monitor.scala:644:42] wire [2:0] responseMap_5 = 3'h2; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_5 = 3'h2; // @[Monitor.scala:644:42] wire [3:0] _a_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:637:123] wire [3:0] _a_size_lookup_T_2 = 4'h4; // @[Monitor.scala:641:117] wire [3:0] _d_opcodes_clr_T = 4'h4; // @[Monitor.scala:680:48] wire [3:0] _d_sizes_clr_T = 4'h4; // @[Monitor.scala:681:48] wire [3:0] _c_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:749:123] wire [3:0] _c_size_lookup_T_2 = 4'h4; // @[Monitor.scala:750:119] wire [3:0] _d_opcodes_clr_T_6 = 4'h4; // @[Monitor.scala:790:48] wire [3:0] _d_sizes_clr_T_6 = 4'h4; // @[Monitor.scala:791:48] wire [10:0] _source_ok_uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [10:0] _uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [10:0] _uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [10:0] _uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [10:0] _uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [10:0] _uncommonBits_T_4 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [10:0] _uncommonBits_T_5 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [10:0] _uncommonBits_T_6 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [10:0] _uncommonBits_T_7 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [10:0] _uncommonBits_T_8 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [10:0] _source_ok_uncommonBits_T_1 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [10:0] source_ok_uncommonBits = _source_ok_uncommonBits_T; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_4 = source_ok_uncommonBits < 11'h410; // @[Parameters.scala:52:56, :57:20] wire _source_ok_T_5 = _source_ok_T_4; // @[Parameters.scala:56:48, :57:20] wire _source_ok_WIRE_0 = _source_ok_T_5; // @[Parameters.scala:1138:31] wire [5:0] _GEN = 6'h7 << io_in_a_bits_size_0; // @[package.scala:243:71] wire [5:0] _is_aligned_mask_T; // @[package.scala:243:71] assign _is_aligned_mask_T = _GEN; // @[package.scala:243:71] wire [5:0] _a_first_beats1_decode_T; // @[package.scala:243:71] assign _a_first_beats1_decode_T = _GEN; // @[package.scala:243:71] wire [5:0] _a_first_beats1_decode_T_3; // @[package.scala:243:71] assign _a_first_beats1_decode_T_3 = _GEN; // @[package.scala:243:71] wire [2:0] _is_aligned_mask_T_1 = _is_aligned_mask_T[2:0]; // @[package.scala:243:{71,76}] wire [2:0] is_aligned_mask = ~_is_aligned_mask_T_1; // @[package.scala:243:{46,76}] wire [28:0] _is_aligned_T = {26'h0, io_in_a_bits_address_0[2:0] & is_aligned_mask}; // @[package.scala:243:46] wire is_aligned = _is_aligned_T == 29'h0; // @[Edges.scala:21:{16,24}] wire [2:0] _mask_sizeOH_T = {1'h0, io_in_a_bits_size_0}; // @[Misc.scala:202:34] wire [1:0] mask_sizeOH_shiftAmount = _mask_sizeOH_T[1:0]; // @[OneHot.scala:64:49] wire [3:0] _mask_sizeOH_T_1 = 4'h1 << mask_sizeOH_shiftAmount; // @[OneHot.scala:64:49, :65:12] wire [2:0] _mask_sizeOH_T_2 = _mask_sizeOH_T_1[2:0]; // @[OneHot.scala:65:{12,27}] wire [2:0] mask_sizeOH = {_mask_sizeOH_T_2[2:1], 1'h1}; // @[OneHot.scala:65:27] wire mask_sub_sub_sub_0_1 = &io_in_a_bits_size_0; // @[Misc.scala:206:21] wire mask_sub_sub_size = mask_sizeOH[2]; // @[Misc.scala:202:81, :209:26] wire mask_sub_sub_bit = io_in_a_bits_address_0[2]; // @[Misc.scala:210:26] wire mask_sub_sub_1_2 = mask_sub_sub_bit; // @[Misc.scala:210:26, :214:27] wire mask_sub_sub_nbit = ~mask_sub_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_sub_0_2 = mask_sub_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_sub_acc_T = mask_sub_sub_size & mask_sub_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_0_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T; // @[Misc.scala:206:21, :215:{29,38}] wire _mask_sub_sub_acc_T_1 = mask_sub_sub_size & mask_sub_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_1_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T_1; // @[Misc.scala:206:21, :215:{29,38}] wire mask_sub_size = mask_sizeOH[1]; // @[Misc.scala:202:81, :209:26] wire mask_sub_bit = io_in_a_bits_address_0[1]; // @[Misc.scala:210:26] wire mask_sub_nbit = ~mask_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_0_2 = mask_sub_sub_0_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T = mask_sub_size & mask_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_0_1 = mask_sub_sub_0_1 | _mask_sub_acc_T; // @[Misc.scala:215:{29,38}] wire mask_sub_1_2 = mask_sub_sub_0_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_1 = mask_sub_size & mask_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_1_1 = mask_sub_sub_0_1 | _mask_sub_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_sub_2_2 = mask_sub_sub_1_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T_2 = mask_sub_size & mask_sub_2_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_2_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_sub_3_2 = mask_sub_sub_1_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_3 = mask_sub_size & mask_sub_3_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_3_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_size = mask_sizeOH[0]; // @[Misc.scala:202:81, :209:26] wire mask_bit = io_in_a_bits_address_0[0]; // @[Misc.scala:210:26] wire mask_nbit = ~mask_bit; // @[Misc.scala:210:26, :211:20] wire mask_eq = mask_sub_0_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T = mask_size & mask_eq; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc = mask_sub_0_1 | _mask_acc_T; // @[Misc.scala:215:{29,38}] wire mask_eq_1 = mask_sub_0_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_1 = mask_size & mask_eq_1; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_1 = mask_sub_0_1 | _mask_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_eq_2 = mask_sub_1_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_2 = mask_size & mask_eq_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_2 = mask_sub_1_1 | _mask_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_eq_3 = mask_sub_1_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_3 = mask_size & mask_eq_3; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_3 = mask_sub_1_1 | _mask_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_eq_4 = mask_sub_2_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_4 = mask_size & mask_eq_4; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_4 = mask_sub_2_1 | _mask_acc_T_4; // @[Misc.scala:215:{29,38}] wire mask_eq_5 = mask_sub_2_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_5 = mask_size & mask_eq_5; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_5 = mask_sub_2_1 | _mask_acc_T_5; // @[Misc.scala:215:{29,38}] wire mask_eq_6 = mask_sub_3_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_6 = mask_size & mask_eq_6; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_6 = mask_sub_3_1 | _mask_acc_T_6; // @[Misc.scala:215:{29,38}] wire mask_eq_7 = mask_sub_3_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_7 = mask_size & mask_eq_7; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_7 = mask_sub_3_1 | _mask_acc_T_7; // @[Misc.scala:215:{29,38}] wire [1:0] mask_lo_lo = {mask_acc_1, mask_acc}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_lo_hi = {mask_acc_3, mask_acc_2}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_lo = {mask_lo_hi, mask_lo_lo}; // @[Misc.scala:222:10] wire [1:0] mask_hi_lo = {mask_acc_5, mask_acc_4}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_hi_hi = {mask_acc_7, mask_acc_6}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_hi = {mask_hi_hi, mask_hi_lo}; // @[Misc.scala:222:10] wire [7:0] mask = {mask_hi, mask_lo}; // @[Misc.scala:222:10] wire [10:0] uncommonBits = _uncommonBits_T; // @[Parameters.scala:52:{29,56}] wire [10:0] uncommonBits_1 = _uncommonBits_T_1; // @[Parameters.scala:52:{29,56}] wire [10:0] uncommonBits_2 = _uncommonBits_T_2; // @[Parameters.scala:52:{29,56}] wire [10:0] uncommonBits_3 = _uncommonBits_T_3; // @[Parameters.scala:52:{29,56}] wire [10:0] uncommonBits_4 = _uncommonBits_T_4; // @[Parameters.scala:52:{29,56}] wire [10:0] uncommonBits_5 = _uncommonBits_T_5; // @[Parameters.scala:52:{29,56}] wire [10:0] uncommonBits_6 = _uncommonBits_T_6; // @[Parameters.scala:52:{29,56}] wire [10:0] uncommonBits_7 = _uncommonBits_T_7; // @[Parameters.scala:52:{29,56}] wire [10:0] uncommonBits_8 = _uncommonBits_T_8; // @[Parameters.scala:52:{29,56}] wire [10:0] source_ok_uncommonBits_1 = _source_ok_uncommonBits_T_1; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_10 = source_ok_uncommonBits_1 < 11'h410; // @[Parameters.scala:52:56, :57:20] wire _source_ok_T_11 = _source_ok_T_10; // @[Parameters.scala:56:48, :57:20] wire _source_ok_WIRE_1_0 = _source_ok_T_11; // @[Parameters.scala:1138:31] wire _T_665 = io_in_a_ready_0 & io_in_a_valid_0; // @[Decoupled.scala:51:35] wire _a_first_T; // @[Decoupled.scala:51:35] assign _a_first_T = _T_665; // @[Decoupled.scala:51:35] wire _a_first_T_1; // @[Decoupled.scala:51:35] assign _a_first_T_1 = _T_665; // @[Decoupled.scala:51:35] wire a_first_done = _a_first_T; // @[Decoupled.scala:51:35] wire [2:0] _a_first_beats1_decode_T_1 = _a_first_beats1_decode_T[2:0]; // @[package.scala:243:{71,76}] wire [2:0] _a_first_beats1_decode_T_2 = ~_a_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire _a_first_beats1_opdata_T = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire _a_first_beats1_opdata_T_1 = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire a_first_beats1_opdata = ~_a_first_beats1_opdata_T; // @[Edges.scala:92:{28,37}] reg a_first_counter; // @[Edges.scala:229:27] wire _a_first_last_T = a_first_counter; // @[Edges.scala:229:27, :232:25] wire [1:0] _a_first_counter1_T = {1'h0, a_first_counter} - 2'h1; // @[Edges.scala:229:27, :230:28] wire a_first_counter1 = _a_first_counter1_T[0]; // @[Edges.scala:230:28] wire a_first = ~a_first_counter; // @[Edges.scala:229:27, :231:25] wire _a_first_count_T = ~a_first_counter1; // @[Edges.scala:230:28, :234:27] wire _a_first_counter_T = ~a_first & a_first_counter1; // @[Edges.scala:230:28, :231:25, :236:21] reg [2:0] opcode; // @[Monitor.scala:387:22] reg [2:0] param; // @[Monitor.scala:388:22] reg [1:0] size; // @[Monitor.scala:389:22] reg [10:0] source; // @[Monitor.scala:390:22] reg [28:0] address; // @[Monitor.scala:391:22] wire _T_733 = io_in_d_ready_0 & io_in_d_valid_0; // @[Decoupled.scala:51:35] wire _d_first_T; // @[Decoupled.scala:51:35] assign _d_first_T = _T_733; // @[Decoupled.scala:51:35] wire _d_first_T_1; // @[Decoupled.scala:51:35] assign _d_first_T_1 = _T_733; // @[Decoupled.scala:51:35] wire _d_first_T_2; // @[Decoupled.scala:51:35] assign _d_first_T_2 = _T_733; // @[Decoupled.scala:51:35] wire d_first_done = _d_first_T; // @[Decoupled.scala:51:35] wire [5:0] _GEN_0 = 6'h7 << io_in_d_bits_size_0; // @[package.scala:243:71] wire [5:0] _d_first_beats1_decode_T; // @[package.scala:243:71] assign _d_first_beats1_decode_T = _GEN_0; // @[package.scala:243:71] wire [5:0] _d_first_beats1_decode_T_3; // @[package.scala:243:71] assign _d_first_beats1_decode_T_3 = _GEN_0; // @[package.scala:243:71] wire [5:0] _d_first_beats1_decode_T_6; // @[package.scala:243:71] assign _d_first_beats1_decode_T_6 = _GEN_0; // @[package.scala:243:71] wire [2:0] _d_first_beats1_decode_T_1 = _d_first_beats1_decode_T[2:0]; // @[package.scala:243:{71,76}] wire [2:0] _d_first_beats1_decode_T_2 = ~_d_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire d_first_beats1_opdata = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_1 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_2 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] reg d_first_counter; // @[Edges.scala:229:27] wire _d_first_last_T = d_first_counter; // @[Edges.scala:229:27, :232:25] wire [1:0] _d_first_counter1_T = {1'h0, d_first_counter} - 2'h1; // @[Edges.scala:229:27, :230:28] wire d_first_counter1 = _d_first_counter1_T[0]; // @[Edges.scala:230:28] wire d_first = ~d_first_counter; // @[Edges.scala:229:27, :231:25] wire _d_first_count_T = ~d_first_counter1; // @[Edges.scala:230:28, :234:27] wire _d_first_counter_T = ~d_first & d_first_counter1; // @[Edges.scala:230:28, :231:25, :236:21] reg [2:0] opcode_1; // @[Monitor.scala:538:22] reg [1:0] size_1; // @[Monitor.scala:540:22] reg [10:0] source_1; // @[Monitor.scala:541:22] reg [1039:0] inflight; // @[Monitor.scala:614:27] reg [4159:0] inflight_opcodes; // @[Monitor.scala:616:35] reg [4159:0] inflight_sizes; // @[Monitor.scala:618:33] wire a_first_done_1 = _a_first_T_1; // @[Decoupled.scala:51:35] wire [2:0] _a_first_beats1_decode_T_4 = _a_first_beats1_decode_T_3[2:0]; // @[package.scala:243:{71,76}] wire [2:0] _a_first_beats1_decode_T_5 = ~_a_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire a_first_beats1_opdata_1 = ~_a_first_beats1_opdata_T_1; // @[Edges.scala:92:{28,37}] reg a_first_counter_1; // @[Edges.scala:229:27] wire _a_first_last_T_2 = a_first_counter_1; // @[Edges.scala:229:27, :232:25] wire [1:0] _a_first_counter1_T_1 = {1'h0, a_first_counter_1} - 2'h1; // @[Edges.scala:229:27, :230:28] wire a_first_counter1_1 = _a_first_counter1_T_1[0]; // @[Edges.scala:230:28] wire a_first_1 = ~a_first_counter_1; // @[Edges.scala:229:27, :231:25] wire _a_first_count_T_1 = ~a_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire _a_first_counter_T_1 = ~a_first_1 & a_first_counter1_1; // @[Edges.scala:230:28, :231:25, :236:21] wire d_first_done_1 = _d_first_T_1; // @[Decoupled.scala:51:35] wire [2:0] _d_first_beats1_decode_T_4 = _d_first_beats1_decode_T_3[2:0]; // @[package.scala:243:{71,76}] wire [2:0] _d_first_beats1_decode_T_5 = ~_d_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] reg d_first_counter_1; // @[Edges.scala:229:27] wire _d_first_last_T_2 = d_first_counter_1; // @[Edges.scala:229:27, :232:25] wire [1:0] _d_first_counter1_T_1 = {1'h0, d_first_counter_1} - 2'h1; // @[Edges.scala:229:27, :230:28] wire d_first_counter1_1 = _d_first_counter1_T_1[0]; // @[Edges.scala:230:28] wire d_first_1 = ~d_first_counter_1; // @[Edges.scala:229:27, :231:25] wire _d_first_count_T_1 = ~d_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire _d_first_counter_T_1 = ~d_first_1 & d_first_counter1_1; // @[Edges.scala:230:28, :231:25, :236:21] wire [1039:0] a_set; // @[Monitor.scala:626:34] wire [1039:0] a_set_wo_ready; // @[Monitor.scala:627:34] wire [4159:0] a_opcodes_set; // @[Monitor.scala:630:33] wire [4159:0] a_sizes_set; // @[Monitor.scala:632:31] wire [2:0] a_opcode_lookup; // @[Monitor.scala:635:35] wire [13:0] _GEN_1 = {1'h0, io_in_d_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :637:69] wire [13:0] _a_opcode_lookup_T; // @[Monitor.scala:637:69] assign _a_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69] wire [13:0] _a_size_lookup_T; // @[Monitor.scala:641:65] assign _a_size_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :641:65] wire [13:0] _d_opcodes_clr_T_4; // @[Monitor.scala:680:101] assign _d_opcodes_clr_T_4 = _GEN_1; // @[Monitor.scala:637:69, :680:101] wire [13:0] _d_sizes_clr_T_4; // @[Monitor.scala:681:99] assign _d_sizes_clr_T_4 = _GEN_1; // @[Monitor.scala:637:69, :681:99] wire [13:0] _c_opcode_lookup_T; // @[Monitor.scala:749:69] assign _c_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :749:69] wire [13:0] _c_size_lookup_T; // @[Monitor.scala:750:67] assign _c_size_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :750:67] wire [13:0] _d_opcodes_clr_T_10; // @[Monitor.scala:790:101] assign _d_opcodes_clr_T_10 = _GEN_1; // @[Monitor.scala:637:69, :790:101] wire [13:0] _d_sizes_clr_T_10; // @[Monitor.scala:791:99] assign _d_sizes_clr_T_10 = _GEN_1; // @[Monitor.scala:637:69, :791:99] wire [4159:0] _a_opcode_lookup_T_1 = inflight_opcodes >> _a_opcode_lookup_T; // @[Monitor.scala:616:35, :637:{44,69}] wire [4159:0] _a_opcode_lookup_T_6 = {4156'h0, _a_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:637:{44,97}] wire [4159:0] _a_opcode_lookup_T_7 = {1'h0, _a_opcode_lookup_T_6[4159:1]}; // @[Monitor.scala:637:{97,152}] assign a_opcode_lookup = _a_opcode_lookup_T_7[2:0]; // @[Monitor.scala:635:35, :637:{21,152}] wire [3:0] a_size_lookup; // @[Monitor.scala:639:33] wire [4159:0] _a_size_lookup_T_1 = inflight_sizes >> _a_size_lookup_T; // @[Monitor.scala:618:33, :641:{40,65}] wire [4159:0] _a_size_lookup_T_6 = {4156'h0, _a_size_lookup_T_1[3:0]}; // @[Monitor.scala:641:{40,91}] wire [4159:0] _a_size_lookup_T_7 = {1'h0, _a_size_lookup_T_6[4159:1]}; // @[Monitor.scala:641:{91,144}] assign a_size_lookup = _a_size_lookup_T_7[3:0]; // @[Monitor.scala:639:33, :641:{19,144}] wire [3:0] a_opcodes_set_interm; // @[Monitor.scala:646:40] wire [2:0] a_sizes_set_interm; // @[Monitor.scala:648:38] wire _same_cycle_resp_T = io_in_a_valid_0 & a_first_1; // @[Monitor.scala:36:7, :651:26, :684:44] wire [2047:0] _GEN_2 = 2048'h1 << io_in_a_bits_source_0; // @[OneHot.scala:58:35] wire [2047:0] _a_set_wo_ready_T; // @[OneHot.scala:58:35] assign _a_set_wo_ready_T = _GEN_2; // @[OneHot.scala:58:35] wire [2047:0] _a_set_T; // @[OneHot.scala:58:35] assign _a_set_T = _GEN_2; // @[OneHot.scala:58:35] assign a_set_wo_ready = _same_cycle_resp_T ? _a_set_wo_ready_T[1039:0] : 1040'h0; // @[OneHot.scala:58:35] wire _T_598 = _T_665 & a_first_1; // @[Decoupled.scala:51:35] assign a_set = _T_598 ? _a_set_T[1039:0] : 1040'h0; // @[OneHot.scala:58:35] wire [3:0] _a_opcodes_set_interm_T = {io_in_a_bits_opcode_0, 1'h0}; // @[Monitor.scala:36:7, :657:53] wire [3:0] _a_opcodes_set_interm_T_1 = {_a_opcodes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:657:{53,61}] assign a_opcodes_set_interm = _T_598 ? _a_opcodes_set_interm_T_1 : 4'h0; // @[Monitor.scala:646:40, :655:{25,70}, :657:{28,61}] wire [2:0] _a_sizes_set_interm_T = {io_in_a_bits_size_0, 1'h0}; // @[Monitor.scala:36:7, :658:51] wire [2:0] _a_sizes_set_interm_T_1 = {_a_sizes_set_interm_T[2:1], 1'h1}; // @[Monitor.scala:658:{51,59}] assign a_sizes_set_interm = _T_598 ? _a_sizes_set_interm_T_1 : 3'h0; // @[Monitor.scala:648:38, :655:{25,70}, :658:{28,59}] wire [13:0] _GEN_3 = {1'h0, io_in_a_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :659:79] wire [13:0] _a_opcodes_set_T; // @[Monitor.scala:659:79] assign _a_opcodes_set_T = _GEN_3; // @[Monitor.scala:659:79] wire [13:0] _a_sizes_set_T; // @[Monitor.scala:660:77] assign _a_sizes_set_T = _GEN_3; // @[Monitor.scala:659:79, :660:77] wire [16386:0] _a_opcodes_set_T_1 = {16383'h0, a_opcodes_set_interm} << _a_opcodes_set_T; // @[Monitor.scala:646:40, :659:{54,79}] assign a_opcodes_set = _T_598 ? _a_opcodes_set_T_1[4159:0] : 4160'h0; // @[Monitor.scala:630:33, :655:{25,70}, :659:{28,54}] wire [16385:0] _a_sizes_set_T_1 = {16383'h0, a_sizes_set_interm} << _a_sizes_set_T; // @[Monitor.scala:648:38, :659:54, :660:{52,77}] assign a_sizes_set = _T_598 ? _a_sizes_set_T_1[4159:0] : 4160'h0; // @[Monitor.scala:632:31, :655:{25,70}, :660:{28,52}] wire [1039:0] d_clr; // @[Monitor.scala:664:34] wire [1039:0] d_clr_wo_ready; // @[Monitor.scala:665:34] wire [4159:0] d_opcodes_clr; // @[Monitor.scala:668:33] wire [4159:0] d_sizes_clr; // @[Monitor.scala:670:31] wire _GEN_4 = io_in_d_bits_opcode_0 == 3'h6; // @[Monitor.scala:36:7, :673:46] wire d_release_ack; // @[Monitor.scala:673:46] assign d_release_ack = _GEN_4; // @[Monitor.scala:673:46] wire d_release_ack_1; // @[Monitor.scala:783:46] assign d_release_ack_1 = _GEN_4; // @[Monitor.scala:673:46, :783:46] wire _T_644 = io_in_d_valid_0 & d_first_1; // @[Monitor.scala:36:7, :674:26] wire [2047:0] _GEN_5 = 2048'h1 << io_in_d_bits_source_0; // @[OneHot.scala:58:35] wire [2047:0] _d_clr_wo_ready_T; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T = _GEN_5; // @[OneHot.scala:58:35] wire [2047:0] _d_clr_T; // @[OneHot.scala:58:35] assign _d_clr_T = _GEN_5; // @[OneHot.scala:58:35] wire [2047:0] _d_clr_wo_ready_T_1; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T_1 = _GEN_5; // @[OneHot.scala:58:35] wire [2047:0] _d_clr_T_1; // @[OneHot.scala:58:35] assign _d_clr_T_1 = _GEN_5; // @[OneHot.scala:58:35] assign d_clr_wo_ready = _T_644 & ~d_release_ack ? _d_clr_wo_ready_T[1039:0] : 1040'h0; // @[OneHot.scala:58:35] wire _T_613 = _T_733 & d_first_1 & ~d_release_ack; // @[Decoupled.scala:51:35] assign d_clr = _T_613 ? _d_clr_T[1039:0] : 1040'h0; // @[OneHot.scala:58:35] wire [16398:0] _d_opcodes_clr_T_5 = 16399'hF << _d_opcodes_clr_T_4; // @[Monitor.scala:680:{76,101}] assign d_opcodes_clr = _T_613 ? _d_opcodes_clr_T_5[4159:0] : 4160'h0; // @[Monitor.scala:668:33, :678:{25,70,89}, :680:{21,76}] wire [16398:0] _d_sizes_clr_T_5 = 16399'hF << _d_sizes_clr_T_4; // @[Monitor.scala:681:{74,99}] assign d_sizes_clr = _T_613 ? _d_sizes_clr_T_5[4159:0] : 4160'h0; // @[Monitor.scala:670:31, :678:{25,70,89}, :681:{21,74}] wire _same_cycle_resp_T_1 = _same_cycle_resp_T; // @[Monitor.scala:684:{44,55}] wire _same_cycle_resp_T_2 = io_in_a_bits_source_0 == io_in_d_bits_source_0; // @[Monitor.scala:36:7, :684:113] wire same_cycle_resp = _same_cycle_resp_T_1 & _same_cycle_resp_T_2; // @[Monitor.scala:684:{55,88,113}] wire [1039:0] _inflight_T = inflight | a_set; // @[Monitor.scala:614:27, :626:34, :705:27] wire [1039:0] _inflight_T_1 = ~d_clr; // @[Monitor.scala:664:34, :705:38] wire [1039:0] _inflight_T_2 = _inflight_T & _inflight_T_1; // @[Monitor.scala:705:{27,36,38}] wire [4159:0] _inflight_opcodes_T = inflight_opcodes | a_opcodes_set; // @[Monitor.scala:616:35, :630:33, :706:43] wire [4159:0] _inflight_opcodes_T_1 = ~d_opcodes_clr; // @[Monitor.scala:668:33, :706:62] wire [4159:0] _inflight_opcodes_T_2 = _inflight_opcodes_T & _inflight_opcodes_T_1; // @[Monitor.scala:706:{43,60,62}] wire [4159:0] _inflight_sizes_T = inflight_sizes | a_sizes_set; // @[Monitor.scala:618:33, :632:31, :707:39] wire [4159:0] _inflight_sizes_T_1 = ~d_sizes_clr; // @[Monitor.scala:670:31, :707:56] wire [4159:0] _inflight_sizes_T_2 = _inflight_sizes_T & _inflight_sizes_T_1; // @[Monitor.scala:707:{39,54,56}] reg [31:0] watchdog; // @[Monitor.scala:709:27] wire [32:0] _watchdog_T = {1'h0, watchdog} + 33'h1; // @[Monitor.scala:709:27, :714:26] wire [31:0] _watchdog_T_1 = _watchdog_T[31:0]; // @[Monitor.scala:714:26] reg [1039:0] inflight_1; // @[Monitor.scala:726:35] wire [1039:0] _inflight_T_3 = inflight_1; // @[Monitor.scala:726:35, :814:35] reg [4159:0] inflight_opcodes_1; // @[Monitor.scala:727:35] wire [4159:0] _inflight_opcodes_T_3 = inflight_opcodes_1; // @[Monitor.scala:727:35, :815:43] reg [4159:0] inflight_sizes_1; // @[Monitor.scala:728:35] wire [4159:0] _inflight_sizes_T_3 = inflight_sizes_1; // @[Monitor.scala:728:35, :816:41] wire d_first_done_2 = _d_first_T_2; // @[Decoupled.scala:51:35] wire [2:0] _d_first_beats1_decode_T_7 = _d_first_beats1_decode_T_6[2:0]; // @[package.scala:243:{71,76}] wire [2:0] _d_first_beats1_decode_T_8 = ~_d_first_beats1_decode_T_7; // @[package.scala:243:{46,76}] reg d_first_counter_2; // @[Edges.scala:229:27] wire _d_first_last_T_4 = d_first_counter_2; // @[Edges.scala:229:27, :232:25] wire [1:0] _d_first_counter1_T_2 = {1'h0, d_first_counter_2} - 2'h1; // @[Edges.scala:229:27, :230:28] wire d_first_counter1_2 = _d_first_counter1_T_2[0]; // @[Edges.scala:230:28] wire d_first_2 = ~d_first_counter_2; // @[Edges.scala:229:27, :231:25] wire _d_first_count_T_2 = ~d_first_counter1_2; // @[Edges.scala:230:28, :234:27] wire _d_first_counter_T_2 = ~d_first_2 & d_first_counter1_2; // @[Edges.scala:230:28, :231:25, :236:21] wire [3:0] c_opcode_lookup; // @[Monitor.scala:747:35] wire [3:0] c_size_lookup; // @[Monitor.scala:748:35] wire [4159:0] _c_opcode_lookup_T_1 = inflight_opcodes_1 >> _c_opcode_lookup_T; // @[Monitor.scala:727:35, :749:{44,69}] wire [4159:0] _c_opcode_lookup_T_6 = {4156'h0, _c_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:749:{44,97}] wire [4159:0] _c_opcode_lookup_T_7 = {1'h0, _c_opcode_lookup_T_6[4159:1]}; // @[Monitor.scala:749:{97,152}] assign c_opcode_lookup = _c_opcode_lookup_T_7[3:0]; // @[Monitor.scala:747:35, :749:{21,152}] wire [4159:0] _c_size_lookup_T_1 = inflight_sizes_1 >> _c_size_lookup_T; // @[Monitor.scala:728:35, :750:{42,67}] wire [4159:0] _c_size_lookup_T_6 = {4156'h0, _c_size_lookup_T_1[3:0]}; // @[Monitor.scala:750:{42,93}] wire [4159:0] _c_size_lookup_T_7 = {1'h0, _c_size_lookup_T_6[4159:1]}; // @[Monitor.scala:750:{93,146}] assign c_size_lookup = _c_size_lookup_T_7[3:0]; // @[Monitor.scala:748:35, :750:{21,146}] wire [1039:0] d_clr_1; // @[Monitor.scala:774:34] wire [1039:0] d_clr_wo_ready_1; // @[Monitor.scala:775:34] wire [4159:0] d_opcodes_clr_1; // @[Monitor.scala:776:34] wire [4159:0] d_sizes_clr_1; // @[Monitor.scala:777:34] wire _T_709 = io_in_d_valid_0 & d_first_2; // @[Monitor.scala:36:7, :784:26] assign d_clr_wo_ready_1 = _T_709 & d_release_ack_1 ? _d_clr_wo_ready_T_1[1039:0] : 1040'h0; // @[OneHot.scala:58:35] wire _T_691 = _T_733 & d_first_2 & d_release_ack_1; // @[Decoupled.scala:51:35] assign d_clr_1 = _T_691 ? _d_clr_T_1[1039:0] : 1040'h0; // @[OneHot.scala:58:35] wire [16398:0] _d_opcodes_clr_T_11 = 16399'hF << _d_opcodes_clr_T_10; // @[Monitor.scala:790:{76,101}] assign d_opcodes_clr_1 = _T_691 ? _d_opcodes_clr_T_11[4159:0] : 4160'h0; // @[Monitor.scala:776:34, :788:{25,70,88}, :790:{21,76}] wire [16398:0] _d_sizes_clr_T_11 = 16399'hF << _d_sizes_clr_T_10; // @[Monitor.scala:791:{74,99}] assign d_sizes_clr_1 = _T_691 ? _d_sizes_clr_T_11[4159:0] : 4160'h0; // @[Monitor.scala:777:34, :788:{25,70,88}, :791:{21,74}] wire _same_cycle_resp_T_8 = io_in_d_bits_source_0 == 11'h0; // @[Monitor.scala:36:7, :795:113] wire [1039:0] _inflight_T_4 = ~d_clr_1; // @[Monitor.scala:774:34, :814:46] wire [1039:0] _inflight_T_5 = _inflight_T_3 & _inflight_T_4; // @[Monitor.scala:814:{35,44,46}] wire [4159:0] _inflight_opcodes_T_4 = ~d_opcodes_clr_1; // @[Monitor.scala:776:34, :815:62] wire [4159:0] _inflight_opcodes_T_5 = _inflight_opcodes_T_3 & _inflight_opcodes_T_4; // @[Monitor.scala:815:{43,60,62}] wire [4159:0] _inflight_sizes_T_4 = ~d_sizes_clr_1; // @[Monitor.scala:777:34, :816:58] wire [4159:0] _inflight_sizes_T_5 = _inflight_sizes_T_3 & _inflight_sizes_T_4; // @[Monitor.scala:816:{41,56,58}] reg [31:0] watchdog_1; // @[Monitor.scala:818:27]
Generate the Verilog code corresponding to the following Chisel files. File LoopMatmul.scala: package gemmini import chisel3._ import chisel3.util._ import chisel3.experimental._ import freechips.rocketchip.tile.RoCCCommand import org.chipsalliance.cde.config.Parameters import GemminiISA._ import LocalAddr._ import Util._ // LdA class LoopMatmulLdAReq(val block_size: Int, val coreMaxAddrBits: Int, val iterator_bitwidth: Int, val max_addr: Int, val concurrent_loops: Int) extends Bundle { val max_i = UInt(iterator_bitwidth.W) val max_k = UInt(iterator_bitwidth.W) val pad_i = UInt(log2Up(block_size).W) val pad_k = UInt(log2Up(block_size).W) val dram_addr = UInt(coreMaxAddrBits.W) val dram_stride = UInt(coreMaxAddrBits.W) val transpose = Bool() val addr_start = UInt(log2Up(max_addr).W) val loop_id = UInt(log2Up(concurrent_loops).W) val is_resadd = Bool() } class LoopMatmulLdA(block_size: Int, coreMaxAddrBits: Int, iterator_bitwidth: Int, max_addr: Int, input_w: Int, max_block_len: Int, concurrent_loops: Int, mvin_rs2_t: MvinRs2) (implicit p: Parameters) extends Module { val io = IO(new Bundle { val req = Flipped(Decoupled(new LoopMatmulLdAReq(block_size, coreMaxAddrBits, iterator_bitwidth, max_addr, concurrent_loops))) val cmd = Decoupled(Output(new RoCCCommand)) val i = Output(UInt(iterator_bitwidth.W)) val k = Output(UInt(iterator_bitwidth.W)) val idle = Output(Bool()) val rob_overloaded = Input(Bool()) val loop_id = Output(UInt(log2Up(concurrent_loops).W)) }) object State extends ChiselEnum { val idle, ld = Value } import State._ val state = RegInit(idle) val req = Reg(new LoopMatmulLdAReq(block_size, coreMaxAddrBits, iterator_bitwidth, max_addr, concurrent_loops)) val i = Reg(UInt(iterator_bitwidth.W)) val k = Reg(UInt(iterator_bitwidth.W)) val row_iterator = Mux(req.transpose, k, i) val col_iterator = Mux(req.transpose, i, k) val max_row_iterator = Mux(req.transpose, req.max_k, req.max_i) val max_col_iterator = Mux(req.transpose, req.max_i, req.max_k) val row_pad = Mux(req.transpose, req.pad_k, req.pad_i) val col_pad = Mux(req.transpose, req.pad_i, req.pad_k) val max_col_dim = Mux(req.transpose, req.max_i, req.max_k) val max_blocks = Mux(max_col_dim <= max_block_len.U, max_col_dim, max_block_len.U) val sp_addr_start = req.addr_start val dram_offset = (row_iterator * req.dram_stride + col_iterator) * block_size.U * (input_w/8).U val dram_addr = req.dram_addr + LoopMatmul.castDramOffset(dram_offset) val sp_addr = sp_addr_start + (row_iterator * max_col_iterator + col_iterator) * block_size.U val blocks = Mux(col_iterator + max_blocks <= max_col_iterator, max_blocks, max_col_iterator-col_iterator) val cols = (blocks * block_size.U) - Mux(col_iterator + blocks >= max_col_iterator, col_pad, 0.U) val rows = block_size.U - Mux(row_iterator === max_row_iterator-1.U, row_pad, 0.U) val mvin_cmd = Wire(new RoCCCommand) mvin_cmd := DontCare mvin_cmd.inst.funct := LOAD_CMD mvin_cmd.rs1 := dram_addr val mvin_cmd_rs2 = Wire(mvin_rs2_t.cloneType) mvin_cmd_rs2 := DontCare mvin_cmd_rs2.num_rows := rows.asUInt mvin_cmd_rs2.num_cols := cols.asUInt mvin_cmd_rs2.local_addr := cast_to_sp_addr(mvin_cmd_rs2.local_addr, sp_addr) mvin_cmd.rs2 := mvin_cmd_rs2.asUInt when(req.is_resadd){ mvin_cmd_rs2.local_addr := cast_to_acc_addr(mvin_cmd_rs2.local_addr, sp_addr, accumulate = false.B, read_full = false.B) } io.req.ready := state === idle io.i := i io.k := k io.idle := state === idle io.cmd.valid := state =/= idle && !io.rob_overloaded && req.dram_addr =/= 0.U io.cmd.bits := mvin_cmd io.loop_id := req.loop_id when(req.dram_addr === 0.U){ state := idle }.elsewhen(io.cmd.fire) { // The order here is k, j, i val i_blocks = Mux(req.transpose, max_blocks, 1.U) val k_blocks = Mux(req.transpose, 1.U, max_blocks) val next_i = floorAdd(i, i_blocks, req.max_i) val next_k = floorAdd(k, k_blocks, req.max_k, next_i === 0.U) i := next_i k := next_k when (next_i === 0.U && next_k === 0.U) { state := idle } } when (io.req.fire) { req := io.req.bits state := ld i := 0.U k := 0.U } } // LdB class LoopMatmulLdBReq(val block_size: Int, val coreMaxAddrBits: Int, val iterator_bitwidth: Int, val max_addr: Int, val concurrent_loops: Int) extends Bundle { val max_k = UInt(iterator_bitwidth.W) val max_j = UInt(iterator_bitwidth.W) val pad_k = UInt(log2Up(block_size).W) val pad_j = UInt(log2Up(block_size).W) val dram_addr = UInt(coreMaxAddrBits.W) val dram_stride = UInt(coreMaxAddrBits.W) val transpose = Bool() val addr_end = UInt(log2Up(max_addr+1).W) val loop_id = UInt(log2Up(concurrent_loops).W) val is_resadd = Bool() } class LoopMatmulLdB(block_size: Int, coreMaxAddrBits: Int, iterator_bitwidth: Int, max_addr: Int, input_w: Int, max_block_len: Int, concurrent_loops: Int, mvin_rs2_t: MvinRs2) (implicit p: Parameters) extends Module { val io = IO(new Bundle { val req = Flipped(Decoupled(new LoopMatmulLdBReq(block_size, coreMaxAddrBits, iterator_bitwidth, max_addr, concurrent_loops))) val cmd = Decoupled(Output(new RoCCCommand)) val k = Output(UInt(iterator_bitwidth.W)) val j = Output(UInt(iterator_bitwidth.W)) val idle = Output(Bool()) val rob_overloaded = Input(Bool()) val loop_id = Output(UInt(log2Up(concurrent_loops).W)) }) object State extends ChiselEnum { val idle, ld = Value } import State._ val state = RegInit(idle) val req = Reg(new LoopMatmulLdBReq(block_size, coreMaxAddrBits, iterator_bitwidth, max_addr, concurrent_loops)) val k = Reg(UInt(iterator_bitwidth.W)) val j = Reg(UInt(iterator_bitwidth.W)) val row_iterator = Mux(req.transpose, j, k) val col_iterator = Mux(req.transpose, k, j) val max_row_iterator = Mux(req.transpose, req.max_j, req.max_k) val max_col_iterator = Mux(req.transpose, req.max_k, req.max_j) val row_pad = Mux(req.transpose, req.pad_j, req.pad_k) val col_pad = Mux(req.transpose, req.pad_k, req.pad_j) val max_col_dim = Mux(req.transpose, req.max_k, req.max_j) val max_blocks = Mux(max_col_dim <= max_block_len.U, max_col_dim, max_block_len.U) val sp_addr_start = Mux(req.is_resadd, req.addr_end, req.addr_end - req.max_k * req.max_j * block_size.U) val dram_offset = (row_iterator * req.dram_stride + col_iterator) * block_size.U * (input_w/8).U val dram_addr = req.dram_addr + LoopMatmul.castDramOffset(dram_offset) val sp_addr = sp_addr_start + (row_iterator * max_col_iterator + col_iterator) * block_size.U val blocks = Mux(col_iterator + max_blocks <= max_col_iterator, max_blocks, max_col_iterator-col_iterator) val cols = (blocks * block_size.U) - Mux(col_iterator + blocks >= max_col_iterator, col_pad, 0.U) val rows = block_size.U - Mux(max_row_iterator === max_row_iterator-1.U, row_pad, 0.U) val mvin_cmd = Wire(new RoCCCommand) mvin_cmd := DontCare mvin_cmd.inst.funct := LOAD2_CMD mvin_cmd.rs1 := dram_addr val mvin_cmd_rs2 = Wire(mvin_rs2_t.cloneType) mvin_cmd_rs2 := DontCare mvin_cmd_rs2.num_rows := rows.asUInt mvin_cmd_rs2.num_cols := cols.asUInt mvin_cmd_rs2.local_addr := cast_to_sp_addr(mvin_cmd_rs2.local_addr, sp_addr) mvin_cmd.rs2 := mvin_cmd_rs2.asUInt when (req.is_resadd){ mvin_cmd_rs2.local_addr := cast_to_acc_addr(mvin_cmd_rs2.local_addr, sp_addr, accumulate = true.B, read_full = false.B) } io.req.ready := state === idle io.k := k io.j := j io.idle := state === idle io.cmd.valid := state =/= idle && !io.rob_overloaded && req.dram_addr =/= 0.U io.cmd.bits := mvin_cmd io.loop_id := req.loop_id when(req.dram_addr === 0.U){ state := idle }.elsewhen(io.cmd.fire) { // The order here is k, j, i val j_blocks = Mux(req.transpose, 1.U, max_blocks) val k_blocks = Mux(req.transpose, max_blocks, 1.U) val next_j = floorAdd(j, j_blocks, req.max_j) val next_k = floorAdd(k, k_blocks, req.max_k, next_j === 0.U) j := next_j k := next_k when (next_j === 0.U && next_k === 0.U) { state := idle } } when (io.req.fire) { req := io.req.bits state := ld j := 0.U k := 0.U } } // LdD class LoopMatmulLdDReq(val block_size: Int, val coreMaxAddrBits: Int, val iterator_bitwidth: Int, val max_acc_addr: Int, val concurrent_loops: Int) extends Bundle { val max_j = UInt(iterator_bitwidth.W) val max_i = UInt(iterator_bitwidth.W) val pad_j = UInt(log2Up(block_size).W) val pad_i = UInt(log2Up(block_size).W) val dram_addr = UInt(coreMaxAddrBits.W) val dram_stride = UInt(coreMaxAddrBits.W) val low_d = Bool() val addr_start = UInt(log2Up(max_acc_addr).W) val loop_id = UInt(log2Up(concurrent_loops).W) } class LoopMatmulLdD(block_size: Int, coreMaxAddrBits: Int, iterator_bitwidth: Int, max_acc_addr: Int, input_w: Int, acc_w: Int, max_block_len: Int, max_block_len_acc: Int, concurrent_loops: Int, mvin_rs2_t: MvinRs2) (implicit p: Parameters) extends Module { val io = IO(new Bundle { val req = Flipped(Decoupled(new LoopMatmulLdDReq(block_size, coreMaxAddrBits, iterator_bitwidth, max_acc_addr, concurrent_loops))) val cmd = Decoupled(Output(new RoCCCommand)) val idle = Output(Bool()) val rob_overloaded = Input(Bool()) val loop_id = Output(UInt(log2Up(concurrent_loops).W)) }) object State extends ChiselEnum { val idle, ld = Value } import State._ val state = RegInit(idle) val req = Reg(new LoopMatmulLdDReq(block_size, coreMaxAddrBits, iterator_bitwidth, max_acc_addr, concurrent_loops)) val max_blocks = Mux(req.low_d, Mux(req.max_j <= max_block_len.U, req.max_j, max_block_len.U), Mux(req.max_j <= max_block_len_acc.U, req.max_j, max_block_len_acc.U)) val j = Reg(UInt(iterator_bitwidth.W)) val i = Reg(UInt(iterator_bitwidth.W)) val acc_addr_start = req.addr_start val dram_offset = Mux(req.low_d, (i * req.dram_stride + j) * block_size.U * (input_w/8).U, (i * req.dram_stride + j) * block_size.U * (acc_w/8).U) val dram_addr = req.dram_addr + LoopMatmul.castDramOffset(dram_offset) val sp_addr = acc_addr_start + (i * req.max_j + j) * block_size.U val blocks = Mux(j + max_blocks <= req.max_j, max_blocks, req.max_j-j) val cols = (blocks * block_size.U) - Mux(j + blocks >= req.max_j, req.pad_j, 0.U) val rows = block_size.U - Mux(i === req.max_i-1.U, req.pad_i, 0.U) val mvin_cmd = Wire(new RoCCCommand) mvin_cmd := DontCare mvin_cmd.inst.funct := LOAD3_CMD mvin_cmd.rs1 := dram_addr val mvin_cmd_rs2 = Wire(mvin_rs2_t.cloneType) mvin_cmd_rs2 := DontCare mvin_cmd_rs2.num_rows := rows.asUInt mvin_cmd_rs2.num_cols := cols.asUInt mvin_cmd_rs2.local_addr := cast_to_acc_addr(mvin_cmd_rs2.local_addr, sp_addr, accumulate = false.B, read_full = false.B) mvin_cmd.rs2 := mvin_cmd_rs2.asUInt io.req.ready := state === idle io.idle := state === idle // The order here is k, j, i io.cmd.valid := state =/= idle && !io.rob_overloaded && req.dram_addr =/= 0.U io.cmd.bits := mvin_cmd io.loop_id := req.loop_id when (req.dram_addr === 0.U) { state := idle }.elsewhen (io.cmd.fire) { // The order here is k, j, i val next_i = floorAdd(i, 1.U, req.max_i) val next_j = floorAdd(j, max_blocks, req.max_j, next_i === 0.U) i := next_i j := next_j when (next_i === 0.U && next_j === 0.U) { state := idle } } when (io.req.fire) { req := io.req.bits state := ld j := 0.U i := 0.U } } // Compute class LoopMatmulExecuteReq(val block_size: Int, val coreMaxAddrBits: Int, val iterator_bitwidth: Int, val max_addr: Int, val max_acc_addr: Int, val concurrent_loops: Int) extends Bundle { val max_j = UInt(iterator_bitwidth.W) val max_k = UInt(iterator_bitwidth.W) val max_i = UInt(iterator_bitwidth.W) val pad_j = UInt(log2Up(block_size).W) val pad_k = UInt(log2Up(block_size).W) val pad_i = UInt(log2Up(block_size).W) val a_tranpose = Bool() val b_tranpose = Bool() val accumulate = Bool() val a_addr_start = UInt(log2Up(max_addr).W) val b_addr_end = UInt(log2Up(max_addr+1).W) val c_addr_start = UInt(log2Up(max_acc_addr).W) val loop_id = UInt(log2Up(concurrent_loops).W) val skip = Bool() } class LoopMatmulExecute(block_size: Int, coreMaxAddrBits: Int, iterator_bitwidth: Int, max_addr: Int, max_acc_addr: Int, concurrent_loops: Int, preload_rs1_t: PreloadRs, preload_rs2_t: PreloadRs, compute_rs1_t: ComputeRs, compute_rs2_t: ComputeRs) (implicit p: Parameters) extends Module { val io = IO(new Bundle { val req = Flipped(Decoupled(new LoopMatmulExecuteReq(block_size, coreMaxAddrBits, iterator_bitwidth, max_addr, max_acc_addr, concurrent_loops))) val cmd = Decoupled(Output(new RoCCCommand)) val k = Output(UInt(iterator_bitwidth.W)) val j = Output(UInt(iterator_bitwidth.W)) val i = Output(UInt(iterator_bitwidth.W)) val ld_ka = Input(UInt(iterator_bitwidth.W)) val ld_kb = Input(UInt(iterator_bitwidth.W)) val ld_j = Input(UInt(iterator_bitwidth.W)) val ld_i = Input(UInt(iterator_bitwidth.W)) val lda_completed = Input(Bool()) val ldb_completed = Input(Bool()) val ldd_completed = Input(Bool()) val idle = Output(Bool()) val rob_overloaded = Input(Bool()) val loop_id = Output(UInt(log2Up(concurrent_loops).W)) }) object State extends ChiselEnum { val idle, pre, comp = Value } import State._ val state = RegInit(idle) val req = Reg(new LoopMatmulExecuteReq(block_size, coreMaxAddrBits, iterator_bitwidth, max_addr, max_acc_addr, concurrent_loops)) val c_addr_start = /*(BigInt(1) << 31).U |*/ req.c_addr_start val b_addr_start = req.b_addr_end - req.max_k * req.max_j * block_size.U val k = Reg(UInt(iterator_bitwidth.W)) val j = Reg(UInt(iterator_bitwidth.W)) val i = Reg(UInt(iterator_bitwidth.W)) val a_row = Mux(req.a_tranpose, k, i) val a_col = Mux(req.a_tranpose, i, k) val b_row = Mux(req.b_tranpose, j, k) val b_col = Mux(req.b_tranpose, k, j) val a_max_col = Mux(req.a_tranpose, req.max_i, req.max_k) val b_max_col = Mux(req.b_tranpose, req.max_k, req.max_j) val a_addr = req.a_addr_start + (a_row * a_max_col + a_col) * block_size.U val b_addr = b_addr_start + (b_row * b_max_col + b_col) * block_size.U val c_addr = c_addr_start + (i * req.max_j + j) * block_size.U val a_cols = block_size.U - Mux(k === req.max_k - 1.U, req.pad_k, 0.U) val a_rows = block_size.U - Mux(i === req.max_i - 1.U, req.pad_i, 0.U) val b_cols = block_size.U - Mux(j === req.max_j - 1.U, req.pad_j, 0.U) val b_rows = block_size.U - Mux(k === req.max_k - 1.U, req.pad_k, 0.U) val c_cols = block_size.U - Mux(j === req.max_j - 1.U, req.pad_j, 0.U) val c_rows = block_size.U - Mux(i === req.max_i - 1.U, req.pad_i, 0.U) val pre_cmd = Wire(new RoCCCommand) pre_cmd := DontCare pre_cmd.inst.funct := PRELOAD_CMD val pre_cmd_rs1 = Wire(preload_rs1_t.cloneType) pre_cmd_rs1 := DontCare pre_cmd_rs1.num_rows := b_rows.asUInt pre_cmd_rs1.num_cols := b_cols.asUInt pre_cmd_rs1.local_addr := Mux(i === 0.U, cast_to_sp_addr(pre_cmd_rs1.local_addr, b_addr), garbage_addr(pre_cmd_rs1.local_addr)) val pre_cmd_rs2 = Wire(preload_rs2_t.cloneType) pre_cmd_rs2 := DontCare pre_cmd_rs2.num_rows := c_rows.asUInt pre_cmd_rs2.num_cols := c_cols.asUInt pre_cmd_rs2.local_addr := cast_to_acc_addr(pre_cmd_rs2.local_addr, c_addr, accumulate = req.accumulate || k =/= 0.U, read_full = false.B) pre_cmd.rs1 := pre_cmd_rs1.asUInt pre_cmd.rs2 := pre_cmd_rs2.asUInt val comp_cmd = Wire(new RoCCCommand()) comp_cmd := DontCare comp_cmd.inst.funct := Mux(i === 0.U, COMPUTE_AND_FLIP_CMD, COMPUTE_AND_STAY_CMD) val comp_cmd_rs1 = Wire(compute_rs1_t.cloneType) comp_cmd_rs1 := DontCare comp_cmd_rs1.num_rows := a_rows.asUInt comp_cmd_rs1.num_cols := a_cols.asUInt comp_cmd_rs1.local_addr := cast_to_sp_addr(comp_cmd_rs1.local_addr, a_addr) val comp_cmd_rs2 = Wire(compute_rs2_t.cloneType) comp_cmd_rs2 := DontCare comp_cmd_rs2.num_rows := block_size.U comp_cmd_rs2.num_cols := block_size.U comp_cmd_rs2.local_addr := garbage_addr(comp_cmd_rs2.local_addr) comp_cmd.rs1 := comp_cmd_rs1.asUInt comp_cmd.rs2 := comp_cmd_rs2.asUInt io.req.ready := state === idle io.k := k io.j := j io.i := i io.idle := state === idle // The order here is k, j, i val lda_ahead = io.lda_completed || io.ld_ka > k || (io.ld_ka === k && io.ld_i > i) val ldb_ahead = io.ldb_completed || io.ld_kb > k || (io.ld_ka === k && io.ld_j > j) val ldd_ahead = io.ldd_completed val ld_ahead = lda_ahead && ldb_ahead && ldd_ahead io.cmd.valid := state =/= idle && !io.rob_overloaded && ld_ahead && !req.skip io.cmd.bits := Mux(state === pre, pre_cmd, comp_cmd) io.loop_id := req.loop_id when(req.skip) { state := idle }.elsewhen (io.cmd.fire) { when (state === pre) { state := comp }.otherwise { val next_i = floorAdd(i, 1.U, req.max_i) val next_j = floorAdd(j, 1.U, req.max_j, next_i === 0.U) val next_k = floorAdd(k, 1.U, req.max_k, next_j === 0.U && next_i === 0.U) k := next_k j := next_j i := next_i state := Mux(next_k === 0.U && next_j === 0.U && next_i === 0.U, idle, pre) } } when (io.req.fire) { req := io.req.bits state := pre j := 0.U k := 0.U i := 0.U } assert(!(state =/= idle && req.a_tranpose && req.b_tranpose)) } // StC class LoopMatmulStCReq(val block_size: Int, val coreMaxAddrBits: Int, val iterator_bitwidth: Int, val max_acc_addr: Int, val concurrent_loops: Int) extends Bundle { val max_k = UInt(iterator_bitwidth.W) val max_j = UInt(iterator_bitwidth.W) val max_i = UInt(iterator_bitwidth.W) val pad_j = UInt(log2Up(block_size).W) val pad_i = UInt(log2Up(block_size).W) val dram_addr = UInt(coreMaxAddrBits.W) val dram_stride = UInt(coreMaxAddrBits.W) val full_c = Bool() val act = UInt(Activation.bitwidth.W) val addr_start = UInt(log2Up(max_acc_addr).W) val loop_id = UInt(log2Up(concurrent_loops).W) val is_resadd = Bool() } class LoopMatmulStC(block_size: Int, coreMaxAddrBits: Int, iterator_bitwidth: Int, max_acc_addr: Int, input_w: Int, acc_w: Int, max_block_len: Int, concurrent_loops: Int, mvout_rs2_t: MvoutRs2) (implicit p: Parameters) extends Module { val io = IO(new Bundle { val req = Flipped(Decoupled(new LoopMatmulStCReq(block_size, coreMaxAddrBits, iterator_bitwidth, max_acc_addr, concurrent_loops))) val cmd = Decoupled(Output(new RoCCCommand)) val ex_k = Input(UInt(iterator_bitwidth.W)) val ex_j = Input(UInt(iterator_bitwidth.W)) val ex_i = Input(UInt(iterator_bitwidth.W)) val ex_completed = Input(Bool()) val j = Output(UInt(iterator_bitwidth.W)) val i = Output(UInt(iterator_bitwidth.W)) val idle = Output(Bool()) val rob_overloaded = Input(Bool()) val loop_id = Output(UInt(log2Up(concurrent_loops).W)) }) object State extends ChiselEnum { val idle, st, ln_config, ln_st = Value } import State._ val state = RegInit(idle) val req = Reg(new LoopMatmulStCReq(block_size, coreMaxAddrBits, iterator_bitwidth, max_acc_addr, concurrent_loops)) val max_blocks = Mux(req.full_c, 1.U, Mux(req.max_j <= max_block_len.U, req.max_j, max_block_len.U)) // Non-normalization-related iterators and calculations val j = Reg(UInt(iterator_bitwidth.W)) val i = Reg(UInt(iterator_bitwidth.W)) val acc_addr_start = /*(BigInt(1) << 31).U | (req.full_c << 29.U).asUInt |*/ req.addr_start val dram_offset = Mux(req.full_c, (i * req.dram_stride + j) * block_size.U * (acc_w/8).U, (i * req.dram_stride + j) * block_size.U * (input_w/8).U) val dram_addr = req.dram_addr + LoopMatmul.castDramOffset(dram_offset) val sp_addr = acc_addr_start + (i * req.max_j + j) * block_size.U val blocks = Mux(j + max_blocks <= req.max_j, max_blocks, req.max_j-j) val cols = (blocks * block_size.U) - Mux(j + blocks >= req.max_j, req.pad_j, 0.U) val rows = block_size.U - Mux(i === req.max_i-1.U, req.pad_i, 0.U) val mvout_cmd = Wire(new RoCCCommand) mvout_cmd := DontCare mvout_cmd.inst.funct := STORE_CMD mvout_cmd.rs1 := dram_addr val mvout_cmd_rs2 = Wire(mvout_rs2_t.cloneType) mvout_cmd_rs2 := DontCare mvout_cmd_rs2.num_rows := rows.asUInt mvout_cmd_rs2.num_cols := cols.asUInt mvout_cmd_rs2.local_addr := cast_to_acc_addr(mvout_cmd_rs2.local_addr, sp_addr, accumulate = false.B, read_full = req.full_c) mvout_cmd.rs2 := mvout_cmd_rs2.asUInt // Layernorm iterators and calculations val ln_row = Reg(UInt(iterator_bitwidth.W)) val ln_cmd = Reg(UInt(iterator_bitwidth.W)) val ln_stat_id = Reg(UInt(iterator_bitwidth.W)) val NORM_STAT_IDS = 2 // TODO magic number val ln_norm_cmds = VecInit(VecInit(NormCmd.SUM, NormCmd.MEAN), VecInit(NormCmd.VARIANCE, NormCmd.INV_STDDEV), VecInit(NormCmd.RESET, NormCmd.RESET)) val sm_norm_cmds = VecInit(VecInit(NormCmd.MAX, NormCmd.MAX), VecInit(NormCmd.SUM_EXP, NormCmd.INV_SUM_EXP), VecInit(NormCmd.RESET, NormCmd.RESET)) val ln_stat_ids = Mux(rows -& ln_row > NORM_STAT_IDS.U, NORM_STAT_IDS.U, rows -& ln_row) val ln_r = ln_row +& ln_stat_id val ln_sp_addr = acc_addr_start +& (i * req.max_j +& j) * block_size.U +& ln_r val ln_norm_cmd = Mux(j +& max_blocks >= req.max_j, Mux(req.act === Activation.LAYERNORM, ln_norm_cmds(ln_cmd)(1), sm_norm_cmds(ln_cmd)(1)), Mux(req.act === Activation.LAYERNORM, ln_norm_cmds(ln_cmd)(0), sm_norm_cmds(ln_cmd)(0))) // TODO we assume for now that full_C and layernorm aren't true at the same val ln_dram_offset = ((i * req.dram_stride +& j) * block_size.U +& ln_r * req.dram_stride) * (input_w/8).U val ln_dram_addr = req.dram_addr + LoopMatmul.castDramOffset(ln_dram_offset) val ln_config_norm_rs1 = Wire(new GemminiISA.ConfigNormRs1) ln_config_norm_rs1 := DontCare ln_config_norm_rs1.set_stats_id_only := 1.U ln_config_norm_rs1.cmd_type := CONFIG_NORM ln_config_norm_rs1.norm_stats_id := ln_stat_id val ln_config_norm = Wire(new RoCCCommand) ln_config_norm := DontCare ln_config_norm.inst.funct := CONFIG_CMD ln_config_norm.rs1 := ln_config_norm_rs1.asUInt ln_config_norm.rs2 := DontCare val ln_mvout_cmd = Wire(new RoCCCommand) ln_mvout_cmd := DontCare ln_mvout_cmd.inst.funct := STORE_CMD ln_mvout_cmd.rs1 := ln_dram_addr val ln_mvout_cmd_rs2 = Wire(mvout_rs2_t.cloneType) ln_mvout_cmd_rs2 := DontCare ln_mvout_cmd_rs2.num_rows := 1.U ln_mvout_cmd_rs2.num_cols := cols.asUInt ln_mvout_cmd_rs2.local_addr := cast_to_acc_addr(ln_mvout_cmd_rs2.local_addr, ln_sp_addr, accumulate = false.B, read_full = req.full_c) ln_mvout_cmd_rs2.local_addr.norm_cmd := ln_norm_cmd ln_mvout_cmd.rs2 := ln_mvout_cmd_rs2.asUInt io.req.ready := state === idle io.j := j io.i := i io.idle := state === idle // The order here is k, j, i when not doing LAYERNORM or SOFTMAX val ex_ahead = WireInit(io.ex_completed || ((req.act =/= Activation.LAYERNORM) && (req.act =/= Activation.SOFTMAX) && (io.ex_k === req.max_k - 1.U && (io.ex_j >= j + blocks || ((io.ex_j === j + blocks - 1.U) && io.ex_i > i))))) when(req.is_resadd){ ex_ahead := io.ex_completed || (io.ex_i > i || (io.ex_i === i && io.ex_j >= j + blocks)) } io.cmd.valid := state =/= idle && !io.rob_overloaded && ex_ahead && req.dram_addr =/= 0.U io.cmd.bits := MuxCase(mvout_cmd, Seq( (state === ln_config) -> ln_config_norm, (state === ln_st) -> ln_mvout_cmd, )) io.loop_id := req.loop_id when (req.dram_addr === 0.U) { state := idle }.elsewhen (io.cmd.fire && state === st) { // The order here is k, j, i val next_i = floorAdd(i, 1.U, req.max_i) val next_j = floorAdd(j, max_blocks, req.max_j, next_i === 0.U) i := next_i j := next_j when (next_i === 0.U && next_j === 0.U) { state := idle } }.elsewhen (io.cmd.fire && state === ln_config) { state := ln_st }.elsewhen (io.cmd.fire && state === ln_st) { val next_j = floorAdd(j, max_blocks, req.max_j) val next_stat_id = floorAdd(ln_stat_id, 1.U, ln_stat_ids, next_j === 0.U) val next_cmd = floorAdd(ln_cmd, 1.U, ln_norm_cmds.size.U, next_j === 0.U && next_stat_id === 0.U) val next_row = floorAdd(ln_row, NORM_STAT_IDS.U, rows, next_j === 0.U && next_stat_id === 0.U && next_cmd === 0.U) val next_i = floorAdd(i, 1.U, req.max_i, next_j === 0.U && next_stat_id === 0.U && next_cmd === 0.U && next_row === 0.U) j := next_j ln_stat_id := next_stat_id ln_cmd := next_cmd ln_row := next_row i := next_i when (next_i === 0.U && next_row === 0.U && next_cmd === 0.U && next_stat_id === 0.U && next_j === 0.U) { state := idle }.elsewhen (next_j === 0.U) { state := ln_config } } when (io.req.fire) { req := io.req.bits state := Mux((io.req.bits.act === Activation.LAYERNORM) || (io.req.bits.act === Activation.SOFTMAX), ln_config, st) j := 0.U i := 0.U ln_row := 0.U ln_cmd := 0.U ln_stat_id := 0.U } } // Combined loop class LoopMatmulState(val iterator_bitwidth: Int, val coreMaxAddrBits: Int, val max_addr: Int, val max_acc_addr: Int) extends Bundle { val max_k = UInt(iterator_bitwidth.W) val max_j = UInt(iterator_bitwidth.W) val max_i = UInt(iterator_bitwidth.W) val pad_k = UInt(iterator_bitwidth.W) val pad_j = UInt(iterator_bitwidth.W) val pad_i = UInt(iterator_bitwidth.W) val a_dram_addr = UInt(coreMaxAddrBits.W) val b_dram_addr = UInt(coreMaxAddrBits.W) val d_dram_addr = UInt(coreMaxAddrBits.W) val c_dram_addr = UInt(coreMaxAddrBits.W) val a_dram_stride = UInt(coreMaxAddrBits.W) val b_dram_stride = UInt(coreMaxAddrBits.W) val d_dram_stride = UInt(coreMaxAddrBits.W) val c_dram_stride = UInt(coreMaxAddrBits.W) val a_transpose = Bool() val b_transpose = Bool() val act = UInt(Activation.bitwidth.W) val low_d = Bool() val full_c = Bool() val ex_accumulate = Bool() val a_ex_spad_id = UInt(2.W) val b_ex_spad_id = UInt(2.W) val configured = Bool() val running = Bool() val lda_started = Bool() val ldb_started = Bool() val ex_started = Bool() val ldd_started = Bool() val st_started = Bool() val lda_completed = Bool() val ldb_completed = Bool() val ex_completed = Bool() val ldd_completed = Bool() val st_completed = Bool() def all_completed(dummy: Int=0): Bool = lda_completed && ldb_completed && ldd_completed && ex_completed && st_completed val a_addr_start = UInt(log2Up(max_addr).W) val b_addr_end = UInt(log2Up(max_addr+1).W) val resadd_addr_start = UInt(log2Up(max_acc_addr).W) def reset(): Unit = { configured := false.B running := false.B lda_started := false.B ldb_started := false.B ex_started := false.B ldd_started := false.B st_started := false.B lda_completed := false.B ldb_completed := false.B ex_completed := false.B ldd_completed := false.B st_completed := false.B //is_resadd := false.B } } class LoopMatmul(block_size: Int, coreMaxAddrBits: Int, reservation_station_size: Int, max_lds: Int, max_exs: Int, max_sts: Int, max_addr: Int, max_acc_addr: Int, input_w: Int, acc_w: Int, dma_max_bytes: Int, mvin_rs2_t: MvinRs2, preload_rs1_t: PreloadRs, preload_rs2_t: PreloadRs, compute_rs1_t: ComputeRs, compute_rs2_t: ComputeRs, mvout_rs2_t: MvoutRs2) (implicit p: Parameters) extends Module { val iterator_bitwidth = 16 val max_block_len = (dma_max_bytes / (block_size * input_w / 8)) max 1 val max_block_len_acc = (dma_max_bytes / (block_size * acc_w / 8)) max 1 val io = IO(new Bundle { val in = Flipped(Decoupled(new GemminiCmd(reservation_station_size))) val out = Decoupled(new GemminiCmd(reservation_station_size)) val ld_completed = Input(UInt(log2Up(reservation_station_size+1).W)) val st_completed = Input(UInt(log2Up(reservation_station_size+1).W)) val ex_completed = Input(UInt(log2Up(reservation_station_size+1).W)) val busy = Output(Bool()) }) // Create states val concurrent_loops = 2 val loops = Reg(Vec(concurrent_loops, new LoopMatmulState(iterator_bitwidth, coreMaxAddrBits, max_addr, max_acc_addr))) val head_loop_id = Reg(UInt(log2Up(concurrent_loops).W)) val tail_loop_id = (~head_loop_id).asUInt // This is the loop that we always try to configure if available val head_loop = loops(head_loop_id) val tail_loop = loops(tail_loop_id) val loop_configured = loops.map(_.configured).reduce(_ || _) val loop_being_configured_id = Mux(head_loop.configured, tail_loop_id, head_loop_id) val loop_being_configured = loops(loop_being_configured_id) val is_resadd = RegInit(false.B) val max_all_addr = if(max_addr > max_acc_addr) max_addr else max_acc_addr // Create inner modules val ldA = Module(new LoopMatmulLdA(block_size, coreMaxAddrBits, iterator_bitwidth, max_all_addr, input_w, max_block_len, concurrent_loops, mvin_rs2_t)) val ldB = Module(new LoopMatmulLdB(block_size, coreMaxAddrBits, iterator_bitwidth, max_all_addr, input_w, max_block_len, concurrent_loops, mvin_rs2_t)) val ldD = Module(new LoopMatmulLdD(block_size, coreMaxAddrBits, iterator_bitwidth, max_acc_addr, input_w, acc_w, max_block_len, max_block_len_acc, concurrent_loops, mvin_rs2_t)) val ex = Module(new LoopMatmulExecute(block_size, coreMaxAddrBits, iterator_bitwidth, max_addr, max_acc_addr, concurrent_loops, preload_rs1_t, preload_rs2_t, compute_rs1_t, compute_rs2_t)) val stC = Module(new LoopMatmulStC(block_size, coreMaxAddrBits, iterator_bitwidth, max_acc_addr, input_w, acc_w, max_block_len, concurrent_loops, mvout_rs2_t)) // Create command queue val cmd = Queue(io.in) io.busy := cmd.valid || loop_configured // Create ld arbiters val ldab_arb = Module(new WeightedArbiter(new RoCCCommand(), maxWeightA=255, staticWeightAEnabled=true)) // TODO magic numbers ldab_arb.io.inA <> ldA.io.cmd ldab_arb.io.inB <> ldB.io.cmd val ab_loads_on_same_loop = ldA.io.loop_id === ldB.io.loop_id val forceA = !ab_loads_on_same_loop && ldA.io.loop_id === head_loop_id val forceB = !ab_loads_on_same_loop && ldB.io.loop_id === head_loop_id ldab_arb.io.forceA := Mux(is_resadd, ab_loads_on_same_loop && !ldA.io.idle, forceA) ldab_arb.io.forceB := Mux(is_resadd, forceB || ldA.io.idle, forceB) ldab_arb.io.weightA := 0.U ldab_arb.io.inA_idle := ldA.io.idle ldab_arb.io.inB_idle := ldB.io.idle ldab_arb.io.inA_k := ldA.io.k ldab_arb.io.inA_i := ldA.io.i ldab_arb.io.inB_k := ldB.io.k ldab_arb.io.inB_j := ldB.io.j // Create global arbiter val arb = Module(new Arbiter(new RoCCCommand(), 4)) arb.io.in(0) <> stC.io.cmd arb.io.in(1) <> ex.io.cmd arb.io.in(2) <> ldD.io.cmd arb.io.in(3) <> ldab_arb.io.out val unrolled_cmd = arb.io.out // Create reservation station utilization counters val ld_utilization = RegInit(0.U(log2Up(max_lds+1).W)) val st_utilization = RegInit(0.U(log2Up(max_sts+1).W)) val ex_utilization = RegInit(0.U(log2Up(max_exs+1).W)) ld_utilization := ld_utilization +& (ldA.io.cmd.fire || ldB.io.cmd.fire || ldD.io.cmd.fire) -& io.ld_completed st_utilization := st_utilization +& stC.io.cmd.fire -& io.st_completed ex_utilization := ex_utilization +& ex.io.cmd.fire -& io.ex_completed assert(ld_utilization >= io.ld_completed, "ld utilization underflow") assert(st_utilization >= io.st_completed, "st utilization underflow") assert(ex_utilization >= io.ex_completed, "ex utilization underflow") // Wire up unrolled command output val is_loop_run_cmd = cmd.bits.cmd.inst.funct === LOOP_WS val is_loop_config_cmd = cmd.bits.cmd.inst.funct >= LOOP_WS_CONFIG_BOUNDS && cmd.bits.cmd.inst.funct <= LOOP_WS_CONFIG_STRIDES_DC val is_loop_cmd = is_loop_run_cmd || is_loop_config_cmd io.out.bits.cmd := Mux(loop_configured, unrolled_cmd.bits, cmd.bits.cmd) io.out.bits.cmd.status := cmd.bits.cmd.status // TODO This is not guaranteed to be the correct fix! We must fix this io.out.bits.rob_id := DontCare io.out.bits.from_matmul_fsm := Mux(loop_configured, true.B, cmd.bits.from_matmul_fsm) io.out.bits.from_conv_fsm := Mux(loop_configured, false.B, cmd.bits.from_conv_fsm) io.out.valid := Mux(loop_configured, unrolled_cmd.valid, cmd.valid && !is_loop_config_cmd && !is_loop_run_cmd) cmd.ready := Mux(is_loop_cmd, !loop_being_configured.configured, !loop_configured && io.out.ready) arb.io.out.ready := io.out.ready // Wire up overloaded signals ldA.io.rob_overloaded := ld_utilization >= max_lds.U ldB.io.rob_overloaded := ld_utilization >= max_lds.U ex.io.rob_overloaded := ex_utilization >= max_exs.U ldD.io.rob_overloaded := ld_utilization >= max_lds.U stC.io.rob_overloaded := st_utilization >= max_sts.U // Wire up iterator inputs ex.io.lda_completed := (ldA.io.loop_id =/= ex.io.loop_id) || ldA.io.idle ex.io.ldb_completed := (ldB.io.loop_id =/= ex.io.loop_id) || ldB.io.idle ex.io.ldd_completed := (ldD.io.loop_id =/= ex.io.loop_id) || ldD.io.idle ex.io.ld_ka := ldA.io.k ex.io.ld_kb := ldB.io.k ex.io.ld_j := ldB.io.j ex.io.ld_i := ldA.io.i stC.io.ex_completed := (ex.io.loop_id =/= stC.io.loop_id) || ex.io.idle stC.io.ex_k := ex.io.k stC.io.ex_j := ex.io.j stC.io.ex_i := ex.io.i // when loop matmul is used as resadd unroller // skip ex // track ldB instead of ex when(is_resadd){ stC.io.ex_completed := (ldA.io.loop_id =/= stC.io.loop_id || ldA.io.idle) && (ldB.io.loop_id =/= stC.io.loop_id || ldB.io.idle) stC.io.ex_k := 0.U // req.max_k shall be 1 stC.io.ex_j := ldB.io.j stC.io.ex_i := ldB.io.k //ldB.io.rob_overloaded := ld_utilization >= max_lds.U || !((ldA.io.loop_id =/= ldB.io.loop_id) || ldA.io.idle) } val loops_configured = RegInit(0.U(16.W)) dontTouch(loops_configured) // Create config registers when(cmd.valid && is_loop_cmd && !loop_being_configured.configured) { switch (cmd.bits.cmd.inst.funct) { is (LOOP_WS_CONFIG_BOUNDS) { loop_being_configured.max_k := cmd.bits.cmd.rs2(iterator_bitwidth * 3 - 1, iterator_bitwidth * 2) loop_being_configured.max_j := cmd.bits.cmd.rs2(iterator_bitwidth * 2 - 1, iterator_bitwidth) loop_being_configured.max_i := cmd.bits.cmd.rs2(iterator_bitwidth-1, 0) loop_being_configured.pad_k := cmd.bits.cmd.rs1(iterator_bitwidth * 3 - 1, iterator_bitwidth * 2) loop_being_configured.pad_j := cmd.bits.cmd.rs1(iterator_bitwidth * 2 - 1, iterator_bitwidth) loop_being_configured.pad_i := cmd.bits.cmd.rs1(iterator_bitwidth-1, 0) } is (LOOP_WS_CONFIG_ADDRS_AB) { loop_being_configured.a_dram_addr := cmd.bits.cmd.rs1 loop_being_configured.b_dram_addr := cmd.bits.cmd.rs2 } is (LOOP_WS_CONFIG_ADDRS_DC) { loop_being_configured.d_dram_addr := cmd.bits.cmd.rs1 loop_being_configured.c_dram_addr := cmd.bits.cmd.rs2 } is (LOOP_WS_CONFIG_STRIDES_AB) { loop_being_configured.a_dram_stride := cmd.bits.cmd.rs1 loop_being_configured.b_dram_stride := cmd.bits.cmd.rs2 } is (LOOP_WS_CONFIG_STRIDES_DC) { loop_being_configured.d_dram_stride := cmd.bits.cmd.rs1 loop_being_configured.c_dram_stride := cmd.bits.cmd.rs2 } is (LOOP_WS) { loop_being_configured.ex_accumulate := cmd.bits.cmd.rs1(0) loop_being_configured.full_c := cmd.bits.cmd.rs1(1) loop_being_configured.low_d := cmd.bits.cmd.rs1(2) loop_being_configured.act := cmd.bits.cmd.rs1(8+Activation.bitwidth-1, 8) // TODO magic numbers loop_being_configured.a_ex_spad_id := cmd.bits.cmd.rs1(19, 18) loop_being_configured.b_ex_spad_id := cmd.bits.cmd.rs1(17, 16) loop_being_configured.a_transpose := cmd.bits.cmd.rs2(0) loop_being_configured.b_transpose := cmd.bits.cmd.rs2(1) is_resadd := cmd.bits.cmd.rs2(2) loop_being_configured.configured := true.B loops_configured := loops_configured + 1.U } } } // Wire up request signals val ld_d_addr_start = RegInit(0.U(log2Up(max_acc_addr).W)) val ex_c_addr_start = RegInit(0.U(log2Up(max_acc_addr).W)) val st_c_addr_start = RegInit(0.U(log2Up(max_acc_addr).W)) val loop_requesting_ldA_id = Mux(head_loop.lda_started, tail_loop_id, head_loop_id) val loop_requesting_ldA = loops(loop_requesting_ldA_id) ldA.io.req.bits.max_k := Mux(is_resadd, loop_requesting_ldA.max_j, loop_requesting_ldA.max_k) ldA.io.req.bits.max_i := loop_requesting_ldA.max_i ldA.io.req.bits.pad_k := Mux(is_resadd, loop_requesting_ldA.pad_j, loop_requesting_ldA.pad_k) ldA.io.req.bits.pad_i := loop_requesting_ldA.pad_i ldA.io.req.bits.dram_addr := loop_requesting_ldA.a_dram_addr ldA.io.req.bits.dram_stride := loop_requesting_ldA.a_dram_stride ldA.io.req.bits.transpose := loop_requesting_ldA.a_transpose ldA.io.req.bits.addr_start := Mux(loop_requesting_ldA.a_ex_spad_id === 0.U, loop_requesting_ldA.a_addr_start, (loop_requesting_ldA.a_ex_spad_id - 1.U) * (max_addr / concurrent_loops).U) ldA.io.req.bits.loop_id := loop_requesting_ldA_id ldA.io.req.bits.is_resadd := is_resadd ldA.io.req.valid := !loop_requesting_ldA.lda_started && loop_requesting_ldA.configured when (ldA.io.req.fire) { loop_requesting_ldA.running := true.B loop_requesting_ldA.lda_started := true.B } val loop_requesting_ldB_id = Mux(head_loop.ldb_started, tail_loop_id, head_loop_id) val loop_requesting_ldB = loops(loop_requesting_ldB_id) ldB.io.req.bits.max_j := loop_requesting_ldB.max_j ldB.io.req.bits.max_k := Mux(is_resadd, loop_requesting_ldB.max_i, loop_requesting_ldB.max_k) ldB.io.req.bits.pad_j := loop_requesting_ldB.pad_j ldB.io.req.bits.pad_k := Mux(is_resadd, loop_requesting_ldB.pad_i, loop_requesting_ldB.pad_k) ldB.io.req.bits.dram_addr := loop_requesting_ldB.b_dram_addr ldB.io.req.bits.dram_stride := loop_requesting_ldB.b_dram_stride ldB.io.req.bits.transpose := loop_requesting_ldB.b_transpose ldB.io.req.bits.addr_end := Mux(loop_requesting_ldB.b_ex_spad_id === 0.U, loop_requesting_ldB.b_addr_end, (loop_requesting_ldB.b_ex_spad_id) * (max_addr / concurrent_loops).U) ldB.io.req.bits.loop_id := loop_requesting_ldB_id ldB.io.req.bits.is_resadd := is_resadd ldB.io.req.valid := !loop_requesting_ldB.ldb_started && loop_requesting_ldB.configured when (ldB.io.req.fire) { loop_requesting_ldB.running := true.B loop_requesting_ldB.ldb_started := true.B } val loop_requesting_ex_id = Mux(head_loop.ex_started, tail_loop_id, head_loop_id) val loop_requesting_ex = loops(loop_requesting_ex_id) ex.io.req.bits.max_j := loop_requesting_ex.max_j ex.io.req.bits.max_k := loop_requesting_ex.max_k ex.io.req.bits.max_i := loop_requesting_ex.max_i ex.io.req.bits.pad_j := loop_requesting_ex.pad_j ex.io.req.bits.pad_k := loop_requesting_ex.pad_k ex.io.req.bits.pad_i := loop_requesting_ex.pad_i ex.io.req.bits.accumulate := loop_requesting_ex.ex_accumulate ex.io.req.bits.a_addr_start := Mux(loop_requesting_ex.a_ex_spad_id === 0.U, loop_requesting_ex.a_addr_start, (loop_requesting_ex.a_ex_spad_id - 1.U) * (max_addr / concurrent_loops).U) ex.io.req.bits.b_addr_end := Mux(loop_requesting_ex.b_ex_spad_id === 0.U, loop_requesting_ex.b_addr_end, (loop_requesting_ex.b_ex_spad_id) * (max_addr / concurrent_loops).U) ex.io.req.bits.a_tranpose := loop_requesting_ex.a_transpose ex.io.req.bits.b_tranpose := loop_requesting_ex.b_transpose ex.io.req.bits.c_addr_start := ex_c_addr_start ex.io.req.bits.loop_id := loop_requesting_ex_id ex.io.req.bits.skip := is_resadd ex.io.req.valid := !loop_requesting_ex.ex_started && loop_requesting_ex.lda_started && loop_requesting_ex.ldb_started && loop_requesting_ex.ldd_started && loop_requesting_ex.configured when (ex.io.req.fire) { loop_requesting_ex.running := true.B loop_requesting_ex.ex_started := true.B when (loop_requesting_ex.c_dram_addr =/= 0.U) { ex_c_addr_start := floorAdd(ex_c_addr_start, (max_acc_addr / concurrent_loops).U, max_acc_addr.U) } } val loop_requesting_ldD_id = Mux(head_loop.ldd_started, tail_loop_id, head_loop_id) val loop_requesting_ldD = loops(loop_requesting_ldD_id) ldD.io.req.bits.max_j := loop_requesting_ldD.max_j ldD.io.req.bits.max_i := loop_requesting_ldD.max_i ldD.io.req.bits.pad_j := loop_requesting_ldD.pad_j ldD.io.req.bits.pad_i := loop_requesting_ldD.pad_i ldD.io.req.bits.dram_addr := loop_requesting_ldD.d_dram_addr ldD.io.req.bits.dram_stride := loop_requesting_ldD.d_dram_stride ldD.io.req.bits.low_d := loop_requesting_ldD.low_d ldD.io.req.bits.addr_start := ld_d_addr_start ldD.io.req.bits.loop_id := loop_requesting_ldD_id ldD.io.req.valid := !loop_requesting_ldD.ldd_started && loop_requesting_ldD.configured when (ldD.io.req.fire) { loop_requesting_ldD.running := true.B loop_requesting_ldD.ldd_started := true.B when (loop_requesting_ldD.c_dram_addr =/= 0.U) { ld_d_addr_start := floorAdd(ld_d_addr_start, (max_acc_addr / concurrent_loops).U, max_acc_addr.U) } } val loop_requesting_st_id = Mux(head_loop.st_started, tail_loop_id, head_loop_id) val loop_requesting_st = loops(loop_requesting_st_id) stC.io.req.bits.max_k := Mux(is_resadd, 1.U, loop_requesting_st.max_k) stC.io.req.bits.max_j := loop_requesting_st.max_j stC.io.req.bits.max_i := loop_requesting_st.max_i stC.io.req.bits.pad_j := loop_requesting_st.pad_j stC.io.req.bits.pad_i := loop_requesting_st.pad_i stC.io.req.bits.dram_addr := loop_requesting_st.c_dram_addr stC.io.req.bits.dram_stride := loop_requesting_st.c_dram_stride stC.io.req.bits.full_c := loop_requesting_st.full_c stC.io.req.bits.act := loop_requesting_st.act stC.io.req.bits.addr_start := st_c_addr_start stC.io.req.bits.loop_id := loop_requesting_st_id stC.io.req.bits.is_resadd := is_resadd stC.io.req.valid := !loop_requesting_st.st_started && loop_requesting_st.ex_started && loop_requesting_st.configured when (stC.io.req.fire) { loop_requesting_st.running := true.B loop_requesting_st.st_started := true.B when (loop_requesting_st.c_dram_addr =/= 0.U) { st_c_addr_start := floorAdd(st_c_addr_start, (max_acc_addr / concurrent_loops).U, max_acc_addr.U) } } when(is_resadd){ ldA.io.req.bits.addr_start := loop_requesting_ldA.resadd_addr_start ldB.io.req.bits.addr_end := loop_requesting_ldB.resadd_addr_start stC.io.req.bits.addr_start := loop_requesting_st.resadd_addr_start stC.io.req.valid := !loop_requesting_st.st_started && loop_requesting_st.configured } // Handle completed signals when (ldA.io.idle && loops(ldA.io.loop_id).running && loops(ldA.io.loop_id).lda_started) { loops(ldA.io.loop_id).lda_completed := true.B } when (ldB.io.idle && loops(ldB.io.loop_id).running && loops(ldB.io.loop_id).ldb_started) { loops(ldB.io.loop_id).ldb_completed := true.B } when (ex.io.idle && loops(ex.io.loop_id).running && loops(ex.io.loop_id).ex_started) { loops(ex.io.loop_id).ex_completed := true.B } when (ldD.io.idle && loops(ldD.io.loop_id).running && loops(ldD.io.loop_id).ldd_started) { loops(ldD.io.loop_id).ldd_completed := true.B } when (stC.io.idle && loops(stC.io.loop_id).running && loops(stC.io.loop_id).st_started) { loops(stC.io.loop_id).st_completed := true.B } when (head_loop.running && head_loop.all_completed()) { head_loop.reset() head_loop_id := ~head_loop_id } // Resets when (reset.asBool) { loops.zipWithIndex.foreach { case (l, i) => l.reset() l.a_addr_start := (i * (max_addr / concurrent_loops)).U l.b_addr_end := ((i+1) * (max_addr / concurrent_loops)).U l.resadd_addr_start := (i * (max_acc_addr / concurrent_loops)).U } } } object LoopMatmul { def apply(in: DecoupledIO[GemminiCmd], ld_completed: UInt, st_completed: UInt, ex_completed: UInt, block_size: Int, coreMaxAddrBits: Int, rob_size: Int, max_lds: Int, max_exs: Int, max_sts: Int, max_addr: Int, max_acc_addr: Int, input_w: Int, acc_w: Int, dma_max_bytes: Int, mvin_rs2_t: MvinRs2, preload_rs1_t: PreloadRs, preload_rs2_t: PreloadRs, compute_rs1_t: ComputeRs, compute_rs2_t: ComputeRs, mvout_rs2_t: MvoutRs2) (implicit p: Parameters): (DecoupledIO[GemminiCmd], Bool) = { val mod = Module(new LoopMatmul(block_size, coreMaxAddrBits, rob_size, max_lds, max_exs, max_sts, max_addr, max_acc_addr, input_w, acc_w, dma_max_bytes, mvin_rs2_t, preload_rs1_t, preload_rs2_t, compute_rs1_t, compute_rs2_t, mvout_rs2_t)) mod.io.in <> in mod.io.ld_completed := ld_completed mod.io.st_completed := st_completed mod.io.ex_completed := ex_completed (mod.io.out, mod.io.busy) } def castDramOffset(dram_offset: UInt): UInt = { // Cast dram offsets to 32 bits max dram_offset & "hFFFFFFFF".U } } File LocalAddr.scala: package gemmini import chisel3._ import chisel3.util._ class LocalAddr(sp_banks: Int, sp_bank_entries: Int, acc_banks: Int, acc_bank_entries: Int) extends Bundle { private val localAddrBits = 32 // TODO magic number private val spAddrBits = log2Ceil(sp_banks * sp_bank_entries) private val accAddrBits = log2Ceil(acc_banks * acc_bank_entries) private val maxAddrBits = spAddrBits max accAddrBits private val spBankBits = log2Up(sp_banks) private val spBankRowBits = log2Up(sp_bank_entries) private val accBankBits = log2Up(acc_banks) val accBankRowBits = log2Up(acc_bank_entries) val spRows = sp_banks * sp_bank_entries val is_acc_addr = Bool() val accumulate = Bool() val read_full_acc_row = Bool() val norm_cmd = NormCmd() private val metadata_w = is_acc_addr.getWidth + accumulate.getWidth + read_full_acc_row.getWidth + norm_cmd.getWidth assert(maxAddrBits + metadata_w < 32) val garbage = UInt(((localAddrBits - maxAddrBits - metadata_w - 1) max 0).W) val garbage_bit = if (localAddrBits - maxAddrBits >= metadata_w + 1) UInt(1.W) else UInt(0.W) val data = UInt(maxAddrBits.W) def sp_bank(dummy: Int = 0) = if (spAddrBits == spBankRowBits) 0.U else data(spAddrBits - 1, spBankRowBits) def sp_row(dummy: Int = 0) = data(spBankRowBits - 1, 0) def acc_bank(dummy: Int = 0) = if (accAddrBits == accBankRowBits) 0.U else data(accAddrBits - 1, accBankRowBits) def acc_row(dummy: Int = 0) = data(accBankRowBits - 1, 0) def full_sp_addr(dummy: Int = 0) = data(spAddrBits - 1, 0) def full_acc_addr(dummy: Int = 0) = data(accAddrBits - 1, 0) def is_same_address(other: LocalAddr): Bool = is_acc_addr === other.is_acc_addr && data === other.data def is_same_address(other: UInt): Bool = is_same_address(other.asTypeOf(this)) def is_garbage(dummy: Int = 0) = is_acc_addr && accumulate && read_full_acc_row && data.andR && (if (garbage_bit.getWidth > 0) garbage_bit.asBool else true.B) def +(other: UInt) = { require(isPow2(sp_bank_entries)) // TODO remove this requirement require(isPow2(acc_bank_entries)) // TODO remove this requirement val result = WireInit(this) result.data := data + other result } def <=(other: LocalAddr) = is_acc_addr === other.is_acc_addr && Mux(is_acc_addr, full_acc_addr() <= other.full_acc_addr(), full_sp_addr() <= other.full_sp_addr()) def <(other: LocalAddr) = is_acc_addr === other.is_acc_addr && Mux(is_acc_addr, full_acc_addr() < other.full_acc_addr(), full_sp_addr() < other.full_sp_addr()) def >(other: LocalAddr) = is_acc_addr === other.is_acc_addr && Mux(is_acc_addr, full_acc_addr() > other.full_acc_addr(), full_sp_addr() > other.full_sp_addr()) def add_with_overflow(other: UInt): Tuple2[LocalAddr, Bool] = { require(isPow2(sp_bank_entries)) // TODO remove this requirement require(isPow2(acc_bank_entries)) // TODO remove this requirement val sum = data +& other val overflow = Mux(is_acc_addr, sum(accAddrBits), sum(spAddrBits)) val result = WireInit(this) result.data := sum(maxAddrBits - 1, 0) (result, overflow) } // This function can only be used with non-accumulator addresses. Returns both new address and underflow def floorSub(other: UInt, floor: UInt): (LocalAddr, Bool) = { require(isPow2(sp_bank_entries)) // TODO remove this requirement require(isPow2(acc_bank_entries)) // TODO remove this requirement val underflow = data < (floor +& other) val result = WireInit(this) result.data := Mux(underflow, floor, data - other) (result, underflow) } def make_this_garbage(dummy: Int = 0): Unit = { is_acc_addr := true.B accumulate := true.B read_full_acc_row := true.B garbage_bit := 1.U data := ~(0.U(maxAddrBits.W)) } } object LocalAddr { def cast_to_local_addr[T <: Data](local_addr_t: LocalAddr, t: T): LocalAddr = { // This convenience function is basically the same as calling "asTypeOf(local_addr_t)". However, this convenience // function will also cast unnecessary garbage bits to 0, which may help reduce multiplier/adder bitwidths val result = WireInit(t.asTypeOf(local_addr_t)) if (result.garbage_bit.getWidth > 0) result.garbage := 0.U result } def cast_to_sp_addr[T <: Data](local_addr_t: LocalAddr, t: T): LocalAddr = { // This function is a wrapper around cast_to_local_addr, but it assumes that the input will not be the garbage // address val result = WireInit(cast_to_local_addr(local_addr_t, t)) result.is_acc_addr := false.B result.accumulate := false.B result.read_full_acc_row := false.B // assert(!result.garbage_bit, "cast_to_sp_addr doesn't work on garbage addresses") result } def cast_to_acc_addr[T <: Data](local_addr_t: LocalAddr, t: T, accumulate: Bool, read_full: Bool): LocalAddr = { // This function is a wrapper around cast_to_local_addr, but it assumes that the input will not be the garbage // address val result = WireInit(cast_to_local_addr(local_addr_t, t)) result.is_acc_addr := true.B result.accumulate := accumulate result.read_full_acc_row := read_full // assert(!result.garbage_bit, "cast_to_acc_addr doesn't work on garbage addresses") result } def garbage_addr(local_addr_t: LocalAddr): LocalAddr = { val result = Wire(chiselTypeOf(local_addr_t)) result := DontCare result.make_this_garbage() result } } File Util.scala: package gemmini import chisel3._ import chisel3.util._ object Util { def wrappingAdd(u: UInt, n: UInt, max_plus_one: Int): UInt = { val max = max_plus_one - 1 if (max == 0) { 0.U } else { assert(n <= max.U, "cannot wrapAdd when n is larger than max") Mux(u >= max.U - n + 1.U && n =/= 0.U, n - (max.U - u) - 1.U, u + n) } } def wrappingAdd(u: UInt, n: UInt, max_plus_one: UInt, en: Bool = true.B): UInt = { val max = max_plus_one - 1.U assert(n <= max || max === 0.U, "cannot wrapAdd when n is larger than max, unless max is 0") /* Mux(!en, u, Mux (max === 0.U, 0.U, Mux(u >= max - n + 1.U && n =/= 0.U, n - (max - u) - 1.U, u + n))) */ MuxCase(u + n, Seq( (!en) -> u, (max === 0.U) -> 0.U, (u >= max - n + 1.U && n =/= 0.U) -> (n - (max - u) - 1.U) )) } def satAdd(u: UInt, v: UInt, max: UInt): UInt = { Mux(u +& v > max, max, u + v) } def floorAdd(u: UInt, n: UInt, max_plus_one: UInt, en: Bool = true.B): UInt = { val max = max_plus_one - 1.U MuxCase(u + n, Seq( (!en) -> u, ((u +& n) > max) -> 0.U )) } def sFloorAdd(s: SInt, n: UInt, max_plus_one: SInt, min: SInt, en: Bool = true.B): SInt = { val max = max_plus_one - 1.S MuxCase(s + n.zext, Seq( (!en) -> s, ((s +& n.zext) > max) -> min )) } def wrappingSub(u: UInt, n: UInt, max_plus_one: Int): UInt = { val max = max_plus_one - 1 assert(n <= max.U, "cannot wrapSub when n is larger than max") Mux(u < n, max.U - (n-u) + 1.U, u - n) } def ceilingDivide(numer: Int, denom: Int): Int = { if (numer % denom == 0) { numer / denom } else { numer / denom + 1} } def closestLowerPowerOf2(u: UInt): UInt = { // TODO figure out a more efficient way of doing this. Is this many muxes really necessary? val exp = u.asBools.zipWithIndex.map { case (b, i) => Mux(b, i.U, 0.U) }.reduce((acc, u) => Mux(acc > u, acc, u)) (1.U << exp).asUInt } def closestAlignedLowerPowerOf2(u: UInt, addr: UInt, stride: UInt, rowBytes: Int): UInt = { val lgRowBytes = log2Ceil(rowBytes) // TODO figure out a more efficient way of doing this. Is this many muxes really necessary? val exp = u.asBools.zipWithIndex.map { case (b, i) => Mux(b && addr(i + lgRowBytes - 1, 0) === 0.U && stride(i + lgRowBytes - 1, 0) === 0.U, i.U, 0.U) }.reduce((acc, u) => Mux(acc > u, acc, u)) (1.U << exp).asUInt } // This function will return "next" with a 0-cycle delay when the "enable" signal is high. It's like a queue with // the "pipe" and "flow" parameters set to "true" def RegEnableThru[T <: Data](next: T, enable: Bool): T = { val buf = RegEnable(next, enable) Mux(enable, next, buf) } def RegEnableThru[T <: Data](next: T, init: T, enable: Bool): T = { val buf = RegEnable(next, init, enable) Mux(enable, next, buf) } def maxOf(u1: UInt, u2: UInt): UInt = { Mux(u1 > u2, u1, u2) } def maxOf[T <: Data](x: T, y: T)(implicit ev: Arithmetic[T]): T = { import ev._ Mux(x > y, x, y) } def minOf(u1: UInt, u2: UInt): UInt = { Mux(u1 < u2, u1, u2) } def accumulateTree[T <: Data](xs: Seq[T])(implicit ev: Arithmetic[T]): T = { import ev._ assert(xs.nonEmpty, "can't accumulate 0 elements") if (xs.length == 1) { xs.head } else { val upperRowLen = 1 << log2Ceil(xs.length) val upperRow = xs.padTo(upperRowLen, xs.head.zero) val pairs = upperRow.grouped(2) val lowerRow = pairs.map { case Seq(a, b) => a + b } accumulateTree(lowerRow.toSeq) } } // An undirectioned Valid bundle class UDValid[T <: Data](t: T) extends Bundle { val valid = Bool() val bits = t.cloneType def push(b: T): Unit = { valid := true.B bits := b } def pop(dummy: Int = 0): T = { valid := false.B bits } } object UDValid { def apply[T <: Data](t: T): UDValid[T] = new UDValid(t) } // creates a Reg and the next-state Wire, and returns both def regwire(bits: Int) = { val wire = Wire(UInt(bits.W)) val reg = RegNext(wire) wire := reg // default wire to read from reg (reg, wire) } }
module LoopMatmulLdD( // @[LoopMatmul.scala:253:7] input clock, // @[LoopMatmul.scala:253:7] input reset, // @[LoopMatmul.scala:253:7] output io_req_ready, // @[LoopMatmul.scala:256:14] input io_req_valid, // @[LoopMatmul.scala:256:14] input [15:0] io_req_bits_max_j, // @[LoopMatmul.scala:256:14] input [15:0] io_req_bits_max_i, // @[LoopMatmul.scala:256:14] input [1:0] io_req_bits_pad_j, // @[LoopMatmul.scala:256:14] input [1:0] io_req_bits_pad_i, // @[LoopMatmul.scala:256:14] input [39:0] io_req_bits_dram_addr, // @[LoopMatmul.scala:256:14] input [39:0] io_req_bits_dram_stride, // @[LoopMatmul.scala:256:14] input io_req_bits_low_d, // @[LoopMatmul.scala:256:14] input [11:0] io_req_bits_addr_start, // @[LoopMatmul.scala:256:14] input io_req_bits_loop_id, // @[LoopMatmul.scala:256:14] input io_cmd_ready, // @[LoopMatmul.scala:256:14] output io_cmd_valid, // @[LoopMatmul.scala:256:14] output [63:0] io_cmd_bits_rs1, // @[LoopMatmul.scala:256:14] output [63:0] io_cmd_bits_rs2, // @[LoopMatmul.scala:256:14] output io_idle, // @[LoopMatmul.scala:256:14] input io_rob_overloaded, // @[LoopMatmul.scala:256:14] output io_loop_id // @[LoopMatmul.scala:256:14] ); wire _mvin_cmd_rs2_local_addr_result_result_WIRE_is_acc_addr; // @[LocalAddr.scala:108:37] wire _mvin_cmd_rs2_local_addr_result_result_WIRE_accumulate; // @[LocalAddr.scala:108:37] wire _mvin_cmd_rs2_local_addr_result_result_WIRE_read_full_acc_row; // @[LocalAddr.scala:108:37] wire [2:0] _mvin_cmd_rs2_local_addr_result_result_WIRE_norm_cmd; // @[LocalAddr.scala:108:37] wire _mvin_cmd_rs2_local_addr_result_result_WIRE_garbage_bit; // @[LocalAddr.scala:108:37] wire [13:0] _mvin_cmd_rs2_local_addr_result_result_WIRE_data; // @[LocalAddr.scala:108:37] wire [4:0] mvin_cmd_rs2_num_cols; // @[LoopMatmul.scala:295:26] wire [2:0] mvin_cmd_rs2_local_addr_norm_cmd; // @[LoopMatmul.scala:295:26] wire io_req_valid_0 = io_req_valid; // @[LoopMatmul.scala:253:7] wire [15:0] io_req_bits_max_j_0 = io_req_bits_max_j; // @[LoopMatmul.scala:253:7] wire [15:0] io_req_bits_max_i_0 = io_req_bits_max_i; // @[LoopMatmul.scala:253:7] wire [1:0] io_req_bits_pad_j_0 = io_req_bits_pad_j; // @[LoopMatmul.scala:253:7] wire [1:0] io_req_bits_pad_i_0 = io_req_bits_pad_i; // @[LoopMatmul.scala:253:7] wire [39:0] io_req_bits_dram_addr_0 = io_req_bits_dram_addr; // @[LoopMatmul.scala:253:7] wire [39:0] io_req_bits_dram_stride_0 = io_req_bits_dram_stride; // @[LoopMatmul.scala:253:7] wire io_req_bits_low_d_0 = io_req_bits_low_d; // @[LoopMatmul.scala:253:7] wire [11:0] io_req_bits_addr_start_0 = io_req_bits_addr_start; // @[LoopMatmul.scala:253:7] wire io_req_bits_loop_id_0 = io_req_bits_loop_id; // @[LoopMatmul.scala:253:7] wire io_cmd_ready_0 = io_cmd_ready; // @[LoopMatmul.scala:253:7] wire io_rob_overloaded_0 = io_rob_overloaded; // @[LoopMatmul.scala:253:7] wire [12:0] mvin_cmd_rs2__spacer2 = 13'h0; // @[LoopMatmul.scala:295:26] wire mvin_cmd_rs2_local_addr_is_acc_addr = 1'h1; // @[LoopMatmul.scala:295:26] wire mvin_cmd_rs2_local_addr_result_is_acc_addr = 1'h1; // @[LocalAddr.scala:129:26] wire [10:0] mvin_cmd_rs2__spacer1 = 11'h0; // @[LoopMatmul.scala:295:26] wire [10:0] mvin_cmd_rs2_local_addr_garbage = 11'h0; // @[LoopMatmul.scala:295:26] wire [10:0] mvin_cmd_rs2_local_addr_result_result_garbage = 11'h0; // @[LocalAddr.scala:108:26] wire [10:0] mvin_cmd_rs2_local_addr_result_garbage = 11'h0; // @[LocalAddr.scala:129:26] wire [1:0] mvin_cmd_rs2_hi_hi = 2'h2; // @[LoopMatmul.scala:300:32] wire [7:0] io_cmd_bits_status_zero1 = 8'h0; // @[LoopMatmul.scala:253:7] wire [7:0] mvin_cmd_status_zero1 = 8'h0; // @[LoopMatmul.scala:290:22] wire [22:0] io_cmd_bits_status_zero2 = 23'h0; // @[LoopMatmul.scala:253:7] wire [22:0] mvin_cmd_status_zero2 = 23'h0; // @[LoopMatmul.scala:290:22] wire [1:0] io_cmd_bits_status_dprv = 2'h0; // @[LoopMatmul.scala:253:7] wire [1:0] io_cmd_bits_status_prv = 2'h0; // @[LoopMatmul.scala:253:7] wire [1:0] io_cmd_bits_status_sxl = 2'h0; // @[LoopMatmul.scala:253:7] wire [1:0] io_cmd_bits_status_uxl = 2'h0; // @[LoopMatmul.scala:253:7] wire [1:0] io_cmd_bits_status_xs = 2'h0; // @[LoopMatmul.scala:253:7] wire [1:0] io_cmd_bits_status_fs = 2'h0; // @[LoopMatmul.scala:253:7] wire [1:0] io_cmd_bits_status_mpp = 2'h0; // @[LoopMatmul.scala:253:7] wire [1:0] io_cmd_bits_status_vs = 2'h0; // @[LoopMatmul.scala:253:7] wire [1:0] mvin_cmd_status_dprv = 2'h0; // @[LoopMatmul.scala:290:22] wire [1:0] mvin_cmd_status_prv = 2'h0; // @[LoopMatmul.scala:290:22] wire [1:0] mvin_cmd_status_sxl = 2'h0; // @[LoopMatmul.scala:290:22] wire [1:0] mvin_cmd_status_uxl = 2'h0; // @[LoopMatmul.scala:290:22] wire [1:0] mvin_cmd_status_xs = 2'h0; // @[LoopMatmul.scala:290:22] wire [1:0] mvin_cmd_status_fs = 2'h0; // @[LoopMatmul.scala:290:22] wire [1:0] mvin_cmd_status_mpp = 2'h0; // @[LoopMatmul.scala:290:22] wire [1:0] mvin_cmd_status_vs = 2'h0; // @[LoopMatmul.scala:290:22] wire [31:0] io_cmd_bits_status_isa = 32'h0; // @[LoopMatmul.scala:253:7] wire [31:0] mvin_cmd_status_isa = 32'h0; // @[LoopMatmul.scala:290:22] wire [6:0] io_cmd_bits_inst_opcode = 7'h0; // @[LoopMatmul.scala:253:7] wire [6:0] mvin_cmd_inst_opcode = 7'h0; // @[LoopMatmul.scala:290:22] wire io_cmd_bits_inst_xd = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_inst_xs1 = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_inst_xs2 = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_debug = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_cease = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_wfi = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_dv = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_v = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_sd = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_mpv = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_gva = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_mbe = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_sbe = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_sd_rv32 = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_tsr = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_tw = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_tvm = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_mxr = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_sum = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_mprv = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_spp = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_mpie = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_ube = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_spie = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_upie = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_mie = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_hie = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_sie = 1'h0; // @[LoopMatmul.scala:253:7] wire io_cmd_bits_status_uie = 1'h0; // @[LoopMatmul.scala:253:7] wire mvin_cmd_inst_xd = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_inst_xs1 = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_inst_xs2 = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_debug = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_cease = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_wfi = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_dv = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_v = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_sd = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_mpv = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_gva = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_mbe = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_sbe = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_sd_rv32 = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_tsr = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_tw = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_tvm = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_mxr = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_sum = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_mprv = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_spp = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_mpie = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_ube = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_spie = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_upie = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_mie = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_hie = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_sie = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_status_uie = 1'h0; // @[LoopMatmul.scala:290:22] wire mvin_cmd_rs2_local_addr_accumulate = 1'h0; // @[LoopMatmul.scala:295:26] wire mvin_cmd_rs2_local_addr_read_full_acc_row = 1'h0; // @[LoopMatmul.scala:295:26] wire mvin_cmd_rs2_local_addr_result_accumulate = 1'h0; // @[LocalAddr.scala:129:26] wire mvin_cmd_rs2_local_addr_result_read_full_acc_row = 1'h0; // @[LocalAddr.scala:129:26] wire _next_i_T_2 = 1'h0; // @[Util.scala:42:8] wire [4:0] io_cmd_bits_inst_rs2 = 5'h0; // @[LoopMatmul.scala:253:7] wire [4:0] io_cmd_bits_inst_rs1 = 5'h0; // @[LoopMatmul.scala:253:7] wire [4:0] io_cmd_bits_inst_rd = 5'h0; // @[LoopMatmul.scala:253:7] wire [4:0] mvin_cmd_inst_rs2 = 5'h0; // @[LoopMatmul.scala:290:22] wire [4:0] mvin_cmd_inst_rs1 = 5'h0; // @[LoopMatmul.scala:290:22] wire [4:0] mvin_cmd_inst_rd = 5'h0; // @[LoopMatmul.scala:290:22] wire [6:0] io_cmd_bits_inst_funct = 7'hE; // @[LoopMatmul.scala:253:7] wire [6:0] mvin_cmd_inst_funct = 7'hE; // @[LoopMatmul.scala:290:22] wire _io_req_ready_T; // @[LoopMatmul.scala:302:25] wire _io_cmd_valid_T_4; // @[LoopMatmul.scala:306:56] wire [63:0] mvin_cmd_rs1; // @[LoopMatmul.scala:290:22] wire [63:0] mvin_cmd_rs2; // @[LoopMatmul.scala:290:22] wire _io_idle_T; // @[LoopMatmul.scala:303:20] wire io_req_ready_0; // @[LoopMatmul.scala:253:7] wire [63:0] io_cmd_bits_rs1_0; // @[LoopMatmul.scala:253:7] wire [63:0] io_cmd_bits_rs2_0; // @[LoopMatmul.scala:253:7] wire io_cmd_valid_0; // @[LoopMatmul.scala:253:7] wire io_idle_0; // @[LoopMatmul.scala:253:7] wire io_loop_id_0; // @[LoopMatmul.scala:253:7] reg state; // @[LoopMatmul.scala:270:22] wire _io_cmd_valid_T = state; // @[LoopMatmul.scala:270:22, :306:25] reg [15:0] req_max_j; // @[LoopMatmul.scala:272:16] reg [15:0] req_max_i; // @[LoopMatmul.scala:272:16] reg [1:0] req_pad_j; // @[LoopMatmul.scala:272:16] reg [1:0] req_pad_i; // @[LoopMatmul.scala:272:16] reg [39:0] req_dram_addr; // @[LoopMatmul.scala:272:16] reg [39:0] req_dram_stride; // @[LoopMatmul.scala:272:16] reg req_low_d; // @[LoopMatmul.scala:272:16] reg [11:0] req_addr_start; // @[LoopMatmul.scala:272:16] reg req_loop_id; // @[LoopMatmul.scala:272:16] assign io_loop_id_0 = req_loop_id; // @[LoopMatmul.scala:253:7, :272:16] wire _GEN = req_max_j < 16'h5; // @[LoopMatmul.scala:272:16, :274:49] wire _max_blocks_T; // @[LoopMatmul.scala:274:49] assign _max_blocks_T = _GEN; // @[LoopMatmul.scala:274:49] wire _max_blocks_T_2; // @[LoopMatmul.scala:275:19] assign _max_blocks_T_2 = _GEN; // @[LoopMatmul.scala:274:49, :275:19] wire [15:0] _max_blocks_T_1 = _max_blocks_T ? req_max_j : 16'h4; // @[LoopMatmul.scala:272:16, :274:{38,49}] wire [15:0] _max_blocks_T_3 = _max_blocks_T_2 ? req_max_j : 16'h4; // @[LoopMatmul.scala:272:16, :274:49, :275:{8,19}] wire [15:0] max_blocks = req_low_d ? _max_blocks_T_1 : _max_blocks_T_3; // @[LoopMatmul.scala:272:16, :274:{23,38}, :275:8] reg [15:0] j; // @[LoopMatmul.scala:277:14] reg [15:0] i; // @[LoopMatmul.scala:278:14] wire [55:0] _GEN_0 = {40'h0, i} * {16'h0, req_dram_stride}; // @[LoopMatmul.scala:272:16, :278:14, :282:39] wire [55:0] _dram_offset_T; // @[LoopMatmul.scala:282:39] assign _dram_offset_T = _GEN_0; // @[LoopMatmul.scala:282:39] wire [55:0] _dram_offset_T_5; // @[LoopMatmul.scala:283:8] assign _dram_offset_T_5 = _GEN_0; // @[LoopMatmul.scala:282:39, :283:8] wire [56:0] _GEN_1 = {41'h0, j}; // @[LoopMatmul.scala:277:14, :282:57] wire [56:0] _dram_offset_T_1 = {1'h0, _dram_offset_T} + _GEN_1; // @[LoopMatmul.scala:282:{39,57}] wire [55:0] _dram_offset_T_2 = _dram_offset_T_1[55:0]; // @[LoopMatmul.scala:282:57] wire [58:0] _dram_offset_T_3 = {1'h0, _dram_offset_T_2, 2'h0}; // @[LoopMatmul.scala:282:{57,62}] wire [61:0] _dram_offset_T_4 = {1'h0, _dram_offset_T_3, 2'h0}; // @[LoopMatmul.scala:282:{62,77}] wire [56:0] _dram_offset_T_6 = {1'h0, _dram_offset_T_5} + _GEN_1; // @[LoopMatmul.scala:282:57, :283:{8,26}] wire [55:0] _dram_offset_T_7 = _dram_offset_T_6[55:0]; // @[LoopMatmul.scala:283:26] wire [58:0] _dram_offset_T_8 = {1'h0, _dram_offset_T_7, 2'h0}; // @[LoopMatmul.scala:283:{26,31}] wire [61:0] _dram_offset_T_9 = {1'h0, _dram_offset_T_8, 2'h0}; // @[LoopMatmul.scala:283:{31,46}] wire [61:0] dram_offset = req_low_d ? _dram_offset_T_4 : _dram_offset_T_9; // @[LoopMatmul.scala:272:16, :282:{24,77}, :283:46] wire [61:0] _dram_addr_T = {30'h0, dram_offset[31:0]}; // @[LoopMatmul.scala:282:24, :1139:17] wire [62:0] _dram_addr_T_1 = {23'h0, req_dram_addr} + {1'h0, _dram_addr_T}; // @[LoopMatmul.scala:272:16, :284:33, :1139:17] wire [61:0] dram_addr = _dram_addr_T_1[61:0]; // @[LoopMatmul.scala:284:33] wire [31:0] _sp_addr_T = {16'h0, i} * {16'h0, req_max_j}; // @[LoopMatmul.scala:272:16, :278:14, :285:37] wire [32:0] _sp_addr_T_1 = {1'h0, _sp_addr_T} + {17'h0, j}; // @[LoopMatmul.scala:277:14, :285:{37,49}] wire [31:0] _sp_addr_T_2 = _sp_addr_T_1[31:0]; // @[LoopMatmul.scala:285:49] wire [34:0] _sp_addr_T_3 = {1'h0, _sp_addr_T_2, 2'h0}; // @[LoopMatmul.scala:285:{49,54}] wire [35:0] _sp_addr_T_4 = {24'h0, req_addr_start} + {1'h0, _sp_addr_T_3}; // @[LoopMatmul.scala:272:16, :285:{32,54}] wire [34:0] sp_addr = _sp_addr_T_4[34:0]; // @[LoopMatmul.scala:285:32] wire [16:0] _GEN_2 = {1'h0, j}; // @[LoopMatmul.scala:277:14, :286:22] wire [16:0] _GEN_3 = _GEN_2 + {1'h0, max_blocks}; // @[LoopMatmul.scala:274:23, :286:22] wire [16:0] _blocks_T; // @[LoopMatmul.scala:286:22] assign _blocks_T = _GEN_3; // @[LoopMatmul.scala:286:22] wire [16:0] _next_j_T_1; // @[Util.scala:41:15] assign _next_j_T_1 = _GEN_3; // @[Util.scala:41:15] wire [16:0] _next_j_T_4; // @[Util.scala:43:11] assign _next_j_T_4 = _GEN_3; // @[Util.scala:43:11] wire [15:0] _blocks_T_1 = _blocks_T[15:0]; // @[LoopMatmul.scala:286:22] wire _blocks_T_2 = _blocks_T_1 <= req_max_j; // @[LoopMatmul.scala:272:16, :286:{22,35}] wire [16:0] _GEN_4 = {1'h0, req_max_j}; // @[LoopMatmul.scala:272:16, :286:70] wire [16:0] _blocks_T_3 = _GEN_4 - _GEN_2; // @[LoopMatmul.scala:286:{22,70}] wire [15:0] _blocks_T_4 = _blocks_T_3[15:0]; // @[LoopMatmul.scala:286:70] wire [15:0] blocks = _blocks_T_2 ? max_blocks : _blocks_T_4; // @[LoopMatmul.scala:274:23, :286:{19,35,70}] wire [18:0] _cols_T = {1'h0, blocks, 2'h0}; // @[LoopMatmul.scala:286:19, :287:22] wire [16:0] _cols_T_1 = _GEN_2 + {1'h0, blocks}; // @[LoopMatmul.scala:286:{19,22}, :287:46] wire [15:0] _cols_T_2 = _cols_T_1[15:0]; // @[LoopMatmul.scala:287:46] wire _cols_T_3 = _cols_T_2 >= req_max_j; // @[LoopMatmul.scala:272:16, :287:{46,55}] wire [1:0] _cols_T_4 = _cols_T_3 ? req_pad_j : 2'h0; // @[LoopMatmul.scala:272:16, :287:{43,55}] wire [19:0] _cols_T_5 = {1'h0, _cols_T} - {18'h0, _cols_T_4}; // @[LoopMatmul.scala:287:{22,38,43}] wire [18:0] cols = _cols_T_5[18:0]; // @[LoopMatmul.scala:287:38] wire [16:0] _GEN_5 = {1'h0, req_max_i} - 17'h1; // @[LoopMatmul.scala:272:16, :288:48] wire [16:0] _rows_T; // @[LoopMatmul.scala:288:48] assign _rows_T = _GEN_5; // @[LoopMatmul.scala:288:48] wire [16:0] _next_i_max_T; // @[Util.scala:39:28] assign _next_i_max_T = _GEN_5; // @[Util.scala:39:28] wire [15:0] _rows_T_1 = _rows_T[15:0]; // @[LoopMatmul.scala:288:48] wire _rows_T_2 = i == _rows_T_1; // @[LoopMatmul.scala:278:14, :288:{35,48}] wire [1:0] _rows_T_3 = _rows_T_2 ? req_pad_i : 2'h0; // @[LoopMatmul.scala:272:16, :288:{32,35}] wire [3:0] _rows_T_4 = 4'h4 - {2'h0, _rows_T_3}; // @[LoopMatmul.scala:288:{27,32}] wire [2:0] rows = _rows_T_4[2:0]; // @[LoopMatmul.scala:288:27] wire [2:0] mvin_cmd_rs2_num_rows = rows; // @[LoopMatmul.scala:288:27, :295:26] assign io_cmd_bits_rs1_0 = mvin_cmd_rs1; // @[LoopMatmul.scala:253:7, :290:22] wire [63:0] _mvin_cmd_rs2_T_2; // @[LoopMatmul.scala:300:32] assign io_cmd_bits_rs2_0 = mvin_cmd_rs2; // @[LoopMatmul.scala:253:7, :290:22] assign mvin_cmd_rs1 = {2'h0, dram_addr}; // @[LoopMatmul.scala:284:33, :290:22, :293:16] wire [4:0] mvin_cmd_rs2_lo_hi_1 = mvin_cmd_rs2_num_cols; // @[LoopMatmul.scala:295:26, :300:32] wire [2:0] mvin_cmd_rs2_local_addr_result_norm_cmd; // @[LocalAddr.scala:129:26] wire [2:0] _mvin_cmd_rs2_T = mvin_cmd_rs2_local_addr_norm_cmd; // @[LoopMatmul.scala:295:26, :300:32] wire mvin_cmd_rs2_local_addr_result_garbage_bit; // @[LocalAddr.scala:129:26] wire [13:0] mvin_cmd_rs2_local_addr_result_data; // @[LocalAddr.scala:129:26] wire mvin_cmd_rs2_local_addr_garbage_bit; // @[LoopMatmul.scala:295:26] wire [13:0] mvin_cmd_rs2_local_addr_data; // @[LoopMatmul.scala:295:26] assign mvin_cmd_rs2_num_cols = cols[4:0]; // @[LoopMatmul.scala:287:38, :295:26, :298:25] wire _mvin_cmd_rs2_local_addr_result_result_T_6; // @[LocalAddr.scala:108:37] wire _mvin_cmd_rs2_local_addr_result_result_T_5; // @[LocalAddr.scala:108:37] wire mvin_cmd_rs2_local_addr_result_result_is_acc_addr = _mvin_cmd_rs2_local_addr_result_result_WIRE_is_acc_addr; // @[LocalAddr.scala:108:{26,37}] wire _mvin_cmd_rs2_local_addr_result_result_T_4; // @[LocalAddr.scala:108:37] wire mvin_cmd_rs2_local_addr_result_result_accumulate = _mvin_cmd_rs2_local_addr_result_result_WIRE_accumulate; // @[LocalAddr.scala:108:{26,37}] wire [2:0] _mvin_cmd_rs2_local_addr_result_result_WIRE_3; // @[LocalAddr.scala:108:37] wire mvin_cmd_rs2_local_addr_result_result_read_full_acc_row = _mvin_cmd_rs2_local_addr_result_result_WIRE_read_full_acc_row; // @[LocalAddr.scala:108:{26,37}] wire [10:0] _mvin_cmd_rs2_local_addr_result_result_T_2; // @[LocalAddr.scala:108:37] wire [2:0] mvin_cmd_rs2_local_addr_result_result_norm_cmd = _mvin_cmd_rs2_local_addr_result_result_WIRE_norm_cmd; // @[LocalAddr.scala:108:{26,37}] wire _mvin_cmd_rs2_local_addr_result_result_T_1; // @[LocalAddr.scala:108:37] wire [13:0] _mvin_cmd_rs2_local_addr_result_result_T; // @[LocalAddr.scala:108:37] wire mvin_cmd_rs2_local_addr_result_result_garbage_bit = _mvin_cmd_rs2_local_addr_result_result_WIRE_garbage_bit; // @[LocalAddr.scala:108:{26,37}] wire [13:0] mvin_cmd_rs2_local_addr_result_result_data = _mvin_cmd_rs2_local_addr_result_result_WIRE_data; // @[LocalAddr.scala:108:{26,37}] wire [31:0] _mvin_cmd_rs2_local_addr_result_result_WIRE_1 = sp_addr[31:0]; // @[LoopMatmul.scala:285:32] assign _mvin_cmd_rs2_local_addr_result_result_T = _mvin_cmd_rs2_local_addr_result_result_WIRE_1[13:0]; // @[LocalAddr.scala:108:37] assign _mvin_cmd_rs2_local_addr_result_result_WIRE_data = _mvin_cmd_rs2_local_addr_result_result_T; // @[LocalAddr.scala:108:37] assign _mvin_cmd_rs2_local_addr_result_result_T_1 = _mvin_cmd_rs2_local_addr_result_result_WIRE_1[14]; // @[LocalAddr.scala:108:37] assign _mvin_cmd_rs2_local_addr_result_result_WIRE_garbage_bit = _mvin_cmd_rs2_local_addr_result_result_T_1; // @[LocalAddr.scala:108:37] assign _mvin_cmd_rs2_local_addr_result_result_T_2 = _mvin_cmd_rs2_local_addr_result_result_WIRE_1[25:15]; // @[LocalAddr.scala:108:37] wire [10:0] _mvin_cmd_rs2_local_addr_result_result_WIRE_garbage = _mvin_cmd_rs2_local_addr_result_result_T_2; // @[LocalAddr.scala:108:37] wire [2:0] _mvin_cmd_rs2_local_addr_result_result_T_3 = _mvin_cmd_rs2_local_addr_result_result_WIRE_1[28:26]; // @[LocalAddr.scala:108:37] wire [2:0] _mvin_cmd_rs2_local_addr_result_result_WIRE_2 = _mvin_cmd_rs2_local_addr_result_result_T_3; // @[LocalAddr.scala:108:37] assign _mvin_cmd_rs2_local_addr_result_result_WIRE_3 = _mvin_cmd_rs2_local_addr_result_result_WIRE_2; // @[LocalAddr.scala:108:37] assign _mvin_cmd_rs2_local_addr_result_result_WIRE_norm_cmd = _mvin_cmd_rs2_local_addr_result_result_WIRE_3; // @[LocalAddr.scala:108:37] assign _mvin_cmd_rs2_local_addr_result_result_T_4 = _mvin_cmd_rs2_local_addr_result_result_WIRE_1[29]; // @[LocalAddr.scala:108:37] assign _mvin_cmd_rs2_local_addr_result_result_WIRE_read_full_acc_row = _mvin_cmd_rs2_local_addr_result_result_T_4; // @[LocalAddr.scala:108:37] assign _mvin_cmd_rs2_local_addr_result_result_T_5 = _mvin_cmd_rs2_local_addr_result_result_WIRE_1[30]; // @[LocalAddr.scala:108:37] assign _mvin_cmd_rs2_local_addr_result_result_WIRE_accumulate = _mvin_cmd_rs2_local_addr_result_result_T_5; // @[LocalAddr.scala:108:37] assign _mvin_cmd_rs2_local_addr_result_result_T_6 = _mvin_cmd_rs2_local_addr_result_result_WIRE_1[31]; // @[LocalAddr.scala:108:37] assign _mvin_cmd_rs2_local_addr_result_result_WIRE_is_acc_addr = _mvin_cmd_rs2_local_addr_result_result_T_6; // @[LocalAddr.scala:108:37] assign mvin_cmd_rs2_local_addr_result_norm_cmd = mvin_cmd_rs2_local_addr_result_result_norm_cmd; // @[LocalAddr.scala:108:26, :129:26] assign mvin_cmd_rs2_local_addr_result_garbage_bit = mvin_cmd_rs2_local_addr_result_result_garbage_bit; // @[LocalAddr.scala:108:26, :129:26] assign mvin_cmd_rs2_local_addr_result_data = mvin_cmd_rs2_local_addr_result_result_data; // @[LocalAddr.scala:108:26, :129:26] assign mvin_cmd_rs2_local_addr_norm_cmd = mvin_cmd_rs2_local_addr_result_norm_cmd; // @[LoopMatmul.scala:295:26] assign mvin_cmd_rs2_local_addr_garbage_bit = mvin_cmd_rs2_local_addr_result_garbage_bit; // @[LoopMatmul.scala:295:26] assign mvin_cmd_rs2_local_addr_data = mvin_cmd_rs2_local_addr_result_data; // @[LoopMatmul.scala:295:26] wire [11:0] mvin_cmd_rs2_lo_hi = {11'h0, mvin_cmd_rs2_local_addr_garbage_bit}; // @[LoopMatmul.scala:295:26, :300:32] wire [25:0] mvin_cmd_rs2_lo = {mvin_cmd_rs2_lo_hi, mvin_cmd_rs2_local_addr_data}; // @[LoopMatmul.scala:295:26, :300:32] wire [3:0] mvin_cmd_rs2_hi_lo = {1'h0, _mvin_cmd_rs2_T}; // @[LoopMatmul.scala:300:32] wire [5:0] mvin_cmd_rs2_hi = {2'h2, mvin_cmd_rs2_hi_lo}; // @[LoopMatmul.scala:300:32] wire [31:0] _mvin_cmd_rs2_T_1 = {mvin_cmd_rs2_hi, mvin_cmd_rs2_lo}; // @[LoopMatmul.scala:300:32] wire [36:0] mvin_cmd_rs2_lo_1 = {mvin_cmd_rs2_lo_hi_1, _mvin_cmd_rs2_T_1}; // @[LoopMatmul.scala:300:32] wire [15:0] mvin_cmd_rs2_hi_hi_1 = {13'h0, mvin_cmd_rs2_num_rows}; // @[LoopMatmul.scala:295:26, :300:32] wire [26:0] mvin_cmd_rs2_hi_1 = {mvin_cmd_rs2_hi_hi_1, 11'h0}; // @[LoopMatmul.scala:300:32] assign _mvin_cmd_rs2_T_2 = {mvin_cmd_rs2_hi_1, mvin_cmd_rs2_lo_1}; // @[LoopMatmul.scala:300:32] assign mvin_cmd_rs2 = _mvin_cmd_rs2_T_2; // @[LoopMatmul.scala:290:22, :300:32] assign _io_req_ready_T = ~state; // @[LoopMatmul.scala:270:22, :302:25] assign io_req_ready_0 = _io_req_ready_T; // @[LoopMatmul.scala:253:7, :302:25] assign _io_idle_T = ~state; // @[LoopMatmul.scala:270:22, :302:25, :303:20] assign io_idle_0 = _io_idle_T; // @[LoopMatmul.scala:253:7, :303:20] wire _io_cmd_valid_T_1 = ~io_rob_overloaded_0; // @[LoopMatmul.scala:253:7, :306:37] wire _io_cmd_valid_T_2 = _io_cmd_valid_T & _io_cmd_valid_T_1; // @[LoopMatmul.scala:306:{25,34,37}] wire _io_cmd_valid_T_3 = |req_dram_addr; // @[LoopMatmul.scala:272:16, :306:73] assign _io_cmd_valid_T_4 = _io_cmd_valid_T_2 & _io_cmd_valid_T_3; // @[LoopMatmul.scala:306:{34,56,73}] assign io_cmd_valid_0 = _io_cmd_valid_T_4; // @[LoopMatmul.scala:253:7, :306:56] wire [15:0] next_i_max = _next_i_max_T[15:0]; // @[Util.scala:39:28] wire [16:0] _GEN_6 = {1'h0, i} + 17'h1; // @[Util.scala:41:15] wire [16:0] _next_i_T; // @[Util.scala:41:15] assign _next_i_T = _GEN_6; // @[Util.scala:41:15] wire [16:0] _next_i_T_3; // @[Util.scala:43:11] assign _next_i_T_3 = _GEN_6; // @[Util.scala:41:15, :43:11] wire [15:0] _next_i_T_1 = _next_i_T[15:0]; // @[Util.scala:41:15] wire _next_i_T_4 = _next_i_T_3 > {1'h0, next_i_max}; // @[Util.scala:39:28, :43:{11,17}] wire [15:0] _next_i_T_5 = _next_i_T_4 ? 16'h0 : _next_i_T_1; // @[Mux.scala:126:16] wire [15:0] next_i = _next_i_T_5; // @[Mux.scala:126:16] wire _next_j_T = next_i == 16'h0; // @[Mux.scala:126:16] wire [16:0] _next_j_max_T = _GEN_4 - 17'h1; // @[Util.scala:39:28] wire [15:0] next_j_max = _next_j_max_T[15:0]; // @[Util.scala:39:28] wire [15:0] _next_j_T_2 = _next_j_T_1[15:0]; // @[Util.scala:41:15] wire _next_j_T_3 = ~_next_j_T; // @[Util.scala:42:8] wire _next_j_T_5 = _next_j_T_4 > {1'h0, next_j_max}; // @[Util.scala:39:28, :43:{11,17}] wire [15:0] _next_j_T_6 = _next_j_T_5 ? 16'h0 : _next_j_T_2; // @[Mux.scala:126:16] wire [15:0] next_j = _next_j_T_3 ? j : _next_j_T_6; // @[Mux.scala:126:16] wire _T_1 = io_cmd_ready_0 & io_cmd_valid_0; // @[Decoupled.scala:51:35] wire _T_5 = io_req_ready_0 & io_req_valid_0; // @[Decoupled.scala:51:35] always @(posedge clock) begin // @[LoopMatmul.scala:253:7] if (reset) // @[LoopMatmul.scala:253:7] state <= 1'h0; // @[LoopMatmul.scala:270:22] else // @[LoopMatmul.scala:253:7] state <= _T_5 | ~(~(|req_dram_addr) | _T_1 & _next_j_T & next_j == 16'h0) & state; // @[Mux.scala:126:16] if (_T_5) begin // @[Decoupled.scala:51:35] req_max_j <= io_req_bits_max_j_0; // @[LoopMatmul.scala:253:7, :272:16] req_max_i <= io_req_bits_max_i_0; // @[LoopMatmul.scala:253:7, :272:16] req_pad_j <= io_req_bits_pad_j_0; // @[LoopMatmul.scala:253:7, :272:16] req_pad_i <= io_req_bits_pad_i_0; // @[LoopMatmul.scala:253:7, :272:16] req_dram_addr <= io_req_bits_dram_addr_0; // @[LoopMatmul.scala:253:7, :272:16] req_dram_stride <= io_req_bits_dram_stride_0; // @[LoopMatmul.scala:253:7, :272:16] req_low_d <= io_req_bits_low_d_0; // @[LoopMatmul.scala:253:7, :272:16] req_addr_start <= io_req_bits_addr_start_0; // @[LoopMatmul.scala:253:7, :272:16] req_loop_id <= io_req_bits_loop_id_0; // @[LoopMatmul.scala:253:7, :272:16] j <= 16'h0; // @[LoopMatmul.scala:277:14] i <= 16'h0; // @[LoopMatmul.scala:278:14] end else if ((|req_dram_addr) & _T_1) begin // @[Decoupled.scala:51:35] j <= next_j; // @[Mux.scala:126:16] i <= next_i; // @[Mux.scala:126:16] end always @(posedge) assign io_req_ready = io_req_ready_0; // @[LoopMatmul.scala:253:7] assign io_cmd_valid = io_cmd_valid_0; // @[LoopMatmul.scala:253:7] assign io_cmd_bits_rs1 = io_cmd_bits_rs1_0; // @[LoopMatmul.scala:253:7] assign io_cmd_bits_rs2 = io_cmd_bits_rs2_0; // @[LoopMatmul.scala:253:7] assign io_idle = io_idle_0; // @[LoopMatmul.scala:253:7] assign io_loop_id = io_loop_id_0; // @[LoopMatmul.scala:253:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File RecFNToRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import consts._ class RecFNToRecFN( inExpWidth: Int, inSigWidth: Int, outExpWidth: Int, outSigWidth: Int) extends chisel3.RawModule { val io = IO(new Bundle { val in = Input(Bits((inExpWidth + inSigWidth + 1).W)) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((outExpWidth + outSigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val rawIn = rawFloatFromRecFN(inExpWidth, inSigWidth, io.in); if ((inExpWidth == outExpWidth) && (inSigWidth <= outSigWidth)) { //-------------------------------------------------------------------- //-------------------------------------------------------------------- io.out := io.in<<(outSigWidth - inSigWidth) io.exceptionFlags := isSigNaNRawFloat(rawIn) ## 0.U(4.W) } else { //-------------------------------------------------------------------- //-------------------------------------------------------------------- val roundAnyRawFNToRecFN = Module( new RoundAnyRawFNToRecFN( inExpWidth, inSigWidth, outExpWidth, outSigWidth, flRoundOpt_sigMSBitAlwaysZero )) roundAnyRawFNToRecFN.io.invalidExc := isSigNaNRawFloat(rawIn) roundAnyRawFNToRecFN.io.infiniteExc := false.B roundAnyRawFNToRecFN.io.in := rawIn roundAnyRawFNToRecFN.io.roundingMode := io.roundingMode roundAnyRawFNToRecFN.io.detectTininess := io.detectTininess io.out := roundAnyRawFNToRecFN.io.out io.exceptionFlags := roundAnyRawFNToRecFN.io.exceptionFlags } } File rawFloatFromRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ /*---------------------------------------------------------------------------- | In the result, no more than one of 'isNaN', 'isInf', and 'isZero' will be | set. *----------------------------------------------------------------------------*/ object rawFloatFromRecFN { def apply(expWidth: Int, sigWidth: Int, in: Bits): RawFloat = { val exp = in(expWidth + sigWidth - 1, sigWidth - 1) val isZero = exp(expWidth, expWidth - 2) === 0.U val isSpecial = exp(expWidth, expWidth - 1) === 3.U val out = Wire(new RawFloat(expWidth, sigWidth)) out.isNaN := isSpecial && exp(expWidth - 2) out.isInf := isSpecial && ! exp(expWidth - 2) out.isZero := isZero out.sign := in(expWidth + sigWidth) out.sExp := exp.zext out.sig := 0.U(1.W) ## ! isZero ## in(sigWidth - 2, 0) out } } File common.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ object consts { /*------------------------------------------------------------------------ | For rounding to integer values, rounding mode 'odd' rounds to minimum | magnitude instead, same as 'minMag'. *------------------------------------------------------------------------*/ def round_near_even = "b000".U(3.W) def round_minMag = "b001".U(3.W) def round_min = "b010".U(3.W) def round_max = "b011".U(3.W) def round_near_maxMag = "b100".U(3.W) def round_odd = "b110".U(3.W) /*------------------------------------------------------------------------ *------------------------------------------------------------------------*/ def tininess_beforeRounding = 0.U def tininess_afterRounding = 1.U /*------------------------------------------------------------------------ *------------------------------------------------------------------------*/ def flRoundOpt_sigMSBitAlwaysZero = 1 def flRoundOpt_subnormsAlwaysExact = 2 def flRoundOpt_neverUnderflows = 4 def flRoundOpt_neverOverflows = 8 /*------------------------------------------------------------------------ *------------------------------------------------------------------------*/ def divSqrtOpt_twoBitsPerCycle = 16 } class RawFloat(val expWidth: Int, val sigWidth: Int) extends Bundle { val isNaN: Bool = Bool() // overrides all other fields val isInf: Bool = Bool() // overrides 'isZero', 'sExp', and 'sig' val isZero: Bool = Bool() // overrides 'sExp' and 'sig' val sign: Bool = Bool() val sExp: SInt = SInt((expWidth + 2).W) val sig: UInt = UInt((sigWidth + 1).W) // 2 m.s. bits cannot both be 0 } //*** CHANGE THIS INTO A '.isSigNaN' METHOD OF THE 'RawFloat' CLASS: object isSigNaNRawFloat { def apply(in: RawFloat): Bool = in.isNaN && !in.sig(in.sigWidth - 2) }
module RecFNToRecFN_5( // @[RecFNToRecFN.scala:44:5] input [32:0] io_in, // @[RecFNToRecFN.scala:48:16] output [64:0] io_out // @[RecFNToRecFN.scala:48:16] ); wire [32:0] io_in_0 = io_in; // @[RecFNToRecFN.scala:44:5] wire io_detectTininess = 1'h0; // @[RecFNToRecFN.scala:44:5] wire [2:0] io_roundingMode = 3'h0; // @[RecFNToRecFN.scala:44:5, :48:16, :72:19] wire [64:0] io_out_0; // @[RecFNToRecFN.scala:44:5] wire [4:0] io_exceptionFlags; // @[RecFNToRecFN.scala:44:5] wire [8:0] rawIn_exp = io_in_0[31:23]; // @[rawFloatFromRecFN.scala:51:21] wire [2:0] _rawIn_isZero_T = rawIn_exp[8:6]; // @[rawFloatFromRecFN.scala:51:21, :52:28] wire rawIn_isZero = _rawIn_isZero_T == 3'h0; // @[rawFloatFromRecFN.scala:52:{28,53}] wire rawIn_isZero_0 = rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :55:23] wire [1:0] _rawIn_isSpecial_T = rawIn_exp[8:7]; // @[rawFloatFromRecFN.scala:51:21, :53:28] wire rawIn_isSpecial = &_rawIn_isSpecial_T; // @[rawFloatFromRecFN.scala:53:{28,53}] wire _rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:56:33] wire _rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:57:33] wire _rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:59:25] wire [9:0] _rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:60:27] wire [24:0] _rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:61:44] wire rawIn_isNaN; // @[rawFloatFromRecFN.scala:55:23] wire rawIn_isInf; // @[rawFloatFromRecFN.scala:55:23] wire rawIn_sign; // @[rawFloatFromRecFN.scala:55:23] wire [9:0] rawIn_sExp; // @[rawFloatFromRecFN.scala:55:23] wire [24:0] rawIn_sig; // @[rawFloatFromRecFN.scala:55:23] wire _rawIn_out_isNaN_T = rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41] wire _rawIn_out_isInf_T = rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41, :57:41] assign _rawIn_out_isNaN_T_1 = rawIn_isSpecial & _rawIn_out_isNaN_T; // @[rawFloatFromRecFN.scala:53:53, :56:{33,41}] assign rawIn_isNaN = _rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:55:23, :56:33] wire _rawIn_out_isInf_T_1 = ~_rawIn_out_isInf_T; // @[rawFloatFromRecFN.scala:57:{36,41}] assign _rawIn_out_isInf_T_2 = rawIn_isSpecial & _rawIn_out_isInf_T_1; // @[rawFloatFromRecFN.scala:53:53, :57:{33,36}] assign rawIn_isInf = _rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:55:23, :57:33] assign _rawIn_out_sign_T = io_in_0[32]; // @[rawFloatFromRecFN.scala:59:25] assign rawIn_sign = _rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:55:23, :59:25] assign _rawIn_out_sExp_T = {1'h0, rawIn_exp}; // @[rawFloatFromRecFN.scala:51:21, :60:27] assign rawIn_sExp = _rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:55:23, :60:27] wire _rawIn_out_sig_T = ~rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :61:35] wire [1:0] _rawIn_out_sig_T_1 = {1'h0, _rawIn_out_sig_T}; // @[rawFloatFromRecFN.scala:61:{32,35}] wire [22:0] _rawIn_out_sig_T_2 = io_in_0[22:0]; // @[rawFloatFromRecFN.scala:61:49] assign _rawIn_out_sig_T_3 = {_rawIn_out_sig_T_1, _rawIn_out_sig_T_2}; // @[rawFloatFromRecFN.scala:61:{32,44,49}] assign rawIn_sig = _rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:55:23, :61:44] wire _roundAnyRawFNToRecFN_io_invalidExc_T = rawIn_sig[22]; // @[rawFloatFromRecFN.scala:55:23] wire _roundAnyRawFNToRecFN_io_invalidExc_T_1 = ~_roundAnyRawFNToRecFN_io_invalidExc_T; // @[common.scala:82:{49,56}] wire _roundAnyRawFNToRecFN_io_invalidExc_T_2 = rawIn_isNaN & _roundAnyRawFNToRecFN_io_invalidExc_T_1; // @[rawFloatFromRecFN.scala:55:23] RoundAnyRawFNToRecFN_ie8_is24_oe11_os53 roundAnyRawFNToRecFN ( // @[RecFNToRecFN.scala:72:19] .io_invalidExc (_roundAnyRawFNToRecFN_io_invalidExc_T_2), // @[common.scala:82:46] .io_in_isNaN (rawIn_isNaN), // @[rawFloatFromRecFN.scala:55:23] .io_in_isInf (rawIn_isInf), // @[rawFloatFromRecFN.scala:55:23] .io_in_isZero (rawIn_isZero_0), // @[rawFloatFromRecFN.scala:55:23] .io_in_sign (rawIn_sign), // @[rawFloatFromRecFN.scala:55:23] .io_in_sExp (rawIn_sExp), // @[rawFloatFromRecFN.scala:55:23] .io_in_sig (rawIn_sig), // @[rawFloatFromRecFN.scala:55:23] .io_out (io_out_0), .io_exceptionFlags (io_exceptionFlags) ); // @[RecFNToRecFN.scala:72:19] assign io_out = io_out_0; // @[RecFNToRecFN.scala:44:5] endmodule
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File SynchronizerReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util.{RegEnable, Cat} /** These wrap behavioral * shift and next registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * * These are built up of *ResetSynchronizerPrimitiveShiftReg, * intended to be replaced by the integrator's metastable flops chains or replaced * at this level if they have a multi-bit wide synchronizer primitive. * The different types vary in their reset behavior: * NonSyncResetSynchronizerShiftReg -- Register array which does not have a reset pin * AsyncResetSynchronizerShiftReg -- Asynchronously reset register array, constructed from W instantiations of D deep * 1-bit-wide shift registers. * SyncResetSynchronizerShiftReg -- Synchronously reset register array, constructed similarly to AsyncResetSynchronizerShiftReg * * [Inferred]ResetSynchronizerShiftReg -- TBD reset type by chisel3 reset inference. * * ClockCrossingReg -- Not made up of SynchronizerPrimitiveShiftReg. This is for single-deep flops which cross * Clock Domains. */ object SynchronizerResetType extends Enumeration { val NonSync, Inferred, Sync, Async = Value } // Note: this should not be used directly. // Use the companion object to generate this with the correct reset type mixin. private class SynchronizerPrimitiveShiftReg( sync: Int, init: Boolean, resetType: SynchronizerResetType.Value) extends AbstractPipelineReg(1) { val initInt = if (init) 1 else 0 val initPostfix = resetType match { case SynchronizerResetType.NonSync => "" case _ => s"_i${initInt}" } override def desiredName = s"${resetType.toString}ResetSynchronizerPrimitiveShiftReg_d${sync}${initPostfix}" val chain = List.tabulate(sync) { i => val reg = if (resetType == SynchronizerResetType.NonSync) Reg(Bool()) else RegInit(init.B) reg.suggestName(s"sync_$i") } chain.last := io.d.asBool (chain.init zip chain.tail).foreach { case (sink, source) => sink := source } io.q := chain.head.asUInt } private object SynchronizerPrimitiveShiftReg { def apply (in: Bool, sync: Int, init: Boolean, resetType: SynchronizerResetType.Value): Bool = { val gen: () => SynchronizerPrimitiveShiftReg = resetType match { case SynchronizerResetType.NonSync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) case SynchronizerResetType.Async => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireAsyncReset case SynchronizerResetType.Sync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireSyncReset case SynchronizerResetType.Inferred => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) } AbstractPipelineReg(gen(), in) } } // Note: This module may end up with a non-AsyncReset type reset. // But the Primitives within will always have AsyncReset type. class AsyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"AsyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asAsyncReset){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Async) } } io.q := Cat(output.reverse) } object AsyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } // Note: This module may end up with a non-Bool type reset. // But the Primitives within will always have Bool reset type. @deprecated("SyncResetSynchronizerShiftReg is unecessary with Chisel3 inferred resets. Use ResetSynchronizerShiftReg which will use the inferred reset type.", "rocket-chip 1.2") class SyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asBool){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Sync) } } io.q := Cat(output.reverse) } object SyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class ResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"ResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Inferred) } io.q := Cat(output.reverse) } object ResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new ResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class SynchronizerShiftReg(w: Int = 1, sync: Int = 3) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SynchronizerShiftReg_w${w}_d${sync}" val output = Seq.tabulate(w) { i => SynchronizerPrimitiveShiftReg(io.d(i), sync, false, SynchronizerResetType.NonSync) } io.q := Cat(output.reverse) } object SynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SynchronizerShiftReg(in.getWidth, sync), in, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, None) def apply [T <: Data](in: T): T = apply (in, 3, None) } class ClockCrossingReg(w: Int = 1, doInit: Boolean) extends Module { override def desiredName = s"ClockCrossingReg_w${w}" val io = IO(new Bundle{ val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) val en = Input(Bool()) }) val cdc_reg = if (doInit) RegEnable(io.d, 0.U(w.W), io.en) else RegEnable(io.d, io.en) io.q := cdc_reg } object ClockCrossingReg { def apply [T <: Data](in: T, en: Bool, doInit: Boolean, name: Option[String] = None): T = { val cdc_reg = Module(new ClockCrossingReg(in.getWidth, doInit)) name.foreach{ cdc_reg.suggestName(_) } cdc_reg.io.d := in.asUInt cdc_reg.io.en := en cdc_reg.io.q.asTypeOf(in) } }
module AsyncResetSynchronizerShiftReg_w1_d3_i0_130( // @[SynchronizerReg.scala:80:7] input clock, // @[SynchronizerReg.scala:80:7] input reset, // @[SynchronizerReg.scala:80:7] output io_q // @[ShiftReg.scala:36:14] ); wire _output_T = reset; // @[SynchronizerReg.scala:86:21] wire io_d = 1'h1; // @[SynchronizerReg.scala:80:7, :87:41] wire _output_T_1 = 1'h1; // @[SynchronizerReg.scala:80:7, :87:41] wire output_0; // @[ShiftReg.scala:48:24] wire io_q_0; // @[SynchronizerReg.scala:80:7] assign io_q_0 = output_0; // @[SynchronizerReg.scala:80:7] AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_230 output_chain ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (_output_T), // @[SynchronizerReg.scala:86:21] .io_q (output_0) ); // @[ShiftReg.scala:45:23] assign io_q = io_q_0; // @[SynchronizerReg.scala:80:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Buffer.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.BufferParams class TLBufferNode ( a: BufferParams, b: BufferParams, c: BufferParams, d: BufferParams, e: BufferParams)(implicit valName: ValName) extends TLAdapterNode( clientFn = { p => p.v1copy(minLatency = p.minLatency + b.latency + c.latency) }, managerFn = { p => p.v1copy(minLatency = p.minLatency + a.latency + d.latency) } ) { override lazy val nodedebugstring = s"a:${a.toString}, b:${b.toString}, c:${c.toString}, d:${d.toString}, e:${e.toString}" override def circuitIdentity = List(a,b,c,d,e).forall(_ == BufferParams.none) } class TLBuffer( a: BufferParams, b: BufferParams, c: BufferParams, d: BufferParams, e: BufferParams)(implicit p: Parameters) extends LazyModule { def this(ace: BufferParams, bd: BufferParams)(implicit p: Parameters) = this(ace, bd, ace, bd, ace) def this(abcde: BufferParams)(implicit p: Parameters) = this(abcde, abcde) def this()(implicit p: Parameters) = this(BufferParams.default) val node = new TLBufferNode(a, b, c, d, e) lazy val module = new Impl class Impl extends LazyModuleImp(this) { def headBundle = node.out.head._2.bundle override def desiredName = (Seq("TLBuffer") ++ node.out.headOption.map(_._2.bundle.shortName)).mkString("_") (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out.a <> a(in .a) in .d <> d(out.d) if (edgeOut.manager.anySupportAcquireB && edgeOut.client.anySupportProbe) { in .b <> b(out.b) out.c <> c(in .c) out.e <> e(in .e) } else { in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } } } } object TLBuffer { def apply() (implicit p: Parameters): TLNode = apply(BufferParams.default) def apply(abcde: BufferParams) (implicit p: Parameters): TLNode = apply(abcde, abcde) def apply(ace: BufferParams, bd: BufferParams)(implicit p: Parameters): TLNode = apply(ace, bd, ace, bd, ace) def apply( a: BufferParams, b: BufferParams, c: BufferParams, d: BufferParams, e: BufferParams)(implicit p: Parameters): TLNode = { val buffer = LazyModule(new TLBuffer(a, b, c, d, e)) buffer.node } def chain(depth: Int, name: Option[String] = None)(implicit p: Parameters): Seq[TLNode] = { val buffers = Seq.fill(depth) { LazyModule(new TLBuffer()) } name.foreach { n => buffers.zipWithIndex.foreach { case (b, i) => b.suggestName(s"${n}_${i}") } } buffers.map(_.node) } def chainNode(depth: Int, name: Option[String] = None)(implicit p: Parameters): TLNode = { chain(depth, name) .reduceLeftOption(_ :*=* _) .getOrElse(TLNameNode("no_buffer")) } }
module TLBuffer_12( // @[Buffer.scala:40:9] input clock, // @[Buffer.scala:40:9] input reset // @[Buffer.scala:40:9] ); endmodule
Generate the Verilog code corresponding to the following Chisel files. File ShiftRegisterPriorityQueue.scala: package compressacc import chisel3._ import chisel3.util._ import chisel3.util._ // TODO : support enq & deq at the same cycle class PriorityQueueStageIO(keyWidth: Int, value: ValueInfo) extends Bundle { val output_prev = KeyValue(keyWidth, value) val output_nxt = KeyValue(keyWidth, value) val input_prev = Flipped(KeyValue(keyWidth, value)) val input_nxt = Flipped(KeyValue(keyWidth, value)) val cmd = Flipped(Valid(UInt(1.W))) val insert_here = Input(Bool()) val cur_input_keyval = Flipped(KeyValue(keyWidth, value)) val cur_output_keyval = KeyValue(keyWidth, value) } class PriorityQueueStage(keyWidth: Int, value: ValueInfo) extends Module { val io = IO(new PriorityQueueStageIO(keyWidth, value)) dontTouch(io) val CMD_DEQ = 0.U val CMD_ENQ = 1.U val MAX_VALUE = (1 << keyWidth) - 1 val key_reg = RegInit(MAX_VALUE.U(keyWidth.W)) val value_reg = Reg(value) io.output_prev.key := key_reg io.output_prev.value := value_reg io.output_nxt.key := key_reg io.output_nxt.value := value_reg io.cur_output_keyval.key := key_reg io.cur_output_keyval.value := value_reg when (io.cmd.valid) { switch (io.cmd.bits) { is (CMD_DEQ) { key_reg := io.input_nxt.key value_reg := io.input_nxt.value } is (CMD_ENQ) { when (io.insert_here) { key_reg := io.cur_input_keyval.key value_reg := io.cur_input_keyval.value } .elsewhen (key_reg >= io.cur_input_keyval.key) { key_reg := io.input_prev.key value_reg := io.input_prev.value } .otherwise { // do nothing } } } } } object PriorityQueueStage { def apply(keyWidth: Int, v: ValueInfo): PriorityQueueStage = new PriorityQueueStage(keyWidth, v) } // TODO // - This design is not scalable as the enqued_keyval is broadcasted to all the stages // - Add pipeline registers later class PriorityQueueIO(queSize: Int, keyWidth: Int, value: ValueInfo) extends Bundle { val cnt_bits = log2Ceil(queSize+1) val counter = Output(UInt(cnt_bits.W)) val enq = Flipped(Decoupled(KeyValue(keyWidth, value))) val deq = Decoupled(KeyValue(keyWidth, value)) } class PriorityQueue(queSize: Int, keyWidth: Int, value: ValueInfo) extends Module { val keyWidthInternal = keyWidth + 1 val CMD_DEQ = 0.U val CMD_ENQ = 1.U val io = IO(new PriorityQueueIO(queSize, keyWidthInternal, value)) dontTouch(io) val MAX_VALUE = ((1 << keyWidthInternal) - 1).U val cnt_bits = log2Ceil(queSize+1) // do not consider cases where we are inserting more entries then the queSize val counter = RegInit(0.U(cnt_bits.W)) io.counter := counter val full = (counter === queSize.U) val empty = (counter === 0.U) io.deq.valid := !empty io.enq.ready := !full when (io.enq.fire) { counter := counter + 1.U } when (io.deq.fire) { counter := counter - 1.U } val cmd_valid = io.enq.valid || io.deq.ready val cmd = Mux(io.enq.valid, CMD_ENQ, CMD_DEQ) assert(!(io.enq.valid && io.deq.ready)) val stages = Seq.fill(queSize)(Module(new PriorityQueueStage(keyWidthInternal, value))) for (i <- 0 until (queSize - 1)) { stages(i+1).io.input_prev <> stages(i).io.output_nxt stages(i).io.input_nxt <> stages(i+1).io.output_prev } stages(queSize-1).io.input_nxt.key := MAX_VALUE // stages(queSize-1).io.input_nxt.value := stages(queSize-1).io.input_nxt.value.symbol := 0.U // stages(queSize-1).io.input_nxt.value.child(0) := 0.U // stages(queSize-1).io.input_nxt.value.child(1) := 0.U stages(0).io.input_prev.key := io.enq.bits.key stages(0).io.input_prev.value <> io.enq.bits.value for (i <- 0 until queSize) { stages(i).io.cmd.valid := cmd_valid stages(i).io.cmd.bits := cmd stages(i).io.cur_input_keyval <> io.enq.bits } val is_large_or_equal = WireInit(VecInit(Seq.fill(queSize)(false.B))) for (i <- 0 until queSize) { is_large_or_equal(i) := (stages(i).io.cur_output_keyval.key >= io.enq.bits.key) } val is_large_or_equal_cat = Wire(UInt(queSize.W)) is_large_or_equal_cat := Cat(is_large_or_equal.reverse) val insert_here_idx = PriorityEncoder(is_large_or_equal_cat) for (i <- 0 until queSize) { when (i.U === insert_here_idx) { stages(i).io.insert_here := true.B } .otherwise { stages(i).io.insert_here := false.B } } io.deq.bits <> stages(0).io.output_prev }
module PriorityQueueStage_71( // @[ShiftRegisterPriorityQueue.scala:21:7] input clock, // @[ShiftRegisterPriorityQueue.scala:21:7] input reset, // @[ShiftRegisterPriorityQueue.scala:21:7] output [30:0] io_output_prev_key, // @[ShiftRegisterPriorityQueue.scala:22:14] output [9:0] io_output_prev_value_symbol, // @[ShiftRegisterPriorityQueue.scala:22:14] output [30:0] io_output_nxt_key, // @[ShiftRegisterPriorityQueue.scala:22:14] output [9:0] io_output_nxt_value_symbol, // @[ShiftRegisterPriorityQueue.scala:22:14] input [30:0] io_input_prev_key, // @[ShiftRegisterPriorityQueue.scala:22:14] input [9:0] io_input_prev_value_symbol, // @[ShiftRegisterPriorityQueue.scala:22:14] input [30:0] io_input_nxt_key, // @[ShiftRegisterPriorityQueue.scala:22:14] input [9:0] io_input_nxt_value_symbol, // @[ShiftRegisterPriorityQueue.scala:22:14] input io_cmd_valid, // @[ShiftRegisterPriorityQueue.scala:22:14] input io_cmd_bits, // @[ShiftRegisterPriorityQueue.scala:22:14] input io_insert_here, // @[ShiftRegisterPriorityQueue.scala:22:14] input [30:0] io_cur_input_keyval_key, // @[ShiftRegisterPriorityQueue.scala:22:14] input [9:0] io_cur_input_keyval_value_symbol, // @[ShiftRegisterPriorityQueue.scala:22:14] output [30:0] io_cur_output_keyval_key, // @[ShiftRegisterPriorityQueue.scala:22:14] output [9:0] io_cur_output_keyval_value_symbol // @[ShiftRegisterPriorityQueue.scala:22:14] ); wire [30:0] io_input_prev_key_0 = io_input_prev_key; // @[ShiftRegisterPriorityQueue.scala:21:7] wire [9:0] io_input_prev_value_symbol_0 = io_input_prev_value_symbol; // @[ShiftRegisterPriorityQueue.scala:21:7] wire [30:0] io_input_nxt_key_0 = io_input_nxt_key; // @[ShiftRegisterPriorityQueue.scala:21:7] wire [9:0] io_input_nxt_value_symbol_0 = io_input_nxt_value_symbol; // @[ShiftRegisterPriorityQueue.scala:21:7] wire io_cmd_valid_0 = io_cmd_valid; // @[ShiftRegisterPriorityQueue.scala:21:7] wire io_cmd_bits_0 = io_cmd_bits; // @[ShiftRegisterPriorityQueue.scala:21:7] wire io_insert_here_0 = io_insert_here; // @[ShiftRegisterPriorityQueue.scala:21:7] wire [30:0] io_cur_input_keyval_key_0 = io_cur_input_keyval_key; // @[ShiftRegisterPriorityQueue.scala:21:7] wire [9:0] io_cur_input_keyval_value_symbol_0 = io_cur_input_keyval_value_symbol; // @[ShiftRegisterPriorityQueue.scala:21:7] wire [9:0] io_output_prev_value_symbol_0; // @[ShiftRegisterPriorityQueue.scala:21:7] wire [30:0] io_output_prev_key_0; // @[ShiftRegisterPriorityQueue.scala:21:7] wire [9:0] io_output_nxt_value_symbol_0; // @[ShiftRegisterPriorityQueue.scala:21:7] wire [30:0] io_output_nxt_key_0; // @[ShiftRegisterPriorityQueue.scala:21:7] wire [9:0] io_cur_output_keyval_value_symbol_0; // @[ShiftRegisterPriorityQueue.scala:21:7] wire [30:0] io_cur_output_keyval_key_0; // @[ShiftRegisterPriorityQueue.scala:21:7] reg [30:0] key_reg; // @[ShiftRegisterPriorityQueue.scala:30:24] assign io_output_prev_key_0 = key_reg; // @[ShiftRegisterPriorityQueue.scala:21:7, :30:24] assign io_output_nxt_key_0 = key_reg; // @[ShiftRegisterPriorityQueue.scala:21:7, :30:24] assign io_cur_output_keyval_key_0 = key_reg; // @[ShiftRegisterPriorityQueue.scala:21:7, :30:24] reg [9:0] value_reg_symbol; // @[ShiftRegisterPriorityQueue.scala:31:22] assign io_output_prev_value_symbol_0 = value_reg_symbol; // @[ShiftRegisterPriorityQueue.scala:21:7, :31:22] assign io_output_nxt_value_symbol_0 = value_reg_symbol; // @[ShiftRegisterPriorityQueue.scala:21:7, :31:22] assign io_cur_output_keyval_value_symbol_0 = value_reg_symbol; // @[ShiftRegisterPriorityQueue.scala:21:7, :31:22] wire _T_2 = key_reg >= io_cur_input_keyval_key_0; // @[ShiftRegisterPriorityQueue.scala:21:7, :30:24, :52:30] always @(posedge clock) begin // @[ShiftRegisterPriorityQueue.scala:21:7] if (reset) // @[ShiftRegisterPriorityQueue.scala:21:7] key_reg <= 31'h7FFFFFFF; // @[ShiftRegisterPriorityQueue.scala:30:24] else if (io_cmd_valid_0) begin // @[ShiftRegisterPriorityQueue.scala:21:7] if (io_cmd_bits_0) begin // @[ShiftRegisterPriorityQueue.scala:21:7] if (io_insert_here_0) // @[ShiftRegisterPriorityQueue.scala:21:7] key_reg <= io_cur_input_keyval_key_0; // @[ShiftRegisterPriorityQueue.scala:21:7, :30:24] else if (_T_2) // @[ShiftRegisterPriorityQueue.scala:52:30] key_reg <= io_input_prev_key_0; // @[ShiftRegisterPriorityQueue.scala:21:7, :30:24] end else // @[ShiftRegisterPriorityQueue.scala:21:7] key_reg <= io_input_nxt_key_0; // @[ShiftRegisterPriorityQueue.scala:21:7, :30:24] end if (io_cmd_valid_0) begin // @[ShiftRegisterPriorityQueue.scala:21:7] if (io_cmd_bits_0) begin // @[ShiftRegisterPriorityQueue.scala:21:7] if (io_insert_here_0) // @[ShiftRegisterPriorityQueue.scala:21:7] value_reg_symbol <= io_cur_input_keyval_value_symbol_0; // @[ShiftRegisterPriorityQueue.scala:21:7, :31:22] else if (_T_2) // @[ShiftRegisterPriorityQueue.scala:52:30] value_reg_symbol <= io_input_prev_value_symbol_0; // @[ShiftRegisterPriorityQueue.scala:21:7, :31:22] end else // @[ShiftRegisterPriorityQueue.scala:21:7] value_reg_symbol <= io_input_nxt_value_symbol_0; // @[ShiftRegisterPriorityQueue.scala:21:7, :31:22] end always @(posedge) assign io_output_prev_key = io_output_prev_key_0; // @[ShiftRegisterPriorityQueue.scala:21:7] assign io_output_prev_value_symbol = io_output_prev_value_symbol_0; // @[ShiftRegisterPriorityQueue.scala:21:7] assign io_output_nxt_key = io_output_nxt_key_0; // @[ShiftRegisterPriorityQueue.scala:21:7] assign io_output_nxt_value_symbol = io_output_nxt_value_symbol_0; // @[ShiftRegisterPriorityQueue.scala:21:7] assign io_cur_output_keyval_key = io_cur_output_keyval_key_0; // @[ShiftRegisterPriorityQueue.scala:21:7] assign io_cur_output_keyval_value_symbol = io_cur_output_keyval_value_symbol_0; // @[ShiftRegisterPriorityQueue.scala:21:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File primitives.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object lowMask { def apply(in: UInt, topBound: BigInt, bottomBound: BigInt): UInt = { require(topBound != bottomBound) val numInVals = BigInt(1)<<in.getWidth if (topBound < bottomBound) { lowMask(~in, numInVals - 1 - topBound, numInVals - 1 - bottomBound) } else if (numInVals > 64 /* Empirical */) { // For simulation performance, we should avoid generating // exteremely wide shifters, so we divide and conquer. // Empirically, this does not impact synthesis QoR. val mid = numInVals / 2 val msb = in(in.getWidth - 1) val lsbs = in(in.getWidth - 2, 0) if (mid < topBound) { if (mid <= bottomBound) { Mux(msb, lowMask(lsbs, topBound - mid, bottomBound - mid), 0.U ) } else { Mux(msb, lowMask(lsbs, topBound - mid, 0) ## ((BigInt(1)<<(mid - bottomBound).toInt) - 1).U, lowMask(lsbs, mid, bottomBound) ) } } else { ~Mux(msb, 0.U, ~lowMask(lsbs, topBound, bottomBound)) } } else { val shift = (BigInt(-1)<<numInVals.toInt).S>>in Reverse( shift( (numInVals - 1 - bottomBound).toInt, (numInVals - topBound).toInt ) ) } } } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object countLeadingZeros { def apply(in: UInt): UInt = PriorityEncoder(in.asBools.reverse) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object orReduceBy2 { def apply(in: UInt): UInt = { val reducedWidth = (in.getWidth + 1)>>1 val reducedVec = Wire(Vec(reducedWidth, Bool())) for (ix <- 0 until reducedWidth - 1) { reducedVec(ix) := in(ix * 2 + 1, ix * 2).orR } reducedVec(reducedWidth - 1) := in(in.getWidth - 1, (reducedWidth - 1) * 2).orR reducedVec.asUInt } } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- object orReduceBy4 { def apply(in: UInt): UInt = { val reducedWidth = (in.getWidth + 3)>>2 val reducedVec = Wire(Vec(reducedWidth, Bool())) for (ix <- 0 until reducedWidth - 1) { reducedVec(ix) := in(ix * 4 + 3, ix * 4).orR } reducedVec(reducedWidth - 1) := in(in.getWidth - 1, (reducedWidth - 1) * 4).orR reducedVec.asUInt } } File MulAddRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ import consts._ //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFN_interIo(expWidth: Int, sigWidth: Int) extends Bundle { //*** ENCODE SOME OF THESE CASES IN FEWER BITS?: val isSigNaNAny = Bool() val isNaNAOrB = Bool() val isInfA = Bool() val isZeroA = Bool() val isInfB = Bool() val isZeroB = Bool() val signProd = Bool() val isNaNC = Bool() val isInfC = Bool() val isZeroC = Bool() val sExpSum = SInt((expWidth + 2).W) val doSubMags = Bool() val CIsDominant = Bool() val CDom_CAlignDist = UInt(log2Ceil(sigWidth + 1).W) val highAlignedSigC = UInt((sigWidth + 2).W) val bit0AlignedSigC = UInt(1.W) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFNToRaw_preMul(expWidth: Int, sigWidth: Int) extends RawModule { override def desiredName = s"MulAddRecFNToRaw_preMul_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val op = Input(Bits(2.W)) val a = Input(Bits((expWidth + sigWidth + 1).W)) val b = Input(Bits((expWidth + sigWidth + 1).W)) val c = Input(Bits((expWidth + sigWidth + 1).W)) val mulAddA = Output(UInt(sigWidth.W)) val mulAddB = Output(UInt(sigWidth.W)) val mulAddC = Output(UInt((sigWidth * 2).W)) val toPostMul = Output(new MulAddRecFN_interIo(expWidth, sigWidth)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ //*** POSSIBLE TO REDUCE THIS BY 1 OR 2 BITS? (CURRENTLY 2 BITS BETWEEN //*** UNSHIFTED C AND PRODUCT): val sigSumWidth = sigWidth * 3 + 3 //------------------------------------------------------------------------ //------------------------------------------------------------------------ val rawA = rawFloatFromRecFN(expWidth, sigWidth, io.a) val rawB = rawFloatFromRecFN(expWidth, sigWidth, io.b) val rawC = rawFloatFromRecFN(expWidth, sigWidth, io.c) val signProd = rawA.sign ^ rawB.sign ^ io.op(1) //*** REVIEW THE BIAS FOR 'sExpAlignedProd': val sExpAlignedProd = rawA.sExp +& rawB.sExp + (-(BigInt(1)<<expWidth) + sigWidth + 3).S val doSubMags = signProd ^ rawC.sign ^ io.op(0) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sNatCAlignDist = sExpAlignedProd - rawC.sExp val posNatCAlignDist = sNatCAlignDist(expWidth + 1, 0) val isMinCAlign = rawA.isZero || rawB.isZero || (sNatCAlignDist < 0.S) val CIsDominant = ! rawC.isZero && (isMinCAlign || (posNatCAlignDist <= sigWidth.U)) val CAlignDist = Mux(isMinCAlign, 0.U, Mux(posNatCAlignDist < (sigSumWidth - 1).U, posNatCAlignDist(log2Ceil(sigSumWidth) - 1, 0), (sigSumWidth - 1).U ) ) val mainAlignedSigC = (Mux(doSubMags, ~rawC.sig, rawC.sig) ## Fill(sigSumWidth - sigWidth + 2, doSubMags)).asSInt>>CAlignDist val reduced4CExtra = (orReduceBy4(rawC.sig<<((sigSumWidth - sigWidth - 1) & 3)) & lowMask( CAlignDist>>2, //*** NOT NEEDED?: // (sigSumWidth + 2)>>2, (sigSumWidth - 1)>>2, (sigSumWidth - sigWidth - 1)>>2 ) ).orR val alignedSigC = Cat(mainAlignedSigC>>3, Mux(doSubMags, mainAlignedSigC(2, 0).andR && ! reduced4CExtra, mainAlignedSigC(2, 0).orR || reduced4CExtra ) ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ io.mulAddA := rawA.sig io.mulAddB := rawB.sig io.mulAddC := alignedSigC(sigWidth * 2, 1) io.toPostMul.isSigNaNAny := isSigNaNRawFloat(rawA) || isSigNaNRawFloat(rawB) || isSigNaNRawFloat(rawC) io.toPostMul.isNaNAOrB := rawA.isNaN || rawB.isNaN io.toPostMul.isInfA := rawA.isInf io.toPostMul.isZeroA := rawA.isZero io.toPostMul.isInfB := rawB.isInf io.toPostMul.isZeroB := rawB.isZero io.toPostMul.signProd := signProd io.toPostMul.isNaNC := rawC.isNaN io.toPostMul.isInfC := rawC.isInf io.toPostMul.isZeroC := rawC.isZero io.toPostMul.sExpSum := Mux(CIsDominant, rawC.sExp, sExpAlignedProd - sigWidth.S) io.toPostMul.doSubMags := doSubMags io.toPostMul.CIsDominant := CIsDominant io.toPostMul.CDom_CAlignDist := CAlignDist(log2Ceil(sigWidth + 1) - 1, 0) io.toPostMul.highAlignedSigC := alignedSigC(sigSumWidth - 1, sigWidth * 2 + 1) io.toPostMul.bit0AlignedSigC := alignedSigC(0) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFNToRaw_postMul(expWidth: Int, sigWidth: Int) extends RawModule { override def desiredName = s"MulAddRecFNToRaw_postMul_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val fromPreMul = Input(new MulAddRecFN_interIo(expWidth, sigWidth)) val mulAddResult = Input(UInt((sigWidth * 2 + 1).W)) val roundingMode = Input(UInt(3.W)) val invalidExc = Output(Bool()) val rawOut = Output(new RawFloat(expWidth, sigWidth + 2)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val sigSumWidth = sigWidth * 3 + 3 //------------------------------------------------------------------------ //------------------------------------------------------------------------ val roundingMode_min = (io.roundingMode === round_min) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val opSignC = io.fromPreMul.signProd ^ io.fromPreMul.doSubMags val sigSum = Cat(Mux(io.mulAddResult(sigWidth * 2), io.fromPreMul.highAlignedSigC + 1.U, io.fromPreMul.highAlignedSigC ), io.mulAddResult(sigWidth * 2 - 1, 0), io.fromPreMul.bit0AlignedSigC ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val CDom_sign = opSignC val CDom_sExp = io.fromPreMul.sExpSum - io.fromPreMul.doSubMags.zext val CDom_absSigSum = Mux(io.fromPreMul.doSubMags, ~sigSum(sigSumWidth - 1, sigWidth + 1), 0.U(1.W) ## //*** IF GAP IS REDUCED TO 1 BIT, MUST REDUCE THIS COMPONENT TO 1 BIT TOO: io.fromPreMul.highAlignedSigC(sigWidth + 1, sigWidth) ## sigSum(sigSumWidth - 3, sigWidth + 2) ) val CDom_absSigSumExtra = Mux(io.fromPreMul.doSubMags, (~sigSum(sigWidth, 1)).orR, sigSum(sigWidth + 1, 1).orR ) val CDom_mainSig = (CDom_absSigSum<<io.fromPreMul.CDom_CAlignDist)( sigWidth * 2 + 1, sigWidth - 3) val CDom_reduced4SigExtra = (orReduceBy4(CDom_absSigSum(sigWidth - 1, 0)<<(~sigWidth & 3)) & lowMask(io.fromPreMul.CDom_CAlignDist>>2, 0, sigWidth>>2)).orR val CDom_sig = Cat(CDom_mainSig>>3, CDom_mainSig(2, 0).orR || CDom_reduced4SigExtra || CDom_absSigSumExtra ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val notCDom_signSigSum = sigSum(sigWidth * 2 + 3) val notCDom_absSigSum = Mux(notCDom_signSigSum, ~sigSum(sigWidth * 2 + 2, 0), sigSum(sigWidth * 2 + 2, 0) + io.fromPreMul.doSubMags ) val notCDom_reduced2AbsSigSum = orReduceBy2(notCDom_absSigSum) val notCDom_normDistReduced2 = countLeadingZeros(notCDom_reduced2AbsSigSum) val notCDom_nearNormDist = notCDom_normDistReduced2<<1 val notCDom_sExp = io.fromPreMul.sExpSum - notCDom_nearNormDist.asUInt.zext val notCDom_mainSig = (notCDom_absSigSum<<notCDom_nearNormDist)( sigWidth * 2 + 3, sigWidth - 1) val notCDom_reduced4SigExtra = (orReduceBy2( notCDom_reduced2AbsSigSum(sigWidth>>1, 0)<<((sigWidth>>1) & 1)) & lowMask(notCDom_normDistReduced2>>1, 0, (sigWidth + 2)>>2) ).orR val notCDom_sig = Cat(notCDom_mainSig>>3, notCDom_mainSig(2, 0).orR || notCDom_reduced4SigExtra ) val notCDom_completeCancellation = (notCDom_sig(sigWidth + 2, sigWidth + 1) === 0.U) val notCDom_sign = Mux(notCDom_completeCancellation, roundingMode_min, io.fromPreMul.signProd ^ notCDom_signSigSum ) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val notNaN_isInfProd = io.fromPreMul.isInfA || io.fromPreMul.isInfB val notNaN_isInfOut = notNaN_isInfProd || io.fromPreMul.isInfC val notNaN_addZeros = (io.fromPreMul.isZeroA || io.fromPreMul.isZeroB) && io.fromPreMul.isZeroC io.invalidExc := io.fromPreMul.isSigNaNAny || (io.fromPreMul.isInfA && io.fromPreMul.isZeroB) || (io.fromPreMul.isZeroA && io.fromPreMul.isInfB) || (! io.fromPreMul.isNaNAOrB && (io.fromPreMul.isInfA || io.fromPreMul.isInfB) && io.fromPreMul.isInfC && io.fromPreMul.doSubMags) io.rawOut.isNaN := io.fromPreMul.isNaNAOrB || io.fromPreMul.isNaNC io.rawOut.isInf := notNaN_isInfOut //*** IMPROVE?: io.rawOut.isZero := notNaN_addZeros || (! io.fromPreMul.CIsDominant && notCDom_completeCancellation) io.rawOut.sign := (notNaN_isInfProd && io.fromPreMul.signProd) || (io.fromPreMul.isInfC && opSignC) || (notNaN_addZeros && ! roundingMode_min && io.fromPreMul.signProd && opSignC) || (notNaN_addZeros && roundingMode_min && (io.fromPreMul.signProd || opSignC)) || (! notNaN_isInfOut && ! notNaN_addZeros && Mux(io.fromPreMul.CIsDominant, CDom_sign, notCDom_sign)) io.rawOut.sExp := Mux(io.fromPreMul.CIsDominant, CDom_sExp, notCDom_sExp) io.rawOut.sig := Mux(io.fromPreMul.CIsDominant, CDom_sig, notCDom_sig) } //---------------------------------------------------------------------------- //---------------------------------------------------------------------------- class MulAddRecFN(expWidth: Int, sigWidth: Int) extends RawModule { override def desiredName = s"MulAddRecFN_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { val op = Input(Bits(2.W)) val a = Input(Bits((expWidth + sigWidth + 1).W)) val b = Input(Bits((expWidth + sigWidth + 1).W)) val c = Input(Bits((expWidth + sigWidth + 1).W)) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((expWidth + sigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val mulAddRecFNToRaw_preMul = Module(new MulAddRecFNToRaw_preMul(expWidth, sigWidth)) val mulAddRecFNToRaw_postMul = Module(new MulAddRecFNToRaw_postMul(expWidth, sigWidth)) mulAddRecFNToRaw_preMul.io.op := io.op mulAddRecFNToRaw_preMul.io.a := io.a mulAddRecFNToRaw_preMul.io.b := io.b mulAddRecFNToRaw_preMul.io.c := io.c val mulAddResult = (mulAddRecFNToRaw_preMul.io.mulAddA * mulAddRecFNToRaw_preMul.io.mulAddB) +& mulAddRecFNToRaw_preMul.io.mulAddC mulAddRecFNToRaw_postMul.io.fromPreMul := mulAddRecFNToRaw_preMul.io.toPostMul mulAddRecFNToRaw_postMul.io.mulAddResult := mulAddResult mulAddRecFNToRaw_postMul.io.roundingMode := io.roundingMode //------------------------------------------------------------------------ //------------------------------------------------------------------------ val roundRawFNToRecFN = Module(new RoundRawFNToRecFN(expWidth, sigWidth, 0)) roundRawFNToRecFN.io.invalidExc := mulAddRecFNToRaw_postMul.io.invalidExc roundRawFNToRecFN.io.infiniteExc := false.B roundRawFNToRecFN.io.in := mulAddRecFNToRaw_postMul.io.rawOut roundRawFNToRecFN.io.roundingMode := io.roundingMode roundRawFNToRecFN.io.detectTininess := io.detectTininess io.out := roundRawFNToRecFN.io.out io.exceptionFlags := roundRawFNToRecFN.io.exceptionFlags }
module MulAddRecFNToRaw_postMul_e8_s24_48( // @[MulAddRecFN.scala:169:7] input io_fromPreMul_isSigNaNAny, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_isNaNAOrB, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_isInfA, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_isZeroA, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_signProd, // @[MulAddRecFN.scala:172:16] input [9:0] io_fromPreMul_sExpSum, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_doSubMags, // @[MulAddRecFN.scala:172:16] input [4:0] io_fromPreMul_CDom_CAlignDist, // @[MulAddRecFN.scala:172:16] input [25:0] io_fromPreMul_highAlignedSigC, // @[MulAddRecFN.scala:172:16] input io_fromPreMul_bit0AlignedSigC, // @[MulAddRecFN.scala:172:16] input [48:0] io_mulAddResult, // @[MulAddRecFN.scala:172:16] output io_invalidExc, // @[MulAddRecFN.scala:172:16] output io_rawOut_isNaN, // @[MulAddRecFN.scala:172:16] output io_rawOut_isInf, // @[MulAddRecFN.scala:172:16] output io_rawOut_isZero, // @[MulAddRecFN.scala:172:16] output io_rawOut_sign, // @[MulAddRecFN.scala:172:16] output [9:0] io_rawOut_sExp, // @[MulAddRecFN.scala:172:16] output [26:0] io_rawOut_sig // @[MulAddRecFN.scala:172:16] ); wire io_fromPreMul_isSigNaNAny_0 = io_fromPreMul_isSigNaNAny; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isNaNAOrB_0 = io_fromPreMul_isNaNAOrB; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isInfA_0 = io_fromPreMul_isInfA; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isZeroA_0 = io_fromPreMul_isZeroA; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_signProd_0 = io_fromPreMul_signProd; // @[MulAddRecFN.scala:169:7] wire [9:0] io_fromPreMul_sExpSum_0 = io_fromPreMul_sExpSum; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_doSubMags_0 = io_fromPreMul_doSubMags; // @[MulAddRecFN.scala:169:7] wire [4:0] io_fromPreMul_CDom_CAlignDist_0 = io_fromPreMul_CDom_CAlignDist; // @[MulAddRecFN.scala:169:7] wire [25:0] io_fromPreMul_highAlignedSigC_0 = io_fromPreMul_highAlignedSigC; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_bit0AlignedSigC_0 = io_fromPreMul_bit0AlignedSigC; // @[MulAddRecFN.scala:169:7] wire [48:0] io_mulAddResult_0 = io_mulAddResult; // @[MulAddRecFN.scala:169:7] wire [2:0] io_roundingMode = 3'h0; // @[MulAddRecFN.scala:169:7, :172:16] wire io_fromPreMul_isZeroC = 1'h1; // @[MulAddRecFN.scala:169:7] wire _io_rawOut_isZero_T = 1'h1; // @[MulAddRecFN.scala:283:14] wire _io_rawOut_sign_T_3 = 1'h1; // @[MulAddRecFN.scala:287:29] wire io_fromPreMul_isInfB = 1'h0; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isZeroB = 1'h0; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isNaNC = 1'h0; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_isInfC = 1'h0; // @[MulAddRecFN.scala:169:7] wire io_fromPreMul_CIsDominant = 1'h0; // @[MulAddRecFN.scala:169:7] wire roundingMode_min = 1'h0; // @[MulAddRecFN.scala:186:45] wire _io_invalidExc_T = 1'h0; // @[MulAddRecFN.scala:272:31] wire _io_invalidExc_T_2 = 1'h0; // @[MulAddRecFN.scala:273:32] wire _io_invalidExc_T_7 = 1'h0; // @[MulAddRecFN.scala:275:61] wire _io_invalidExc_T_8 = 1'h0; // @[MulAddRecFN.scala:276:35] wire _io_rawOut_sign_T_1 = 1'h0; // @[MulAddRecFN.scala:286:31] wire _io_rawOut_sign_T_8 = 1'h0; // @[MulAddRecFN.scala:289:26] wire _io_rawOut_sign_T_10 = 1'h0; // @[MulAddRecFN.scala:289:46] wire _io_invalidExc_T_1 = io_fromPreMul_isSigNaNAny_0; // @[MulAddRecFN.scala:169:7, :271:35] wire _io_rawOut_isNaN_T = io_fromPreMul_isNaNAOrB_0; // @[MulAddRecFN.scala:169:7, :278:48] wire notNaN_isInfProd = io_fromPreMul_isInfA_0; // @[MulAddRecFN.scala:169:7, :264:49] wire _io_invalidExc_T_5 = io_fromPreMul_isInfA_0; // @[MulAddRecFN.scala:169:7, :275:36] wire _notNaN_addZeros_T = io_fromPreMul_isZeroA_0; // @[MulAddRecFN.scala:169:7, :267:32] wire _io_invalidExc_T_9; // @[MulAddRecFN.scala:273:57] wire notNaN_isInfOut; // @[MulAddRecFN.scala:265:44] wire _io_rawOut_isZero_T_2; // @[MulAddRecFN.scala:282:25] wire _io_rawOut_sign_T_17; // @[MulAddRecFN.scala:290:50] wire [9:0] _io_rawOut_sExp_T; // @[MulAddRecFN.scala:293:26] wire [26:0] _io_rawOut_sig_T; // @[MulAddRecFN.scala:294:25] wire io_rawOut_isNaN_0; // @[MulAddRecFN.scala:169:7] wire io_rawOut_isInf_0; // @[MulAddRecFN.scala:169:7] wire io_rawOut_isZero_0; // @[MulAddRecFN.scala:169:7] wire io_rawOut_sign_0; // @[MulAddRecFN.scala:169:7] wire [9:0] io_rawOut_sExp_0; // @[MulAddRecFN.scala:169:7] wire [26:0] io_rawOut_sig_0; // @[MulAddRecFN.scala:169:7] wire io_invalidExc_0; // @[MulAddRecFN.scala:169:7] wire opSignC = io_fromPreMul_signProd_0 ^ io_fromPreMul_doSubMags_0; // @[MulAddRecFN.scala:169:7, :190:42] wire _sigSum_T = io_mulAddResult_0[48]; // @[MulAddRecFN.scala:169:7, :192:32] wire [26:0] _sigSum_T_1 = {1'h0, io_fromPreMul_highAlignedSigC_0} + 27'h1; // @[MulAddRecFN.scala:169:7, :193:47] wire [25:0] _sigSum_T_2 = _sigSum_T_1[25:0]; // @[MulAddRecFN.scala:193:47] wire [25:0] _sigSum_T_3 = _sigSum_T ? _sigSum_T_2 : io_fromPreMul_highAlignedSigC_0; // @[MulAddRecFN.scala:169:7, :192:{16,32}, :193:47] wire [47:0] _sigSum_T_4 = io_mulAddResult_0[47:0]; // @[MulAddRecFN.scala:169:7, :196:28] wire [73:0] sigSum_hi = {_sigSum_T_3, _sigSum_T_4}; // @[MulAddRecFN.scala:192:{12,16}, :196:28] wire [74:0] sigSum = {sigSum_hi, io_fromPreMul_bit0AlignedSigC_0}; // @[MulAddRecFN.scala:169:7, :192:12] wire [1:0] _CDom_sExp_T = {1'h0, io_fromPreMul_doSubMags_0}; // @[MulAddRecFN.scala:169:7, :203:69] wire [10:0] _GEN = {io_fromPreMul_sExpSum_0[9], io_fromPreMul_sExpSum_0}; // @[MulAddRecFN.scala:169:7, :203:43] wire [10:0] _CDom_sExp_T_1 = _GEN - {{9{_CDom_sExp_T[1]}}, _CDom_sExp_T}; // @[MulAddRecFN.scala:203:{43,69}] wire [9:0] _CDom_sExp_T_2 = _CDom_sExp_T_1[9:0]; // @[MulAddRecFN.scala:203:43] wire [9:0] CDom_sExp = _CDom_sExp_T_2; // @[MulAddRecFN.scala:203:43] wire [49:0] _CDom_absSigSum_T = sigSum[74:25]; // @[MulAddRecFN.scala:192:12, :206:20] wire [49:0] _CDom_absSigSum_T_1 = ~_CDom_absSigSum_T; // @[MulAddRecFN.scala:206:{13,20}] wire [1:0] _CDom_absSigSum_T_2 = io_fromPreMul_highAlignedSigC_0[25:24]; // @[MulAddRecFN.scala:169:7, :209:46] wire [2:0] _CDom_absSigSum_T_3 = {1'h0, _CDom_absSigSum_T_2}; // @[MulAddRecFN.scala:207:22, :209:46] wire [46:0] _CDom_absSigSum_T_4 = sigSum[72:26]; // @[MulAddRecFN.scala:192:12, :210:23] wire [49:0] _CDom_absSigSum_T_5 = {_CDom_absSigSum_T_3, _CDom_absSigSum_T_4}; // @[MulAddRecFN.scala:207:22, :209:71, :210:23] wire [49:0] CDom_absSigSum = io_fromPreMul_doSubMags_0 ? _CDom_absSigSum_T_1 : _CDom_absSigSum_T_5; // @[MulAddRecFN.scala:169:7, :205:12, :206:13, :209:71] wire [23:0] _CDom_absSigSumExtra_T = sigSum[24:1]; // @[MulAddRecFN.scala:192:12, :215:21] wire [23:0] _CDom_absSigSumExtra_T_1 = ~_CDom_absSigSumExtra_T; // @[MulAddRecFN.scala:215:{14,21}] wire _CDom_absSigSumExtra_T_2 = |_CDom_absSigSumExtra_T_1; // @[MulAddRecFN.scala:215:{14,36}] wire [24:0] _CDom_absSigSumExtra_T_3 = sigSum[25:1]; // @[MulAddRecFN.scala:192:12, :216:19] wire _CDom_absSigSumExtra_T_4 = |_CDom_absSigSumExtra_T_3; // @[MulAddRecFN.scala:216:{19,37}] wire CDom_absSigSumExtra = io_fromPreMul_doSubMags_0 ? _CDom_absSigSumExtra_T_2 : _CDom_absSigSumExtra_T_4; // @[MulAddRecFN.scala:169:7, :214:12, :215:36, :216:37] wire [80:0] _CDom_mainSig_T = {31'h0, CDom_absSigSum} << io_fromPreMul_CDom_CAlignDist_0; // @[MulAddRecFN.scala:169:7, :205:12, :219:24] wire [28:0] CDom_mainSig = _CDom_mainSig_T[49:21]; // @[MulAddRecFN.scala:219:{24,56}] wire [23:0] _CDom_reduced4SigExtra_T = CDom_absSigSum[23:0]; // @[MulAddRecFN.scala:205:12, :222:36] wire [26:0] _CDom_reduced4SigExtra_T_1 = {_CDom_reduced4SigExtra_T, 3'h0}; // @[MulAddRecFN.scala:169:7, :172:16, :222:{36,53}] wire _CDom_reduced4SigExtra_reducedVec_0_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_1_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_2_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_3_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_4_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_5_T_1; // @[primitives.scala:120:54] wire _CDom_reduced4SigExtra_reducedVec_6_T_1; // @[primitives.scala:123:57] wire CDom_reduced4SigExtra_reducedVec_0; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_1; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_2; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_3; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_4; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_5; // @[primitives.scala:118:30] wire CDom_reduced4SigExtra_reducedVec_6; // @[primitives.scala:118:30] wire [3:0] _CDom_reduced4SigExtra_reducedVec_0_T = _CDom_reduced4SigExtra_T_1[3:0]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_0_T_1 = |_CDom_reduced4SigExtra_reducedVec_0_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_0 = _CDom_reduced4SigExtra_reducedVec_0_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_1_T = _CDom_reduced4SigExtra_T_1[7:4]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_1_T_1 = |_CDom_reduced4SigExtra_reducedVec_1_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_1 = _CDom_reduced4SigExtra_reducedVec_1_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_2_T = _CDom_reduced4SigExtra_T_1[11:8]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_2_T_1 = |_CDom_reduced4SigExtra_reducedVec_2_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_2 = _CDom_reduced4SigExtra_reducedVec_2_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_3_T = _CDom_reduced4SigExtra_T_1[15:12]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_3_T_1 = |_CDom_reduced4SigExtra_reducedVec_3_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_3 = _CDom_reduced4SigExtra_reducedVec_3_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_4_T = _CDom_reduced4SigExtra_T_1[19:16]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_4_T_1 = |_CDom_reduced4SigExtra_reducedVec_4_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_4 = _CDom_reduced4SigExtra_reducedVec_4_T_1; // @[primitives.scala:118:30, :120:54] wire [3:0] _CDom_reduced4SigExtra_reducedVec_5_T = _CDom_reduced4SigExtra_T_1[23:20]; // @[primitives.scala:120:33] assign _CDom_reduced4SigExtra_reducedVec_5_T_1 = |_CDom_reduced4SigExtra_reducedVec_5_T; // @[primitives.scala:120:{33,54}] assign CDom_reduced4SigExtra_reducedVec_5 = _CDom_reduced4SigExtra_reducedVec_5_T_1; // @[primitives.scala:118:30, :120:54] wire [2:0] _CDom_reduced4SigExtra_reducedVec_6_T = _CDom_reduced4SigExtra_T_1[26:24]; // @[primitives.scala:123:15] assign _CDom_reduced4SigExtra_reducedVec_6_T_1 = |_CDom_reduced4SigExtra_reducedVec_6_T; // @[primitives.scala:123:{15,57}] assign CDom_reduced4SigExtra_reducedVec_6 = _CDom_reduced4SigExtra_reducedVec_6_T_1; // @[primitives.scala:118:30, :123:57] wire [1:0] CDom_reduced4SigExtra_lo_hi = {CDom_reduced4SigExtra_reducedVec_2, CDom_reduced4SigExtra_reducedVec_1}; // @[primitives.scala:118:30, :124:20] wire [2:0] CDom_reduced4SigExtra_lo = {CDom_reduced4SigExtra_lo_hi, CDom_reduced4SigExtra_reducedVec_0}; // @[primitives.scala:118:30, :124:20] wire [1:0] CDom_reduced4SigExtra_hi_lo = {CDom_reduced4SigExtra_reducedVec_4, CDom_reduced4SigExtra_reducedVec_3}; // @[primitives.scala:118:30, :124:20] wire [1:0] CDom_reduced4SigExtra_hi_hi = {CDom_reduced4SigExtra_reducedVec_6, CDom_reduced4SigExtra_reducedVec_5}; // @[primitives.scala:118:30, :124:20] wire [3:0] CDom_reduced4SigExtra_hi = {CDom_reduced4SigExtra_hi_hi, CDom_reduced4SigExtra_hi_lo}; // @[primitives.scala:124:20] wire [6:0] _CDom_reduced4SigExtra_T_2 = {CDom_reduced4SigExtra_hi, CDom_reduced4SigExtra_lo}; // @[primitives.scala:124:20] wire [2:0] _CDom_reduced4SigExtra_T_3 = io_fromPreMul_CDom_CAlignDist_0[4:2]; // @[MulAddRecFN.scala:169:7, :223:51] wire [2:0] _CDom_reduced4SigExtra_T_4 = ~_CDom_reduced4SigExtra_T_3; // @[primitives.scala:52:21] wire [8:0] CDom_reduced4SigExtra_shift = $signed(9'sh100 >>> _CDom_reduced4SigExtra_T_4); // @[primitives.scala:52:21, :76:56] wire [5:0] _CDom_reduced4SigExtra_T_5 = CDom_reduced4SigExtra_shift[6:1]; // @[primitives.scala:76:56, :78:22] wire [3:0] _CDom_reduced4SigExtra_T_6 = _CDom_reduced4SigExtra_T_5[3:0]; // @[primitives.scala:77:20, :78:22] wire [1:0] _CDom_reduced4SigExtra_T_7 = _CDom_reduced4SigExtra_T_6[1:0]; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_8 = _CDom_reduced4SigExtra_T_7[0]; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_9 = _CDom_reduced4SigExtra_T_7[1]; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_10 = {_CDom_reduced4SigExtra_T_8, _CDom_reduced4SigExtra_T_9}; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_11 = _CDom_reduced4SigExtra_T_6[3:2]; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_12 = _CDom_reduced4SigExtra_T_11[0]; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_13 = _CDom_reduced4SigExtra_T_11[1]; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_14 = {_CDom_reduced4SigExtra_T_12, _CDom_reduced4SigExtra_T_13}; // @[primitives.scala:77:20] wire [3:0] _CDom_reduced4SigExtra_T_15 = {_CDom_reduced4SigExtra_T_10, _CDom_reduced4SigExtra_T_14}; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_16 = _CDom_reduced4SigExtra_T_5[5:4]; // @[primitives.scala:77:20, :78:22] wire _CDom_reduced4SigExtra_T_17 = _CDom_reduced4SigExtra_T_16[0]; // @[primitives.scala:77:20] wire _CDom_reduced4SigExtra_T_18 = _CDom_reduced4SigExtra_T_16[1]; // @[primitives.scala:77:20] wire [1:0] _CDom_reduced4SigExtra_T_19 = {_CDom_reduced4SigExtra_T_17, _CDom_reduced4SigExtra_T_18}; // @[primitives.scala:77:20] wire [5:0] _CDom_reduced4SigExtra_T_20 = {_CDom_reduced4SigExtra_T_15, _CDom_reduced4SigExtra_T_19}; // @[primitives.scala:77:20] wire [6:0] _CDom_reduced4SigExtra_T_21 = {1'h0, _CDom_reduced4SigExtra_T_2[5:0] & _CDom_reduced4SigExtra_T_20}; // @[primitives.scala:77:20, :124:20] wire CDom_reduced4SigExtra = |_CDom_reduced4SigExtra_T_21; // @[MulAddRecFN.scala:222:72, :223:73] wire [25:0] _CDom_sig_T = CDom_mainSig[28:3]; // @[MulAddRecFN.scala:219:56, :225:25] wire [2:0] _CDom_sig_T_1 = CDom_mainSig[2:0]; // @[MulAddRecFN.scala:219:56, :226:25] wire _CDom_sig_T_2 = |_CDom_sig_T_1; // @[MulAddRecFN.scala:226:{25,32}] wire _CDom_sig_T_3 = _CDom_sig_T_2 | CDom_reduced4SigExtra; // @[MulAddRecFN.scala:223:73, :226:{32,36}] wire _CDom_sig_T_4 = _CDom_sig_T_3 | CDom_absSigSumExtra; // @[MulAddRecFN.scala:214:12, :226:{36,61}] wire [26:0] CDom_sig = {_CDom_sig_T, _CDom_sig_T_4}; // @[MulAddRecFN.scala:225:{12,25}, :226:61] wire notCDom_signSigSum = sigSum[51]; // @[MulAddRecFN.scala:192:12, :232:36] wire [50:0] _notCDom_absSigSum_T = sigSum[50:0]; // @[MulAddRecFN.scala:192:12, :235:20] wire [50:0] _notCDom_absSigSum_T_2 = sigSum[50:0]; // @[MulAddRecFN.scala:192:12, :235:20, :236:19] wire [50:0] _notCDom_absSigSum_T_1 = ~_notCDom_absSigSum_T; // @[MulAddRecFN.scala:235:{13,20}] wire [51:0] _notCDom_absSigSum_T_3 = {1'h0, _notCDom_absSigSum_T_2} + {51'h0, io_fromPreMul_doSubMags_0}; // @[MulAddRecFN.scala:169:7, :236:{19,41}] wire [50:0] _notCDom_absSigSum_T_4 = _notCDom_absSigSum_T_3[50:0]; // @[MulAddRecFN.scala:236:41] wire [50:0] notCDom_absSigSum = notCDom_signSigSum ? _notCDom_absSigSum_T_1 : _notCDom_absSigSum_T_4; // @[MulAddRecFN.scala:232:36, :234:12, :235:13, :236:41] wire _notCDom_reduced2AbsSigSum_reducedVec_0_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_1_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_2_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_3_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_4_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_5_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_6_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_7_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_8_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_9_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_10_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_11_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_12_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_13_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_14_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_15_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_16_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_17_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_18_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_19_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_20_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_21_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_22_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_23_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_24_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_25_T_1; // @[primitives.scala:106:57] wire notCDom_reduced2AbsSigSum_reducedVec_0; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_1; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_2; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_3; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_4; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_5; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_6; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_7; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_8; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_9; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_10; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_11; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_12; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_13; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_14; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_15; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_16; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_17; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_18; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_19; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_20; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_21; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_22; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_23; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_24; // @[primitives.scala:101:30] wire notCDom_reduced2AbsSigSum_reducedVec_25; // @[primitives.scala:101:30] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_0_T = notCDom_absSigSum[1:0]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_0_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_0_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_0 = _notCDom_reduced2AbsSigSum_reducedVec_0_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_1_T = notCDom_absSigSum[3:2]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_1_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_1_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_1 = _notCDom_reduced2AbsSigSum_reducedVec_1_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_2_T = notCDom_absSigSum[5:4]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_2_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_2_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_2 = _notCDom_reduced2AbsSigSum_reducedVec_2_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_3_T = notCDom_absSigSum[7:6]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_3_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_3_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_3 = _notCDom_reduced2AbsSigSum_reducedVec_3_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_4_T = notCDom_absSigSum[9:8]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_4_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_4_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_4 = _notCDom_reduced2AbsSigSum_reducedVec_4_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_5_T = notCDom_absSigSum[11:10]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_5_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_5_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_5 = _notCDom_reduced2AbsSigSum_reducedVec_5_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_6_T = notCDom_absSigSum[13:12]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_6_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_6_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_6 = _notCDom_reduced2AbsSigSum_reducedVec_6_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_7_T = notCDom_absSigSum[15:14]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_7_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_7_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_7 = _notCDom_reduced2AbsSigSum_reducedVec_7_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_8_T = notCDom_absSigSum[17:16]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_8_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_8_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_8 = _notCDom_reduced2AbsSigSum_reducedVec_8_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_9_T = notCDom_absSigSum[19:18]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_9_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_9_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_9 = _notCDom_reduced2AbsSigSum_reducedVec_9_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_10_T = notCDom_absSigSum[21:20]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_10_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_10_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_10 = _notCDom_reduced2AbsSigSum_reducedVec_10_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_11_T = notCDom_absSigSum[23:22]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_11_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_11_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_11 = _notCDom_reduced2AbsSigSum_reducedVec_11_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_12_T = notCDom_absSigSum[25:24]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_12_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_12_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_12 = _notCDom_reduced2AbsSigSum_reducedVec_12_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_13_T = notCDom_absSigSum[27:26]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_13_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_13_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_13 = _notCDom_reduced2AbsSigSum_reducedVec_13_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_14_T = notCDom_absSigSum[29:28]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_14_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_14_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_14 = _notCDom_reduced2AbsSigSum_reducedVec_14_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_15_T = notCDom_absSigSum[31:30]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_15_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_15_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_15 = _notCDom_reduced2AbsSigSum_reducedVec_15_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_16_T = notCDom_absSigSum[33:32]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_16_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_16_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_16 = _notCDom_reduced2AbsSigSum_reducedVec_16_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_17_T = notCDom_absSigSum[35:34]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_17_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_17_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_17 = _notCDom_reduced2AbsSigSum_reducedVec_17_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_18_T = notCDom_absSigSum[37:36]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_18_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_18_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_18 = _notCDom_reduced2AbsSigSum_reducedVec_18_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_19_T = notCDom_absSigSum[39:38]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_19_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_19_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_19 = _notCDom_reduced2AbsSigSum_reducedVec_19_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_20_T = notCDom_absSigSum[41:40]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_20_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_20_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_20 = _notCDom_reduced2AbsSigSum_reducedVec_20_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_21_T = notCDom_absSigSum[43:42]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_21_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_21_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_21 = _notCDom_reduced2AbsSigSum_reducedVec_21_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_22_T = notCDom_absSigSum[45:44]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_22_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_22_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_22 = _notCDom_reduced2AbsSigSum_reducedVec_22_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_23_T = notCDom_absSigSum[47:46]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_23_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_23_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_23 = _notCDom_reduced2AbsSigSum_reducedVec_23_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced2AbsSigSum_reducedVec_24_T = notCDom_absSigSum[49:48]; // @[primitives.scala:103:33] assign _notCDom_reduced2AbsSigSum_reducedVec_24_T_1 = |_notCDom_reduced2AbsSigSum_reducedVec_24_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced2AbsSigSum_reducedVec_24 = _notCDom_reduced2AbsSigSum_reducedVec_24_T_1; // @[primitives.scala:101:30, :103:54] wire _notCDom_reduced2AbsSigSum_reducedVec_25_T = notCDom_absSigSum[50]; // @[primitives.scala:106:15] assign _notCDom_reduced2AbsSigSum_reducedVec_25_T_1 = _notCDom_reduced2AbsSigSum_reducedVec_25_T; // @[primitives.scala:106:{15,57}] assign notCDom_reduced2AbsSigSum_reducedVec_25 = _notCDom_reduced2AbsSigSum_reducedVec_25_T_1; // @[primitives.scala:101:30, :106:57] wire [1:0] notCDom_reduced2AbsSigSum_lo_lo_lo_hi = {notCDom_reduced2AbsSigSum_reducedVec_2, notCDom_reduced2AbsSigSum_reducedVec_1}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_lo_lo_lo = {notCDom_reduced2AbsSigSum_lo_lo_lo_hi, notCDom_reduced2AbsSigSum_reducedVec_0}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_lo_lo_hi_hi = {notCDom_reduced2AbsSigSum_reducedVec_5, notCDom_reduced2AbsSigSum_reducedVec_4}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_lo_lo_hi = {notCDom_reduced2AbsSigSum_lo_lo_hi_hi, notCDom_reduced2AbsSigSum_reducedVec_3}; // @[primitives.scala:101:30, :107:20] wire [5:0] notCDom_reduced2AbsSigSum_lo_lo = {notCDom_reduced2AbsSigSum_lo_lo_hi, notCDom_reduced2AbsSigSum_lo_lo_lo}; // @[primitives.scala:107:20] wire [1:0] notCDom_reduced2AbsSigSum_lo_hi_lo_hi = {notCDom_reduced2AbsSigSum_reducedVec_8, notCDom_reduced2AbsSigSum_reducedVec_7}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_lo_hi_lo = {notCDom_reduced2AbsSigSum_lo_hi_lo_hi, notCDom_reduced2AbsSigSum_reducedVec_6}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_lo_hi_hi_lo = {notCDom_reduced2AbsSigSum_reducedVec_10, notCDom_reduced2AbsSigSum_reducedVec_9}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_lo_hi_hi_hi = {notCDom_reduced2AbsSigSum_reducedVec_12, notCDom_reduced2AbsSigSum_reducedVec_11}; // @[primitives.scala:101:30, :107:20] wire [3:0] notCDom_reduced2AbsSigSum_lo_hi_hi = {notCDom_reduced2AbsSigSum_lo_hi_hi_hi, notCDom_reduced2AbsSigSum_lo_hi_hi_lo}; // @[primitives.scala:107:20] wire [6:0] notCDom_reduced2AbsSigSum_lo_hi = {notCDom_reduced2AbsSigSum_lo_hi_hi, notCDom_reduced2AbsSigSum_lo_hi_lo}; // @[primitives.scala:107:20] wire [12:0] notCDom_reduced2AbsSigSum_lo = {notCDom_reduced2AbsSigSum_lo_hi, notCDom_reduced2AbsSigSum_lo_lo}; // @[primitives.scala:107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_lo_lo_hi = {notCDom_reduced2AbsSigSum_reducedVec_15, notCDom_reduced2AbsSigSum_reducedVec_14}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_hi_lo_lo = {notCDom_reduced2AbsSigSum_hi_lo_lo_hi, notCDom_reduced2AbsSigSum_reducedVec_13}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_lo_hi_hi = {notCDom_reduced2AbsSigSum_reducedVec_18, notCDom_reduced2AbsSigSum_reducedVec_17}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_hi_lo_hi = {notCDom_reduced2AbsSigSum_hi_lo_hi_hi, notCDom_reduced2AbsSigSum_reducedVec_16}; // @[primitives.scala:101:30, :107:20] wire [5:0] notCDom_reduced2AbsSigSum_hi_lo = {notCDom_reduced2AbsSigSum_hi_lo_hi, notCDom_reduced2AbsSigSum_hi_lo_lo}; // @[primitives.scala:107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_hi_lo_hi = {notCDom_reduced2AbsSigSum_reducedVec_21, notCDom_reduced2AbsSigSum_reducedVec_20}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced2AbsSigSum_hi_hi_lo = {notCDom_reduced2AbsSigSum_hi_hi_lo_hi, notCDom_reduced2AbsSigSum_reducedVec_19}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_hi_hi_lo = {notCDom_reduced2AbsSigSum_reducedVec_23, notCDom_reduced2AbsSigSum_reducedVec_22}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced2AbsSigSum_hi_hi_hi_hi = {notCDom_reduced2AbsSigSum_reducedVec_25, notCDom_reduced2AbsSigSum_reducedVec_24}; // @[primitives.scala:101:30, :107:20] wire [3:0] notCDom_reduced2AbsSigSum_hi_hi_hi = {notCDom_reduced2AbsSigSum_hi_hi_hi_hi, notCDom_reduced2AbsSigSum_hi_hi_hi_lo}; // @[primitives.scala:107:20] wire [6:0] notCDom_reduced2AbsSigSum_hi_hi = {notCDom_reduced2AbsSigSum_hi_hi_hi, notCDom_reduced2AbsSigSum_hi_hi_lo}; // @[primitives.scala:107:20] wire [12:0] notCDom_reduced2AbsSigSum_hi = {notCDom_reduced2AbsSigSum_hi_hi, notCDom_reduced2AbsSigSum_hi_lo}; // @[primitives.scala:107:20] wire [25:0] notCDom_reduced2AbsSigSum = {notCDom_reduced2AbsSigSum_hi, notCDom_reduced2AbsSigSum_lo}; // @[primitives.scala:107:20] wire _notCDom_normDistReduced2_T = notCDom_reduced2AbsSigSum[0]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_1 = notCDom_reduced2AbsSigSum[1]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_2 = notCDom_reduced2AbsSigSum[2]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_3 = notCDom_reduced2AbsSigSum[3]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_4 = notCDom_reduced2AbsSigSum[4]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_5 = notCDom_reduced2AbsSigSum[5]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_6 = notCDom_reduced2AbsSigSum[6]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_7 = notCDom_reduced2AbsSigSum[7]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_8 = notCDom_reduced2AbsSigSum[8]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_9 = notCDom_reduced2AbsSigSum[9]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_10 = notCDom_reduced2AbsSigSum[10]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_11 = notCDom_reduced2AbsSigSum[11]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_12 = notCDom_reduced2AbsSigSum[12]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_13 = notCDom_reduced2AbsSigSum[13]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_14 = notCDom_reduced2AbsSigSum[14]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_15 = notCDom_reduced2AbsSigSum[15]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_16 = notCDom_reduced2AbsSigSum[16]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_17 = notCDom_reduced2AbsSigSum[17]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_18 = notCDom_reduced2AbsSigSum[18]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_19 = notCDom_reduced2AbsSigSum[19]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_20 = notCDom_reduced2AbsSigSum[20]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_21 = notCDom_reduced2AbsSigSum[21]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_22 = notCDom_reduced2AbsSigSum[22]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_23 = notCDom_reduced2AbsSigSum[23]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_24 = notCDom_reduced2AbsSigSum[24]; // @[primitives.scala:91:52, :107:20] wire _notCDom_normDistReduced2_T_25 = notCDom_reduced2AbsSigSum[25]; // @[primitives.scala:91:52, :107:20] wire [4:0] _notCDom_normDistReduced2_T_26 = {4'hC, ~_notCDom_normDistReduced2_T_1}; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_27 = _notCDom_normDistReduced2_T_2 ? 5'h17 : _notCDom_normDistReduced2_T_26; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_28 = _notCDom_normDistReduced2_T_3 ? 5'h16 : _notCDom_normDistReduced2_T_27; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_29 = _notCDom_normDistReduced2_T_4 ? 5'h15 : _notCDom_normDistReduced2_T_28; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_30 = _notCDom_normDistReduced2_T_5 ? 5'h14 : _notCDom_normDistReduced2_T_29; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_31 = _notCDom_normDistReduced2_T_6 ? 5'h13 : _notCDom_normDistReduced2_T_30; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_32 = _notCDom_normDistReduced2_T_7 ? 5'h12 : _notCDom_normDistReduced2_T_31; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_33 = _notCDom_normDistReduced2_T_8 ? 5'h11 : _notCDom_normDistReduced2_T_32; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_34 = _notCDom_normDistReduced2_T_9 ? 5'h10 : _notCDom_normDistReduced2_T_33; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_35 = _notCDom_normDistReduced2_T_10 ? 5'hF : _notCDom_normDistReduced2_T_34; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_36 = _notCDom_normDistReduced2_T_11 ? 5'hE : _notCDom_normDistReduced2_T_35; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_37 = _notCDom_normDistReduced2_T_12 ? 5'hD : _notCDom_normDistReduced2_T_36; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_38 = _notCDom_normDistReduced2_T_13 ? 5'hC : _notCDom_normDistReduced2_T_37; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_39 = _notCDom_normDistReduced2_T_14 ? 5'hB : _notCDom_normDistReduced2_T_38; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_40 = _notCDom_normDistReduced2_T_15 ? 5'hA : _notCDom_normDistReduced2_T_39; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_41 = _notCDom_normDistReduced2_T_16 ? 5'h9 : _notCDom_normDistReduced2_T_40; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_42 = _notCDom_normDistReduced2_T_17 ? 5'h8 : _notCDom_normDistReduced2_T_41; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_43 = _notCDom_normDistReduced2_T_18 ? 5'h7 : _notCDom_normDistReduced2_T_42; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_44 = _notCDom_normDistReduced2_T_19 ? 5'h6 : _notCDom_normDistReduced2_T_43; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_45 = _notCDom_normDistReduced2_T_20 ? 5'h5 : _notCDom_normDistReduced2_T_44; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_46 = _notCDom_normDistReduced2_T_21 ? 5'h4 : _notCDom_normDistReduced2_T_45; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_47 = _notCDom_normDistReduced2_T_22 ? 5'h3 : _notCDom_normDistReduced2_T_46; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_48 = _notCDom_normDistReduced2_T_23 ? 5'h2 : _notCDom_normDistReduced2_T_47; // @[Mux.scala:50:70] wire [4:0] _notCDom_normDistReduced2_T_49 = _notCDom_normDistReduced2_T_24 ? 5'h1 : _notCDom_normDistReduced2_T_48; // @[Mux.scala:50:70] wire [4:0] notCDom_normDistReduced2 = _notCDom_normDistReduced2_T_25 ? 5'h0 : _notCDom_normDistReduced2_T_49; // @[Mux.scala:50:70] wire [5:0] notCDom_nearNormDist = {notCDom_normDistReduced2, 1'h0}; // @[Mux.scala:50:70] wire [6:0] _notCDom_sExp_T = {1'h0, notCDom_nearNormDist}; // @[MulAddRecFN.scala:240:56, :241:76] wire [10:0] _notCDom_sExp_T_1 = _GEN - {{4{_notCDom_sExp_T[6]}}, _notCDom_sExp_T}; // @[MulAddRecFN.scala:203:43, :241:{46,76}] wire [9:0] _notCDom_sExp_T_2 = _notCDom_sExp_T_1[9:0]; // @[MulAddRecFN.scala:241:46] wire [9:0] notCDom_sExp = _notCDom_sExp_T_2; // @[MulAddRecFN.scala:241:46] assign _io_rawOut_sExp_T = notCDom_sExp; // @[MulAddRecFN.scala:241:46, :293:26] wire [113:0] _notCDom_mainSig_T = {63'h0, notCDom_absSigSum} << notCDom_nearNormDist; // @[MulAddRecFN.scala:234:12, :240:56, :243:27] wire [28:0] notCDom_mainSig = _notCDom_mainSig_T[51:23]; // @[MulAddRecFN.scala:243:{27,50}] wire [12:0] _notCDom_reduced4SigExtra_T = notCDom_reduced2AbsSigSum[12:0]; // @[primitives.scala:107:20] wire [12:0] _notCDom_reduced4SigExtra_T_1 = _notCDom_reduced4SigExtra_T; // @[MulAddRecFN.scala:247:{39,55}] wire _notCDom_reduced4SigExtra_reducedVec_0_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_1_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_2_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_3_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_4_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_5_T_1; // @[primitives.scala:103:54] wire _notCDom_reduced4SigExtra_reducedVec_6_T_1; // @[primitives.scala:106:57] wire notCDom_reduced4SigExtra_reducedVec_0; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_1; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_2; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_3; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_4; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_5; // @[primitives.scala:101:30] wire notCDom_reduced4SigExtra_reducedVec_6; // @[primitives.scala:101:30] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_0_T = _notCDom_reduced4SigExtra_T_1[1:0]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_0_T_1 = |_notCDom_reduced4SigExtra_reducedVec_0_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_0 = _notCDom_reduced4SigExtra_reducedVec_0_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_1_T = _notCDom_reduced4SigExtra_T_1[3:2]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_1_T_1 = |_notCDom_reduced4SigExtra_reducedVec_1_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_1 = _notCDom_reduced4SigExtra_reducedVec_1_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_2_T = _notCDom_reduced4SigExtra_T_1[5:4]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_2_T_1 = |_notCDom_reduced4SigExtra_reducedVec_2_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_2 = _notCDom_reduced4SigExtra_reducedVec_2_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_3_T = _notCDom_reduced4SigExtra_T_1[7:6]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_3_T_1 = |_notCDom_reduced4SigExtra_reducedVec_3_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_3 = _notCDom_reduced4SigExtra_reducedVec_3_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_4_T = _notCDom_reduced4SigExtra_T_1[9:8]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_4_T_1 = |_notCDom_reduced4SigExtra_reducedVec_4_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_4 = _notCDom_reduced4SigExtra_reducedVec_4_T_1; // @[primitives.scala:101:30, :103:54] wire [1:0] _notCDom_reduced4SigExtra_reducedVec_5_T = _notCDom_reduced4SigExtra_T_1[11:10]; // @[primitives.scala:103:33] assign _notCDom_reduced4SigExtra_reducedVec_5_T_1 = |_notCDom_reduced4SigExtra_reducedVec_5_T; // @[primitives.scala:103:{33,54}] assign notCDom_reduced4SigExtra_reducedVec_5 = _notCDom_reduced4SigExtra_reducedVec_5_T_1; // @[primitives.scala:101:30, :103:54] wire _notCDom_reduced4SigExtra_reducedVec_6_T = _notCDom_reduced4SigExtra_T_1[12]; // @[primitives.scala:106:15] assign _notCDom_reduced4SigExtra_reducedVec_6_T_1 = _notCDom_reduced4SigExtra_reducedVec_6_T; // @[primitives.scala:106:{15,57}] assign notCDom_reduced4SigExtra_reducedVec_6 = _notCDom_reduced4SigExtra_reducedVec_6_T_1; // @[primitives.scala:101:30, :106:57] wire [1:0] notCDom_reduced4SigExtra_lo_hi = {notCDom_reduced4SigExtra_reducedVec_2, notCDom_reduced4SigExtra_reducedVec_1}; // @[primitives.scala:101:30, :107:20] wire [2:0] notCDom_reduced4SigExtra_lo = {notCDom_reduced4SigExtra_lo_hi, notCDom_reduced4SigExtra_reducedVec_0}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced4SigExtra_hi_lo = {notCDom_reduced4SigExtra_reducedVec_4, notCDom_reduced4SigExtra_reducedVec_3}; // @[primitives.scala:101:30, :107:20] wire [1:0] notCDom_reduced4SigExtra_hi_hi = {notCDom_reduced4SigExtra_reducedVec_6, notCDom_reduced4SigExtra_reducedVec_5}; // @[primitives.scala:101:30, :107:20] wire [3:0] notCDom_reduced4SigExtra_hi = {notCDom_reduced4SigExtra_hi_hi, notCDom_reduced4SigExtra_hi_lo}; // @[primitives.scala:107:20] wire [6:0] _notCDom_reduced4SigExtra_T_2 = {notCDom_reduced4SigExtra_hi, notCDom_reduced4SigExtra_lo}; // @[primitives.scala:107:20] wire [3:0] _notCDom_reduced4SigExtra_T_3 = notCDom_normDistReduced2[4:1]; // @[Mux.scala:50:70] wire [3:0] _notCDom_reduced4SigExtra_T_4 = ~_notCDom_reduced4SigExtra_T_3; // @[primitives.scala:52:21] wire [16:0] notCDom_reduced4SigExtra_shift = $signed(17'sh10000 >>> _notCDom_reduced4SigExtra_T_4); // @[primitives.scala:52:21, :76:56] wire [5:0] _notCDom_reduced4SigExtra_T_5 = notCDom_reduced4SigExtra_shift[6:1]; // @[primitives.scala:76:56, :78:22] wire [3:0] _notCDom_reduced4SigExtra_T_6 = _notCDom_reduced4SigExtra_T_5[3:0]; // @[primitives.scala:77:20, :78:22] wire [1:0] _notCDom_reduced4SigExtra_T_7 = _notCDom_reduced4SigExtra_T_6[1:0]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_8 = _notCDom_reduced4SigExtra_T_7[0]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_9 = _notCDom_reduced4SigExtra_T_7[1]; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_10 = {_notCDom_reduced4SigExtra_T_8, _notCDom_reduced4SigExtra_T_9}; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_11 = _notCDom_reduced4SigExtra_T_6[3:2]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_12 = _notCDom_reduced4SigExtra_T_11[0]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_13 = _notCDom_reduced4SigExtra_T_11[1]; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_14 = {_notCDom_reduced4SigExtra_T_12, _notCDom_reduced4SigExtra_T_13}; // @[primitives.scala:77:20] wire [3:0] _notCDom_reduced4SigExtra_T_15 = {_notCDom_reduced4SigExtra_T_10, _notCDom_reduced4SigExtra_T_14}; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_16 = _notCDom_reduced4SigExtra_T_5[5:4]; // @[primitives.scala:77:20, :78:22] wire _notCDom_reduced4SigExtra_T_17 = _notCDom_reduced4SigExtra_T_16[0]; // @[primitives.scala:77:20] wire _notCDom_reduced4SigExtra_T_18 = _notCDom_reduced4SigExtra_T_16[1]; // @[primitives.scala:77:20] wire [1:0] _notCDom_reduced4SigExtra_T_19 = {_notCDom_reduced4SigExtra_T_17, _notCDom_reduced4SigExtra_T_18}; // @[primitives.scala:77:20] wire [5:0] _notCDom_reduced4SigExtra_T_20 = {_notCDom_reduced4SigExtra_T_15, _notCDom_reduced4SigExtra_T_19}; // @[primitives.scala:77:20] wire [6:0] _notCDom_reduced4SigExtra_T_21 = {1'h0, _notCDom_reduced4SigExtra_T_2[5:0] & _notCDom_reduced4SigExtra_T_20}; // @[primitives.scala:77:20, :107:20] wire notCDom_reduced4SigExtra = |_notCDom_reduced4SigExtra_T_21; // @[MulAddRecFN.scala:247:78, :249:11] wire [25:0] _notCDom_sig_T = notCDom_mainSig[28:3]; // @[MulAddRecFN.scala:243:50, :251:28] wire [2:0] _notCDom_sig_T_1 = notCDom_mainSig[2:0]; // @[MulAddRecFN.scala:243:50, :252:28] wire _notCDom_sig_T_2 = |_notCDom_sig_T_1; // @[MulAddRecFN.scala:252:{28,35}] wire _notCDom_sig_T_3 = _notCDom_sig_T_2 | notCDom_reduced4SigExtra; // @[MulAddRecFN.scala:249:11, :252:{35,39}] wire [26:0] notCDom_sig = {_notCDom_sig_T, _notCDom_sig_T_3}; // @[MulAddRecFN.scala:251:{12,28}, :252:39] assign _io_rawOut_sig_T = notCDom_sig; // @[MulAddRecFN.scala:251:12, :294:25] wire [1:0] _notCDom_completeCancellation_T = notCDom_sig[26:25]; // @[MulAddRecFN.scala:251:12, :255:21] wire notCDom_completeCancellation = _notCDom_completeCancellation_T == 2'h0; // @[primitives.scala:103:54] wire _io_rawOut_isZero_T_1 = notCDom_completeCancellation; // @[MulAddRecFN.scala:255:50, :283:42] wire _notCDom_sign_T = io_fromPreMul_signProd_0 ^ notCDom_signSigSum; // @[MulAddRecFN.scala:169:7, :232:36, :259:36] wire notCDom_sign = ~notCDom_completeCancellation & _notCDom_sign_T; // @[MulAddRecFN.scala:255:50, :257:12, :259:36] wire _io_rawOut_sign_T_15 = notCDom_sign; // @[MulAddRecFN.scala:257:12, :292:17] assign notNaN_isInfOut = notNaN_isInfProd; // @[MulAddRecFN.scala:264:49, :265:44] assign io_rawOut_isInf_0 = notNaN_isInfOut; // @[MulAddRecFN.scala:169:7, :265:44] wire notNaN_addZeros = _notNaN_addZeros_T; // @[MulAddRecFN.scala:267:{32,58}] wire _io_rawOut_sign_T_4 = notNaN_addZeros; // @[MulAddRecFN.scala:267:58, :287:26] wire _io_invalidExc_T_3 = _io_invalidExc_T_1; // @[MulAddRecFN.scala:271:35, :272:57] assign _io_invalidExc_T_9 = _io_invalidExc_T_3; // @[MulAddRecFN.scala:272:57, :273:57] wire _io_invalidExc_T_4 = ~io_fromPreMul_isNaNAOrB_0; // @[MulAddRecFN.scala:169:7, :274:10] wire _io_invalidExc_T_6 = _io_invalidExc_T_4 & _io_invalidExc_T_5; // @[MulAddRecFN.scala:274:{10,36}, :275:36] assign io_invalidExc_0 = _io_invalidExc_T_9; // @[MulAddRecFN.scala:169:7, :273:57] assign io_rawOut_isNaN_0 = _io_rawOut_isNaN_T; // @[MulAddRecFN.scala:169:7, :278:48] assign _io_rawOut_isZero_T_2 = notNaN_addZeros | _io_rawOut_isZero_T_1; // @[MulAddRecFN.scala:267:58, :282:25, :283:42] assign io_rawOut_isZero_0 = _io_rawOut_isZero_T_2; // @[MulAddRecFN.scala:169:7, :282:25] wire _io_rawOut_sign_T = notNaN_isInfProd & io_fromPreMul_signProd_0; // @[MulAddRecFN.scala:169:7, :264:49, :285:27] wire _io_rawOut_sign_T_2 = _io_rawOut_sign_T; // @[MulAddRecFN.scala:285:{27,54}] wire _io_rawOut_sign_T_5 = _io_rawOut_sign_T_4 & io_fromPreMul_signProd_0; // @[MulAddRecFN.scala:169:7, :287:{26,48}] wire _io_rawOut_sign_T_6 = _io_rawOut_sign_T_5 & opSignC; // @[MulAddRecFN.scala:190:42, :287:48, :288:36] wire _io_rawOut_sign_T_7 = _io_rawOut_sign_T_2 | _io_rawOut_sign_T_6; // @[MulAddRecFN.scala:285:54, :286:43, :288:36] wire _io_rawOut_sign_T_11 = _io_rawOut_sign_T_7; // @[MulAddRecFN.scala:286:43, :288:48] wire _io_rawOut_sign_T_9 = io_fromPreMul_signProd_0 | opSignC; // @[MulAddRecFN.scala:169:7, :190:42, :290:37] wire _io_rawOut_sign_T_12 = ~notNaN_isInfOut; // @[MulAddRecFN.scala:265:44, :291:10] wire _io_rawOut_sign_T_13 = ~notNaN_addZeros; // @[MulAddRecFN.scala:267:58, :291:31] wire _io_rawOut_sign_T_14 = _io_rawOut_sign_T_12 & _io_rawOut_sign_T_13; // @[MulAddRecFN.scala:291:{10,28,31}] wire _io_rawOut_sign_T_16 = _io_rawOut_sign_T_14 & _io_rawOut_sign_T_15; // @[MulAddRecFN.scala:291:{28,49}, :292:17] assign _io_rawOut_sign_T_17 = _io_rawOut_sign_T_11 | _io_rawOut_sign_T_16; // @[MulAddRecFN.scala:288:48, :290:50, :291:49] assign io_rawOut_sign_0 = _io_rawOut_sign_T_17; // @[MulAddRecFN.scala:169:7, :290:50] assign io_rawOut_sExp_0 = _io_rawOut_sExp_T; // @[MulAddRecFN.scala:169:7, :293:26] assign io_rawOut_sig_0 = _io_rawOut_sig_T; // @[MulAddRecFN.scala:169:7, :294:25] assign io_invalidExc = io_invalidExc_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_isNaN = io_rawOut_isNaN_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_isInf = io_rawOut_isInf_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_isZero = io_rawOut_isZero_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_sign = io_rawOut_sign_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_sExp = io_rawOut_sExp_0; // @[MulAddRecFN.scala:169:7] assign io_rawOut_sig = io_rawOut_sig_0; // @[MulAddRecFN.scala:169:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File SynchronizerReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util.{RegEnable, Cat} /** These wrap behavioral * shift and next registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * * These are built up of *ResetSynchronizerPrimitiveShiftReg, * intended to be replaced by the integrator's metastable flops chains or replaced * at this level if they have a multi-bit wide synchronizer primitive. * The different types vary in their reset behavior: * NonSyncResetSynchronizerShiftReg -- Register array which does not have a reset pin * AsyncResetSynchronizerShiftReg -- Asynchronously reset register array, constructed from W instantiations of D deep * 1-bit-wide shift registers. * SyncResetSynchronizerShiftReg -- Synchronously reset register array, constructed similarly to AsyncResetSynchronizerShiftReg * * [Inferred]ResetSynchronizerShiftReg -- TBD reset type by chisel3 reset inference. * * ClockCrossingReg -- Not made up of SynchronizerPrimitiveShiftReg. This is for single-deep flops which cross * Clock Domains. */ object SynchronizerResetType extends Enumeration { val NonSync, Inferred, Sync, Async = Value } // Note: this should not be used directly. // Use the companion object to generate this with the correct reset type mixin. private class SynchronizerPrimitiveShiftReg( sync: Int, init: Boolean, resetType: SynchronizerResetType.Value) extends AbstractPipelineReg(1) { val initInt = if (init) 1 else 0 val initPostfix = resetType match { case SynchronizerResetType.NonSync => "" case _ => s"_i${initInt}" } override def desiredName = s"${resetType.toString}ResetSynchronizerPrimitiveShiftReg_d${sync}${initPostfix}" val chain = List.tabulate(sync) { i => val reg = if (resetType == SynchronizerResetType.NonSync) Reg(Bool()) else RegInit(init.B) reg.suggestName(s"sync_$i") } chain.last := io.d.asBool (chain.init zip chain.tail).foreach { case (sink, source) => sink := source } io.q := chain.head.asUInt } private object SynchronizerPrimitiveShiftReg { def apply (in: Bool, sync: Int, init: Boolean, resetType: SynchronizerResetType.Value): Bool = { val gen: () => SynchronizerPrimitiveShiftReg = resetType match { case SynchronizerResetType.NonSync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) case SynchronizerResetType.Async => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireAsyncReset case SynchronizerResetType.Sync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireSyncReset case SynchronizerResetType.Inferred => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) } AbstractPipelineReg(gen(), in) } } // Note: This module may end up with a non-AsyncReset type reset. // But the Primitives within will always have AsyncReset type. class AsyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"AsyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asAsyncReset){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Async) } } io.q := Cat(output.reverse) } object AsyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } // Note: This module may end up with a non-Bool type reset. // But the Primitives within will always have Bool reset type. @deprecated("SyncResetSynchronizerShiftReg is unecessary with Chisel3 inferred resets. Use ResetSynchronizerShiftReg which will use the inferred reset type.", "rocket-chip 1.2") class SyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asBool){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Sync) } } io.q := Cat(output.reverse) } object SyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class ResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"ResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Inferred) } io.q := Cat(output.reverse) } object ResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new ResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class SynchronizerShiftReg(w: Int = 1, sync: Int = 3) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SynchronizerShiftReg_w${w}_d${sync}" val output = Seq.tabulate(w) { i => SynchronizerPrimitiveShiftReg(io.d(i), sync, false, SynchronizerResetType.NonSync) } io.q := Cat(output.reverse) } object SynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SynchronizerShiftReg(in.getWidth, sync), in, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, None) def apply [T <: Data](in: T): T = apply (in, 3, None) } class ClockCrossingReg(w: Int = 1, doInit: Boolean) extends Module { override def desiredName = s"ClockCrossingReg_w${w}" val io = IO(new Bundle{ val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) val en = Input(Bool()) }) val cdc_reg = if (doInit) RegEnable(io.d, 0.U(w.W), io.en) else RegEnable(io.d, io.en) io.q := cdc_reg } object ClockCrossingReg { def apply [T <: Data](in: T, en: Bool, doInit: Boolean, name: Option[String] = None): T = { val cdc_reg = Module(new ClockCrossingReg(in.getWidth, doInit)) name.foreach{ cdc_reg.suggestName(_) } cdc_reg.io.d := in.asUInt cdc_reg.io.en := en cdc_reg.io.q.asTypeOf(in) } }
module AsyncResetSynchronizerShiftReg_w1_d3_i0_151( // @[SynchronizerReg.scala:80:7] input clock, // @[SynchronizerReg.scala:80:7] input reset, // @[SynchronizerReg.scala:80:7] output io_q // @[ShiftReg.scala:36:14] ); wire _output_T = reset; // @[SynchronizerReg.scala:86:21] wire io_d = 1'h1; // @[SynchronizerReg.scala:80:7, :87:41] wire _output_T_1 = 1'h1; // @[SynchronizerReg.scala:80:7, :87:41] wire output_0; // @[ShiftReg.scala:48:24] wire io_q_0; // @[SynchronizerReg.scala:80:7] assign io_q_0 = output_0; // @[SynchronizerReg.scala:80:7] AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_267 output_chain ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (_output_T), // @[SynchronizerReg.scala:86:21] .io_q (output_0) ); // @[ShiftReg.scala:45:23] assign io_q = io_q_0; // @[SynchronizerReg.scala:80:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceLine import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import freechips.rocketchip.diplomacy.EnableMonitors import freechips.rocketchip.formal.{MonitorDirection, IfThen, Property, PropertyClass, TestplanTestType, TLMonitorStrictMode} import freechips.rocketchip.util.PlusArg case class TLMonitorArgs(edge: TLEdge) abstract class TLMonitorBase(args: TLMonitorArgs) extends Module { val io = IO(new Bundle { val in = Input(new TLBundle(args.edge.bundle)) }) def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit legalize(io.in, args.edge, reset) } object TLMonitor { def apply(enable: Boolean, node: TLNode)(implicit p: Parameters): TLNode = { if (enable) { EnableMonitors { implicit p => node := TLEphemeralNode()(ValName("monitor")) } } else { node } } } class TLMonitor(args: TLMonitorArgs, monitorDir: MonitorDirection = MonitorDirection.Monitor) extends TLMonitorBase(args) { require (args.edge.params(TLMonitorStrictMode) || (! args.edge.params(TestplanTestType).formal)) val cover_prop_class = PropertyClass.Default //Like assert but can flip to being an assumption for formal verification def monAssert(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir, cond, message, PropertyClass.Default) } def assume(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir.flip, cond, message, PropertyClass.Default) } def extra = { args.edge.sourceInfo match { case SourceLine(filename, line, col) => s" (connected at $filename:$line:$col)" case _ => "" } } def visible(address: UInt, source: UInt, edge: TLEdge) = edge.client.clients.map { c => !c.sourceId.contains(source) || c.visibility.map(_.contains(address)).reduce(_ || _) }.reduce(_ && _) def legalizeFormatA(bundle: TLBundleA, edge: TLEdge): Unit = { //switch this flag to turn on diplomacy in error messages def diplomacyInfo = if (true) "" else "\nThe diplomacy information for the edge is as follows:\n" + edge.formatEdge + "\n" monAssert (TLMessages.isA(bundle.opcode), "'A' channel has invalid opcode" + extra) // Reuse these subexpressions to save some firrtl lines val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) monAssert (visible(edge.address(bundle), bundle.source, edge), "'A' channel carries an address illegal for the specified bank visibility") //The monitor doesn’t check for acquire T vs acquire B, it assumes that acquire B implies acquire T and only checks for acquire B //TODO: check for acquireT? when (bundle.opcode === TLMessages.AcquireBlock) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquireBlock carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquireBlock smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquireBlock address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquireBlock carries invalid grow param" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquireBlock contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquireBlock is corrupt" + extra) } when (bundle.opcode === TLMessages.AcquirePerm) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquirePerm carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquirePerm smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquirePerm address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquirePerm carries invalid grow param" + extra) monAssert (bundle.param =/= TLPermissions.NtoB, "'A' channel AcquirePerm requests NtoB" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquirePerm contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquirePerm is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.emitsGet(bundle.source, bundle.size), "'A' channel carries Get type which master claims it can't emit" + diplomacyInfo + extra) monAssert (edge.slave.supportsGetSafe(edge.address(bundle), bundle.size, None), "'A' channel carries Get type which slave claims it can't support" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel Get carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.emitsPutFull(bundle.source, bundle.size) && edge.slave.supportsPutFullSafe(edge.address(bundle), bundle.size), "'A' channel carries PutFull type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel PutFull carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.emitsPutPartial(bundle.source, bundle.size) && edge.slave.supportsPutPartialSafe(edge.address(bundle), bundle.size), "'A' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel PutPartial carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'A' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.emitsArithmetic(bundle.source, bundle.size) && edge.slave.supportsArithmeticSafe(edge.address(bundle), bundle.size), "'A' channel carries Arithmetic type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Arithmetic carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'A' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.emitsLogical(bundle.source, bundle.size) && edge.slave.supportsLogicalSafe(edge.address(bundle), bundle.size), "'A' channel carries Logical type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Logical carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'A' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.emitsHint(bundle.source, bundle.size) && edge.slave.supportsHintSafe(edge.address(bundle), bundle.size), "'A' channel carries Hint type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Hint carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Hint address not aligned to size" + extra) monAssert (TLHints.isHints(bundle.param), "'A' channel Hint carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Hint is corrupt" + extra) } } def legalizeFormatB(bundle: TLBundleB, edge: TLEdge): Unit = { monAssert (TLMessages.isB(bundle.opcode), "'B' channel has invalid opcode" + extra) monAssert (visible(edge.address(bundle), bundle.source, edge), "'B' channel carries an address illegal for the specified bank visibility") // Reuse these subexpressions to save some firrtl lines val address_ok = edge.manager.containsSafe(edge.address(bundle)) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) val legal_source = Mux1H(edge.client.find(bundle.source), edge.client.clients.map(c => c.sourceId.start.U)) === bundle.source when (bundle.opcode === TLMessages.Probe) { assume (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'B' channel carries Probe type which is unexpected using diplomatic parameters" + extra) assume (address_ok, "'B' channel Probe carries unmanaged address" + extra) assume (legal_source, "'B' channel Probe carries source that is not first source" + extra) assume (is_aligned, "'B' channel Probe address not aligned to size" + extra) assume (TLPermissions.isCap(bundle.param), "'B' channel Probe carries invalid cap param" + extra) assume (bundle.mask === mask, "'B' channel Probe contains invalid mask" + extra) assume (!bundle.corrupt, "'B' channel Probe is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.supportsGet(edge.source(bundle), bundle.size) && edge.slave.emitsGetSafe(edge.address(bundle), bundle.size), "'B' channel carries Get type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel Get carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Get carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.supportsPutFull(edge.source(bundle), bundle.size) && edge.slave.emitsPutFullSafe(edge.address(bundle), bundle.size), "'B' channel carries PutFull type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutFull carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutFull carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.supportsPutPartial(edge.source(bundle), bundle.size) && edge.slave.emitsPutPartialSafe(edge.address(bundle), bundle.size), "'B' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutPartial carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutPartial carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'B' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.supportsArithmetic(edge.source(bundle), bundle.size) && edge.slave.emitsArithmeticSafe(edge.address(bundle), bundle.size), "'B' channel carries Arithmetic type unsupported by master" + extra) monAssert (address_ok, "'B' channel Arithmetic carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Arithmetic carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'B' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.supportsLogical(edge.source(bundle), bundle.size) && edge.slave.emitsLogicalSafe(edge.address(bundle), bundle.size), "'B' channel carries Logical type unsupported by client" + extra) monAssert (address_ok, "'B' channel Logical carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Logical carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'B' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.supportsHint(edge.source(bundle), bundle.size) && edge.slave.emitsHintSafe(edge.address(bundle), bundle.size), "'B' channel carries Hint type unsupported by client" + extra) monAssert (address_ok, "'B' channel Hint carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Hint carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Hint address not aligned to size" + extra) monAssert (bundle.mask === mask, "'B' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Hint is corrupt" + extra) } } def legalizeFormatC(bundle: TLBundleC, edge: TLEdge): Unit = { monAssert (TLMessages.isC(bundle.opcode), "'C' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val address_ok = edge.manager.containsSafe(edge.address(bundle)) monAssert (visible(edge.address(bundle), bundle.source, edge), "'C' channel carries an address illegal for the specified bank visibility") when (bundle.opcode === TLMessages.ProbeAck) { monAssert (address_ok, "'C' channel ProbeAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAck carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAck smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAck address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAck carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel ProbeAck is corrupt" + extra) } when (bundle.opcode === TLMessages.ProbeAckData) { monAssert (address_ok, "'C' channel ProbeAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAckData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAckData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAckData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAckData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.Release) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries Release type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel Release carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel Release smaller than a beat" + extra) monAssert (is_aligned, "'C' channel Release address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel Release carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel Release is corrupt" + extra) } when (bundle.opcode === TLMessages.ReleaseData) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries ReleaseData type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel ReleaseData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ReleaseData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ReleaseData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ReleaseData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.AccessAck) { monAssert (address_ok, "'C' channel AccessAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel AccessAck is corrupt" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { monAssert (address_ok, "'C' channel AccessAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAckData carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAckData address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAckData carries invalid param" + extra) } when (bundle.opcode === TLMessages.HintAck) { monAssert (address_ok, "'C' channel HintAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel HintAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel HintAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel HintAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel HintAck is corrupt" + extra) } } def legalizeFormatD(bundle: TLBundleD, edge: TLEdge): Unit = { assume (TLMessages.isD(bundle.opcode), "'D' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val sink_ok = bundle.sink < edge.manager.endSinkId.U val deny_put_ok = edge.manager.mayDenyPut.B val deny_get_ok = edge.manager.mayDenyGet.B when (bundle.opcode === TLMessages.ReleaseAck) { assume (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel ReleaseAck smaller than a beat" + extra) assume (bundle.param === 0.U, "'D' channel ReleaseeAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel ReleaseAck is corrupt" + extra) assume (!bundle.denied, "'D' channel ReleaseAck is denied" + extra) } when (bundle.opcode === TLMessages.Grant) { assume (source_ok, "'D' channel Grant carries invalid source ID" + extra) assume (sink_ok, "'D' channel Grant carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel Grant smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel Grant carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel Grant carries toN param" + extra) assume (!bundle.corrupt, "'D' channel Grant is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel Grant is denied" + extra) } when (bundle.opcode === TLMessages.GrantData) { assume (source_ok, "'D' channel GrantData carries invalid source ID" + extra) assume (sink_ok, "'D' channel GrantData carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel GrantData smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel GrantData carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel GrantData carries toN param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel GrantData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel GrantData is denied" + extra) } when (bundle.opcode === TLMessages.AccessAck) { assume (source_ok, "'D' channel AccessAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel AccessAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel AccessAck is denied" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { assume (source_ok, "'D' channel AccessAckData carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAckData carries invalid param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel AccessAckData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel AccessAckData is denied" + extra) } when (bundle.opcode === TLMessages.HintAck) { assume (source_ok, "'D' channel HintAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel HintAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel HintAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel HintAck is denied" + extra) } } def legalizeFormatE(bundle: TLBundleE, edge: TLEdge): Unit = { val sink_ok = bundle.sink < edge.manager.endSinkId.U monAssert (sink_ok, "'E' channels carries invalid sink ID" + extra) } def legalizeFormat(bundle: TLBundle, edge: TLEdge) = { when (bundle.a.valid) { legalizeFormatA(bundle.a.bits, edge) } when (bundle.d.valid) { legalizeFormatD(bundle.d.bits, edge) } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { when (bundle.b.valid) { legalizeFormatB(bundle.b.bits, edge) } when (bundle.c.valid) { legalizeFormatC(bundle.c.bits, edge) } when (bundle.e.valid) { legalizeFormatE(bundle.e.bits, edge) } } else { monAssert (!bundle.b.valid, "'B' channel valid and not TL-C" + extra) monAssert (!bundle.c.valid, "'C' channel valid and not TL-C" + extra) monAssert (!bundle.e.valid, "'E' channel valid and not TL-C" + extra) } } def legalizeMultibeatA(a: DecoupledIO[TLBundleA], edge: TLEdge): Unit = { val a_first = edge.first(a.bits, a.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (a.valid && !a_first) { monAssert (a.bits.opcode === opcode, "'A' channel opcode changed within multibeat operation" + extra) monAssert (a.bits.param === param, "'A' channel param changed within multibeat operation" + extra) monAssert (a.bits.size === size, "'A' channel size changed within multibeat operation" + extra) monAssert (a.bits.source === source, "'A' channel source changed within multibeat operation" + extra) monAssert (a.bits.address=== address,"'A' channel address changed with multibeat operation" + extra) } when (a.fire && a_first) { opcode := a.bits.opcode param := a.bits.param size := a.bits.size source := a.bits.source address := a.bits.address } } def legalizeMultibeatB(b: DecoupledIO[TLBundleB], edge: TLEdge): Unit = { val b_first = edge.first(b.bits, b.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (b.valid && !b_first) { monAssert (b.bits.opcode === opcode, "'B' channel opcode changed within multibeat operation" + extra) monAssert (b.bits.param === param, "'B' channel param changed within multibeat operation" + extra) monAssert (b.bits.size === size, "'B' channel size changed within multibeat operation" + extra) monAssert (b.bits.source === source, "'B' channel source changed within multibeat operation" + extra) monAssert (b.bits.address=== address,"'B' channel addresss changed with multibeat operation" + extra) } when (b.fire && b_first) { opcode := b.bits.opcode param := b.bits.param size := b.bits.size source := b.bits.source address := b.bits.address } } def legalizeADSourceFormal(bundle: TLBundle, edge: TLEdge): Unit = { // Symbolic variable val sym_source = Wire(UInt(edge.client.endSourceId.W)) // TODO: Connect sym_source to a fixed value for simulation and to a // free wire in formal sym_source := 0.U // Type casting Int to UInt val maxSourceId = Wire(UInt(edge.client.endSourceId.W)) maxSourceId := edge.client.endSourceId.U // Delayed verison of sym_source val sym_source_d = Reg(UInt(edge.client.endSourceId.W)) sym_source_d := sym_source // These will be constraints for FV setup Property( MonitorDirection.Monitor, (sym_source === sym_source_d), "sym_source should remain stable", PropertyClass.Default) Property( MonitorDirection.Monitor, (sym_source <= maxSourceId), "sym_source should take legal value", PropertyClass.Default) val my_resp_pend = RegInit(false.B) val my_opcode = Reg(UInt()) val my_size = Reg(UInt()) val a_first = bundle.a.valid && edge.first(bundle.a.bits, bundle.a.fire) val d_first = bundle.d.valid && edge.first(bundle.d.bits, bundle.d.fire) val my_a_first_beat = a_first && (bundle.a.bits.source === sym_source) val my_d_first_beat = d_first && (bundle.d.bits.source === sym_source) val my_clr_resp_pend = (bundle.d.fire && my_d_first_beat) val my_set_resp_pend = (bundle.a.fire && my_a_first_beat && !my_clr_resp_pend) when (my_set_resp_pend) { my_resp_pend := true.B } .elsewhen (my_clr_resp_pend) { my_resp_pend := false.B } when (my_a_first_beat) { my_opcode := bundle.a.bits.opcode my_size := bundle.a.bits.size } val my_resp_size = Mux(my_a_first_beat, bundle.a.bits.size, my_size) val my_resp_opcode = Mux(my_a_first_beat, bundle.a.bits.opcode, my_opcode) val my_resp_opcode_legal = Wire(Bool()) when ((my_resp_opcode === TLMessages.Get) || (my_resp_opcode === TLMessages.ArithmeticData) || (my_resp_opcode === TLMessages.LogicalData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAckData) } .elsewhen ((my_resp_opcode === TLMessages.PutFullData) || (my_resp_opcode === TLMessages.PutPartialData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAck) } .otherwise { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.HintAck) } monAssert (IfThen(my_resp_pend, !my_a_first_beat), "Request message should not be sent with a source ID, for which a response message" + "is already pending (not received until current cycle) for a prior request message" + "with the same source ID" + extra) assume (IfThen(my_clr_resp_pend, (my_set_resp_pend || my_resp_pend)), "Response message should be accepted with a source ID only if a request message with the" + "same source ID has been accepted or is being accepted in the current cycle" + extra) assume (IfThen(my_d_first_beat, (my_a_first_beat || my_resp_pend)), "Response message should be sent with a source ID only if a request message with the" + "same source ID has been accepted or is being sent in the current cycle" + extra) assume (IfThen(my_d_first_beat, (bundle.d.bits.size === my_resp_size)), "If d_valid is 1, then d_size should be same as a_size of the corresponding request" + "message" + extra) assume (IfThen(my_d_first_beat, my_resp_opcode_legal), "If d_valid is 1, then d_opcode should correspond with a_opcode of the corresponding" + "request message" + extra) } def legalizeMultibeatC(c: DecoupledIO[TLBundleC], edge: TLEdge): Unit = { val c_first = edge.first(c.bits, c.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (c.valid && !c_first) { monAssert (c.bits.opcode === opcode, "'C' channel opcode changed within multibeat operation" + extra) monAssert (c.bits.param === param, "'C' channel param changed within multibeat operation" + extra) monAssert (c.bits.size === size, "'C' channel size changed within multibeat operation" + extra) monAssert (c.bits.source === source, "'C' channel source changed within multibeat operation" + extra) monAssert (c.bits.address=== address,"'C' channel address changed with multibeat operation" + extra) } when (c.fire && c_first) { opcode := c.bits.opcode param := c.bits.param size := c.bits.size source := c.bits.source address := c.bits.address } } def legalizeMultibeatD(d: DecoupledIO[TLBundleD], edge: TLEdge): Unit = { val d_first = edge.first(d.bits, d.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val sink = Reg(UInt()) val denied = Reg(Bool()) when (d.valid && !d_first) { assume (d.bits.opcode === opcode, "'D' channel opcode changed within multibeat operation" + extra) assume (d.bits.param === param, "'D' channel param changed within multibeat operation" + extra) assume (d.bits.size === size, "'D' channel size changed within multibeat operation" + extra) assume (d.bits.source === source, "'D' channel source changed within multibeat operation" + extra) assume (d.bits.sink === sink, "'D' channel sink changed with multibeat operation" + extra) assume (d.bits.denied === denied, "'D' channel denied changed with multibeat operation" + extra) } when (d.fire && d_first) { opcode := d.bits.opcode param := d.bits.param size := d.bits.size source := d.bits.source sink := d.bits.sink denied := d.bits.denied } } def legalizeMultibeat(bundle: TLBundle, edge: TLEdge): Unit = { legalizeMultibeatA(bundle.a, edge) legalizeMultibeatD(bundle.d, edge) if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { legalizeMultibeatB(bundle.b, edge) legalizeMultibeatC(bundle.c, edge) } } //This is left in for almond which doesn't adhere to the tilelink protocol @deprecated("Use legalizeADSource instead if possible","") def legalizeADSourceOld(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.client.endSourceId.W)) val a_first = edge.first(bundle.a.bits, bundle.a.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val a_set = WireInit(0.U(edge.client.endSourceId.W)) when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) assert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) assume((a_set | inflight)(bundle.d.bits.source), "'D' channel acknowledged for nothing inflight" + extra) } if (edge.manager.minLatency > 0) { assume(a_set =/= d_clr || !a_set.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") assert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeADSource(bundle: TLBundle, edge: TLEdge): Unit = { val a_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val a_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_a_opcode_bus_size = log2Ceil(a_opcode_bus_size) val log_a_size_bus_size = log2Ceil(a_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) // size up to avoid width error inflight.suggestName("inflight") val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) inflight_opcodes.suggestName("inflight_opcodes") val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) inflight_sizes.suggestName("inflight_sizes") val a_first = edge.first(bundle.a.bits, bundle.a.fire) a_first.suggestName("a_first") val d_first = edge.first(bundle.d.bits, bundle.d.fire) d_first.suggestName("d_first") val a_set = WireInit(0.U(edge.client.endSourceId.W)) val a_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) a_set.suggestName("a_set") a_set_wo_ready.suggestName("a_set_wo_ready") val a_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) a_opcodes_set.suggestName("a_opcodes_set") val a_sizes_set = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) a_sizes_set.suggestName("a_sizes_set") val a_opcode_lookup = WireInit(0.U((a_opcode_bus_size - 1).W)) a_opcode_lookup.suggestName("a_opcode_lookup") a_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_a_opcode_bus_size.U) & size_to_numfullbits(1.U << log_a_opcode_bus_size.U)) >> 1.U val a_size_lookup = WireInit(0.U((1 << log_a_size_bus_size).W)) a_size_lookup.suggestName("a_size_lookup") a_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_a_size_bus_size.U) & size_to_numfullbits(1.U << log_a_size_bus_size.U)) >> 1.U val responseMap = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.Grant, TLMessages.Grant)) val responseMapSecondOption = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.GrantData, TLMessages.Grant)) val a_opcodes_set_interm = WireInit(0.U(a_opcode_bus_size.W)) a_opcodes_set_interm.suggestName("a_opcodes_set_interm") val a_sizes_set_interm = WireInit(0.U(a_size_bus_size.W)) a_sizes_set_interm.suggestName("a_sizes_set_interm") when (bundle.a.valid && a_first && edge.isRequest(bundle.a.bits)) { a_set_wo_ready := UIntToOH(bundle.a.bits.source) } when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) a_opcodes_set_interm := (bundle.a.bits.opcode << 1.U) | 1.U a_sizes_set_interm := (bundle.a.bits.size << 1.U) | 1.U a_opcodes_set := (a_opcodes_set_interm) << (bundle.a.bits.source << log_a_opcode_bus_size.U) a_sizes_set := (a_sizes_set_interm) << (bundle.a.bits.source << log_a_size_bus_size.U) monAssert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) d_opcodes_clr.suggestName("d_opcodes_clr") val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_a_opcode_bus_size.U) << (bundle.d.bits.source << log_a_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_a_size_bus_size.U) << (bundle.d.bits.source << log_a_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { val same_cycle_resp = bundle.a.valid && a_first && edge.isRequest(bundle.a.bits) && (bundle.a.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.opcode === responseMap(bundle.a.bits.opcode)) || (bundle.d.bits.opcode === responseMapSecondOption(bundle.a.bits.opcode)), "'D' channel contains improper opcode response" + extra) assume((bundle.a.bits.size === bundle.d.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.opcode === responseMap(a_opcode_lookup)) || (bundle.d.bits.opcode === responseMapSecondOption(a_opcode_lookup)), "'D' channel contains improper opcode response" + extra) assume((bundle.d.bits.size === a_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && a_first && bundle.a.valid && (bundle.a.bits.source === bundle.d.bits.source) && !d_release_ack) { assume((!bundle.d.ready) || bundle.a.ready, "ready check") } if (edge.manager.minLatency > 0) { assume(a_set_wo_ready =/= d_clr_wo_ready || !a_set_wo_ready.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr inflight_opcodes := (inflight_opcodes | a_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | a_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeCDSource(bundle: TLBundle, edge: TLEdge): Unit = { val c_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val c_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_c_opcode_bus_size = log2Ceil(c_opcode_bus_size) val log_c_size_bus_size = log2Ceil(c_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) inflight.suggestName("inflight") inflight_opcodes.suggestName("inflight_opcodes") inflight_sizes.suggestName("inflight_sizes") val c_first = edge.first(bundle.c.bits, bundle.c.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) c_first.suggestName("c_first") d_first.suggestName("d_first") val c_set = WireInit(0.U(edge.client.endSourceId.W)) val c_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val c_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val c_sizes_set = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) c_set.suggestName("c_set") c_set_wo_ready.suggestName("c_set_wo_ready") c_opcodes_set.suggestName("c_opcodes_set") c_sizes_set.suggestName("c_sizes_set") val c_opcode_lookup = WireInit(0.U((1 << log_c_opcode_bus_size).W)) val c_size_lookup = WireInit(0.U((1 << log_c_size_bus_size).W)) c_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_c_opcode_bus_size.U) & size_to_numfullbits(1.U << log_c_opcode_bus_size.U)) >> 1.U c_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_c_size_bus_size.U) & size_to_numfullbits(1.U << log_c_size_bus_size.U)) >> 1.U c_opcode_lookup.suggestName("c_opcode_lookup") c_size_lookup.suggestName("c_size_lookup") val c_opcodes_set_interm = WireInit(0.U(c_opcode_bus_size.W)) val c_sizes_set_interm = WireInit(0.U(c_size_bus_size.W)) c_opcodes_set_interm.suggestName("c_opcodes_set_interm") c_sizes_set_interm.suggestName("c_sizes_set_interm") when (bundle.c.valid && c_first && edge.isRequest(bundle.c.bits)) { c_set_wo_ready := UIntToOH(bundle.c.bits.source) } when (bundle.c.fire && c_first && edge.isRequest(bundle.c.bits)) { c_set := UIntToOH(bundle.c.bits.source) c_opcodes_set_interm := (bundle.c.bits.opcode << 1.U) | 1.U c_sizes_set_interm := (bundle.c.bits.size << 1.U) | 1.U c_opcodes_set := (c_opcodes_set_interm) << (bundle.c.bits.source << log_c_opcode_bus_size.U) c_sizes_set := (c_sizes_set_interm) << (bundle.c.bits.source << log_c_size_bus_size.U) monAssert(!inflight(bundle.c.bits.source), "'C' channel re-used a source ID" + extra) } val c_probe_ack = bundle.c.bits.opcode === TLMessages.ProbeAck || bundle.c.bits.opcode === TLMessages.ProbeAckData val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") d_opcodes_clr.suggestName("d_opcodes_clr") d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_c_opcode_bus_size.U) << (bundle.d.bits.source << log_c_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_c_size_bus_size.U) << (bundle.d.bits.source << log_c_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { val same_cycle_resp = bundle.c.valid && c_first && edge.isRequest(bundle.c.bits) && (bundle.c.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.size === bundle.c.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.size === c_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && c_first && bundle.c.valid && (bundle.c.bits.source === bundle.d.bits.source) && d_release_ack && !c_probe_ack) { assume((!bundle.d.ready) || bundle.c.ready, "ready check") } if (edge.manager.minLatency > 0) { when (c_set_wo_ready.orR) { assume(c_set_wo_ready =/= d_clr_wo_ready, s"'C' and 'D' concurrent, despite minlatency > 0" + extra) } } inflight := (inflight | c_set) & ~d_clr inflight_opcodes := (inflight_opcodes | c_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | c_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.c.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeDESink(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.manager.endSinkId.W)) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val e_first = true.B val d_set = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.d.fire && d_first && edge.isRequest(bundle.d.bits)) { d_set := UIntToOH(bundle.d.bits.sink) assume(!inflight(bundle.d.bits.sink), "'D' channel re-used a sink ID" + extra) } val e_clr = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.e.fire && e_first && edge.isResponse(bundle.e.bits)) { e_clr := UIntToOH(bundle.e.bits.sink) monAssert((d_set | inflight)(bundle.e.bits.sink), "'E' channel acknowledged for nothing inflight" + extra) } // edge.client.minLatency applies to BC, not DE inflight := (inflight | d_set) & ~e_clr } def legalizeUnique(bundle: TLBundle, edge: TLEdge): Unit = { val sourceBits = log2Ceil(edge.client.endSourceId) val tooBig = 14 // >16kB worth of flight information gets to be too much if (sourceBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with source bits (${sourceBits}) > ${tooBig}; A=>D transaction flight will not be checked") } else { if (args.edge.params(TestplanTestType).simulation) { if (args.edge.params(TLMonitorStrictMode)) { legalizeADSource(bundle, edge) legalizeCDSource(bundle, edge) } else { legalizeADSourceOld(bundle, edge) } } if (args.edge.params(TestplanTestType).formal) { legalizeADSourceFormal(bundle, edge) } } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { // legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize... val sinkBits = log2Ceil(edge.manager.endSinkId) if (sinkBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with sink bits (${sinkBits}) > ${tooBig}; D=>E transaction flight will not be checked") } else { legalizeDESink(bundle, edge) } } } def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit = { legalizeFormat (bundle, edge) legalizeMultibeat (bundle, edge) legalizeUnique (bundle, edge) } } File Misc.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import scala.math._ class ParameterizedBundle(implicit p: Parameters) extends Bundle trait Clocked extends Bundle { val clock = Clock() val reset = Bool() } object DecoupledHelper { def apply(rvs: Bool*) = new DecoupledHelper(rvs) } class DecoupledHelper(val rvs: Seq[Bool]) { def fire(exclude: Bool, includes: Bool*) = { require(rvs.contains(exclude), "Excluded Bool not present in DecoupledHelper! Note that DecoupledHelper uses referential equality for exclusion! If you don't want to exclude anything, use fire()!") (rvs.filter(_ ne exclude) ++ includes).reduce(_ && _) } def fire() = { rvs.reduce(_ && _) } } object MuxT { def apply[T <: Data, U <: Data](cond: Bool, con: (T, U), alt: (T, U)): (T, U) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2)) def apply[T <: Data, U <: Data, W <: Data](cond: Bool, con: (T, U, W), alt: (T, U, W)): (T, U, W) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3)) def apply[T <: Data, U <: Data, W <: Data, X <: Data](cond: Bool, con: (T, U, W, X), alt: (T, U, W, X)): (T, U, W, X) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3), Mux(cond, con._4, alt._4)) } /** Creates a cascade of n MuxTs to search for a key value. */ object MuxTLookup { def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } } object ValidMux { def apply[T <: Data](v1: ValidIO[T], v2: ValidIO[T]*): ValidIO[T] = { apply(v1 +: v2.toSeq) } def apply[T <: Data](valids: Seq[ValidIO[T]]): ValidIO[T] = { val out = Wire(Valid(valids.head.bits.cloneType)) out.valid := valids.map(_.valid).reduce(_ || _) out.bits := MuxCase(valids.head.bits, valids.map(v => (v.valid -> v.bits))) out } } object Str { def apply(s: String): UInt = { var i = BigInt(0) require(s.forall(validChar _)) for (c <- s) i = (i << 8) | c i.U((s.length*8).W) } def apply(x: Char): UInt = { require(validChar(x)) x.U(8.W) } def apply(x: UInt): UInt = apply(x, 10) def apply(x: UInt, radix: Int): UInt = { val rad = radix.U val w = x.getWidth require(w > 0) var q = x var s = digit(q % rad) for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad s = Cat(Mux((radix == 10).B && q === 0.U, Str(' '), digit(q % rad)), s) } s } def apply(x: SInt): UInt = apply(x, 10) def apply(x: SInt, radix: Int): UInt = { val neg = x < 0.S val abs = x.abs.asUInt if (radix != 10) { Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix)) } else { val rad = radix.U val w = abs.getWidth require(w > 0) var q = abs var s = digit(q % rad) var needSign = neg for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad val placeSpace = q === 0.U val space = Mux(needSign, Str('-'), Str(' ')) needSign = needSign && !placeSpace s = Cat(Mux(placeSpace, space, digit(q % rad)), s) } Cat(Mux(needSign, Str('-'), Str(' ')), s) } } private def digit(d: UInt): UInt = Mux(d < 10.U, Str('0')+d, Str(('a'-10).toChar)+d)(7,0) private def validChar(x: Char) = x == (x & 0xFF) } object Split { def apply(x: UInt, n0: Int) = { val w = x.getWidth (x.extract(w-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n2: Int, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n2), x.extract(n2-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } } object Random { def apply(mod: Int, random: UInt): UInt = { if (isPow2(mod)) random.extract(log2Ceil(mod)-1,0) else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod)) } def apply(mod: Int): UInt = apply(mod, randomizer) def oneHot(mod: Int, random: UInt): UInt = { if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0)) else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).asUInt } def oneHot(mod: Int): UInt = oneHot(mod, randomizer) private def randomizer = LFSR(16) private def partition(value: UInt, slices: Int) = Seq.tabulate(slices)(i => value < (((i + 1) << value.getWidth) / slices).U) } object Majority { def apply(in: Set[Bool]): Bool = { val n = (in.size >> 1) + 1 val clauses = in.subsets(n).map(_.reduce(_ && _)) clauses.reduce(_ || _) } def apply(in: Seq[Bool]): Bool = apply(in.toSet) def apply(in: UInt): Bool = apply(in.asBools.toSet) } object PopCountAtLeast { private def two(x: UInt): (Bool, Bool) = x.getWidth match { case 1 => (x.asBool, false.B) case n => val half = x.getWidth / 2 val (leftOne, leftTwo) = two(x(half - 1, 0)) val (rightOne, rightTwo) = two(x(x.getWidth - 1, half)) (leftOne || rightOne, leftTwo || rightTwo || (leftOne && rightOne)) } def apply(x: UInt, n: Int): Bool = n match { case 0 => true.B case 1 => x.orR case 2 => two(x)._2 case 3 => PopCount(x) >= n.U } } // This gets used everywhere, so make the smallest circuit possible ... // Given an address and size, create a mask of beatBytes size // eg: (0x3, 0, 4) => 0001, (0x3, 1, 4) => 0011, (0x3, 2, 4) => 1111 // groupBy applies an interleaved OR reduction; groupBy=2 take 0010 => 01 object MaskGen { def apply(addr_lo: UInt, lgSize: UInt, beatBytes: Int, groupBy: Int = 1): UInt = { require (groupBy >= 1 && beatBytes >= groupBy) require (isPow2(beatBytes) && isPow2(groupBy)) val lgBytes = log2Ceil(beatBytes) val sizeOH = UIntToOH(lgSize | 0.U(log2Up(beatBytes).W), log2Up(beatBytes)) | (groupBy*2 - 1).U def helper(i: Int): Seq[(Bool, Bool)] = { if (i == 0) { Seq((lgSize >= lgBytes.asUInt, true.B)) } else { val sub = helper(i-1) val size = sizeOH(lgBytes - i) val bit = addr_lo(lgBytes - i) val nbit = !bit Seq.tabulate (1 << i) { j => val (sub_acc, sub_eq) = sub(j/2) val eq = sub_eq && (if (j % 2 == 1) bit else nbit) val acc = sub_acc || (size && eq) (acc, eq) } } } if (groupBy == beatBytes) 1.U else Cat(helper(lgBytes-log2Ceil(groupBy)).map(_._1).reverse) } } File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Bundles.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import freechips.rocketchip.util._ import scala.collection.immutable.ListMap import chisel3.util.Decoupled import chisel3.util.DecoupledIO import chisel3.reflect.DataMirror abstract class TLBundleBase(val params: TLBundleParameters) extends Bundle // common combos in lazy policy: // Put + Acquire // Release + AccessAck object TLMessages { // A B C D E def PutFullData = 0.U // . . => AccessAck def PutPartialData = 1.U // . . => AccessAck def ArithmeticData = 2.U // . . => AccessAckData def LogicalData = 3.U // . . => AccessAckData def Get = 4.U // . . => AccessAckData def Hint = 5.U // . . => HintAck def AcquireBlock = 6.U // . => Grant[Data] def AcquirePerm = 7.U // . => Grant[Data] def Probe = 6.U // . => ProbeAck[Data] def AccessAck = 0.U // . . def AccessAckData = 1.U // . . def HintAck = 2.U // . . def ProbeAck = 4.U // . def ProbeAckData = 5.U // . def Release = 6.U // . => ReleaseAck def ReleaseData = 7.U // . => ReleaseAck def Grant = 4.U // . => GrantAck def GrantData = 5.U // . => GrantAck def ReleaseAck = 6.U // . def GrantAck = 0.U // . def isA(x: UInt) = x <= AcquirePerm def isB(x: UInt) = x <= Probe def isC(x: UInt) = x <= ReleaseData def isD(x: UInt) = x <= ReleaseAck def adResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, Grant, Grant) def bcResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, ProbeAck, ProbeAck) def a = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("AcquireBlock",TLPermissions.PermMsgGrow), ("AcquirePerm",TLPermissions.PermMsgGrow)) def b = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("Probe",TLPermissions.PermMsgCap)) def c = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("ProbeAck",TLPermissions.PermMsgReport), ("ProbeAckData",TLPermissions.PermMsgReport), ("Release",TLPermissions.PermMsgReport), ("ReleaseData",TLPermissions.PermMsgReport)) def d = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("Grant",TLPermissions.PermMsgCap), ("GrantData",TLPermissions.PermMsgCap), ("ReleaseAck",TLPermissions.PermMsgReserved)) } /** * The three primary TileLink permissions are: * (T)runk: the agent is (or is on inwards path to) the global point of serialization. * (B)ranch: the agent is on an outwards path to * (N)one: * These permissions are permuted by transfer operations in various ways. * Operations can cap permissions, request for them to be grown or shrunk, * or for a report on their current status. */ object TLPermissions { val aWidth = 2 val bdWidth = 2 val cWidth = 3 // Cap types (Grant = new permissions, Probe = permisions <= target) def toT = 0.U(bdWidth.W) def toB = 1.U(bdWidth.W) def toN = 2.U(bdWidth.W) def isCap(x: UInt) = x <= toN // Grow types (Acquire = permissions >= target) def NtoB = 0.U(aWidth.W) def NtoT = 1.U(aWidth.W) def BtoT = 2.U(aWidth.W) def isGrow(x: UInt) = x <= BtoT // Shrink types (ProbeAck, Release) def TtoB = 0.U(cWidth.W) def TtoN = 1.U(cWidth.W) def BtoN = 2.U(cWidth.W) def isShrink(x: UInt) = x <= BtoN // Report types (ProbeAck, Release) def TtoT = 3.U(cWidth.W) def BtoB = 4.U(cWidth.W) def NtoN = 5.U(cWidth.W) def isReport(x: UInt) = x <= NtoN def PermMsgGrow:Seq[String] = Seq("Grow NtoB", "Grow NtoT", "Grow BtoT") def PermMsgCap:Seq[String] = Seq("Cap toT", "Cap toB", "Cap toN") def PermMsgReport:Seq[String] = Seq("Shrink TtoB", "Shrink TtoN", "Shrink BtoN", "Report TotT", "Report BtoB", "Report NtoN") def PermMsgReserved:Seq[String] = Seq("Reserved") } object TLAtomics { val width = 3 // Arithmetic types def MIN = 0.U(width.W) def MAX = 1.U(width.W) def MINU = 2.U(width.W) def MAXU = 3.U(width.W) def ADD = 4.U(width.W) def isArithmetic(x: UInt) = x <= ADD // Logical types def XOR = 0.U(width.W) def OR = 1.U(width.W) def AND = 2.U(width.W) def SWAP = 3.U(width.W) def isLogical(x: UInt) = x <= SWAP def ArithMsg:Seq[String] = Seq("MIN", "MAX", "MINU", "MAXU", "ADD") def LogicMsg:Seq[String] = Seq("XOR", "OR", "AND", "SWAP") } object TLHints { val width = 1 def PREFETCH_READ = 0.U(width.W) def PREFETCH_WRITE = 1.U(width.W) def isHints(x: UInt) = x <= PREFETCH_WRITE def HintsMsg:Seq[String] = Seq("PrefetchRead", "PrefetchWrite") } sealed trait TLChannel extends TLBundleBase { val channelName: String } sealed trait TLDataChannel extends TLChannel sealed trait TLAddrChannel extends TLDataChannel final class TLBundleA(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleA_${params.shortName}" val channelName = "'A' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(List(TLAtomics.width, TLPermissions.aWidth, TLHints.width).max.W) // amo_opcode || grow perms || hint val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleB(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleB_${params.shortName}" val channelName = "'B' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val address = UInt(params.addressBits.W) // from // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleC(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleC_${params.shortName}" val channelName = "'C' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.cWidth.W) // shrink or report perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleD(params: TLBundleParameters) extends TLBundleBase(params) with TLDataChannel { override def typeName = s"TLBundleD_${params.shortName}" val channelName = "'D' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val sink = UInt(params.sinkBits.W) // from val denied = Bool() // implies corrupt iff *Data val user = BundleMap(params.responseFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleE(params: TLBundleParameters) extends TLBundleBase(params) with TLChannel { override def typeName = s"TLBundleE_${params.shortName}" val channelName = "'E' channel" val sink = UInt(params.sinkBits.W) // to } class TLBundle(val params: TLBundleParameters) extends Record { // Emulate a Bundle with elements abcde or ad depending on params.hasBCE private val optA = Some (Decoupled(new TLBundleA(params))) private val optB = params.hasBCE.option(Flipped(Decoupled(new TLBundleB(params)))) private val optC = params.hasBCE.option(Decoupled(new TLBundleC(params))) private val optD = Some (Flipped(Decoupled(new TLBundleD(params)))) private val optE = params.hasBCE.option(Decoupled(new TLBundleE(params))) def a: DecoupledIO[TLBundleA] = optA.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleA(params))))) def b: DecoupledIO[TLBundleB] = optB.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleB(params))))) def c: DecoupledIO[TLBundleC] = optC.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleC(params))))) def d: DecoupledIO[TLBundleD] = optD.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleD(params))))) def e: DecoupledIO[TLBundleE] = optE.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleE(params))))) val elements = if (params.hasBCE) ListMap("e" -> e, "d" -> d, "c" -> c, "b" -> b, "a" -> a) else ListMap("d" -> d, "a" -> a) def tieoff(): Unit = { DataMirror.specifiedDirectionOf(a.ready) match { case SpecifiedDirection.Input => a.ready := false.B c.ready := false.B e.ready := false.B b.valid := false.B d.valid := false.B case SpecifiedDirection.Output => a.valid := false.B c.valid := false.B e.valid := false.B b.ready := false.B d.ready := false.B case _ => } } } object TLBundle { def apply(params: TLBundleParameters) = new TLBundle(params) } class TLAsyncBundleBase(val params: TLAsyncBundleParameters) extends Bundle class TLAsyncBundle(params: TLAsyncBundleParameters) extends TLAsyncBundleBase(params) { val a = new AsyncBundle(new TLBundleA(params.base), params.async) val b = Flipped(new AsyncBundle(new TLBundleB(params.base), params.async)) val c = new AsyncBundle(new TLBundleC(params.base), params.async) val d = Flipped(new AsyncBundle(new TLBundleD(params.base), params.async)) val e = new AsyncBundle(new TLBundleE(params.base), params.async) } class TLRationalBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = RationalIO(new TLBundleA(params)) val b = Flipped(RationalIO(new TLBundleB(params))) val c = RationalIO(new TLBundleC(params)) val d = Flipped(RationalIO(new TLBundleD(params))) val e = RationalIO(new TLBundleE(params)) } class TLCreditedBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = CreditedIO(new TLBundleA(params)) val b = Flipped(CreditedIO(new TLBundleB(params))) val c = CreditedIO(new TLBundleC(params)) val d = Flipped(CreditedIO(new TLBundleD(params))) val e = CreditedIO(new TLBundleE(params)) } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.diplomacy import chisel3._ import chisel3.util.{DecoupledIO, Queue, ReadyValidIO, isPow2, log2Ceil, log2Floor} import freechips.rocketchip.util.ShiftQueue /** Options for describing the attributes of memory regions */ object RegionType { // Define the 'more relaxed than' ordering val cases = Seq(CACHED, TRACKED, UNCACHED, IDEMPOTENT, VOLATILE, PUT_EFFECTS, GET_EFFECTS) sealed trait T extends Ordered[T] { def compare(that: T): Int = cases.indexOf(that) compare cases.indexOf(this) } case object CACHED extends T // an intermediate agent may have cached a copy of the region for you case object TRACKED extends T // the region may have been cached by another master, but coherence is being provided case object UNCACHED extends T // the region has not been cached yet, but should be cached when possible case object IDEMPOTENT extends T // gets return most recently put content, but content should not be cached case object VOLATILE extends T // content may change without a put, but puts and gets have no side effects case object PUT_EFFECTS extends T // puts produce side effects and so must not be combined/delayed case object GET_EFFECTS extends T // gets produce side effects and so must not be issued speculatively } // A non-empty half-open range; [start, end) case class IdRange(start: Int, end: Int) extends Ordered[IdRange] { require (start >= 0, s"Ids cannot be negative, but got: $start.") require (start <= end, "Id ranges cannot be negative.") def compare(x: IdRange) = { val primary = (this.start - x.start).signum val secondary = (x.end - this.end).signum if (primary != 0) primary else secondary } def overlaps(x: IdRange) = start < x.end && x.start < end def contains(x: IdRange) = start <= x.start && x.end <= end def contains(x: Int) = start <= x && x < end def contains(x: UInt) = if (size == 0) { false.B } else if (size == 1) { // simple comparison x === start.U } else { // find index of largest different bit val largestDeltaBit = log2Floor(start ^ (end-1)) val smallestCommonBit = largestDeltaBit + 1 // may not exist in x val uncommonMask = (1 << smallestCommonBit) - 1 val uncommonBits = (x | 0.U(smallestCommonBit.W))(largestDeltaBit, 0) // the prefix must match exactly (note: may shift ALL bits away) (x >> smallestCommonBit) === (start >> smallestCommonBit).U && // firrtl constant prop range analysis can eliminate these two: (start & uncommonMask).U <= uncommonBits && uncommonBits <= ((end-1) & uncommonMask).U } def shift(x: Int) = IdRange(start+x, end+x) def size = end - start def isEmpty = end == start def range = start until end } object IdRange { def overlaps(s: Seq[IdRange]) = if (s.isEmpty) None else { val ranges = s.sorted (ranges.tail zip ranges.init) find { case (a, b) => a overlaps b } } } // An potentially empty inclusive range of 2-powers [min, max] (in bytes) case class TransferSizes(min: Int, max: Int) { def this(x: Int) = this(x, x) require (min <= max, s"Min transfer $min > max transfer $max") require (min >= 0 && max >= 0, s"TransferSizes must be positive, got: ($min, $max)") require (max == 0 || isPow2(max), s"TransferSizes must be a power of 2, got: $max") require (min == 0 || isPow2(min), s"TransferSizes must be a power of 2, got: $min") require (max == 0 || min != 0, s"TransferSize 0 is forbidden unless (0,0), got: ($min, $max)") def none = min == 0 def contains(x: Int) = isPow2(x) && min <= x && x <= max def containsLg(x: Int) = contains(1 << x) def containsLg(x: UInt) = if (none) false.B else if (min == max) { log2Ceil(min).U === x } else { log2Ceil(min).U <= x && x <= log2Ceil(max).U } def contains(x: TransferSizes) = x.none || (min <= x.min && x.max <= max) def intersect(x: TransferSizes) = if (x.max < min || max < x.min) TransferSizes.none else TransferSizes(scala.math.max(min, x.min), scala.math.min(max, x.max)) // Not a union, because the result may contain sizes contained by neither term // NOT TO BE CONFUSED WITH COVERPOINTS def mincover(x: TransferSizes) = { if (none) { x } else if (x.none) { this } else { TransferSizes(scala.math.min(min, x.min), scala.math.max(max, x.max)) } } override def toString() = "TransferSizes[%d, %d]".format(min, max) } object TransferSizes { def apply(x: Int) = new TransferSizes(x) val none = new TransferSizes(0) def mincover(seq: Seq[TransferSizes]) = seq.foldLeft(none)(_ mincover _) def intersect(seq: Seq[TransferSizes]) = seq.reduce(_ intersect _) implicit def asBool(x: TransferSizes) = !x.none } // AddressSets specify the address space managed by the manager // Base is the base address, and mask are the bits consumed by the manager // e.g: base=0x200, mask=0xff describes a device managing 0x200-0x2ff // e.g: base=0x1000, mask=0xf0f decribes a device managing 0x1000-0x100f, 0x1100-0x110f, ... case class AddressSet(base: BigInt, mask: BigInt) extends Ordered[AddressSet] { // Forbid misaligned base address (and empty sets) require ((base & mask) == 0, s"Mis-aligned AddressSets are forbidden, got: ${this.toString}") require (base >= 0, s"AddressSet negative base is ambiguous: $base") // TL2 address widths are not fixed => negative is ambiguous // We do allow negative mask (=> ignore all high bits) def contains(x: BigInt) = ((x ^ base) & ~mask) == 0 def contains(x: UInt) = ((x ^ base.U).zext & (~mask).S) === 0.S // turn x into an address contained in this set def legalize(x: UInt): UInt = base.U | (mask.U & x) // overlap iff bitwise: both care (~mask0 & ~mask1) => both equal (base0=base1) def overlaps(x: AddressSet) = (~(mask | x.mask) & (base ^ x.base)) == 0 // contains iff bitwise: x.mask => mask && contains(x.base) def contains(x: AddressSet) = ((x.mask | (base ^ x.base)) & ~mask) == 0 // The number of bytes to which the manager must be aligned def alignment = ((mask + 1) & ~mask) // Is this a contiguous memory range def contiguous = alignment == mask+1 def finite = mask >= 0 def max = { require (finite, "Max cannot be calculated on infinite mask"); base | mask } // Widen the match function to ignore all bits in imask def widen(imask: BigInt) = AddressSet(base & ~imask, mask | imask) // Return an AddressSet that only contains the addresses both sets contain def intersect(x: AddressSet): Option[AddressSet] = { if (!overlaps(x)) { None } else { val r_mask = mask & x.mask val r_base = base | x.base Some(AddressSet(r_base, r_mask)) } } def subtract(x: AddressSet): Seq[AddressSet] = { intersect(x) match { case None => Seq(this) case Some(remove) => AddressSet.enumerateBits(mask & ~remove.mask).map { bit => val nmask = (mask & (bit-1)) | remove.mask val nbase = (remove.base ^ bit) & ~nmask AddressSet(nbase, nmask) } } } // AddressSets have one natural Ordering (the containment order, if contiguous) def compare(x: AddressSet) = { val primary = (this.base - x.base).signum // smallest address first val secondary = (x.mask - this.mask).signum // largest mask first if (primary != 0) primary else secondary } // We always want to see things in hex override def toString() = { if (mask >= 0) { "AddressSet(0x%x, 0x%x)".format(base, mask) } else { "AddressSet(0x%x, ~0x%x)".format(base, ~mask) } } def toRanges = { require (finite, "Ranges cannot be calculated on infinite mask") val size = alignment val fragments = mask & ~(size-1) val bits = bitIndexes(fragments) (BigInt(0) until (BigInt(1) << bits.size)).map { i => val off = bitIndexes(i).foldLeft(base) { case (a, b) => a.setBit(bits(b)) } AddressRange(off, size) } } } object AddressSet { val everything = AddressSet(0, -1) def misaligned(base: BigInt, size: BigInt, tail: Seq[AddressSet] = Seq()): Seq[AddressSet] = { if (size == 0) tail.reverse else { val maxBaseAlignment = base & (-base) // 0 for infinite (LSB) val maxSizeAlignment = BigInt(1) << log2Floor(size) // MSB of size val step = if (maxBaseAlignment == 0 || maxBaseAlignment > maxSizeAlignment) maxSizeAlignment else maxBaseAlignment misaligned(base+step, size-step, AddressSet(base, step-1) +: tail) } } def unify(seq: Seq[AddressSet], bit: BigInt): Seq[AddressSet] = { // Pair terms up by ignoring 'bit' seq.distinct.groupBy(x => x.copy(base = x.base & ~bit)).map { case (key, seq) => if (seq.size == 1) { seq.head // singleton -> unaffected } else { key.copy(mask = key.mask | bit) // pair - widen mask by bit } }.toList } def unify(seq: Seq[AddressSet]): Seq[AddressSet] = { val bits = seq.map(_.base).foldLeft(BigInt(0))(_ | _) AddressSet.enumerateBits(bits).foldLeft(seq) { case (acc, bit) => unify(acc, bit) }.sorted } def enumerateMask(mask: BigInt): Seq[BigInt] = { def helper(id: BigInt, tail: Seq[BigInt]): Seq[BigInt] = if (id == mask) (id +: tail).reverse else helper(((~mask | id) + 1) & mask, id +: tail) helper(0, Nil) } def enumerateBits(mask: BigInt): Seq[BigInt] = { def helper(x: BigInt): Seq[BigInt] = { if (x == 0) { Nil } else { val bit = x & (-x) bit +: helper(x & ~bit) } } helper(mask) } } case class BufferParams(depth: Int, flow: Boolean, pipe: Boolean) { require (depth >= 0, "Buffer depth must be >= 0") def isDefined = depth > 0 def latency = if (isDefined && !flow) 1 else 0 def apply[T <: Data](x: DecoupledIO[T]) = if (isDefined) Queue(x, depth, flow=flow, pipe=pipe) else x def irrevocable[T <: Data](x: ReadyValidIO[T]) = if (isDefined) Queue.irrevocable(x, depth, flow=flow, pipe=pipe) else x def sq[T <: Data](x: DecoupledIO[T]) = if (!isDefined) x else { val sq = Module(new ShiftQueue(x.bits, depth, flow=flow, pipe=pipe)) sq.io.enq <> x sq.io.deq } override def toString() = "BufferParams:%d%s%s".format(depth, if (flow) "F" else "", if (pipe) "P" else "") } object BufferParams { implicit def apply(depth: Int): BufferParams = BufferParams(depth, false, false) val default = BufferParams(2) val none = BufferParams(0) val flow = BufferParams(1, true, false) val pipe = BufferParams(1, false, true) } case class TriStateValue(value: Boolean, set: Boolean) { def update(orig: Boolean) = if (set) value else orig } object TriStateValue { implicit def apply(value: Boolean): TriStateValue = TriStateValue(value, true) def unset = TriStateValue(false, false) } trait DirectedBuffers[T] { def copyIn(x: BufferParams): T def copyOut(x: BufferParams): T def copyInOut(x: BufferParams): T } trait IdMapEntry { def name: String def from: IdRange def to: IdRange def isCache: Boolean def requestFifo: Boolean def maxTransactionsInFlight: Option[Int] def pretty(fmt: String) = if (from ne to) { // if the subclass uses the same reference for both from and to, assume its format string has an arity of 5 fmt.format(to.start, to.end, from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } else { fmt.format(from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } } abstract class IdMap[T <: IdMapEntry] { protected val fmt: String val mapping: Seq[T] def pretty: String = mapping.map(_.pretty(fmt)).mkString(",\n") } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module TLMonitor_25( // @[Monitor.scala:36:7] input clock, // @[Monitor.scala:36:7] input reset, // @[Monitor.scala:36:7] input io_in_a_ready, // @[Monitor.scala:20:14] input io_in_a_valid, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_opcode, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_param, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_size, // @[Monitor.scala:20:14] input [6:0] io_in_a_bits_source, // @[Monitor.scala:20:14] input [11:0] io_in_a_bits_address, // @[Monitor.scala:20:14] input [7:0] io_in_a_bits_mask, // @[Monitor.scala:20:14] input [63:0] io_in_a_bits_data, // @[Monitor.scala:20:14] input io_in_a_bits_corrupt, // @[Monitor.scala:20:14] input io_in_d_ready, // @[Monitor.scala:20:14] input io_in_d_valid, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_opcode, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_size, // @[Monitor.scala:20:14] input [6:0] io_in_d_bits_source, // @[Monitor.scala:20:14] input [63:0] io_in_d_bits_data // @[Monitor.scala:20:14] ); wire [31:0] _plusarg_reader_1_out; // @[PlusArg.scala:80:11] wire [31:0] _plusarg_reader_out; // @[PlusArg.scala:80:11] wire io_in_a_ready_0 = io_in_a_ready; // @[Monitor.scala:36:7] wire io_in_a_valid_0 = io_in_a_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_opcode_0 = io_in_a_bits_opcode; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_param_0 = io_in_a_bits_param; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_size_0 = io_in_a_bits_size; // @[Monitor.scala:36:7] wire [6:0] io_in_a_bits_source_0 = io_in_a_bits_source; // @[Monitor.scala:36:7] wire [11:0] io_in_a_bits_address_0 = io_in_a_bits_address; // @[Monitor.scala:36:7] wire [7:0] io_in_a_bits_mask_0 = io_in_a_bits_mask; // @[Monitor.scala:36:7] wire [63:0] io_in_a_bits_data_0 = io_in_a_bits_data; // @[Monitor.scala:36:7] wire io_in_a_bits_corrupt_0 = io_in_a_bits_corrupt; // @[Monitor.scala:36:7] wire io_in_d_ready_0 = io_in_d_ready; // @[Monitor.scala:36:7] wire io_in_d_valid_0 = io_in_d_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_opcode_0 = io_in_d_bits_opcode; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_size_0 = io_in_d_bits_size; // @[Monitor.scala:36:7] wire [6:0] io_in_d_bits_source_0 = io_in_d_bits_source; // @[Monitor.scala:36:7] wire [63:0] io_in_d_bits_data_0 = io_in_d_bits_data; // @[Monitor.scala:36:7] wire io_in_d_bits_sink = 1'h0; // @[Monitor.scala:36:7] wire io_in_d_bits_denied = 1'h0; // @[Monitor.scala:36:7] wire io_in_d_bits_corrupt = 1'h0; // @[Monitor.scala:36:7] wire sink_ok = 1'h0; // @[Monitor.scala:309:31] wire _c_first_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_T = 1'h0; // @[Decoupled.scala:51:35] wire c_first_beats1_opdata = 1'h0; // @[Edges.scala:102:36] wire _c_first_last_T = 1'h0; // @[Edges.scala:232:25] wire c_first_done = 1'h0; // @[Edges.scala:233:22] wire _c_set_wo_ready_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T = 1'h0; // @[Monitor.scala:772:47] wire _c_probe_ack_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T_1 = 1'h0; // @[Monitor.scala:772:95] wire c_probe_ack = 1'h0; // @[Monitor.scala:772:71] wire _same_cycle_resp_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_3 = 1'h0; // @[Monitor.scala:795:44] wire _same_cycle_resp_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_4 = 1'h0; // @[Edges.scala:68:36] wire _same_cycle_resp_T_5 = 1'h0; // @[Edges.scala:68:51] wire _same_cycle_resp_T_6 = 1'h0; // @[Edges.scala:68:40] wire _same_cycle_resp_T_7 = 1'h0; // @[Monitor.scala:795:55] wire _same_cycle_resp_WIRE_4_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_5_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire same_cycle_resp_1 = 1'h0; // @[Monitor.scala:795:88] wire [2:0] responseMap_0 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMap_1 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_0 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_1 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] _c_first_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_2_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_3_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] c_first_beats1_decode = 3'h0; // @[Edges.scala:220:59] wire [2:0] c_first_beats1 = 3'h0; // @[Edges.scala:221:14] wire [2:0] _c_first_count_T = 3'h0; // @[Edges.scala:234:27] wire [2:0] c_first_count = 3'h0; // @[Edges.scala:234:25] wire [2:0] _c_first_counter_T = 3'h0; // @[Edges.scala:236:21] wire [2:0] _c_set_wo_ready_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_2_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_3_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_2_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_3_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_4_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_4_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_4_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_5_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_5_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_5_bits_size = 3'h0; // @[Bundles.scala:265:61] wire _source_ok_T_3 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_5 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_9 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_11 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_15 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_17 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_21 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_23 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_39 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_41 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_45 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_47 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_51 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_53 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_57 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_59 = 1'h1; // @[Parameters.scala:57:20] wire c_first = 1'h1; // @[Edges.scala:231:25] wire _c_first_last_T_1 = 1'h1; // @[Edges.scala:232:43] wire c_first_last = 1'h1; // @[Edges.scala:232:33] wire [2:0] c_first_counter1 = 3'h7; // @[Edges.scala:230:28] wire [3:0] _c_first_counter1_T = 4'hF; // @[Edges.scala:230:28] wire [1:0] io_in_d_bits_param = 2'h0; // @[Monitor.scala:36:7] wire [63:0] _c_first_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_first_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_wo_ready_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_wo_ready_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_4_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_5_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [11:0] _c_first_WIRE_bits_address = 12'h0; // @[Bundles.scala:265:74] wire [11:0] _c_first_WIRE_1_bits_address = 12'h0; // @[Bundles.scala:265:61] wire [11:0] _c_first_WIRE_2_bits_address = 12'h0; // @[Bundles.scala:265:74] wire [11:0] _c_first_WIRE_3_bits_address = 12'h0; // @[Bundles.scala:265:61] wire [11:0] _c_set_wo_ready_WIRE_bits_address = 12'h0; // @[Bundles.scala:265:74] wire [11:0] _c_set_wo_ready_WIRE_1_bits_address = 12'h0; // @[Bundles.scala:265:61] wire [11:0] _c_set_WIRE_bits_address = 12'h0; // @[Bundles.scala:265:74] wire [11:0] _c_set_WIRE_1_bits_address = 12'h0; // @[Bundles.scala:265:61] wire [11:0] _c_opcodes_set_interm_WIRE_bits_address = 12'h0; // @[Bundles.scala:265:74] wire [11:0] _c_opcodes_set_interm_WIRE_1_bits_address = 12'h0; // @[Bundles.scala:265:61] wire [11:0] _c_sizes_set_interm_WIRE_bits_address = 12'h0; // @[Bundles.scala:265:74] wire [11:0] _c_sizes_set_interm_WIRE_1_bits_address = 12'h0; // @[Bundles.scala:265:61] wire [11:0] _c_opcodes_set_WIRE_bits_address = 12'h0; // @[Bundles.scala:265:74] wire [11:0] _c_opcodes_set_WIRE_1_bits_address = 12'h0; // @[Bundles.scala:265:61] wire [11:0] _c_sizes_set_WIRE_bits_address = 12'h0; // @[Bundles.scala:265:74] wire [11:0] _c_sizes_set_WIRE_1_bits_address = 12'h0; // @[Bundles.scala:265:61] wire [11:0] _c_probe_ack_WIRE_bits_address = 12'h0; // @[Bundles.scala:265:74] wire [11:0] _c_probe_ack_WIRE_1_bits_address = 12'h0; // @[Bundles.scala:265:61] wire [11:0] _c_probe_ack_WIRE_2_bits_address = 12'h0; // @[Bundles.scala:265:74] wire [11:0] _c_probe_ack_WIRE_3_bits_address = 12'h0; // @[Bundles.scala:265:61] wire [11:0] _same_cycle_resp_WIRE_bits_address = 12'h0; // @[Bundles.scala:265:74] wire [11:0] _same_cycle_resp_WIRE_1_bits_address = 12'h0; // @[Bundles.scala:265:61] wire [11:0] _same_cycle_resp_WIRE_2_bits_address = 12'h0; // @[Bundles.scala:265:74] wire [11:0] _same_cycle_resp_WIRE_3_bits_address = 12'h0; // @[Bundles.scala:265:61] wire [11:0] _same_cycle_resp_WIRE_4_bits_address = 12'h0; // @[Bundles.scala:265:74] wire [11:0] _same_cycle_resp_WIRE_5_bits_address = 12'h0; // @[Bundles.scala:265:61] wire [6:0] _c_first_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_first_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_first_WIRE_2_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_first_WIRE_3_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_set_wo_ready_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_set_wo_ready_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_set_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_set_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_opcodes_set_interm_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_opcodes_set_interm_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_sizes_set_interm_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_sizes_set_interm_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_opcodes_set_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_opcodes_set_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_sizes_set_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_sizes_set_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_probe_ack_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_probe_ack_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_probe_ack_WIRE_2_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_probe_ack_WIRE_3_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _same_cycle_resp_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _same_cycle_resp_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _same_cycle_resp_WIRE_2_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _same_cycle_resp_WIRE_3_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _same_cycle_resp_WIRE_4_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _same_cycle_resp_WIRE_5_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [15:0] _a_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _a_size_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_opcodes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_sizes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _c_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _c_size_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_opcodes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_sizes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [16:0] _a_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _a_size_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_opcodes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_sizes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _c_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _c_size_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_opcodes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_sizes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [15:0] _a_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _a_size_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_opcodes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_sizes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _c_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _c_size_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_opcodes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_sizes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [1026:0] _c_opcodes_set_T_1 = 1027'h0; // @[Monitor.scala:767:54] wire [1026:0] _c_sizes_set_T_1 = 1027'h0; // @[Monitor.scala:768:52] wire [9:0] _c_opcodes_set_T = 10'h0; // @[Monitor.scala:767:79] wire [9:0] _c_sizes_set_T = 10'h0; // @[Monitor.scala:768:77] wire [3:0] _c_opcodes_set_interm_T_1 = 4'h1; // @[Monitor.scala:765:61] wire [3:0] _c_sizes_set_interm_T_1 = 4'h1; // @[Monitor.scala:766:59] wire [3:0] c_opcodes_set_interm = 4'h0; // @[Monitor.scala:754:40] wire [3:0] c_sizes_set_interm = 4'h0; // @[Monitor.scala:755:40] wire [3:0] _c_opcodes_set_interm_T = 4'h0; // @[Monitor.scala:765:53] wire [3:0] _c_sizes_set_interm_T = 4'h0; // @[Monitor.scala:766:51] wire [127:0] _c_set_wo_ready_T = 128'h1; // @[OneHot.scala:58:35] wire [127:0] _c_set_T = 128'h1; // @[OneHot.scala:58:35] wire [259:0] c_opcodes_set = 260'h0; // @[Monitor.scala:740:34] wire [259:0] c_sizes_set = 260'h0; // @[Monitor.scala:741:34] wire [64:0] c_set = 65'h0; // @[Monitor.scala:738:34] wire [64:0] c_set_wo_ready = 65'h0; // @[Monitor.scala:739:34] wire [5:0] _c_first_beats1_decode_T_2 = 6'h0; // @[package.scala:243:46] wire [5:0] _c_first_beats1_decode_T_1 = 6'h3F; // @[package.scala:243:76] wire [12:0] _c_first_beats1_decode_T = 13'h3F; // @[package.scala:243:71] wire [2:0] responseMap_6 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMap_7 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_7 = 3'h4; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_6 = 3'h5; // @[Monitor.scala:644:42] wire [2:0] responseMap_5 = 3'h2; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_5 = 3'h2; // @[Monitor.scala:644:42] wire [2:0] responseMap_2 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_3 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_4 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_2 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_3 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_4 = 3'h1; // @[Monitor.scala:644:42] wire [3:0] _a_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:637:123] wire [3:0] _a_size_lookup_T_2 = 4'h4; // @[Monitor.scala:641:117] wire [3:0] _d_opcodes_clr_T = 4'h4; // @[Monitor.scala:680:48] wire [3:0] _d_sizes_clr_T = 4'h4; // @[Monitor.scala:681:48] wire [3:0] _c_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:749:123] wire [3:0] _c_size_lookup_T_2 = 4'h4; // @[Monitor.scala:750:119] wire [3:0] _d_opcodes_clr_T_6 = 4'h4; // @[Monitor.scala:790:48] wire [3:0] _d_sizes_clr_T_6 = 4'h4; // @[Monitor.scala:791:48] wire [2:0] _mask_sizeOH_T = io_in_a_bits_size_0; // @[Misc.scala:202:34] wire [6:0] _source_ok_uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_4 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_5 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_6 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_7 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_8 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_9 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_10 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_11 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_12 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_13 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_14 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_15 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_16 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_17 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_18 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_19 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_20 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_21 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_22 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_23 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_24 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_25 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_26 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_27 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_28 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_29 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_30 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_31 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_32 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_33 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_34 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_35 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_36 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_37 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_38 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_39 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_40 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_41 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_42 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_43 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_4 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_5 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_6 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_7 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire _source_ok_T = io_in_a_bits_source_0 == 7'h10; // @[Monitor.scala:36:7] wire _source_ok_WIRE_0 = _source_ok_T; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits = _source_ok_uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [4:0] _source_ok_T_1 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_7 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_13 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_19 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire _source_ok_T_2 = _source_ok_T_1 == 5'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_4 = _source_ok_T_2; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_6 = _source_ok_T_4; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1 = _source_ok_T_6; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_1 = _source_ok_uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_8 = _source_ok_T_7 == 5'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_10 = _source_ok_T_8; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_12 = _source_ok_T_10; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_2 = _source_ok_T_12; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_2 = _source_ok_uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_14 = _source_ok_T_13 == 5'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_16 = _source_ok_T_14; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_18 = _source_ok_T_16; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_3 = _source_ok_T_18; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_3 = _source_ok_uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_20 = _source_ok_T_19 == 5'h3; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_22 = _source_ok_T_20; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_24 = _source_ok_T_22; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_4 = _source_ok_T_24; // @[Parameters.scala:1138:31] wire _source_ok_T_25 = io_in_a_bits_source_0 == 7'h20; // @[Monitor.scala:36:7] wire _source_ok_WIRE_5 = _source_ok_T_25; // @[Parameters.scala:1138:31] wire _source_ok_T_26 = io_in_a_bits_source_0 == 7'h21; // @[Monitor.scala:36:7] wire _source_ok_WIRE_6 = _source_ok_T_26; // @[Parameters.scala:1138:31] wire _source_ok_T_27 = io_in_a_bits_source_0 == 7'h22; // @[Monitor.scala:36:7] wire _source_ok_WIRE_7 = _source_ok_T_27; // @[Parameters.scala:1138:31] wire _source_ok_T_28 = io_in_a_bits_source_0 == 7'h40; // @[Monitor.scala:36:7] wire _source_ok_WIRE_8 = _source_ok_T_28; // @[Parameters.scala:1138:31] wire _source_ok_T_29 = _source_ok_WIRE_0 | _source_ok_WIRE_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_30 = _source_ok_T_29 | _source_ok_WIRE_2; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_31 = _source_ok_T_30 | _source_ok_WIRE_3; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_32 = _source_ok_T_31 | _source_ok_WIRE_4; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_33 = _source_ok_T_32 | _source_ok_WIRE_5; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_34 = _source_ok_T_33 | _source_ok_WIRE_6; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_35 = _source_ok_T_34 | _source_ok_WIRE_7; // @[Parameters.scala:1138:31, :1139:46] wire source_ok = _source_ok_T_35 | _source_ok_WIRE_8; // @[Parameters.scala:1138:31, :1139:46] wire [12:0] _GEN = 13'h3F << io_in_a_bits_size_0; // @[package.scala:243:71] wire [12:0] _is_aligned_mask_T; // @[package.scala:243:71] assign _is_aligned_mask_T = _GEN; // @[package.scala:243:71] wire [12:0] _a_first_beats1_decode_T; // @[package.scala:243:71] assign _a_first_beats1_decode_T = _GEN; // @[package.scala:243:71] wire [12:0] _a_first_beats1_decode_T_3; // @[package.scala:243:71] assign _a_first_beats1_decode_T_3 = _GEN; // @[package.scala:243:71] wire [5:0] _is_aligned_mask_T_1 = _is_aligned_mask_T[5:0]; // @[package.scala:243:{71,76}] wire [5:0] is_aligned_mask = ~_is_aligned_mask_T_1; // @[package.scala:243:{46,76}] wire [11:0] _is_aligned_T = {6'h0, io_in_a_bits_address_0[5:0] & is_aligned_mask}; // @[package.scala:243:46] wire is_aligned = _is_aligned_T == 12'h0; // @[Edges.scala:21:{16,24}] wire [1:0] mask_sizeOH_shiftAmount = _mask_sizeOH_T[1:0]; // @[OneHot.scala:64:49] wire [3:0] _mask_sizeOH_T_1 = 4'h1 << mask_sizeOH_shiftAmount; // @[OneHot.scala:64:49, :65:12] wire [2:0] _mask_sizeOH_T_2 = _mask_sizeOH_T_1[2:0]; // @[OneHot.scala:65:{12,27}] wire [2:0] mask_sizeOH = {_mask_sizeOH_T_2[2:1], 1'h1}; // @[OneHot.scala:65:27] wire mask_sub_sub_sub_0_1 = io_in_a_bits_size_0 > 3'h2; // @[Misc.scala:206:21] wire mask_sub_sub_size = mask_sizeOH[2]; // @[Misc.scala:202:81, :209:26] wire mask_sub_sub_bit = io_in_a_bits_address_0[2]; // @[Misc.scala:210:26] wire mask_sub_sub_1_2 = mask_sub_sub_bit; // @[Misc.scala:210:26, :214:27] wire mask_sub_sub_nbit = ~mask_sub_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_sub_0_2 = mask_sub_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_sub_acc_T = mask_sub_sub_size & mask_sub_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_0_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T; // @[Misc.scala:206:21, :215:{29,38}] wire _mask_sub_sub_acc_T_1 = mask_sub_sub_size & mask_sub_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_1_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T_1; // @[Misc.scala:206:21, :215:{29,38}] wire mask_sub_size = mask_sizeOH[1]; // @[Misc.scala:202:81, :209:26] wire mask_sub_bit = io_in_a_bits_address_0[1]; // @[Misc.scala:210:26] wire mask_sub_nbit = ~mask_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_0_2 = mask_sub_sub_0_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T = mask_sub_size & mask_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_0_1 = mask_sub_sub_0_1 | _mask_sub_acc_T; // @[Misc.scala:215:{29,38}] wire mask_sub_1_2 = mask_sub_sub_0_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_1 = mask_sub_size & mask_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_1_1 = mask_sub_sub_0_1 | _mask_sub_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_sub_2_2 = mask_sub_sub_1_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T_2 = mask_sub_size & mask_sub_2_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_2_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_sub_3_2 = mask_sub_sub_1_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_3 = mask_sub_size & mask_sub_3_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_3_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_size = mask_sizeOH[0]; // @[Misc.scala:202:81, :209:26] wire mask_bit = io_in_a_bits_address_0[0]; // @[Misc.scala:210:26] wire mask_nbit = ~mask_bit; // @[Misc.scala:210:26, :211:20] wire mask_eq = mask_sub_0_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T = mask_size & mask_eq; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc = mask_sub_0_1 | _mask_acc_T; // @[Misc.scala:215:{29,38}] wire mask_eq_1 = mask_sub_0_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_1 = mask_size & mask_eq_1; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_1 = mask_sub_0_1 | _mask_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_eq_2 = mask_sub_1_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_2 = mask_size & mask_eq_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_2 = mask_sub_1_1 | _mask_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_eq_3 = mask_sub_1_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_3 = mask_size & mask_eq_3; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_3 = mask_sub_1_1 | _mask_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_eq_4 = mask_sub_2_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_4 = mask_size & mask_eq_4; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_4 = mask_sub_2_1 | _mask_acc_T_4; // @[Misc.scala:215:{29,38}] wire mask_eq_5 = mask_sub_2_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_5 = mask_size & mask_eq_5; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_5 = mask_sub_2_1 | _mask_acc_T_5; // @[Misc.scala:215:{29,38}] wire mask_eq_6 = mask_sub_3_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_6 = mask_size & mask_eq_6; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_6 = mask_sub_3_1 | _mask_acc_T_6; // @[Misc.scala:215:{29,38}] wire mask_eq_7 = mask_sub_3_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_7 = mask_size & mask_eq_7; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_7 = mask_sub_3_1 | _mask_acc_T_7; // @[Misc.scala:215:{29,38}] wire [1:0] mask_lo_lo = {mask_acc_1, mask_acc}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_lo_hi = {mask_acc_3, mask_acc_2}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_lo = {mask_lo_hi, mask_lo_lo}; // @[Misc.scala:222:10] wire [1:0] mask_hi_lo = {mask_acc_5, mask_acc_4}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_hi_hi = {mask_acc_7, mask_acc_6}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_hi = {mask_hi_hi, mask_hi_lo}; // @[Misc.scala:222:10] wire [7:0] mask = {mask_hi, mask_lo}; // @[Misc.scala:222:10] wire [1:0] uncommonBits = _uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_1 = _uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_2 = _uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_3 = _uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_4 = _uncommonBits_T_4[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_5 = _uncommonBits_T_5[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_6 = _uncommonBits_T_6[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_7 = _uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_8 = _uncommonBits_T_8[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_9 = _uncommonBits_T_9[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_10 = _uncommonBits_T_10[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_11 = _uncommonBits_T_11[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_12 = _uncommonBits_T_12[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_13 = _uncommonBits_T_13[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_14 = _uncommonBits_T_14[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_15 = _uncommonBits_T_15[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_16 = _uncommonBits_T_16[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_17 = _uncommonBits_T_17[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_18 = _uncommonBits_T_18[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_19 = _uncommonBits_T_19[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_20 = _uncommonBits_T_20[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_21 = _uncommonBits_T_21[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_22 = _uncommonBits_T_22[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_23 = _uncommonBits_T_23[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_24 = _uncommonBits_T_24[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_25 = _uncommonBits_T_25[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_26 = _uncommonBits_T_26[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_27 = _uncommonBits_T_27[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_28 = _uncommonBits_T_28[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_29 = _uncommonBits_T_29[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_30 = _uncommonBits_T_30[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_31 = _uncommonBits_T_31[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_32 = _uncommonBits_T_32[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_33 = _uncommonBits_T_33[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_34 = _uncommonBits_T_34[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_35 = _uncommonBits_T_35[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_36 = _uncommonBits_T_36[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_37 = _uncommonBits_T_37[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_38 = _uncommonBits_T_38[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_39 = _uncommonBits_T_39[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_40 = _uncommonBits_T_40[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_41 = _uncommonBits_T_41[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_42 = _uncommonBits_T_42[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_43 = _uncommonBits_T_43[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_36 = io_in_d_bits_source_0 == 7'h10; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_0 = _source_ok_T_36; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_4 = _source_ok_uncommonBits_T_4[1:0]; // @[Parameters.scala:52:{29,56}] wire [4:0] _source_ok_T_37 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_43 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_49 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_55 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire _source_ok_T_38 = _source_ok_T_37 == 5'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_40 = _source_ok_T_38; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_42 = _source_ok_T_40; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_1 = _source_ok_T_42; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_5 = _source_ok_uncommonBits_T_5[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_44 = _source_ok_T_43 == 5'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_46 = _source_ok_T_44; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_48 = _source_ok_T_46; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_2 = _source_ok_T_48; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_6 = _source_ok_uncommonBits_T_6[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_50 = _source_ok_T_49 == 5'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_52 = _source_ok_T_50; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_54 = _source_ok_T_52; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_3 = _source_ok_T_54; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_7 = _source_ok_uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_56 = _source_ok_T_55 == 5'h3; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_58 = _source_ok_T_56; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_60 = _source_ok_T_58; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_4 = _source_ok_T_60; // @[Parameters.scala:1138:31] wire _source_ok_T_61 = io_in_d_bits_source_0 == 7'h20; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_5 = _source_ok_T_61; // @[Parameters.scala:1138:31] wire _source_ok_T_62 = io_in_d_bits_source_0 == 7'h21; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_6 = _source_ok_T_62; // @[Parameters.scala:1138:31] wire _source_ok_T_63 = io_in_d_bits_source_0 == 7'h22; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_7 = _source_ok_T_63; // @[Parameters.scala:1138:31] wire _source_ok_T_64 = io_in_d_bits_source_0 == 7'h40; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_8 = _source_ok_T_64; // @[Parameters.scala:1138:31] wire _source_ok_T_65 = _source_ok_WIRE_1_0 | _source_ok_WIRE_1_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_66 = _source_ok_T_65 | _source_ok_WIRE_1_2; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_67 = _source_ok_T_66 | _source_ok_WIRE_1_3; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_68 = _source_ok_T_67 | _source_ok_WIRE_1_4; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_69 = _source_ok_T_68 | _source_ok_WIRE_1_5; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_70 = _source_ok_T_69 | _source_ok_WIRE_1_6; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_71 = _source_ok_T_70 | _source_ok_WIRE_1_7; // @[Parameters.scala:1138:31, :1139:46] wire source_ok_1 = _source_ok_T_71 | _source_ok_WIRE_1_8; // @[Parameters.scala:1138:31, :1139:46] wire _T_1094 = io_in_a_ready_0 & io_in_a_valid_0; // @[Decoupled.scala:51:35] wire _a_first_T; // @[Decoupled.scala:51:35] assign _a_first_T = _T_1094; // @[Decoupled.scala:51:35] wire _a_first_T_1; // @[Decoupled.scala:51:35] assign _a_first_T_1 = _T_1094; // @[Decoupled.scala:51:35] wire [5:0] _a_first_beats1_decode_T_1 = _a_first_beats1_decode_T[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _a_first_beats1_decode_T_2 = ~_a_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [2:0] a_first_beats1_decode = _a_first_beats1_decode_T_2[5:3]; // @[package.scala:243:46] wire _a_first_beats1_opdata_T = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire _a_first_beats1_opdata_T_1 = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire a_first_beats1_opdata = ~_a_first_beats1_opdata_T; // @[Edges.scala:92:{28,37}] wire [2:0] a_first_beats1 = a_first_beats1_opdata ? a_first_beats1_decode : 3'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [2:0] a_first_counter; // @[Edges.scala:229:27] wire [3:0] _a_first_counter1_T = {1'h0, a_first_counter} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] a_first_counter1 = _a_first_counter1_T[2:0]; // @[Edges.scala:230:28] wire a_first = a_first_counter == 3'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T = a_first_counter == 3'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_1 = a_first_beats1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last = _a_first_last_T | _a_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire a_first_done = a_first_last & _a_first_T; // @[Decoupled.scala:51:35] wire [2:0] _a_first_count_T = ~a_first_counter1; // @[Edges.scala:230:28, :234:27] wire [2:0] a_first_count = a_first_beats1 & _a_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _a_first_counter_T = a_first ? a_first_beats1 : a_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode; // @[Monitor.scala:387:22] reg [2:0] param; // @[Monitor.scala:388:22] reg [2:0] size; // @[Monitor.scala:389:22] reg [6:0] source; // @[Monitor.scala:390:22] reg [11:0] address; // @[Monitor.scala:391:22] wire _T_1162 = io_in_d_ready_0 & io_in_d_valid_0; // @[Decoupled.scala:51:35] wire _d_first_T; // @[Decoupled.scala:51:35] assign _d_first_T = _T_1162; // @[Decoupled.scala:51:35] wire _d_first_T_1; // @[Decoupled.scala:51:35] assign _d_first_T_1 = _T_1162; // @[Decoupled.scala:51:35] wire _d_first_T_2; // @[Decoupled.scala:51:35] assign _d_first_T_2 = _T_1162; // @[Decoupled.scala:51:35] wire [12:0] _GEN_0 = 13'h3F << io_in_d_bits_size_0; // @[package.scala:243:71] wire [12:0] _d_first_beats1_decode_T; // @[package.scala:243:71] assign _d_first_beats1_decode_T = _GEN_0; // @[package.scala:243:71] wire [12:0] _d_first_beats1_decode_T_3; // @[package.scala:243:71] assign _d_first_beats1_decode_T_3 = _GEN_0; // @[package.scala:243:71] wire [12:0] _d_first_beats1_decode_T_6; // @[package.scala:243:71] assign _d_first_beats1_decode_T_6 = _GEN_0; // @[package.scala:243:71] wire [5:0] _d_first_beats1_decode_T_1 = _d_first_beats1_decode_T[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _d_first_beats1_decode_T_2 = ~_d_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [2:0] d_first_beats1_decode = _d_first_beats1_decode_T_2[5:3]; // @[package.scala:243:46] wire d_first_beats1_opdata = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_1 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_2 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire [2:0] d_first_beats1 = d_first_beats1_opdata ? d_first_beats1_decode : 3'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [2:0] d_first_counter; // @[Edges.scala:229:27] wire [3:0] _d_first_counter1_T = {1'h0, d_first_counter} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] d_first_counter1 = _d_first_counter1_T[2:0]; // @[Edges.scala:230:28] wire d_first = d_first_counter == 3'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T = d_first_counter == 3'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_1 = d_first_beats1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last = _d_first_last_T | _d_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire d_first_done = d_first_last & _d_first_T; // @[Decoupled.scala:51:35] wire [2:0] _d_first_count_T = ~d_first_counter1; // @[Edges.scala:230:28, :234:27] wire [2:0] d_first_count = d_first_beats1 & _d_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _d_first_counter_T = d_first ? d_first_beats1 : d_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode_1; // @[Monitor.scala:538:22] reg [2:0] size_1; // @[Monitor.scala:540:22] reg [6:0] source_1; // @[Monitor.scala:541:22] reg [64:0] inflight; // @[Monitor.scala:614:27] reg [259:0] inflight_opcodes; // @[Monitor.scala:616:35] reg [259:0] inflight_sizes; // @[Monitor.scala:618:33] wire [5:0] _a_first_beats1_decode_T_4 = _a_first_beats1_decode_T_3[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _a_first_beats1_decode_T_5 = ~_a_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [2:0] a_first_beats1_decode_1 = _a_first_beats1_decode_T_5[5:3]; // @[package.scala:243:46] wire a_first_beats1_opdata_1 = ~_a_first_beats1_opdata_T_1; // @[Edges.scala:92:{28,37}] wire [2:0] a_first_beats1_1 = a_first_beats1_opdata_1 ? a_first_beats1_decode_1 : 3'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [2:0] a_first_counter_1; // @[Edges.scala:229:27] wire [3:0] _a_first_counter1_T_1 = {1'h0, a_first_counter_1} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] a_first_counter1_1 = _a_first_counter1_T_1[2:0]; // @[Edges.scala:230:28] wire a_first_1 = a_first_counter_1 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T_2 = a_first_counter_1 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_3 = a_first_beats1_1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last_1 = _a_first_last_T_2 | _a_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire a_first_done_1 = a_first_last_1 & _a_first_T_1; // @[Decoupled.scala:51:35] wire [2:0] _a_first_count_T_1 = ~a_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [2:0] a_first_count_1 = a_first_beats1_1 & _a_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _a_first_counter_T_1 = a_first_1 ? a_first_beats1_1 : a_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [5:0] _d_first_beats1_decode_T_4 = _d_first_beats1_decode_T_3[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _d_first_beats1_decode_T_5 = ~_d_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [2:0] d_first_beats1_decode_1 = _d_first_beats1_decode_T_5[5:3]; // @[package.scala:243:46] wire [2:0] d_first_beats1_1 = d_first_beats1_opdata_1 ? d_first_beats1_decode_1 : 3'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [2:0] d_first_counter_1; // @[Edges.scala:229:27] wire [3:0] _d_first_counter1_T_1 = {1'h0, d_first_counter_1} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] d_first_counter1_1 = _d_first_counter1_T_1[2:0]; // @[Edges.scala:230:28] wire d_first_1 = d_first_counter_1 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_2 = d_first_counter_1 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_3 = d_first_beats1_1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_1 = _d_first_last_T_2 | _d_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire d_first_done_1 = d_first_last_1 & _d_first_T_1; // @[Decoupled.scala:51:35] wire [2:0] _d_first_count_T_1 = ~d_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [2:0] d_first_count_1 = d_first_beats1_1 & _d_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _d_first_counter_T_1 = d_first_1 ? d_first_beats1_1 : d_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [64:0] a_set; // @[Monitor.scala:626:34] wire [64:0] a_set_wo_ready; // @[Monitor.scala:627:34] wire [259:0] a_opcodes_set; // @[Monitor.scala:630:33] wire [259:0] a_sizes_set; // @[Monitor.scala:632:31] wire [2:0] a_opcode_lookup; // @[Monitor.scala:635:35] wire [9:0] _GEN_1 = {1'h0, io_in_d_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :637:69] wire [9:0] _a_opcode_lookup_T; // @[Monitor.scala:637:69] assign _a_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69] wire [9:0] _a_size_lookup_T; // @[Monitor.scala:641:65] assign _a_size_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :641:65] wire [9:0] _d_opcodes_clr_T_4; // @[Monitor.scala:680:101] assign _d_opcodes_clr_T_4 = _GEN_1; // @[Monitor.scala:637:69, :680:101] wire [9:0] _d_sizes_clr_T_4; // @[Monitor.scala:681:99] assign _d_sizes_clr_T_4 = _GEN_1; // @[Monitor.scala:637:69, :681:99] wire [9:0] _c_opcode_lookup_T; // @[Monitor.scala:749:69] assign _c_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :749:69] wire [9:0] _c_size_lookup_T; // @[Monitor.scala:750:67] assign _c_size_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :750:67] wire [9:0] _d_opcodes_clr_T_10; // @[Monitor.scala:790:101] assign _d_opcodes_clr_T_10 = _GEN_1; // @[Monitor.scala:637:69, :790:101] wire [9:0] _d_sizes_clr_T_10; // @[Monitor.scala:791:99] assign _d_sizes_clr_T_10 = _GEN_1; // @[Monitor.scala:637:69, :791:99] wire [259:0] _a_opcode_lookup_T_1 = inflight_opcodes >> _a_opcode_lookup_T; // @[Monitor.scala:616:35, :637:{44,69}] wire [259:0] _a_opcode_lookup_T_6 = {256'h0, _a_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:637:{44,97}] wire [259:0] _a_opcode_lookup_T_7 = {1'h0, _a_opcode_lookup_T_6[259:1]}; // @[Monitor.scala:637:{97,152}] assign a_opcode_lookup = _a_opcode_lookup_T_7[2:0]; // @[Monitor.scala:635:35, :637:{21,152}] wire [3:0] a_size_lookup; // @[Monitor.scala:639:33] wire [259:0] _a_size_lookup_T_1 = inflight_sizes >> _a_size_lookup_T; // @[Monitor.scala:618:33, :641:{40,65}] wire [259:0] _a_size_lookup_T_6 = {256'h0, _a_size_lookup_T_1[3:0]}; // @[Monitor.scala:641:{40,91}] wire [259:0] _a_size_lookup_T_7 = {1'h0, _a_size_lookup_T_6[259:1]}; // @[Monitor.scala:641:{91,144}] assign a_size_lookup = _a_size_lookup_T_7[3:0]; // @[Monitor.scala:639:33, :641:{19,144}] wire [3:0] a_opcodes_set_interm; // @[Monitor.scala:646:40] wire [3:0] a_sizes_set_interm; // @[Monitor.scala:648:38] wire _same_cycle_resp_T = io_in_a_valid_0 & a_first_1; // @[Monitor.scala:36:7, :651:26, :684:44] wire [127:0] _GEN_2 = 128'h1 << io_in_a_bits_source_0; // @[OneHot.scala:58:35] wire [127:0] _a_set_wo_ready_T; // @[OneHot.scala:58:35] assign _a_set_wo_ready_T = _GEN_2; // @[OneHot.scala:58:35] wire [127:0] _a_set_T; // @[OneHot.scala:58:35] assign _a_set_T = _GEN_2; // @[OneHot.scala:58:35] assign a_set_wo_ready = _same_cycle_resp_T ? _a_set_wo_ready_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire _T_1027 = _T_1094 & a_first_1; // @[Decoupled.scala:51:35] assign a_set = _T_1027 ? _a_set_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire [3:0] _a_opcodes_set_interm_T = {io_in_a_bits_opcode_0, 1'h0}; // @[Monitor.scala:36:7, :657:53] wire [3:0] _a_opcodes_set_interm_T_1 = {_a_opcodes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:657:{53,61}] assign a_opcodes_set_interm = _T_1027 ? _a_opcodes_set_interm_T_1 : 4'h0; // @[Monitor.scala:646:40, :655:{25,70}, :657:{28,61}] wire [3:0] _a_sizes_set_interm_T = {io_in_a_bits_size_0, 1'h0}; // @[Monitor.scala:36:7, :658:51] wire [3:0] _a_sizes_set_interm_T_1 = {_a_sizes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:658:{51,59}] assign a_sizes_set_interm = _T_1027 ? _a_sizes_set_interm_T_1 : 4'h0; // @[Monitor.scala:648:38, :655:{25,70}, :658:{28,59}] wire [9:0] _GEN_3 = {1'h0, io_in_a_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :659:79] wire [9:0] _a_opcodes_set_T; // @[Monitor.scala:659:79] assign _a_opcodes_set_T = _GEN_3; // @[Monitor.scala:659:79] wire [9:0] _a_sizes_set_T; // @[Monitor.scala:660:77] assign _a_sizes_set_T = _GEN_3; // @[Monitor.scala:659:79, :660:77] wire [1026:0] _a_opcodes_set_T_1 = {1023'h0, a_opcodes_set_interm} << _a_opcodes_set_T; // @[Monitor.scala:646:40, :659:{54,79}] assign a_opcodes_set = _T_1027 ? _a_opcodes_set_T_1[259:0] : 260'h0; // @[Monitor.scala:630:33, :655:{25,70}, :659:{28,54}] wire [1026:0] _a_sizes_set_T_1 = {1023'h0, a_sizes_set_interm} << _a_sizes_set_T; // @[Monitor.scala:648:38, :659:54, :660:{52,77}] assign a_sizes_set = _T_1027 ? _a_sizes_set_T_1[259:0] : 260'h0; // @[Monitor.scala:632:31, :655:{25,70}, :660:{28,52}] wire [64:0] d_clr; // @[Monitor.scala:664:34] wire [64:0] d_clr_wo_ready; // @[Monitor.scala:665:34] wire [259:0] d_opcodes_clr; // @[Monitor.scala:668:33] wire [259:0] d_sizes_clr; // @[Monitor.scala:670:31] wire _GEN_4 = io_in_d_bits_opcode_0 == 3'h6; // @[Monitor.scala:36:7, :673:46] wire d_release_ack; // @[Monitor.scala:673:46] assign d_release_ack = _GEN_4; // @[Monitor.scala:673:46] wire d_release_ack_1; // @[Monitor.scala:783:46] assign d_release_ack_1 = _GEN_4; // @[Monitor.scala:673:46, :783:46] wire _T_1073 = io_in_d_valid_0 & d_first_1; // @[Monitor.scala:36:7, :674:26] wire [127:0] _GEN_5 = 128'h1 << io_in_d_bits_source_0; // @[OneHot.scala:58:35] wire [127:0] _d_clr_wo_ready_T; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T = _GEN_5; // @[OneHot.scala:58:35] wire [127:0] _d_clr_T; // @[OneHot.scala:58:35] assign _d_clr_T = _GEN_5; // @[OneHot.scala:58:35] wire [127:0] _d_clr_wo_ready_T_1; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T_1 = _GEN_5; // @[OneHot.scala:58:35] wire [127:0] _d_clr_T_1; // @[OneHot.scala:58:35] assign _d_clr_T_1 = _GEN_5; // @[OneHot.scala:58:35] assign d_clr_wo_ready = _T_1073 & ~d_release_ack ? _d_clr_wo_ready_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire _T_1042 = _T_1162 & d_first_1 & ~d_release_ack; // @[Decoupled.scala:51:35] assign d_clr = _T_1042 ? _d_clr_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire [1038:0] _d_opcodes_clr_T_5 = 1039'hF << _d_opcodes_clr_T_4; // @[Monitor.scala:680:{76,101}] assign d_opcodes_clr = _T_1042 ? _d_opcodes_clr_T_5[259:0] : 260'h0; // @[Monitor.scala:668:33, :678:{25,70,89}, :680:{21,76}] wire [1038:0] _d_sizes_clr_T_5 = 1039'hF << _d_sizes_clr_T_4; // @[Monitor.scala:681:{74,99}] assign d_sizes_clr = _T_1042 ? _d_sizes_clr_T_5[259:0] : 260'h0; // @[Monitor.scala:670:31, :678:{25,70,89}, :681:{21,74}] wire _same_cycle_resp_T_1 = _same_cycle_resp_T; // @[Monitor.scala:684:{44,55}] wire _same_cycle_resp_T_2 = io_in_a_bits_source_0 == io_in_d_bits_source_0; // @[Monitor.scala:36:7, :684:113] wire same_cycle_resp = _same_cycle_resp_T_1 & _same_cycle_resp_T_2; // @[Monitor.scala:684:{55,88,113}] wire [64:0] _inflight_T = inflight | a_set; // @[Monitor.scala:614:27, :626:34, :705:27] wire [64:0] _inflight_T_1 = ~d_clr; // @[Monitor.scala:664:34, :705:38] wire [64:0] _inflight_T_2 = _inflight_T & _inflight_T_1; // @[Monitor.scala:705:{27,36,38}] wire [259:0] _inflight_opcodes_T = inflight_opcodes | a_opcodes_set; // @[Monitor.scala:616:35, :630:33, :706:43] wire [259:0] _inflight_opcodes_T_1 = ~d_opcodes_clr; // @[Monitor.scala:668:33, :706:62] wire [259:0] _inflight_opcodes_T_2 = _inflight_opcodes_T & _inflight_opcodes_T_1; // @[Monitor.scala:706:{43,60,62}] wire [259:0] _inflight_sizes_T = inflight_sizes | a_sizes_set; // @[Monitor.scala:618:33, :632:31, :707:39] wire [259:0] _inflight_sizes_T_1 = ~d_sizes_clr; // @[Monitor.scala:670:31, :707:56] wire [259:0] _inflight_sizes_T_2 = _inflight_sizes_T & _inflight_sizes_T_1; // @[Monitor.scala:707:{39,54,56}] reg [31:0] watchdog; // @[Monitor.scala:709:27] wire [32:0] _watchdog_T = {1'h0, watchdog} + 33'h1; // @[Monitor.scala:709:27, :714:26] wire [31:0] _watchdog_T_1 = _watchdog_T[31:0]; // @[Monitor.scala:714:26] reg [64:0] inflight_1; // @[Monitor.scala:726:35] wire [64:0] _inflight_T_3 = inflight_1; // @[Monitor.scala:726:35, :814:35] reg [259:0] inflight_opcodes_1; // @[Monitor.scala:727:35] wire [259:0] _inflight_opcodes_T_3 = inflight_opcodes_1; // @[Monitor.scala:727:35, :815:43] reg [259:0] inflight_sizes_1; // @[Monitor.scala:728:35] wire [259:0] _inflight_sizes_T_3 = inflight_sizes_1; // @[Monitor.scala:728:35, :816:41] wire [5:0] _d_first_beats1_decode_T_7 = _d_first_beats1_decode_T_6[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _d_first_beats1_decode_T_8 = ~_d_first_beats1_decode_T_7; // @[package.scala:243:{46,76}] wire [2:0] d_first_beats1_decode_2 = _d_first_beats1_decode_T_8[5:3]; // @[package.scala:243:46] wire [2:0] d_first_beats1_2 = d_first_beats1_opdata_2 ? d_first_beats1_decode_2 : 3'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [2:0] d_first_counter_2; // @[Edges.scala:229:27] wire [3:0] _d_first_counter1_T_2 = {1'h0, d_first_counter_2} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] d_first_counter1_2 = _d_first_counter1_T_2[2:0]; // @[Edges.scala:230:28] wire d_first_2 = d_first_counter_2 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_4 = d_first_counter_2 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_5 = d_first_beats1_2 == 3'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_2 = _d_first_last_T_4 | _d_first_last_T_5; // @[Edges.scala:232:{25,33,43}] wire d_first_done_2 = d_first_last_2 & _d_first_T_2; // @[Decoupled.scala:51:35] wire [2:0] _d_first_count_T_2 = ~d_first_counter1_2; // @[Edges.scala:230:28, :234:27] wire [2:0] d_first_count_2 = d_first_beats1_2 & _d_first_count_T_2; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _d_first_counter_T_2 = d_first_2 ? d_first_beats1_2 : d_first_counter1_2; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [3:0] c_opcode_lookup; // @[Monitor.scala:747:35] wire [3:0] c_size_lookup; // @[Monitor.scala:748:35] wire [259:0] _c_opcode_lookup_T_1 = inflight_opcodes_1 >> _c_opcode_lookup_T; // @[Monitor.scala:727:35, :749:{44,69}] wire [259:0] _c_opcode_lookup_T_6 = {256'h0, _c_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:749:{44,97}] wire [259:0] _c_opcode_lookup_T_7 = {1'h0, _c_opcode_lookup_T_6[259:1]}; // @[Monitor.scala:749:{97,152}] assign c_opcode_lookup = _c_opcode_lookup_T_7[3:0]; // @[Monitor.scala:747:35, :749:{21,152}] wire [259:0] _c_size_lookup_T_1 = inflight_sizes_1 >> _c_size_lookup_T; // @[Monitor.scala:728:35, :750:{42,67}] wire [259:0] _c_size_lookup_T_6 = {256'h0, _c_size_lookup_T_1[3:0]}; // @[Monitor.scala:750:{42,93}] wire [259:0] _c_size_lookup_T_7 = {1'h0, _c_size_lookup_T_6[259:1]}; // @[Monitor.scala:750:{93,146}] assign c_size_lookup = _c_size_lookup_T_7[3:0]; // @[Monitor.scala:748:35, :750:{21,146}] wire [64:0] d_clr_1; // @[Monitor.scala:774:34] wire [64:0] d_clr_wo_ready_1; // @[Monitor.scala:775:34] wire [259:0] d_opcodes_clr_1; // @[Monitor.scala:776:34] wire [259:0] d_sizes_clr_1; // @[Monitor.scala:777:34] wire _T_1138 = io_in_d_valid_0 & d_first_2; // @[Monitor.scala:36:7, :784:26] assign d_clr_wo_ready_1 = _T_1138 & d_release_ack_1 ? _d_clr_wo_ready_T_1[64:0] : 65'h0; // @[OneHot.scala:58:35] wire _T_1120 = _T_1162 & d_first_2 & d_release_ack_1; // @[Decoupled.scala:51:35] assign d_clr_1 = _T_1120 ? _d_clr_T_1[64:0] : 65'h0; // @[OneHot.scala:58:35] wire [1038:0] _d_opcodes_clr_T_11 = 1039'hF << _d_opcodes_clr_T_10; // @[Monitor.scala:790:{76,101}] assign d_opcodes_clr_1 = _T_1120 ? _d_opcodes_clr_T_11[259:0] : 260'h0; // @[Monitor.scala:776:34, :788:{25,70,88}, :790:{21,76}] wire [1038:0] _d_sizes_clr_T_11 = 1039'hF << _d_sizes_clr_T_10; // @[Monitor.scala:791:{74,99}] assign d_sizes_clr_1 = _T_1120 ? _d_sizes_clr_T_11[259:0] : 260'h0; // @[Monitor.scala:777:34, :788:{25,70,88}, :791:{21,74}] wire _same_cycle_resp_T_8 = io_in_d_bits_source_0 == 7'h0; // @[Monitor.scala:36:7, :795:113] wire [64:0] _inflight_T_4 = ~d_clr_1; // @[Monitor.scala:774:34, :814:46] wire [64:0] _inflight_T_5 = _inflight_T_3 & _inflight_T_4; // @[Monitor.scala:814:{35,44,46}] wire [259:0] _inflight_opcodes_T_4 = ~d_opcodes_clr_1; // @[Monitor.scala:776:34, :815:62] wire [259:0] _inflight_opcodes_T_5 = _inflight_opcodes_T_3 & _inflight_opcodes_T_4; // @[Monitor.scala:815:{43,60,62}] wire [259:0] _inflight_sizes_T_4 = ~d_sizes_clr_1; // @[Monitor.scala:777:34, :816:58] wire [259:0] _inflight_sizes_T_5 = _inflight_sizes_T_3 & _inflight_sizes_T_4; // @[Monitor.scala:816:{41,56,58}] reg [31:0] watchdog_1; // @[Monitor.scala:818:27]
Generate the Verilog code corresponding to the following Chisel files. File AsyncQueue.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ case class AsyncQueueParams( depth: Int = 8, sync: Int = 3, safe: Boolean = true, // If safe is true, then effort is made to resynchronize the crossing indices when either side is reset. // This makes it safe/possible to reset one side of the crossing (but not the other) when the queue is empty. narrow: Boolean = false) // If narrow is true then the read mux is moved to the source side of the crossing. // This reduces the number of level shifters in the case where the clock crossing is also a voltage crossing, // at the expense of a combinational path from the sink to the source and back to the sink. { require (depth > 0 && isPow2(depth)) require (sync >= 2) val bits = log2Ceil(depth) val wires = if (narrow) 1 else depth } object AsyncQueueParams { // When there is only one entry, we don't need narrow. def singleton(sync: Int = 3, safe: Boolean = true) = AsyncQueueParams(1, sync, safe, false) } class AsyncBundleSafety extends Bundle { val ridx_valid = Input (Bool()) val widx_valid = Output(Bool()) val source_reset_n = Output(Bool()) val sink_reset_n = Input (Bool()) } class AsyncBundle[T <: Data](private val gen: T, val params: AsyncQueueParams = AsyncQueueParams()) extends Bundle { // Data-path synchronization val mem = Output(Vec(params.wires, gen)) val ridx = Input (UInt((params.bits+1).W)) val widx = Output(UInt((params.bits+1).W)) val index = params.narrow.option(Input(UInt(params.bits.W))) // Signals used to self-stabilize a safe AsyncQueue val safe = params.safe.option(new AsyncBundleSafety) } object GrayCounter { def apply(bits: Int, increment: Bool = true.B, clear: Bool = false.B, name: String = "binary"): UInt = { val incremented = Wire(UInt(bits.W)) val binary = RegNext(next=incremented, init=0.U).suggestName(name) incremented := Mux(clear, 0.U, binary + increment.asUInt) incremented ^ (incremented >> 1) } } class AsyncValidSync(sync: Int, desc: String) extends RawModule { val io = IO(new Bundle { val in = Input(Bool()) val out = Output(Bool()) }) val clock = IO(Input(Clock())) val reset = IO(Input(AsyncReset())) withClockAndReset(clock, reset){ io.out := AsyncResetSynchronizerShiftReg(io.in, sync, Some(desc)) } } class AsyncQueueSource[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSource_${gen.typeName}" val io = IO(new Bundle { // These come from the source domain val enq = Flipped(Decoupled(gen)) // These cross to the sink clock domain val async = new AsyncBundle(gen, params) }) val bits = params.bits val sink_ready = WireInit(true.B) val mem = Reg(Vec(params.depth, gen)) // This does NOT need to be reset at all. val widx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.enq.fire, !sink_ready, "widx_bin")) val ridx = AsyncResetSynchronizerShiftReg(io.async.ridx, params.sync, Some("ridx_gray")) val ready = sink_ready && widx =/= (ridx ^ (params.depth | params.depth >> 1).U) val index = if (bits == 0) 0.U else io.async.widx(bits-1, 0) ^ (io.async.widx(bits, bits) << (bits-1)) when (io.enq.fire) { mem(index) := io.enq.bits } val ready_reg = withReset(reset.asAsyncReset)(RegNext(next=ready, init=false.B).suggestName("ready_reg")) io.enq.ready := ready_reg && sink_ready val widx_reg = withReset(reset.asAsyncReset)(RegNext(next=widx, init=0.U).suggestName("widx_gray")) io.async.widx := widx_reg io.async.index match { case Some(index) => io.async.mem(0) := mem(index) case None => io.async.mem := mem } io.async.safe.foreach { sio => val source_valid_0 = Module(new AsyncValidSync(params.sync, "source_valid_0")) val source_valid_1 = Module(new AsyncValidSync(params.sync, "source_valid_1")) val sink_extend = Module(new AsyncValidSync(params.sync, "sink_extend")) val sink_valid = Module(new AsyncValidSync(params.sync, "sink_valid")) source_valid_0.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset source_valid_1.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_extend .reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_valid .reset := reset.asAsyncReset source_valid_0.clock := clock source_valid_1.clock := clock sink_extend .clock := clock sink_valid .clock := clock source_valid_0.io.in := true.B source_valid_1.io.in := source_valid_0.io.out sio.widx_valid := source_valid_1.io.out sink_extend.io.in := sio.ridx_valid sink_valid.io.in := sink_extend.io.out sink_ready := sink_valid.io.out sio.source_reset_n := !reset.asBool // Assert that if there is stuff in the queue, then reset cannot happen // Impossible to write because dequeue can occur on the receiving side, // then reset allowed to happen, but write side cannot know that dequeue // occurred. // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // assert (!(reset || !sio.sink_reset_n) || !io.enq.valid, "Enqueue while sink is reset and AsyncQueueSource is unprotected") // assert (!reset_rise || prev_idx_match.asBool, "Sink reset while AsyncQueueSource not empty") } } class AsyncQueueSink[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSink_${gen.typeName}" val io = IO(new Bundle { // These come from the sink domain val deq = Decoupled(gen) // These cross to the source clock domain val async = Flipped(new AsyncBundle(gen, params)) }) val bits = params.bits val source_ready = WireInit(true.B) val ridx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.deq.fire, !source_ready, "ridx_bin")) val widx = AsyncResetSynchronizerShiftReg(io.async.widx, params.sync, Some("widx_gray")) val valid = source_ready && ridx =/= widx // The mux is safe because timing analysis ensures ridx has reached the register // On an ASIC, changes to the unread location cannot affect the selected value // On an FPGA, only one input changes at a time => mem updates don't cause glitches // The register only latches when the selected valued is not being written val index = if (bits == 0) 0.U else ridx(bits-1, 0) ^ (ridx(bits, bits) << (bits-1)) io.async.index.foreach { _ := index } // This register does not NEED to be reset, as its contents will not // be considered unless the asynchronously reset deq valid register is set. // It is possible that bits latches when the source domain is reset / has power cut // This is safe, because isolation gates brought mem low before the zeroed widx reached us val deq_bits_nxt = io.async.mem(if (params.narrow) 0.U else index) io.deq.bits := ClockCrossingReg(deq_bits_nxt, en = valid, doInit = false, name = Some("deq_bits_reg")) val valid_reg = withReset(reset.asAsyncReset)(RegNext(next=valid, init=false.B).suggestName("valid_reg")) io.deq.valid := valid_reg && source_ready val ridx_reg = withReset(reset.asAsyncReset)(RegNext(next=ridx, init=0.U).suggestName("ridx_gray")) io.async.ridx := ridx_reg io.async.safe.foreach { sio => val sink_valid_0 = Module(new AsyncValidSync(params.sync, "sink_valid_0")) val sink_valid_1 = Module(new AsyncValidSync(params.sync, "sink_valid_1")) val source_extend = Module(new AsyncValidSync(params.sync, "source_extend")) val source_valid = Module(new AsyncValidSync(params.sync, "source_valid")) sink_valid_0 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset sink_valid_1 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_extend.reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_valid .reset := reset.asAsyncReset sink_valid_0 .clock := clock sink_valid_1 .clock := clock source_extend.clock := clock source_valid .clock := clock sink_valid_0.io.in := true.B sink_valid_1.io.in := sink_valid_0.io.out sio.ridx_valid := sink_valid_1.io.out source_extend.io.in := sio.widx_valid source_valid.io.in := source_extend.io.out source_ready := source_valid.io.out sio.sink_reset_n := !reset.asBool // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // // val reset_and_extend = !source_ready || !sio.source_reset_n || reset.asBool // val reset_and_extend_prev = RegNext(reset_and_extend, true.B) // val reset_rise = !reset_and_extend_prev && reset_and_extend // val prev_idx_match = AsyncResetReg(updateData=(io.async.widx===io.async.ridx), resetData=0) // assert (!reset_rise || prev_idx_match.asBool, "Source reset while AsyncQueueSink not empty") } } object FromAsyncBundle { // Sometimes it makes sense for the sink to have different sync than the source def apply[T <: Data](x: AsyncBundle[T]): DecoupledIO[T] = apply(x, x.params.sync) def apply[T <: Data](x: AsyncBundle[T], sync: Int): DecoupledIO[T] = { val sink = Module(new AsyncQueueSink(chiselTypeOf(x.mem(0)), x.params.copy(sync = sync))) sink.io.async <> x sink.io.deq } } object ToAsyncBundle { def apply[T <: Data](x: ReadyValidIO[T], params: AsyncQueueParams = AsyncQueueParams()): AsyncBundle[T] = { val source = Module(new AsyncQueueSource(chiselTypeOf(x.bits), params)) source.io.enq <> x source.io.async } } class AsyncQueue[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Crossing[T] { val io = IO(new CrossingIO(gen)) val source = withClockAndReset(io.enq_clock, io.enq_reset) { Module(new AsyncQueueSource(gen, params)) } val sink = withClockAndReset(io.deq_clock, io.deq_reset) { Module(new AsyncQueueSink (gen, params)) } source.io.enq <> io.enq io.deq <> sink.io.deq sink.io.async <> source.io.async }
module AsyncQueue_17( // @[AsyncQueue.scala:226:7] input io_enq_clock, // @[AsyncQueue.scala:227:14] input io_enq_reset, // @[AsyncQueue.scala:227:14] output io_enq_ready, // @[AsyncQueue.scala:227:14] input io_enq_valid, // @[AsyncQueue.scala:227:14] input [31:0] io_enq_bits_phit, // @[AsyncQueue.scala:227:14] input io_deq_clock, // @[AsyncQueue.scala:227:14] input io_deq_reset, // @[AsyncQueue.scala:227:14] input io_deq_ready, // @[AsyncQueue.scala:227:14] output io_deq_valid, // @[AsyncQueue.scala:227:14] output [31:0] io_deq_bits_phit // @[AsyncQueue.scala:227:14] ); wire [3:0] _sink_io_async_ridx; // @[AsyncQueue.scala:229:70] wire _sink_io_async_safe_ridx_valid; // @[AsyncQueue.scala:229:70] wire _sink_io_async_safe_sink_reset_n; // @[AsyncQueue.scala:229:70] wire [31:0] _source_io_async_mem_0_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_1_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_2_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_3_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_4_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_5_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_6_phit; // @[AsyncQueue.scala:228:70] wire [31:0] _source_io_async_mem_7_phit; // @[AsyncQueue.scala:228:70] wire [3:0] _source_io_async_widx; // @[AsyncQueue.scala:228:70] wire _source_io_async_safe_widx_valid; // @[AsyncQueue.scala:228:70] wire _source_io_async_safe_source_reset_n; // @[AsyncQueue.scala:228:70] wire io_enq_clock_0 = io_enq_clock; // @[AsyncQueue.scala:226:7] wire io_enq_reset_0 = io_enq_reset; // @[AsyncQueue.scala:226:7] wire io_enq_valid_0 = io_enq_valid; // @[AsyncQueue.scala:226:7] wire [31:0] io_enq_bits_phit_0 = io_enq_bits_phit; // @[AsyncQueue.scala:226:7] wire io_deq_clock_0 = io_deq_clock; // @[AsyncQueue.scala:226:7] wire io_deq_reset_0 = io_deq_reset; // @[AsyncQueue.scala:226:7] wire io_deq_ready_0 = io_deq_ready; // @[AsyncQueue.scala:226:7] wire io_enq_ready_0; // @[AsyncQueue.scala:226:7] wire [31:0] io_deq_bits_phit_0; // @[AsyncQueue.scala:226:7] wire io_deq_valid_0; // @[AsyncQueue.scala:226:7] AsyncQueueSource_Phit_17 source ( // @[AsyncQueue.scala:228:70] .clock (io_enq_clock_0), // @[AsyncQueue.scala:226:7] .reset (io_enq_reset_0), // @[AsyncQueue.scala:226:7] .io_enq_ready (io_enq_ready_0), .io_enq_valid (io_enq_valid_0), // @[AsyncQueue.scala:226:7] .io_enq_bits_phit (io_enq_bits_phit_0), // @[AsyncQueue.scala:226:7] .io_async_mem_0_phit (_source_io_async_mem_0_phit), .io_async_mem_1_phit (_source_io_async_mem_1_phit), .io_async_mem_2_phit (_source_io_async_mem_2_phit), .io_async_mem_3_phit (_source_io_async_mem_3_phit), .io_async_mem_4_phit (_source_io_async_mem_4_phit), .io_async_mem_5_phit (_source_io_async_mem_5_phit), .io_async_mem_6_phit (_source_io_async_mem_6_phit), .io_async_mem_7_phit (_source_io_async_mem_7_phit), .io_async_ridx (_sink_io_async_ridx), // @[AsyncQueue.scala:229:70] .io_async_widx (_source_io_async_widx), .io_async_safe_ridx_valid (_sink_io_async_safe_ridx_valid), // @[AsyncQueue.scala:229:70] .io_async_safe_widx_valid (_source_io_async_safe_widx_valid), .io_async_safe_source_reset_n (_source_io_async_safe_source_reset_n), .io_async_safe_sink_reset_n (_sink_io_async_safe_sink_reset_n) // @[AsyncQueue.scala:229:70] ); // @[AsyncQueue.scala:228:70] AsyncQueueSink_Phit_17 sink ( // @[AsyncQueue.scala:229:70] .clock (io_deq_clock_0), // @[AsyncQueue.scala:226:7] .reset (io_deq_reset_0), // @[AsyncQueue.scala:226:7] .io_deq_ready (io_deq_ready_0), // @[AsyncQueue.scala:226:7] .io_deq_valid (io_deq_valid_0), .io_deq_bits_phit (io_deq_bits_phit_0), .io_async_mem_0_phit (_source_io_async_mem_0_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_1_phit (_source_io_async_mem_1_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_2_phit (_source_io_async_mem_2_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_3_phit (_source_io_async_mem_3_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_4_phit (_source_io_async_mem_4_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_5_phit (_source_io_async_mem_5_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_6_phit (_source_io_async_mem_6_phit), // @[AsyncQueue.scala:228:70] .io_async_mem_7_phit (_source_io_async_mem_7_phit), // @[AsyncQueue.scala:228:70] .io_async_ridx (_sink_io_async_ridx), .io_async_widx (_source_io_async_widx), // @[AsyncQueue.scala:228:70] .io_async_safe_ridx_valid (_sink_io_async_safe_ridx_valid), .io_async_safe_widx_valid (_source_io_async_safe_widx_valid), // @[AsyncQueue.scala:228:70] .io_async_safe_source_reset_n (_source_io_async_safe_source_reset_n), // @[AsyncQueue.scala:228:70] .io_async_safe_sink_reset_n (_sink_io_async_safe_sink_reset_n) ); // @[AsyncQueue.scala:229:70] assign io_enq_ready = io_enq_ready_0; // @[AsyncQueue.scala:226:7] assign io_deq_valid = io_deq_valid_0; // @[AsyncQueue.scala:226:7] assign io_deq_bits_phit = io_deq_bits_phit_0; // @[AsyncQueue.scala:226:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File SynchronizerReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util.{RegEnable, Cat} /** These wrap behavioral * shift and next registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * * These are built up of *ResetSynchronizerPrimitiveShiftReg, * intended to be replaced by the integrator's metastable flops chains or replaced * at this level if they have a multi-bit wide synchronizer primitive. * The different types vary in their reset behavior: * NonSyncResetSynchronizerShiftReg -- Register array which does not have a reset pin * AsyncResetSynchronizerShiftReg -- Asynchronously reset register array, constructed from W instantiations of D deep * 1-bit-wide shift registers. * SyncResetSynchronizerShiftReg -- Synchronously reset register array, constructed similarly to AsyncResetSynchronizerShiftReg * * [Inferred]ResetSynchronizerShiftReg -- TBD reset type by chisel3 reset inference. * * ClockCrossingReg -- Not made up of SynchronizerPrimitiveShiftReg. This is for single-deep flops which cross * Clock Domains. */ object SynchronizerResetType extends Enumeration { val NonSync, Inferred, Sync, Async = Value } // Note: this should not be used directly. // Use the companion object to generate this with the correct reset type mixin. private class SynchronizerPrimitiveShiftReg( sync: Int, init: Boolean, resetType: SynchronizerResetType.Value) extends AbstractPipelineReg(1) { val initInt = if (init) 1 else 0 val initPostfix = resetType match { case SynchronizerResetType.NonSync => "" case _ => s"_i${initInt}" } override def desiredName = s"${resetType.toString}ResetSynchronizerPrimitiveShiftReg_d${sync}${initPostfix}" val chain = List.tabulate(sync) { i => val reg = if (resetType == SynchronizerResetType.NonSync) Reg(Bool()) else RegInit(init.B) reg.suggestName(s"sync_$i") } chain.last := io.d.asBool (chain.init zip chain.tail).foreach { case (sink, source) => sink := source } io.q := chain.head.asUInt } private object SynchronizerPrimitiveShiftReg { def apply (in: Bool, sync: Int, init: Boolean, resetType: SynchronizerResetType.Value): Bool = { val gen: () => SynchronizerPrimitiveShiftReg = resetType match { case SynchronizerResetType.NonSync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) case SynchronizerResetType.Async => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireAsyncReset case SynchronizerResetType.Sync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireSyncReset case SynchronizerResetType.Inferred => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) } AbstractPipelineReg(gen(), in) } } // Note: This module may end up with a non-AsyncReset type reset. // But the Primitives within will always have AsyncReset type. class AsyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"AsyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asAsyncReset){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Async) } } io.q := Cat(output.reverse) } object AsyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } // Note: This module may end up with a non-Bool type reset. // But the Primitives within will always have Bool reset type. @deprecated("SyncResetSynchronizerShiftReg is unecessary with Chisel3 inferred resets. Use ResetSynchronizerShiftReg which will use the inferred reset type.", "rocket-chip 1.2") class SyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asBool){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Sync) } } io.q := Cat(output.reverse) } object SyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class ResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"ResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Inferred) } io.q := Cat(output.reverse) } object ResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new ResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class SynchronizerShiftReg(w: Int = 1, sync: Int = 3) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SynchronizerShiftReg_w${w}_d${sync}" val output = Seq.tabulate(w) { i => SynchronizerPrimitiveShiftReg(io.d(i), sync, false, SynchronizerResetType.NonSync) } io.q := Cat(output.reverse) } object SynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SynchronizerShiftReg(in.getWidth, sync), in, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, None) def apply [T <: Data](in: T): T = apply (in, 3, None) } class ClockCrossingReg(w: Int = 1, doInit: Boolean) extends Module { override def desiredName = s"ClockCrossingReg_w${w}" val io = IO(new Bundle{ val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) val en = Input(Bool()) }) val cdc_reg = if (doInit) RegEnable(io.d, 0.U(w.W), io.en) else RegEnable(io.d, io.en) io.q := cdc_reg } object ClockCrossingReg { def apply [T <: Data](in: T, en: Bool, doInit: Boolean, name: Option[String] = None): T = { val cdc_reg = Module(new ClockCrossingReg(in.getWidth, doInit)) name.foreach{ cdc_reg.suggestName(_) } cdc_reg.io.d := in.asUInt cdc_reg.io.en := en cdc_reg.io.q.asTypeOf(in) } }
module AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_492( // @[SynchronizerReg.scala:68:19] input clock, // @[SynchronizerReg.scala:68:19] input reset, // @[SynchronizerReg.scala:68:19] input io_d, // @[ShiftReg.scala:36:14] output io_q // @[ShiftReg.scala:36:14] ); wire io_d_0 = io_d; // @[SynchronizerReg.scala:68:19] wire _sync_2_T = io_d_0; // @[SynchronizerReg.scala:54:22, :68:19] wire io_q_0; // @[SynchronizerReg.scala:68:19] reg sync_0; // @[SynchronizerReg.scala:51:87] assign io_q_0 = sync_0; // @[SynchronizerReg.scala:51:87, :68:19] reg sync_1; // @[SynchronizerReg.scala:51:87] reg sync_2; // @[SynchronizerReg.scala:51:87] always @(posedge clock or posedge reset) begin // @[SynchronizerReg.scala:68:19] if (reset) begin // @[SynchronizerReg.scala:68:19] sync_0 <= 1'h0; // @[SynchronizerReg.scala:51:87] sync_1 <= 1'h0; // @[SynchronizerReg.scala:51:87] sync_2 <= 1'h0; // @[SynchronizerReg.scala:51:87] end else begin // @[SynchronizerReg.scala:68:19] sync_0 <= sync_1; // @[SynchronizerReg.scala:51:87] sync_1 <= sync_2; // @[SynchronizerReg.scala:51:87] sync_2 <= _sync_2_T; // @[SynchronizerReg.scala:51:87, :54:22] end always @(posedge, posedge)
Generate the Verilog code corresponding to the following Chisel files. File PE.scala: // See README.md for license details. package gemmini import chisel3._ import chisel3.util._ class PEControl[T <: Data : Arithmetic](accType: T) extends Bundle { val dataflow = UInt(1.W) // TODO make this an Enum val propagate = UInt(1.W) // Which register should be propagated (and which should be accumulated)? val shift = UInt(log2Up(accType.getWidth).W) // TODO this isn't correct for Floats } class MacUnit[T <: Data](inputType: T, cType: T, dType: T) (implicit ev: Arithmetic[T]) extends Module { import ev._ val io = IO(new Bundle { val in_a = Input(inputType) val in_b = Input(inputType) val in_c = Input(cType) val out_d = Output(dType) }) io.out_d := io.in_c.mac(io.in_a, io.in_b) } // TODO update documentation /** * A PE implementing a MAC operation. Configured as fully combinational when integrated into a Mesh. * @param width Data width of operands */ class PE[T <: Data](inputType: T, outputType: T, accType: T, df: Dataflow.Value, max_simultaneous_matmuls: Int) (implicit ev: Arithmetic[T]) extends Module { // Debugging variables import ev._ val io = IO(new Bundle { val in_a = Input(inputType) val in_b = Input(outputType) val in_d = Input(outputType) val out_a = Output(inputType) val out_b = Output(outputType) val out_c = Output(outputType) val in_control = Input(new PEControl(accType)) val out_control = Output(new PEControl(accType)) val in_id = Input(UInt(log2Up(max_simultaneous_matmuls).W)) val out_id = Output(UInt(log2Up(max_simultaneous_matmuls).W)) val in_last = Input(Bool()) val out_last = Output(Bool()) val in_valid = Input(Bool()) val out_valid = Output(Bool()) val bad_dataflow = Output(Bool()) }) val cType = if (df == Dataflow.WS) inputType else accType // When creating PEs that support multiple dataflows, the // elaboration/synthesis tools often fail to consolidate and de-duplicate // MAC units. To force mac circuitry to be re-used, we create a "mac_unit" // module here which just performs a single MAC operation val mac_unit = Module(new MacUnit(inputType, if (df == Dataflow.WS) outputType else accType, outputType)) val a = io.in_a val b = io.in_b val d = io.in_d val c1 = Reg(cType) val c2 = Reg(cType) val dataflow = io.in_control.dataflow val prop = io.in_control.propagate val shift = io.in_control.shift val id = io.in_id val last = io.in_last val valid = io.in_valid io.out_a := a io.out_control.dataflow := dataflow io.out_control.propagate := prop io.out_control.shift := shift io.out_id := id io.out_last := last io.out_valid := valid mac_unit.io.in_a := a val last_s = RegEnable(prop, valid) val flip = last_s =/= prop val shift_offset = Mux(flip, shift, 0.U) // Which dataflow are we using? val OUTPUT_STATIONARY = Dataflow.OS.id.U(1.W) val WEIGHT_STATIONARY = Dataflow.WS.id.U(1.W) // Is c1 being computed on, or propagated forward (in the output-stationary dataflow)? val COMPUTE = 0.U(1.W) val PROPAGATE = 1.U(1.W) io.bad_dataflow := false.B when ((df == Dataflow.OS).B || ((df == Dataflow.BOTH).B && dataflow === OUTPUT_STATIONARY)) { when(prop === PROPAGATE) { io.out_c := (c1 >> shift_offset).clippedToWidthOf(outputType) io.out_b := b mac_unit.io.in_b := b.asTypeOf(inputType) mac_unit.io.in_c := c2 c2 := mac_unit.io.out_d c1 := d.withWidthOf(cType) }.otherwise { io.out_c := (c2 >> shift_offset).clippedToWidthOf(outputType) io.out_b := b mac_unit.io.in_b := b.asTypeOf(inputType) mac_unit.io.in_c := c1 c1 := mac_unit.io.out_d c2 := d.withWidthOf(cType) } }.elsewhen ((df == Dataflow.WS).B || ((df == Dataflow.BOTH).B && dataflow === WEIGHT_STATIONARY)) { when(prop === PROPAGATE) { io.out_c := c1 mac_unit.io.in_b := c2.asTypeOf(inputType) mac_unit.io.in_c := b io.out_b := mac_unit.io.out_d c1 := d }.otherwise { io.out_c := c2 mac_unit.io.in_b := c1.asTypeOf(inputType) mac_unit.io.in_c := b io.out_b := mac_unit.io.out_d c2 := d } }.otherwise { io.bad_dataflow := true.B //assert(false.B, "unknown dataflow") io.out_c := DontCare io.out_b := DontCare mac_unit.io.in_b := b.asTypeOf(inputType) mac_unit.io.in_c := c2 } when (!valid) { c1 := c1 c2 := c2 mac_unit.io.in_b := DontCare mac_unit.io.in_c := DontCare } } File Arithmetic.scala: // A simple type class for Chisel datatypes that can add and multiply. To add your own type, simply create your own: // implicit MyTypeArithmetic extends Arithmetic[MyType] { ... } package gemmini import chisel3._ import chisel3.util._ import hardfloat._ // Bundles that represent the raw bits of custom datatypes case class Float(expWidth: Int, sigWidth: Int) extends Bundle { val bits = UInt((expWidth + sigWidth).W) val bias: Int = (1 << (expWidth-1)) - 1 } case class DummySInt(w: Int) extends Bundle { val bits = UInt(w.W) def dontCare: DummySInt = { val o = Wire(new DummySInt(w)) o.bits := 0.U o } } // The Arithmetic typeclass which implements various arithmetic operations on custom datatypes abstract class Arithmetic[T <: Data] { implicit def cast(t: T): ArithmeticOps[T] } abstract class ArithmeticOps[T <: Data](self: T) { def *(t: T): T def mac(m1: T, m2: T): T // Returns (m1 * m2 + self) def +(t: T): T def -(t: T): T def >>(u: UInt): T // This is a rounding shift! Rounds away from 0 def >(t: T): Bool def identity: T def withWidthOf(t: T): T def clippedToWidthOf(t: T): T // Like "withWidthOf", except that it saturates def relu: T def zero: T def minimum: T // Optional parameters, which only need to be defined if you want to enable various optimizations for transformers def divider(denom_t: UInt, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[T])] = None def sqrt: Option[(DecoupledIO[UInt], DecoupledIO[T])] = None def reciprocal[U <: Data](u: U, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[U])] = None def mult_with_reciprocal[U <: Data](reciprocal: U) = self } object Arithmetic { implicit object UIntArithmetic extends Arithmetic[UInt] { override implicit def cast(self: UInt) = new ArithmeticOps(self) { override def *(t: UInt) = self * t override def mac(m1: UInt, m2: UInt) = m1 * m2 + self override def +(t: UInt) = self + t override def -(t: UInt) = self - t override def >>(u: UInt) = { // The equation we use can be found here: https://riscv.github.io/documents/riscv-v-spec/#_vector_fixed_point_rounding_mode_register_vxrm // TODO Do we need to explicitly handle the cases where "u" is a small number (like 0)? What is the default behavior here? val point_five = Mux(u === 0.U, 0.U, self(u - 1.U)) val zeros = Mux(u <= 1.U, 0.U, self.asUInt & ((1.U << (u - 1.U)).asUInt - 1.U)) =/= 0.U val ones_digit = self(u) val r = point_five & (zeros | ones_digit) (self >> u).asUInt + r } override def >(t: UInt): Bool = self > t override def withWidthOf(t: UInt) = self.asTypeOf(t) override def clippedToWidthOf(t: UInt) = { val sat = ((1 << (t.getWidth-1))-1).U Mux(self > sat, sat, self)(t.getWidth-1, 0) } override def relu: UInt = self override def zero: UInt = 0.U override def identity: UInt = 1.U override def minimum: UInt = 0.U } } implicit object SIntArithmetic extends Arithmetic[SInt] { override implicit def cast(self: SInt) = new ArithmeticOps(self) { override def *(t: SInt) = self * t override def mac(m1: SInt, m2: SInt) = m1 * m2 + self override def +(t: SInt) = self + t override def -(t: SInt) = self - t override def >>(u: UInt) = { // The equation we use can be found here: https://riscv.github.io/documents/riscv-v-spec/#_vector_fixed_point_rounding_mode_register_vxrm // TODO Do we need to explicitly handle the cases where "u" is a small number (like 0)? What is the default behavior here? val point_five = Mux(u === 0.U, 0.U, self(u - 1.U)) val zeros = Mux(u <= 1.U, 0.U, self.asUInt & ((1.U << (u - 1.U)).asUInt - 1.U)) =/= 0.U val ones_digit = self(u) val r = (point_five & (zeros | ones_digit)).asBool (self >> u).asSInt + Mux(r, 1.S, 0.S) } override def >(t: SInt): Bool = self > t override def withWidthOf(t: SInt) = { if (self.getWidth >= t.getWidth) self(t.getWidth-1, 0).asSInt else { val sign_bits = t.getWidth - self.getWidth val sign = self(self.getWidth-1) Cat(Cat(Seq.fill(sign_bits)(sign)), self).asTypeOf(t) } } override def clippedToWidthOf(t: SInt): SInt = { val maxsat = ((1 << (t.getWidth-1))-1).S val minsat = (-(1 << (t.getWidth-1))).S MuxCase(self, Seq((self > maxsat) -> maxsat, (self < minsat) -> minsat))(t.getWidth-1, 0).asSInt } override def relu: SInt = Mux(self >= 0.S, self, 0.S) override def zero: SInt = 0.S override def identity: SInt = 1.S override def minimum: SInt = (-(1 << (self.getWidth-1))).S override def divider(denom_t: UInt, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[SInt])] = { // TODO this uses a floating point divider, but we should use an integer divider instead val input = Wire(Decoupled(denom_t.cloneType)) val output = Wire(Decoupled(self.cloneType)) // We translate our integer to floating-point form so that we can use the hardfloat divider val expWidth = log2Up(self.getWidth) + 1 val sigWidth = self.getWidth def sin_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_minMag // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def uin_to_float(x: UInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := false.B in_to_rec_fn.io.in := x in_to_rec_fn.io.roundingMode := consts.round_minMag // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def float_to_in(x: UInt) = { val rec_fn_to_in = Module(new RecFNToIN(expWidth = expWidth, sigWidth, self.getWidth)) rec_fn_to_in.io.signedOut := true.B rec_fn_to_in.io.in := x rec_fn_to_in.io.roundingMode := consts.round_minMag // consts.round_near_maxMag rec_fn_to_in.io.out.asSInt } val self_rec = sin_to_float(self) val denom_rec = uin_to_float(input.bits) // Instantiate the hardloat divider val divider = Module(new DivSqrtRecFN_small(expWidth, sigWidth, options)) input.ready := divider.io.inReady divider.io.inValid := input.valid divider.io.sqrtOp := false.B divider.io.a := self_rec divider.io.b := denom_rec divider.io.roundingMode := consts.round_minMag divider.io.detectTininess := consts.tininess_afterRounding output.valid := divider.io.outValid_div output.bits := float_to_in(divider.io.out) assert(!output.valid || output.ready) Some((input, output)) } override def sqrt: Option[(DecoupledIO[UInt], DecoupledIO[SInt])] = { // TODO this uses a floating point divider, but we should use an integer divider instead val input = Wire(Decoupled(UInt(0.W))) val output = Wire(Decoupled(self.cloneType)) input.bits := DontCare // We translate our integer to floating-point form so that we can use the hardfloat divider val expWidth = log2Up(self.getWidth) + 1 val sigWidth = self.getWidth def in_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_minMag // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def float_to_in(x: UInt) = { val rec_fn_to_in = Module(new RecFNToIN(expWidth = expWidth, sigWidth, self.getWidth)) rec_fn_to_in.io.signedOut := true.B rec_fn_to_in.io.in := x rec_fn_to_in.io.roundingMode := consts.round_minMag // consts.round_near_maxMag rec_fn_to_in.io.out.asSInt } val self_rec = in_to_float(self) // Instantiate the hardloat sqrt val sqrter = Module(new DivSqrtRecFN_small(expWidth, sigWidth, 0)) input.ready := sqrter.io.inReady sqrter.io.inValid := input.valid sqrter.io.sqrtOp := true.B sqrter.io.a := self_rec sqrter.io.b := DontCare sqrter.io.roundingMode := consts.round_minMag sqrter.io.detectTininess := consts.tininess_afterRounding output.valid := sqrter.io.outValid_sqrt output.bits := float_to_in(sqrter.io.out) assert(!output.valid || output.ready) Some((input, output)) } override def reciprocal[U <: Data](u: U, options: Int = 0): Option[(DecoupledIO[UInt], DecoupledIO[U])] = u match { case Float(expWidth, sigWidth) => val input = Wire(Decoupled(UInt(0.W))) val output = Wire(Decoupled(u.cloneType)) input.bits := DontCare // We translate our integer to floating-point form so that we can use the hardfloat divider def in_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_near_even // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } val self_rec = in_to_float(self) val one_rec = in_to_float(1.S) // Instantiate the hardloat divider val divider = Module(new DivSqrtRecFN_small(expWidth, sigWidth, options)) input.ready := divider.io.inReady divider.io.inValid := input.valid divider.io.sqrtOp := false.B divider.io.a := one_rec divider.io.b := self_rec divider.io.roundingMode := consts.round_near_even divider.io.detectTininess := consts.tininess_afterRounding output.valid := divider.io.outValid_div output.bits := fNFromRecFN(expWidth, sigWidth, divider.io.out).asTypeOf(u) assert(!output.valid || output.ready) Some((input, output)) case _ => None } override def mult_with_reciprocal[U <: Data](reciprocal: U): SInt = reciprocal match { case recip @ Float(expWidth, sigWidth) => def in_to_float(x: SInt) = { val in_to_rec_fn = Module(new INToRecFN(intWidth = self.getWidth, expWidth, sigWidth)) in_to_rec_fn.io.signedIn := true.B in_to_rec_fn.io.in := x.asUInt in_to_rec_fn.io.roundingMode := consts.round_near_even // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding in_to_rec_fn.io.out } def float_to_in(x: UInt) = { val rec_fn_to_in = Module(new RecFNToIN(expWidth = expWidth, sigWidth, self.getWidth)) rec_fn_to_in.io.signedOut := true.B rec_fn_to_in.io.in := x rec_fn_to_in.io.roundingMode := consts.round_minMag rec_fn_to_in.io.out.asSInt } val self_rec = in_to_float(self) val reciprocal_rec = recFNFromFN(expWidth, sigWidth, recip.bits) // Instantiate the hardloat divider val muladder = Module(new MulRecFN(expWidth, sigWidth)) muladder.io.roundingMode := consts.round_near_even muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := self_rec muladder.io.b := reciprocal_rec float_to_in(muladder.io.out) case _ => self } } } implicit object FloatArithmetic extends Arithmetic[Float] { // TODO Floating point arithmetic currently switches between recoded and standard formats for every operation. However, it should stay in the recoded format as it travels through the systolic array override implicit def cast(self: Float): ArithmeticOps[Float] = new ArithmeticOps(self) { override def *(t: Float): Float = { val t_rec = recFNFromFN(t.expWidth, t.sigWidth, t.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) val t_resizer = Module(new RecFNToRecFN(t.expWidth, t.sigWidth, self.expWidth, self.sigWidth)) t_resizer.io.in := t_rec t_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag t_resizer.io.detectTininess := consts.tininess_afterRounding val t_rec_resized = t_resizer.io.out val muladder = Module(new MulRecFN(self.expWidth, self.sigWidth)) muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := self_rec muladder.io.b := t_rec_resized val out = Wire(Float(self.expWidth, self.sigWidth)) out.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) out } override def mac(m1: Float, m2: Float): Float = { // Recode all operands val m1_rec = recFNFromFN(m1.expWidth, m1.sigWidth, m1.bits) val m2_rec = recFNFromFN(m2.expWidth, m2.sigWidth, m2.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Resize m1 to self's width val m1_resizer = Module(new RecFNToRecFN(m1.expWidth, m1.sigWidth, self.expWidth, self.sigWidth)) m1_resizer.io.in := m1_rec m1_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag m1_resizer.io.detectTininess := consts.tininess_afterRounding val m1_rec_resized = m1_resizer.io.out // Resize m2 to self's width val m2_resizer = Module(new RecFNToRecFN(m2.expWidth, m2.sigWidth, self.expWidth, self.sigWidth)) m2_resizer.io.in := m2_rec m2_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag m2_resizer.io.detectTininess := consts.tininess_afterRounding val m2_rec_resized = m2_resizer.io.out // Perform multiply-add val muladder = Module(new MulAddRecFN(self.expWidth, self.sigWidth)) muladder.io.op := 0.U muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := m1_rec_resized muladder.io.b := m2_rec_resized muladder.io.c := self_rec // Convert result to standard format // TODO remove these intermediate recodings val out = Wire(Float(self.expWidth, self.sigWidth)) out.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) out } override def +(t: Float): Float = { require(self.getWidth >= t.getWidth) // This just makes it easier to write the resizing code // Recode all operands val t_rec = recFNFromFN(t.expWidth, t.sigWidth, t.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Generate 1 as a float val in_to_rec_fn = Module(new INToRecFN(1, self.expWidth, self.sigWidth)) in_to_rec_fn.io.signedIn := false.B in_to_rec_fn.io.in := 1.U in_to_rec_fn.io.roundingMode := consts.round_near_even // consts.round_near_maxMag in_to_rec_fn.io.detectTininess := consts.tininess_afterRounding val one_rec = in_to_rec_fn.io.out // Resize t val t_resizer = Module(new RecFNToRecFN(t.expWidth, t.sigWidth, self.expWidth, self.sigWidth)) t_resizer.io.in := t_rec t_resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag t_resizer.io.detectTininess := consts.tininess_afterRounding val t_rec_resized = t_resizer.io.out // Perform addition val muladder = Module(new MulAddRecFN(self.expWidth, self.sigWidth)) muladder.io.op := 0.U muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := t_rec_resized muladder.io.b := one_rec muladder.io.c := self_rec val result = Wire(Float(self.expWidth, self.sigWidth)) result.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) result } override def -(t: Float): Float = { val t_sgn = t.bits(t.getWidth-1) val neg_t = Cat(~t_sgn, t.bits(t.getWidth-2,0)).asTypeOf(t) self + neg_t } override def >>(u: UInt): Float = { // Recode self val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Get 2^(-u) as a recoded float val shift_exp = Wire(UInt(self.expWidth.W)) shift_exp := self.bias.U - u val shift_fn = Cat(0.U(1.W), shift_exp, 0.U((self.sigWidth-1).W)) val shift_rec = recFNFromFN(self.expWidth, self.sigWidth, shift_fn) assert(shift_exp =/= 0.U, "scaling by denormalized numbers is not currently supported") // Multiply self and 2^(-u) val muladder = Module(new MulRecFN(self.expWidth, self.sigWidth)) muladder.io.roundingMode := consts.round_near_even // consts.round_near_maxMag muladder.io.detectTininess := consts.tininess_afterRounding muladder.io.a := self_rec muladder.io.b := shift_rec val result = Wire(Float(self.expWidth, self.sigWidth)) result.bits := fNFromRecFN(self.expWidth, self.sigWidth, muladder.io.out) result } override def >(t: Float): Bool = { // Recode all operands val t_rec = recFNFromFN(t.expWidth, t.sigWidth, t.bits) val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) // Resize t to self's width val t_resizer = Module(new RecFNToRecFN(t.expWidth, t.sigWidth, self.expWidth, self.sigWidth)) t_resizer.io.in := t_rec t_resizer.io.roundingMode := consts.round_near_even t_resizer.io.detectTininess := consts.tininess_afterRounding val t_rec_resized = t_resizer.io.out val comparator = Module(new CompareRecFN(self.expWidth, self.sigWidth)) comparator.io.a := self_rec comparator.io.b := t_rec_resized comparator.io.signaling := false.B comparator.io.gt } override def withWidthOf(t: Float): Float = { val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) val resizer = Module(new RecFNToRecFN(self.expWidth, self.sigWidth, t.expWidth, t.sigWidth)) resizer.io.in := self_rec resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag resizer.io.detectTininess := consts.tininess_afterRounding val result = Wire(Float(t.expWidth, t.sigWidth)) result.bits := fNFromRecFN(t.expWidth, t.sigWidth, resizer.io.out) result } override def clippedToWidthOf(t: Float): Float = { // TODO check for overflow. Right now, we just assume that overflow doesn't happen val self_rec = recFNFromFN(self.expWidth, self.sigWidth, self.bits) val resizer = Module(new RecFNToRecFN(self.expWidth, self.sigWidth, t.expWidth, t.sigWidth)) resizer.io.in := self_rec resizer.io.roundingMode := consts.round_near_even // consts.round_near_maxMag resizer.io.detectTininess := consts.tininess_afterRounding val result = Wire(Float(t.expWidth, t.sigWidth)) result.bits := fNFromRecFN(t.expWidth, t.sigWidth, resizer.io.out) result } override def relu: Float = { val raw = rawFloatFromFN(self.expWidth, self.sigWidth, self.bits) val result = Wire(Float(self.expWidth, self.sigWidth)) result.bits := Mux(!raw.isZero && raw.sign, 0.U, self.bits) result } override def zero: Float = 0.U.asTypeOf(self) override def identity: Float = Cat(0.U(2.W), ~(0.U((self.expWidth-1).W)), 0.U((self.sigWidth-1).W)).asTypeOf(self) override def minimum: Float = Cat(1.U, ~(0.U(self.expWidth.W)), 0.U((self.sigWidth-1).W)).asTypeOf(self) } } implicit object DummySIntArithmetic extends Arithmetic[DummySInt] { override implicit def cast(self: DummySInt) = new ArithmeticOps(self) { override def *(t: DummySInt) = self.dontCare override def mac(m1: DummySInt, m2: DummySInt) = self.dontCare override def +(t: DummySInt) = self.dontCare override def -(t: DummySInt) = self.dontCare override def >>(t: UInt) = self.dontCare override def >(t: DummySInt): Bool = false.B override def identity = self.dontCare override def withWidthOf(t: DummySInt) = self.dontCare override def clippedToWidthOf(t: DummySInt) = self.dontCare override def relu = self.dontCare override def zero = self.dontCare override def minimum: DummySInt = self.dontCare } } }
module PE_274( // @[PE.scala:31:7] input clock, // @[PE.scala:31:7] input reset, // @[PE.scala:31:7] input [7:0] io_in_a, // @[PE.scala:35:14] input [19:0] io_in_b, // @[PE.scala:35:14] input [19:0] io_in_d, // @[PE.scala:35:14] output [7:0] io_out_a, // @[PE.scala:35:14] output [19:0] io_out_b, // @[PE.scala:35:14] output [19:0] io_out_c, // @[PE.scala:35:14] input io_in_control_dataflow, // @[PE.scala:35:14] input io_in_control_propagate, // @[PE.scala:35:14] input [4:0] io_in_control_shift, // @[PE.scala:35:14] output io_out_control_dataflow, // @[PE.scala:35:14] output io_out_control_propagate, // @[PE.scala:35:14] output [4:0] io_out_control_shift, // @[PE.scala:35:14] input [2:0] io_in_id, // @[PE.scala:35:14] output [2:0] io_out_id, // @[PE.scala:35:14] input io_in_last, // @[PE.scala:35:14] output io_out_last, // @[PE.scala:35:14] input io_in_valid, // @[PE.scala:35:14] output io_out_valid // @[PE.scala:35:14] ); wire [7:0] io_in_a_0 = io_in_a; // @[PE.scala:31:7] wire [19:0] io_in_b_0 = io_in_b; // @[PE.scala:31:7] wire [19:0] io_in_d_0 = io_in_d; // @[PE.scala:31:7] wire io_in_control_dataflow_0 = io_in_control_dataflow; // @[PE.scala:31:7] wire io_in_control_propagate_0 = io_in_control_propagate; // @[PE.scala:31:7] wire [4:0] io_in_control_shift_0 = io_in_control_shift; // @[PE.scala:31:7] wire [2:0] io_in_id_0 = io_in_id; // @[PE.scala:31:7] wire io_in_last_0 = io_in_last; // @[PE.scala:31:7] wire io_in_valid_0 = io_in_valid; // @[PE.scala:31:7] wire io_bad_dataflow = 1'h0; // @[PE.scala:31:7] wire _io_out_c_T_5 = 1'h0; // @[Arithmetic.scala:125:33] wire _io_out_c_T_6 = 1'h0; // @[Arithmetic.scala:125:60] wire _io_out_c_T_16 = 1'h0; // @[Arithmetic.scala:125:33] wire _io_out_c_T_17 = 1'h0; // @[Arithmetic.scala:125:60] wire [7:0] io_out_a_0 = io_in_a_0; // @[PE.scala:31:7] wire [19:0] _mac_unit_io_in_b_T = io_in_b_0; // @[PE.scala:31:7, :106:37] wire [19:0] _mac_unit_io_in_b_T_2 = io_in_b_0; // @[PE.scala:31:7, :113:37] wire [19:0] _mac_unit_io_in_b_T_8 = io_in_b_0; // @[PE.scala:31:7, :137:35] wire io_out_control_dataflow_0 = io_in_control_dataflow_0; // @[PE.scala:31:7] wire io_out_control_propagate_0 = io_in_control_propagate_0; // @[PE.scala:31:7] wire [4:0] io_out_control_shift_0 = io_in_control_shift_0; // @[PE.scala:31:7] wire [2:0] io_out_id_0 = io_in_id_0; // @[PE.scala:31:7] wire io_out_last_0 = io_in_last_0; // @[PE.scala:31:7] wire io_out_valid_0 = io_in_valid_0; // @[PE.scala:31:7] wire [19:0] io_out_b_0; // @[PE.scala:31:7] wire [19:0] io_out_c_0; // @[PE.scala:31:7] reg [7:0] c1; // @[PE.scala:70:15] wire [7:0] _io_out_c_zeros_T_1 = c1; // @[PE.scala:70:15] wire [7:0] _mac_unit_io_in_b_T_6 = c1; // @[PE.scala:70:15, :127:38] reg [7:0] c2; // @[PE.scala:71:15] wire [7:0] _io_out_c_zeros_T_10 = c2; // @[PE.scala:71:15] wire [7:0] _mac_unit_io_in_b_T_4 = c2; // @[PE.scala:71:15, :121:38] reg last_s; // @[PE.scala:89:25] wire flip = last_s != io_in_control_propagate_0; // @[PE.scala:31:7, :89:25, :90:21] wire [4:0] shift_offset = flip ? io_in_control_shift_0 : 5'h0; // @[PE.scala:31:7, :90:21, :91:25] wire _GEN = shift_offset == 5'h0; // @[PE.scala:91:25] wire _io_out_c_point_five_T; // @[Arithmetic.scala:101:32] assign _io_out_c_point_five_T = _GEN; // @[Arithmetic.scala:101:32] wire _io_out_c_point_five_T_5; // @[Arithmetic.scala:101:32] assign _io_out_c_point_five_T_5 = _GEN; // @[Arithmetic.scala:101:32] wire [5:0] _GEN_0 = {1'h0, shift_offset} - 6'h1; // @[PE.scala:91:25] wire [5:0] _io_out_c_point_five_T_1; // @[Arithmetic.scala:101:53] assign _io_out_c_point_five_T_1 = _GEN_0; // @[Arithmetic.scala:101:53] wire [5:0] _io_out_c_zeros_T_2; // @[Arithmetic.scala:102:66] assign _io_out_c_zeros_T_2 = _GEN_0; // @[Arithmetic.scala:101:53, :102:66] wire [5:0] _io_out_c_point_five_T_6; // @[Arithmetic.scala:101:53] assign _io_out_c_point_five_T_6 = _GEN_0; // @[Arithmetic.scala:101:53] wire [5:0] _io_out_c_zeros_T_11; // @[Arithmetic.scala:102:66] assign _io_out_c_zeros_T_11 = _GEN_0; // @[Arithmetic.scala:101:53, :102:66] wire [4:0] _io_out_c_point_five_T_2 = _io_out_c_point_five_T_1[4:0]; // @[Arithmetic.scala:101:53] wire [7:0] _io_out_c_point_five_T_3 = $signed($signed(c1) >>> _io_out_c_point_five_T_2); // @[PE.scala:70:15] wire _io_out_c_point_five_T_4 = _io_out_c_point_five_T_3[0]; // @[Arithmetic.scala:101:50] wire io_out_c_point_five = ~_io_out_c_point_five_T & _io_out_c_point_five_T_4; // @[Arithmetic.scala:101:{29,32,50}] wire _GEN_1 = shift_offset < 5'h2; // @[PE.scala:91:25] wire _io_out_c_zeros_T; // @[Arithmetic.scala:102:27] assign _io_out_c_zeros_T = _GEN_1; // @[Arithmetic.scala:102:27] wire _io_out_c_zeros_T_9; // @[Arithmetic.scala:102:27] assign _io_out_c_zeros_T_9 = _GEN_1; // @[Arithmetic.scala:102:27] wire [4:0] _io_out_c_zeros_T_3 = _io_out_c_zeros_T_2[4:0]; // @[Arithmetic.scala:102:66] wire [31:0] _io_out_c_zeros_T_4 = 32'h1 << _io_out_c_zeros_T_3; // @[Arithmetic.scala:102:{60,66}] wire [32:0] _io_out_c_zeros_T_5 = {1'h0, _io_out_c_zeros_T_4} - 33'h1; // @[Arithmetic.scala:102:{60,81}] wire [31:0] _io_out_c_zeros_T_6 = _io_out_c_zeros_T_5[31:0]; // @[Arithmetic.scala:102:81] wire [31:0] _io_out_c_zeros_T_7 = {24'h0, _io_out_c_zeros_T_6[7:0] & _io_out_c_zeros_T_1}; // @[Arithmetic.scala:102:{45,52,81}] wire [31:0] _io_out_c_zeros_T_8 = _io_out_c_zeros_T ? 32'h0 : _io_out_c_zeros_T_7; // @[Arithmetic.scala:102:{24,27,52}] wire io_out_c_zeros = |_io_out_c_zeros_T_8; // @[Arithmetic.scala:102:{24,89}] wire [7:0] _GEN_2 = {3'h0, shift_offset}; // @[PE.scala:91:25] wire [7:0] _GEN_3 = $signed($signed(c1) >>> _GEN_2); // @[PE.scala:70:15] wire [7:0] _io_out_c_ones_digit_T; // @[Arithmetic.scala:103:30] assign _io_out_c_ones_digit_T = _GEN_3; // @[Arithmetic.scala:103:30] wire [7:0] _io_out_c_T; // @[Arithmetic.scala:107:15] assign _io_out_c_T = _GEN_3; // @[Arithmetic.scala:103:30, :107:15] wire io_out_c_ones_digit = _io_out_c_ones_digit_T[0]; // @[Arithmetic.scala:103:30] wire _io_out_c_r_T = io_out_c_zeros | io_out_c_ones_digit; // @[Arithmetic.scala:102:89, :103:30, :105:38] wire _io_out_c_r_T_1 = io_out_c_point_five & _io_out_c_r_T; // @[Arithmetic.scala:101:29, :105:{29,38}] wire io_out_c_r = _io_out_c_r_T_1; // @[Arithmetic.scala:105:{29,53}] wire [1:0] _io_out_c_T_1 = {1'h0, io_out_c_r}; // @[Arithmetic.scala:105:53, :107:33] wire [8:0] _io_out_c_T_2 = {_io_out_c_T[7], _io_out_c_T} + {{7{_io_out_c_T_1[1]}}, _io_out_c_T_1}; // @[Arithmetic.scala:107:{15,28,33}] wire [7:0] _io_out_c_T_3 = _io_out_c_T_2[7:0]; // @[Arithmetic.scala:107:28] wire [7:0] _io_out_c_T_4 = _io_out_c_T_3; // @[Arithmetic.scala:107:28] wire [19:0] _io_out_c_T_7 = {{12{_io_out_c_T_4[7]}}, _io_out_c_T_4}; // @[Mux.scala:126:16] wire [19:0] _io_out_c_T_8 = _io_out_c_T_7; // @[Mux.scala:126:16] wire [19:0] _io_out_c_T_9 = _io_out_c_T_8; // @[Mux.scala:126:16] wire [19:0] _io_out_c_T_10 = _io_out_c_T_9; // @[Arithmetic.scala:125:{81,99}] wire [19:0] _mac_unit_io_in_b_T_1 = _mac_unit_io_in_b_T; // @[PE.scala:106:37] wire [7:0] _mac_unit_io_in_b_WIRE = _mac_unit_io_in_b_T_1[7:0]; // @[PE.scala:106:37] wire [7:0] _c1_T = io_in_d_0[7:0]; // @[PE.scala:31:7] wire [7:0] _c2_T = io_in_d_0[7:0]; // @[PE.scala:31:7] wire [7:0] _c1_T_1 = _c1_T; // @[Arithmetic.scala:114:{15,33}] wire [4:0] _io_out_c_point_five_T_7 = _io_out_c_point_five_T_6[4:0]; // @[Arithmetic.scala:101:53] wire [7:0] _io_out_c_point_five_T_8 = $signed($signed(c2) >>> _io_out_c_point_five_T_7); // @[PE.scala:71:15] wire _io_out_c_point_five_T_9 = _io_out_c_point_five_T_8[0]; // @[Arithmetic.scala:101:50] wire io_out_c_point_five_1 = ~_io_out_c_point_five_T_5 & _io_out_c_point_five_T_9; // @[Arithmetic.scala:101:{29,32,50}] wire [4:0] _io_out_c_zeros_T_12 = _io_out_c_zeros_T_11[4:0]; // @[Arithmetic.scala:102:66] wire [31:0] _io_out_c_zeros_T_13 = 32'h1 << _io_out_c_zeros_T_12; // @[Arithmetic.scala:102:{60,66}] wire [32:0] _io_out_c_zeros_T_14 = {1'h0, _io_out_c_zeros_T_13} - 33'h1; // @[Arithmetic.scala:102:{60,81}] wire [31:0] _io_out_c_zeros_T_15 = _io_out_c_zeros_T_14[31:0]; // @[Arithmetic.scala:102:81] wire [31:0] _io_out_c_zeros_T_16 = {24'h0, _io_out_c_zeros_T_15[7:0] & _io_out_c_zeros_T_10}; // @[Arithmetic.scala:102:{45,52,81}] wire [31:0] _io_out_c_zeros_T_17 = _io_out_c_zeros_T_9 ? 32'h0 : _io_out_c_zeros_T_16; // @[Arithmetic.scala:102:{24,27,52}] wire io_out_c_zeros_1 = |_io_out_c_zeros_T_17; // @[Arithmetic.scala:102:{24,89}] wire [7:0] _GEN_4 = $signed($signed(c2) >>> _GEN_2); // @[PE.scala:71:15] wire [7:0] _io_out_c_ones_digit_T_1; // @[Arithmetic.scala:103:30] assign _io_out_c_ones_digit_T_1 = _GEN_4; // @[Arithmetic.scala:103:30] wire [7:0] _io_out_c_T_11; // @[Arithmetic.scala:107:15] assign _io_out_c_T_11 = _GEN_4; // @[Arithmetic.scala:103:30, :107:15] wire io_out_c_ones_digit_1 = _io_out_c_ones_digit_T_1[0]; // @[Arithmetic.scala:103:30] wire _io_out_c_r_T_2 = io_out_c_zeros_1 | io_out_c_ones_digit_1; // @[Arithmetic.scala:102:89, :103:30, :105:38] wire _io_out_c_r_T_3 = io_out_c_point_five_1 & _io_out_c_r_T_2; // @[Arithmetic.scala:101:29, :105:{29,38}] wire io_out_c_r_1 = _io_out_c_r_T_3; // @[Arithmetic.scala:105:{29,53}] wire [1:0] _io_out_c_T_12 = {1'h0, io_out_c_r_1}; // @[Arithmetic.scala:105:53, :107:33] wire [8:0] _io_out_c_T_13 = {_io_out_c_T_11[7], _io_out_c_T_11} + {{7{_io_out_c_T_12[1]}}, _io_out_c_T_12}; // @[Arithmetic.scala:107:{15,28,33}] wire [7:0] _io_out_c_T_14 = _io_out_c_T_13[7:0]; // @[Arithmetic.scala:107:28] wire [7:0] _io_out_c_T_15 = _io_out_c_T_14; // @[Arithmetic.scala:107:28] wire [19:0] _io_out_c_T_18 = {{12{_io_out_c_T_15[7]}}, _io_out_c_T_15}; // @[Mux.scala:126:16] wire [19:0] _io_out_c_T_19 = _io_out_c_T_18; // @[Mux.scala:126:16] wire [19:0] _io_out_c_T_20 = _io_out_c_T_19; // @[Mux.scala:126:16] wire [19:0] _io_out_c_T_21 = _io_out_c_T_20; // @[Arithmetic.scala:125:{81,99}] wire [19:0] _mac_unit_io_in_b_T_3 = _mac_unit_io_in_b_T_2; // @[PE.scala:113:37] wire [7:0] _mac_unit_io_in_b_WIRE_1 = _mac_unit_io_in_b_T_3[7:0]; // @[PE.scala:113:37] wire [7:0] _c2_T_1 = _c2_T; // @[Arithmetic.scala:114:{15,33}] wire [7:0] _mac_unit_io_in_b_T_5; // @[PE.scala:121:38] assign _mac_unit_io_in_b_T_5 = _mac_unit_io_in_b_T_4; // @[PE.scala:121:38] wire [7:0] _mac_unit_io_in_b_WIRE_2 = _mac_unit_io_in_b_T_5; // @[PE.scala:121:38] assign io_out_c_0 = io_in_control_propagate_0 ? {{12{c1[7]}}, c1} : {{12{c2[7]}}, c2}; // @[PE.scala:31:7, :70:15, :71:15, :119:30, :120:16, :126:16] wire [7:0] _mac_unit_io_in_b_T_7; // @[PE.scala:127:38] assign _mac_unit_io_in_b_T_7 = _mac_unit_io_in_b_T_6; // @[PE.scala:127:38] wire [7:0] _mac_unit_io_in_b_WIRE_3 = _mac_unit_io_in_b_T_7; // @[PE.scala:127:38] wire [19:0] _mac_unit_io_in_b_T_9 = _mac_unit_io_in_b_T_8; // @[PE.scala:137:35] wire [7:0] _mac_unit_io_in_b_WIRE_4 = _mac_unit_io_in_b_T_9[7:0]; // @[PE.scala:137:35] always @(posedge clock) begin // @[PE.scala:31:7] if (io_in_valid_0 & io_in_control_propagate_0) // @[PE.scala:31:7, :102:95, :141:17, :142:8] c1 <= io_in_d_0[7:0]; // @[PE.scala:31:7, :70:15] if (~(~io_in_valid_0 | io_in_control_propagate_0)) // @[PE.scala:31:7, :71:15, :102:95, :119:30, :130:10, :141:{9,17}, :143:8] c2 <= io_in_d_0[7:0]; // @[PE.scala:31:7, :71:15] if (io_in_valid_0) // @[PE.scala:31:7] last_s <= io_in_control_propagate_0; // @[PE.scala:31:7, :89:25] always @(posedge) MacUnit_18 mac_unit ( // @[PE.scala:64:24] .clock (clock), .reset (reset), .io_in_a (io_in_a_0), // @[PE.scala:31:7] .io_in_b (io_in_control_propagate_0 ? _mac_unit_io_in_b_WIRE_2 : _mac_unit_io_in_b_WIRE_3), // @[PE.scala:31:7, :119:30, :121:{24,38}, :127:{24,38}] .io_in_c (io_in_b_0), // @[PE.scala:31:7] .io_out_d (io_out_b_0) ); // @[PE.scala:64:24] assign io_out_a = io_out_a_0; // @[PE.scala:31:7] assign io_out_b = io_out_b_0; // @[PE.scala:31:7] assign io_out_c = io_out_c_0; // @[PE.scala:31:7] assign io_out_control_dataflow = io_out_control_dataflow_0; // @[PE.scala:31:7] assign io_out_control_propagate = io_out_control_propagate_0; // @[PE.scala:31:7] assign io_out_control_shift = io_out_control_shift_0; // @[PE.scala:31:7] assign io_out_id = io_out_id_0; // @[PE.scala:31:7] assign io_out_last = io_out_last_0; // @[PE.scala:31:7] assign io_out_valid = io_out_valid_0; // @[PE.scala:31:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File SynchronizerReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util.{RegEnable, Cat} /** These wrap behavioral * shift and next registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * * These are built up of *ResetSynchronizerPrimitiveShiftReg, * intended to be replaced by the integrator's metastable flops chains or replaced * at this level if they have a multi-bit wide synchronizer primitive. * The different types vary in their reset behavior: * NonSyncResetSynchronizerShiftReg -- Register array which does not have a reset pin * AsyncResetSynchronizerShiftReg -- Asynchronously reset register array, constructed from W instantiations of D deep * 1-bit-wide shift registers. * SyncResetSynchronizerShiftReg -- Synchronously reset register array, constructed similarly to AsyncResetSynchronizerShiftReg * * [Inferred]ResetSynchronizerShiftReg -- TBD reset type by chisel3 reset inference. * * ClockCrossingReg -- Not made up of SynchronizerPrimitiveShiftReg. This is for single-deep flops which cross * Clock Domains. */ object SynchronizerResetType extends Enumeration { val NonSync, Inferred, Sync, Async = Value } // Note: this should not be used directly. // Use the companion object to generate this with the correct reset type mixin. private class SynchronizerPrimitiveShiftReg( sync: Int, init: Boolean, resetType: SynchronizerResetType.Value) extends AbstractPipelineReg(1) { val initInt = if (init) 1 else 0 val initPostfix = resetType match { case SynchronizerResetType.NonSync => "" case _ => s"_i${initInt}" } override def desiredName = s"${resetType.toString}ResetSynchronizerPrimitiveShiftReg_d${sync}${initPostfix}" val chain = List.tabulate(sync) { i => val reg = if (resetType == SynchronizerResetType.NonSync) Reg(Bool()) else RegInit(init.B) reg.suggestName(s"sync_$i") } chain.last := io.d.asBool (chain.init zip chain.tail).foreach { case (sink, source) => sink := source } io.q := chain.head.asUInt } private object SynchronizerPrimitiveShiftReg { def apply (in: Bool, sync: Int, init: Boolean, resetType: SynchronizerResetType.Value): Bool = { val gen: () => SynchronizerPrimitiveShiftReg = resetType match { case SynchronizerResetType.NonSync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) case SynchronizerResetType.Async => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireAsyncReset case SynchronizerResetType.Sync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireSyncReset case SynchronizerResetType.Inferred => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) } AbstractPipelineReg(gen(), in) } } // Note: This module may end up with a non-AsyncReset type reset. // But the Primitives within will always have AsyncReset type. class AsyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"AsyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asAsyncReset){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Async) } } io.q := Cat(output.reverse) } object AsyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } // Note: This module may end up with a non-Bool type reset. // But the Primitives within will always have Bool reset type. @deprecated("SyncResetSynchronizerShiftReg is unecessary with Chisel3 inferred resets. Use ResetSynchronizerShiftReg which will use the inferred reset type.", "rocket-chip 1.2") class SyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asBool){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Sync) } } io.q := Cat(output.reverse) } object SyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class ResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"ResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Inferred) } io.q := Cat(output.reverse) } object ResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new ResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class SynchronizerShiftReg(w: Int = 1, sync: Int = 3) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SynchronizerShiftReg_w${w}_d${sync}" val output = Seq.tabulate(w) { i => SynchronizerPrimitiveShiftReg(io.d(i), sync, false, SynchronizerResetType.NonSync) } io.q := Cat(output.reverse) } object SynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SynchronizerShiftReg(in.getWidth, sync), in, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, None) def apply [T <: Data](in: T): T = apply (in, 3, None) } class ClockCrossingReg(w: Int = 1, doInit: Boolean) extends Module { override def desiredName = s"ClockCrossingReg_w${w}" val io = IO(new Bundle{ val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) val en = Input(Bool()) }) val cdc_reg = if (doInit) RegEnable(io.d, 0.U(w.W), io.en) else RegEnable(io.d, io.en) io.q := cdc_reg } object ClockCrossingReg { def apply [T <: Data](in: T, en: Bool, doInit: Boolean, name: Option[String] = None): T = { val cdc_reg = Module(new ClockCrossingReg(in.getWidth, doInit)) name.foreach{ cdc_reg.suggestName(_) } cdc_reg.io.d := in.asUInt cdc_reg.io.en := en cdc_reg.io.q.asTypeOf(in) } }
module AsyncResetSynchronizerShiftReg_w4_d3_i0_4( // @[SynchronizerReg.scala:80:7] input clock, // @[SynchronizerReg.scala:80:7] input reset, // @[SynchronizerReg.scala:80:7] input [3:0] io_d, // @[ShiftReg.scala:36:14] output [3:0] io_q // @[ShiftReg.scala:36:14] ); wire [3:0] io_d_0 = io_d; // @[SynchronizerReg.scala:80:7] wire _output_T = reset; // @[SynchronizerReg.scala:86:21] wire _output_T_2 = reset; // @[SynchronizerReg.scala:86:21] wire _output_T_4 = reset; // @[SynchronizerReg.scala:86:21] wire _output_T_6 = reset; // @[SynchronizerReg.scala:86:21] wire [3:0] _io_q_T; // @[SynchronizerReg.scala:90:14] wire [3:0] io_q_0; // @[SynchronizerReg.scala:80:7] wire _output_T_1 = io_d_0[0]; // @[SynchronizerReg.scala:80:7, :87:41] wire output_0; // @[ShiftReg.scala:48:24] wire _output_T_3 = io_d_0[1]; // @[SynchronizerReg.scala:80:7, :87:41] wire output_1; // @[ShiftReg.scala:48:24] wire _output_T_5 = io_d_0[2]; // @[SynchronizerReg.scala:80:7, :87:41] wire output_2; // @[ShiftReg.scala:48:24] wire _output_T_7 = io_d_0[3]; // @[SynchronizerReg.scala:80:7, :87:41] wire output_3; // @[ShiftReg.scala:48:24] wire [1:0] io_q_lo = {output_1, output_0}; // @[SynchronizerReg.scala:90:14] wire [1:0] io_q_hi = {output_3, output_2}; // @[SynchronizerReg.scala:90:14] assign _io_q_T = {io_q_hi, io_q_lo}; // @[SynchronizerReg.scala:90:14] assign io_q_0 = _io_q_T; // @[SynchronizerReg.scala:80:7, :90:14] AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_32 output_chain ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (_output_T), // @[SynchronizerReg.scala:86:21] .io_d (_output_T_1), // @[SynchronizerReg.scala:87:41] .io_q (output_0) ); // @[ShiftReg.scala:45:23] AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_33 output_chain_1 ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (_output_T_2), // @[SynchronizerReg.scala:86:21] .io_d (_output_T_3), // @[SynchronizerReg.scala:87:41] .io_q (output_1) ); // @[ShiftReg.scala:45:23] AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_34 output_chain_2 ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (_output_T_4), // @[SynchronizerReg.scala:86:21] .io_d (_output_T_5), // @[SynchronizerReg.scala:87:41] .io_q (output_2) ); // @[ShiftReg.scala:45:23] AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_35 output_chain_3 ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (_output_T_6), // @[SynchronizerReg.scala:86:21] .io_d (_output_T_7), // @[SynchronizerReg.scala:87:41] .io_q (output_3) ); // @[ShiftReg.scala:45:23] assign io_q = io_q_0; // @[SynchronizerReg.scala:80:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Transposer.scala: package gemmini import chisel3._ import chisel3.util._ import Util._ trait Transposer[T <: Data] extends Module { def dim: Int def dataType: T val io = IO(new Bundle { val inRow = Flipped(Decoupled(Vec(dim, dataType))) val outCol = Decoupled(Vec(dim, dataType)) }) } class PipelinedTransposer[T <: Data](val dim: Int, val dataType: T) extends Transposer[T] { require(isPow2(dim)) val regArray = Seq.fill(dim, dim)(Reg(dataType)) val regArrayT = regArray.transpose val sMoveUp :: sMoveLeft :: Nil = Enum(2) val state = RegInit(sMoveUp) val leftCounter = RegInit(0.U(log2Ceil(dim+1).W)) //(io.inRow.fire && state === sMoveLeft, dim+1) val upCounter = RegInit(0.U(log2Ceil(dim+1).W)) //Counter(io.inRow.fire && state === sMoveUp, dim+1) io.outCol.valid := 0.U io.inRow.ready := 0.U switch(state) { is(sMoveUp) { io.inRow.ready := upCounter <= dim.U io.outCol.valid := leftCounter > 0.U when(io.inRow.fire) { upCounter := upCounter + 1.U } when(upCounter === (dim-1).U) { state := sMoveLeft leftCounter := 0.U } when(io.outCol.fire) { leftCounter := leftCounter - 1.U } } is(sMoveLeft) { io.inRow.ready := leftCounter <= dim.U // TODO: this is naive io.outCol.valid := upCounter > 0.U when(leftCounter === (dim-1).U) { state := sMoveUp } when(io.inRow.fire) { leftCounter := leftCounter + 1.U upCounter := 0.U } when(io.outCol.fire) { upCounter := upCounter - 1.U } } } // Propagate input from bottom row to top row systolically in the move up phase // TODO: need to iterate over columns to connect Chisel values of type T // Should be able to operate directly on the Vec, but Seq and Vec don't mix (try Array?) for (colIdx <- 0 until dim) { regArray.foldRight(io.inRow.bits(colIdx)) { case (regRow, prevReg) => when (state === sMoveUp) { regRow(colIdx) := prevReg } regRow(colIdx) } } // Propagate input from right side to left side systolically in the move left phase for (rowIdx <- 0 until dim) { regArrayT.foldRight(io.inRow.bits(rowIdx)) { case (regCol, prevReg) => when (state === sMoveLeft) { regCol(rowIdx) := prevReg } regCol(rowIdx) } } // Pull from the left side or the top side based on the state for (idx <- 0 until dim) { when (state === sMoveUp) { io.outCol.bits(idx) := regArray(0)(idx) }.elsewhen(state === sMoveLeft) { io.outCol.bits(idx) := regArrayT(0)(idx) }.otherwise { io.outCol.bits(idx) := DontCare } } } class AlwaysOutTransposer[T <: Data](val dim: Int, val dataType: T) extends Transposer[T] { require(isPow2(dim)) val LEFT_DIR = 0.U(1.W) val UP_DIR = 1.U(1.W) class PE extends Module { val io = IO(new Bundle { val inR = Input(dataType) val inD = Input(dataType) val outL = Output(dataType) val outU = Output(dataType) val dir = Input(UInt(1.W)) val en = Input(Bool()) }) val reg = RegEnable(Mux(io.dir === LEFT_DIR, io.inR, io.inD), io.en) io.outU := reg io.outL := reg } val pes = Seq.fill(dim,dim)(Module(new PE)) val counter = RegInit(0.U((log2Ceil(dim) max 1).W)) // TODO replace this with a standard Chisel counter val dir = RegInit(LEFT_DIR) // Wire up horizontal signals for (row <- 0 until dim; col <- 0 until dim) { val right_in = if (col == dim-1) io.inRow.bits(row) else pes(row)(col+1).io.outL pes(row)(col).io.inR := right_in } // Wire up vertical signals for (row <- 0 until dim; col <- 0 until dim) { val down_in = if (row == dim-1) io.inRow.bits(col) else pes(row+1)(col).io.outU pes(row)(col).io.inD := down_in } // Wire up global signals pes.flatten.foreach(_.io.dir := dir) pes.flatten.foreach(_.io.en := io.inRow.fire) io.outCol.valid := true.B io.inRow.ready := true.B val left_out = VecInit(pes.transpose.head.map(_.io.outL)) val up_out = VecInit(pes.head.map(_.io.outU)) io.outCol.bits := Mux(dir === LEFT_DIR, left_out, up_out) when (io.inRow.fire) { counter := wrappingAdd(counter, 1.U, dim) } when (counter === (dim-1).U && io.inRow.fire) { dir := ~dir } } class NaiveTransposer[T <: Data](val dim: Int, val dataType: T) extends Transposer[T] { val regArray = Seq.fill(dim, dim)(Reg(dataType)) val regArrayT = regArray.transpose // state = 0 => filling regArray row-wise, state = 1 => draining regArray column-wise val state = RegInit(0.U(1.W)) val countInc = io.inRow.fire || io.outCol.fire val (countValue, countWrap) = Counter(countInc, dim) io.inRow.ready := state === 0.U io.outCol.valid := state === 1.U for (i <- 0 until dim) { for (j <- 0 until dim) { when(countValue === i.U && io.inRow.fire) { regArray(i)(j) := io.inRow.bits(j) } } } for (i <- 0 until dim) { io.outCol.bits(i) := 0.U for (j <- 0 until dim) { when(countValue === j.U) { io.outCol.bits(i) := regArrayT(j)(i) } } } when (io.inRow.fire && countWrap) { state := 1.U } when (io.outCol.fire && countWrap) { state := 0.U } assert(!(state === 0.U) || !io.outCol.fire) assert(!(state === 1.U) || !io.inRow.fire) }
module PE_10( // @[Transposer.scala:100:9] input clock, // @[Transposer.scala:100:9] input reset, // @[Transposer.scala:100:9] input [31:0] io_inR_bits, // @[Transposer.scala:101:16] input [31:0] io_inD_bits, // @[Transposer.scala:101:16] output [31:0] io_outL_bits, // @[Transposer.scala:101:16] output [31:0] io_outU_bits, // @[Transposer.scala:101:16] input io_dir, // @[Transposer.scala:101:16] input io_en // @[Transposer.scala:101:16] ); wire [31:0] io_inR_bits_0 = io_inR_bits; // @[Transposer.scala:100:9] wire [31:0] io_inD_bits_0 = io_inD_bits; // @[Transposer.scala:100:9] wire io_dir_0 = io_dir; // @[Transposer.scala:100:9] wire io_en_0 = io_en; // @[Transposer.scala:100:9] wire [31:0] io_outL_bits_0; // @[Transposer.scala:100:9] wire [31:0] io_outU_bits_0; // @[Transposer.scala:100:9] wire _reg_T = ~io_dir_0; // @[Transposer.scala:100:9, :110:36] wire [31:0] _reg_T_1_bits = _reg_T ? io_inR_bits_0 : io_inD_bits_0; // @[Transposer.scala:100:9, :110:{28,36}] reg [31:0] reg_bits; // @[Transposer.scala:110:24] assign io_outL_bits_0 = reg_bits; // @[Transposer.scala:100:9, :110:24] assign io_outU_bits_0 = reg_bits; // @[Transposer.scala:100:9, :110:24] always @(posedge clock) begin // @[Transposer.scala:100:9] if (io_en_0) // @[Transposer.scala:100:9] reg_bits <= _reg_T_1_bits; // @[Transposer.scala:110:{24,28}] always @(posedge) assign io_outL_bits = io_outL_bits_0; // @[Transposer.scala:100:9] assign io_outU_bits = io_outU_bits_0; // @[Transposer.scala:100:9] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Buffer.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.BufferParams class TLBufferNode ( a: BufferParams, b: BufferParams, c: BufferParams, d: BufferParams, e: BufferParams)(implicit valName: ValName) extends TLAdapterNode( clientFn = { p => p.v1copy(minLatency = p.minLatency + b.latency + c.latency) }, managerFn = { p => p.v1copy(minLatency = p.minLatency + a.latency + d.latency) } ) { override lazy val nodedebugstring = s"a:${a.toString}, b:${b.toString}, c:${c.toString}, d:${d.toString}, e:${e.toString}" override def circuitIdentity = List(a,b,c,d,e).forall(_ == BufferParams.none) } class TLBuffer( a: BufferParams, b: BufferParams, c: BufferParams, d: BufferParams, e: BufferParams)(implicit p: Parameters) extends LazyModule { def this(ace: BufferParams, bd: BufferParams)(implicit p: Parameters) = this(ace, bd, ace, bd, ace) def this(abcde: BufferParams)(implicit p: Parameters) = this(abcde, abcde) def this()(implicit p: Parameters) = this(BufferParams.default) val node = new TLBufferNode(a, b, c, d, e) lazy val module = new Impl class Impl extends LazyModuleImp(this) { def headBundle = node.out.head._2.bundle override def desiredName = (Seq("TLBuffer") ++ node.out.headOption.map(_._2.bundle.shortName)).mkString("_") (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out.a <> a(in .a) in .d <> d(out.d) if (edgeOut.manager.anySupportAcquireB && edgeOut.client.anySupportProbe) { in .b <> b(out.b) out.c <> c(in .c) out.e <> e(in .e) } else { in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } } } } object TLBuffer { def apply() (implicit p: Parameters): TLNode = apply(BufferParams.default) def apply(abcde: BufferParams) (implicit p: Parameters): TLNode = apply(abcde, abcde) def apply(ace: BufferParams, bd: BufferParams)(implicit p: Parameters): TLNode = apply(ace, bd, ace, bd, ace) def apply( a: BufferParams, b: BufferParams, c: BufferParams, d: BufferParams, e: BufferParams)(implicit p: Parameters): TLNode = { val buffer = LazyModule(new TLBuffer(a, b, c, d, e)) buffer.node } def chain(depth: Int, name: Option[String] = None)(implicit p: Parameters): Seq[TLNode] = { val buffers = Seq.fill(depth) { LazyModule(new TLBuffer()) } name.foreach { n => buffers.zipWithIndex.foreach { case (b, i) => b.suggestName(s"${n}_${i}") } } buffers.map(_.node) } def chainNode(depth: Int, name: Option[String] = None)(implicit p: Parameters): TLNode = { chain(depth, name) .reduceLeftOption(_ :*=* _) .getOrElse(TLNameNode("no_buffer")) } } File Nodes.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.util.{AsyncQueueParams,RationalDirection} case object TLMonitorBuilder extends Field[TLMonitorArgs => TLMonitorBase](args => new TLMonitor(args)) object TLImp extends NodeImp[TLMasterPortParameters, TLSlavePortParameters, TLEdgeOut, TLEdgeIn, TLBundle] { def edgeO(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeOut(pd, pu, p, sourceInfo) def edgeI(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeIn (pd, pu, p, sourceInfo) def bundleO(eo: TLEdgeOut) = TLBundle(eo.bundle) def bundleI(ei: TLEdgeIn) = TLBundle(ei.bundle) def render(ei: TLEdgeIn) = RenderedEdge(colour = "#000000" /* black */, label = (ei.manager.beatBytes * 8).toString) override def monitor(bundle: TLBundle, edge: TLEdgeIn): Unit = { val monitor = Module(edge.params(TLMonitorBuilder)(TLMonitorArgs(edge))) monitor.io.in := bundle } override def mixO(pd: TLMasterPortParameters, node: OutwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLMasterPortParameters = pd.v1copy(clients = pd.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) }) override def mixI(pu: TLSlavePortParameters, node: InwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLSlavePortParameters = pu.v1copy(managers = pu.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) }) } trait TLFormatNode extends FormatNode[TLEdgeIn, TLEdgeOut] case class TLClientNode(portParams: Seq[TLMasterPortParameters])(implicit valName: ValName) extends SourceNode(TLImp)(portParams) with TLFormatNode case class TLManagerNode(portParams: Seq[TLSlavePortParameters])(implicit valName: ValName) extends SinkNode(TLImp)(portParams) with TLFormatNode case class TLAdapterNode( clientFn: TLMasterPortParameters => TLMasterPortParameters = { s => s }, managerFn: TLSlavePortParameters => TLSlavePortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLJunctionNode( clientFn: Seq[TLMasterPortParameters] => Seq[TLMasterPortParameters], managerFn: Seq[TLSlavePortParameters] => Seq[TLSlavePortParameters])( implicit valName: ValName) extends JunctionNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLIdentityNode()(implicit valName: ValName) extends IdentityNode(TLImp)() with TLFormatNode object TLNameNode { def apply(name: ValName) = TLIdentityNode()(name) def apply(name: Option[String]): TLIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLIdentityNode = apply(Some(name)) } case class TLEphemeralNode()(implicit valName: ValName) extends EphemeralNode(TLImp)() object TLTempNode { def apply(): TLEphemeralNode = TLEphemeralNode()(ValName("temp")) } case class TLNexusNode( clientFn: Seq[TLMasterPortParameters] => TLMasterPortParameters, managerFn: Seq[TLSlavePortParameters] => TLSlavePortParameters)( implicit valName: ValName) extends NexusNode(TLImp)(clientFn, managerFn) with TLFormatNode abstract class TLCustomNode(implicit valName: ValName) extends CustomNode(TLImp) with TLFormatNode // Asynchronous crossings trait TLAsyncFormatNode extends FormatNode[TLAsyncEdgeParameters, TLAsyncEdgeParameters] object TLAsyncImp extends SimpleNodeImp[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncEdgeParameters, TLAsyncBundle] { def edge(pd: TLAsyncClientPortParameters, pu: TLAsyncManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLAsyncEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLAsyncEdgeParameters) = new TLAsyncBundle(e.bundle) def render(e: TLAsyncEdgeParameters) = RenderedEdge(colour = "#ff0000" /* red */, label = e.manager.async.depth.toString) override def mixO(pd: TLAsyncClientPortParameters, node: OutwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLAsyncManagerPortParameters, node: InwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLAsyncAdapterNode( clientFn: TLAsyncClientPortParameters => TLAsyncClientPortParameters = { s => s }, managerFn: TLAsyncManagerPortParameters => TLAsyncManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLAsyncImp)(clientFn, managerFn) with TLAsyncFormatNode case class TLAsyncIdentityNode()(implicit valName: ValName) extends IdentityNode(TLAsyncImp)() with TLAsyncFormatNode object TLAsyncNameNode { def apply(name: ValName) = TLAsyncIdentityNode()(name) def apply(name: Option[String]): TLAsyncIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLAsyncIdentityNode = apply(Some(name)) } case class TLAsyncSourceNode(sync: Option[Int])(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLAsyncImp)( dFn = { p => TLAsyncClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = p.base.minLatency + sync.getOrElse(p.async.sync)) }) with FormatNode[TLEdgeIn, TLAsyncEdgeParameters] // discard cycles in other clock domain case class TLAsyncSinkNode(async: AsyncQueueParams)(implicit valName: ValName) extends MixedAdapterNode(TLAsyncImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = p.base.minLatency + async.sync) }, uFn = { p => TLAsyncManagerPortParameters(async, p) }) with FormatNode[TLAsyncEdgeParameters, TLEdgeOut] // Rationally related crossings trait TLRationalFormatNode extends FormatNode[TLRationalEdgeParameters, TLRationalEdgeParameters] object TLRationalImp extends SimpleNodeImp[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalEdgeParameters, TLRationalBundle] { def edge(pd: TLRationalClientPortParameters, pu: TLRationalManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLRationalEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLRationalEdgeParameters) = new TLRationalBundle(e.bundle) def render(e: TLRationalEdgeParameters) = RenderedEdge(colour = "#00ff00" /* green */) override def mixO(pd: TLRationalClientPortParameters, node: OutwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLRationalManagerPortParameters, node: InwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLRationalAdapterNode( clientFn: TLRationalClientPortParameters => TLRationalClientPortParameters = { s => s }, managerFn: TLRationalManagerPortParameters => TLRationalManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLRationalImp)(clientFn, managerFn) with TLRationalFormatNode case class TLRationalIdentityNode()(implicit valName: ValName) extends IdentityNode(TLRationalImp)() with TLRationalFormatNode object TLRationalNameNode { def apply(name: ValName) = TLRationalIdentityNode()(name) def apply(name: Option[String]): TLRationalIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLRationalIdentityNode = apply(Some(name)) } case class TLRationalSourceNode()(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLRationalImp)( dFn = { p => TLRationalClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLRationalEdgeParameters] // discard cycles from other clock domain case class TLRationalSinkNode(direction: RationalDirection)(implicit valName: ValName) extends MixedAdapterNode(TLRationalImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLRationalManagerPortParameters(direction, p) }) with FormatNode[TLRationalEdgeParameters, TLEdgeOut] // Credited version of TileLink channels trait TLCreditedFormatNode extends FormatNode[TLCreditedEdgeParameters, TLCreditedEdgeParameters] object TLCreditedImp extends SimpleNodeImp[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedEdgeParameters, TLCreditedBundle] { def edge(pd: TLCreditedClientPortParameters, pu: TLCreditedManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLCreditedEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLCreditedEdgeParameters) = new TLCreditedBundle(e.bundle) def render(e: TLCreditedEdgeParameters) = RenderedEdge(colour = "#ffff00" /* yellow */, e.delay.toString) override def mixO(pd: TLCreditedClientPortParameters, node: OutwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLCreditedManagerPortParameters, node: InwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLCreditedAdapterNode( clientFn: TLCreditedClientPortParameters => TLCreditedClientPortParameters = { s => s }, managerFn: TLCreditedManagerPortParameters => TLCreditedManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLCreditedImp)(clientFn, managerFn) with TLCreditedFormatNode case class TLCreditedIdentityNode()(implicit valName: ValName) extends IdentityNode(TLCreditedImp)() with TLCreditedFormatNode object TLCreditedNameNode { def apply(name: ValName) = TLCreditedIdentityNode()(name) def apply(name: Option[String]): TLCreditedIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLCreditedIdentityNode = apply(Some(name)) } case class TLCreditedSourceNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLCreditedImp)( dFn = { p => TLCreditedClientPortParameters(delay, p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLCreditedEdgeParameters] // discard cycles from other clock domain case class TLCreditedSinkNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLCreditedImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLCreditedManagerPortParameters(delay, p) }) with FormatNode[TLCreditedEdgeParameters, TLEdgeOut] File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } }
module TLBuffer_a32d128s5k4z4u_1( // @[Buffer.scala:40:9] input clock, // @[Buffer.scala:40:9] input reset, // @[Buffer.scala:40:9] output auto_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input [4:0] auto_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [15:0] auto_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [127:0] auto_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_in_d_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output [4:0] auto_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output [3:0] auto_in_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_in_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [127:0] auto_in_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_in_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_out_a_ready, // @[LazyModuleImp.scala:107:25] output auto_out_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_a_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_out_a_bits_size, // @[LazyModuleImp.scala:107:25] output [4:0] auto_out_a_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_out_a_bits_address, // @[LazyModuleImp.scala:107:25] output [15:0] auto_out_a_bits_mask, // @[LazyModuleImp.scala:107:25] output [127:0] auto_out_a_bits_data, // @[LazyModuleImp.scala:107:25] output auto_out_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_out_d_ready, // @[LazyModuleImp.scala:107:25] input auto_out_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_out_d_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_out_d_bits_size, // @[LazyModuleImp.scala:107:25] input [4:0] auto_out_d_bits_source, // @[LazyModuleImp.scala:107:25] input [3:0] auto_out_d_bits_sink, // @[LazyModuleImp.scala:107:25] input auto_out_d_bits_denied, // @[LazyModuleImp.scala:107:25] input [127:0] auto_out_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_out_d_bits_corrupt // @[LazyModuleImp.scala:107:25] ); wire _nodeIn_d_q_io_deq_valid; // @[Decoupled.scala:362:21] wire [2:0] _nodeIn_d_q_io_deq_bits_opcode; // @[Decoupled.scala:362:21] wire [1:0] _nodeIn_d_q_io_deq_bits_param; // @[Decoupled.scala:362:21] wire [3:0] _nodeIn_d_q_io_deq_bits_size; // @[Decoupled.scala:362:21] wire [4:0] _nodeIn_d_q_io_deq_bits_source; // @[Decoupled.scala:362:21] wire [3:0] _nodeIn_d_q_io_deq_bits_sink; // @[Decoupled.scala:362:21] wire _nodeIn_d_q_io_deq_bits_denied; // @[Decoupled.scala:362:21] wire _nodeIn_d_q_io_deq_bits_corrupt; // @[Decoupled.scala:362:21] wire _nodeOut_a_q_io_enq_ready; // @[Decoupled.scala:362:21] TLMonitor_50 monitor ( // @[Nodes.scala:27:25] .clock (clock), .reset (reset), .io_in_a_ready (_nodeOut_a_q_io_enq_ready), // @[Decoupled.scala:362:21] .io_in_a_valid (auto_in_a_valid), .io_in_a_bits_opcode (auto_in_a_bits_opcode), .io_in_a_bits_param (auto_in_a_bits_param), .io_in_a_bits_size (auto_in_a_bits_size), .io_in_a_bits_source (auto_in_a_bits_source), .io_in_a_bits_address (auto_in_a_bits_address), .io_in_a_bits_mask (auto_in_a_bits_mask), .io_in_a_bits_corrupt (auto_in_a_bits_corrupt), .io_in_d_ready (auto_in_d_ready), .io_in_d_valid (_nodeIn_d_q_io_deq_valid), // @[Decoupled.scala:362:21] .io_in_d_bits_opcode (_nodeIn_d_q_io_deq_bits_opcode), // @[Decoupled.scala:362:21] .io_in_d_bits_param (_nodeIn_d_q_io_deq_bits_param), // @[Decoupled.scala:362:21] .io_in_d_bits_size (_nodeIn_d_q_io_deq_bits_size), // @[Decoupled.scala:362:21] .io_in_d_bits_source (_nodeIn_d_q_io_deq_bits_source), // @[Decoupled.scala:362:21] .io_in_d_bits_sink (_nodeIn_d_q_io_deq_bits_sink), // @[Decoupled.scala:362:21] .io_in_d_bits_denied (_nodeIn_d_q_io_deq_bits_denied), // @[Decoupled.scala:362:21] .io_in_d_bits_corrupt (_nodeIn_d_q_io_deq_bits_corrupt) // @[Decoupled.scala:362:21] ); // @[Nodes.scala:27:25] Queue2_TLBundleA_a32d128s5k4z4u nodeOut_a_q ( // @[Decoupled.scala:362:21] .clock (clock), .reset (reset), .io_enq_ready (_nodeOut_a_q_io_enq_ready), .io_enq_valid (auto_in_a_valid), .io_enq_bits_opcode (auto_in_a_bits_opcode), .io_enq_bits_param (auto_in_a_bits_param), .io_enq_bits_size (auto_in_a_bits_size), .io_enq_bits_source (auto_in_a_bits_source), .io_enq_bits_address (auto_in_a_bits_address), .io_enq_bits_mask (auto_in_a_bits_mask), .io_enq_bits_data (auto_in_a_bits_data), .io_enq_bits_corrupt (auto_in_a_bits_corrupt), .io_deq_ready (auto_out_a_ready), .io_deq_valid (auto_out_a_valid), .io_deq_bits_opcode (auto_out_a_bits_opcode), .io_deq_bits_param (auto_out_a_bits_param), .io_deq_bits_size (auto_out_a_bits_size), .io_deq_bits_source (auto_out_a_bits_source), .io_deq_bits_address (auto_out_a_bits_address), .io_deq_bits_mask (auto_out_a_bits_mask), .io_deq_bits_data (auto_out_a_bits_data), .io_deq_bits_corrupt (auto_out_a_bits_corrupt) ); // @[Decoupled.scala:362:21] Queue2_TLBundleD_a32d128s5k4z4u nodeIn_d_q ( // @[Decoupled.scala:362:21] .clock (clock), .reset (reset), .io_enq_ready (auto_out_d_ready), .io_enq_valid (auto_out_d_valid), .io_enq_bits_opcode (auto_out_d_bits_opcode), .io_enq_bits_param (auto_out_d_bits_param), .io_enq_bits_size (auto_out_d_bits_size), .io_enq_bits_source (auto_out_d_bits_source), .io_enq_bits_sink (auto_out_d_bits_sink), .io_enq_bits_denied (auto_out_d_bits_denied), .io_enq_bits_data (auto_out_d_bits_data), .io_enq_bits_corrupt (auto_out_d_bits_corrupt), .io_deq_ready (auto_in_d_ready), .io_deq_valid (_nodeIn_d_q_io_deq_valid), .io_deq_bits_opcode (_nodeIn_d_q_io_deq_bits_opcode), .io_deq_bits_param (_nodeIn_d_q_io_deq_bits_param), .io_deq_bits_size (_nodeIn_d_q_io_deq_bits_size), .io_deq_bits_source (_nodeIn_d_q_io_deq_bits_source), .io_deq_bits_sink (_nodeIn_d_q_io_deq_bits_sink), .io_deq_bits_denied (_nodeIn_d_q_io_deq_bits_denied), .io_deq_bits_data (auto_in_d_bits_data), .io_deq_bits_corrupt (_nodeIn_d_q_io_deq_bits_corrupt) ); // @[Decoupled.scala:362:21] assign auto_in_a_ready = _nodeOut_a_q_io_enq_ready; // @[Decoupled.scala:362:21] assign auto_in_d_valid = _nodeIn_d_q_io_deq_valid; // @[Decoupled.scala:362:21] assign auto_in_d_bits_opcode = _nodeIn_d_q_io_deq_bits_opcode; // @[Decoupled.scala:362:21] assign auto_in_d_bits_param = _nodeIn_d_q_io_deq_bits_param; // @[Decoupled.scala:362:21] assign auto_in_d_bits_size = _nodeIn_d_q_io_deq_bits_size; // @[Decoupled.scala:362:21] assign auto_in_d_bits_source = _nodeIn_d_q_io_deq_bits_source; // @[Decoupled.scala:362:21] assign auto_in_d_bits_sink = _nodeIn_d_q_io_deq_bits_sink; // @[Decoupled.scala:362:21] assign auto_in_d_bits_denied = _nodeIn_d_q_io_deq_bits_denied; // @[Decoupled.scala:362:21] assign auto_in_d_bits_corrupt = _nodeIn_d_q_io_deq_bits_corrupt; // @[Decoupled.scala:362:21] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Crossing.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.interrupts import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.util.{SynchronizerShiftReg, AsyncResetReg} @deprecated("IntXing does not ensure interrupt source is glitch free. Use IntSyncSource and IntSyncSink", "rocket-chip 1.2") class IntXing(sync: Int = 3)(implicit p: Parameters) extends LazyModule { val intnode = IntAdapterNode() lazy val module = new Impl class Impl extends LazyModuleImp(this) { (intnode.in zip intnode.out) foreach { case ((in, _), (out, _)) => out := SynchronizerShiftReg(in, sync) } } } object IntSyncCrossingSource { def apply(alreadyRegistered: Boolean = false)(implicit p: Parameters) = { val intsource = LazyModule(new IntSyncCrossingSource(alreadyRegistered)) intsource.node } } class IntSyncCrossingSource(alreadyRegistered: Boolean = false)(implicit p: Parameters) extends LazyModule { val node = IntSyncSourceNode(alreadyRegistered) lazy val module = if (alreadyRegistered) (new ImplRegistered) else (new Impl) class Impl extends LazyModuleImp(this) { def outSize = node.out.headOption.map(_._1.sync.size).getOrElse(0) override def desiredName = s"IntSyncCrossingSource_n${node.out.size}x${outSize}" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out.sync := AsyncResetReg(Cat(in.reverse)).asBools } } class ImplRegistered extends LazyRawModuleImp(this) { def outSize = node.out.headOption.map(_._1.sync.size).getOrElse(0) override def desiredName = s"IntSyncCrossingSource_n${node.out.size}x${outSize}_Registered" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out.sync := in } } } object IntSyncCrossingSink { @deprecated("IntSyncCrossingSink which used the `sync` parameter to determine crossing type is deprecated. Use IntSyncAsyncCrossingSink, IntSyncRationalCrossingSink, or IntSyncSyncCrossingSink instead for > 1, 1, and 0 sync values respectively", "rocket-chip 1.2") def apply(sync: Int = 3)(implicit p: Parameters) = { val intsink = LazyModule(new IntSyncAsyncCrossingSink(sync)) intsink.node } } class IntSyncAsyncCrossingSink(sync: Int = 3)(implicit p: Parameters) extends LazyModule { val node = IntSyncSinkNode(sync) lazy val module = new Impl class Impl extends LazyModuleImp(this) { override def desiredName = s"IntSyncAsyncCrossingSink_n${node.out.size}x${node.out.head._1.size}" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out := SynchronizerShiftReg(in.sync, sync) } } } object IntSyncAsyncCrossingSink { def apply(sync: Int = 3)(implicit p: Parameters) = { val intsink = LazyModule(new IntSyncAsyncCrossingSink(sync)) intsink.node } } class IntSyncSyncCrossingSink()(implicit p: Parameters) extends LazyModule { val node = IntSyncSinkNode(0) lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { def outSize = node.out.headOption.map(_._1.size).getOrElse(0) override def desiredName = s"IntSyncSyncCrossingSink_n${node.out.size}x${outSize}" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out := in.sync } } } object IntSyncSyncCrossingSink { def apply()(implicit p: Parameters) = { val intsink = LazyModule(new IntSyncSyncCrossingSink()) intsink.node } } class IntSyncRationalCrossingSink()(implicit p: Parameters) extends LazyModule { val node = IntSyncSinkNode(1) lazy val module = new Impl class Impl extends LazyModuleImp(this) { def outSize = node.out.headOption.map(_._1.size).getOrElse(0) override def desiredName = s"IntSyncRationalCrossingSink_n${node.out.size}x${outSize}" (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => out := RegNext(in.sync) } } } object IntSyncRationalCrossingSink { def apply()(implicit p: Parameters) = { val intsink = LazyModule(new IntSyncRationalCrossingSink()) intsink.node } } File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File MixedNode.scala: package org.chipsalliance.diplomacy.nodes import chisel3.{Data, DontCare, Wire} import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.{Field, Parameters} import org.chipsalliance.diplomacy.ValName import org.chipsalliance.diplomacy.sourceLine /** One side metadata of a [[Dangle]]. * * Describes one side of an edge going into or out of a [[BaseNode]]. * * @param serial * the global [[BaseNode.serial]] number of the [[BaseNode]] that this [[HalfEdge]] connects to. * @param index * the `index` in the [[BaseNode]]'s input or output port list that this [[HalfEdge]] belongs to. */ case class HalfEdge(serial: Int, index: Int) extends Ordered[HalfEdge] { import scala.math.Ordered.orderingToOrdered def compare(that: HalfEdge): Int = HalfEdge.unapply(this).compare(HalfEdge.unapply(that)) } /** [[Dangle]] captures the `IO` information of a [[LazyModule]] and which two [[BaseNode]]s the [[Edges]]/[[Bundle]] * connects. * * [[Dangle]]s are generated by [[BaseNode.instantiate]] using [[MixedNode.danglesOut]] and [[MixedNode.danglesIn]] , * [[LazyModuleImp.instantiate]] connects those that go to internal or explicit IO connections in a [[LazyModule]]. * * @param source * the source [[HalfEdge]] of this [[Dangle]], which captures the source [[BaseNode]] and the port `index` within * that [[BaseNode]]. * @param sink * sink [[HalfEdge]] of this [[Dangle]], which captures the sink [[BaseNode]] and the port `index` within that * [[BaseNode]]. * @param flipped * flip or not in [[AutoBundle.makeElements]]. If true this corresponds to `danglesOut`, if false it corresponds to * `danglesIn`. * @param dataOpt * actual [[Data]] for the hardware connection. Can be empty if this belongs to a cloned module */ case class Dangle(source: HalfEdge, sink: HalfEdge, flipped: Boolean, name: String, dataOpt: Option[Data]) { def data = dataOpt.get } /** [[Edges]] is a collection of parameters describing the functionality and connection for an interface, which is often * derived from the interconnection protocol and can inform the parameterization of the hardware bundles that actually * implement the protocol. */ case class Edges[EI, EO](in: Seq[EI], out: Seq[EO]) /** A field available in [[Parameters]] used to determine whether [[InwardNodeImp.monitor]] will be called. */ case object MonitorsEnabled extends Field[Boolean](true) /** When rendering the edge in a graphical format, flip the order in which the edges' source and sink are presented. * * For example, when rendering graphML, yEd by default tries to put the source node vertically above the sink node, but * [[RenderFlipped]] inverts this relationship. When a particular [[LazyModule]] contains both source nodes and sink * nodes, flipping the rendering of one node's edge will usual produce a more concise visual layout for the * [[LazyModule]]. */ case object RenderFlipped extends Field[Boolean](false) /** The sealed node class in the package, all node are derived from it. * * @param inner * Sink interface implementation. * @param outer * Source interface implementation. * @param valName * val name of this node. * @tparam DI * Downward-flowing parameters received on the inner side of the node. It is usually a brunch of parameters * describing the protocol parameters from a source. For an [[InwardNode]], it is determined by the connected * [[OutwardNode]]. Since it can be connected to multiple sources, this parameter is always a Seq of source port * parameters. * @tparam UI * Upward-flowing parameters generated by the inner side of the node. It is usually a brunch of parameters describing * the protocol parameters of a sink. For an [[InwardNode]], it is determined itself. * @tparam EI * Edge Parameters describing a connection on the inner side of the node. It is usually a brunch of transfers * specified for a sink according to protocol. * @tparam BI * Bundle type used when connecting to the inner side of the node. It is a hardware interface of this sink interface. * It should extends from [[chisel3.Data]], which represents the real hardware. * @tparam DO * Downward-flowing parameters generated on the outer side of the node. It is usually a brunch of parameters * describing the protocol parameters of a source. For an [[OutwardNode]], it is determined itself. * @tparam UO * Upward-flowing parameters received by the outer side of the node. It is usually a brunch of parameters describing * the protocol parameters from a sink. For an [[OutwardNode]], it is determined by the connected [[InwardNode]]. * Since it can be connected to multiple sinks, this parameter is always a Seq of sink port parameters. * @tparam EO * Edge Parameters describing a connection on the outer side of the node. It is usually a brunch of transfers * specified for a source according to protocol. * @tparam BO * Bundle type used when connecting to the outer side of the node. It is a hardware interface of this source * interface. It should extends from [[chisel3.Data]], which represents the real hardware. * * @note * Call Graph of [[MixedNode]] * - line `─`: source is process by a function and generate pass to others * - Arrow `β†’`: target of arrow is generated by source * * {{{ * (from the other node) * β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€[[InwardNode.uiParams]]─────────────┐ * ↓ β”‚ * (binding node when elaboration) [[OutwardNode.uoParams]]────────────────────────[[MixedNode.mapParamsU]]→──────────┐ β”‚ * [[InwardNode.accPI]] β”‚ β”‚ β”‚ * β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ ↓ β”‚ * ↓ β”‚ β”‚ β”‚ * (immobilize after elaboration) (inward port from [[OutwardNode]]) β”‚ ↓ β”‚ * [[InwardNode.iBindings]]──┐ [[MixedNode.iDirectPorts]]────────────────────→[[MixedNode.iPorts]] [[InwardNode.uiParams]] β”‚ * β”‚ β”‚ ↑ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[OutwardNode.doParams]] β”‚ β”‚ * β”‚ β”‚ β”‚ (from the other node) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ └────────┬─────────────── β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ (from the other node) β”‚ ↓ β”‚ * β”‚ └───[[OutwardNode.oPortMapping]] [[OutwardNode.oStar]] β”‚ [[MixedNode.edgesIn]]───┐ β”‚ * β”‚ ↑ ↑ β”‚ β”‚ ↓ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ [[MixedNode.in]] β”‚ * β”‚ β”‚ β”‚ β”‚ ↓ ↑ β”‚ * β”‚ (solve star connection) β”‚ β”‚ β”‚ [[MixedNode.bundleIn]]β”€β”€β”˜ β”‚ * β”œβ”€β”€β”€[[MixedNode.resolveStar]]→─┼────────────────────────────── └────────────────────────────────────┐ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.bundleOut]]─┐ β”‚ β”‚ * β”‚ β”‚ β”‚ ↑ ↓ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.out]] β”‚ β”‚ * β”‚ ↓ ↓ β”‚ ↑ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€[[InwardNode.iPortMapping]] [[InwardNode.iStar]] [[MixedNode.edgesOut]]β”€β”€β”˜ β”‚ β”‚ * β”‚ β”‚ (from the other node) ↑ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.outer.edgeO]] β”‚ β”‚ * β”‚ β”‚ β”‚ (based on protocol) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * (immobilize after elaboration)β”‚ ↓ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.oBindings]]β”€β”˜ [[MixedNode.oDirectPorts]]───→[[MixedNode.oPorts]] [[OutwardNode.doParams]] β”‚ β”‚ * ↑ (inward port from [[OutwardNode]]) β”‚ β”‚ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.accPO]] β”‚ ↓ β”‚ β”‚ β”‚ * (binding node when elaboration) β”‚ [[InwardNode.diParams]]─────→[[MixedNode.mapParamsD]]β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ β”‚ * β”‚ ↑ β”‚ β”‚ * β”‚ β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ * β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ * }}} */ abstract class MixedNode[DI, UI, EI, BI <: Data, DO, UO, EO, BO <: Data]( val inner: InwardNodeImp[DI, UI, EI, BI], val outer: OutwardNodeImp[DO, UO, EO, BO] )( implicit valName: ValName) extends BaseNode with NodeHandle[DI, UI, EI, BI, DO, UO, EO, BO] with InwardNode[DI, UI, BI] with OutwardNode[DO, UO, BO] { // Generate a [[NodeHandle]] with inward and outward node are both this node. val inward = this val outward = this /** Debug info of nodes binding. */ def bindingInfo: String = s"""$iBindingInfo |$oBindingInfo |""".stripMargin /** Debug info of ports connecting. */ def connectedPortsInfo: String = s"""${oPorts.size} outward ports connected: [${oPorts.map(_._2.name).mkString(",")}] |${iPorts.size} inward ports connected: [${iPorts.map(_._2.name).mkString(",")}] |""".stripMargin /** Debug info of parameters propagations. */ def parametersInfo: String = s"""${doParams.size} downstream outward parameters: [${doParams.mkString(",")}] |${uoParams.size} upstream outward parameters: [${uoParams.mkString(",")}] |${diParams.size} downstream inward parameters: [${diParams.mkString(",")}] |${uiParams.size} upstream inward parameters: [${uiParams.mkString(",")}] |""".stripMargin /** For a given node, converts [[OutwardNode.accPO]] and [[InwardNode.accPI]] to [[MixedNode.oPortMapping]] and * [[MixedNode.iPortMapping]]. * * Given counts of known inward and outward binding and inward and outward star bindings, return the resolved inward * stars and outward stars. * * This method will also validate the arguments and throw a runtime error if the values are unsuitable for this type * of node. * * @param iKnown * Number of known-size ([[BIND_ONCE]]) input bindings. * @param oKnown * Number of known-size ([[BIND_ONCE]]) output bindings. * @param iStar * Number of unknown size ([[BIND_STAR]]) input bindings. * @param oStar * Number of unknown size ([[BIND_STAR]]) output bindings. * @return * A Tuple of the resolved number of input and output connections. */ protected[diplomacy] def resolveStar(iKnown: Int, oKnown: Int, iStar: Int, oStar: Int): (Int, Int) /** Function to generate downward-flowing outward params from the downward-flowing input params and the current output * ports. * * @param n * The size of the output sequence to generate. * @param p * Sequence of downward-flowing input parameters of this node. * @return * A `n`-sized sequence of downward-flowing output edge parameters. */ protected[diplomacy] def mapParamsD(n: Int, p: Seq[DI]): Seq[DO] /** Function to generate upward-flowing input parameters from the upward-flowing output parameters [[uiParams]]. * * @param n * Size of the output sequence. * @param p * Upward-flowing output edge parameters. * @return * A n-sized sequence of upward-flowing input edge parameters. */ protected[diplomacy] def mapParamsU(n: Int, p: Seq[UO]): Seq[UI] /** @return * The sink cardinality of the node, the number of outputs bound with [[BIND_QUERY]] summed with inputs bound with * [[BIND_STAR]]. */ protected[diplomacy] lazy val sinkCard: Int = oBindings.count(_._3 == BIND_QUERY) + iBindings.count(_._3 == BIND_STAR) /** @return * The source cardinality of this node, the number of inputs bound with [[BIND_QUERY]] summed with the number of * output bindings bound with [[BIND_STAR]]. */ protected[diplomacy] lazy val sourceCard: Int = iBindings.count(_._3 == BIND_QUERY) + oBindings.count(_._3 == BIND_STAR) /** @return list of nodes involved in flex bindings with this node. */ protected[diplomacy] lazy val flexes: Seq[BaseNode] = oBindings.filter(_._3 == BIND_FLEX).map(_._2) ++ iBindings.filter(_._3 == BIND_FLEX).map(_._2) /** Resolves the flex to be either source or sink and returns the offset where the [[BIND_STAR]] operators begin * greedily taking up the remaining connections. * * @return * A value >= 0 if it is sink cardinality, a negative value for source cardinality. The magnitude of the return * value is not relevant. */ protected[diplomacy] lazy val flexOffset: Int = { /** Recursively performs a depth-first search of the [[flexes]], [[BaseNode]]s connected to this node with flex * operators. The algorithm bottoms out when we either get to a node we have already visited or when we get to a * connection that is not a flex and can set the direction for us. Otherwise, recurse by visiting the `flexes` of * each node in the current set and decide whether they should be added to the set or not. * * @return * the mapping of [[BaseNode]] indexed by their serial numbers. */ def DFS(v: BaseNode, visited: Map[Int, BaseNode]): Map[Int, BaseNode] = { if (visited.contains(v.serial) || !v.flexibleArityDirection) { visited } else { v.flexes.foldLeft(visited + (v.serial -> v))((sum, n) => DFS(n, sum)) } } /** Determine which [[BaseNode]] are involved in resolving the flex connections to/from this node. * * @example * {{{ * a :*=* b :*=* c * d :*=* b * e :*=* f * }}} * * `flexSet` for `a`, `b`, `c`, or `d` will be `Set(a, b, c, d)` `flexSet` for `e` or `f` will be `Set(e,f)` */ val flexSet = DFS(this, Map()).values /** The total number of :*= operators where we're on the left. */ val allSink = flexSet.map(_.sinkCard).sum /** The total number of :=* operators used when we're on the right. */ val allSource = flexSet.map(_.sourceCard).sum require( allSink == 0 || allSource == 0, s"The nodes ${flexSet.map(_.name)} which are inter-connected by :*=* have ${allSink} :*= operators and ${allSource} :=* operators connected to them, making it impossible to determine cardinality inference direction." ) allSink - allSource } /** @return A value >= 0 if it is sink cardinality, a negative value for source cardinality. */ protected[diplomacy] def edgeArityDirection(n: BaseNode): Int = { if (flexibleArityDirection) flexOffset else if (n.flexibleArityDirection) n.flexOffset else 0 } /** For a node which is connected between two nodes, select the one that will influence the direction of the flex * resolution. */ protected[diplomacy] def edgeAritySelect(n: BaseNode, l: => Int, r: => Int): Int = { val dir = edgeArityDirection(n) if (dir < 0) l else if (dir > 0) r else 1 } /** Ensure that the same node is not visited twice in resolving `:*=`, etc operators. */ private var starCycleGuard = false /** Resolve all the star operators into concrete indicies. As connections are being made, some may be "star" * connections which need to be resolved. In some way to determine how many actual edges they correspond to. We also * need to build up the ranges of edges which correspond to each binding operator, so that We can apply the correct * edge parameters and later build up correct bundle connections. * * [[oPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that oPort (binding * operator). [[iPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that iPort * (binding operator). [[oStar]]: `Int` the value to return for this node `N` for any `N :*= foo` or `N :*=* foo :*= * bar` [[iStar]]: `Int` the value to return for this node `N` for any `foo :=* N` or `bar :=* foo :*=* N` */ protected[diplomacy] lazy val ( oPortMapping: Seq[(Int, Int)], iPortMapping: Seq[(Int, Int)], oStar: Int, iStar: Int ) = { try { if (starCycleGuard) throw StarCycleException() starCycleGuard = true // For a given node N... // Number of foo :=* N // + Number of bar :=* foo :*=* N val oStars = oBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) < 0) } // Number of N :*= foo // + Number of N :*=* foo :*= bar val iStars = iBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) > 0) } // 1 for foo := N // + bar.iStar for bar :*= foo :*=* N // + foo.iStar for foo :*= N // + 0 for foo :=* N val oKnown = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, 0, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => 0 } }.sum // 1 for N := foo // + bar.oStar for N :*=* foo :=* bar // + foo.oStar for N :=* foo // + 0 for N :*= foo val iKnown = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, 0) case BIND_QUERY => n.oStar case BIND_STAR => 0 } }.sum // Resolve star depends on the node subclass to implement the algorithm for this. val (iStar, oStar) = resolveStar(iKnown, oKnown, iStars, oStars) // Cumulative list of resolved outward binding range starting points val oSum = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, oStar, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => oStar } }.scanLeft(0)(_ + _) // Cumulative list of resolved inward binding range starting points val iSum = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, iStar) case BIND_QUERY => n.oStar case BIND_STAR => iStar } }.scanLeft(0)(_ + _) // Create ranges for each binding based on the running sums and return // those along with resolved values for the star operations. (oSum.init.zip(oSum.tail), iSum.init.zip(iSum.tail), oStar, iStar) } catch { case c: StarCycleException => throw c.copy(loop = context +: c.loop) } } /** Sequence of inward ports. * * This should be called after all star bindings are resolved. * * Each element is: `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. * `n` Instance of inward node. `p` View of [[Parameters]] where this connection was made. `s` Source info where this * connection was made in the source code. */ protected[diplomacy] lazy val oDirectPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oBindings.flatMap { case (i, n, _, p, s) => // for each binding operator in this node, look at what it connects to val (start, end) = n.iPortMapping(i) (start until end).map { j => (j, n, p, s) } } /** Sequence of outward ports. * * This should be called after all star bindings are resolved. * * `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. `n` Instance of * outward node. `p` View of [[Parameters]] where this connection was made. `s` [[SourceInfo]] where this connection * was made in the source code. */ protected[diplomacy] lazy val iDirectPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iBindings.flatMap { case (i, n, _, p, s) => // query this port index range of this node in the other side of node. val (start, end) = n.oPortMapping(i) (start until end).map { j => (j, n, p, s) } } // Ephemeral nodes ( which have non-None iForward/oForward) have in_degree = out_degree // Thus, there must exist an Eulerian path and the below algorithms terminate @scala.annotation.tailrec private def oTrace( tuple: (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) ): (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.iForward(i) match { case None => (i, n, p, s) case Some((j, m)) => oTrace((j, m, p, s)) } } @scala.annotation.tailrec private def iTrace( tuple: (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) ): (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.oForward(i) match { case None => (i, n, p, s) case Some((j, m)) => iTrace((j, m, p, s)) } } /** Final output ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - Numeric index of this binding in the [[InwardNode]] on the other end. * - [[InwardNode]] on the other end of this binding. * - A view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val oPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oDirectPorts.map(oTrace) /** Final input ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - numeric index of this binding in [[OutwardNode]] on the other end. * - [[OutwardNode]] on the other end of this binding. * - a view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val iPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iDirectPorts.map(iTrace) private var oParamsCycleGuard = false protected[diplomacy] lazy val diParams: Seq[DI] = iPorts.map { case (i, n, _, _) => n.doParams(i) } protected[diplomacy] lazy val doParams: Seq[DO] = { try { if (oParamsCycleGuard) throw DownwardCycleException() oParamsCycleGuard = true val o = mapParamsD(oPorts.size, diParams) require( o.size == oPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of outward ports should equal the number of produced outward parameters. |$context |$connectedPortsInfo |Downstreamed inward parameters: [${diParams.mkString(",")}] |Produced outward parameters: [${o.mkString(",")}] |""".stripMargin ) o.map(outer.mixO(_, this)) } catch { case c: DownwardCycleException => throw c.copy(loop = context +: c.loop) } } private var iParamsCycleGuard = false protected[diplomacy] lazy val uoParams: Seq[UO] = oPorts.map { case (o, n, _, _) => n.uiParams(o) } protected[diplomacy] lazy val uiParams: Seq[UI] = { try { if (iParamsCycleGuard) throw UpwardCycleException() iParamsCycleGuard = true val i = mapParamsU(iPorts.size, uoParams) require( i.size == iPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of inward ports should equal the number of produced inward parameters. |$context |$connectedPortsInfo |Upstreamed outward parameters: [${uoParams.mkString(",")}] |Produced inward parameters: [${i.mkString(",")}] |""".stripMargin ) i.map(inner.mixI(_, this)) } catch { case c: UpwardCycleException => throw c.copy(loop = context +: c.loop) } } /** Outward edge parameters. */ protected[diplomacy] lazy val edgesOut: Seq[EO] = (oPorts.zip(doParams)).map { case ((i, n, p, s), o) => outer.edgeO(o, n.uiParams(i), p, s) } /** Inward edge parameters. */ protected[diplomacy] lazy val edgesIn: Seq[EI] = (iPorts.zip(uiParams)).map { case ((o, n, p, s), i) => inner.edgeI(n.doParams(o), i, p, s) } /** A tuple of the input edge parameters and output edge parameters for the edges bound to this node. * * If you need to access to the edges of a foreign Node, use this method (in/out create bundles). */ lazy val edges: Edges[EI, EO] = Edges(edgesIn, edgesOut) /** Create actual Wires corresponding to the Bundles parameterized by the outward edges of this node. */ protected[diplomacy] lazy val bundleOut: Seq[BO] = edgesOut.map { e => val x = Wire(outer.bundleO(e)).suggestName(s"${valName.value}Out") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } /** Create actual Wires corresponding to the Bundles parameterized by the inward edges of this node. */ protected[diplomacy] lazy val bundleIn: Seq[BI] = edgesIn.map { e => val x = Wire(inner.bundleI(e)).suggestName(s"${valName.value}In") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } private def emptyDanglesOut: Seq[Dangle] = oPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(serial, i), sink = HalfEdge(n.serial, j), flipped = false, name = wirePrefix + "out", dataOpt = None ) } private def emptyDanglesIn: Seq[Dangle] = iPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(n.serial, j), sink = HalfEdge(serial, i), flipped = true, name = wirePrefix + "in", dataOpt = None ) } /** Create the [[Dangle]]s which describe the connections from this node output to other nodes inputs. */ protected[diplomacy] def danglesOut: Seq[Dangle] = emptyDanglesOut.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleOut(i))) } /** Create the [[Dangle]]s which describe the connections from this node input from other nodes outputs. */ protected[diplomacy] def danglesIn: Seq[Dangle] = emptyDanglesIn.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleIn(i))) } private[diplomacy] var instantiated = false /** Gather Bundle and edge parameters of outward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def out: Seq[(BO, EO)] = { require( instantiated, s"$name.out should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleOut.zip(edgesOut) } /** Gather Bundle and edge parameters of inward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def in: Seq[(BI, EI)] = { require( instantiated, s"$name.in should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleIn.zip(edgesIn) } /** Actually instantiate this node during [[LazyModuleImp]] evaluation. Mark that it's safe to use the Bundle wires, * instantiate monitors on all input ports if appropriate, and return all the dangles of this node. */ protected[diplomacy] def instantiate(): Seq[Dangle] = { instantiated = true if (!circuitIdentity) { (iPorts.zip(in)).foreach { case ((_, _, p, _), (b, e)) => if (p(MonitorsEnabled)) inner.monitor(b, e) } } danglesOut ++ danglesIn } protected[diplomacy] def cloneDangles(): Seq[Dangle] = emptyDanglesOut ++ emptyDanglesIn /** Connects the outward part of a node with the inward part of this node. */ protected[diplomacy] def bind( h: OutwardNode[DI, UI, BI], binding: NodeBinding )( implicit p: Parameters, sourceInfo: SourceInfo ): Unit = { val x = this // x := y val y = h sourceLine(sourceInfo, " at ", "") val i = x.iPushed val o = y.oPushed y.oPush( i, x, binding match { case BIND_ONCE => BIND_ONCE case BIND_FLEX => BIND_FLEX case BIND_STAR => BIND_QUERY case BIND_QUERY => BIND_STAR } ) x.iPush(o, y, binding) } /* Metadata for printing the node graph. */ def inputs: Seq[(OutwardNode[DI, UI, BI], RenderedEdge)] = (iPorts.zip(edgesIn)).map { case ((_, n, p, _), e) => val re = inner.render(e) (n, re.copy(flipped = re.flipped != p(RenderFlipped))) } /** Metadata for printing the node graph */ def outputs: Seq[(InwardNode[DO, UO, BO], RenderedEdge)] = oPorts.map { case (i, n, _, _) => (n, n.inputs(i)._2) } }
module IntSyncSyncCrossingSink_n1x1_40(); // @[Crossing.scala:96:9] wire auto_in_sync_0 = 1'h0; // @[Crossing.scala:96:9] wire auto_out_0 = 1'h0; // @[Crossing.scala:96:9] wire childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire _childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire nodeIn_sync_0 = 1'h0; // @[MixedNode.scala:551:17] wire nodeOut_0 = 1'h0; // @[MixedNode.scala:542:17] endmodule
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File AsyncQueue.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ case class AsyncQueueParams( depth: Int = 8, sync: Int = 3, safe: Boolean = true, // If safe is true, then effort is made to resynchronize the crossing indices when either side is reset. // This makes it safe/possible to reset one side of the crossing (but not the other) when the queue is empty. narrow: Boolean = false) // If narrow is true then the read mux is moved to the source side of the crossing. // This reduces the number of level shifters in the case where the clock crossing is also a voltage crossing, // at the expense of a combinational path from the sink to the source and back to the sink. { require (depth > 0 && isPow2(depth)) require (sync >= 2) val bits = log2Ceil(depth) val wires = if (narrow) 1 else depth } object AsyncQueueParams { // When there is only one entry, we don't need narrow. def singleton(sync: Int = 3, safe: Boolean = true) = AsyncQueueParams(1, sync, safe, false) } class AsyncBundleSafety extends Bundle { val ridx_valid = Input (Bool()) val widx_valid = Output(Bool()) val source_reset_n = Output(Bool()) val sink_reset_n = Input (Bool()) } class AsyncBundle[T <: Data](private val gen: T, val params: AsyncQueueParams = AsyncQueueParams()) extends Bundle { // Data-path synchronization val mem = Output(Vec(params.wires, gen)) val ridx = Input (UInt((params.bits+1).W)) val widx = Output(UInt((params.bits+1).W)) val index = params.narrow.option(Input(UInt(params.bits.W))) // Signals used to self-stabilize a safe AsyncQueue val safe = params.safe.option(new AsyncBundleSafety) } object GrayCounter { def apply(bits: Int, increment: Bool = true.B, clear: Bool = false.B, name: String = "binary"): UInt = { val incremented = Wire(UInt(bits.W)) val binary = RegNext(next=incremented, init=0.U).suggestName(name) incremented := Mux(clear, 0.U, binary + increment.asUInt) incremented ^ (incremented >> 1) } } class AsyncValidSync(sync: Int, desc: String) extends RawModule { val io = IO(new Bundle { val in = Input(Bool()) val out = Output(Bool()) }) val clock = IO(Input(Clock())) val reset = IO(Input(AsyncReset())) withClockAndReset(clock, reset){ io.out := AsyncResetSynchronizerShiftReg(io.in, sync, Some(desc)) } } class AsyncQueueSource[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSource_${gen.typeName}" val io = IO(new Bundle { // These come from the source domain val enq = Flipped(Decoupled(gen)) // These cross to the sink clock domain val async = new AsyncBundle(gen, params) }) val bits = params.bits val sink_ready = WireInit(true.B) val mem = Reg(Vec(params.depth, gen)) // This does NOT need to be reset at all. val widx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.enq.fire, !sink_ready, "widx_bin")) val ridx = AsyncResetSynchronizerShiftReg(io.async.ridx, params.sync, Some("ridx_gray")) val ready = sink_ready && widx =/= (ridx ^ (params.depth | params.depth >> 1).U) val index = if (bits == 0) 0.U else io.async.widx(bits-1, 0) ^ (io.async.widx(bits, bits) << (bits-1)) when (io.enq.fire) { mem(index) := io.enq.bits } val ready_reg = withReset(reset.asAsyncReset)(RegNext(next=ready, init=false.B).suggestName("ready_reg")) io.enq.ready := ready_reg && sink_ready val widx_reg = withReset(reset.asAsyncReset)(RegNext(next=widx, init=0.U).suggestName("widx_gray")) io.async.widx := widx_reg io.async.index match { case Some(index) => io.async.mem(0) := mem(index) case None => io.async.mem := mem } io.async.safe.foreach { sio => val source_valid_0 = Module(new AsyncValidSync(params.sync, "source_valid_0")) val source_valid_1 = Module(new AsyncValidSync(params.sync, "source_valid_1")) val sink_extend = Module(new AsyncValidSync(params.sync, "sink_extend")) val sink_valid = Module(new AsyncValidSync(params.sync, "sink_valid")) source_valid_0.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset source_valid_1.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_extend .reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_valid .reset := reset.asAsyncReset source_valid_0.clock := clock source_valid_1.clock := clock sink_extend .clock := clock sink_valid .clock := clock source_valid_0.io.in := true.B source_valid_1.io.in := source_valid_0.io.out sio.widx_valid := source_valid_1.io.out sink_extend.io.in := sio.ridx_valid sink_valid.io.in := sink_extend.io.out sink_ready := sink_valid.io.out sio.source_reset_n := !reset.asBool // Assert that if there is stuff in the queue, then reset cannot happen // Impossible to write because dequeue can occur on the receiving side, // then reset allowed to happen, but write side cannot know that dequeue // occurred. // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // assert (!(reset || !sio.sink_reset_n) || !io.enq.valid, "Enqueue while sink is reset and AsyncQueueSource is unprotected") // assert (!reset_rise || prev_idx_match.asBool, "Sink reset while AsyncQueueSource not empty") } } class AsyncQueueSink[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSink_${gen.typeName}" val io = IO(new Bundle { // These come from the sink domain val deq = Decoupled(gen) // These cross to the source clock domain val async = Flipped(new AsyncBundle(gen, params)) }) val bits = params.bits val source_ready = WireInit(true.B) val ridx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.deq.fire, !source_ready, "ridx_bin")) val widx = AsyncResetSynchronizerShiftReg(io.async.widx, params.sync, Some("widx_gray")) val valid = source_ready && ridx =/= widx // The mux is safe because timing analysis ensures ridx has reached the register // On an ASIC, changes to the unread location cannot affect the selected value // On an FPGA, only one input changes at a time => mem updates don't cause glitches // The register only latches when the selected valued is not being written val index = if (bits == 0) 0.U else ridx(bits-1, 0) ^ (ridx(bits, bits) << (bits-1)) io.async.index.foreach { _ := index } // This register does not NEED to be reset, as its contents will not // be considered unless the asynchronously reset deq valid register is set. // It is possible that bits latches when the source domain is reset / has power cut // This is safe, because isolation gates brought mem low before the zeroed widx reached us val deq_bits_nxt = io.async.mem(if (params.narrow) 0.U else index) io.deq.bits := ClockCrossingReg(deq_bits_nxt, en = valid, doInit = false, name = Some("deq_bits_reg")) val valid_reg = withReset(reset.asAsyncReset)(RegNext(next=valid, init=false.B).suggestName("valid_reg")) io.deq.valid := valid_reg && source_ready val ridx_reg = withReset(reset.asAsyncReset)(RegNext(next=ridx, init=0.U).suggestName("ridx_gray")) io.async.ridx := ridx_reg io.async.safe.foreach { sio => val sink_valid_0 = Module(new AsyncValidSync(params.sync, "sink_valid_0")) val sink_valid_1 = Module(new AsyncValidSync(params.sync, "sink_valid_1")) val source_extend = Module(new AsyncValidSync(params.sync, "source_extend")) val source_valid = Module(new AsyncValidSync(params.sync, "source_valid")) sink_valid_0 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset sink_valid_1 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_extend.reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_valid .reset := reset.asAsyncReset sink_valid_0 .clock := clock sink_valid_1 .clock := clock source_extend.clock := clock source_valid .clock := clock sink_valid_0.io.in := true.B sink_valid_1.io.in := sink_valid_0.io.out sio.ridx_valid := sink_valid_1.io.out source_extend.io.in := sio.widx_valid source_valid.io.in := source_extend.io.out source_ready := source_valid.io.out sio.sink_reset_n := !reset.asBool // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // // val reset_and_extend = !source_ready || !sio.source_reset_n || reset.asBool // val reset_and_extend_prev = RegNext(reset_and_extend, true.B) // val reset_rise = !reset_and_extend_prev && reset_and_extend // val prev_idx_match = AsyncResetReg(updateData=(io.async.widx===io.async.ridx), resetData=0) // assert (!reset_rise || prev_idx_match.asBool, "Source reset while AsyncQueueSink not empty") } } object FromAsyncBundle { // Sometimes it makes sense for the sink to have different sync than the source def apply[T <: Data](x: AsyncBundle[T]): DecoupledIO[T] = apply(x, x.params.sync) def apply[T <: Data](x: AsyncBundle[T], sync: Int): DecoupledIO[T] = { val sink = Module(new AsyncQueueSink(chiselTypeOf(x.mem(0)), x.params.copy(sync = sync))) sink.io.async <> x sink.io.deq } } object ToAsyncBundle { def apply[T <: Data](x: ReadyValidIO[T], params: AsyncQueueParams = AsyncQueueParams()): AsyncBundle[T] = { val source = Module(new AsyncQueueSource(chiselTypeOf(x.bits), params)) source.io.enq <> x source.io.async } } class AsyncQueue[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Crossing[T] { val io = IO(new CrossingIO(gen)) val source = withClockAndReset(io.enq_clock, io.enq_reset) { Module(new AsyncQueueSource(gen, params)) } val sink = withClockAndReset(io.deq_clock, io.deq_reset) { Module(new AsyncQueueSink (gen, params)) } source.io.enq <> io.enq io.deq <> sink.io.deq sink.io.async <> source.io.async }
module AsyncValidSync_72( // @[AsyncQueue.scala:58:7] output io_out, // @[AsyncQueue.scala:59:14] input clock, // @[AsyncQueue.scala:63:17] input reset // @[AsyncQueue.scala:64:17] ); wire io_in = 1'h1; // @[ShiftReg.scala:45:23] wire _io_out_WIRE; // @[ShiftReg.scala:48:24] wire io_out_0; // @[AsyncQueue.scala:58:7] assign io_out_0 = _io_out_WIRE; // @[ShiftReg.scala:48:24] AsyncResetSynchronizerShiftReg_w1_d3_i0_82 io_out_source_valid_0 ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (reset), .io_q (_io_out_WIRE) ); // @[ShiftReg.scala:45:23] assign io_out = io_out_0; // @[AsyncQueue.scala:58:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File ClockDomain.scala: package freechips.rocketchip.prci import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ abstract class Domain(implicit p: Parameters) extends LazyModule with HasDomainCrossing { def clockBundle: ClockBundle lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { childClock := clockBundle.clock childReset := clockBundle.reset override def provideImplicitClockToLazyChildren = true // these are just for backwards compatibility with external devices // that were manually wiring themselves to the domain's clock/reset input: val clock = IO(Output(chiselTypeOf(clockBundle.clock))) val reset = IO(Output(chiselTypeOf(clockBundle.reset))) clock := clockBundle.clock reset := clockBundle.reset } } abstract class ClockDomain(implicit p: Parameters) extends Domain with HasClockDomainCrossing class ClockSinkDomain(val clockSinkParams: ClockSinkParameters)(implicit p: Parameters) extends ClockDomain { def this(take: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSinkParameters(take = take, name = name)) val clockNode = ClockSinkNode(Seq(clockSinkParams)) def clockBundle = clockNode.in.head._1 override lazy val desiredName = (clockSinkParams.name.toSeq :+ "ClockSinkDomain").mkString } class ClockSourceDomain(val clockSourceParams: ClockSourceParameters)(implicit p: Parameters) extends ClockDomain { def this(give: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSourceParameters(give = give, name = name)) val clockNode = ClockSourceNode(Seq(clockSourceParams)) def clockBundle = clockNode.out.head._1 override lazy val desiredName = (clockSourceParams.name.toSeq :+ "ClockSourceDomain").mkString } abstract class ResetDomain(implicit p: Parameters) extends Domain with HasResetDomainCrossing File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File NoC.scala: package constellation.noc import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.{Field, Parameters} import freechips.rocketchip.diplomacy.{LazyModule, LazyModuleImp, BundleBridgeSink, InModuleBody} import freechips.rocketchip.util.ElaborationArtefacts import freechips.rocketchip.prci._ import constellation.router._ import constellation.channel._ import constellation.routing.{RoutingRelation, ChannelRoutingInfo} import constellation.topology.{PhysicalTopology, UnidirectionalLine} class NoCTerminalIO( val ingressParams: Seq[IngressChannelParams], val egressParams: Seq[EgressChannelParams])(implicit val p: Parameters) extends Bundle { val ingress = MixedVec(ingressParams.map { u => Flipped(new IngressChannel(u)) }) val egress = MixedVec(egressParams.map { u => new EgressChannel(u) }) } class NoC(nocParams: NoCParams)(implicit p: Parameters) extends LazyModule { override def shouldBeInlined = nocParams.inlineNoC val internalParams = InternalNoCParams(nocParams) val allChannelParams = internalParams.channelParams val allIngressParams = internalParams.ingressParams val allEgressParams = internalParams.egressParams val allRouterParams = internalParams.routerParams val iP = p.alterPartial({ case InternalNoCKey => internalParams }) val nNodes = nocParams.topology.nNodes val nocName = nocParams.nocName val skipValidationChecks = nocParams.skipValidationChecks val clockSourceNodes = Seq.tabulate(nNodes) { i => ClockSourceNode(Seq(ClockSourceParameters())) } val router_sink_domains = Seq.tabulate(nNodes) { i => val router_sink_domain = LazyModule(new ClockSinkDomain(ClockSinkParameters( name = Some(s"${nocName}_router_$i") ))) router_sink_domain.clockNode := clockSourceNodes(i) router_sink_domain } val routers = Seq.tabulate(nNodes) { i => router_sink_domains(i) { val inParams = allChannelParams.filter(_.destId == i).map( _.copy(payloadBits=allRouterParams(i).user.payloadBits) ) val outParams = allChannelParams.filter(_.srcId == i).map( _.copy(payloadBits=allRouterParams(i).user.payloadBits) ) val ingressParams = allIngressParams.filter(_.destId == i).map( _.copy(payloadBits=allRouterParams(i).user.payloadBits) ) val egressParams = allEgressParams.filter(_.srcId == i).map( _.copy(payloadBits=allRouterParams(i).user.payloadBits) ) val noIn = inParams.size + ingressParams.size == 0 val noOut = outParams.size + egressParams.size == 0 if (noIn || noOut) { println(s"Constellation WARNING: $nocName router $i seems to be unused, it will not be generated") None } else { Some(LazyModule(new Router( routerParams = allRouterParams(i), preDiplomaticInParams = inParams, preDiplomaticIngressParams = ingressParams, outDests = outParams.map(_.destId), egressIds = egressParams.map(_.egressId) )(iP))) } }}.flatten val ingressNodes = allIngressParams.map { u => IngressChannelSourceNode(u.destId) } val egressNodes = allEgressParams.map { u => EgressChannelDestNode(u) } // Generate channels between routers diplomatically Seq.tabulate(nNodes, nNodes) { case (i, j) => if (i != j) { val routerI = routers.find(_.nodeId == i) val routerJ = routers.find(_.nodeId == j) if (routerI.isDefined && routerJ.isDefined) { val sourceNodes: Seq[ChannelSourceNode] = routerI.get.sourceNodes.filter(_.destId == j) val destNodes: Seq[ChannelDestNode] = routerJ.get.destNodes.filter(_.destParams.srcId == i) require (sourceNodes.size == destNodes.size) (sourceNodes zip destNodes).foreach { case (src, dst) => val channelParam = allChannelParams.find(c => c.srcId == i && c.destId == j).get router_sink_domains(j) { implicit val p: Parameters = iP (dst := ChannelWidthWidget(routerJ.get.payloadBits, routerI.get.payloadBits) := channelParam.channelGen(p)(src) ) } } } }} // Generate terminal channels diplomatically routers.foreach { dst => router_sink_domains(dst.nodeId) { implicit val p: Parameters = iP dst.ingressNodes.foreach(n => { val ingressId = n.destParams.ingressId require(dst.payloadBits <= allIngressParams(ingressId).payloadBits) (n := IngressWidthWidget(dst.payloadBits, allIngressParams(ingressId).payloadBits) := ingressNodes(ingressId) ) }) dst.egressNodes.foreach(n => { val egressId = n.egressId require(dst.payloadBits <= allEgressParams(egressId).payloadBits) (egressNodes(egressId) := EgressWidthWidget(allEgressParams(egressId).payloadBits, dst.payloadBits) := n ) }) }} val debugNodes = routers.map { r => val sink = BundleBridgeSink[DebugBundle]() sink := r.debugNode sink } val ctrlNodes = if (nocParams.hasCtrl) { (0 until nNodes).map { i => routers.find(_.nodeId == i).map { r => val sink = BundleBridgeSink[RouterCtrlBundle]() sink := r.ctrlNode.get sink } } } else { Nil } println(s"Constellation: $nocName Finished parameter validation") lazy val module = new Impl class Impl extends LazyModuleImp(this) { println(s"Constellation: $nocName Starting NoC RTL generation") val io = IO(new NoCTerminalIO(allIngressParams, allEgressParams)(iP) { val router_clocks = Vec(nNodes, Input(new ClockBundle(ClockBundleParameters()))) val router_ctrl = if (nocParams.hasCtrl) Vec(nNodes, new RouterCtrlBundle) else Nil }) (io.ingress zip ingressNodes.map(_.out(0)._1)).foreach { case (l,r) => r <> l } (io.egress zip egressNodes .map(_.in (0)._1)).foreach { case (l,r) => l <> r } (io.router_clocks zip clockSourceNodes.map(_.out(0)._1)).foreach { case (l,r) => l <> r } if (nocParams.hasCtrl) { ctrlNodes.zipWithIndex.map { case (c,i) => if (c.isDefined) { io.router_ctrl(i) <> c.get.in(0)._1 } else { io.router_ctrl(i) <> DontCare } } } // TODO: These assume a single clock-domain across the entire noc val debug_va_stall_ctr = RegInit(0.U(64.W)) val debug_sa_stall_ctr = RegInit(0.U(64.W)) val debug_any_stall_ctr = debug_va_stall_ctr + debug_sa_stall_ctr debug_va_stall_ctr := debug_va_stall_ctr + debugNodes.map(_.in(0)._1.va_stall.reduce(_+_)).reduce(_+_) debug_sa_stall_ctr := debug_sa_stall_ctr + debugNodes.map(_.in(0)._1.sa_stall.reduce(_+_)).reduce(_+_) dontTouch(debug_va_stall_ctr) dontTouch(debug_sa_stall_ctr) dontTouch(debug_any_stall_ctr) def prepend(s: String) = Seq(nocName, s).mkString(".") ElaborationArtefacts.add(prepend("noc.graphml"), graphML) val adjList = routers.map { r => val outs = r.outParams.map(o => s"${o.destId}").mkString(" ") val egresses = r.egressParams.map(e => s"e${e.egressId}").mkString(" ") val ingresses = r.ingressParams.map(i => s"i${i.ingressId} ${r.nodeId}") (Seq(s"${r.nodeId} $outs $egresses") ++ ingresses).mkString("\n") }.mkString("\n") ElaborationArtefacts.add(prepend("noc.adjlist"), adjList) val xys = routers.map(r => { val n = r.nodeId val ids = (Seq(r.nodeId.toString) ++ r.egressParams.map(e => s"e${e.egressId}") ++ r.ingressParams.map(i => s"i${i.ingressId}") ) val plotter = nocParams.topology.plotter val coords = (Seq(plotter.node(r.nodeId)) ++ Seq.tabulate(r.egressParams.size ) { i => plotter. egress(i, r. egressParams.size, r.nodeId) } ++ Seq.tabulate(r.ingressParams.size) { i => plotter.ingress(i, r.ingressParams.size, r.nodeId) } ) (ids zip coords).map { case (i, (x, y)) => s"$i $x $y" }.mkString("\n") }).mkString("\n") ElaborationArtefacts.add(prepend("noc.xy"), xys) val edgeProps = routers.map { r => val outs = r.outParams.map { o => (Seq(s"${r.nodeId} ${o.destId}") ++ (if (o.possibleFlows.size == 0) Some("unused") else None)) .mkString(" ") } val egresses = r.egressParams.map { e => (Seq(s"${r.nodeId} e${e.egressId}") ++ (if (e.possibleFlows.size == 0) Some("unused") else None)) .mkString(" ") } val ingresses = r.ingressParams.map { i => (Seq(s"i${i.ingressId} ${r.nodeId}") ++ (if (i.possibleFlows.size == 0) Some("unused") else None)) .mkString(" ") } (outs ++ egresses ++ ingresses).mkString("\n") }.mkString("\n") ElaborationArtefacts.add(prepend("noc.edgeprops"), edgeProps) println(s"Constellation: $nocName Finished NoC RTL generation") } }
module TLNoC_router_18ClockSinkDomain( // @[ClockDomain.scala:14:9] output [2:0] auto_routers_debug_out_va_stall_0, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_debug_out_va_stall_1, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_debug_out_va_stall_2, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_debug_out_va_stall_3, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_debug_out_sa_stall_0, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_debug_out_sa_stall_1, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_debug_out_sa_stall_2, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_debug_out_sa_stall_3, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_3_flit_0_valid, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_3_flit_0_bits_head, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_3_flit_0_bits_tail, // @[LazyModuleImp.scala:107:25] output [72:0] auto_routers_source_nodes_out_3_flit_0_bits_payload, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_source_nodes_out_3_flit_0_bits_flow_vnet_id, // @[LazyModuleImp.scala:107:25] output [4:0] auto_routers_source_nodes_out_3_flit_0_bits_flow_ingress_node, // @[LazyModuleImp.scala:107:25] output [1:0] auto_routers_source_nodes_out_3_flit_0_bits_flow_ingress_node_id, // @[LazyModuleImp.scala:107:25] output [4:0] auto_routers_source_nodes_out_3_flit_0_bits_flow_egress_node, // @[LazyModuleImp.scala:107:25] output [1:0] auto_routers_source_nodes_out_3_flit_0_bits_flow_egress_node_id, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_source_nodes_out_3_flit_0_bits_virt_channel_id, // @[LazyModuleImp.scala:107:25] input [7:0] auto_routers_source_nodes_out_3_credit_return, // @[LazyModuleImp.scala:107:25] input [7:0] auto_routers_source_nodes_out_3_vc_free, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_2_flit_0_valid, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_2_flit_0_bits_head, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_2_flit_0_bits_tail, // @[LazyModuleImp.scala:107:25] output [72:0] auto_routers_source_nodes_out_2_flit_0_bits_payload, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_source_nodes_out_2_flit_0_bits_flow_vnet_id, // @[LazyModuleImp.scala:107:25] output [4:0] auto_routers_source_nodes_out_2_flit_0_bits_flow_ingress_node, // @[LazyModuleImp.scala:107:25] output [1:0] auto_routers_source_nodes_out_2_flit_0_bits_flow_ingress_node_id, // @[LazyModuleImp.scala:107:25] output [4:0] auto_routers_source_nodes_out_2_flit_0_bits_flow_egress_node, // @[LazyModuleImp.scala:107:25] output [1:0] auto_routers_source_nodes_out_2_flit_0_bits_flow_egress_node_id, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_source_nodes_out_2_flit_0_bits_virt_channel_id, // @[LazyModuleImp.scala:107:25] input [7:0] auto_routers_source_nodes_out_2_credit_return, // @[LazyModuleImp.scala:107:25] input [7:0] auto_routers_source_nodes_out_2_vc_free, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_1_flit_0_valid, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_1_flit_0_bits_head, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_1_flit_0_bits_tail, // @[LazyModuleImp.scala:107:25] output [72:0] auto_routers_source_nodes_out_1_flit_0_bits_payload, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_source_nodes_out_1_flit_0_bits_flow_vnet_id, // @[LazyModuleImp.scala:107:25] output [4:0] auto_routers_source_nodes_out_1_flit_0_bits_flow_ingress_node, // @[LazyModuleImp.scala:107:25] output [1:0] auto_routers_source_nodes_out_1_flit_0_bits_flow_ingress_node_id, // @[LazyModuleImp.scala:107:25] output [4:0] auto_routers_source_nodes_out_1_flit_0_bits_flow_egress_node, // @[LazyModuleImp.scala:107:25] output [1:0] auto_routers_source_nodes_out_1_flit_0_bits_flow_egress_node_id, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_source_nodes_out_1_flit_0_bits_virt_channel_id, // @[LazyModuleImp.scala:107:25] input [7:0] auto_routers_source_nodes_out_1_credit_return, // @[LazyModuleImp.scala:107:25] input [7:0] auto_routers_source_nodes_out_1_vc_free, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_0_flit_0_valid, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_0_flit_0_bits_head, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_0_flit_0_bits_tail, // @[LazyModuleImp.scala:107:25] output [72:0] auto_routers_source_nodes_out_0_flit_0_bits_payload, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_source_nodes_out_0_flit_0_bits_flow_vnet_id, // @[LazyModuleImp.scala:107:25] output [4:0] auto_routers_source_nodes_out_0_flit_0_bits_flow_ingress_node, // @[LazyModuleImp.scala:107:25] output [1:0] auto_routers_source_nodes_out_0_flit_0_bits_flow_ingress_node_id, // @[LazyModuleImp.scala:107:25] output [4:0] auto_routers_source_nodes_out_0_flit_0_bits_flow_egress_node, // @[LazyModuleImp.scala:107:25] output [1:0] auto_routers_source_nodes_out_0_flit_0_bits_flow_egress_node_id, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_source_nodes_out_0_flit_0_bits_virt_channel_id, // @[LazyModuleImp.scala:107:25] input [7:0] auto_routers_source_nodes_out_0_credit_return, // @[LazyModuleImp.scala:107:25] input [7:0] auto_routers_source_nodes_out_0_vc_free, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_3_flit_0_valid, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_3_flit_0_bits_head, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_3_flit_0_bits_tail, // @[LazyModuleImp.scala:107:25] input [72:0] auto_routers_dest_nodes_in_3_flit_0_bits_payload, // @[LazyModuleImp.scala:107:25] input [2:0] auto_routers_dest_nodes_in_3_flit_0_bits_flow_vnet_id, // @[LazyModuleImp.scala:107:25] input [4:0] auto_routers_dest_nodes_in_3_flit_0_bits_flow_ingress_node, // @[LazyModuleImp.scala:107:25] input [1:0] auto_routers_dest_nodes_in_3_flit_0_bits_flow_ingress_node_id, // @[LazyModuleImp.scala:107:25] input [4:0] auto_routers_dest_nodes_in_3_flit_0_bits_flow_egress_node, // @[LazyModuleImp.scala:107:25] input [1:0] auto_routers_dest_nodes_in_3_flit_0_bits_flow_egress_node_id, // @[LazyModuleImp.scala:107:25] input [2:0] auto_routers_dest_nodes_in_3_flit_0_bits_virt_channel_id, // @[LazyModuleImp.scala:107:25] output [7:0] auto_routers_dest_nodes_in_3_credit_return, // @[LazyModuleImp.scala:107:25] output [7:0] auto_routers_dest_nodes_in_3_vc_free, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_2_flit_0_valid, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_2_flit_0_bits_head, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_2_flit_0_bits_tail, // @[LazyModuleImp.scala:107:25] input [72:0] auto_routers_dest_nodes_in_2_flit_0_bits_payload, // @[LazyModuleImp.scala:107:25] input [2:0] auto_routers_dest_nodes_in_2_flit_0_bits_flow_vnet_id, // @[LazyModuleImp.scala:107:25] input [4:0] auto_routers_dest_nodes_in_2_flit_0_bits_flow_ingress_node, // @[LazyModuleImp.scala:107:25] input [1:0] auto_routers_dest_nodes_in_2_flit_0_bits_flow_ingress_node_id, // @[LazyModuleImp.scala:107:25] input [4:0] auto_routers_dest_nodes_in_2_flit_0_bits_flow_egress_node, // @[LazyModuleImp.scala:107:25] input [1:0] auto_routers_dest_nodes_in_2_flit_0_bits_flow_egress_node_id, // @[LazyModuleImp.scala:107:25] input [2:0] auto_routers_dest_nodes_in_2_flit_0_bits_virt_channel_id, // @[LazyModuleImp.scala:107:25] output [7:0] auto_routers_dest_nodes_in_2_credit_return, // @[LazyModuleImp.scala:107:25] output [7:0] auto_routers_dest_nodes_in_2_vc_free, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_1_flit_0_valid, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_1_flit_0_bits_head, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_1_flit_0_bits_tail, // @[LazyModuleImp.scala:107:25] input [72:0] auto_routers_dest_nodes_in_1_flit_0_bits_payload, // @[LazyModuleImp.scala:107:25] input [2:0] auto_routers_dest_nodes_in_1_flit_0_bits_flow_vnet_id, // @[LazyModuleImp.scala:107:25] input [4:0] auto_routers_dest_nodes_in_1_flit_0_bits_flow_ingress_node, // @[LazyModuleImp.scala:107:25] input [1:0] auto_routers_dest_nodes_in_1_flit_0_bits_flow_ingress_node_id, // @[LazyModuleImp.scala:107:25] input [4:0] auto_routers_dest_nodes_in_1_flit_0_bits_flow_egress_node, // @[LazyModuleImp.scala:107:25] input [1:0] auto_routers_dest_nodes_in_1_flit_0_bits_flow_egress_node_id, // @[LazyModuleImp.scala:107:25] input [2:0] auto_routers_dest_nodes_in_1_flit_0_bits_virt_channel_id, // @[LazyModuleImp.scala:107:25] output [7:0] auto_routers_dest_nodes_in_1_credit_return, // @[LazyModuleImp.scala:107:25] output [7:0] auto_routers_dest_nodes_in_1_vc_free, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_0_flit_0_valid, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_0_flit_0_bits_head, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_0_flit_0_bits_tail, // @[LazyModuleImp.scala:107:25] input [72:0] auto_routers_dest_nodes_in_0_flit_0_bits_payload, // @[LazyModuleImp.scala:107:25] input [2:0] auto_routers_dest_nodes_in_0_flit_0_bits_flow_vnet_id, // @[LazyModuleImp.scala:107:25] input [4:0] auto_routers_dest_nodes_in_0_flit_0_bits_flow_ingress_node, // @[LazyModuleImp.scala:107:25] input [1:0] auto_routers_dest_nodes_in_0_flit_0_bits_flow_ingress_node_id, // @[LazyModuleImp.scala:107:25] input [4:0] auto_routers_dest_nodes_in_0_flit_0_bits_flow_egress_node, // @[LazyModuleImp.scala:107:25] input [1:0] auto_routers_dest_nodes_in_0_flit_0_bits_flow_egress_node_id, // @[LazyModuleImp.scala:107:25] input [2:0] auto_routers_dest_nodes_in_0_flit_0_bits_virt_channel_id, // @[LazyModuleImp.scala:107:25] output [7:0] auto_routers_dest_nodes_in_0_credit_return, // @[LazyModuleImp.scala:107:25] output [7:0] auto_routers_dest_nodes_in_0_vc_free, // @[LazyModuleImp.scala:107:25] input auto_clock_in_clock, // @[LazyModuleImp.scala:107:25] input auto_clock_in_reset // @[LazyModuleImp.scala:107:25] ); Router_16 routers ( // @[NoC.scala:67:22] .clock (auto_clock_in_clock), .reset (auto_clock_in_reset), .auto_debug_out_va_stall_0 (auto_routers_debug_out_va_stall_0), .auto_debug_out_va_stall_1 (auto_routers_debug_out_va_stall_1), .auto_debug_out_va_stall_2 (auto_routers_debug_out_va_stall_2), .auto_debug_out_va_stall_3 (auto_routers_debug_out_va_stall_3), .auto_debug_out_sa_stall_0 (auto_routers_debug_out_sa_stall_0), .auto_debug_out_sa_stall_1 (auto_routers_debug_out_sa_stall_1), .auto_debug_out_sa_stall_2 (auto_routers_debug_out_sa_stall_2), .auto_debug_out_sa_stall_3 (auto_routers_debug_out_sa_stall_3), .auto_source_nodes_out_3_flit_0_valid (auto_routers_source_nodes_out_3_flit_0_valid), .auto_source_nodes_out_3_flit_0_bits_head (auto_routers_source_nodes_out_3_flit_0_bits_head), .auto_source_nodes_out_3_flit_0_bits_tail (auto_routers_source_nodes_out_3_flit_0_bits_tail), .auto_source_nodes_out_3_flit_0_bits_payload (auto_routers_source_nodes_out_3_flit_0_bits_payload), .auto_source_nodes_out_3_flit_0_bits_flow_vnet_id (auto_routers_source_nodes_out_3_flit_0_bits_flow_vnet_id), .auto_source_nodes_out_3_flit_0_bits_flow_ingress_node (auto_routers_source_nodes_out_3_flit_0_bits_flow_ingress_node), .auto_source_nodes_out_3_flit_0_bits_flow_ingress_node_id (auto_routers_source_nodes_out_3_flit_0_bits_flow_ingress_node_id), .auto_source_nodes_out_3_flit_0_bits_flow_egress_node (auto_routers_source_nodes_out_3_flit_0_bits_flow_egress_node), .auto_source_nodes_out_3_flit_0_bits_flow_egress_node_id (auto_routers_source_nodes_out_3_flit_0_bits_flow_egress_node_id), .auto_source_nodes_out_3_flit_0_bits_virt_channel_id (auto_routers_source_nodes_out_3_flit_0_bits_virt_channel_id), .auto_source_nodes_out_3_credit_return (auto_routers_source_nodes_out_3_credit_return), .auto_source_nodes_out_3_vc_free (auto_routers_source_nodes_out_3_vc_free), .auto_source_nodes_out_2_flit_0_valid (auto_routers_source_nodes_out_2_flit_0_valid), .auto_source_nodes_out_2_flit_0_bits_head (auto_routers_source_nodes_out_2_flit_0_bits_head), .auto_source_nodes_out_2_flit_0_bits_tail (auto_routers_source_nodes_out_2_flit_0_bits_tail), .auto_source_nodes_out_2_flit_0_bits_payload (auto_routers_source_nodes_out_2_flit_0_bits_payload), .auto_source_nodes_out_2_flit_0_bits_flow_vnet_id (auto_routers_source_nodes_out_2_flit_0_bits_flow_vnet_id), .auto_source_nodes_out_2_flit_0_bits_flow_ingress_node (auto_routers_source_nodes_out_2_flit_0_bits_flow_ingress_node), .auto_source_nodes_out_2_flit_0_bits_flow_ingress_node_id (auto_routers_source_nodes_out_2_flit_0_bits_flow_ingress_node_id), .auto_source_nodes_out_2_flit_0_bits_flow_egress_node (auto_routers_source_nodes_out_2_flit_0_bits_flow_egress_node), .auto_source_nodes_out_2_flit_0_bits_flow_egress_node_id (auto_routers_source_nodes_out_2_flit_0_bits_flow_egress_node_id), .auto_source_nodes_out_2_flit_0_bits_virt_channel_id (auto_routers_source_nodes_out_2_flit_0_bits_virt_channel_id), .auto_source_nodes_out_2_credit_return (auto_routers_source_nodes_out_2_credit_return), .auto_source_nodes_out_2_vc_free (auto_routers_source_nodes_out_2_vc_free), .auto_source_nodes_out_1_flit_0_valid (auto_routers_source_nodes_out_1_flit_0_valid), .auto_source_nodes_out_1_flit_0_bits_head (auto_routers_source_nodes_out_1_flit_0_bits_head), .auto_source_nodes_out_1_flit_0_bits_tail (auto_routers_source_nodes_out_1_flit_0_bits_tail), .auto_source_nodes_out_1_flit_0_bits_payload (auto_routers_source_nodes_out_1_flit_0_bits_payload), .auto_source_nodes_out_1_flit_0_bits_flow_vnet_id (auto_routers_source_nodes_out_1_flit_0_bits_flow_vnet_id), .auto_source_nodes_out_1_flit_0_bits_flow_ingress_node (auto_routers_source_nodes_out_1_flit_0_bits_flow_ingress_node), .auto_source_nodes_out_1_flit_0_bits_flow_ingress_node_id (auto_routers_source_nodes_out_1_flit_0_bits_flow_ingress_node_id), .auto_source_nodes_out_1_flit_0_bits_flow_egress_node (auto_routers_source_nodes_out_1_flit_0_bits_flow_egress_node), .auto_source_nodes_out_1_flit_0_bits_flow_egress_node_id (auto_routers_source_nodes_out_1_flit_0_bits_flow_egress_node_id), .auto_source_nodes_out_1_flit_0_bits_virt_channel_id (auto_routers_source_nodes_out_1_flit_0_bits_virt_channel_id), .auto_source_nodes_out_1_credit_return (auto_routers_source_nodes_out_1_credit_return), .auto_source_nodes_out_1_vc_free (auto_routers_source_nodes_out_1_vc_free), .auto_source_nodes_out_0_flit_0_valid (auto_routers_source_nodes_out_0_flit_0_valid), .auto_source_nodes_out_0_flit_0_bits_head (auto_routers_source_nodes_out_0_flit_0_bits_head), .auto_source_nodes_out_0_flit_0_bits_tail (auto_routers_source_nodes_out_0_flit_0_bits_tail), .auto_source_nodes_out_0_flit_0_bits_payload (auto_routers_source_nodes_out_0_flit_0_bits_payload), .auto_source_nodes_out_0_flit_0_bits_flow_vnet_id (auto_routers_source_nodes_out_0_flit_0_bits_flow_vnet_id), .auto_source_nodes_out_0_flit_0_bits_flow_ingress_node (auto_routers_source_nodes_out_0_flit_0_bits_flow_ingress_node), .auto_source_nodes_out_0_flit_0_bits_flow_ingress_node_id (auto_routers_source_nodes_out_0_flit_0_bits_flow_ingress_node_id), .auto_source_nodes_out_0_flit_0_bits_flow_egress_node (auto_routers_source_nodes_out_0_flit_0_bits_flow_egress_node), .auto_source_nodes_out_0_flit_0_bits_flow_egress_node_id (auto_routers_source_nodes_out_0_flit_0_bits_flow_egress_node_id), .auto_source_nodes_out_0_flit_0_bits_virt_channel_id (auto_routers_source_nodes_out_0_flit_0_bits_virt_channel_id), .auto_source_nodes_out_0_credit_return (auto_routers_source_nodes_out_0_credit_return), .auto_source_nodes_out_0_vc_free (auto_routers_source_nodes_out_0_vc_free), .auto_dest_nodes_in_3_flit_0_valid (auto_routers_dest_nodes_in_3_flit_0_valid), .auto_dest_nodes_in_3_flit_0_bits_head (auto_routers_dest_nodes_in_3_flit_0_bits_head), .auto_dest_nodes_in_3_flit_0_bits_tail (auto_routers_dest_nodes_in_3_flit_0_bits_tail), .auto_dest_nodes_in_3_flit_0_bits_payload (auto_routers_dest_nodes_in_3_flit_0_bits_payload), .auto_dest_nodes_in_3_flit_0_bits_flow_vnet_id (auto_routers_dest_nodes_in_3_flit_0_bits_flow_vnet_id), .auto_dest_nodes_in_3_flit_0_bits_flow_ingress_node (auto_routers_dest_nodes_in_3_flit_0_bits_flow_ingress_node), .auto_dest_nodes_in_3_flit_0_bits_flow_ingress_node_id (auto_routers_dest_nodes_in_3_flit_0_bits_flow_ingress_node_id), .auto_dest_nodes_in_3_flit_0_bits_flow_egress_node (auto_routers_dest_nodes_in_3_flit_0_bits_flow_egress_node), .auto_dest_nodes_in_3_flit_0_bits_flow_egress_node_id (auto_routers_dest_nodes_in_3_flit_0_bits_flow_egress_node_id), .auto_dest_nodes_in_3_flit_0_bits_virt_channel_id (auto_routers_dest_nodes_in_3_flit_0_bits_virt_channel_id), .auto_dest_nodes_in_3_credit_return (auto_routers_dest_nodes_in_3_credit_return), .auto_dest_nodes_in_3_vc_free (auto_routers_dest_nodes_in_3_vc_free), .auto_dest_nodes_in_2_flit_0_valid (auto_routers_dest_nodes_in_2_flit_0_valid), .auto_dest_nodes_in_2_flit_0_bits_head (auto_routers_dest_nodes_in_2_flit_0_bits_head), .auto_dest_nodes_in_2_flit_0_bits_tail (auto_routers_dest_nodes_in_2_flit_0_bits_tail), .auto_dest_nodes_in_2_flit_0_bits_payload (auto_routers_dest_nodes_in_2_flit_0_bits_payload), .auto_dest_nodes_in_2_flit_0_bits_flow_vnet_id (auto_routers_dest_nodes_in_2_flit_0_bits_flow_vnet_id), .auto_dest_nodes_in_2_flit_0_bits_flow_ingress_node (auto_routers_dest_nodes_in_2_flit_0_bits_flow_ingress_node), .auto_dest_nodes_in_2_flit_0_bits_flow_ingress_node_id (auto_routers_dest_nodes_in_2_flit_0_bits_flow_ingress_node_id), .auto_dest_nodes_in_2_flit_0_bits_flow_egress_node (auto_routers_dest_nodes_in_2_flit_0_bits_flow_egress_node), .auto_dest_nodes_in_2_flit_0_bits_flow_egress_node_id (auto_routers_dest_nodes_in_2_flit_0_bits_flow_egress_node_id), .auto_dest_nodes_in_2_flit_0_bits_virt_channel_id (auto_routers_dest_nodes_in_2_flit_0_bits_virt_channel_id), .auto_dest_nodes_in_2_credit_return (auto_routers_dest_nodes_in_2_credit_return), .auto_dest_nodes_in_2_vc_free (auto_routers_dest_nodes_in_2_vc_free), .auto_dest_nodes_in_1_flit_0_valid (auto_routers_dest_nodes_in_1_flit_0_valid), .auto_dest_nodes_in_1_flit_0_bits_head (auto_routers_dest_nodes_in_1_flit_0_bits_head), .auto_dest_nodes_in_1_flit_0_bits_tail (auto_routers_dest_nodes_in_1_flit_0_bits_tail), .auto_dest_nodes_in_1_flit_0_bits_payload (auto_routers_dest_nodes_in_1_flit_0_bits_payload), .auto_dest_nodes_in_1_flit_0_bits_flow_vnet_id (auto_routers_dest_nodes_in_1_flit_0_bits_flow_vnet_id), .auto_dest_nodes_in_1_flit_0_bits_flow_ingress_node (auto_routers_dest_nodes_in_1_flit_0_bits_flow_ingress_node), .auto_dest_nodes_in_1_flit_0_bits_flow_ingress_node_id (auto_routers_dest_nodes_in_1_flit_0_bits_flow_ingress_node_id), .auto_dest_nodes_in_1_flit_0_bits_flow_egress_node (auto_routers_dest_nodes_in_1_flit_0_bits_flow_egress_node), .auto_dest_nodes_in_1_flit_0_bits_flow_egress_node_id (auto_routers_dest_nodes_in_1_flit_0_bits_flow_egress_node_id), .auto_dest_nodes_in_1_flit_0_bits_virt_channel_id (auto_routers_dest_nodes_in_1_flit_0_bits_virt_channel_id), .auto_dest_nodes_in_1_credit_return (auto_routers_dest_nodes_in_1_credit_return), .auto_dest_nodes_in_1_vc_free (auto_routers_dest_nodes_in_1_vc_free), .auto_dest_nodes_in_0_flit_0_valid (auto_routers_dest_nodes_in_0_flit_0_valid), .auto_dest_nodes_in_0_flit_0_bits_head (auto_routers_dest_nodes_in_0_flit_0_bits_head), .auto_dest_nodes_in_0_flit_0_bits_tail (auto_routers_dest_nodes_in_0_flit_0_bits_tail), .auto_dest_nodes_in_0_flit_0_bits_payload (auto_routers_dest_nodes_in_0_flit_0_bits_payload), .auto_dest_nodes_in_0_flit_0_bits_flow_vnet_id (auto_routers_dest_nodes_in_0_flit_0_bits_flow_vnet_id), .auto_dest_nodes_in_0_flit_0_bits_flow_ingress_node (auto_routers_dest_nodes_in_0_flit_0_bits_flow_ingress_node), .auto_dest_nodes_in_0_flit_0_bits_flow_ingress_node_id (auto_routers_dest_nodes_in_0_flit_0_bits_flow_ingress_node_id), .auto_dest_nodes_in_0_flit_0_bits_flow_egress_node (auto_routers_dest_nodes_in_0_flit_0_bits_flow_egress_node), .auto_dest_nodes_in_0_flit_0_bits_flow_egress_node_id (auto_routers_dest_nodes_in_0_flit_0_bits_flow_egress_node_id), .auto_dest_nodes_in_0_flit_0_bits_virt_channel_id (auto_routers_dest_nodes_in_0_flit_0_bits_virt_channel_id), .auto_dest_nodes_in_0_credit_return (auto_routers_dest_nodes_in_0_credit_return), .auto_dest_nodes_in_0_vc_free (auto_routers_dest_nodes_in_0_vc_free) ); // @[NoC.scala:67:22] endmodule
Generate the Verilog code corresponding to the following Chisel files. File BankedStore.scala: /* * Copyright 2019 SiFive, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You should have received a copy of LICENSE.Apache2 along with * this software. If not, you may obtain a copy at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package sifive.blocks.inclusivecache import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import freechips.rocketchip.diplomacy._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.util.DescribedSRAM import scala.math.{max, min} abstract class BankedStoreAddress(val inner: Boolean, params: InclusiveCacheParameters) extends InclusiveCacheBundle(params) { val noop = Bool() // do not actually use the SRAMs, just block their use val way = UInt(params.wayBits.W) val set = UInt(params.setBits.W) val beat = UInt((if (inner) params.innerBeatBits else params.outerBeatBits).W) val mask = UInt((if (inner) params.innerMaskBits else params.outerMaskBits).W) } trait BankedStoreRW { val write = Bool() } class BankedStoreOuterAddress(params: InclusiveCacheParameters) extends BankedStoreAddress(false, params) class BankedStoreInnerAddress(params: InclusiveCacheParameters) extends BankedStoreAddress(true, params) class BankedStoreInnerAddressRW(params: InclusiveCacheParameters) extends BankedStoreInnerAddress(params) with BankedStoreRW abstract class BankedStoreData(val inner: Boolean, params: InclusiveCacheParameters) extends InclusiveCacheBundle(params) { val data = UInt(((if (inner) params.inner.manager.beatBytes else params.outer.manager.beatBytes)*8).W) } class BankedStoreOuterData(params: InclusiveCacheParameters) extends BankedStoreData(false, params) class BankedStoreInnerData(params: InclusiveCacheParameters) extends BankedStoreData(true, params) class BankedStoreInnerPoison(params: InclusiveCacheParameters) extends BankedStoreInnerData(params) class BankedStoreOuterPoison(params: InclusiveCacheParameters) extends BankedStoreOuterData(params) class BankedStoreInnerDecoded(params: InclusiveCacheParameters) extends BankedStoreInnerData(params) class BankedStoreOuterDecoded(params: InclusiveCacheParameters) extends BankedStoreOuterData(params) class BankedStore(params: InclusiveCacheParameters) extends Module { val io = IO(new Bundle { val sinkC_adr = Flipped(Decoupled(new BankedStoreInnerAddress(params))) val sinkC_dat = Flipped(new BankedStoreInnerPoison(params)) val sinkD_adr = Flipped(Decoupled(new BankedStoreOuterAddress(params))) val sinkD_dat = Flipped(new BankedStoreOuterPoison(params)) val sourceC_adr = Flipped(Decoupled(new BankedStoreOuterAddress(params))) val sourceC_dat = new BankedStoreOuterDecoded(params) val sourceD_radr = Flipped(Decoupled(new BankedStoreInnerAddress(params))) val sourceD_rdat = new BankedStoreInnerDecoded(params) val sourceD_wadr = Flipped(Decoupled(new BankedStoreInnerAddress(params))) val sourceD_wdat = Flipped(new BankedStoreInnerPoison(params)) }) val innerBytes = params.inner.manager.beatBytes val outerBytes = params.outer.manager.beatBytes val rowBytes = params.micro.portFactor * max(innerBytes, outerBytes) require (rowBytes < params.cache.sizeBytes) val rowEntries = params.cache.sizeBytes / rowBytes val rowBits = log2Ceil(rowEntries) val numBanks = rowBytes / params.micro.writeBytes val codeBits = 8*params.micro.writeBytes val cc_banks = Seq.tabulate(numBanks) { i => DescribedSRAM( name = s"cc_banks_$i", desc = "Banked Store", size = rowEntries, data = UInt(codeBits.W) ) } // These constraints apply on the port priorities: // sourceC > sinkD outgoing Release > incoming Grant (we start eviction+refill concurrently) // sinkC > sourceC incoming ProbeAck > outgoing ProbeAck (we delay probeack writeback by 1 cycle for QoR) // sinkC > sourceDr incoming ProbeAck > SourceD read (we delay probeack writeback by 1 cycle for QoR) // sourceDw > sourceDr modified data visible on next cycle (needed to ensure SourceD forward progress) // sinkC > sourceC inner ProbeAck > outer ProbeAck (make wormhole routing possible [not yet implemented]) // sinkC&D > sourceD* beat arrival > beat read|update (make wormhole routing possible [not yet implemented]) // Combining these restrictions yields a priority scheme of: // sinkC > sourceC > sinkD > sourceDw > sourceDr // ^^^^^^^^^^^^^^^ outer interface // Requests have different port widths, but we don't want to allow cutting in line. // Suppose we have requests A > B > C requesting ports --A-, --BB, ---C. // The correct arbitration is to allow --A- only, not --AC. // Obviously --A-, BB--, ---C should still be resolved to BBAC. class Request extends Bundle { val wen = Bool() val index = UInt(rowBits.W) val bankSel = UInt(numBanks.W) val bankSum = UInt(numBanks.W) // OR of all higher priority bankSels val bankEn = UInt(numBanks.W) // ports actually activated by request val data = Vec(numBanks, UInt(codeBits.W)) } def req[T <: BankedStoreAddress](b: DecoupledIO[T], write: Bool, d: UInt): Request = { val beatBytes = if (b.bits.inner) innerBytes else outerBytes val ports = beatBytes / params.micro.writeBytes val bankBits = log2Ceil(numBanks / ports) val words = Seq.tabulate(ports) { i => val data = d((i + 1) * 8 * params.micro.writeBytes - 1, i * 8 * params.micro.writeBytes) data } val a = if (params.cache.blockBytes == beatBytes) Cat(b.bits.way, b.bits.set) else Cat(b.bits.way, b.bits.set, b.bits.beat) val m = b.bits.mask val out = Wire(new Request) val select = UIntToOH(a(bankBits-1, 0), numBanks/ports) val ready = Cat(Seq.tabulate(numBanks/ports) { i => !(out.bankSum((i+1)*ports-1, i*ports) & m).orR } .reverse) b.ready := ready(a(bankBits-1, 0)) out.wen := write out.index := a >> bankBits out.bankSel := Mux(b.valid, FillInterleaved(ports, select) & Fill(numBanks/ports, m), 0.U) out.bankEn := Mux(b.bits.noop, 0.U, out.bankSel & FillInterleaved(ports, ready)) out.data := Seq.fill(numBanks/ports) { words }.flatten out } val innerData = 0.U((8*innerBytes).W) val outerData = 0.U((8*outerBytes).W) val W = true.B val R = false.B val sinkC_req = req(io.sinkC_adr, W, io.sinkC_dat.data) val sinkD_req = req(io.sinkD_adr, W, io.sinkD_dat.data) val sourceC_req = req(io.sourceC_adr, R, outerData) val sourceD_rreq = req(io.sourceD_radr, R, innerData) val sourceD_wreq = req(io.sourceD_wadr, W, io.sourceD_wdat.data) // See the comments above for why this prioritization is used val reqs = Seq(sinkC_req, sourceC_req, sinkD_req, sourceD_wreq, sourceD_rreq) // Connect priorities; note that even if a request does not go through due to failing // to obtain a needed subbank, it still blocks overlapping lower priority requests. reqs.foldLeft(0.U) { case (sum, req) => req.bankSum := sum req.bankSel | sum } // Access the banks val regout = VecInit(cc_banks.zipWithIndex.map { case (b, i) => val en = reqs.map(_.bankEn(i)).reduce(_||_) val sel = reqs.map(_.bankSel(i)) val wen = PriorityMux(sel, reqs.map(_.wen)) val idx = PriorityMux(sel, reqs.map(_.index)) val data= PriorityMux(sel, reqs.map(_.data(i))) when (wen && en) { b.write(idx, data) } RegEnable(b.read(idx, !wen && en), RegNext(!wen && en)) }) val regsel_sourceC = RegNext(RegNext(sourceC_req.bankEn)) val regsel_sourceD = RegNext(RegNext(sourceD_rreq.bankEn)) val decodeC = regout.zipWithIndex.map { case (r, i) => Mux(regsel_sourceC(i), r, 0.U) }.grouped(outerBytes/params.micro.writeBytes).toList.transpose.map(s => s.reduce(_|_)) io.sourceC_dat.data := Cat(decodeC.reverse) val decodeD = regout.zipWithIndex.map { // Intentionally not Mux1H and/or an indexed-mux b/c we want it 0 when !sel to save decode power case (r, i) => Mux(regsel_sourceD(i), r, 0.U) }.grouped(innerBytes/params.micro.writeBytes).toList.transpose.map(s => s.reduce(_|_)) io.sourceD_rdat.data := Cat(decodeD.reverse) private def banks = cc_banks.map("\"" + _.pathName + "\"").mkString(",") def json: String = s"""{"widthBytes":${params.micro.writeBytes},"mem":[${banks}]}""" } File DescribedSRAM.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3.{Data, SyncReadMem, Vec} import chisel3.util.log2Ceil object DescribedSRAM { def apply[T <: Data]( name: String, desc: String, size: BigInt, // depth data: T ): SyncReadMem[T] = { val mem = SyncReadMem(size, data) mem.suggestName(name) val granWidth = data match { case v: Vec[_] => v.head.getWidth case d => d.getWidth } val uid = 0 Annotated.srams( component = mem, name = name, address_width = log2Ceil(size), data_width = data.getWidth, depth = size, description = desc, write_mask_granularity = granWidth ) mem } }
module BankedStore( // @[BankedStore.scala:59:7] input clock, // @[BankedStore.scala:59:7] output io_sinkC_adr_ready, // @[BankedStore.scala:61:14] input io_sinkC_adr_valid, // @[BankedStore.scala:61:14] input io_sinkC_adr_bits_noop, // @[BankedStore.scala:61:14] input [2:0] io_sinkC_adr_bits_way, // @[BankedStore.scala:61:14] input [9:0] io_sinkC_adr_bits_set, // @[BankedStore.scala:61:14] input [1:0] io_sinkC_adr_bits_beat, // @[BankedStore.scala:61:14] input [1:0] io_sinkC_adr_bits_mask, // @[BankedStore.scala:61:14] input [127:0] io_sinkC_dat_data, // @[BankedStore.scala:61:14] output io_sinkD_adr_ready, // @[BankedStore.scala:61:14] input io_sinkD_adr_valid, // @[BankedStore.scala:61:14] input io_sinkD_adr_bits_noop, // @[BankedStore.scala:61:14] input [2:0] io_sinkD_adr_bits_way, // @[BankedStore.scala:61:14] input [9:0] io_sinkD_adr_bits_set, // @[BankedStore.scala:61:14] input [2:0] io_sinkD_adr_bits_beat, // @[BankedStore.scala:61:14] input [63:0] io_sinkD_dat_data, // @[BankedStore.scala:61:14] output io_sourceC_adr_ready, // @[BankedStore.scala:61:14] input io_sourceC_adr_valid, // @[BankedStore.scala:61:14] input [2:0] io_sourceC_adr_bits_way, // @[BankedStore.scala:61:14] input [9:0] io_sourceC_adr_bits_set, // @[BankedStore.scala:61:14] input [2:0] io_sourceC_adr_bits_beat, // @[BankedStore.scala:61:14] output [63:0] io_sourceC_dat_data, // @[BankedStore.scala:61:14] output io_sourceD_radr_ready, // @[BankedStore.scala:61:14] input io_sourceD_radr_valid, // @[BankedStore.scala:61:14] input [2:0] io_sourceD_radr_bits_way, // @[BankedStore.scala:61:14] input [9:0] io_sourceD_radr_bits_set, // @[BankedStore.scala:61:14] input [1:0] io_sourceD_radr_bits_beat, // @[BankedStore.scala:61:14] input [1:0] io_sourceD_radr_bits_mask, // @[BankedStore.scala:61:14] output [127:0] io_sourceD_rdat_data, // @[BankedStore.scala:61:14] output io_sourceD_wadr_ready, // @[BankedStore.scala:61:14] input io_sourceD_wadr_valid, // @[BankedStore.scala:61:14] input [2:0] io_sourceD_wadr_bits_way, // @[BankedStore.scala:61:14] input [9:0] io_sourceD_wadr_bits_set, // @[BankedStore.scala:61:14] input [1:0] io_sourceD_wadr_bits_beat, // @[BankedStore.scala:61:14] input [1:0] io_sourceD_wadr_bits_mask, // @[BankedStore.scala:61:14] input [127:0] io_sourceD_wdat_data // @[BankedStore.scala:61:14] ); wire readEnable; // @[BankedStore.scala:172:32] wire writeEnable; // @[BankedStore.scala:171:15] wire readEnable_0; // @[BankedStore.scala:172:32] wire writeEnable_0; // @[BankedStore.scala:171:15] wire readEnable_1; // @[BankedStore.scala:172:32] wire writeEnable_1; // @[BankedStore.scala:171:15] wire readEnable_2; // @[BankedStore.scala:172:32] wire writeEnable_2; // @[BankedStore.scala:171:15] wire readEnable_3; // @[BankedStore.scala:172:32] wire writeEnable_3; // @[BankedStore.scala:171:15] wire readEnable_4; // @[BankedStore.scala:172:32] wire writeEnable_4; // @[BankedStore.scala:171:15] wire readEnable_5; // @[BankedStore.scala:172:32] wire writeEnable_5; // @[BankedStore.scala:171:15] wire readEnable_6; // @[BankedStore.scala:172:32] wire writeEnable_6; // @[BankedStore.scala:171:15] wire [7:0] sourceD_rreq_bankSum; // @[BankedStore.scala:161:17] wire [7:0] sourceD_wreq_bankSum; // @[BankedStore.scala:161:17] wire [7:0] sinkD_req_bankSum; // @[BankedStore.scala:161:17] wire [63:0] _cc_banks_7_RW0_rdata; // @[DescribedSRAM.scala:17:26] wire [63:0] _cc_banks_6_RW0_rdata; // @[DescribedSRAM.scala:17:26] wire [63:0] _cc_banks_5_RW0_rdata; // @[DescribedSRAM.scala:17:26] wire [63:0] _cc_banks_4_RW0_rdata; // @[DescribedSRAM.scala:17:26] wire [63:0] _cc_banks_3_RW0_rdata; // @[DescribedSRAM.scala:17:26] wire [63:0] _cc_banks_2_RW0_rdata; // @[DescribedSRAM.scala:17:26] wire [63:0] _cc_banks_1_RW0_rdata; // @[DescribedSRAM.scala:17:26] wire [63:0] _cc_banks_0_RW0_rdata; // @[DescribedSRAM.scala:17:26] wire [3:0] _sinkC_req_io_sinkC_adr_ready_T_1 = 4'hF >> io_sinkC_adr_bits_beat; // @[BankedStore.scala:132:21] wire [12:0] sinkC_req_index = {io_sinkC_adr_bits_way, io_sinkC_adr_bits_set}; // @[BankedStore.scala:135:23] wire [7:0] _sinkC_req_out_bankSel_T_11 = {{2{&io_sinkC_adr_bits_beat}}, {2{io_sinkC_adr_bits_beat == 2'h2}}, {2{io_sinkC_adr_bits_beat == 2'h1}}, {2{io_sinkC_adr_bits_beat == 2'h0}}} & {2{{2{io_sinkC_adr_bits_mask}}}}; // @[BankedStore.scala:136:{49,65,71}] wire [7:0] sinkC_req_bankSel = io_sinkC_adr_valid ? _sinkC_req_out_bankSel_T_11 : 8'h0; // @[BankedStore.scala:136:{24,65}] wire [7:0] sinkC_req_bankEn = io_sinkC_adr_bits_noop | ~io_sinkC_adr_valid ? 8'h0 : _sinkC_req_out_bankSel_T_11; // @[BankedStore.scala:136:65, :137:24] wire [7:0] _GEN = {5'h0, io_sinkD_adr_bits_beat}; // @[OneHot.scala:65:12] wire [7:0] sinkD_req_ready = {~(sinkD_req_bankSum[7]), ~(sinkD_req_bankSum[6]), ~(sinkD_req_bankSum[5]), ~(sinkD_req_bankSum[4]), ~(sinkD_req_bankSum[3]), ~(sinkD_req_bankSum[2]), ~(sinkD_req_bankSum[1]), ~(sinkD_req_bankSum[0])}; // @[BankedStore.scala:131:{21,58,71}, :161:17] wire [7:0] _sinkD_req_io_sinkD_adr_ready_T_1 = sinkD_req_ready >> _GEN; // @[OneHot.scala:65:12] wire [12:0] sinkD_req_index = {io_sinkD_adr_bits_way, io_sinkD_adr_bits_set}; // @[BankedStore.scala:135:23] wire [7:0] sinkD_req_bankSel = io_sinkD_adr_valid ? 8'h1 << _GEN : 8'h0; // @[OneHot.scala:65:12] wire [7:0] sinkD_req_bankEn = io_sinkD_adr_bits_noop ? 8'h0 : sinkD_req_bankSel & sinkD_req_ready; // @[BankedStore.scala:131:21, :136:24, :137:{24,55}] wire [7:0] _GEN_0 = {5'h0, io_sourceC_adr_bits_beat}; // @[OneHot.scala:65:12] wire [7:0] sourceC_req_ready = {~(sinkC_req_bankSel[7]), ~(sinkC_req_bankSel[6]), ~(sinkC_req_bankSel[5]), ~(sinkC_req_bankSel[4]), ~(sinkC_req_bankSel[3]), ~(sinkC_req_bankSel[2]), ~(sinkC_req_bankSel[1]), ~(sinkC_req_bankSel[0])}; // @[BankedStore.scala:131:{21,58,71}, :136:24] wire [7:0] _sourceC_req_io_sourceC_adr_ready_T_1 = sourceC_req_ready >> _GEN_0; // @[OneHot.scala:65:12] wire [12:0] sourceC_req_index = {io_sourceC_adr_bits_way, io_sourceC_adr_bits_set}; // @[BankedStore.scala:135:23] wire [7:0] sourceC_req_bankSel = io_sourceC_adr_valid ? 8'h1 << _GEN_0 : 8'h0; // @[OneHot.scala:65:12] wire [7:0] sourceC_req_bankEn = sourceC_req_bankSel & sourceC_req_ready; // @[BankedStore.scala:131:21, :136:24, :137:55] wire _sourceD_rreq_ready_T_3 = (sourceD_rreq_bankSum[1:0] & io_sourceD_radr_bits_mask) == 2'h0; // @[BankedStore.scala:131:{71,96,101}, :161:17] wire _sourceD_rreq_ready_T_7 = (sourceD_rreq_bankSum[3:2] & io_sourceD_radr_bits_mask) == 2'h0; // @[BankedStore.scala:131:{71,96,101}, :161:17] wire _sourceD_rreq_ready_T_11 = (sourceD_rreq_bankSum[5:4] & io_sourceD_radr_bits_mask) == 2'h0; // @[BankedStore.scala:131:{71,96,101}, :161:17] wire _sourceD_rreq_ready_T_15 = (sourceD_rreq_bankSum[7:6] & io_sourceD_radr_bits_mask) == 2'h0; // @[BankedStore.scala:131:{71,96,101}, :161:17] wire [3:0] _sourceD_rreq_io_sourceD_radr_ready_T_1 = {_sourceD_rreq_ready_T_15, _sourceD_rreq_ready_T_11, _sourceD_rreq_ready_T_7, _sourceD_rreq_ready_T_3} >> io_sourceD_radr_bits_beat; // @[BankedStore.scala:131:{21,101}, :132:21] wire [12:0] sourceD_rreq_index = {io_sourceD_radr_bits_way, io_sourceD_radr_bits_set}; // @[BankedStore.scala:135:23] wire [7:0] sourceD_rreq_bankEn = (io_sourceD_radr_valid ? {{2{&io_sourceD_radr_bits_beat}}, {2{io_sourceD_radr_bits_beat == 2'h2}}, {2{io_sourceD_radr_bits_beat == 2'h1}}, {2{io_sourceD_radr_bits_beat == 2'h0}}} & {2{{2{io_sourceD_radr_bits_mask}}}} : 8'h0) & {{2{_sourceD_rreq_ready_T_15}}, {2{_sourceD_rreq_ready_T_11}}, {2{_sourceD_rreq_ready_T_7}}, {2{_sourceD_rreq_ready_T_3}}}; // @[BankedStore.scala:131:101, :136:{24,49,65,71}, :137:{55,72}] wire _sourceD_wreq_ready_T_3 = (sourceD_wreq_bankSum[1:0] & io_sourceD_wadr_bits_mask) == 2'h0; // @[BankedStore.scala:131:{71,96,101}, :161:17] wire _sourceD_wreq_ready_T_7 = (sourceD_wreq_bankSum[3:2] & io_sourceD_wadr_bits_mask) == 2'h0; // @[BankedStore.scala:131:{71,96,101}, :161:17] wire _sourceD_wreq_ready_T_11 = (sourceD_wreq_bankSum[5:4] & io_sourceD_wadr_bits_mask) == 2'h0; // @[BankedStore.scala:131:{71,96,101}, :161:17] wire _sourceD_wreq_ready_T_15 = (sourceD_wreq_bankSum[7:6] & io_sourceD_wadr_bits_mask) == 2'h0; // @[BankedStore.scala:131:{71,96,101}, :161:17] wire [3:0] _sourceD_wreq_io_sourceD_wadr_ready_T_1 = {_sourceD_wreq_ready_T_15, _sourceD_wreq_ready_T_11, _sourceD_wreq_ready_T_7, _sourceD_wreq_ready_T_3} >> io_sourceD_wadr_bits_beat; // @[BankedStore.scala:131:{21,101}, :132:21] wire [12:0] sourceD_wreq_index = {io_sourceD_wadr_bits_way, io_sourceD_wadr_bits_set}; // @[BankedStore.scala:135:23] wire [7:0] sourceD_wreq_bankSel = io_sourceD_wadr_valid ? {{2{&io_sourceD_wadr_bits_beat}}, {2{io_sourceD_wadr_bits_beat == 2'h2}}, {2{io_sourceD_wadr_bits_beat == 2'h1}}, {2{io_sourceD_wadr_bits_beat == 2'h0}}} & {2{{2{io_sourceD_wadr_bits_mask}}}} : 8'h0; // @[BankedStore.scala:136:{24,49,65,71}] wire [7:0] sourceD_wreq_bankEn = sourceD_wreq_bankSel & {{2{_sourceD_wreq_ready_T_15}}, {2{_sourceD_wreq_ready_T_11}}, {2{_sourceD_wreq_ready_T_7}}, {2{_sourceD_wreq_ready_T_3}}}; // @[BankedStore.scala:131:101, :136:24, :137:{55,72}] assign sinkD_req_bankSum = sourceC_req_bankSel | sinkC_req_bankSel; // @[BankedStore.scala:136:24, :161:17] assign sourceD_wreq_bankSum = sinkD_req_bankSel | sinkD_req_bankSum; // @[BankedStore.scala:136:24, :161:17] assign sourceD_rreq_bankSum = sourceD_wreq_bankSel | sourceD_wreq_bankSum; // @[BankedStore.scala:136:24, :161:17] wire regout_en = sinkC_req_bankEn[0] | sourceC_req_bankEn[0] | sinkD_req_bankEn[0] | sourceD_wreq_bankEn[0] | sourceD_rreq_bankEn[0]; // @[BankedStore.scala:137:{24,55}, :165:{32,45}] wire regout_wen = sinkC_req_bankSel[0] | ~(sourceC_req_bankSel[0]) & (sinkD_req_bankSel[0] | sourceD_wreq_bankSel[0]); // @[Mux.scala:50:70] assign writeEnable_6 = regout_wen & regout_en; // @[Mux.scala:50:70] assign readEnable_6 = ~regout_wen & regout_en; // @[Mux.scala:50:70] reg regout_REG; // @[BankedStore.scala:172:47] reg [63:0] regout_r; // @[BankedStore.scala:172:14] wire regout_en_1 = sinkC_req_bankEn[1] | sourceC_req_bankEn[1] | sinkD_req_bankEn[1] | sourceD_wreq_bankEn[1] | sourceD_rreq_bankEn[1]; // @[BankedStore.scala:137:{24,55}, :165:{32,45}] wire regout_wen_1 = sinkC_req_bankSel[1] | ~(sourceC_req_bankSel[1]) & (sinkD_req_bankSel[1] | sourceD_wreq_bankSel[1]); // @[Mux.scala:50:70] assign writeEnable_5 = regout_wen_1 & regout_en_1; // @[Mux.scala:50:70] assign readEnable_5 = ~regout_wen_1 & regout_en_1; // @[Mux.scala:50:70] reg regout_REG_1; // @[BankedStore.scala:172:47] reg [63:0] regout_r_1; // @[BankedStore.scala:172:14] wire regout_en_2 = sinkC_req_bankEn[2] | sourceC_req_bankEn[2] | sinkD_req_bankEn[2] | sourceD_wreq_bankEn[2] | sourceD_rreq_bankEn[2]; // @[BankedStore.scala:137:{24,55}, :165:{32,45}] wire regout_wen_2 = sinkC_req_bankSel[2] | ~(sourceC_req_bankSel[2]) & (sinkD_req_bankSel[2] | sourceD_wreq_bankSel[2]); // @[Mux.scala:50:70] assign writeEnable_4 = regout_wen_2 & regout_en_2; // @[Mux.scala:50:70] assign readEnable_4 = ~regout_wen_2 & regout_en_2; // @[Mux.scala:50:70] reg regout_REG_2; // @[BankedStore.scala:172:47] reg [63:0] regout_r_2; // @[BankedStore.scala:172:14] wire regout_en_3 = sinkC_req_bankEn[3] | sourceC_req_bankEn[3] | sinkD_req_bankEn[3] | sourceD_wreq_bankEn[3] | sourceD_rreq_bankEn[3]; // @[BankedStore.scala:137:{24,55}, :165:{32,45}] wire regout_wen_3 = sinkC_req_bankSel[3] | ~(sourceC_req_bankSel[3]) & (sinkD_req_bankSel[3] | sourceD_wreq_bankSel[3]); // @[Mux.scala:50:70] assign writeEnable_3 = regout_wen_3 & regout_en_3; // @[Mux.scala:50:70] assign readEnable_3 = ~regout_wen_3 & regout_en_3; // @[Mux.scala:50:70] reg regout_REG_3; // @[BankedStore.scala:172:47] reg [63:0] regout_r_3; // @[BankedStore.scala:172:14] wire regout_en_4 = sinkC_req_bankEn[4] | sourceC_req_bankEn[4] | sinkD_req_bankEn[4] | sourceD_wreq_bankEn[4] | sourceD_rreq_bankEn[4]; // @[BankedStore.scala:137:{24,55}, :165:{32,45}] wire regout_wen_4 = sinkC_req_bankSel[4] | ~(sourceC_req_bankSel[4]) & (sinkD_req_bankSel[4] | sourceD_wreq_bankSel[4]); // @[Mux.scala:50:70] assign writeEnable_2 = regout_wen_4 & regout_en_4; // @[Mux.scala:50:70] assign readEnable_2 = ~regout_wen_4 & regout_en_4; // @[Mux.scala:50:70] reg regout_REG_4; // @[BankedStore.scala:172:47] reg [63:0] regout_r_4; // @[BankedStore.scala:172:14] wire regout_en_5 = sinkC_req_bankEn[5] | sourceC_req_bankEn[5] | sinkD_req_bankEn[5] | sourceD_wreq_bankEn[5] | sourceD_rreq_bankEn[5]; // @[BankedStore.scala:137:{24,55}, :165:{32,45}] wire regout_wen_5 = sinkC_req_bankSel[5] | ~(sourceC_req_bankSel[5]) & (sinkD_req_bankSel[5] | sourceD_wreq_bankSel[5]); // @[Mux.scala:50:70] assign writeEnable_1 = regout_wen_5 & regout_en_5; // @[Mux.scala:50:70] assign readEnable_1 = ~regout_wen_5 & regout_en_5; // @[Mux.scala:50:70] reg regout_REG_5; // @[BankedStore.scala:172:47] reg [63:0] regout_r_5; // @[BankedStore.scala:172:14] wire regout_en_6 = sinkC_req_bankEn[6] | sourceC_req_bankEn[6] | sinkD_req_bankEn[6] | sourceD_wreq_bankEn[6] | sourceD_rreq_bankEn[6]; // @[BankedStore.scala:137:{24,55}, :165:{32,45}] wire regout_wen_6 = sinkC_req_bankSel[6] | ~(sourceC_req_bankSel[6]) & (sinkD_req_bankSel[6] | sourceD_wreq_bankSel[6]); // @[Mux.scala:50:70] assign writeEnable_0 = regout_wen_6 & regout_en_6; // @[Mux.scala:50:70] assign readEnable_0 = ~regout_wen_6 & regout_en_6; // @[Mux.scala:50:70] reg regout_REG_6; // @[BankedStore.scala:172:47] reg [63:0] regout_r_6; // @[BankedStore.scala:172:14] wire regout_en_7 = sinkC_req_bankEn[7] | sourceC_req_bankEn[7] | sinkD_req_bankEn[7] | sourceD_wreq_bankEn[7] | sourceD_rreq_bankEn[7]; // @[BankedStore.scala:137:{24,55}, :165:{32,45}] wire regout_wen_7 = sinkC_req_bankSel[7] | ~(sourceC_req_bankSel[7]) & (sinkD_req_bankSel[7] | sourceD_wreq_bankSel[7]); // @[Mux.scala:50:70] assign writeEnable = regout_wen_7 & regout_en_7; // @[Mux.scala:50:70] assign readEnable = ~regout_wen_7 & regout_en_7; // @[Mux.scala:50:70] reg regout_REG_7; // @[BankedStore.scala:172:47] reg [63:0] regout_r_7; // @[BankedStore.scala:172:14] reg [7:0] regsel_sourceC_REG; // @[BankedStore.scala:175:39] reg [7:0] regsel_sourceC; // @[BankedStore.scala:175:31] reg [7:0] regsel_sourceD_REG; // @[BankedStore.scala:176:39] reg [7:0] regsel_sourceD; // @[BankedStore.scala:176:31] always @(posedge clock) begin // @[BankedStore.scala:59:7] regout_REG <= ~regout_wen & regout_en; // @[Mux.scala:50:70] if (regout_REG) // @[BankedStore.scala:172:47] regout_r <= _cc_banks_0_RW0_rdata; // @[DescribedSRAM.scala:17:26] regout_REG_1 <= ~regout_wen_1 & regout_en_1; // @[Mux.scala:50:70] if (regout_REG_1) // @[BankedStore.scala:172:47] regout_r_1 <= _cc_banks_1_RW0_rdata; // @[DescribedSRAM.scala:17:26] regout_REG_2 <= ~regout_wen_2 & regout_en_2; // @[Mux.scala:50:70] if (regout_REG_2) // @[BankedStore.scala:172:47] regout_r_2 <= _cc_banks_2_RW0_rdata; // @[DescribedSRAM.scala:17:26] regout_REG_3 <= ~regout_wen_3 & regout_en_3; // @[Mux.scala:50:70] if (regout_REG_3) // @[BankedStore.scala:172:47] regout_r_3 <= _cc_banks_3_RW0_rdata; // @[DescribedSRAM.scala:17:26] regout_REG_4 <= ~regout_wen_4 & regout_en_4; // @[Mux.scala:50:70] if (regout_REG_4) // @[BankedStore.scala:172:47] regout_r_4 <= _cc_banks_4_RW0_rdata; // @[DescribedSRAM.scala:17:26] regout_REG_5 <= ~regout_wen_5 & regout_en_5; // @[Mux.scala:50:70] if (regout_REG_5) // @[BankedStore.scala:172:47] regout_r_5 <= _cc_banks_5_RW0_rdata; // @[DescribedSRAM.scala:17:26] regout_REG_6 <= ~regout_wen_6 & regout_en_6; // @[Mux.scala:50:70] if (regout_REG_6) // @[BankedStore.scala:172:47] regout_r_6 <= _cc_banks_6_RW0_rdata; // @[DescribedSRAM.scala:17:26] regout_REG_7 <= ~regout_wen_7 & regout_en_7; // @[Mux.scala:50:70] if (regout_REG_7) // @[BankedStore.scala:172:47] regout_r_7 <= _cc_banks_7_RW0_rdata; // @[DescribedSRAM.scala:17:26] regsel_sourceC_REG <= sourceC_req_bankEn; // @[BankedStore.scala:137:55, :175:39] regsel_sourceC <= regsel_sourceC_REG; // @[BankedStore.scala:175:{31,39}] regsel_sourceD_REG <= sourceD_rreq_bankEn; // @[BankedStore.scala:137:55, :176:39] regsel_sourceD <= regsel_sourceD_REG; // @[BankedStore.scala:176:{31,39}] always @(posedge)
Generate the Verilog code corresponding to the following Chisel files. File WidthWidget.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.AddressSet import freechips.rocketchip.util.{Repeater, UIntToOH1} // innBeatBytes => the new client-facing bus width class TLWidthWidget(innerBeatBytes: Int)(implicit p: Parameters) extends LazyModule { private def noChangeRequired(manager: TLManagerPortParameters) = manager.beatBytes == innerBeatBytes val node = new TLAdapterNode( clientFn = { case c => c }, managerFn = { case m => m.v1copy(beatBytes = innerBeatBytes) }){ override def circuitIdentity = edges.out.map(_.manager).forall(noChangeRequired) } override lazy val desiredName = s"TLWidthWidget$innerBeatBytes" lazy val module = new Impl class Impl extends LazyModuleImp(this) { def merge[T <: TLDataChannel](edgeIn: TLEdge, in: DecoupledIO[T], edgeOut: TLEdge, out: DecoupledIO[T]) = { val inBytes = edgeIn.manager.beatBytes val outBytes = edgeOut.manager.beatBytes val ratio = outBytes / inBytes val keepBits = log2Ceil(outBytes) val dropBits = log2Ceil(inBytes) val countBits = log2Ceil(ratio) val size = edgeIn.size(in.bits) val hasData = edgeIn.hasData(in.bits) val limit = UIntToOH1(size, keepBits) >> dropBits val count = RegInit(0.U(countBits.W)) val first = count === 0.U val last = count === limit || !hasData val enable = Seq.tabulate(ratio) { i => !((count ^ i.U) & limit).orR } val corrupt_reg = RegInit(false.B) val corrupt_in = edgeIn.corrupt(in.bits) val corrupt_out = corrupt_in || corrupt_reg when (in.fire) { count := count + 1.U corrupt_reg := corrupt_out when (last) { count := 0.U corrupt_reg := false.B } } def helper(idata: UInt): UInt = { // rdata is X until the first time a multi-beat write occurs. // Prevent the X from leaking outside by jamming the mux control until // the first time rdata is written (and hence no longer X). val rdata_written_once = RegInit(false.B) val masked_enable = enable.map(_ || !rdata_written_once) val odata = Seq.fill(ratio) { WireInit(idata) } val rdata = Reg(Vec(ratio-1, chiselTypeOf(idata))) val pdata = rdata :+ idata val mdata = (masked_enable zip (odata zip pdata)) map { case (e, (o, p)) => Mux(e, o, p) } when (in.fire && !last) { rdata_written_once := true.B (rdata zip mdata) foreach { case (r, m) => r := m } } Cat(mdata.reverse) } in.ready := out.ready || !last out.valid := in.valid && last out.bits := in.bits // Don't put down hardware if we never carry data edgeOut.data(out.bits) := (if (edgeIn.staticHasData(in.bits) == Some(false)) 0.U else helper(edgeIn.data(in.bits))) edgeOut.corrupt(out.bits) := corrupt_out (out.bits, in.bits) match { case (o: TLBundleA, i: TLBundleA) => o.mask := edgeOut.mask(o.address, o.size) & Mux(hasData, helper(i.mask), ~0.U(outBytes.W)) case (o: TLBundleB, i: TLBundleB) => o.mask := edgeOut.mask(o.address, o.size) & Mux(hasData, helper(i.mask), ~0.U(outBytes.W)) case (o: TLBundleC, i: TLBundleC) => () case (o: TLBundleD, i: TLBundleD) => () case _ => require(false, "Impossible bundle combination in WidthWidget") } } def split[T <: TLDataChannel](edgeIn: TLEdge, in: DecoupledIO[T], edgeOut: TLEdge, out: DecoupledIO[T], sourceMap: UInt => UInt) = { val inBytes = edgeIn.manager.beatBytes val outBytes = edgeOut.manager.beatBytes val ratio = inBytes / outBytes val keepBits = log2Ceil(inBytes) val dropBits = log2Ceil(outBytes) val countBits = log2Ceil(ratio) val size = edgeIn.size(in.bits) val hasData = edgeIn.hasData(in.bits) val limit = UIntToOH1(size, keepBits) >> dropBits val count = RegInit(0.U(countBits.W)) val first = count === 0.U val last = count === limit || !hasData when (out.fire) { count := count + 1.U when (last) { count := 0.U } } // For sub-beat transfer, extract which part matters val sel = in.bits match { case a: TLBundleA => a.address(keepBits-1, dropBits) case b: TLBundleB => b.address(keepBits-1, dropBits) case c: TLBundleC => c.address(keepBits-1, dropBits) case d: TLBundleD => { val sel = sourceMap(d.source) val hold = Mux(first, sel, RegEnable(sel, first)) // a_first is not for whole xfer hold & ~limit // if more than one a_first/xfer, the address must be aligned anyway } } val index = sel | count def helper(idata: UInt, width: Int): UInt = { val mux = VecInit.tabulate(ratio) { i => idata((i+1)*outBytes*width-1, i*outBytes*width) } mux(index) } out.bits := in.bits out.valid := in.valid in.ready := out.ready // Don't put down hardware if we never carry data edgeOut.data(out.bits) := (if (edgeIn.staticHasData(in.bits) == Some(false)) 0.U else helper(edgeIn.data(in.bits), 8)) (out.bits, in.bits) match { case (o: TLBundleA, i: TLBundleA) => o.mask := helper(i.mask, 1) case (o: TLBundleB, i: TLBundleB) => o.mask := helper(i.mask, 1) case (o: TLBundleC, i: TLBundleC) => () // replicating corrupt to all beats is ok case (o: TLBundleD, i: TLBundleD) => () case _ => require(false, "Impossbile bundle combination in WidthWidget") } // Repeat the input if we're not last !last } def splice[T <: TLDataChannel](edgeIn: TLEdge, in: DecoupledIO[T], edgeOut: TLEdge, out: DecoupledIO[T], sourceMap: UInt => UInt) = { if (edgeIn.manager.beatBytes == edgeOut.manager.beatBytes) { // nothing to do; pass it through out.bits := in.bits out.valid := in.valid in.ready := out.ready } else if (edgeIn.manager.beatBytes > edgeOut.manager.beatBytes) { // split input to output val repeat = Wire(Bool()) val repeated = Repeater(in, repeat) val cated = Wire(chiselTypeOf(repeated)) cated <> repeated edgeIn.data(cated.bits) := Cat( edgeIn.data(repeated.bits)(edgeIn.manager.beatBytes*8-1, edgeOut.manager.beatBytes*8), edgeIn.data(in.bits)(edgeOut.manager.beatBytes*8-1, 0)) repeat := split(edgeIn, cated, edgeOut, out, sourceMap) } else { // merge input to output merge(edgeIn, in, edgeOut, out) } } (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => // If the master is narrower than the slave, the D channel must be narrowed. // This is tricky, because the D channel has no address data. // Thus, you don't know which part of a sub-beat transfer to extract. // To fix this, we record the relevant address bits for all sources. // The assumption is that this sort of situation happens only where // you connect a narrow master to the system bus, so there are few sources. def sourceMap(source_bits: UInt) = { val source = if (edgeIn.client.endSourceId == 1) 0.U(0.W) else source_bits require (edgeOut.manager.beatBytes > edgeIn.manager.beatBytes) val keepBits = log2Ceil(edgeOut.manager.beatBytes) val dropBits = log2Ceil(edgeIn.manager.beatBytes) val sources = Reg(Vec(edgeIn.client.endSourceId, UInt((keepBits-dropBits).W))) val a_sel = in.a.bits.address(keepBits-1, dropBits) when (in.a.fire) { if (edgeIn.client.endSourceId == 1) { // avoid extraction-index-width warning sources(0) := a_sel } else { sources(in.a.bits.source) := a_sel } } // depopulate unused source registers: edgeIn.client.unusedSources.foreach { id => sources(id) := 0.U } val bypass = in.a.valid && in.a.bits.source === source if (edgeIn.manager.minLatency > 0) sources(source) else Mux(bypass, a_sel, sources(source)) } splice(edgeIn, in.a, edgeOut, out.a, sourceMap) splice(edgeOut, out.d, edgeIn, in.d, sourceMap) if (edgeOut.manager.anySupportAcquireB && edgeIn.client.anySupportProbe) { splice(edgeOut, out.b, edgeIn, in.b, sourceMap) splice(edgeIn, in.c, edgeOut, out.c, sourceMap) out.e.valid := in.e.valid out.e.bits := in.e.bits in.e.ready := out.e.ready } else { in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } } } } object TLWidthWidget { def apply(innerBeatBytes: Int)(implicit p: Parameters): TLNode = { val widget = LazyModule(new TLWidthWidget(innerBeatBytes)) widget.node } def apply(wrapper: TLBusWrapper)(implicit p: Parameters): TLNode = apply(wrapper.beatBytes) } // Synthesizable unit tests import freechips.rocketchip.unittest._ class TLRAMWidthWidget(first: Int, second: Int, txns: Int)(implicit p: Parameters) extends LazyModule { val fuzz = LazyModule(new TLFuzzer(txns)) val model = LazyModule(new TLRAMModel("WidthWidget")) val ram = LazyModule(new TLRAM(AddressSet(0x0, 0x3ff))) (ram.node := TLDelayer(0.1) := TLFragmenter(4, 256) := TLWidthWidget(second) := TLWidthWidget(first) := TLDelayer(0.1) := model.node := fuzz.node) lazy val module = new Impl class Impl extends LazyModuleImp(this) with UnitTestModule { io.finished := fuzz.module.io.finished } } class TLRAMWidthWidgetTest(little: Int, big: Int, txns: Int = 5000, timeout: Int = 500000)(implicit p: Parameters) extends UnitTest(timeout) { val dut = Module(LazyModule(new TLRAMWidthWidget(little,big,txns)).module) dut.io.start := DontCare io.finished := dut.io.finished } File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File MixedNode.scala: package org.chipsalliance.diplomacy.nodes import chisel3.{Data, DontCare, Wire} import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.{Field, Parameters} import org.chipsalliance.diplomacy.ValName import org.chipsalliance.diplomacy.sourceLine /** One side metadata of a [[Dangle]]. * * Describes one side of an edge going into or out of a [[BaseNode]]. * * @param serial * the global [[BaseNode.serial]] number of the [[BaseNode]] that this [[HalfEdge]] connects to. * @param index * the `index` in the [[BaseNode]]'s input or output port list that this [[HalfEdge]] belongs to. */ case class HalfEdge(serial: Int, index: Int) extends Ordered[HalfEdge] { import scala.math.Ordered.orderingToOrdered def compare(that: HalfEdge): Int = HalfEdge.unapply(this).compare(HalfEdge.unapply(that)) } /** [[Dangle]] captures the `IO` information of a [[LazyModule]] and which two [[BaseNode]]s the [[Edges]]/[[Bundle]] * connects. * * [[Dangle]]s are generated by [[BaseNode.instantiate]] using [[MixedNode.danglesOut]] and [[MixedNode.danglesIn]] , * [[LazyModuleImp.instantiate]] connects those that go to internal or explicit IO connections in a [[LazyModule]]. * * @param source * the source [[HalfEdge]] of this [[Dangle]], which captures the source [[BaseNode]] and the port `index` within * that [[BaseNode]]. * @param sink * sink [[HalfEdge]] of this [[Dangle]], which captures the sink [[BaseNode]] and the port `index` within that * [[BaseNode]]. * @param flipped * flip or not in [[AutoBundle.makeElements]]. If true this corresponds to `danglesOut`, if false it corresponds to * `danglesIn`. * @param dataOpt * actual [[Data]] for the hardware connection. Can be empty if this belongs to a cloned module */ case class Dangle(source: HalfEdge, sink: HalfEdge, flipped: Boolean, name: String, dataOpt: Option[Data]) { def data = dataOpt.get } /** [[Edges]] is a collection of parameters describing the functionality and connection for an interface, which is often * derived from the interconnection protocol and can inform the parameterization of the hardware bundles that actually * implement the protocol. */ case class Edges[EI, EO](in: Seq[EI], out: Seq[EO]) /** A field available in [[Parameters]] used to determine whether [[InwardNodeImp.monitor]] will be called. */ case object MonitorsEnabled extends Field[Boolean](true) /** When rendering the edge in a graphical format, flip the order in which the edges' source and sink are presented. * * For example, when rendering graphML, yEd by default tries to put the source node vertically above the sink node, but * [[RenderFlipped]] inverts this relationship. When a particular [[LazyModule]] contains both source nodes and sink * nodes, flipping the rendering of one node's edge will usual produce a more concise visual layout for the * [[LazyModule]]. */ case object RenderFlipped extends Field[Boolean](false) /** The sealed node class in the package, all node are derived from it. * * @param inner * Sink interface implementation. * @param outer * Source interface implementation. * @param valName * val name of this node. * @tparam DI * Downward-flowing parameters received on the inner side of the node. It is usually a brunch of parameters * describing the protocol parameters from a source. For an [[InwardNode]], it is determined by the connected * [[OutwardNode]]. Since it can be connected to multiple sources, this parameter is always a Seq of source port * parameters. * @tparam UI * Upward-flowing parameters generated by the inner side of the node. It is usually a brunch of parameters describing * the protocol parameters of a sink. For an [[InwardNode]], it is determined itself. * @tparam EI * Edge Parameters describing a connection on the inner side of the node. It is usually a brunch of transfers * specified for a sink according to protocol. * @tparam BI * Bundle type used when connecting to the inner side of the node. It is a hardware interface of this sink interface. * It should extends from [[chisel3.Data]], which represents the real hardware. * @tparam DO * Downward-flowing parameters generated on the outer side of the node. It is usually a brunch of parameters * describing the protocol parameters of a source. For an [[OutwardNode]], it is determined itself. * @tparam UO * Upward-flowing parameters received by the outer side of the node. It is usually a brunch of parameters describing * the protocol parameters from a sink. For an [[OutwardNode]], it is determined by the connected [[InwardNode]]. * Since it can be connected to multiple sinks, this parameter is always a Seq of sink port parameters. * @tparam EO * Edge Parameters describing a connection on the outer side of the node. It is usually a brunch of transfers * specified for a source according to protocol. * @tparam BO * Bundle type used when connecting to the outer side of the node. It is a hardware interface of this source * interface. It should extends from [[chisel3.Data]], which represents the real hardware. * * @note * Call Graph of [[MixedNode]] * - line `─`: source is process by a function and generate pass to others * - Arrow `β†’`: target of arrow is generated by source * * {{{ * (from the other node) * β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€[[InwardNode.uiParams]]─────────────┐ * ↓ β”‚ * (binding node when elaboration) [[OutwardNode.uoParams]]────────────────────────[[MixedNode.mapParamsU]]→──────────┐ β”‚ * [[InwardNode.accPI]] β”‚ β”‚ β”‚ * β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ ↓ β”‚ * ↓ β”‚ β”‚ β”‚ * (immobilize after elaboration) (inward port from [[OutwardNode]]) β”‚ ↓ β”‚ * [[InwardNode.iBindings]]──┐ [[MixedNode.iDirectPorts]]────────────────────→[[MixedNode.iPorts]] [[InwardNode.uiParams]] β”‚ * β”‚ β”‚ ↑ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[OutwardNode.doParams]] β”‚ β”‚ * β”‚ β”‚ β”‚ (from the other node) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ └────────┬─────────────── β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ (from the other node) β”‚ ↓ β”‚ * β”‚ └───[[OutwardNode.oPortMapping]] [[OutwardNode.oStar]] β”‚ [[MixedNode.edgesIn]]───┐ β”‚ * β”‚ ↑ ↑ β”‚ β”‚ ↓ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ [[MixedNode.in]] β”‚ * β”‚ β”‚ β”‚ β”‚ ↓ ↑ β”‚ * β”‚ (solve star connection) β”‚ β”‚ β”‚ [[MixedNode.bundleIn]]β”€β”€β”˜ β”‚ * β”œβ”€β”€β”€[[MixedNode.resolveStar]]→─┼────────────────────────────── └────────────────────────────────────┐ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.bundleOut]]─┐ β”‚ β”‚ * β”‚ β”‚ β”‚ ↑ ↓ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.out]] β”‚ β”‚ * β”‚ ↓ ↓ β”‚ ↑ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€[[InwardNode.iPortMapping]] [[InwardNode.iStar]] [[MixedNode.edgesOut]]β”€β”€β”˜ β”‚ β”‚ * β”‚ β”‚ (from the other node) ↑ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.outer.edgeO]] β”‚ β”‚ * β”‚ β”‚ β”‚ (based on protocol) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * (immobilize after elaboration)β”‚ ↓ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.oBindings]]β”€β”˜ [[MixedNode.oDirectPorts]]───→[[MixedNode.oPorts]] [[OutwardNode.doParams]] β”‚ β”‚ * ↑ (inward port from [[OutwardNode]]) β”‚ β”‚ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.accPO]] β”‚ ↓ β”‚ β”‚ β”‚ * (binding node when elaboration) β”‚ [[InwardNode.diParams]]─────→[[MixedNode.mapParamsD]]β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ β”‚ * β”‚ ↑ β”‚ β”‚ * β”‚ β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ * β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ * }}} */ abstract class MixedNode[DI, UI, EI, BI <: Data, DO, UO, EO, BO <: Data]( val inner: InwardNodeImp[DI, UI, EI, BI], val outer: OutwardNodeImp[DO, UO, EO, BO] )( implicit valName: ValName) extends BaseNode with NodeHandle[DI, UI, EI, BI, DO, UO, EO, BO] with InwardNode[DI, UI, BI] with OutwardNode[DO, UO, BO] { // Generate a [[NodeHandle]] with inward and outward node are both this node. val inward = this val outward = this /** Debug info of nodes binding. */ def bindingInfo: String = s"""$iBindingInfo |$oBindingInfo |""".stripMargin /** Debug info of ports connecting. */ def connectedPortsInfo: String = s"""${oPorts.size} outward ports connected: [${oPorts.map(_._2.name).mkString(",")}] |${iPorts.size} inward ports connected: [${iPorts.map(_._2.name).mkString(",")}] |""".stripMargin /** Debug info of parameters propagations. */ def parametersInfo: String = s"""${doParams.size} downstream outward parameters: [${doParams.mkString(",")}] |${uoParams.size} upstream outward parameters: [${uoParams.mkString(",")}] |${diParams.size} downstream inward parameters: [${diParams.mkString(",")}] |${uiParams.size} upstream inward parameters: [${uiParams.mkString(",")}] |""".stripMargin /** For a given node, converts [[OutwardNode.accPO]] and [[InwardNode.accPI]] to [[MixedNode.oPortMapping]] and * [[MixedNode.iPortMapping]]. * * Given counts of known inward and outward binding and inward and outward star bindings, return the resolved inward * stars and outward stars. * * This method will also validate the arguments and throw a runtime error if the values are unsuitable for this type * of node. * * @param iKnown * Number of known-size ([[BIND_ONCE]]) input bindings. * @param oKnown * Number of known-size ([[BIND_ONCE]]) output bindings. * @param iStar * Number of unknown size ([[BIND_STAR]]) input bindings. * @param oStar * Number of unknown size ([[BIND_STAR]]) output bindings. * @return * A Tuple of the resolved number of input and output connections. */ protected[diplomacy] def resolveStar(iKnown: Int, oKnown: Int, iStar: Int, oStar: Int): (Int, Int) /** Function to generate downward-flowing outward params from the downward-flowing input params and the current output * ports. * * @param n * The size of the output sequence to generate. * @param p * Sequence of downward-flowing input parameters of this node. * @return * A `n`-sized sequence of downward-flowing output edge parameters. */ protected[diplomacy] def mapParamsD(n: Int, p: Seq[DI]): Seq[DO] /** Function to generate upward-flowing input parameters from the upward-flowing output parameters [[uiParams]]. * * @param n * Size of the output sequence. * @param p * Upward-flowing output edge parameters. * @return * A n-sized sequence of upward-flowing input edge parameters. */ protected[diplomacy] def mapParamsU(n: Int, p: Seq[UO]): Seq[UI] /** @return * The sink cardinality of the node, the number of outputs bound with [[BIND_QUERY]] summed with inputs bound with * [[BIND_STAR]]. */ protected[diplomacy] lazy val sinkCard: Int = oBindings.count(_._3 == BIND_QUERY) + iBindings.count(_._3 == BIND_STAR) /** @return * The source cardinality of this node, the number of inputs bound with [[BIND_QUERY]] summed with the number of * output bindings bound with [[BIND_STAR]]. */ protected[diplomacy] lazy val sourceCard: Int = iBindings.count(_._3 == BIND_QUERY) + oBindings.count(_._3 == BIND_STAR) /** @return list of nodes involved in flex bindings with this node. */ protected[diplomacy] lazy val flexes: Seq[BaseNode] = oBindings.filter(_._3 == BIND_FLEX).map(_._2) ++ iBindings.filter(_._3 == BIND_FLEX).map(_._2) /** Resolves the flex to be either source or sink and returns the offset where the [[BIND_STAR]] operators begin * greedily taking up the remaining connections. * * @return * A value >= 0 if it is sink cardinality, a negative value for source cardinality. The magnitude of the return * value is not relevant. */ protected[diplomacy] lazy val flexOffset: Int = { /** Recursively performs a depth-first search of the [[flexes]], [[BaseNode]]s connected to this node with flex * operators. The algorithm bottoms out when we either get to a node we have already visited or when we get to a * connection that is not a flex and can set the direction for us. Otherwise, recurse by visiting the `flexes` of * each node in the current set and decide whether they should be added to the set or not. * * @return * the mapping of [[BaseNode]] indexed by their serial numbers. */ def DFS(v: BaseNode, visited: Map[Int, BaseNode]): Map[Int, BaseNode] = { if (visited.contains(v.serial) || !v.flexibleArityDirection) { visited } else { v.flexes.foldLeft(visited + (v.serial -> v))((sum, n) => DFS(n, sum)) } } /** Determine which [[BaseNode]] are involved in resolving the flex connections to/from this node. * * @example * {{{ * a :*=* b :*=* c * d :*=* b * e :*=* f * }}} * * `flexSet` for `a`, `b`, `c`, or `d` will be `Set(a, b, c, d)` `flexSet` for `e` or `f` will be `Set(e,f)` */ val flexSet = DFS(this, Map()).values /** The total number of :*= operators where we're on the left. */ val allSink = flexSet.map(_.sinkCard).sum /** The total number of :=* operators used when we're on the right. */ val allSource = flexSet.map(_.sourceCard).sum require( allSink == 0 || allSource == 0, s"The nodes ${flexSet.map(_.name)} which are inter-connected by :*=* have ${allSink} :*= operators and ${allSource} :=* operators connected to them, making it impossible to determine cardinality inference direction." ) allSink - allSource } /** @return A value >= 0 if it is sink cardinality, a negative value for source cardinality. */ protected[diplomacy] def edgeArityDirection(n: BaseNode): Int = { if (flexibleArityDirection) flexOffset else if (n.flexibleArityDirection) n.flexOffset else 0 } /** For a node which is connected between two nodes, select the one that will influence the direction of the flex * resolution. */ protected[diplomacy] def edgeAritySelect(n: BaseNode, l: => Int, r: => Int): Int = { val dir = edgeArityDirection(n) if (dir < 0) l else if (dir > 0) r else 1 } /** Ensure that the same node is not visited twice in resolving `:*=`, etc operators. */ private var starCycleGuard = false /** Resolve all the star operators into concrete indicies. As connections are being made, some may be "star" * connections which need to be resolved. In some way to determine how many actual edges they correspond to. We also * need to build up the ranges of edges which correspond to each binding operator, so that We can apply the correct * edge parameters and later build up correct bundle connections. * * [[oPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that oPort (binding * operator). [[iPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that iPort * (binding operator). [[oStar]]: `Int` the value to return for this node `N` for any `N :*= foo` or `N :*=* foo :*= * bar` [[iStar]]: `Int` the value to return for this node `N` for any `foo :=* N` or `bar :=* foo :*=* N` */ protected[diplomacy] lazy val ( oPortMapping: Seq[(Int, Int)], iPortMapping: Seq[(Int, Int)], oStar: Int, iStar: Int ) = { try { if (starCycleGuard) throw StarCycleException() starCycleGuard = true // For a given node N... // Number of foo :=* N // + Number of bar :=* foo :*=* N val oStars = oBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) < 0) } // Number of N :*= foo // + Number of N :*=* foo :*= bar val iStars = iBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) > 0) } // 1 for foo := N // + bar.iStar for bar :*= foo :*=* N // + foo.iStar for foo :*= N // + 0 for foo :=* N val oKnown = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, 0, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => 0 } }.sum // 1 for N := foo // + bar.oStar for N :*=* foo :=* bar // + foo.oStar for N :=* foo // + 0 for N :*= foo val iKnown = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, 0) case BIND_QUERY => n.oStar case BIND_STAR => 0 } }.sum // Resolve star depends on the node subclass to implement the algorithm for this. val (iStar, oStar) = resolveStar(iKnown, oKnown, iStars, oStars) // Cumulative list of resolved outward binding range starting points val oSum = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, oStar, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => oStar } }.scanLeft(0)(_ + _) // Cumulative list of resolved inward binding range starting points val iSum = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, iStar) case BIND_QUERY => n.oStar case BIND_STAR => iStar } }.scanLeft(0)(_ + _) // Create ranges for each binding based on the running sums and return // those along with resolved values for the star operations. (oSum.init.zip(oSum.tail), iSum.init.zip(iSum.tail), oStar, iStar) } catch { case c: StarCycleException => throw c.copy(loop = context +: c.loop) } } /** Sequence of inward ports. * * This should be called after all star bindings are resolved. * * Each element is: `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. * `n` Instance of inward node. `p` View of [[Parameters]] where this connection was made. `s` Source info where this * connection was made in the source code. */ protected[diplomacy] lazy val oDirectPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oBindings.flatMap { case (i, n, _, p, s) => // for each binding operator in this node, look at what it connects to val (start, end) = n.iPortMapping(i) (start until end).map { j => (j, n, p, s) } } /** Sequence of outward ports. * * This should be called after all star bindings are resolved. * * `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. `n` Instance of * outward node. `p` View of [[Parameters]] where this connection was made. `s` [[SourceInfo]] where this connection * was made in the source code. */ protected[diplomacy] lazy val iDirectPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iBindings.flatMap { case (i, n, _, p, s) => // query this port index range of this node in the other side of node. val (start, end) = n.oPortMapping(i) (start until end).map { j => (j, n, p, s) } } // Ephemeral nodes ( which have non-None iForward/oForward) have in_degree = out_degree // Thus, there must exist an Eulerian path and the below algorithms terminate @scala.annotation.tailrec private def oTrace( tuple: (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) ): (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.iForward(i) match { case None => (i, n, p, s) case Some((j, m)) => oTrace((j, m, p, s)) } } @scala.annotation.tailrec private def iTrace( tuple: (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) ): (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.oForward(i) match { case None => (i, n, p, s) case Some((j, m)) => iTrace((j, m, p, s)) } } /** Final output ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - Numeric index of this binding in the [[InwardNode]] on the other end. * - [[InwardNode]] on the other end of this binding. * - A view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val oPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oDirectPorts.map(oTrace) /** Final input ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - numeric index of this binding in [[OutwardNode]] on the other end. * - [[OutwardNode]] on the other end of this binding. * - a view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val iPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iDirectPorts.map(iTrace) private var oParamsCycleGuard = false protected[diplomacy] lazy val diParams: Seq[DI] = iPorts.map { case (i, n, _, _) => n.doParams(i) } protected[diplomacy] lazy val doParams: Seq[DO] = { try { if (oParamsCycleGuard) throw DownwardCycleException() oParamsCycleGuard = true val o = mapParamsD(oPorts.size, diParams) require( o.size == oPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of outward ports should equal the number of produced outward parameters. |$context |$connectedPortsInfo |Downstreamed inward parameters: [${diParams.mkString(",")}] |Produced outward parameters: [${o.mkString(",")}] |""".stripMargin ) o.map(outer.mixO(_, this)) } catch { case c: DownwardCycleException => throw c.copy(loop = context +: c.loop) } } private var iParamsCycleGuard = false protected[diplomacy] lazy val uoParams: Seq[UO] = oPorts.map { case (o, n, _, _) => n.uiParams(o) } protected[diplomacy] lazy val uiParams: Seq[UI] = { try { if (iParamsCycleGuard) throw UpwardCycleException() iParamsCycleGuard = true val i = mapParamsU(iPorts.size, uoParams) require( i.size == iPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of inward ports should equal the number of produced inward parameters. |$context |$connectedPortsInfo |Upstreamed outward parameters: [${uoParams.mkString(",")}] |Produced inward parameters: [${i.mkString(",")}] |""".stripMargin ) i.map(inner.mixI(_, this)) } catch { case c: UpwardCycleException => throw c.copy(loop = context +: c.loop) } } /** Outward edge parameters. */ protected[diplomacy] lazy val edgesOut: Seq[EO] = (oPorts.zip(doParams)).map { case ((i, n, p, s), o) => outer.edgeO(o, n.uiParams(i), p, s) } /** Inward edge parameters. */ protected[diplomacy] lazy val edgesIn: Seq[EI] = (iPorts.zip(uiParams)).map { case ((o, n, p, s), i) => inner.edgeI(n.doParams(o), i, p, s) } /** A tuple of the input edge parameters and output edge parameters for the edges bound to this node. * * If you need to access to the edges of a foreign Node, use this method (in/out create bundles). */ lazy val edges: Edges[EI, EO] = Edges(edgesIn, edgesOut) /** Create actual Wires corresponding to the Bundles parameterized by the outward edges of this node. */ protected[diplomacy] lazy val bundleOut: Seq[BO] = edgesOut.map { e => val x = Wire(outer.bundleO(e)).suggestName(s"${valName.value}Out") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } /** Create actual Wires corresponding to the Bundles parameterized by the inward edges of this node. */ protected[diplomacy] lazy val bundleIn: Seq[BI] = edgesIn.map { e => val x = Wire(inner.bundleI(e)).suggestName(s"${valName.value}In") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } private def emptyDanglesOut: Seq[Dangle] = oPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(serial, i), sink = HalfEdge(n.serial, j), flipped = false, name = wirePrefix + "out", dataOpt = None ) } private def emptyDanglesIn: Seq[Dangle] = iPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(n.serial, j), sink = HalfEdge(serial, i), flipped = true, name = wirePrefix + "in", dataOpt = None ) } /** Create the [[Dangle]]s which describe the connections from this node output to other nodes inputs. */ protected[diplomacy] def danglesOut: Seq[Dangle] = emptyDanglesOut.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleOut(i))) } /** Create the [[Dangle]]s which describe the connections from this node input from other nodes outputs. */ protected[diplomacy] def danglesIn: Seq[Dangle] = emptyDanglesIn.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleIn(i))) } private[diplomacy] var instantiated = false /** Gather Bundle and edge parameters of outward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def out: Seq[(BO, EO)] = { require( instantiated, s"$name.out should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleOut.zip(edgesOut) } /** Gather Bundle and edge parameters of inward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def in: Seq[(BI, EI)] = { require( instantiated, s"$name.in should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleIn.zip(edgesIn) } /** Actually instantiate this node during [[LazyModuleImp]] evaluation. Mark that it's safe to use the Bundle wires, * instantiate monitors on all input ports if appropriate, and return all the dangles of this node. */ protected[diplomacy] def instantiate(): Seq[Dangle] = { instantiated = true if (!circuitIdentity) { (iPorts.zip(in)).foreach { case ((_, _, p, _), (b, e)) => if (p(MonitorsEnabled)) inner.monitor(b, e) } } danglesOut ++ danglesIn } protected[diplomacy] def cloneDangles(): Seq[Dangle] = emptyDanglesOut ++ emptyDanglesIn /** Connects the outward part of a node with the inward part of this node. */ protected[diplomacy] def bind( h: OutwardNode[DI, UI, BI], binding: NodeBinding )( implicit p: Parameters, sourceInfo: SourceInfo ): Unit = { val x = this // x := y val y = h sourceLine(sourceInfo, " at ", "") val i = x.iPushed val o = y.oPushed y.oPush( i, x, binding match { case BIND_ONCE => BIND_ONCE case BIND_FLEX => BIND_FLEX case BIND_STAR => BIND_QUERY case BIND_QUERY => BIND_STAR } ) x.iPush(o, y, binding) } /* Metadata for printing the node graph. */ def inputs: Seq[(OutwardNode[DI, UI, BI], RenderedEdge)] = (iPorts.zip(edgesIn)).map { case ((_, n, p, _), e) => val re = inner.render(e) (n, re.copy(flipped = re.flipped != p(RenderFlipped))) } /** Metadata for printing the node graph */ def outputs: Seq[(InwardNode[DO, UO, BO], RenderedEdge)] = oPorts.map { case (i, n, _, _) => (n, n.inputs(i)._2) } }
module TLInterconnectCoupler_cbus_to_rockettile( // @[LazyModuleImp.scala:138:7] input clock, // @[LazyModuleImp.scala:138:7] input reset, // @[LazyModuleImp.scala:138:7] input auto_tl_slave_clock_xing_out_a_ready, // @[LazyModuleImp.scala:107:25] output auto_tl_slave_clock_xing_out_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_tl_slave_clock_xing_out_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_tl_slave_clock_xing_out_a_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_tl_slave_clock_xing_out_a_bits_size, // @[LazyModuleImp.scala:107:25] output [6:0] auto_tl_slave_clock_xing_out_a_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_tl_slave_clock_xing_out_a_bits_address, // @[LazyModuleImp.scala:107:25] output [3:0] auto_tl_slave_clock_xing_out_a_bits_mask, // @[LazyModuleImp.scala:107:25] output [31:0] auto_tl_slave_clock_xing_out_a_bits_data, // @[LazyModuleImp.scala:107:25] output auto_tl_slave_clock_xing_out_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_tl_slave_clock_xing_out_d_ready, // @[LazyModuleImp.scala:107:25] input auto_tl_slave_clock_xing_out_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_tl_slave_clock_xing_out_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_tl_slave_clock_xing_out_d_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_tl_slave_clock_xing_out_d_bits_size, // @[LazyModuleImp.scala:107:25] input [6:0] auto_tl_slave_clock_xing_out_d_bits_source, // @[LazyModuleImp.scala:107:25] input auto_tl_slave_clock_xing_out_d_bits_sink, // @[LazyModuleImp.scala:107:25] input auto_tl_slave_clock_xing_out_d_bits_denied, // @[LazyModuleImp.scala:107:25] input [31:0] auto_tl_slave_clock_xing_out_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_tl_slave_clock_xing_out_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_tl_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_tl_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_tl_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_tl_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_tl_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input [6:0] auto_tl_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_tl_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_tl_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_tl_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_tl_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_tl_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_tl_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_tl_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_tl_in_d_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_tl_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output [6:0] auto_tl_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output auto_tl_in_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_tl_in_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_tl_in_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_tl_in_d_bits_corrupt // @[LazyModuleImp.scala:107:25] ); wire tlOut_d_valid; // @[MixedNode.scala:542:17] wire tlOut_d_bits_corrupt; // @[MixedNode.scala:542:17] wire [63:0] tlOut_d_bits_data; // @[MixedNode.scala:542:17] wire tlOut_d_bits_denied; // @[MixedNode.scala:542:17] wire tlOut_d_bits_sink; // @[MixedNode.scala:542:17] wire [6:0] tlOut_d_bits_source; // @[MixedNode.scala:542:17] wire [2:0] tlOut_d_bits_size; // @[MixedNode.scala:542:17] wire [1:0] tlOut_d_bits_param; // @[MixedNode.scala:542:17] wire [2:0] tlOut_d_bits_opcode; // @[MixedNode.scala:542:17] wire tlOut_a_ready; // @[MixedNode.scala:542:17] wire auto_tl_slave_clock_xing_out_a_ready_0 = auto_tl_slave_clock_xing_out_a_ready; // @[LazyModuleImp.scala:138:7] wire auto_tl_slave_clock_xing_out_d_valid_0 = auto_tl_slave_clock_xing_out_d_valid; // @[LazyModuleImp.scala:138:7] wire [2:0] auto_tl_slave_clock_xing_out_d_bits_opcode_0 = auto_tl_slave_clock_xing_out_d_bits_opcode; // @[LazyModuleImp.scala:138:7] wire [1:0] auto_tl_slave_clock_xing_out_d_bits_param_0 = auto_tl_slave_clock_xing_out_d_bits_param; // @[LazyModuleImp.scala:138:7] wire [2:0] auto_tl_slave_clock_xing_out_d_bits_size_0 = auto_tl_slave_clock_xing_out_d_bits_size; // @[LazyModuleImp.scala:138:7] wire [6:0] auto_tl_slave_clock_xing_out_d_bits_source_0 = auto_tl_slave_clock_xing_out_d_bits_source; // @[LazyModuleImp.scala:138:7] wire auto_tl_slave_clock_xing_out_d_bits_sink_0 = auto_tl_slave_clock_xing_out_d_bits_sink; // @[LazyModuleImp.scala:138:7] wire auto_tl_slave_clock_xing_out_d_bits_denied_0 = auto_tl_slave_clock_xing_out_d_bits_denied; // @[LazyModuleImp.scala:138:7] wire [31:0] auto_tl_slave_clock_xing_out_d_bits_data_0 = auto_tl_slave_clock_xing_out_d_bits_data; // @[LazyModuleImp.scala:138:7] wire auto_tl_slave_clock_xing_out_d_bits_corrupt_0 = auto_tl_slave_clock_xing_out_d_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire auto_tl_in_a_valid_0 = auto_tl_in_a_valid; // @[LazyModuleImp.scala:138:7] wire [2:0] auto_tl_in_a_bits_opcode_0 = auto_tl_in_a_bits_opcode; // @[LazyModuleImp.scala:138:7] wire [2:0] auto_tl_in_a_bits_param_0 = auto_tl_in_a_bits_param; // @[LazyModuleImp.scala:138:7] wire [2:0] auto_tl_in_a_bits_size_0 = auto_tl_in_a_bits_size; // @[LazyModuleImp.scala:138:7] wire [6:0] auto_tl_in_a_bits_source_0 = auto_tl_in_a_bits_source; // @[LazyModuleImp.scala:138:7] wire [31:0] auto_tl_in_a_bits_address_0 = auto_tl_in_a_bits_address; // @[LazyModuleImp.scala:138:7] wire [7:0] auto_tl_in_a_bits_mask_0 = auto_tl_in_a_bits_mask; // @[LazyModuleImp.scala:138:7] wire [63:0] auto_tl_in_a_bits_data_0 = auto_tl_in_a_bits_data; // @[LazyModuleImp.scala:138:7] wire auto_tl_in_a_bits_corrupt_0 = auto_tl_in_a_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire auto_tl_in_d_ready_0 = auto_tl_in_d_ready; // @[LazyModuleImp.scala:138:7] wire tlSlaveClockXingOut_a_ready = auto_tl_slave_clock_xing_out_a_ready_0; // @[MixedNode.scala:542:17] wire tlSlaveClockXingOut_a_valid; // @[MixedNode.scala:542:17] wire [2:0] tlSlaveClockXingOut_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] tlSlaveClockXingOut_a_bits_param; // @[MixedNode.scala:542:17] wire [2:0] tlSlaveClockXingOut_a_bits_size; // @[MixedNode.scala:542:17] wire [6:0] tlSlaveClockXingOut_a_bits_source; // @[MixedNode.scala:542:17] wire [31:0] tlSlaveClockXingOut_a_bits_address; // @[MixedNode.scala:542:17] wire [3:0] tlSlaveClockXingOut_a_bits_mask; // @[MixedNode.scala:542:17] wire [31:0] tlSlaveClockXingOut_a_bits_data; // @[MixedNode.scala:542:17] wire tlSlaveClockXingOut_a_bits_corrupt; // @[MixedNode.scala:542:17] wire tlSlaveClockXingOut_d_ready; // @[MixedNode.scala:542:17] wire tlSlaveClockXingOut_d_valid = auto_tl_slave_clock_xing_out_d_valid_0; // @[MixedNode.scala:542:17] wire [2:0] tlSlaveClockXingOut_d_bits_opcode = auto_tl_slave_clock_xing_out_d_bits_opcode_0; // @[MixedNode.scala:542:17] wire [1:0] tlSlaveClockXingOut_d_bits_param = auto_tl_slave_clock_xing_out_d_bits_param_0; // @[MixedNode.scala:542:17] wire [2:0] tlSlaveClockXingOut_d_bits_size = auto_tl_slave_clock_xing_out_d_bits_size_0; // @[MixedNode.scala:542:17] wire [6:0] tlSlaveClockXingOut_d_bits_source = auto_tl_slave_clock_xing_out_d_bits_source_0; // @[MixedNode.scala:542:17] wire tlSlaveClockXingOut_d_bits_sink = auto_tl_slave_clock_xing_out_d_bits_sink_0; // @[MixedNode.scala:542:17] wire tlSlaveClockXingOut_d_bits_denied = auto_tl_slave_clock_xing_out_d_bits_denied_0; // @[MixedNode.scala:542:17] wire [31:0] tlSlaveClockXingOut_d_bits_data = auto_tl_slave_clock_xing_out_d_bits_data_0; // @[MixedNode.scala:542:17] wire tlIn_a_ready; // @[MixedNode.scala:551:17] wire tlSlaveClockXingOut_d_bits_corrupt = auto_tl_slave_clock_xing_out_d_bits_corrupt_0; // @[MixedNode.scala:542:17] wire tlIn_a_valid = auto_tl_in_a_valid_0; // @[MixedNode.scala:551:17] wire [2:0] tlIn_a_bits_opcode = auto_tl_in_a_bits_opcode_0; // @[MixedNode.scala:551:17] wire [2:0] tlIn_a_bits_param = auto_tl_in_a_bits_param_0; // @[MixedNode.scala:551:17] wire [2:0] tlIn_a_bits_size = auto_tl_in_a_bits_size_0; // @[MixedNode.scala:551:17] wire [6:0] tlIn_a_bits_source = auto_tl_in_a_bits_source_0; // @[MixedNode.scala:551:17] wire [31:0] tlIn_a_bits_address = auto_tl_in_a_bits_address_0; // @[MixedNode.scala:551:17] wire [7:0] tlIn_a_bits_mask = auto_tl_in_a_bits_mask_0; // @[MixedNode.scala:551:17] wire [63:0] tlIn_a_bits_data = auto_tl_in_a_bits_data_0; // @[MixedNode.scala:551:17] wire tlIn_a_bits_corrupt = auto_tl_in_a_bits_corrupt_0; // @[MixedNode.scala:551:17] wire tlIn_d_ready = auto_tl_in_d_ready_0; // @[MixedNode.scala:551:17] wire tlIn_d_valid; // @[MixedNode.scala:551:17] wire [2:0] tlIn_d_bits_opcode; // @[MixedNode.scala:551:17] wire [1:0] tlIn_d_bits_param; // @[MixedNode.scala:551:17] wire [2:0] tlIn_d_bits_size; // @[MixedNode.scala:551:17] wire [6:0] tlIn_d_bits_source; // @[MixedNode.scala:551:17] wire tlIn_d_bits_sink; // @[MixedNode.scala:551:17] wire tlIn_d_bits_denied; // @[MixedNode.scala:551:17] wire [63:0] tlIn_d_bits_data; // @[MixedNode.scala:551:17] wire tlIn_d_bits_corrupt; // @[MixedNode.scala:551:17] wire [2:0] auto_tl_slave_clock_xing_out_a_bits_opcode_0; // @[LazyModuleImp.scala:138:7] wire [2:0] auto_tl_slave_clock_xing_out_a_bits_param_0; // @[LazyModuleImp.scala:138:7] wire [2:0] auto_tl_slave_clock_xing_out_a_bits_size_0; // @[LazyModuleImp.scala:138:7] wire [6:0] auto_tl_slave_clock_xing_out_a_bits_source_0; // @[LazyModuleImp.scala:138:7] wire [31:0] auto_tl_slave_clock_xing_out_a_bits_address_0; // @[LazyModuleImp.scala:138:7] wire [3:0] auto_tl_slave_clock_xing_out_a_bits_mask_0; // @[LazyModuleImp.scala:138:7] wire [31:0] auto_tl_slave_clock_xing_out_a_bits_data_0; // @[LazyModuleImp.scala:138:7] wire auto_tl_slave_clock_xing_out_a_bits_corrupt_0; // @[LazyModuleImp.scala:138:7] wire auto_tl_slave_clock_xing_out_a_valid_0; // @[LazyModuleImp.scala:138:7] wire auto_tl_slave_clock_xing_out_d_ready_0; // @[LazyModuleImp.scala:138:7] wire auto_tl_in_a_ready_0; // @[LazyModuleImp.scala:138:7] wire [2:0] auto_tl_in_d_bits_opcode_0; // @[LazyModuleImp.scala:138:7] wire [1:0] auto_tl_in_d_bits_param_0; // @[LazyModuleImp.scala:138:7] wire [2:0] auto_tl_in_d_bits_size_0; // @[LazyModuleImp.scala:138:7] wire [6:0] auto_tl_in_d_bits_source_0; // @[LazyModuleImp.scala:138:7] wire auto_tl_in_d_bits_sink_0; // @[LazyModuleImp.scala:138:7] wire auto_tl_in_d_bits_denied_0; // @[LazyModuleImp.scala:138:7] wire [63:0] auto_tl_in_d_bits_data_0; // @[LazyModuleImp.scala:138:7] wire auto_tl_in_d_bits_corrupt_0; // @[LazyModuleImp.scala:138:7] wire auto_tl_in_d_valid_0; // @[LazyModuleImp.scala:138:7] assign tlIn_a_ready = tlOut_a_ready; // @[MixedNode.scala:542:17, :551:17] assign tlIn_d_valid = tlOut_d_valid; // @[MixedNode.scala:542:17, :551:17] assign tlIn_d_bits_opcode = tlOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign tlIn_d_bits_param = tlOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign tlIn_d_bits_size = tlOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign tlIn_d_bits_source = tlOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign tlIn_d_bits_sink = tlOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign tlIn_d_bits_denied = tlOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign tlIn_d_bits_data = tlOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] wire [2:0] tlOut_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] tlOut_a_bits_param; // @[MixedNode.scala:542:17] wire [2:0] tlOut_a_bits_size; // @[MixedNode.scala:542:17] wire [6:0] tlOut_a_bits_source; // @[MixedNode.scala:542:17] wire [31:0] tlOut_a_bits_address; // @[MixedNode.scala:542:17] wire [7:0] tlOut_a_bits_mask; // @[MixedNode.scala:542:17] wire [63:0] tlOut_a_bits_data; // @[MixedNode.scala:542:17] wire tlOut_a_bits_corrupt; // @[MixedNode.scala:542:17] assign tlIn_d_bits_corrupt = tlOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire tlOut_a_valid; // @[MixedNode.scala:542:17] wire tlOut_d_ready; // @[MixedNode.scala:542:17] assign auto_tl_in_a_ready_0 = tlIn_a_ready; // @[MixedNode.scala:551:17] assign tlOut_a_valid = tlIn_a_valid; // @[MixedNode.scala:542:17, :551:17] assign tlOut_a_bits_opcode = tlIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign tlOut_a_bits_param = tlIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign tlOut_a_bits_size = tlIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign tlOut_a_bits_source = tlIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign tlOut_a_bits_address = tlIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] assign tlOut_a_bits_mask = tlIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign tlOut_a_bits_data = tlIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign tlOut_a_bits_corrupt = tlIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign tlOut_d_ready = tlIn_d_ready; // @[MixedNode.scala:542:17, :551:17] assign auto_tl_in_d_valid_0 = tlIn_d_valid; // @[MixedNode.scala:551:17] assign auto_tl_in_d_bits_opcode_0 = tlIn_d_bits_opcode; // @[MixedNode.scala:551:17] assign auto_tl_in_d_bits_param_0 = tlIn_d_bits_param; // @[MixedNode.scala:551:17] assign auto_tl_in_d_bits_size_0 = tlIn_d_bits_size; // @[MixedNode.scala:551:17] assign auto_tl_in_d_bits_source_0 = tlIn_d_bits_source; // @[MixedNode.scala:551:17] assign auto_tl_in_d_bits_sink_0 = tlIn_d_bits_sink; // @[MixedNode.scala:551:17] assign auto_tl_in_d_bits_denied_0 = tlIn_d_bits_denied; // @[MixedNode.scala:551:17] assign auto_tl_in_d_bits_data_0 = tlIn_d_bits_data; // @[MixedNode.scala:551:17] assign auto_tl_in_d_bits_corrupt_0 = tlIn_d_bits_corrupt; // @[MixedNode.scala:551:17] wire tlSlaveClockXingIn_a_ready = tlSlaveClockXingOut_a_ready; // @[MixedNode.scala:542:17, :551:17] wire tlSlaveClockXingIn_a_valid; // @[MixedNode.scala:551:17] assign auto_tl_slave_clock_xing_out_a_valid_0 = tlSlaveClockXingOut_a_valid; // @[MixedNode.scala:542:17] wire [2:0] tlSlaveClockXingIn_a_bits_opcode; // @[MixedNode.scala:551:17] assign auto_tl_slave_clock_xing_out_a_bits_opcode_0 = tlSlaveClockXingOut_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] tlSlaveClockXingIn_a_bits_param; // @[MixedNode.scala:551:17] assign auto_tl_slave_clock_xing_out_a_bits_param_0 = tlSlaveClockXingOut_a_bits_param; // @[MixedNode.scala:542:17] wire [2:0] tlSlaveClockXingIn_a_bits_size; // @[MixedNode.scala:551:17] assign auto_tl_slave_clock_xing_out_a_bits_size_0 = tlSlaveClockXingOut_a_bits_size; // @[MixedNode.scala:542:17] wire [6:0] tlSlaveClockXingIn_a_bits_source; // @[MixedNode.scala:551:17] assign auto_tl_slave_clock_xing_out_a_bits_source_0 = tlSlaveClockXingOut_a_bits_source; // @[MixedNode.scala:542:17] wire [31:0] tlSlaveClockXingIn_a_bits_address; // @[MixedNode.scala:551:17] assign auto_tl_slave_clock_xing_out_a_bits_address_0 = tlSlaveClockXingOut_a_bits_address; // @[MixedNode.scala:542:17] wire [3:0] tlSlaveClockXingIn_a_bits_mask; // @[MixedNode.scala:551:17] assign auto_tl_slave_clock_xing_out_a_bits_mask_0 = tlSlaveClockXingOut_a_bits_mask; // @[MixedNode.scala:542:17] wire [31:0] tlSlaveClockXingIn_a_bits_data; // @[MixedNode.scala:551:17] assign auto_tl_slave_clock_xing_out_a_bits_data_0 = tlSlaveClockXingOut_a_bits_data; // @[MixedNode.scala:542:17] wire tlSlaveClockXingIn_a_bits_corrupt; // @[MixedNode.scala:551:17] assign auto_tl_slave_clock_xing_out_a_bits_corrupt_0 = tlSlaveClockXingOut_a_bits_corrupt; // @[MixedNode.scala:542:17] wire tlSlaveClockXingIn_d_ready; // @[MixedNode.scala:551:17] assign auto_tl_slave_clock_xing_out_d_ready_0 = tlSlaveClockXingOut_d_ready; // @[MixedNode.scala:542:17] wire tlSlaveClockXingIn_d_valid = tlSlaveClockXingOut_d_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] tlSlaveClockXingIn_d_bits_opcode = tlSlaveClockXingOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [1:0] tlSlaveClockXingIn_d_bits_param = tlSlaveClockXingOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [2:0] tlSlaveClockXingIn_d_bits_size = tlSlaveClockXingOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [6:0] tlSlaveClockXingIn_d_bits_source = tlSlaveClockXingOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] wire tlSlaveClockXingIn_d_bits_sink = tlSlaveClockXingOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] wire tlSlaveClockXingIn_d_bits_denied = tlSlaveClockXingOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] wire [31:0] tlSlaveClockXingIn_d_bits_data = tlSlaveClockXingOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] wire tlSlaveClockXingIn_d_bits_corrupt = tlSlaveClockXingOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire no_bufferOut_a_ready = tlSlaveClockXingIn_a_ready; // @[MixedNode.scala:542:17, :551:17] wire no_bufferOut_a_valid; // @[MixedNode.scala:542:17] assign tlSlaveClockXingOut_a_valid = tlSlaveClockXingIn_a_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] no_bufferOut_a_bits_opcode; // @[MixedNode.scala:542:17] assign tlSlaveClockXingOut_a_bits_opcode = tlSlaveClockXingIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [2:0] no_bufferOut_a_bits_param; // @[MixedNode.scala:542:17] assign tlSlaveClockXingOut_a_bits_param = tlSlaveClockXingIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [2:0] no_bufferOut_a_bits_size; // @[MixedNode.scala:542:17] assign tlSlaveClockXingOut_a_bits_size = tlSlaveClockXingIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [6:0] no_bufferOut_a_bits_source; // @[MixedNode.scala:542:17] assign tlSlaveClockXingOut_a_bits_source = tlSlaveClockXingIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [31:0] no_bufferOut_a_bits_address; // @[MixedNode.scala:542:17] assign tlSlaveClockXingOut_a_bits_address = tlSlaveClockXingIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [3:0] no_bufferOut_a_bits_mask; // @[MixedNode.scala:542:17] assign tlSlaveClockXingOut_a_bits_mask = tlSlaveClockXingIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] wire [31:0] no_bufferOut_a_bits_data; // @[MixedNode.scala:542:17] assign tlSlaveClockXingOut_a_bits_data = tlSlaveClockXingIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] wire no_bufferOut_a_bits_corrupt; // @[MixedNode.scala:542:17] assign tlSlaveClockXingOut_a_bits_corrupt = tlSlaveClockXingIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire no_bufferOut_d_ready; // @[MixedNode.scala:542:17] assign tlSlaveClockXingOut_d_ready = tlSlaveClockXingIn_d_ready; // @[MixedNode.scala:542:17, :551:17] wire no_bufferOut_d_valid = tlSlaveClockXingIn_d_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] no_bufferOut_d_bits_opcode = tlSlaveClockXingIn_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [1:0] no_bufferOut_d_bits_param = tlSlaveClockXingIn_d_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [2:0] no_bufferOut_d_bits_size = tlSlaveClockXingIn_d_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [6:0] no_bufferOut_d_bits_source = tlSlaveClockXingIn_d_bits_source; // @[MixedNode.scala:542:17, :551:17] wire no_bufferOut_d_bits_sink = tlSlaveClockXingIn_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] wire no_bufferOut_d_bits_denied = tlSlaveClockXingIn_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] wire [31:0] no_bufferOut_d_bits_data = tlSlaveClockXingIn_d_bits_data; // @[MixedNode.scala:542:17, :551:17] wire no_bufferOut_d_bits_corrupt = tlSlaveClockXingIn_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire no_bufferIn_a_ready = no_bufferOut_a_ready; // @[MixedNode.scala:542:17, :551:17] wire no_bufferIn_a_valid; // @[MixedNode.scala:551:17] assign tlSlaveClockXingIn_a_valid = no_bufferOut_a_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] no_bufferIn_a_bits_opcode; // @[MixedNode.scala:551:17] assign tlSlaveClockXingIn_a_bits_opcode = no_bufferOut_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [2:0] no_bufferIn_a_bits_param; // @[MixedNode.scala:551:17] assign tlSlaveClockXingIn_a_bits_param = no_bufferOut_a_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [2:0] no_bufferIn_a_bits_size; // @[MixedNode.scala:551:17] assign tlSlaveClockXingIn_a_bits_size = no_bufferOut_a_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [6:0] no_bufferIn_a_bits_source; // @[MixedNode.scala:551:17] assign tlSlaveClockXingIn_a_bits_source = no_bufferOut_a_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [31:0] no_bufferIn_a_bits_address; // @[MixedNode.scala:551:17] assign tlSlaveClockXingIn_a_bits_address = no_bufferOut_a_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [3:0] no_bufferIn_a_bits_mask; // @[MixedNode.scala:551:17] assign tlSlaveClockXingIn_a_bits_mask = no_bufferOut_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] wire [31:0] no_bufferIn_a_bits_data; // @[MixedNode.scala:551:17] assign tlSlaveClockXingIn_a_bits_data = no_bufferOut_a_bits_data; // @[MixedNode.scala:542:17, :551:17] wire no_bufferIn_a_bits_corrupt; // @[MixedNode.scala:551:17] assign tlSlaveClockXingIn_a_bits_corrupt = no_bufferOut_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire no_bufferIn_d_ready; // @[MixedNode.scala:551:17] assign tlSlaveClockXingIn_d_ready = no_bufferOut_d_ready; // @[MixedNode.scala:542:17, :551:17] wire no_bufferIn_d_valid = no_bufferOut_d_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] no_bufferIn_d_bits_opcode = no_bufferOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [1:0] no_bufferIn_d_bits_param = no_bufferOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [2:0] no_bufferIn_d_bits_size = no_bufferOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [6:0] no_bufferIn_d_bits_source = no_bufferOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] wire no_bufferIn_d_bits_sink = no_bufferOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] wire no_bufferIn_d_bits_denied = no_bufferOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] wire [31:0] no_bufferIn_d_bits_data = no_bufferOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] wire no_bufferIn_d_bits_corrupt = no_bufferOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign no_bufferOut_a_valid = no_bufferIn_a_valid; // @[MixedNode.scala:542:17, :551:17] assign no_bufferOut_a_bits_opcode = no_bufferIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign no_bufferOut_a_bits_param = no_bufferIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign no_bufferOut_a_bits_size = no_bufferIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign no_bufferOut_a_bits_source = no_bufferIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign no_bufferOut_a_bits_address = no_bufferIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] assign no_bufferOut_a_bits_mask = no_bufferIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign no_bufferOut_a_bits_data = no_bufferIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign no_bufferOut_a_bits_corrupt = no_bufferIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign no_bufferOut_d_ready = no_bufferIn_d_ready; // @[MixedNode.scala:542:17, :551:17] TLWidthWidget8_4 widget ( // @[WidthWidget.scala:230:28] .clock (clock), .reset (reset), .auto_anon_in_a_ready (tlOut_a_ready), .auto_anon_in_a_valid (tlOut_a_valid), // @[MixedNode.scala:542:17] .auto_anon_in_a_bits_opcode (tlOut_a_bits_opcode), // @[MixedNode.scala:542:17] .auto_anon_in_a_bits_param (tlOut_a_bits_param), // @[MixedNode.scala:542:17] .auto_anon_in_a_bits_size (tlOut_a_bits_size), // @[MixedNode.scala:542:17] .auto_anon_in_a_bits_source (tlOut_a_bits_source), // @[MixedNode.scala:542:17] .auto_anon_in_a_bits_address (tlOut_a_bits_address), // @[MixedNode.scala:542:17] .auto_anon_in_a_bits_mask (tlOut_a_bits_mask), // @[MixedNode.scala:542:17] .auto_anon_in_a_bits_data (tlOut_a_bits_data), // @[MixedNode.scala:542:17] .auto_anon_in_a_bits_corrupt (tlOut_a_bits_corrupt), // @[MixedNode.scala:542:17] .auto_anon_in_d_ready (tlOut_d_ready), // @[MixedNode.scala:542:17] .auto_anon_in_d_valid (tlOut_d_valid), .auto_anon_in_d_bits_opcode (tlOut_d_bits_opcode), .auto_anon_in_d_bits_param (tlOut_d_bits_param), .auto_anon_in_d_bits_size (tlOut_d_bits_size), .auto_anon_in_d_bits_source (tlOut_d_bits_source), .auto_anon_in_d_bits_sink (tlOut_d_bits_sink), .auto_anon_in_d_bits_denied (tlOut_d_bits_denied), .auto_anon_in_d_bits_data (tlOut_d_bits_data), .auto_anon_in_d_bits_corrupt (tlOut_d_bits_corrupt), .auto_anon_out_a_ready (no_bufferIn_a_ready), // @[MixedNode.scala:551:17] .auto_anon_out_a_valid (no_bufferIn_a_valid), .auto_anon_out_a_bits_opcode (no_bufferIn_a_bits_opcode), .auto_anon_out_a_bits_param (no_bufferIn_a_bits_param), .auto_anon_out_a_bits_size (no_bufferIn_a_bits_size), .auto_anon_out_a_bits_source (no_bufferIn_a_bits_source), .auto_anon_out_a_bits_address (no_bufferIn_a_bits_address), .auto_anon_out_a_bits_mask (no_bufferIn_a_bits_mask), .auto_anon_out_a_bits_data (no_bufferIn_a_bits_data), .auto_anon_out_a_bits_corrupt (no_bufferIn_a_bits_corrupt), .auto_anon_out_d_ready (no_bufferIn_d_ready), .auto_anon_out_d_valid (no_bufferIn_d_valid), // @[MixedNode.scala:551:17] .auto_anon_out_d_bits_opcode (no_bufferIn_d_bits_opcode), // @[MixedNode.scala:551:17] .auto_anon_out_d_bits_param (no_bufferIn_d_bits_param), // @[MixedNode.scala:551:17] .auto_anon_out_d_bits_size (no_bufferIn_d_bits_size), // @[MixedNode.scala:551:17] .auto_anon_out_d_bits_source (no_bufferIn_d_bits_source), // @[MixedNode.scala:551:17] .auto_anon_out_d_bits_sink (no_bufferIn_d_bits_sink), // @[MixedNode.scala:551:17] .auto_anon_out_d_bits_denied (no_bufferIn_d_bits_denied), // @[MixedNode.scala:551:17] .auto_anon_out_d_bits_data (no_bufferIn_d_bits_data), // @[MixedNode.scala:551:17] .auto_anon_out_d_bits_corrupt (no_bufferIn_d_bits_corrupt) // @[MixedNode.scala:551:17] ); // @[WidthWidget.scala:230:28] assign auto_tl_slave_clock_xing_out_a_valid = auto_tl_slave_clock_xing_out_a_valid_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_slave_clock_xing_out_a_bits_opcode = auto_tl_slave_clock_xing_out_a_bits_opcode_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_slave_clock_xing_out_a_bits_param = auto_tl_slave_clock_xing_out_a_bits_param_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_slave_clock_xing_out_a_bits_size = auto_tl_slave_clock_xing_out_a_bits_size_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_slave_clock_xing_out_a_bits_source = auto_tl_slave_clock_xing_out_a_bits_source_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_slave_clock_xing_out_a_bits_address = auto_tl_slave_clock_xing_out_a_bits_address_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_slave_clock_xing_out_a_bits_mask = auto_tl_slave_clock_xing_out_a_bits_mask_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_slave_clock_xing_out_a_bits_data = auto_tl_slave_clock_xing_out_a_bits_data_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_slave_clock_xing_out_a_bits_corrupt = auto_tl_slave_clock_xing_out_a_bits_corrupt_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_slave_clock_xing_out_d_ready = auto_tl_slave_clock_xing_out_d_ready_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_in_a_ready = auto_tl_in_a_ready_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_in_d_valid = auto_tl_in_d_valid_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_in_d_bits_opcode = auto_tl_in_d_bits_opcode_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_in_d_bits_param = auto_tl_in_d_bits_param_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_in_d_bits_size = auto_tl_in_d_bits_size_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_in_d_bits_source = auto_tl_in_d_bits_source_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_in_d_bits_sink = auto_tl_in_d_bits_sink_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_in_d_bits_denied = auto_tl_in_d_bits_denied_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_in_d_bits_data = auto_tl_in_d_bits_data_0; // @[LazyModuleImp.scala:138:7] assign auto_tl_in_d_bits_corrupt = auto_tl_in_d_bits_corrupt_0; // @[LazyModuleImp.scala:138:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File FIFOFixer.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.lazymodule._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.diplomacy.RegionType import freechips.rocketchip.util.property class TLFIFOFixer(policy: TLFIFOFixer.Policy = TLFIFOFixer.all)(implicit p: Parameters) extends LazyModule { private def fifoMap(seq: Seq[TLSlaveParameters]) = { val (flatManagers, keepManagers) = seq.partition(policy) // We need to be careful if one flatManager and one keepManager share an existing domain // Erring on the side of caution, we will also flatten the keepManager in this case val flatDomains = Set(flatManagers.flatMap(_.fifoId):_*) // => ID 0 val keepDomains = Set(keepManagers.flatMap(_.fifoId):_*) -- flatDomains // => IDs compacted // Calculate what the FIFO domains look like after the fixer is applied val flatMap = flatDomains.map { x => (x, 0) }.toMap val keepMap = keepDomains.scanLeft((-1,0)) { case ((_,s),x) => (x, s+1) }.toMap val map = flatMap ++ keepMap val fixMap = seq.map { m => m.fifoId match { case None => if (policy(m)) Some(0) else None case Some(id) => Some(map(id)) // also flattens some who did not ask } } // Compress the FIFO domain space of those we are combining val reMap = flatDomains.scanLeft((-1,-1)) { case ((_,s),x) => (x, s+1) }.toMap val splatMap = seq.map { m => m.fifoId match { case None => None case Some(id) => reMap.lift(id) } } (fixMap, splatMap) } val node = new AdapterNode(TLImp)( { cp => cp }, { mp => val (fixMap, _) = fifoMap(mp.managers) mp.v1copy(managers = (fixMap zip mp.managers) map { case (id, m) => m.v1copy(fifoId = id) }) }) with TLFormatNode { override def circuitIdentity = edges.in.map(_.client.clients.filter(c => c.requestFifo && c.sourceId.size > 1).size).sum == 0 } lazy val module = new Impl class Impl extends LazyModuleImp(this) { (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => val (fixMap, splatMap) = fifoMap(edgeOut.manager.managers) // Do we need to serialize the request to this manager? val a_notFIFO = edgeIn.manager.fastProperty(in.a.bits.address, _.fifoId != Some(0), (b:Boolean) => b.B) // Compact the IDs of the cases we serialize val compacted = ((fixMap zip splatMap) zip edgeOut.manager.managers) flatMap { case ((f, s), m) => if (f == Some(0)) Some(m.v1copy(fifoId = s)) else None } val sinks = if (compacted.exists(_.supportsAcquireB)) edgeOut.manager.endSinkId else 0 val a_id = if (compacted.isEmpty) 0.U else edgeOut.manager.v1copy(managers = compacted, endSinkId = sinks).findFifoIdFast(in.a.bits.address) val a_noDomain = a_id === 0.U if (false) { println(s"FIFOFixer for: ${edgeIn.client.clients.map(_.name).mkString(", ")}") println(s"make FIFO: ${edgeIn.manager.managers.filter(_.fifoId==Some(0)).map(_.name).mkString(", ")}") println(s"not FIFO: ${edgeIn.manager.managers.filter(_.fifoId!=Some(0)).map(_.name).mkString(", ")}") println(s"domains: ${compacted.groupBy(_.name).mapValues(_.map(_.fifoId))}") println("") } // Count beats val a_first = edgeIn.first(in.a) val d_first = edgeOut.first(out.d) && out.d.bits.opcode =/= TLMessages.ReleaseAck // Keep one bit for each source recording if there is an outstanding request that must be made FIFO // Sources unused in the stall signal calculation should be pruned by DCE val flight = RegInit(VecInit(Seq.fill(edgeIn.client.endSourceId) { false.B })) when (a_first && in.a.fire) { flight(in.a.bits.source) := !a_notFIFO } when (d_first && in.d.fire) { flight(in.d.bits.source) := false.B } val stalls = edgeIn.client.clients.filter(c => c.requestFifo && c.sourceId.size > 1).map { c => val a_sel = c.sourceId.contains(in.a.bits.source) val id = RegEnable(a_id, in.a.fire && a_sel && !a_notFIFO) val track = flight.slice(c.sourceId.start, c.sourceId.end) a_sel && a_first && track.reduce(_ || _) && (a_noDomain || id =/= a_id) } val stall = stalls.foldLeft(false.B)(_||_) out.a <> in.a in.d <> out.d out.a.valid := in.a.valid && (a_notFIFO || !stall) in.a.ready := out.a.ready && (a_notFIFO || !stall) if (edgeOut.manager.anySupportAcquireB && edgeOut.client.anySupportProbe) { in .b <> out.b out.c <> in .c out.e <> in .e } else { in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } //Functional cover properties property.cover(in.a.valid && stall, "COVER FIFOFIXER STALL", "Cover: Stall occured for a valid transaction") val SourceIdFIFOed = RegInit(0.U(edgeIn.client.endSourceId.W)) val SourceIdSet = WireDefault(0.U(edgeIn.client.endSourceId.W)) val SourceIdClear = WireDefault(0.U(edgeIn.client.endSourceId.W)) when (a_first && in.a.fire && !a_notFIFO) { SourceIdSet := UIntToOH(in.a.bits.source) } when (d_first && in.d.fire) { SourceIdClear := UIntToOH(in.d.bits.source) } SourceIdFIFOed := SourceIdFIFOed | SourceIdSet val allIDs_FIFOed = SourceIdFIFOed===Fill(SourceIdFIFOed.getWidth, 1.U) property.cover(allIDs_FIFOed, "COVER all sources", "Cover: FIFOFIXER covers all Source IDs") //property.cover(flight.reduce(_ && _), "COVER full", "Cover: FIFO is full with all Source IDs") property.cover(!(flight.reduce(_ || _)), "COVER empty", "Cover: FIFO is empty") property.cover(SourceIdSet > 0.U, "COVER at least one push", "Cover: At least one Source ID is pushed") property.cover(SourceIdClear > 0.U, "COVER at least one pop", "Cover: At least one Source ID is popped") } } } object TLFIFOFixer { // Which slaves should have their FIFOness combined? // NOTE: this transformation is still only applied for masters with requestFifo type Policy = TLSlaveParameters => Boolean import RegionType._ val all: Policy = m => true val allFIFO: Policy = m => m.fifoId.isDefined val allVolatile: Policy = m => m.regionType <= VOLATILE def apply(policy: Policy = all)(implicit p: Parameters): TLNode = { val fixer = LazyModule(new TLFIFOFixer(policy)) fixer.node } } File ClockDomain.scala: package freechips.rocketchip.prci import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ abstract class Domain(implicit p: Parameters) extends LazyModule with HasDomainCrossing { def clockBundle: ClockBundle lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { childClock := clockBundle.clock childReset := clockBundle.reset override def provideImplicitClockToLazyChildren = true // these are just for backwards compatibility with external devices // that were manually wiring themselves to the domain's clock/reset input: val clock = IO(Output(chiselTypeOf(clockBundle.clock))) val reset = IO(Output(chiselTypeOf(clockBundle.reset))) clock := clockBundle.clock reset := clockBundle.reset } } abstract class ClockDomain(implicit p: Parameters) extends Domain with HasClockDomainCrossing class ClockSinkDomain(val clockSinkParams: ClockSinkParameters)(implicit p: Parameters) extends ClockDomain { def this(take: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSinkParameters(take = take, name = name)) val clockNode = ClockSinkNode(Seq(clockSinkParams)) def clockBundle = clockNode.in.head._1 override lazy val desiredName = (clockSinkParams.name.toSeq :+ "ClockSinkDomain").mkString } class ClockSourceDomain(val clockSourceParams: ClockSourceParameters)(implicit p: Parameters) extends ClockDomain { def this(give: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSourceParameters(give = give, name = name)) val clockNode = ClockSourceNode(Seq(clockSourceParams)) def clockBundle = clockNode.out.head._1 override lazy val desiredName = (clockSourceParams.name.toSeq :+ "ClockSourceDomain").mkString } abstract class ResetDomain(implicit p: Parameters) extends Domain with HasResetDomainCrossing File ClockGroup.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.prci import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.lazymodule._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.resources.FixedClockResource case class ClockGroupingNode(groupName: String)(implicit valName: ValName) extends MixedNexusNode(ClockGroupImp, ClockImp)( dFn = { _ => ClockSourceParameters() }, uFn = { seq => ClockGroupSinkParameters(name = groupName, members = seq) }) { override def circuitIdentity = outputs.size == 1 } class ClockGroup(groupName: String)(implicit p: Parameters) extends LazyModule { val node = ClockGroupingNode(groupName) lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { val (in, _) = node.in(0) val (out, _) = node.out.unzip require (node.in.size == 1) require (in.member.size == out.size) (in.member.data zip out) foreach { case (i, o) => o := i } } } object ClockGroup { def apply()(implicit p: Parameters, valName: ValName) = LazyModule(new ClockGroup(valName.name)).node } case class ClockGroupAggregateNode(groupName: String)(implicit valName: ValName) extends NexusNode(ClockGroupImp)( dFn = { _ => ClockGroupSourceParameters() }, uFn = { seq => ClockGroupSinkParameters(name = groupName, members = seq.flatMap(_.members))}) { override def circuitIdentity = outputs.size == 1 } class ClockGroupAggregator(groupName: String)(implicit p: Parameters) extends LazyModule { val node = ClockGroupAggregateNode(groupName) override lazy val desiredName = s"ClockGroupAggregator_$groupName" lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { val (in, _) = node.in.unzip val (out, _) = node.out.unzip val outputs = out.flatMap(_.member.data) require (node.in.size == 1, s"Aggregator for groupName: ${groupName} had ${node.in.size} inward edges instead of 1") require (in.head.member.size == outputs.size) in.head.member.data.zip(outputs).foreach { case (i, o) => o := i } } } object ClockGroupAggregator { def apply()(implicit p: Parameters, valName: ValName) = LazyModule(new ClockGroupAggregator(valName.name)).node } class SimpleClockGroupSource(numSources: Int = 1)(implicit p: Parameters) extends LazyModule { val node = ClockGroupSourceNode(List.fill(numSources) { ClockGroupSourceParameters() }) lazy val module = new Impl class Impl extends LazyModuleImp(this) { val (out, _) = node.out.unzip out.map { out: ClockGroupBundle => out.member.data.foreach { o => o.clock := clock; o.reset := reset } } } } object SimpleClockGroupSource { def apply(num: Int = 1)(implicit p: Parameters, valName: ValName) = LazyModule(new SimpleClockGroupSource(num)).node } case class FixedClockBroadcastNode(fixedClockOpt: Option[ClockParameters])(implicit valName: ValName) extends NexusNode(ClockImp)( dFn = { seq => fixedClockOpt.map(_ => ClockSourceParameters(give = fixedClockOpt)).orElse(seq.headOption).getOrElse(ClockSourceParameters()) }, uFn = { seq => fixedClockOpt.map(_ => ClockSinkParameters(take = fixedClockOpt)).orElse(seq.headOption).getOrElse(ClockSinkParameters()) }, inputRequiresOutput = false) { def fixedClockResources(name: String, prefix: String = "soc/"): Seq[Option[FixedClockResource]] = Seq(fixedClockOpt.map(t => new FixedClockResource(name, t.freqMHz, prefix))) } class FixedClockBroadcast(fixedClockOpt: Option[ClockParameters])(implicit p: Parameters) extends LazyModule { val node = new FixedClockBroadcastNode(fixedClockOpt) { override def circuitIdentity = outputs.size == 1 } lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { val (in, _) = node.in(0) val (out, _) = node.out.unzip override def desiredName = s"FixedClockBroadcast_${out.size}" require (node.in.size == 1, "FixedClockBroadcast can only broadcast a single clock") out.foreach { _ := in } } } object FixedClockBroadcast { def apply(fixedClockOpt: Option[ClockParameters] = None)(implicit p: Parameters, valName: ValName) = LazyModule(new FixedClockBroadcast(fixedClockOpt)).node } case class PRCIClockGroupNode()(implicit valName: ValName) extends NexusNode(ClockGroupImp)( dFn = { _ => ClockGroupSourceParameters() }, uFn = { _ => ClockGroupSinkParameters("prci", Nil) }, outputRequiresInput = false) File WidthWidget.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.AddressSet import freechips.rocketchip.util.{Repeater, UIntToOH1} // innBeatBytes => the new client-facing bus width class TLWidthWidget(innerBeatBytes: Int)(implicit p: Parameters) extends LazyModule { private def noChangeRequired(manager: TLManagerPortParameters) = manager.beatBytes == innerBeatBytes val node = new TLAdapterNode( clientFn = { case c => c }, managerFn = { case m => m.v1copy(beatBytes = innerBeatBytes) }){ override def circuitIdentity = edges.out.map(_.manager).forall(noChangeRequired) } override lazy val desiredName = s"TLWidthWidget$innerBeatBytes" lazy val module = new Impl class Impl extends LazyModuleImp(this) { def merge[T <: TLDataChannel](edgeIn: TLEdge, in: DecoupledIO[T], edgeOut: TLEdge, out: DecoupledIO[T]) = { val inBytes = edgeIn.manager.beatBytes val outBytes = edgeOut.manager.beatBytes val ratio = outBytes / inBytes val keepBits = log2Ceil(outBytes) val dropBits = log2Ceil(inBytes) val countBits = log2Ceil(ratio) val size = edgeIn.size(in.bits) val hasData = edgeIn.hasData(in.bits) val limit = UIntToOH1(size, keepBits) >> dropBits val count = RegInit(0.U(countBits.W)) val first = count === 0.U val last = count === limit || !hasData val enable = Seq.tabulate(ratio) { i => !((count ^ i.U) & limit).orR } val corrupt_reg = RegInit(false.B) val corrupt_in = edgeIn.corrupt(in.bits) val corrupt_out = corrupt_in || corrupt_reg when (in.fire) { count := count + 1.U corrupt_reg := corrupt_out when (last) { count := 0.U corrupt_reg := false.B } } def helper(idata: UInt): UInt = { // rdata is X until the first time a multi-beat write occurs. // Prevent the X from leaking outside by jamming the mux control until // the first time rdata is written (and hence no longer X). val rdata_written_once = RegInit(false.B) val masked_enable = enable.map(_ || !rdata_written_once) val odata = Seq.fill(ratio) { WireInit(idata) } val rdata = Reg(Vec(ratio-1, chiselTypeOf(idata))) val pdata = rdata :+ idata val mdata = (masked_enable zip (odata zip pdata)) map { case (e, (o, p)) => Mux(e, o, p) } when (in.fire && !last) { rdata_written_once := true.B (rdata zip mdata) foreach { case (r, m) => r := m } } Cat(mdata.reverse) } in.ready := out.ready || !last out.valid := in.valid && last out.bits := in.bits // Don't put down hardware if we never carry data edgeOut.data(out.bits) := (if (edgeIn.staticHasData(in.bits) == Some(false)) 0.U else helper(edgeIn.data(in.bits))) edgeOut.corrupt(out.bits) := corrupt_out (out.bits, in.bits) match { case (o: TLBundleA, i: TLBundleA) => o.mask := edgeOut.mask(o.address, o.size) & Mux(hasData, helper(i.mask), ~0.U(outBytes.W)) case (o: TLBundleB, i: TLBundleB) => o.mask := edgeOut.mask(o.address, o.size) & Mux(hasData, helper(i.mask), ~0.U(outBytes.W)) case (o: TLBundleC, i: TLBundleC) => () case (o: TLBundleD, i: TLBundleD) => () case _ => require(false, "Impossible bundle combination in WidthWidget") } } def split[T <: TLDataChannel](edgeIn: TLEdge, in: DecoupledIO[T], edgeOut: TLEdge, out: DecoupledIO[T], sourceMap: UInt => UInt) = { val inBytes = edgeIn.manager.beatBytes val outBytes = edgeOut.manager.beatBytes val ratio = inBytes / outBytes val keepBits = log2Ceil(inBytes) val dropBits = log2Ceil(outBytes) val countBits = log2Ceil(ratio) val size = edgeIn.size(in.bits) val hasData = edgeIn.hasData(in.bits) val limit = UIntToOH1(size, keepBits) >> dropBits val count = RegInit(0.U(countBits.W)) val first = count === 0.U val last = count === limit || !hasData when (out.fire) { count := count + 1.U when (last) { count := 0.U } } // For sub-beat transfer, extract which part matters val sel = in.bits match { case a: TLBundleA => a.address(keepBits-1, dropBits) case b: TLBundleB => b.address(keepBits-1, dropBits) case c: TLBundleC => c.address(keepBits-1, dropBits) case d: TLBundleD => { val sel = sourceMap(d.source) val hold = Mux(first, sel, RegEnable(sel, first)) // a_first is not for whole xfer hold & ~limit // if more than one a_first/xfer, the address must be aligned anyway } } val index = sel | count def helper(idata: UInt, width: Int): UInt = { val mux = VecInit.tabulate(ratio) { i => idata((i+1)*outBytes*width-1, i*outBytes*width) } mux(index) } out.bits := in.bits out.valid := in.valid in.ready := out.ready // Don't put down hardware if we never carry data edgeOut.data(out.bits) := (if (edgeIn.staticHasData(in.bits) == Some(false)) 0.U else helper(edgeIn.data(in.bits), 8)) (out.bits, in.bits) match { case (o: TLBundleA, i: TLBundleA) => o.mask := helper(i.mask, 1) case (o: TLBundleB, i: TLBundleB) => o.mask := helper(i.mask, 1) case (o: TLBundleC, i: TLBundleC) => () // replicating corrupt to all beats is ok case (o: TLBundleD, i: TLBundleD) => () case _ => require(false, "Impossbile bundle combination in WidthWidget") } // Repeat the input if we're not last !last } def splice[T <: TLDataChannel](edgeIn: TLEdge, in: DecoupledIO[T], edgeOut: TLEdge, out: DecoupledIO[T], sourceMap: UInt => UInt) = { if (edgeIn.manager.beatBytes == edgeOut.manager.beatBytes) { // nothing to do; pass it through out.bits := in.bits out.valid := in.valid in.ready := out.ready } else if (edgeIn.manager.beatBytes > edgeOut.manager.beatBytes) { // split input to output val repeat = Wire(Bool()) val repeated = Repeater(in, repeat) val cated = Wire(chiselTypeOf(repeated)) cated <> repeated edgeIn.data(cated.bits) := Cat( edgeIn.data(repeated.bits)(edgeIn.manager.beatBytes*8-1, edgeOut.manager.beatBytes*8), edgeIn.data(in.bits)(edgeOut.manager.beatBytes*8-1, 0)) repeat := split(edgeIn, cated, edgeOut, out, sourceMap) } else { // merge input to output merge(edgeIn, in, edgeOut, out) } } (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => // If the master is narrower than the slave, the D channel must be narrowed. // This is tricky, because the D channel has no address data. // Thus, you don't know which part of a sub-beat transfer to extract. // To fix this, we record the relevant address bits for all sources. // The assumption is that this sort of situation happens only where // you connect a narrow master to the system bus, so there are few sources. def sourceMap(source_bits: UInt) = { val source = if (edgeIn.client.endSourceId == 1) 0.U(0.W) else source_bits require (edgeOut.manager.beatBytes > edgeIn.manager.beatBytes) val keepBits = log2Ceil(edgeOut.manager.beatBytes) val dropBits = log2Ceil(edgeIn.manager.beatBytes) val sources = Reg(Vec(edgeIn.client.endSourceId, UInt((keepBits-dropBits).W))) val a_sel = in.a.bits.address(keepBits-1, dropBits) when (in.a.fire) { if (edgeIn.client.endSourceId == 1) { // avoid extraction-index-width warning sources(0) := a_sel } else { sources(in.a.bits.source) := a_sel } } // depopulate unused source registers: edgeIn.client.unusedSources.foreach { id => sources(id) := 0.U } val bypass = in.a.valid && in.a.bits.source === source if (edgeIn.manager.minLatency > 0) sources(source) else Mux(bypass, a_sel, sources(source)) } splice(edgeIn, in.a, edgeOut, out.a, sourceMap) splice(edgeOut, out.d, edgeIn, in.d, sourceMap) if (edgeOut.manager.anySupportAcquireB && edgeIn.client.anySupportProbe) { splice(edgeOut, out.b, edgeIn, in.b, sourceMap) splice(edgeIn, in.c, edgeOut, out.c, sourceMap) out.e.valid := in.e.valid out.e.bits := in.e.bits in.e.ready := out.e.ready } else { in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } } } } object TLWidthWidget { def apply(innerBeatBytes: Int)(implicit p: Parameters): TLNode = { val widget = LazyModule(new TLWidthWidget(innerBeatBytes)) widget.node } def apply(wrapper: TLBusWrapper)(implicit p: Parameters): TLNode = apply(wrapper.beatBytes) } // Synthesizable unit tests import freechips.rocketchip.unittest._ class TLRAMWidthWidget(first: Int, second: Int, txns: Int)(implicit p: Parameters) extends LazyModule { val fuzz = LazyModule(new TLFuzzer(txns)) val model = LazyModule(new TLRAMModel("WidthWidget")) val ram = LazyModule(new TLRAM(AddressSet(0x0, 0x3ff))) (ram.node := TLDelayer(0.1) := TLFragmenter(4, 256) := TLWidthWidget(second) := TLWidthWidget(first) := TLDelayer(0.1) := model.node := fuzz.node) lazy val module = new Impl class Impl extends LazyModuleImp(this) with UnitTestModule { io.finished := fuzz.module.io.finished } } class TLRAMWidthWidgetTest(little: Int, big: Int, txns: Int = 5000, timeout: Int = 500000)(implicit p: Parameters) extends UnitTest(timeout) { val dut = Module(LazyModule(new TLRAMWidthWidget(little,big,txns)).module) dut.io.start := DontCare io.finished := dut.io.finished } File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.diplomacy import chisel3._ import chisel3.util.{DecoupledIO, Queue, ReadyValidIO, isPow2, log2Ceil, log2Floor} import freechips.rocketchip.util.ShiftQueue /** Options for describing the attributes of memory regions */ object RegionType { // Define the 'more relaxed than' ordering val cases = Seq(CACHED, TRACKED, UNCACHED, IDEMPOTENT, VOLATILE, PUT_EFFECTS, GET_EFFECTS) sealed trait T extends Ordered[T] { def compare(that: T): Int = cases.indexOf(that) compare cases.indexOf(this) } case object CACHED extends T // an intermediate agent may have cached a copy of the region for you case object TRACKED extends T // the region may have been cached by another master, but coherence is being provided case object UNCACHED extends T // the region has not been cached yet, but should be cached when possible case object IDEMPOTENT extends T // gets return most recently put content, but content should not be cached case object VOLATILE extends T // content may change without a put, but puts and gets have no side effects case object PUT_EFFECTS extends T // puts produce side effects and so must not be combined/delayed case object GET_EFFECTS extends T // gets produce side effects and so must not be issued speculatively } // A non-empty half-open range; [start, end) case class IdRange(start: Int, end: Int) extends Ordered[IdRange] { require (start >= 0, s"Ids cannot be negative, but got: $start.") require (start <= end, "Id ranges cannot be negative.") def compare(x: IdRange) = { val primary = (this.start - x.start).signum val secondary = (x.end - this.end).signum if (primary != 0) primary else secondary } def overlaps(x: IdRange) = start < x.end && x.start < end def contains(x: IdRange) = start <= x.start && x.end <= end def contains(x: Int) = start <= x && x < end def contains(x: UInt) = if (size == 0) { false.B } else if (size == 1) { // simple comparison x === start.U } else { // find index of largest different bit val largestDeltaBit = log2Floor(start ^ (end-1)) val smallestCommonBit = largestDeltaBit + 1 // may not exist in x val uncommonMask = (1 << smallestCommonBit) - 1 val uncommonBits = (x | 0.U(smallestCommonBit.W))(largestDeltaBit, 0) // the prefix must match exactly (note: may shift ALL bits away) (x >> smallestCommonBit) === (start >> smallestCommonBit).U && // firrtl constant prop range analysis can eliminate these two: (start & uncommonMask).U <= uncommonBits && uncommonBits <= ((end-1) & uncommonMask).U } def shift(x: Int) = IdRange(start+x, end+x) def size = end - start def isEmpty = end == start def range = start until end } object IdRange { def overlaps(s: Seq[IdRange]) = if (s.isEmpty) None else { val ranges = s.sorted (ranges.tail zip ranges.init) find { case (a, b) => a overlaps b } } } // An potentially empty inclusive range of 2-powers [min, max] (in bytes) case class TransferSizes(min: Int, max: Int) { def this(x: Int) = this(x, x) require (min <= max, s"Min transfer $min > max transfer $max") require (min >= 0 && max >= 0, s"TransferSizes must be positive, got: ($min, $max)") require (max == 0 || isPow2(max), s"TransferSizes must be a power of 2, got: $max") require (min == 0 || isPow2(min), s"TransferSizes must be a power of 2, got: $min") require (max == 0 || min != 0, s"TransferSize 0 is forbidden unless (0,0), got: ($min, $max)") def none = min == 0 def contains(x: Int) = isPow2(x) && min <= x && x <= max def containsLg(x: Int) = contains(1 << x) def containsLg(x: UInt) = if (none) false.B else if (min == max) { log2Ceil(min).U === x } else { log2Ceil(min).U <= x && x <= log2Ceil(max).U } def contains(x: TransferSizes) = x.none || (min <= x.min && x.max <= max) def intersect(x: TransferSizes) = if (x.max < min || max < x.min) TransferSizes.none else TransferSizes(scala.math.max(min, x.min), scala.math.min(max, x.max)) // Not a union, because the result may contain sizes contained by neither term // NOT TO BE CONFUSED WITH COVERPOINTS def mincover(x: TransferSizes) = { if (none) { x } else if (x.none) { this } else { TransferSizes(scala.math.min(min, x.min), scala.math.max(max, x.max)) } } override def toString() = "TransferSizes[%d, %d]".format(min, max) } object TransferSizes { def apply(x: Int) = new TransferSizes(x) val none = new TransferSizes(0) def mincover(seq: Seq[TransferSizes]) = seq.foldLeft(none)(_ mincover _) def intersect(seq: Seq[TransferSizes]) = seq.reduce(_ intersect _) implicit def asBool(x: TransferSizes) = !x.none } // AddressSets specify the address space managed by the manager // Base is the base address, and mask are the bits consumed by the manager // e.g: base=0x200, mask=0xff describes a device managing 0x200-0x2ff // e.g: base=0x1000, mask=0xf0f decribes a device managing 0x1000-0x100f, 0x1100-0x110f, ... case class AddressSet(base: BigInt, mask: BigInt) extends Ordered[AddressSet] { // Forbid misaligned base address (and empty sets) require ((base & mask) == 0, s"Mis-aligned AddressSets are forbidden, got: ${this.toString}") require (base >= 0, s"AddressSet negative base is ambiguous: $base") // TL2 address widths are not fixed => negative is ambiguous // We do allow negative mask (=> ignore all high bits) def contains(x: BigInt) = ((x ^ base) & ~mask) == 0 def contains(x: UInt) = ((x ^ base.U).zext & (~mask).S) === 0.S // turn x into an address contained in this set def legalize(x: UInt): UInt = base.U | (mask.U & x) // overlap iff bitwise: both care (~mask0 & ~mask1) => both equal (base0=base1) def overlaps(x: AddressSet) = (~(mask | x.mask) & (base ^ x.base)) == 0 // contains iff bitwise: x.mask => mask && contains(x.base) def contains(x: AddressSet) = ((x.mask | (base ^ x.base)) & ~mask) == 0 // The number of bytes to which the manager must be aligned def alignment = ((mask + 1) & ~mask) // Is this a contiguous memory range def contiguous = alignment == mask+1 def finite = mask >= 0 def max = { require (finite, "Max cannot be calculated on infinite mask"); base | mask } // Widen the match function to ignore all bits in imask def widen(imask: BigInt) = AddressSet(base & ~imask, mask | imask) // Return an AddressSet that only contains the addresses both sets contain def intersect(x: AddressSet): Option[AddressSet] = { if (!overlaps(x)) { None } else { val r_mask = mask & x.mask val r_base = base | x.base Some(AddressSet(r_base, r_mask)) } } def subtract(x: AddressSet): Seq[AddressSet] = { intersect(x) match { case None => Seq(this) case Some(remove) => AddressSet.enumerateBits(mask & ~remove.mask).map { bit => val nmask = (mask & (bit-1)) | remove.mask val nbase = (remove.base ^ bit) & ~nmask AddressSet(nbase, nmask) } } } // AddressSets have one natural Ordering (the containment order, if contiguous) def compare(x: AddressSet) = { val primary = (this.base - x.base).signum // smallest address first val secondary = (x.mask - this.mask).signum // largest mask first if (primary != 0) primary else secondary } // We always want to see things in hex override def toString() = { if (mask >= 0) { "AddressSet(0x%x, 0x%x)".format(base, mask) } else { "AddressSet(0x%x, ~0x%x)".format(base, ~mask) } } def toRanges = { require (finite, "Ranges cannot be calculated on infinite mask") val size = alignment val fragments = mask & ~(size-1) val bits = bitIndexes(fragments) (BigInt(0) until (BigInt(1) << bits.size)).map { i => val off = bitIndexes(i).foldLeft(base) { case (a, b) => a.setBit(bits(b)) } AddressRange(off, size) } } } object AddressSet { val everything = AddressSet(0, -1) def misaligned(base: BigInt, size: BigInt, tail: Seq[AddressSet] = Seq()): Seq[AddressSet] = { if (size == 0) tail.reverse else { val maxBaseAlignment = base & (-base) // 0 for infinite (LSB) val maxSizeAlignment = BigInt(1) << log2Floor(size) // MSB of size val step = if (maxBaseAlignment == 0 || maxBaseAlignment > maxSizeAlignment) maxSizeAlignment else maxBaseAlignment misaligned(base+step, size-step, AddressSet(base, step-1) +: tail) } } def unify(seq: Seq[AddressSet], bit: BigInt): Seq[AddressSet] = { // Pair terms up by ignoring 'bit' seq.distinct.groupBy(x => x.copy(base = x.base & ~bit)).map { case (key, seq) => if (seq.size == 1) { seq.head // singleton -> unaffected } else { key.copy(mask = key.mask | bit) // pair - widen mask by bit } }.toList } def unify(seq: Seq[AddressSet]): Seq[AddressSet] = { val bits = seq.map(_.base).foldLeft(BigInt(0))(_ | _) AddressSet.enumerateBits(bits).foldLeft(seq) { case (acc, bit) => unify(acc, bit) }.sorted } def enumerateMask(mask: BigInt): Seq[BigInt] = { def helper(id: BigInt, tail: Seq[BigInt]): Seq[BigInt] = if (id == mask) (id +: tail).reverse else helper(((~mask | id) + 1) & mask, id +: tail) helper(0, Nil) } def enumerateBits(mask: BigInt): Seq[BigInt] = { def helper(x: BigInt): Seq[BigInt] = { if (x == 0) { Nil } else { val bit = x & (-x) bit +: helper(x & ~bit) } } helper(mask) } } case class BufferParams(depth: Int, flow: Boolean, pipe: Boolean) { require (depth >= 0, "Buffer depth must be >= 0") def isDefined = depth > 0 def latency = if (isDefined && !flow) 1 else 0 def apply[T <: Data](x: DecoupledIO[T]) = if (isDefined) Queue(x, depth, flow=flow, pipe=pipe) else x def irrevocable[T <: Data](x: ReadyValidIO[T]) = if (isDefined) Queue.irrevocable(x, depth, flow=flow, pipe=pipe) else x def sq[T <: Data](x: DecoupledIO[T]) = if (!isDefined) x else { val sq = Module(new ShiftQueue(x.bits, depth, flow=flow, pipe=pipe)) sq.io.enq <> x sq.io.deq } override def toString() = "BufferParams:%d%s%s".format(depth, if (flow) "F" else "", if (pipe) "P" else "") } object BufferParams { implicit def apply(depth: Int): BufferParams = BufferParams(depth, false, false) val default = BufferParams(2) val none = BufferParams(0) val flow = BufferParams(1, true, false) val pipe = BufferParams(1, false, true) } case class TriStateValue(value: Boolean, set: Boolean) { def update(orig: Boolean) = if (set) value else orig } object TriStateValue { implicit def apply(value: Boolean): TriStateValue = TriStateValue(value, true) def unset = TriStateValue(false, false) } trait DirectedBuffers[T] { def copyIn(x: BufferParams): T def copyOut(x: BufferParams): T def copyInOut(x: BufferParams): T } trait IdMapEntry { def name: String def from: IdRange def to: IdRange def isCache: Boolean def requestFifo: Boolean def maxTransactionsInFlight: Option[Int] def pretty(fmt: String) = if (from ne to) { // if the subclass uses the same reference for both from and to, assume its format string has an arity of 5 fmt.format(to.start, to.end, from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } else { fmt.format(from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } } abstract class IdMap[T <: IdMapEntry] { protected val fmt: String val mapping: Seq[T] def pretty: String = mapping.map(_.pretty(fmt)).mkString(",\n") } File MixedNode.scala: package org.chipsalliance.diplomacy.nodes import chisel3.{Data, DontCare, Wire} import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.{Field, Parameters} import org.chipsalliance.diplomacy.ValName import org.chipsalliance.diplomacy.sourceLine /** One side metadata of a [[Dangle]]. * * Describes one side of an edge going into or out of a [[BaseNode]]. * * @param serial * the global [[BaseNode.serial]] number of the [[BaseNode]] that this [[HalfEdge]] connects to. * @param index * the `index` in the [[BaseNode]]'s input or output port list that this [[HalfEdge]] belongs to. */ case class HalfEdge(serial: Int, index: Int) extends Ordered[HalfEdge] { import scala.math.Ordered.orderingToOrdered def compare(that: HalfEdge): Int = HalfEdge.unapply(this).compare(HalfEdge.unapply(that)) } /** [[Dangle]] captures the `IO` information of a [[LazyModule]] and which two [[BaseNode]]s the [[Edges]]/[[Bundle]] * connects. * * [[Dangle]]s are generated by [[BaseNode.instantiate]] using [[MixedNode.danglesOut]] and [[MixedNode.danglesIn]] , * [[LazyModuleImp.instantiate]] connects those that go to internal or explicit IO connections in a [[LazyModule]]. * * @param source * the source [[HalfEdge]] of this [[Dangle]], which captures the source [[BaseNode]] and the port `index` within * that [[BaseNode]]. * @param sink * sink [[HalfEdge]] of this [[Dangle]], which captures the sink [[BaseNode]] and the port `index` within that * [[BaseNode]]. * @param flipped * flip or not in [[AutoBundle.makeElements]]. If true this corresponds to `danglesOut`, if false it corresponds to * `danglesIn`. * @param dataOpt * actual [[Data]] for the hardware connection. Can be empty if this belongs to a cloned module */ case class Dangle(source: HalfEdge, sink: HalfEdge, flipped: Boolean, name: String, dataOpt: Option[Data]) { def data = dataOpt.get } /** [[Edges]] is a collection of parameters describing the functionality and connection for an interface, which is often * derived from the interconnection protocol and can inform the parameterization of the hardware bundles that actually * implement the protocol. */ case class Edges[EI, EO](in: Seq[EI], out: Seq[EO]) /** A field available in [[Parameters]] used to determine whether [[InwardNodeImp.monitor]] will be called. */ case object MonitorsEnabled extends Field[Boolean](true) /** When rendering the edge in a graphical format, flip the order in which the edges' source and sink are presented. * * For example, when rendering graphML, yEd by default tries to put the source node vertically above the sink node, but * [[RenderFlipped]] inverts this relationship. When a particular [[LazyModule]] contains both source nodes and sink * nodes, flipping the rendering of one node's edge will usual produce a more concise visual layout for the * [[LazyModule]]. */ case object RenderFlipped extends Field[Boolean](false) /** The sealed node class in the package, all node are derived from it. * * @param inner * Sink interface implementation. * @param outer * Source interface implementation. * @param valName * val name of this node. * @tparam DI * Downward-flowing parameters received on the inner side of the node. It is usually a brunch of parameters * describing the protocol parameters from a source. For an [[InwardNode]], it is determined by the connected * [[OutwardNode]]. Since it can be connected to multiple sources, this parameter is always a Seq of source port * parameters. * @tparam UI * Upward-flowing parameters generated by the inner side of the node. It is usually a brunch of parameters describing * the protocol parameters of a sink. For an [[InwardNode]], it is determined itself. * @tparam EI * Edge Parameters describing a connection on the inner side of the node. It is usually a brunch of transfers * specified for a sink according to protocol. * @tparam BI * Bundle type used when connecting to the inner side of the node. It is a hardware interface of this sink interface. * It should extends from [[chisel3.Data]], which represents the real hardware. * @tparam DO * Downward-flowing parameters generated on the outer side of the node. It is usually a brunch of parameters * describing the protocol parameters of a source. For an [[OutwardNode]], it is determined itself. * @tparam UO * Upward-flowing parameters received by the outer side of the node. It is usually a brunch of parameters describing * the protocol parameters from a sink. For an [[OutwardNode]], it is determined by the connected [[InwardNode]]. * Since it can be connected to multiple sinks, this parameter is always a Seq of sink port parameters. * @tparam EO * Edge Parameters describing a connection on the outer side of the node. It is usually a brunch of transfers * specified for a source according to protocol. * @tparam BO * Bundle type used when connecting to the outer side of the node. It is a hardware interface of this source * interface. It should extends from [[chisel3.Data]], which represents the real hardware. * * @note * Call Graph of [[MixedNode]] * - line `─`: source is process by a function and generate pass to others * - Arrow `β†’`: target of arrow is generated by source * * {{{ * (from the other node) * β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€[[InwardNode.uiParams]]─────────────┐ * ↓ β”‚ * (binding node when elaboration) [[OutwardNode.uoParams]]────────────────────────[[MixedNode.mapParamsU]]→──────────┐ β”‚ * [[InwardNode.accPI]] β”‚ β”‚ β”‚ * β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ ↓ β”‚ * ↓ β”‚ β”‚ β”‚ * (immobilize after elaboration) (inward port from [[OutwardNode]]) β”‚ ↓ β”‚ * [[InwardNode.iBindings]]──┐ [[MixedNode.iDirectPorts]]────────────────────→[[MixedNode.iPorts]] [[InwardNode.uiParams]] β”‚ * β”‚ β”‚ ↑ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[OutwardNode.doParams]] β”‚ β”‚ * β”‚ β”‚ β”‚ (from the other node) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ └────────┬─────────────── β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ (from the other node) β”‚ ↓ β”‚ * β”‚ └───[[OutwardNode.oPortMapping]] [[OutwardNode.oStar]] β”‚ [[MixedNode.edgesIn]]───┐ β”‚ * β”‚ ↑ ↑ β”‚ β”‚ ↓ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ [[MixedNode.in]] β”‚ * β”‚ β”‚ β”‚ β”‚ ↓ ↑ β”‚ * β”‚ (solve star connection) β”‚ β”‚ β”‚ [[MixedNode.bundleIn]]β”€β”€β”˜ β”‚ * β”œβ”€β”€β”€[[MixedNode.resolveStar]]→─┼────────────────────────────── └────────────────────────────────────┐ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.bundleOut]]─┐ β”‚ β”‚ * β”‚ β”‚ β”‚ ↑ ↓ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.out]] β”‚ β”‚ * β”‚ ↓ ↓ β”‚ ↑ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€[[InwardNode.iPortMapping]] [[InwardNode.iStar]] [[MixedNode.edgesOut]]β”€β”€β”˜ β”‚ β”‚ * β”‚ β”‚ (from the other node) ↑ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.outer.edgeO]] β”‚ β”‚ * β”‚ β”‚ β”‚ (based on protocol) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * (immobilize after elaboration)β”‚ ↓ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.oBindings]]β”€β”˜ [[MixedNode.oDirectPorts]]───→[[MixedNode.oPorts]] [[OutwardNode.doParams]] β”‚ β”‚ * ↑ (inward port from [[OutwardNode]]) β”‚ β”‚ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.accPO]] β”‚ ↓ β”‚ β”‚ β”‚ * (binding node when elaboration) β”‚ [[InwardNode.diParams]]─────→[[MixedNode.mapParamsD]]β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ β”‚ * β”‚ ↑ β”‚ β”‚ * β”‚ β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ * β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ * }}} */ abstract class MixedNode[DI, UI, EI, BI <: Data, DO, UO, EO, BO <: Data]( val inner: InwardNodeImp[DI, UI, EI, BI], val outer: OutwardNodeImp[DO, UO, EO, BO] )( implicit valName: ValName) extends BaseNode with NodeHandle[DI, UI, EI, BI, DO, UO, EO, BO] with InwardNode[DI, UI, BI] with OutwardNode[DO, UO, BO] { // Generate a [[NodeHandle]] with inward and outward node are both this node. val inward = this val outward = this /** Debug info of nodes binding. */ def bindingInfo: String = s"""$iBindingInfo |$oBindingInfo |""".stripMargin /** Debug info of ports connecting. */ def connectedPortsInfo: String = s"""${oPorts.size} outward ports connected: [${oPorts.map(_._2.name).mkString(",")}] |${iPorts.size} inward ports connected: [${iPorts.map(_._2.name).mkString(",")}] |""".stripMargin /** Debug info of parameters propagations. */ def parametersInfo: String = s"""${doParams.size} downstream outward parameters: [${doParams.mkString(",")}] |${uoParams.size} upstream outward parameters: [${uoParams.mkString(",")}] |${diParams.size} downstream inward parameters: [${diParams.mkString(",")}] |${uiParams.size} upstream inward parameters: [${uiParams.mkString(",")}] |""".stripMargin /** For a given node, converts [[OutwardNode.accPO]] and [[InwardNode.accPI]] to [[MixedNode.oPortMapping]] and * [[MixedNode.iPortMapping]]. * * Given counts of known inward and outward binding and inward and outward star bindings, return the resolved inward * stars and outward stars. * * This method will also validate the arguments and throw a runtime error if the values are unsuitable for this type * of node. * * @param iKnown * Number of known-size ([[BIND_ONCE]]) input bindings. * @param oKnown * Number of known-size ([[BIND_ONCE]]) output bindings. * @param iStar * Number of unknown size ([[BIND_STAR]]) input bindings. * @param oStar * Number of unknown size ([[BIND_STAR]]) output bindings. * @return * A Tuple of the resolved number of input and output connections. */ protected[diplomacy] def resolveStar(iKnown: Int, oKnown: Int, iStar: Int, oStar: Int): (Int, Int) /** Function to generate downward-flowing outward params from the downward-flowing input params and the current output * ports. * * @param n * The size of the output sequence to generate. * @param p * Sequence of downward-flowing input parameters of this node. * @return * A `n`-sized sequence of downward-flowing output edge parameters. */ protected[diplomacy] def mapParamsD(n: Int, p: Seq[DI]): Seq[DO] /** Function to generate upward-flowing input parameters from the upward-flowing output parameters [[uiParams]]. * * @param n * Size of the output sequence. * @param p * Upward-flowing output edge parameters. * @return * A n-sized sequence of upward-flowing input edge parameters. */ protected[diplomacy] def mapParamsU(n: Int, p: Seq[UO]): Seq[UI] /** @return * The sink cardinality of the node, the number of outputs bound with [[BIND_QUERY]] summed with inputs bound with * [[BIND_STAR]]. */ protected[diplomacy] lazy val sinkCard: Int = oBindings.count(_._3 == BIND_QUERY) + iBindings.count(_._3 == BIND_STAR) /** @return * The source cardinality of this node, the number of inputs bound with [[BIND_QUERY]] summed with the number of * output bindings bound with [[BIND_STAR]]. */ protected[diplomacy] lazy val sourceCard: Int = iBindings.count(_._3 == BIND_QUERY) + oBindings.count(_._3 == BIND_STAR) /** @return list of nodes involved in flex bindings with this node. */ protected[diplomacy] lazy val flexes: Seq[BaseNode] = oBindings.filter(_._3 == BIND_FLEX).map(_._2) ++ iBindings.filter(_._3 == BIND_FLEX).map(_._2) /** Resolves the flex to be either source or sink and returns the offset where the [[BIND_STAR]] operators begin * greedily taking up the remaining connections. * * @return * A value >= 0 if it is sink cardinality, a negative value for source cardinality. The magnitude of the return * value is not relevant. */ protected[diplomacy] lazy val flexOffset: Int = { /** Recursively performs a depth-first search of the [[flexes]], [[BaseNode]]s connected to this node with flex * operators. The algorithm bottoms out when we either get to a node we have already visited or when we get to a * connection that is not a flex and can set the direction for us. Otherwise, recurse by visiting the `flexes` of * each node in the current set and decide whether they should be added to the set or not. * * @return * the mapping of [[BaseNode]] indexed by their serial numbers. */ def DFS(v: BaseNode, visited: Map[Int, BaseNode]): Map[Int, BaseNode] = { if (visited.contains(v.serial) || !v.flexibleArityDirection) { visited } else { v.flexes.foldLeft(visited + (v.serial -> v))((sum, n) => DFS(n, sum)) } } /** Determine which [[BaseNode]] are involved in resolving the flex connections to/from this node. * * @example * {{{ * a :*=* b :*=* c * d :*=* b * e :*=* f * }}} * * `flexSet` for `a`, `b`, `c`, or `d` will be `Set(a, b, c, d)` `flexSet` for `e` or `f` will be `Set(e,f)` */ val flexSet = DFS(this, Map()).values /** The total number of :*= operators where we're on the left. */ val allSink = flexSet.map(_.sinkCard).sum /** The total number of :=* operators used when we're on the right. */ val allSource = flexSet.map(_.sourceCard).sum require( allSink == 0 || allSource == 0, s"The nodes ${flexSet.map(_.name)} which are inter-connected by :*=* have ${allSink} :*= operators and ${allSource} :=* operators connected to them, making it impossible to determine cardinality inference direction." ) allSink - allSource } /** @return A value >= 0 if it is sink cardinality, a negative value for source cardinality. */ protected[diplomacy] def edgeArityDirection(n: BaseNode): Int = { if (flexibleArityDirection) flexOffset else if (n.flexibleArityDirection) n.flexOffset else 0 } /** For a node which is connected between two nodes, select the one that will influence the direction of the flex * resolution. */ protected[diplomacy] def edgeAritySelect(n: BaseNode, l: => Int, r: => Int): Int = { val dir = edgeArityDirection(n) if (dir < 0) l else if (dir > 0) r else 1 } /** Ensure that the same node is not visited twice in resolving `:*=`, etc operators. */ private var starCycleGuard = false /** Resolve all the star operators into concrete indicies. As connections are being made, some may be "star" * connections which need to be resolved. In some way to determine how many actual edges they correspond to. We also * need to build up the ranges of edges which correspond to each binding operator, so that We can apply the correct * edge parameters and later build up correct bundle connections. * * [[oPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that oPort (binding * operator). [[iPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that iPort * (binding operator). [[oStar]]: `Int` the value to return for this node `N` for any `N :*= foo` or `N :*=* foo :*= * bar` [[iStar]]: `Int` the value to return for this node `N` for any `foo :=* N` or `bar :=* foo :*=* N` */ protected[diplomacy] lazy val ( oPortMapping: Seq[(Int, Int)], iPortMapping: Seq[(Int, Int)], oStar: Int, iStar: Int ) = { try { if (starCycleGuard) throw StarCycleException() starCycleGuard = true // For a given node N... // Number of foo :=* N // + Number of bar :=* foo :*=* N val oStars = oBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) < 0) } // Number of N :*= foo // + Number of N :*=* foo :*= bar val iStars = iBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) > 0) } // 1 for foo := N // + bar.iStar for bar :*= foo :*=* N // + foo.iStar for foo :*= N // + 0 for foo :=* N val oKnown = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, 0, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => 0 } }.sum // 1 for N := foo // + bar.oStar for N :*=* foo :=* bar // + foo.oStar for N :=* foo // + 0 for N :*= foo val iKnown = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, 0) case BIND_QUERY => n.oStar case BIND_STAR => 0 } }.sum // Resolve star depends on the node subclass to implement the algorithm for this. val (iStar, oStar) = resolveStar(iKnown, oKnown, iStars, oStars) // Cumulative list of resolved outward binding range starting points val oSum = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, oStar, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => oStar } }.scanLeft(0)(_ + _) // Cumulative list of resolved inward binding range starting points val iSum = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, iStar) case BIND_QUERY => n.oStar case BIND_STAR => iStar } }.scanLeft(0)(_ + _) // Create ranges for each binding based on the running sums and return // those along with resolved values for the star operations. (oSum.init.zip(oSum.tail), iSum.init.zip(iSum.tail), oStar, iStar) } catch { case c: StarCycleException => throw c.copy(loop = context +: c.loop) } } /** Sequence of inward ports. * * This should be called after all star bindings are resolved. * * Each element is: `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. * `n` Instance of inward node. `p` View of [[Parameters]] where this connection was made. `s` Source info where this * connection was made in the source code. */ protected[diplomacy] lazy val oDirectPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oBindings.flatMap { case (i, n, _, p, s) => // for each binding operator in this node, look at what it connects to val (start, end) = n.iPortMapping(i) (start until end).map { j => (j, n, p, s) } } /** Sequence of outward ports. * * This should be called after all star bindings are resolved. * * `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. `n` Instance of * outward node. `p` View of [[Parameters]] where this connection was made. `s` [[SourceInfo]] where this connection * was made in the source code. */ protected[diplomacy] lazy val iDirectPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iBindings.flatMap { case (i, n, _, p, s) => // query this port index range of this node in the other side of node. val (start, end) = n.oPortMapping(i) (start until end).map { j => (j, n, p, s) } } // Ephemeral nodes ( which have non-None iForward/oForward) have in_degree = out_degree // Thus, there must exist an Eulerian path and the below algorithms terminate @scala.annotation.tailrec private def oTrace( tuple: (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) ): (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.iForward(i) match { case None => (i, n, p, s) case Some((j, m)) => oTrace((j, m, p, s)) } } @scala.annotation.tailrec private def iTrace( tuple: (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) ): (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.oForward(i) match { case None => (i, n, p, s) case Some((j, m)) => iTrace((j, m, p, s)) } } /** Final output ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - Numeric index of this binding in the [[InwardNode]] on the other end. * - [[InwardNode]] on the other end of this binding. * - A view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val oPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oDirectPorts.map(oTrace) /** Final input ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - numeric index of this binding in [[OutwardNode]] on the other end. * - [[OutwardNode]] on the other end of this binding. * - a view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val iPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iDirectPorts.map(iTrace) private var oParamsCycleGuard = false protected[diplomacy] lazy val diParams: Seq[DI] = iPorts.map { case (i, n, _, _) => n.doParams(i) } protected[diplomacy] lazy val doParams: Seq[DO] = { try { if (oParamsCycleGuard) throw DownwardCycleException() oParamsCycleGuard = true val o = mapParamsD(oPorts.size, diParams) require( o.size == oPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of outward ports should equal the number of produced outward parameters. |$context |$connectedPortsInfo |Downstreamed inward parameters: [${diParams.mkString(",")}] |Produced outward parameters: [${o.mkString(",")}] |""".stripMargin ) o.map(outer.mixO(_, this)) } catch { case c: DownwardCycleException => throw c.copy(loop = context +: c.loop) } } private var iParamsCycleGuard = false protected[diplomacy] lazy val uoParams: Seq[UO] = oPorts.map { case (o, n, _, _) => n.uiParams(o) } protected[diplomacy] lazy val uiParams: Seq[UI] = { try { if (iParamsCycleGuard) throw UpwardCycleException() iParamsCycleGuard = true val i = mapParamsU(iPorts.size, uoParams) require( i.size == iPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of inward ports should equal the number of produced inward parameters. |$context |$connectedPortsInfo |Upstreamed outward parameters: [${uoParams.mkString(",")}] |Produced inward parameters: [${i.mkString(",")}] |""".stripMargin ) i.map(inner.mixI(_, this)) } catch { case c: UpwardCycleException => throw c.copy(loop = context +: c.loop) } } /** Outward edge parameters. */ protected[diplomacy] lazy val edgesOut: Seq[EO] = (oPorts.zip(doParams)).map { case ((i, n, p, s), o) => outer.edgeO(o, n.uiParams(i), p, s) } /** Inward edge parameters. */ protected[diplomacy] lazy val edgesIn: Seq[EI] = (iPorts.zip(uiParams)).map { case ((o, n, p, s), i) => inner.edgeI(n.doParams(o), i, p, s) } /** A tuple of the input edge parameters and output edge parameters for the edges bound to this node. * * If you need to access to the edges of a foreign Node, use this method (in/out create bundles). */ lazy val edges: Edges[EI, EO] = Edges(edgesIn, edgesOut) /** Create actual Wires corresponding to the Bundles parameterized by the outward edges of this node. */ protected[diplomacy] lazy val bundleOut: Seq[BO] = edgesOut.map { e => val x = Wire(outer.bundleO(e)).suggestName(s"${valName.value}Out") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } /** Create actual Wires corresponding to the Bundles parameterized by the inward edges of this node. */ protected[diplomacy] lazy val bundleIn: Seq[BI] = edgesIn.map { e => val x = Wire(inner.bundleI(e)).suggestName(s"${valName.value}In") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } private def emptyDanglesOut: Seq[Dangle] = oPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(serial, i), sink = HalfEdge(n.serial, j), flipped = false, name = wirePrefix + "out", dataOpt = None ) } private def emptyDanglesIn: Seq[Dangle] = iPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(n.serial, j), sink = HalfEdge(serial, i), flipped = true, name = wirePrefix + "in", dataOpt = None ) } /** Create the [[Dangle]]s which describe the connections from this node output to other nodes inputs. */ protected[diplomacy] def danglesOut: Seq[Dangle] = emptyDanglesOut.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleOut(i))) } /** Create the [[Dangle]]s which describe the connections from this node input from other nodes outputs. */ protected[diplomacy] def danglesIn: Seq[Dangle] = emptyDanglesIn.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleIn(i))) } private[diplomacy] var instantiated = false /** Gather Bundle and edge parameters of outward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def out: Seq[(BO, EO)] = { require( instantiated, s"$name.out should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleOut.zip(edgesOut) } /** Gather Bundle and edge parameters of inward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def in: Seq[(BI, EI)] = { require( instantiated, s"$name.in should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleIn.zip(edgesIn) } /** Actually instantiate this node during [[LazyModuleImp]] evaluation. Mark that it's safe to use the Bundle wires, * instantiate monitors on all input ports if appropriate, and return all the dangles of this node. */ protected[diplomacy] def instantiate(): Seq[Dangle] = { instantiated = true if (!circuitIdentity) { (iPorts.zip(in)).foreach { case ((_, _, p, _), (b, e)) => if (p(MonitorsEnabled)) inner.monitor(b, e) } } danglesOut ++ danglesIn } protected[diplomacy] def cloneDangles(): Seq[Dangle] = emptyDanglesOut ++ emptyDanglesIn /** Connects the outward part of a node with the inward part of this node. */ protected[diplomacy] def bind( h: OutwardNode[DI, UI, BI], binding: NodeBinding )( implicit p: Parameters, sourceInfo: SourceInfo ): Unit = { val x = this // x := y val y = h sourceLine(sourceInfo, " at ", "") val i = x.iPushed val o = y.oPushed y.oPush( i, x, binding match { case BIND_ONCE => BIND_ONCE case BIND_FLEX => BIND_FLEX case BIND_STAR => BIND_QUERY case BIND_QUERY => BIND_STAR } ) x.iPush(o, y, binding) } /* Metadata for printing the node graph. */ def inputs: Seq[(OutwardNode[DI, UI, BI], RenderedEdge)] = (iPorts.zip(edgesIn)).map { case ((_, n, p, _), e) => val re = inner.render(e) (n, re.copy(flipped = re.flipped != p(RenderFlipped))) } /** Metadata for printing the node graph */ def outputs: Seq[(InwardNode[DO, UO, BO], RenderedEdge)] = oPorts.map { case (i, n, _, _) => (n, n.inputs(i)._2) } } File SystemBus.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.subsystem import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.devices.tilelink.{ BuiltInDevices, BuiltInZeroDeviceParams, BuiltInErrorDeviceParams, HasBuiltInDeviceParams } import freechips.rocketchip.tilelink.{ TLArbiter, RegionReplicator, ReplicatedRegion, HasTLBusParams, TLBusWrapper, TLBusWrapperInstantiationLike, TLXbar, TLEdge, TLInwardNode, TLOutwardNode, TLFIFOFixer, TLTempNode } import freechips.rocketchip.util.Location case class SystemBusParams( beatBytes: Int, blockBytes: Int, policy: TLArbiter.Policy = TLArbiter.roundRobin, dtsFrequency: Option[BigInt] = None, zeroDevice: Option[BuiltInZeroDeviceParams] = None, errorDevice: Option[BuiltInErrorDeviceParams] = None, replication: Option[ReplicatedRegion] = None) extends HasTLBusParams with HasBuiltInDeviceParams with TLBusWrapperInstantiationLike { def instantiate(context: HasTileLinkLocations, loc: Location[TLBusWrapper])(implicit p: Parameters): SystemBus = { val sbus = LazyModule(new SystemBus(this, loc.name)) sbus.suggestName(loc.name) context.tlBusWrapperLocationMap += (loc -> sbus) sbus } } class SystemBus(params: SystemBusParams, name: String = "system_bus")(implicit p: Parameters) extends TLBusWrapper(params, name) { private val replicator = params.replication.map(r => LazyModule(new RegionReplicator(r))) val prefixNode = replicator.map { r => r.prefix := addressPrefixNexusNode addressPrefixNexusNode } private val system_bus_xbar = LazyModule(new TLXbar(policy = params.policy, nameSuffix = Some(name))) val inwardNode: TLInwardNode = system_bus_xbar.node :=* TLFIFOFixer(TLFIFOFixer.allVolatile) :=* replicator.map(_.node).getOrElse(TLTempNode()) val outwardNode: TLOutwardNode = system_bus_xbar.node def busView: TLEdge = system_bus_xbar.node.edges.in.head val builtInDevices: BuiltInDevices = BuiltInDevices.attach(params, outwardNode) } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } } File LazyScope.scala: package org.chipsalliance.diplomacy.lazymodule import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.ValName /** Allows dynamic creation of [[Module]] hierarchy and "shoving" logic into a [[LazyModule]]. */ trait LazyScope { this: LazyModule => override def toString: String = s"LazyScope named $name" /** Evaluate `body` in the current [[LazyModule.scope]] */ def apply[T](body: => T): T = { // Preserve the previous value of the [[LazyModule.scope]], because when calling [[apply]] function, // [[LazyModule.scope]] will be altered. val saved = LazyModule.scope // [[LazyModule.scope]] stack push. LazyModule.scope = Some(this) // Evaluate [[body]] in the current `scope`, saving the result to [[out]]. val out = body // Check that the `scope` after evaluating `body` is the same as when we started. require(LazyModule.scope.isDefined, s"LazyScope $name tried to exit, but scope was empty!") require( LazyModule.scope.get eq this, s"LazyScope $name exited before LazyModule ${LazyModule.scope.get.name} was closed" ) // [[LazyModule.scope]] stack pop. LazyModule.scope = saved out } } /** Used to automatically create a level of module hierarchy (a [[SimpleLazyModule]]) within which [[LazyModule]]s can * be instantiated and connected. * * It will instantiate a [[SimpleLazyModule]] to manage evaluation of `body` and evaluate `body` code snippets in this * scope. */ object LazyScope { /** Create a [[LazyScope]] with an implicit instance name. * * @param body * code executed within the generated [[SimpleLazyModule]]. * @param valName * instance name of generated [[SimpleLazyModule]]. * @param p * [[Parameters]] propagated to [[SimpleLazyModule]]. */ def apply[T]( body: => T )( implicit valName: ValName, p: Parameters ): T = { apply(valName.value, "SimpleLazyModule", None)(body)(p) } /** Create a [[LazyScope]] with an explicitly defined instance name. * * @param name * instance name of generated [[SimpleLazyModule]]. * @param body * code executed within the generated `SimpleLazyModule` * @param p * [[Parameters]] propagated to [[SimpleLazyModule]]. */ def apply[T]( name: String )(body: => T )( implicit p: Parameters ): T = { apply(name, "SimpleLazyModule", None)(body)(p) } /** Create a [[LazyScope]] with an explicit instance and class name, and control inlining. * * @param name * instance name of generated [[SimpleLazyModule]]. * @param desiredModuleName * class name of generated [[SimpleLazyModule]]. * @param overrideInlining * tell FIRRTL that this [[SimpleLazyModule]]'s module should be inlined. * @param body * code executed within the generated `SimpleLazyModule` * @param p * [[Parameters]] propagated to [[SimpleLazyModule]]. */ def apply[T]( name: String, desiredModuleName: String, overrideInlining: Option[Boolean] = None )(body: => T )( implicit p: Parameters ): T = { val scope = LazyModule(new SimpleLazyModule with LazyScope { override lazy val desiredName = desiredModuleName override def shouldBeInlined = overrideInlining.getOrElse(super.shouldBeInlined) }).suggestName(name) scope { body } } /** Create a [[LazyScope]] to temporarily group children for some reason, but tell Firrtl to inline it. * * For example, we might want to control a set of children's clocks but then not keep the parent wrapper. * * @param body * code executed within the generated `SimpleLazyModule` * @param p * [[Parameters]] propagated to [[SimpleLazyModule]]. */ def inline[T]( body: => T )( implicit p: Parameters ): T = { apply("noname", "ShouldBeInlined", Some(false))(body)(p) } }
module SystemBus( // @[ClockDomain.scala:14:9] output auto_coupler_from_port_named_rerocc_4_buffer_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_4_buffer_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input [1:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_4_buffer_in_b_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_4_buffer_in_b_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_size, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_4_buffer_in_c_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_4_buffer_in_c_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_size, // @[LazyModuleImp.scala:107:25] input [1:0] auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_address, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_4_buffer_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_4_buffer_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_4_buffer_in_e_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_4_buffer_in_e_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_e_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_3_buffer_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_3_buffer_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_3_buffer_in_b_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_3_buffer_in_b_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_size, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_3_buffer_in_c_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_3_buffer_in_c_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_size, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_address, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_3_buffer_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_3_buffer_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_3_buffer_in_e_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_3_buffer_in_e_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_e_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_2_buffer_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_2_buffer_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_2_buffer_in_b_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_2_buffer_in_b_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_size, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_2_buffer_in_c_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_2_buffer_in_c_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_size, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_address, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_2_buffer_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_2_buffer_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_2_buffer_in_e_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_2_buffer_in_e_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_e_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_1_buffer_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_1_buffer_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_1_buffer_in_b_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_1_buffer_in_b_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_size, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_1_buffer_in_c_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_1_buffer_in_c_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_size, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_address, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_1_buffer_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_1_buffer_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_1_buffer_in_e_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_1_buffer_in_e_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_e_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_0_buffer_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_0_buffer_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_0_buffer_in_b_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_0_buffer_in_b_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_size, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_0_buffer_in_c_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_0_buffer_in_c_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_size, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_address, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_0_buffer_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_0_buffer_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_port_named_rerocc_0_buffer_in_e_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_port_named_rerocc_0_buffer_in_e_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_e_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_rockettile_tl_master_clock_xing_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_rockettile_tl_master_clock_xing_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input [1:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_rockettile_tl_master_clock_xing_in_b_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_rockettile_tl_master_clock_xing_in_b_valid, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_param, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_address, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_rockettile_tl_master_clock_xing_in_c_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_rockettile_tl_master_clock_xing_in_c_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_size, // @[LazyModuleImp.scala:107:25] input [1:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_address, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_rockettile_tl_master_clock_xing_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_rockettile_tl_master_clock_xing_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_rockettile_tl_master_clock_xing_in_e_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_rockettile_tl_master_clock_xing_in_e_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_e_bits_sink, // @[LazyModuleImp.scala:107:25] input auto_coupler_to_bus_named_coh_widget_anon_out_a_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_to_bus_named_coh_widget_anon_out_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_size, // @[LazyModuleImp.scala:107:25] output [5:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_to_bus_named_coh_widget_anon_out_b_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_to_bus_named_coh_widget_anon_out_b_valid, // @[LazyModuleImp.scala:107:25] input [1:0] auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_param, // @[LazyModuleImp.scala:107:25] input [5:0] auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_address, // @[LazyModuleImp.scala:107:25] input auto_coupler_to_bus_named_coh_widget_anon_out_c_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_to_bus_named_coh_widget_anon_out_c_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_size, // @[LazyModuleImp.scala:107:25] output [5:0] auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_address, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_to_bus_named_coh_widget_anon_out_d_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_to_bus_named_coh_widget_anon_out_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_size, // @[LazyModuleImp.scala:107:25] input [5:0] auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_source, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_sink, // @[LazyModuleImp.scala:107:25] input auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_to_bus_named_coh_widget_anon_out_e_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_e_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_bus_named_fbus_bus_xing_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_bus_named_fbus_bus_xing_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input [4:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_from_bus_named_fbus_bus_xing_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_bus_named_fbus_bus_xing_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output [4:0] auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_coupler_to_bus_named_cbus_bus_xing_out_a_ready, // @[LazyModuleImp.scala:107:25] output auto_coupler_to_bus_named_cbus_bus_xing_out_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_size, // @[LazyModuleImp.scala:107:25] output [5:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_source, // @[LazyModuleImp.scala:107:25] output [28:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_data, // @[LazyModuleImp.scala:107:25] output auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_coupler_to_bus_named_cbus_bus_xing_out_d_ready, // @[LazyModuleImp.scala:107:25] input auto_coupler_to_bus_named_cbus_bus_xing_out_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_size, // @[LazyModuleImp.scala:107:25] input [5:0] auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_source, // @[LazyModuleImp.scala:107:25] input auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_sink, // @[LazyModuleImp.scala:107:25] input auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_8_clock, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_8_reset, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_7_clock, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_7_reset, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_6_clock, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_6_reset, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_5_clock, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_5_reset, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_4_clock, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_4_reset, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_3_clock, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_3_reset, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_2_clock, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_2_reset, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_1_clock, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_1_reset, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_0_clock, // @[LazyModuleImp.scala:107:25] output auto_fixedClockNode_anon_out_0_reset, // @[LazyModuleImp.scala:107:25] input auto_sbus_clock_groups_in_member_sbus_1_clock, // @[LazyModuleImp.scala:107:25] input auto_sbus_clock_groups_in_member_sbus_1_reset, // @[LazyModuleImp.scala:107:25] input auto_sbus_clock_groups_in_member_sbus_0_clock, // @[LazyModuleImp.scala:107:25] input auto_sbus_clock_groups_in_member_sbus_0_reset, // @[LazyModuleImp.scala:107:25] output auto_sbus_clock_groups_out_member_coh_0_clock, // @[LazyModuleImp.scala:107:25] output auto_sbus_clock_groups_out_member_coh_0_reset // @[LazyModuleImp.scala:107:25] ); wire coupler_to_bus_named_coh_auto_widget_anon_in_e_valid; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_in_e_bits_sink; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_in_d_ready; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_in_c_valid; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_data; // @[LazyModuleImp.scala:138:7] wire [31:0] coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_address; // @[LazyModuleImp.scala:138:7] wire [5:0] coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_source; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_size; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_param; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_opcode; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_in_b_ready; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_in_a_valid; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_data; // @[LazyModuleImp.scala:138:7] wire [7:0] coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_mask; // @[LazyModuleImp.scala:138:7] wire [31:0] coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_address; // @[LazyModuleImp.scala:138:7] wire [5:0] coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_source; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_size; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_param; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_opcode; // @[LazyModuleImp.scala:138:7] wire coupler_from_bus_named_fbus_widget_auto_anon_in_d_valid; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_auto_anon_in_d_ready; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_corrupt; // @[WidthWidget.scala:27:9] wire [63:0] coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_data; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_denied; // @[WidthWidget.scala:27:9] wire [2:0] coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_sink; // @[WidthWidget.scala:27:9] wire [4:0] coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_source; // @[WidthWidget.scala:27:9] wire [3:0] coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_size; // @[WidthWidget.scala:27:9] wire [1:0] coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_opcode; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_auto_anon_in_a_valid; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_auto_anon_in_a_ready; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_corrupt; // @[WidthWidget.scala:27:9] wire [63:0] coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_data; // @[WidthWidget.scala:27:9] wire [7:0] coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_mask; // @[WidthWidget.scala:27:9] wire [31:0] coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_address; // @[WidthWidget.scala:27:9] wire [4:0] coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_source; // @[WidthWidget.scala:27:9] wire [3:0] coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_size; // @[WidthWidget.scala:27:9] wire [2:0] coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_opcode; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_out_d_valid; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_out_d_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_corrupt; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_denied; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_sink; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_source; // @[WidthWidget.scala:27:9] wire [3:0] coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_size; // @[WidthWidget.scala:27:9] wire [1:0] coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_opcode; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_out_a_valid; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_out_a_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_corrupt; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_data; // @[WidthWidget.scala:27:9] wire [7:0] coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_mask; // @[WidthWidget.scala:27:9] wire [28:0] coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_address; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_source; // @[WidthWidget.scala:27:9] wire [3:0] coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_size; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_opcode; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_auto_widget_anon_in_d_ready; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_cbus_auto_widget_anon_in_a_valid; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_data; // @[LazyModuleImp.scala:138:7] wire [7:0] coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_mask; // @[LazyModuleImp.scala:138:7] wire [28:0] coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_address; // @[LazyModuleImp.scala:138:7] wire [5:0] coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_source; // @[LazyModuleImp.scala:138:7] wire [3:0] coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_size; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_param; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_opcode; // @[LazyModuleImp.scala:138:7] wire fixer_auto_anon_out_0_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_0_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_0_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_0_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_0_d_bits_sink; // @[FIFOFixer.scala:50:9] wire [4:0] fixer_auto_anon_out_0_d_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_0_d_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_0_d_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_0_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_0_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_1_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_1_d_bits_sink; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_1_d_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_1_d_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_1_d_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_1_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_c_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_b_valid; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_1_b_bits_address; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_1_b_bits_source; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_1_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_2_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_2_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_d_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_2_d_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_2_d_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_2_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_c_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_b_valid; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_2_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_b_bits_source; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_2_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_3_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_3_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_d_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_3_d_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_3_d_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_3_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_c_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_b_valid; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_3_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_b_bits_source; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_3_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_4_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_4_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_d_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_4_d_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_4_d_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_4_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_c_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_b_valid; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_4_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_b_bits_source; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_4_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_5_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_5_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_d_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_5_d_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_5_d_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_5_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_c_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_b_valid; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_5_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_b_bits_source; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_5_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_6_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_6_d_bits_sink; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_6_d_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_6_d_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_6_d_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_6_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_c_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_b_valid; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_6_b_bits_address; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_6_b_bits_source; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_6_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_0_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_0_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_0_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_0_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_0_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_0_d_bits_sink; // @[FIFOFixer.scala:50:9] wire [4:0] fixer_auto_anon_in_0_d_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_0_d_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_0_d_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_0_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_0_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_0_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_0_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_0_a_bits_data; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_in_0_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_0_a_bits_address; // @[FIFOFixer.scala:50:9] wire [4:0] fixer_auto_anon_in_0_a_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_0_a_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_0_a_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_0_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_e_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_e_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_1_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_1_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_1_d_bits_sink; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_1_d_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_1_d_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_1_d_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_1_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_c_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_c_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_1_c_bits_data; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_1_c_bits_address; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_1_c_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_1_c_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_1_c_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_1_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_b_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_b_ready; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_1_b_bits_address; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_1_b_bits_source; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_1_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_1_a_bits_data; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_in_1_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_1_a_bits_address; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_1_a_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_1_a_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_1_a_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_1_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_e_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_2_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_c_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_2_c_bits_data; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_2_c_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_c_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_2_c_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_2_c_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_2_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_b_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_2_a_bits_data; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_in_2_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_2_a_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_a_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_2_a_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_2_a_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_2_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_e_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_3_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_c_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_3_c_bits_data; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_3_c_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_c_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_3_c_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_3_c_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_3_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_b_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_3_a_bits_data; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_in_3_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_3_a_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_a_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_3_a_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_3_a_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_3_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_e_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_4_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_c_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_4_c_bits_data; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_4_c_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_c_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_4_c_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_4_c_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_4_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_b_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_4_a_bits_data; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_in_4_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_4_a_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_a_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_4_a_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_4_a_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_4_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_e_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_5_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_c_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_5_c_bits_data; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_5_c_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_c_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_5_c_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_5_c_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_5_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_b_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_5_a_bits_data; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_in_5_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_5_a_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_a_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_5_a_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_5_a_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_5_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_e_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_6_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_c_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_6_c_bits_data; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_6_c_bits_address; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_6_c_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_6_c_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_6_c_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_6_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_b_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_6_a_bits_data; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_in_6_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_6_a_bits_address; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_6_a_bits_source; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_6_a_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_6_a_bits_param; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_6_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire sbus_clock_groups_auto_out_0_member_sbus_0_reset; // @[ClockGroup.scala:53:9] wire sbus_clock_groups_auto_out_0_member_sbus_0_clock; // @[ClockGroup.scala:53:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_a_valid_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_a_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_opcode_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_param_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_size_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_size; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_source_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_address_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_address; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_mask_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_mask; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_data_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_corrupt_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_b_ready_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_b_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_c_valid_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_c_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_opcode_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_param_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_size_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_size; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_source_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_address_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_address; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_data_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_corrupt_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_d_ready_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_d_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_e_valid_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_e_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_e_bits_sink_0 = auto_coupler_from_port_named_rerocc_4_buffer_in_e_bits_sink; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_a_valid_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_a_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_opcode_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_param_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_size_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_size; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_source_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_address_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_address; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_mask_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_mask; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_data_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_corrupt_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_b_ready_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_b_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_c_valid_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_c_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_opcode_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_param_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_size_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_size; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_source_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_address_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_address; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_data_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_corrupt_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_d_ready_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_d_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_e_valid_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_e_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_e_bits_sink_0 = auto_coupler_from_port_named_rerocc_3_buffer_in_e_bits_sink; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_a_valid_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_a_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_opcode_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_param_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_size_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_size; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_source_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_address_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_address; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_mask_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_mask; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_data_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_corrupt_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_b_ready_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_b_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_c_valid_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_c_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_opcode_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_param_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_size_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_size; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_source_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_address_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_address; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_data_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_corrupt_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_d_ready_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_d_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_e_valid_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_e_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_e_bits_sink_0 = auto_coupler_from_port_named_rerocc_2_buffer_in_e_bits_sink; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_a_valid_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_a_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_opcode_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_param_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_size_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_size; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_source_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_address_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_address; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_mask_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_mask; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_data_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_corrupt_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_b_ready_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_b_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_c_valid_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_c_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_opcode_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_param_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_size_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_size; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_source_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_address_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_address; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_data_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_corrupt_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_d_ready_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_d_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_e_valid_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_e_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_e_bits_sink_0 = auto_coupler_from_port_named_rerocc_1_buffer_in_e_bits_sink; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_a_valid_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_a_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_opcode_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_param_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_size_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_size; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_source_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_address_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_address; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_mask_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_mask; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_data_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_corrupt_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_b_ready_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_b_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_c_valid_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_c_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_opcode_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_param_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_size_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_size; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_source_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_address_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_address; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_data_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_corrupt_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_d_ready_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_d_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_e_valid_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_e_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_e_bits_sink_0 = auto_coupler_from_port_named_rerocc_0_buffer_in_e_bits_sink; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_a_valid_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_opcode_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_param_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_size_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_size; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_source_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_address_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_address; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_mask_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_mask; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_data_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_corrupt_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_b_ready_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_b_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_c_valid_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_opcode_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_param_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_size_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_size; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_source_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_address_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_address; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_data_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_corrupt_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_d_ready_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_d_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_e_valid_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_e_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_e_bits_sink_0 = auto_coupler_from_rockettile_tl_master_clock_xing_in_e_bits_sink; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_a_ready_0 = auto_coupler_to_bus_named_coh_widget_anon_out_a_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_b_valid_0 = auto_coupler_to_bus_named_coh_widget_anon_out_b_valid; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_param_0 = auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_param; // @[ClockDomain.scala:14:9] wire [5:0] auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_source_0 = auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_address_0 = auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_address; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_c_ready_0 = auto_coupler_to_bus_named_coh_widget_anon_out_c_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_d_valid_0 = auto_coupler_to_bus_named_coh_widget_anon_out_d_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_opcode_0 = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_opcode; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_param_0 = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_param; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_size_0 = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_size; // @[ClockDomain.scala:14:9] wire [5:0] auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_source_0 = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_source; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_sink_0 = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_sink; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_denied_0 = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_denied; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_data_0 = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_corrupt_0 = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_bus_named_fbus_bus_xing_in_a_valid_0 = auto_coupler_from_bus_named_fbus_bus_xing_in_a_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_opcode_0 = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_param_0 = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_size_0 = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_size; // @[ClockDomain.scala:14:9] wire [4:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_source_0 = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_address_0 = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_address; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_mask_0 = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_mask; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_data_0 = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_corrupt_0 = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_coupler_from_bus_named_fbus_bus_xing_in_d_ready_0 = auto_coupler_from_bus_named_fbus_bus_xing_in_d_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_cbus_bus_xing_out_a_ready_0 = auto_coupler_to_bus_named_cbus_bus_xing_out_a_ready; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_cbus_bus_xing_out_d_valid_0 = auto_coupler_to_bus_named_cbus_bus_xing_out_d_valid; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_opcode_0 = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_opcode; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_param_0 = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_size_0 = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_size; // @[ClockDomain.scala:14:9] wire [5:0] auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_source_0 = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_source; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_sink_0 = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_sink; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_denied_0 = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_denied; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_data_0 = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_data; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_corrupt_0 = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_corrupt; // @[ClockDomain.scala:14:9] wire auto_sbus_clock_groups_in_member_sbus_1_clock_0 = auto_sbus_clock_groups_in_member_sbus_1_clock; // @[ClockDomain.scala:14:9] wire auto_sbus_clock_groups_in_member_sbus_1_reset_0 = auto_sbus_clock_groups_in_member_sbus_1_reset; // @[ClockDomain.scala:14:9] wire auto_sbus_clock_groups_in_member_sbus_0_clock_0 = auto_sbus_clock_groups_in_member_sbus_0_clock; // @[ClockDomain.scala:14:9] wire auto_sbus_clock_groups_in_member_sbus_0_reset_0 = auto_sbus_clock_groups_in_member_sbus_0_reset; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_opcode = 3'h6; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_opcode = 3'h6; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_size = 3'h6; // @[ClockDomain.scala:14:9] wire [2:0] fixer_auto_anon_in_6_b_bits_opcode = 3'h6; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_5_b_bits_opcode = 3'h6; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_4_b_bits_opcode = 3'h6; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_3_b_bits_opcode = 3'h6; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_2_b_bits_opcode = 3'h6; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_1_b_bits_opcode = 3'h6; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_6_b_bits_opcode = 3'h6; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_5_b_bits_opcode = 3'h6; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_4_b_bits_opcode = 3'h6; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_3_b_bits_opcode = 3'h6; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_2_b_bits_opcode = 3'h6; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_1_b_bits_opcode = 3'h6; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonOut_b_bits_opcode = 3'h6; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_1_b_bits_opcode = 3'h6; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_2_b_bits_opcode = 3'h6; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_3_b_bits_opcode = 3'h6; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_4_b_bits_opcode = 3'h6; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_5_b_bits_opcode = 3'h6; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonIn_b_bits_opcode = 3'h6; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_1_b_bits_opcode = 3'h6; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_2_b_bits_opcode = 3'h6; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_3_b_bits_opcode = 3'h6; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_4_b_bits_opcode = 3'h6; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_5_b_bits_opcode = 3'h6; // @[MixedNode.scala:551:17] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_opcode = 3'h6; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_size = 3'h6; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_out_b_bits_opcode = 3'h6; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_out_b_bits_size = 3'h6; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_opcode = 3'h6; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_size = 3'h6; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_out_b_bits_opcode = 3'h6; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_out_b_bits_size = 3'h6; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonOut_b_bits_opcode = 3'h6; // @[MixedNode.scala:542:17] wire [2:0] coupler_to_bus_named_coh_widget_anonOut_b_bits_size = 3'h6; // @[MixedNode.scala:542:17] wire [2:0] coupler_to_bus_named_coh_widget_anonIn_b_bits_opcode = 3'h6; // @[MixedNode.scala:551:17] wire [2:0] coupler_to_bus_named_coh_widget_anonIn_b_bits_size = 3'h6; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_opcode = 3'h6; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_from_rockettile_auto_tl_out_b_bits_opcode = 3'h6; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_from_rockettile_tlOut_b_bits_opcode = 3'h6; // @[MixedNode.scala:542:17] wire [2:0] coupler_from_rockettile_tlIn_b_bits_opcode = 3'h6; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_rockettile_no_bufferOut_b_bits_opcode = 3'h6; // @[MixedNode.scala:542:17] wire [2:0] coupler_from_rockettile_no_bufferIn_b_bits_opcode = 3'h6; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingOut_b_bits_opcode = 3'h6; // @[MixedNode.scala:542:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingIn_b_bits_opcode = 3'h6; // @[MixedNode.scala:551:17] wire [3:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_size = 4'h6; // @[ClockDomain.scala:14:9] wire [3:0] fixer_auto_anon_in_6_b_bits_size = 4'h6; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_5_b_bits_size = 4'h6; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_4_b_bits_size = 4'h6; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_3_b_bits_size = 4'h6; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_2_b_bits_size = 4'h6; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_1_b_bits_size = 4'h6; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_6_b_bits_size = 4'h6; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_5_b_bits_size = 4'h6; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_4_b_bits_size = 4'h6; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_3_b_bits_size = 4'h6; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_2_b_bits_size = 4'h6; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_1_b_bits_size = 4'h6; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonOut_b_bits_size = 4'h6; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_1_b_bits_size = 4'h6; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_2_b_bits_size = 4'h6; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_3_b_bits_size = 4'h6; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_4_b_bits_size = 4'h6; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_5_b_bits_size = 4'h6; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonIn_b_bits_size = 4'h6; // @[MixedNode.scala:551:17] wire [3:0] fixer_x1_anonIn_1_b_bits_size = 4'h6; // @[MixedNode.scala:551:17] wire [3:0] fixer_x1_anonIn_2_b_bits_size = 4'h6; // @[MixedNode.scala:551:17] wire [3:0] fixer_x1_anonIn_3_b_bits_size = 4'h6; // @[MixedNode.scala:551:17] wire [3:0] fixer_x1_anonIn_4_b_bits_size = 4'h6; // @[MixedNode.scala:551:17] wire [3:0] fixer_x1_anonIn_5_b_bits_size = 4'h6; // @[MixedNode.scala:551:17] wire [3:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_size = 4'h6; // @[LazyModuleImp.scala:138:7] wire [3:0] coupler_from_rockettile_auto_tl_out_b_bits_size = 4'h6; // @[LazyModuleImp.scala:138:7] wire [3:0] coupler_from_rockettile_tlOut_b_bits_size = 4'h6; // @[MixedNode.scala:542:17] wire [3:0] coupler_from_rockettile_tlIn_b_bits_size = 4'h6; // @[MixedNode.scala:551:17] wire [3:0] coupler_from_rockettile_no_bufferOut_b_bits_size = 4'h6; // @[MixedNode.scala:542:17] wire [3:0] coupler_from_rockettile_no_bufferIn_b_bits_size = 4'h6; // @[MixedNode.scala:551:17] wire [3:0] coupler_from_rockettile_tlMasterClockXingOut_b_bits_size = 4'h6; // @[MixedNode.scala:542:17] wire [3:0] coupler_from_rockettile_tlMasterClockXingIn_b_bits_size = 4'h6; // @[MixedNode.scala:551:17] wire [7:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_mask = 8'hFF; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_mask = 8'hFF; // @[ClockDomain.scala:14:9] wire [7:0] fixer_auto_anon_in_6_b_bits_mask = 8'hFF; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_in_5_b_bits_mask = 8'hFF; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_in_4_b_bits_mask = 8'hFF; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_in_3_b_bits_mask = 8'hFF; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_in_2_b_bits_mask = 8'hFF; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_in_1_b_bits_mask = 8'hFF; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_out_6_b_bits_mask = 8'hFF; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_out_5_b_bits_mask = 8'hFF; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_out_4_b_bits_mask = 8'hFF; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_out_3_b_bits_mask = 8'hFF; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_out_2_b_bits_mask = 8'hFF; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_out_1_b_bits_mask = 8'hFF; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_x1_anonOut_b_bits_mask = 8'hFF; // @[MixedNode.scala:542:17] wire [7:0] fixer_x1_anonOut_1_b_bits_mask = 8'hFF; // @[MixedNode.scala:542:17] wire [7:0] fixer_x1_anonOut_2_b_bits_mask = 8'hFF; // @[MixedNode.scala:542:17] wire [7:0] fixer_x1_anonOut_3_b_bits_mask = 8'hFF; // @[MixedNode.scala:542:17] wire [7:0] fixer_x1_anonOut_4_b_bits_mask = 8'hFF; // @[MixedNode.scala:542:17] wire [7:0] fixer_x1_anonOut_5_b_bits_mask = 8'hFF; // @[MixedNode.scala:542:17] wire [7:0] fixer_x1_anonIn_b_bits_mask = 8'hFF; // @[MixedNode.scala:551:17] wire [7:0] fixer_x1_anonIn_1_b_bits_mask = 8'hFF; // @[MixedNode.scala:551:17] wire [7:0] fixer_x1_anonIn_2_b_bits_mask = 8'hFF; // @[MixedNode.scala:551:17] wire [7:0] fixer_x1_anonIn_3_b_bits_mask = 8'hFF; // @[MixedNode.scala:551:17] wire [7:0] fixer_x1_anonIn_4_b_bits_mask = 8'hFF; // @[MixedNode.scala:551:17] wire [7:0] fixer_x1_anonIn_5_b_bits_mask = 8'hFF; // @[MixedNode.scala:551:17] wire [7:0] coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_mask = 8'hFF; // @[LazyModuleImp.scala:138:7] wire [7:0] coupler_to_bus_named_coh_auto_widget_anon_out_b_bits_mask = 8'hFF; // @[LazyModuleImp.scala:138:7] wire [7:0] coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_mask = 8'hFF; // @[WidthWidget.scala:27:9] wire [7:0] coupler_to_bus_named_coh_widget_auto_anon_out_b_bits_mask = 8'hFF; // @[WidthWidget.scala:27:9] wire [7:0] coupler_to_bus_named_coh_widget_anonOut_b_bits_mask = 8'hFF; // @[MixedNode.scala:542:17] wire [7:0] coupler_to_bus_named_coh_widget_anonIn_b_bits_mask = 8'hFF; // @[MixedNode.scala:551:17] wire [7:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_mask = 8'hFF; // @[LazyModuleImp.scala:138:7] wire [7:0] coupler_from_rockettile_auto_tl_out_b_bits_mask = 8'hFF; // @[LazyModuleImp.scala:138:7] wire [7:0] coupler_from_rockettile_tlOut_b_bits_mask = 8'hFF; // @[MixedNode.scala:542:17] wire [7:0] coupler_from_rockettile_tlIn_b_bits_mask = 8'hFF; // @[MixedNode.scala:551:17] wire [7:0] coupler_from_rockettile_no_bufferOut_b_bits_mask = 8'hFF; // @[MixedNode.scala:542:17] wire [7:0] coupler_from_rockettile_no_bufferIn_b_bits_mask = 8'hFF; // @[MixedNode.scala:551:17] wire [7:0] coupler_from_rockettile_tlMasterClockXingOut_b_bits_mask = 8'hFF; // @[MixedNode.scala:542:17] wire [7:0] coupler_from_rockettile_tlMasterClockXingIn_b_bits_mask = 8'hFF; // @[MixedNode.scala:551:17] wire [63:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_data = 64'h0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_data = 64'h0; // @[ClockDomain.scala:14:9] wire [63:0] fixer_auto_anon_in_6_b_bits_data = 64'h0; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_5_b_bits_data = 64'h0; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_4_b_bits_data = 64'h0; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_3_b_bits_data = 64'h0; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_2_b_bits_data = 64'h0; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_1_b_bits_data = 64'h0; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_6_b_bits_data = 64'h0; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_5_b_bits_data = 64'h0; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_4_b_bits_data = 64'h0; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_3_b_bits_data = 64'h0; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_2_b_bits_data = 64'h0; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_1_b_bits_data = 64'h0; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonOut_b_bits_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_1_b_bits_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_2_b_bits_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_3_b_bits_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_4_b_bits_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_5_b_bits_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonIn_b_bits_data = 64'h0; // @[MixedNode.scala:551:17] wire [63:0] fixer_x1_anonIn_1_b_bits_data = 64'h0; // @[MixedNode.scala:551:17] wire [63:0] fixer_x1_anonIn_2_b_bits_data = 64'h0; // @[MixedNode.scala:551:17] wire [63:0] fixer_x1_anonIn_3_b_bits_data = 64'h0; // @[MixedNode.scala:551:17] wire [63:0] fixer_x1_anonIn_4_b_bits_data = 64'h0; // @[MixedNode.scala:551:17] wire [63:0] fixer_x1_anonIn_5_b_bits_data = 64'h0; // @[MixedNode.scala:551:17] wire [63:0] coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_data = 64'h0; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_to_bus_named_coh_auto_widget_anon_out_b_bits_data = 64'h0; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_data = 64'h0; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_coh_widget_auto_anon_out_b_bits_data = 64'h0; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_coh_widget_anonOut_b_bits_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] coupler_to_bus_named_coh_widget_anonIn_b_bits_data = 64'h0; // @[MixedNode.scala:551:17] wire [63:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_data = 64'h0; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_from_rockettile_auto_tl_out_b_bits_data = 64'h0; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_from_rockettile_tlOut_b_bits_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] coupler_from_rockettile_tlIn_b_bits_data = 64'h0; // @[MixedNode.scala:551:17] wire [63:0] coupler_from_rockettile_no_bufferOut_b_bits_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] coupler_from_rockettile_no_bufferIn_b_bits_data = 64'h0; // @[MixedNode.scala:551:17] wire [63:0] coupler_from_rockettile_tlMasterClockXingOut_b_bits_data = 64'h0; // @[MixedNode.scala:542:17] wire [63:0] coupler_from_rockettile_tlMasterClockXingIn_b_bits_data = 64'h0; // @[MixedNode.scala:551:17] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_corrupt = 1'h0; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_corrupt = 1'h0; // @[ClockDomain.scala:14:9] wire _childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire sbus_clock_groups_childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire sbus_clock_groups_childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire sbus_clock_groups__childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire clockGroup_childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire clockGroup_childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire clockGroup__childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire broadcast_childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire broadcast_childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire broadcast__childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire fixer_auto_anon_in_6_b_bits_corrupt = 1'h0; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_b_bits_corrupt = 1'h0; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_b_bits_corrupt = 1'h0; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_b_bits_corrupt = 1'h0; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_b_bits_corrupt = 1'h0; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_1_b_bits_corrupt = 1'h0; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_b_bits_corrupt = 1'h0; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_b_bits_corrupt = 1'h0; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_b_bits_corrupt = 1'h0; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_b_bits_corrupt = 1'h0; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_b_bits_corrupt = 1'h0; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_b_bits_corrupt = 1'h0; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_b_bits_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_1_b_bits_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_2_b_bits_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_3_b_bits_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_4_b_bits_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_5_b_bits_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire fixer_x1_anonIn_b_bits_corrupt = 1'h0; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_1_b_bits_corrupt = 1'h0; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_2_b_bits_corrupt = 1'h0; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_3_b_bits_corrupt = 1'h0; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_4_b_bits_corrupt = 1'h0; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_5_b_bits_corrupt = 1'h0; // @[MixedNode.scala:551:17] wire fixer__a_notFIFO_T_34 = 1'h0; // @[Mux.scala:30:73] wire fixer_a_noDomain = 1'h0; // @[FIFOFixer.scala:63:29] wire fixer__flight_WIRE_0 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_1 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_2 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_3 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_4 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_5 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_6 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_7 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_8 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_9 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_10 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_11 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_12 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_13 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_14 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_15 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_16 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__a_notFIFO_T_71 = 1'h0; // @[Mux.scala:30:73] wire fixer_a_noDomain_1 = 1'h0; // @[FIFOFixer.scala:63:29] wire fixer__flight_WIRE_1_0 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_1_1 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_1_2 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__a_notFIFO_T_108 = 1'h0; // @[Mux.scala:30:73] wire fixer_a_noDomain_2 = 1'h0; // @[FIFOFixer.scala:63:29] wire fixer__flight_WIRE_2_0 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_2_1 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__a_notFIFO_T_145 = 1'h0; // @[Mux.scala:30:73] wire fixer_a_noDomain_3 = 1'h0; // @[FIFOFixer.scala:63:29] wire fixer__flight_WIRE_3_0 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_3_1 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__a_notFIFO_T_182 = 1'h0; // @[Mux.scala:30:73] wire fixer_a_noDomain_4 = 1'h0; // @[FIFOFixer.scala:63:29] wire fixer__flight_WIRE_4_0 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_4_1 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__a_notFIFO_T_219 = 1'h0; // @[Mux.scala:30:73] wire fixer_a_noDomain_5 = 1'h0; // @[FIFOFixer.scala:63:29] wire fixer__flight_WIRE_5_0 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_5_1 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__a_notFIFO_T_256 = 1'h0; // @[Mux.scala:30:73] wire fixer_a_noDomain_6 = 1'h0; // @[FIFOFixer.scala:63:29] wire fixer__flight_WIRE_6_0 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_6_1 = 1'h0; // @[FIFOFixer.scala:79:35] wire fixer__flight_WIRE_6_2 = 1'h0; // @[FIFOFixer.scala:79:35] wire coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_corrupt = 1'h0; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_out_b_bits_corrupt = 1'h0; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_corrupt = 1'h0; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_b_bits_corrupt = 1'h0; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_b_bits_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire coupler_to_bus_named_coh_widget_anonIn_b_bits_corrupt = 1'h0; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_corrupt = 1'h0; // @[LazyModuleImp.scala:138:7] wire coupler_from_rockettile_auto_tl_out_b_bits_corrupt = 1'h0; // @[LazyModuleImp.scala:138:7] wire coupler_from_rockettile_tlOut_b_bits_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlIn_b_bits_corrupt = 1'h0; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_no_bufferOut_b_bits_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_no_bufferIn_b_bits_corrupt = 1'h0; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_tlMasterClockXingOut_b_bits_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlMasterClockXingIn_b_bits_corrupt = 1'h0; // @[MixedNode.scala:551:17] wire auto_coupler_to_bus_named_coh_widget_anon_out_e_ready = 1'h1; // @[ClockDomain.scala:14:9] wire fixer__a_id_T_4 = 1'h1; // @[Parameters.scala:137:59] wire fixer__anonOut_a_valid_T = 1'h1; // @[FIFOFixer.scala:95:50] wire fixer__anonOut_a_valid_T_1 = 1'h1; // @[FIFOFixer.scala:95:47] wire fixer__anonIn_a_ready_T = 1'h1; // @[FIFOFixer.scala:96:50] wire fixer__anonIn_a_ready_T_1 = 1'h1; // @[FIFOFixer.scala:96:47] wire fixer__a_id_T_9 = 1'h1; // @[Parameters.scala:137:59] wire fixer__anonOut_a_valid_T_3 = 1'h1; // @[FIFOFixer.scala:95:50] wire fixer__anonOut_a_valid_T_4 = 1'h1; // @[FIFOFixer.scala:95:47] wire fixer__anonIn_a_ready_T_3 = 1'h1; // @[FIFOFixer.scala:96:50] wire fixer__anonIn_a_ready_T_4 = 1'h1; // @[FIFOFixer.scala:96:47] wire fixer__a_id_T_14 = 1'h1; // @[Parameters.scala:137:59] wire fixer__anonOut_a_valid_T_6 = 1'h1; // @[FIFOFixer.scala:95:50] wire fixer__anonOut_a_valid_T_7 = 1'h1; // @[FIFOFixer.scala:95:47] wire fixer__anonIn_a_ready_T_6 = 1'h1; // @[FIFOFixer.scala:96:50] wire fixer__anonIn_a_ready_T_7 = 1'h1; // @[FIFOFixer.scala:96:47] wire fixer__a_id_T_19 = 1'h1; // @[Parameters.scala:137:59] wire fixer__anonOut_a_valid_T_9 = 1'h1; // @[FIFOFixer.scala:95:50] wire fixer__anonOut_a_valid_T_10 = 1'h1; // @[FIFOFixer.scala:95:47] wire fixer__anonIn_a_ready_T_9 = 1'h1; // @[FIFOFixer.scala:96:50] wire fixer__anonIn_a_ready_T_10 = 1'h1; // @[FIFOFixer.scala:96:47] wire fixer__a_id_T_24 = 1'h1; // @[Parameters.scala:137:59] wire fixer__anonOut_a_valid_T_12 = 1'h1; // @[FIFOFixer.scala:95:50] wire fixer__anonOut_a_valid_T_13 = 1'h1; // @[FIFOFixer.scala:95:47] wire fixer__anonIn_a_ready_T_12 = 1'h1; // @[FIFOFixer.scala:96:50] wire fixer__anonIn_a_ready_T_13 = 1'h1; // @[FIFOFixer.scala:96:47] wire fixer__a_id_T_29 = 1'h1; // @[Parameters.scala:137:59] wire fixer__anonOut_a_valid_T_15 = 1'h1; // @[FIFOFixer.scala:95:50] wire fixer__anonOut_a_valid_T_16 = 1'h1; // @[FIFOFixer.scala:95:47] wire fixer__anonIn_a_ready_T_15 = 1'h1; // @[FIFOFixer.scala:96:50] wire fixer__anonIn_a_ready_T_16 = 1'h1; // @[FIFOFixer.scala:96:47] wire fixer__a_id_T_34 = 1'h1; // @[Parameters.scala:137:59] wire fixer__anonOut_a_valid_T_18 = 1'h1; // @[FIFOFixer.scala:95:50] wire fixer__anonOut_a_valid_T_19 = 1'h1; // @[FIFOFixer.scala:95:47] wire fixer__anonIn_a_ready_T_18 = 1'h1; // @[FIFOFixer.scala:96:50] wire fixer__anonIn_a_ready_T_19 = 1'h1; // @[FIFOFixer.scala:96:47] wire coupler_to_bus_named_coh_auto_widget_anon_in_e_ready = 1'h1; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_out_e_ready = 1'h1; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_widget_auto_anon_in_e_ready = 1'h1; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_e_ready = 1'h1; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_e_ready = 1'h1; // @[MixedNode.scala:542:17] wire coupler_to_bus_named_coh_widget_anonIn_e_ready = 1'h1; // @[MixedNode.scala:551:17] wire [2:0] fixer__allIDs_FIFOed_T_1 = 3'h7; // @[FIFOFixer.scala:127:48] wire [2:0] fixer__allIDs_FIFOed_T_6 = 3'h7; // @[FIFOFixer.scala:127:48] wire [1:0] fixer__allIDs_FIFOed_T_2 = 2'h3; // @[FIFOFixer.scala:127:48] wire [1:0] fixer__allIDs_FIFOed_T_3 = 2'h3; // @[FIFOFixer.scala:127:48] wire [1:0] fixer__allIDs_FIFOed_T_4 = 2'h3; // @[FIFOFixer.scala:127:48] wire [1:0] fixer__allIDs_FIFOed_T_5 = 2'h3; // @[FIFOFixer.scala:127:48] wire [16:0] fixer__allIDs_FIFOed_T = 17'h1FFFF; // @[FIFOFixer.scala:127:48] wire [32:0] fixer__a_id_T_2 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] fixer__a_id_T_3 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] fixer__a_id_T_7 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] fixer__a_id_T_8 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] fixer__a_id_T_12 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] fixer__a_id_T_13 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] fixer__a_id_T_17 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] fixer__a_id_T_18 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] fixer__a_id_T_22 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] fixer__a_id_T_23 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] fixer__a_id_T_27 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] fixer__a_id_T_28 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] fixer__a_id_T_32 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] fixer__a_id_T_33 = 33'h0; // @[Parameters.scala:137:46] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_a_ready; // @[LazyModuleImp.scala:138:7] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_a_valid = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_valid_0; // @[ClockDomain.scala:14:9] wire [2:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_opcode = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [2:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_param = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_size = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_size_0; // @[ClockDomain.scala:14:9] wire [1:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_source = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_address = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_address_0; // @[ClockDomain.scala:14:9] wire [7:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_mask = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_mask_0; // @[ClockDomain.scala:14:9] wire [63:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_data = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_data_0; // @[ClockDomain.scala:14:9] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_corrupt = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_b_ready = auto_coupler_from_rockettile_tl_master_clock_xing_in_b_ready_0; // @[ClockDomain.scala:14:9] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_b_valid; // @[LazyModuleImp.scala:138:7] wire [1:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_param; // @[LazyModuleImp.scala:138:7] wire [1:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_source; // @[LazyModuleImp.scala:138:7] wire [31:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_address; // @[LazyModuleImp.scala:138:7] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_c_ready; // @[LazyModuleImp.scala:138:7] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_c_valid = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_valid_0; // @[ClockDomain.scala:14:9] wire [2:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_opcode = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [2:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_param = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_size = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_size_0; // @[ClockDomain.scala:14:9] wire [1:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_source = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_address = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_address_0; // @[ClockDomain.scala:14:9] wire [63:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_data = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_data_0; // @[ClockDomain.scala:14:9] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_corrupt = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_d_ready = auto_coupler_from_rockettile_tl_master_clock_xing_in_d_ready_0; // @[ClockDomain.scala:14:9] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_d_valid; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_opcode; // @[LazyModuleImp.scala:138:7] wire [1:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_param; // @[LazyModuleImp.scala:138:7] wire [3:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_size; // @[LazyModuleImp.scala:138:7] wire [1:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_source; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_sink; // @[LazyModuleImp.scala:138:7] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_denied; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_data; // @[LazyModuleImp.scala:138:7] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_e_ready; // @[LazyModuleImp.scala:138:7] wire coupler_from_rockettile_auto_tl_master_clock_xing_in_e_valid = auto_coupler_from_rockettile_tl_master_clock_xing_in_e_valid_0; // @[ClockDomain.scala:14:9] wire [2:0] coupler_from_rockettile_auto_tl_master_clock_xing_in_e_bits_sink = auto_coupler_from_rockettile_tl_master_clock_xing_in_e_bits_sink_0; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_auto_widget_anon_out_a_ready = auto_coupler_to_bus_named_coh_widget_anon_out_a_ready_0; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_auto_widget_anon_out_a_valid; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_opcode; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_param; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_size; // @[LazyModuleImp.scala:138:7] wire [5:0] coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_source; // @[LazyModuleImp.scala:138:7] wire [31:0] coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_address; // @[LazyModuleImp.scala:138:7] wire [7:0] coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_mask; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_data; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_out_b_ready; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_out_b_valid = auto_coupler_to_bus_named_coh_widget_anon_out_b_valid_0; // @[ClockDomain.scala:14:9] wire [1:0] coupler_to_bus_named_coh_auto_widget_anon_out_b_bits_param = auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_param_0; // @[ClockDomain.scala:14:9] wire [5:0] coupler_to_bus_named_coh_auto_widget_anon_out_b_bits_source = auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] coupler_to_bus_named_coh_auto_widget_anon_out_b_bits_address = auto_coupler_to_bus_named_coh_widget_anon_out_b_bits_address_0; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_auto_widget_anon_out_c_ready = auto_coupler_to_bus_named_coh_widget_anon_out_c_ready_0; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_auto_widget_anon_out_c_valid; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_opcode; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_param; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_size; // @[LazyModuleImp.scala:138:7] wire [5:0] coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_source; // @[LazyModuleImp.scala:138:7] wire [31:0] coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_address; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_data; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_out_d_ready; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_out_d_valid = auto_coupler_to_bus_named_coh_widget_anon_out_d_valid_0; // @[ClockDomain.scala:14:9] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_opcode = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_param = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_param_0; // @[ClockDomain.scala:14:9] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_size = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_size_0; // @[ClockDomain.scala:14:9] wire [5:0] coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_source = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_source_0; // @[ClockDomain.scala:14:9] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_sink = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_sink_0; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_denied = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_denied_0; // @[ClockDomain.scala:14:9] wire [63:0] coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_data = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_data_0; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_corrupt = auto_coupler_to_bus_named_coh_widget_anon_out_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_auto_widget_anon_out_e_valid; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_out_e_bits_sink; // @[LazyModuleImp.scala:138:7] wire coupler_from_bus_named_fbus_auto_bus_xing_in_a_ready; // @[LazyModuleImp.scala:138:7] wire coupler_from_bus_named_fbus_auto_bus_xing_in_a_valid = auto_coupler_from_bus_named_fbus_bus_xing_in_a_valid_0; // @[ClockDomain.scala:14:9] wire [2:0] coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_opcode = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [2:0] coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_param = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_size = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_size_0; // @[ClockDomain.scala:14:9] wire [4:0] coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_source = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_address = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_address_0; // @[ClockDomain.scala:14:9] wire [7:0] coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_mask = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_mask_0; // @[ClockDomain.scala:14:9] wire [63:0] coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_data = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_data_0; // @[ClockDomain.scala:14:9] wire coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_corrupt = auto_coupler_from_bus_named_fbus_bus_xing_in_a_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire coupler_from_bus_named_fbus_auto_bus_xing_in_d_ready = auto_coupler_from_bus_named_fbus_bus_xing_in_d_ready_0; // @[ClockDomain.scala:14:9] wire coupler_from_bus_named_fbus_auto_bus_xing_in_d_valid; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_opcode; // @[LazyModuleImp.scala:138:7] wire [1:0] coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_param; // @[LazyModuleImp.scala:138:7] wire [3:0] coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_size; // @[LazyModuleImp.scala:138:7] wire [4:0] coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_source; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_sink; // @[LazyModuleImp.scala:138:7] wire coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_denied; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_data; // @[LazyModuleImp.scala:138:7] wire coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_cbus_auto_bus_xing_out_a_ready = auto_coupler_to_bus_named_cbus_bus_xing_out_a_ready_0; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_cbus_auto_bus_xing_out_a_valid; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_opcode; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_param; // @[LazyModuleImp.scala:138:7] wire [3:0] coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_size; // @[LazyModuleImp.scala:138:7] wire [5:0] coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_source; // @[LazyModuleImp.scala:138:7] wire [28:0] coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_address; // @[LazyModuleImp.scala:138:7] wire [7:0] coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_mask; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_data; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_cbus_auto_bus_xing_out_d_ready; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_cbus_auto_bus_xing_out_d_valid = auto_coupler_to_bus_named_cbus_bus_xing_out_d_valid_0; // @[ClockDomain.scala:14:9] wire [2:0] coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_opcode = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_param = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_size = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_size_0; // @[ClockDomain.scala:14:9] wire [5:0] coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_source = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_source_0; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_sink = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_sink_0; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_denied = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_denied_0; // @[ClockDomain.scala:14:9] wire [63:0] coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_data = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_data_0; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_corrupt = auto_coupler_to_bus_named_cbus_bus_xing_out_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire sbus_clock_groups_auto_in_member_sbus_1_clock = auto_sbus_clock_groups_in_member_sbus_1_clock_0; // @[ClockGroup.scala:53:9] wire sbus_clock_groups_auto_in_member_sbus_1_reset = auto_sbus_clock_groups_in_member_sbus_1_reset_0; // @[ClockGroup.scala:53:9] wire sbus_clock_groups_auto_in_member_sbus_0_clock = auto_sbus_clock_groups_in_member_sbus_0_clock_0; // @[ClockGroup.scala:53:9] wire sbus_clock_groups_auto_in_member_sbus_0_reset = auto_sbus_clock_groups_in_member_sbus_0_reset_0; // @[ClockGroup.scala:53:9] wire sbus_clock_groups_auto_out_1_member_coh_0_clock; // @[ClockGroup.scala:53:9] wire sbus_clock_groups_auto_out_1_member_coh_0_reset; // @[ClockGroup.scala:53:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_a_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_size_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_address_0; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_mask_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_b_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_c_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_size_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_source_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_d_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_4_buffer_in_e_ready_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_a_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_size_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_address_0; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_mask_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_b_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_c_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_size_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_source_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_d_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_3_buffer_in_e_ready_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_a_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_size_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_address_0; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_mask_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_b_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_c_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_size_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_source_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_d_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_2_buffer_in_e_ready_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_a_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_size_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_address_0; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_mask_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_b_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_c_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_size_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_source_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_d_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_1_buffer_in_e_ready_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_a_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_size_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_address_0; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_mask_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_b_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_c_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_size_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_source_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_d_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_port_named_rerocc_0_buffer_in_e_ready_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_a_ready_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_param_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_address_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_b_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_c_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_size_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_source_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_d_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_rockettile_tl_master_clock_xing_in_e_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_param_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_size_0; // @[ClockDomain.scala:14:9] wire [5:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_address_0; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_mask_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_a_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_b_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_param_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_size_0; // @[ClockDomain.scala:14:9] wire [5:0] auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_source_0; // @[ClockDomain.scala:14:9] wire [31:0] auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_address_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_c_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_d_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_coh_widget_anon_out_e_bits_sink_0; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_coh_widget_anon_out_e_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_bus_named_fbus_bus_xing_in_a_ready_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [1:0] auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_size_0; // @[ClockDomain.scala:14:9] wire [4:0] auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_source_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_from_bus_named_fbus_bus_xing_in_d_valid_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_opcode_0; // @[ClockDomain.scala:14:9] wire [2:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_param_0; // @[ClockDomain.scala:14:9] wire [3:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_size_0; // @[ClockDomain.scala:14:9] wire [5:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_source_0; // @[ClockDomain.scala:14:9] wire [28:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_address_0; // @[ClockDomain.scala:14:9] wire [7:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_mask_0; // @[ClockDomain.scala:14:9] wire [63:0] auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_data_0; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_corrupt_0; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_cbus_bus_xing_out_a_valid_0; // @[ClockDomain.scala:14:9] wire auto_coupler_to_bus_named_cbus_bus_xing_out_d_ready_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_8_clock_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_8_reset_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_7_clock_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_7_reset_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_6_clock_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_6_reset_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_5_clock_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_5_reset_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_4_clock_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_4_reset_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_3_clock_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_3_reset_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_2_clock_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_2_reset_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_1_clock_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_1_reset_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_0_clock_0; // @[ClockDomain.scala:14:9] wire auto_fixedClockNode_anon_out_0_reset_0; // @[ClockDomain.scala:14:9] wire auto_sbus_clock_groups_out_member_coh_0_clock_0; // @[ClockDomain.scala:14:9] wire auto_sbus_clock_groups_out_member_coh_0_reset_0; // @[ClockDomain.scala:14:9] wire clockSinkNodeIn_clock; // @[MixedNode.scala:551:17] wire clockSinkNodeIn_reset; // @[MixedNode.scala:551:17] wire childClock; // @[LazyModuleImp.scala:155:31] wire childReset; // @[LazyModuleImp.scala:158:31] wire sbus_clock_groups_nodeIn_member_sbus_1_clock = sbus_clock_groups_auto_in_member_sbus_1_clock; // @[ClockGroup.scala:53:9] wire sbus_clock_groups_nodeIn_member_sbus_1_reset = sbus_clock_groups_auto_in_member_sbus_1_reset; // @[ClockGroup.scala:53:9] wire sbus_clock_groups_nodeIn_member_sbus_0_clock = sbus_clock_groups_auto_in_member_sbus_0_clock; // @[ClockGroup.scala:53:9] wire sbus_clock_groups_nodeIn_member_sbus_0_reset = sbus_clock_groups_auto_in_member_sbus_0_reset; // @[ClockGroup.scala:53:9] wire sbus_clock_groups_x1_nodeOut_member_coh_0_clock; // @[MixedNode.scala:542:17] assign auto_sbus_clock_groups_out_member_coh_0_clock_0 = sbus_clock_groups_auto_out_1_member_coh_0_clock; // @[ClockGroup.scala:53:9] wire sbus_clock_groups_x1_nodeOut_member_coh_0_reset; // @[MixedNode.scala:542:17] assign auto_sbus_clock_groups_out_member_coh_0_reset_0 = sbus_clock_groups_auto_out_1_member_coh_0_reset; // @[ClockGroup.scala:53:9] wire sbus_clock_groups_nodeOut_member_sbus_0_clock; // @[MixedNode.scala:542:17] wire sbus_clock_groups_nodeOut_member_sbus_0_reset; // @[MixedNode.scala:542:17] wire clockGroup_auto_in_member_sbus_0_clock = sbus_clock_groups_auto_out_0_member_sbus_0_clock; // @[ClockGroup.scala:24:9, :53:9] wire clockGroup_auto_in_member_sbus_0_reset = sbus_clock_groups_auto_out_0_member_sbus_0_reset; // @[ClockGroup.scala:24:9, :53:9] assign sbus_clock_groups_x1_nodeOut_member_coh_0_clock = sbus_clock_groups_nodeIn_member_sbus_1_clock; // @[MixedNode.scala:542:17, :551:17] assign sbus_clock_groups_x1_nodeOut_member_coh_0_reset = sbus_clock_groups_nodeIn_member_sbus_1_reset; // @[MixedNode.scala:542:17, :551:17] assign sbus_clock_groups_nodeOut_member_sbus_0_clock = sbus_clock_groups_nodeIn_member_sbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign sbus_clock_groups_nodeOut_member_sbus_0_reset = sbus_clock_groups_nodeIn_member_sbus_0_reset; // @[MixedNode.scala:542:17, :551:17] assign sbus_clock_groups_auto_out_0_member_sbus_0_clock = sbus_clock_groups_nodeOut_member_sbus_0_clock; // @[ClockGroup.scala:53:9] assign sbus_clock_groups_auto_out_0_member_sbus_0_reset = sbus_clock_groups_nodeOut_member_sbus_0_reset; // @[ClockGroup.scala:53:9] assign sbus_clock_groups_auto_out_1_member_coh_0_clock = sbus_clock_groups_x1_nodeOut_member_coh_0_clock; // @[ClockGroup.scala:53:9] assign sbus_clock_groups_auto_out_1_member_coh_0_reset = sbus_clock_groups_x1_nodeOut_member_coh_0_reset; // @[ClockGroup.scala:53:9] wire clockGroup_nodeIn_member_sbus_0_clock = clockGroup_auto_in_member_sbus_0_clock; // @[ClockGroup.scala:24:9] wire clockGroup_nodeOut_clock; // @[MixedNode.scala:542:17] wire clockGroup_nodeIn_member_sbus_0_reset = clockGroup_auto_in_member_sbus_0_reset; // @[ClockGroup.scala:24:9] wire clockGroup_nodeOut_reset; // @[MixedNode.scala:542:17] wire clockGroup_auto_out_clock; // @[ClockGroup.scala:24:9] wire clockGroup_auto_out_reset; // @[ClockGroup.scala:24:9] assign clockGroup_auto_out_clock = clockGroup_nodeOut_clock; // @[ClockGroup.scala:24:9] assign clockGroup_auto_out_reset = clockGroup_nodeOut_reset; // @[ClockGroup.scala:24:9] assign clockGroup_nodeOut_clock = clockGroup_nodeIn_member_sbus_0_clock; // @[MixedNode.scala:542:17, :551:17] assign clockGroup_nodeOut_reset = clockGroup_nodeIn_member_sbus_0_reset; // @[MixedNode.scala:542:17, :551:17] wire fixer_x1_anonIn_5_a_ready; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_5_a_valid = fixer_auto_anon_in_6_a_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_5_a_bits_opcode = fixer_auto_anon_in_6_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_5_a_bits_param = fixer_auto_anon_in_6_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonIn_5_a_bits_size = fixer_auto_anon_in_6_a_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonIn_5_a_bits_source = fixer_auto_anon_in_6_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonIn_5_a_bits_address = fixer_auto_anon_in_6_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_x1_anonIn_5_a_bits_mask = fixer_auto_anon_in_6_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonIn_5_a_bits_data = fixer_auto_anon_in_6_a_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_5_a_bits_corrupt = fixer_auto_anon_in_6_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_5_b_ready = fixer_auto_anon_in_6_b_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_5_b_valid; // @[MixedNode.scala:551:17] wire [1:0] fixer_x1_anonIn_5_b_bits_param; // @[MixedNode.scala:551:17] wire [1:0] fixer_x1_anonIn_5_b_bits_source; // @[MixedNode.scala:551:17] wire [31:0] fixer_x1_anonIn_5_b_bits_address; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_5_c_ready; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_5_c_valid = fixer_auto_anon_in_6_c_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_5_c_bits_opcode = fixer_auto_anon_in_6_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_5_c_bits_param = fixer_auto_anon_in_6_c_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonIn_5_c_bits_size = fixer_auto_anon_in_6_c_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonIn_5_c_bits_source = fixer_auto_anon_in_6_c_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonIn_5_c_bits_address = fixer_auto_anon_in_6_c_bits_address; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonIn_5_c_bits_data = fixer_auto_anon_in_6_c_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_5_c_bits_corrupt = fixer_auto_anon_in_6_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_5_d_ready = fixer_auto_anon_in_6_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_5_d_valid; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_5_d_bits_opcode; // @[MixedNode.scala:551:17] wire [1:0] fixer_x1_anonIn_5_d_bits_param; // @[MixedNode.scala:551:17] wire [3:0] fixer_x1_anonIn_5_d_bits_size; // @[MixedNode.scala:551:17] wire [1:0] fixer_x1_anonIn_5_d_bits_source; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_5_d_bits_sink; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_5_d_bits_denied; // @[MixedNode.scala:551:17] wire [63:0] fixer_x1_anonIn_5_d_bits_data; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_5_d_bits_corrupt; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_5_e_ready; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_5_e_valid = fixer_auto_anon_in_6_e_valid; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_4_a_ready; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_5_e_bits_sink = fixer_auto_anon_in_6_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_4_a_valid = fixer_auto_anon_in_5_a_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_4_a_bits_opcode = fixer_auto_anon_in_5_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_4_a_bits_param = fixer_auto_anon_in_5_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonIn_4_a_bits_size = fixer_auto_anon_in_5_a_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_4_a_bits_source = fixer_auto_anon_in_5_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonIn_4_a_bits_address = fixer_auto_anon_in_5_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_x1_anonIn_4_a_bits_mask = fixer_auto_anon_in_5_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonIn_4_a_bits_data = fixer_auto_anon_in_5_a_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_4_a_bits_corrupt = fixer_auto_anon_in_5_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_4_b_ready = fixer_auto_anon_in_5_b_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_4_b_valid; // @[MixedNode.scala:551:17] wire [1:0] fixer_x1_anonIn_4_b_bits_param; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_4_b_bits_source; // @[MixedNode.scala:551:17] wire [31:0] fixer_x1_anonIn_4_b_bits_address; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_4_c_ready; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_4_c_valid = fixer_auto_anon_in_5_c_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_4_c_bits_opcode = fixer_auto_anon_in_5_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_4_c_bits_param = fixer_auto_anon_in_5_c_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonIn_4_c_bits_size = fixer_auto_anon_in_5_c_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_4_c_bits_source = fixer_auto_anon_in_5_c_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonIn_4_c_bits_address = fixer_auto_anon_in_5_c_bits_address; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonIn_4_c_bits_data = fixer_auto_anon_in_5_c_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_4_c_bits_corrupt = fixer_auto_anon_in_5_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_4_d_ready = fixer_auto_anon_in_5_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_4_d_valid; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_4_d_bits_opcode; // @[MixedNode.scala:551:17] wire [1:0] fixer_x1_anonIn_4_d_bits_param; // @[MixedNode.scala:551:17] wire [3:0] fixer_x1_anonIn_4_d_bits_size; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_4_d_bits_source; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_4_d_bits_sink; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_4_d_bits_denied; // @[MixedNode.scala:551:17] wire [63:0] fixer_x1_anonIn_4_d_bits_data; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_4_d_bits_corrupt; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_4_e_ready; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_4_e_valid = fixer_auto_anon_in_5_e_valid; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_3_a_ready; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_4_e_bits_sink = fixer_auto_anon_in_5_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_3_a_valid = fixer_auto_anon_in_4_a_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_3_a_bits_opcode = fixer_auto_anon_in_4_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_3_a_bits_param = fixer_auto_anon_in_4_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonIn_3_a_bits_size = fixer_auto_anon_in_4_a_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_3_a_bits_source = fixer_auto_anon_in_4_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonIn_3_a_bits_address = fixer_auto_anon_in_4_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_x1_anonIn_3_a_bits_mask = fixer_auto_anon_in_4_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonIn_3_a_bits_data = fixer_auto_anon_in_4_a_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_3_a_bits_corrupt = fixer_auto_anon_in_4_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_3_b_ready = fixer_auto_anon_in_4_b_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_3_b_valid; // @[MixedNode.scala:551:17] wire [1:0] fixer_x1_anonIn_3_b_bits_param; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_3_b_bits_source; // @[MixedNode.scala:551:17] wire [31:0] fixer_x1_anonIn_3_b_bits_address; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_3_c_ready; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_3_c_valid = fixer_auto_anon_in_4_c_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_3_c_bits_opcode = fixer_auto_anon_in_4_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_3_c_bits_param = fixer_auto_anon_in_4_c_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonIn_3_c_bits_size = fixer_auto_anon_in_4_c_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_3_c_bits_source = fixer_auto_anon_in_4_c_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonIn_3_c_bits_address = fixer_auto_anon_in_4_c_bits_address; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonIn_3_c_bits_data = fixer_auto_anon_in_4_c_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_3_c_bits_corrupt = fixer_auto_anon_in_4_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_3_d_ready = fixer_auto_anon_in_4_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_3_d_valid; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_3_d_bits_opcode; // @[MixedNode.scala:551:17] wire [1:0] fixer_x1_anonIn_3_d_bits_param; // @[MixedNode.scala:551:17] wire [3:0] fixer_x1_anonIn_3_d_bits_size; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_3_d_bits_source; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_3_d_bits_sink; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_3_d_bits_denied; // @[MixedNode.scala:551:17] wire [63:0] fixer_x1_anonIn_3_d_bits_data; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_3_d_bits_corrupt; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_3_e_ready; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_3_e_valid = fixer_auto_anon_in_4_e_valid; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_2_a_ready; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_3_e_bits_sink = fixer_auto_anon_in_4_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_2_a_valid = fixer_auto_anon_in_3_a_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_2_a_bits_opcode = fixer_auto_anon_in_3_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_2_a_bits_param = fixer_auto_anon_in_3_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonIn_2_a_bits_size = fixer_auto_anon_in_3_a_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_2_a_bits_source = fixer_auto_anon_in_3_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonIn_2_a_bits_address = fixer_auto_anon_in_3_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_x1_anonIn_2_a_bits_mask = fixer_auto_anon_in_3_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonIn_2_a_bits_data = fixer_auto_anon_in_3_a_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_2_a_bits_corrupt = fixer_auto_anon_in_3_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_2_b_ready = fixer_auto_anon_in_3_b_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_2_b_valid; // @[MixedNode.scala:551:17] wire [1:0] fixer_x1_anonIn_2_b_bits_param; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_2_b_bits_source; // @[MixedNode.scala:551:17] wire [31:0] fixer_x1_anonIn_2_b_bits_address; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_2_c_ready; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_2_c_valid = fixer_auto_anon_in_3_c_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_2_c_bits_opcode = fixer_auto_anon_in_3_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_2_c_bits_param = fixer_auto_anon_in_3_c_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonIn_2_c_bits_size = fixer_auto_anon_in_3_c_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_2_c_bits_source = fixer_auto_anon_in_3_c_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonIn_2_c_bits_address = fixer_auto_anon_in_3_c_bits_address; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonIn_2_c_bits_data = fixer_auto_anon_in_3_c_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_2_c_bits_corrupt = fixer_auto_anon_in_3_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_2_d_ready = fixer_auto_anon_in_3_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_2_d_valid; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_2_d_bits_opcode; // @[MixedNode.scala:551:17] wire [1:0] fixer_x1_anonIn_2_d_bits_param; // @[MixedNode.scala:551:17] wire [3:0] fixer_x1_anonIn_2_d_bits_size; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_2_d_bits_source; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_2_d_bits_sink; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_2_d_bits_denied; // @[MixedNode.scala:551:17] wire [63:0] fixer_x1_anonIn_2_d_bits_data; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_2_d_bits_corrupt; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_2_e_ready; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_2_e_valid = fixer_auto_anon_in_3_e_valid; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_1_a_ready; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_2_e_bits_sink = fixer_auto_anon_in_3_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_1_a_valid = fixer_auto_anon_in_2_a_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_1_a_bits_opcode = fixer_auto_anon_in_2_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_1_a_bits_param = fixer_auto_anon_in_2_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonIn_1_a_bits_size = fixer_auto_anon_in_2_a_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_1_a_bits_source = fixer_auto_anon_in_2_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonIn_1_a_bits_address = fixer_auto_anon_in_2_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_x1_anonIn_1_a_bits_mask = fixer_auto_anon_in_2_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonIn_1_a_bits_data = fixer_auto_anon_in_2_a_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_1_a_bits_corrupt = fixer_auto_anon_in_2_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_1_b_ready = fixer_auto_anon_in_2_b_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_1_b_valid; // @[MixedNode.scala:551:17] wire [1:0] fixer_x1_anonIn_1_b_bits_param; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_1_b_bits_source; // @[MixedNode.scala:551:17] wire [31:0] fixer_x1_anonIn_1_b_bits_address; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_1_c_ready; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_1_c_valid = fixer_auto_anon_in_2_c_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_1_c_bits_opcode = fixer_auto_anon_in_2_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_1_c_bits_param = fixer_auto_anon_in_2_c_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonIn_1_c_bits_size = fixer_auto_anon_in_2_c_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_1_c_bits_source = fixer_auto_anon_in_2_c_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonIn_1_c_bits_address = fixer_auto_anon_in_2_c_bits_address; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonIn_1_c_bits_data = fixer_auto_anon_in_2_c_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_1_c_bits_corrupt = fixer_auto_anon_in_2_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_1_d_ready = fixer_auto_anon_in_2_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_1_d_valid; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_1_d_bits_opcode; // @[MixedNode.scala:551:17] wire [1:0] fixer_x1_anonIn_1_d_bits_param; // @[MixedNode.scala:551:17] wire [3:0] fixer_x1_anonIn_1_d_bits_size; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_1_d_bits_source; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_1_d_bits_sink; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_1_d_bits_denied; // @[MixedNode.scala:551:17] wire [63:0] fixer_x1_anonIn_1_d_bits_data; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_1_d_bits_corrupt; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_1_e_ready; // @[MixedNode.scala:551:17] wire fixer_x1_anonIn_1_e_valid = fixer_auto_anon_in_2_e_valid; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_a_ready; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_1_e_bits_sink = fixer_auto_anon_in_2_e_bits_sink; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_auto_tl_out_a_ready = fixer_auto_anon_in_1_a_ready; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_auto_tl_out_a_valid; // @[LazyModuleImp.scala:138:7] wire fixer_x1_anonIn_a_valid = fixer_auto_anon_in_1_a_valid; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_rockettile_auto_tl_out_a_bits_opcode; // @[LazyModuleImp.scala:138:7] wire [2:0] fixer_x1_anonIn_a_bits_opcode = fixer_auto_anon_in_1_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_rockettile_auto_tl_out_a_bits_param; // @[LazyModuleImp.scala:138:7] wire [2:0] fixer_x1_anonIn_a_bits_param = fixer_auto_anon_in_1_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] coupler_from_rockettile_auto_tl_out_a_bits_size; // @[LazyModuleImp.scala:138:7] wire [3:0] fixer_x1_anonIn_a_bits_size = fixer_auto_anon_in_1_a_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] coupler_from_rockettile_auto_tl_out_a_bits_source; // @[LazyModuleImp.scala:138:7] wire [1:0] fixer_x1_anonIn_a_bits_source = fixer_auto_anon_in_1_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] coupler_from_rockettile_auto_tl_out_a_bits_address; // @[LazyModuleImp.scala:138:7] wire [31:0] fixer_x1_anonIn_a_bits_address = fixer_auto_anon_in_1_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] coupler_from_rockettile_auto_tl_out_a_bits_mask; // @[LazyModuleImp.scala:138:7] wire [7:0] fixer_x1_anonIn_a_bits_mask = fixer_auto_anon_in_1_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] coupler_from_rockettile_auto_tl_out_a_bits_data; // @[LazyModuleImp.scala:138:7] wire [63:0] fixer_x1_anonIn_a_bits_data = fixer_auto_anon_in_1_a_bits_data; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_auto_tl_out_a_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire fixer_x1_anonIn_a_bits_corrupt = fixer_auto_anon_in_1_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_auto_tl_out_b_ready; // @[LazyModuleImp.scala:138:7] wire fixer_x1_anonIn_b_ready = fixer_auto_anon_in_1_b_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_b_valid; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_auto_tl_out_b_valid = fixer_auto_anon_in_1_b_valid; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonIn_b_bits_param; // @[MixedNode.scala:551:17] wire [1:0] coupler_from_rockettile_auto_tl_out_b_bits_param = fixer_auto_anon_in_1_b_bits_param; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonIn_b_bits_source; // @[MixedNode.scala:551:17] wire [31:0] fixer_x1_anonIn_b_bits_address; // @[MixedNode.scala:551:17] wire [1:0] coupler_from_rockettile_auto_tl_out_b_bits_source = fixer_auto_anon_in_1_b_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] coupler_from_rockettile_auto_tl_out_b_bits_address = fixer_auto_anon_in_1_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_c_ready; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_auto_tl_out_c_ready = fixer_auto_anon_in_1_c_ready; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_auto_tl_out_c_valid; // @[LazyModuleImp.scala:138:7] wire fixer_x1_anonIn_c_valid = fixer_auto_anon_in_1_c_valid; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_rockettile_auto_tl_out_c_bits_opcode; // @[LazyModuleImp.scala:138:7] wire [2:0] fixer_x1_anonIn_c_bits_opcode = fixer_auto_anon_in_1_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_rockettile_auto_tl_out_c_bits_param; // @[LazyModuleImp.scala:138:7] wire [2:0] fixer_x1_anonIn_c_bits_param = fixer_auto_anon_in_1_c_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] coupler_from_rockettile_auto_tl_out_c_bits_size; // @[LazyModuleImp.scala:138:7] wire [3:0] fixer_x1_anonIn_c_bits_size = fixer_auto_anon_in_1_c_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] coupler_from_rockettile_auto_tl_out_c_bits_source; // @[LazyModuleImp.scala:138:7] wire [1:0] fixer_x1_anonIn_c_bits_source = fixer_auto_anon_in_1_c_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] coupler_from_rockettile_auto_tl_out_c_bits_address; // @[LazyModuleImp.scala:138:7] wire [31:0] fixer_x1_anonIn_c_bits_address = fixer_auto_anon_in_1_c_bits_address; // @[FIFOFixer.scala:50:9] wire [63:0] coupler_from_rockettile_auto_tl_out_c_bits_data; // @[LazyModuleImp.scala:138:7] wire [63:0] fixer_x1_anonIn_c_bits_data = fixer_auto_anon_in_1_c_bits_data; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_auto_tl_out_c_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire fixer_x1_anonIn_c_bits_corrupt = fixer_auto_anon_in_1_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_auto_tl_out_d_ready; // @[LazyModuleImp.scala:138:7] wire fixer_x1_anonIn_d_ready = fixer_auto_anon_in_1_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_d_valid; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_d_bits_opcode; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_auto_tl_out_d_valid = fixer_auto_anon_in_1_d_valid; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonIn_d_bits_param; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_rockettile_auto_tl_out_d_bits_opcode = fixer_auto_anon_in_1_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonIn_d_bits_size; // @[MixedNode.scala:551:17] wire [1:0] coupler_from_rockettile_auto_tl_out_d_bits_param = fixer_auto_anon_in_1_d_bits_param; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonIn_d_bits_source; // @[MixedNode.scala:551:17] wire [3:0] coupler_from_rockettile_auto_tl_out_d_bits_size = fixer_auto_anon_in_1_d_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonIn_d_bits_sink; // @[MixedNode.scala:551:17] wire [1:0] coupler_from_rockettile_auto_tl_out_d_bits_source = fixer_auto_anon_in_1_d_bits_source; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_d_bits_denied; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_rockettile_auto_tl_out_d_bits_sink = fixer_auto_anon_in_1_d_bits_sink; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonIn_d_bits_data; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_auto_tl_out_d_bits_denied = fixer_auto_anon_in_1_d_bits_denied; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_d_bits_corrupt; // @[MixedNode.scala:551:17] wire [63:0] coupler_from_rockettile_auto_tl_out_d_bits_data = fixer_auto_anon_in_1_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonIn_e_ready; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_auto_tl_out_d_bits_corrupt = fixer_auto_anon_in_1_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_auto_tl_out_e_ready = fixer_auto_anon_in_1_e_ready; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_auto_tl_out_e_valid; // @[LazyModuleImp.scala:138:7] wire fixer_x1_anonIn_e_valid = fixer_auto_anon_in_1_e_valid; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_rockettile_auto_tl_out_e_bits_sink; // @[LazyModuleImp.scala:138:7] wire fixer_anonIn_a_ready; // @[MixedNode.scala:551:17] wire [2:0] fixer_x1_anonIn_e_bits_sink = fixer_auto_anon_in_1_e_bits_sink; // @[FIFOFixer.scala:50:9] wire coupler_from_bus_named_fbus_auto_widget_anon_out_a_ready = fixer_auto_anon_in_0_a_ready; // @[FIFOFixer.scala:50:9] wire coupler_from_bus_named_fbus_auto_widget_anon_out_a_valid; // @[LazyModuleImp.scala:138:7] wire fixer_anonIn_a_valid = fixer_auto_anon_in_0_a_valid; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_opcode; // @[LazyModuleImp.scala:138:7] wire [2:0] fixer_anonIn_a_bits_opcode = fixer_auto_anon_in_0_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_param; // @[LazyModuleImp.scala:138:7] wire [2:0] fixer_anonIn_a_bits_param = fixer_auto_anon_in_0_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_size; // @[LazyModuleImp.scala:138:7] wire [3:0] fixer_anonIn_a_bits_size = fixer_auto_anon_in_0_a_bits_size; // @[FIFOFixer.scala:50:9] wire [4:0] coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_source; // @[LazyModuleImp.scala:138:7] wire [4:0] fixer_anonIn_a_bits_source = fixer_auto_anon_in_0_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_address; // @[LazyModuleImp.scala:138:7] wire [31:0] fixer_anonIn_a_bits_address = fixer_auto_anon_in_0_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_mask; // @[LazyModuleImp.scala:138:7] wire [7:0] fixer_anonIn_a_bits_mask = fixer_auto_anon_in_0_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_data; // @[LazyModuleImp.scala:138:7] wire [63:0] fixer_anonIn_a_bits_data = fixer_auto_anon_in_0_a_bits_data; // @[FIFOFixer.scala:50:9] wire coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire fixer_anonIn_a_bits_corrupt = fixer_auto_anon_in_0_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire coupler_from_bus_named_fbus_auto_widget_anon_out_d_ready; // @[LazyModuleImp.scala:138:7] wire fixer_anonIn_d_ready = fixer_auto_anon_in_0_d_ready; // @[FIFOFixer.scala:50:9] wire fixer_anonIn_d_valid; // @[MixedNode.scala:551:17] wire [2:0] fixer_anonIn_d_bits_opcode; // @[MixedNode.scala:551:17] wire coupler_from_bus_named_fbus_auto_widget_anon_out_d_valid = fixer_auto_anon_in_0_d_valid; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_anonIn_d_bits_param; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_opcode = fixer_auto_anon_in_0_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_anonIn_d_bits_size; // @[MixedNode.scala:551:17] wire [1:0] coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_param = fixer_auto_anon_in_0_d_bits_param; // @[FIFOFixer.scala:50:9] wire [4:0] fixer_anonIn_d_bits_source; // @[MixedNode.scala:551:17] wire [3:0] coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_size = fixer_auto_anon_in_0_d_bits_size; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_anonIn_d_bits_sink; // @[MixedNode.scala:551:17] wire [4:0] coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_source = fixer_auto_anon_in_0_d_bits_source; // @[FIFOFixer.scala:50:9] wire fixer_anonIn_d_bits_denied; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_sink = fixer_auto_anon_in_0_d_bits_sink; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_anonIn_d_bits_data; // @[MixedNode.scala:551:17] wire coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_denied = fixer_auto_anon_in_0_d_bits_denied; // @[FIFOFixer.scala:50:9] wire fixer_anonIn_d_bits_corrupt; // @[MixedNode.scala:551:17] wire [63:0] coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_data = fixer_auto_anon_in_0_d_bits_data; // @[FIFOFixer.scala:50:9] wire coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_corrupt = fixer_auto_anon_in_0_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_5_a_ready = fixer_auto_anon_out_6_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_5_a_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_5_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_5_a_bits_param; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_5_a_bits_size; // @[MixedNode.scala:542:17] wire [1:0] fixer_x1_anonOut_5_a_bits_source; // @[MixedNode.scala:542:17] wire [31:0] fixer_x1_anonOut_5_a_bits_address; // @[MixedNode.scala:542:17] wire [7:0] fixer_x1_anonOut_5_a_bits_mask; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_5_a_bits_data; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_5_a_bits_corrupt; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_5_b_ready; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_5_b_valid = fixer_auto_anon_out_6_b_valid; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_5_b_bits_param = fixer_auto_anon_out_6_b_bits_param; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_5_b_bits_source = fixer_auto_anon_out_6_b_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonOut_5_b_bits_address = fixer_auto_anon_out_6_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_5_c_ready = fixer_auto_anon_out_6_c_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_5_c_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_5_c_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_5_c_bits_param; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_5_c_bits_size; // @[MixedNode.scala:542:17] wire [1:0] fixer_x1_anonOut_5_c_bits_source; // @[MixedNode.scala:542:17] wire [31:0] fixer_x1_anonOut_5_c_bits_address; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_5_c_bits_data; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_5_c_bits_corrupt; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_5_d_ready; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_5_d_valid = fixer_auto_anon_out_6_d_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonOut_5_d_bits_opcode = fixer_auto_anon_out_6_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_5_d_bits_param = fixer_auto_anon_out_6_d_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonOut_5_d_bits_size = fixer_auto_anon_out_6_d_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_5_d_bits_source = fixer_auto_anon_out_6_d_bits_source; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonOut_5_d_bits_sink = fixer_auto_anon_out_6_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_5_d_bits_denied = fixer_auto_anon_out_6_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonOut_5_d_bits_data = fixer_auto_anon_out_6_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_5_d_bits_corrupt = fixer_auto_anon_out_6_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_5_e_ready = fixer_auto_anon_out_6_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_5_e_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_5_e_bits_sink; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_4_a_ready = fixer_auto_anon_out_5_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_4_a_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_4_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_4_a_bits_param; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_4_a_bits_size; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_4_a_bits_source; // @[MixedNode.scala:542:17] wire [31:0] fixer_x1_anonOut_4_a_bits_address; // @[MixedNode.scala:542:17] wire [7:0] fixer_x1_anonOut_4_a_bits_mask; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_4_a_bits_data; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_4_a_bits_corrupt; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_4_b_ready; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_4_b_valid = fixer_auto_anon_out_5_b_valid; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_4_b_bits_param = fixer_auto_anon_out_5_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_4_b_bits_source = fixer_auto_anon_out_5_b_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonOut_4_b_bits_address = fixer_auto_anon_out_5_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_4_c_ready = fixer_auto_anon_out_5_c_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_4_c_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_4_c_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_4_c_bits_param; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_4_c_bits_size; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_4_c_bits_source; // @[MixedNode.scala:542:17] wire [31:0] fixer_x1_anonOut_4_c_bits_address; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_4_c_bits_data; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_4_c_bits_corrupt; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_4_d_ready; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_4_d_valid = fixer_auto_anon_out_5_d_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonOut_4_d_bits_opcode = fixer_auto_anon_out_5_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_4_d_bits_param = fixer_auto_anon_out_5_d_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonOut_4_d_bits_size = fixer_auto_anon_out_5_d_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_4_d_bits_source = fixer_auto_anon_out_5_d_bits_source; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonOut_4_d_bits_sink = fixer_auto_anon_out_5_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_4_d_bits_denied = fixer_auto_anon_out_5_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonOut_4_d_bits_data = fixer_auto_anon_out_5_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_4_d_bits_corrupt = fixer_auto_anon_out_5_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_4_e_ready = fixer_auto_anon_out_5_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_4_e_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_4_e_bits_sink; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_3_a_ready = fixer_auto_anon_out_4_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_3_a_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_3_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_3_a_bits_param; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_3_a_bits_size; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_3_a_bits_source; // @[MixedNode.scala:542:17] wire [31:0] fixer_x1_anonOut_3_a_bits_address; // @[MixedNode.scala:542:17] wire [7:0] fixer_x1_anonOut_3_a_bits_mask; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_3_a_bits_data; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_3_a_bits_corrupt; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_3_b_ready; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_3_b_valid = fixer_auto_anon_out_4_b_valid; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_3_b_bits_param = fixer_auto_anon_out_4_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_3_b_bits_source = fixer_auto_anon_out_4_b_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonOut_3_b_bits_address = fixer_auto_anon_out_4_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_3_c_ready = fixer_auto_anon_out_4_c_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_3_c_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_3_c_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_3_c_bits_param; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_3_c_bits_size; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_3_c_bits_source; // @[MixedNode.scala:542:17] wire [31:0] fixer_x1_anonOut_3_c_bits_address; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_3_c_bits_data; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_3_c_bits_corrupt; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_3_d_ready; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_3_d_valid = fixer_auto_anon_out_4_d_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonOut_3_d_bits_opcode = fixer_auto_anon_out_4_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_3_d_bits_param = fixer_auto_anon_out_4_d_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonOut_3_d_bits_size = fixer_auto_anon_out_4_d_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_3_d_bits_source = fixer_auto_anon_out_4_d_bits_source; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonOut_3_d_bits_sink = fixer_auto_anon_out_4_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_3_d_bits_denied = fixer_auto_anon_out_4_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonOut_3_d_bits_data = fixer_auto_anon_out_4_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_3_d_bits_corrupt = fixer_auto_anon_out_4_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_3_e_ready = fixer_auto_anon_out_4_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_3_e_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_3_e_bits_sink; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_2_a_ready = fixer_auto_anon_out_3_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_2_a_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_2_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_2_a_bits_param; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_2_a_bits_size; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_2_a_bits_source; // @[MixedNode.scala:542:17] wire [31:0] fixer_x1_anonOut_2_a_bits_address; // @[MixedNode.scala:542:17] wire [7:0] fixer_x1_anonOut_2_a_bits_mask; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_2_a_bits_data; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_2_a_bits_corrupt; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_2_b_ready; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_2_b_valid = fixer_auto_anon_out_3_b_valid; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_2_b_bits_param = fixer_auto_anon_out_3_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_2_b_bits_source = fixer_auto_anon_out_3_b_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonOut_2_b_bits_address = fixer_auto_anon_out_3_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_2_c_ready = fixer_auto_anon_out_3_c_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_2_c_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_2_c_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_2_c_bits_param; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_2_c_bits_size; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_2_c_bits_source; // @[MixedNode.scala:542:17] wire [31:0] fixer_x1_anonOut_2_c_bits_address; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_2_c_bits_data; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_2_c_bits_corrupt; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_2_d_ready; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_2_d_valid = fixer_auto_anon_out_3_d_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonOut_2_d_bits_opcode = fixer_auto_anon_out_3_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_2_d_bits_param = fixer_auto_anon_out_3_d_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonOut_2_d_bits_size = fixer_auto_anon_out_3_d_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_2_d_bits_source = fixer_auto_anon_out_3_d_bits_source; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonOut_2_d_bits_sink = fixer_auto_anon_out_3_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_2_d_bits_denied = fixer_auto_anon_out_3_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonOut_2_d_bits_data = fixer_auto_anon_out_3_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_2_d_bits_corrupt = fixer_auto_anon_out_3_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_2_e_ready = fixer_auto_anon_out_3_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_2_e_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_2_e_bits_sink; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_1_a_ready = fixer_auto_anon_out_2_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_1_a_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_1_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_1_a_bits_param; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_1_a_bits_size; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_1_a_bits_source; // @[MixedNode.scala:542:17] wire [31:0] fixer_x1_anonOut_1_a_bits_address; // @[MixedNode.scala:542:17] wire [7:0] fixer_x1_anonOut_1_a_bits_mask; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_1_a_bits_data; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_1_a_bits_corrupt; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_1_b_ready; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_1_b_valid = fixer_auto_anon_out_2_b_valid; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_1_b_bits_param = fixer_auto_anon_out_2_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_1_b_bits_source = fixer_auto_anon_out_2_b_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonOut_1_b_bits_address = fixer_auto_anon_out_2_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_1_c_ready = fixer_auto_anon_out_2_c_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_1_c_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_1_c_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_1_c_bits_param; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_1_c_bits_size; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_1_c_bits_source; // @[MixedNode.scala:542:17] wire [31:0] fixer_x1_anonOut_1_c_bits_address; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_1_c_bits_data; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_1_c_bits_corrupt; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_1_d_ready; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_1_d_valid = fixer_auto_anon_out_2_d_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonOut_1_d_bits_opcode = fixer_auto_anon_out_2_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_1_d_bits_param = fixer_auto_anon_out_2_d_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonOut_1_d_bits_size = fixer_auto_anon_out_2_d_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_1_d_bits_source = fixer_auto_anon_out_2_d_bits_source; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonOut_1_d_bits_sink = fixer_auto_anon_out_2_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_1_d_bits_denied = fixer_auto_anon_out_2_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonOut_1_d_bits_data = fixer_auto_anon_out_2_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_1_d_bits_corrupt = fixer_auto_anon_out_2_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_1_e_ready = fixer_auto_anon_out_2_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_1_e_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_1_e_bits_sink; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_a_ready = fixer_auto_anon_out_1_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_a_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_a_bits_param; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_a_bits_size; // @[MixedNode.scala:542:17] wire [1:0] fixer_x1_anonOut_a_bits_source; // @[MixedNode.scala:542:17] wire [31:0] fixer_x1_anonOut_a_bits_address; // @[MixedNode.scala:542:17] wire [7:0] fixer_x1_anonOut_a_bits_mask; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_a_bits_data; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_a_bits_corrupt; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_b_ready; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_b_valid = fixer_auto_anon_out_1_b_valid; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_b_bits_param = fixer_auto_anon_out_1_b_bits_param; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_b_bits_source = fixer_auto_anon_out_1_b_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_x1_anonOut_b_bits_address = fixer_auto_anon_out_1_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_c_ready = fixer_auto_anon_out_1_c_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_c_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_c_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_c_bits_param; // @[MixedNode.scala:542:17] wire [3:0] fixer_x1_anonOut_c_bits_size; // @[MixedNode.scala:542:17] wire [1:0] fixer_x1_anonOut_c_bits_source; // @[MixedNode.scala:542:17] wire [31:0] fixer_x1_anonOut_c_bits_address; // @[MixedNode.scala:542:17] wire [63:0] fixer_x1_anonOut_c_bits_data; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_c_bits_corrupt; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_d_ready; // @[MixedNode.scala:542:17] wire fixer_x1_anonOut_d_valid = fixer_auto_anon_out_1_d_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonOut_d_bits_opcode = fixer_auto_anon_out_1_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_d_bits_param = fixer_auto_anon_out_1_d_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_x1_anonOut_d_bits_size = fixer_auto_anon_out_1_d_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_x1_anonOut_d_bits_source = fixer_auto_anon_out_1_d_bits_source; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_x1_anonOut_d_bits_sink = fixer_auto_anon_out_1_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_d_bits_denied = fixer_auto_anon_out_1_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_x1_anonOut_d_bits_data = fixer_auto_anon_out_1_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_d_bits_corrupt = fixer_auto_anon_out_1_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_e_ready = fixer_auto_anon_out_1_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_x1_anonOut_e_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_x1_anonOut_e_bits_sink; // @[MixedNode.scala:542:17] wire fixer_anonOut_a_ready = fixer_auto_anon_out_0_a_ready; // @[FIFOFixer.scala:50:9] wire fixer_anonOut_a_valid; // @[MixedNode.scala:542:17] wire [2:0] fixer_anonOut_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] fixer_anonOut_a_bits_param; // @[MixedNode.scala:542:17] wire [3:0] fixer_anonOut_a_bits_size; // @[MixedNode.scala:542:17] wire [4:0] fixer_anonOut_a_bits_source; // @[MixedNode.scala:542:17] wire [31:0] fixer_anonOut_a_bits_address; // @[MixedNode.scala:542:17] wire [7:0] fixer_anonOut_a_bits_mask; // @[MixedNode.scala:542:17] wire [63:0] fixer_anonOut_a_bits_data; // @[MixedNode.scala:542:17] wire fixer_anonOut_a_bits_corrupt; // @[MixedNode.scala:542:17] wire fixer_anonOut_d_ready; // @[MixedNode.scala:542:17] wire fixer_anonOut_d_valid = fixer_auto_anon_out_0_d_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_anonOut_d_bits_opcode = fixer_auto_anon_out_0_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_anonOut_d_bits_param = fixer_auto_anon_out_0_d_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_anonOut_d_bits_size = fixer_auto_anon_out_0_d_bits_size; // @[FIFOFixer.scala:50:9] wire [4:0] fixer_anonOut_d_bits_source = fixer_auto_anon_out_0_d_bits_source; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_anonOut_d_bits_sink = fixer_auto_anon_out_0_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_anonOut_d_bits_denied = fixer_auto_anon_out_0_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_anonOut_d_bits_data = fixer_auto_anon_out_0_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_anonOut_d_bits_corrupt = fixer_auto_anon_out_0_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_a_ready; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_6_b_bits_param; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_6_b_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_6_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_b_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_c_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_6_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_6_d_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_6_d_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_6_d_bits_source; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_6_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_6_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_6_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_a_ready; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_5_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_b_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_5_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_b_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_c_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_5_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_5_d_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_5_d_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_d_bits_source; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_5_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_5_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_5_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_a_ready; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_4_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_b_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_4_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_b_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_c_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_4_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_4_d_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_4_d_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_d_bits_source; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_4_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_4_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_4_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_a_ready; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_3_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_b_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_3_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_b_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_c_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_3_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_3_d_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_3_d_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_d_bits_source; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_3_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_3_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_3_e_ready; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_a_ready; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_2_b_bits_param; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_b_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_in_2_b_bits_address; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_b_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_c_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_2_d_bits_opcode; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_in_2_d_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_in_2_d_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_d_bits_source; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_in_2_d_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_d_bits_denied; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_in_2_d_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_d_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_d_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_in_2_e_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_6_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_6_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_6_a_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_6_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_6_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_out_6_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_6_a_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_b_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_6_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_6_c_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_6_c_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_6_c_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_6_c_bits_address; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_6_c_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_c_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_d_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_6_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_6_e_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_5_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_5_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_5_a_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_5_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_out_5_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_5_a_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_b_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_5_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_5_c_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_5_c_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_c_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_5_c_bits_address; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_5_c_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_c_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_d_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_5_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_5_e_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_4_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_4_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_4_a_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_4_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_out_4_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_4_a_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_b_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_4_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_4_c_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_4_c_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_c_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_4_c_bits_address; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_4_c_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_c_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_d_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_4_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_4_e_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_3_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_3_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_3_a_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_3_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_out_3_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_3_a_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_b_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_3_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_3_c_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_3_c_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_c_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_3_c_bits_address; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_3_c_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_c_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_d_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_3_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_3_e_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_2_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_2_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_2_a_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_2_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_out_2_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_2_a_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_b_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_2_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_2_c_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_2_c_bits_size; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_c_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_2_c_bits_address; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_2_c_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_c_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_d_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_2_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_2_e_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_1_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_1_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_1_a_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_1_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_1_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_out_1_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_1_a_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_b_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_1_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_1_c_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_1_c_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] fixer_auto_anon_out_1_c_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_1_c_bits_address; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_1_c_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_c_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_d_ready; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_1_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_1_e_valid; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_0_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] fixer_auto_anon_out_0_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] fixer_auto_anon_out_0_a_bits_size; // @[FIFOFixer.scala:50:9] wire [4:0] fixer_auto_anon_out_0_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] fixer_auto_anon_out_0_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] fixer_auto_anon_out_0_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] fixer_auto_anon_out_0_a_bits_data; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_0_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_0_a_valid; // @[FIFOFixer.scala:50:9] wire fixer_auto_anon_out_0_d_ready; // @[FIFOFixer.scala:50:9] wire fixer__anonOut_a_valid_T_2; // @[FIFOFixer.scala:95:33] wire fixer__anonIn_a_ready_T_2 = fixer_anonOut_a_ready; // @[FIFOFixer.scala:96:33] assign fixer_auto_anon_out_0_a_valid = fixer_anonOut_a_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_0_a_bits_opcode = fixer_anonOut_a_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_0_a_bits_param = fixer_anonOut_a_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_0_a_bits_size = fixer_anonOut_a_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_0_a_bits_source = fixer_anonOut_a_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_0_a_bits_address = fixer_anonOut_a_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_0_a_bits_mask = fixer_anonOut_a_bits_mask; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_0_a_bits_data = fixer_anonOut_a_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_0_a_bits_corrupt = fixer_anonOut_a_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_0_d_ready = fixer_anonOut_d_ready; // @[FIFOFixer.scala:50:9] assign fixer_anonIn_d_valid = fixer_anonOut_d_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonIn_d_bits_opcode = fixer_anonOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonIn_d_bits_param = fixer_anonOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonIn_d_bits_size = fixer_anonOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonIn_d_bits_source = fixer_anonOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonIn_d_bits_sink = fixer_anonOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonIn_d_bits_denied = fixer_anonOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonIn_d_bits_data = fixer_anonOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonIn_d_bits_corrupt = fixer_anonOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire fixer__anonOut_a_valid_T_5; // @[FIFOFixer.scala:95:33] wire fixer__anonIn_a_ready_T_5 = fixer_x1_anonOut_a_ready; // @[FIFOFixer.scala:96:33] assign fixer_auto_anon_out_1_a_valid = fixer_x1_anonOut_a_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_a_bits_opcode = fixer_x1_anonOut_a_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_a_bits_param = fixer_x1_anonOut_a_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_a_bits_size = fixer_x1_anonOut_a_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_a_bits_source = fixer_x1_anonOut_a_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_a_bits_address = fixer_x1_anonOut_a_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_a_bits_mask = fixer_x1_anonOut_a_bits_mask; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_a_bits_data = fixer_x1_anonOut_a_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_a_bits_corrupt = fixer_x1_anonOut_a_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_b_ready = fixer_x1_anonOut_b_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonIn_b_valid = fixer_x1_anonOut_b_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_b_bits_param = fixer_x1_anonOut_b_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_b_bits_source = fixer_x1_anonOut_b_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_b_bits_address = fixer_x1_anonOut_b_bits_address; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_c_ready = fixer_x1_anonOut_c_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_out_1_c_valid = fixer_x1_anonOut_c_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_c_bits_opcode = fixer_x1_anonOut_c_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_c_bits_param = fixer_x1_anonOut_c_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_c_bits_size = fixer_x1_anonOut_c_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_c_bits_source = fixer_x1_anonOut_c_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_c_bits_address = fixer_x1_anonOut_c_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_c_bits_data = fixer_x1_anonOut_c_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_c_bits_corrupt = fixer_x1_anonOut_c_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_d_ready = fixer_x1_anonOut_d_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonIn_d_valid = fixer_x1_anonOut_d_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_d_bits_opcode = fixer_x1_anonOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_d_bits_param = fixer_x1_anonOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_d_bits_size = fixer_x1_anonOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_d_bits_source = fixer_x1_anonOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_d_bits_sink = fixer_x1_anonOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_d_bits_denied = fixer_x1_anonOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_d_bits_data = fixer_x1_anonOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_d_bits_corrupt = fixer_x1_anonOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_e_ready = fixer_x1_anonOut_e_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_out_1_e_valid = fixer_x1_anonOut_e_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_1_e_bits_sink = fixer_x1_anonOut_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer__anonOut_a_valid_T_8; // @[FIFOFixer.scala:95:33] wire fixer__anonIn_a_ready_T_8 = fixer_x1_anonOut_1_a_ready; // @[FIFOFixer.scala:96:33] assign fixer_auto_anon_out_2_a_valid = fixer_x1_anonOut_1_a_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_a_bits_opcode = fixer_x1_anonOut_1_a_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_a_bits_param = fixer_x1_anonOut_1_a_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_a_bits_size = fixer_x1_anonOut_1_a_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_a_bits_source = fixer_x1_anonOut_1_a_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_a_bits_address = fixer_x1_anonOut_1_a_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_a_bits_mask = fixer_x1_anonOut_1_a_bits_mask; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_a_bits_data = fixer_x1_anonOut_1_a_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_a_bits_corrupt = fixer_x1_anonOut_1_a_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_b_ready = fixer_x1_anonOut_1_b_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonIn_1_b_valid = fixer_x1_anonOut_1_b_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_1_b_bits_param = fixer_x1_anonOut_1_b_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_1_b_bits_source = fixer_x1_anonOut_1_b_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_1_b_bits_address = fixer_x1_anonOut_1_b_bits_address; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_1_c_ready = fixer_x1_anonOut_1_c_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_out_2_c_valid = fixer_x1_anonOut_1_c_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_c_bits_opcode = fixer_x1_anonOut_1_c_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_c_bits_param = fixer_x1_anonOut_1_c_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_c_bits_size = fixer_x1_anonOut_1_c_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_c_bits_source = fixer_x1_anonOut_1_c_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_c_bits_address = fixer_x1_anonOut_1_c_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_c_bits_data = fixer_x1_anonOut_1_c_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_c_bits_corrupt = fixer_x1_anonOut_1_c_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_d_ready = fixer_x1_anonOut_1_d_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonIn_1_d_valid = fixer_x1_anonOut_1_d_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_1_d_bits_opcode = fixer_x1_anonOut_1_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_1_d_bits_param = fixer_x1_anonOut_1_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_1_d_bits_size = fixer_x1_anonOut_1_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_1_d_bits_source = fixer_x1_anonOut_1_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_1_d_bits_sink = fixer_x1_anonOut_1_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_1_d_bits_denied = fixer_x1_anonOut_1_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_1_d_bits_data = fixer_x1_anonOut_1_d_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_1_d_bits_corrupt = fixer_x1_anonOut_1_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_1_e_ready = fixer_x1_anonOut_1_e_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_out_2_e_valid = fixer_x1_anonOut_1_e_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_2_e_bits_sink = fixer_x1_anonOut_1_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer__anonOut_a_valid_T_11; // @[FIFOFixer.scala:95:33] wire fixer__anonIn_a_ready_T_11 = fixer_x1_anonOut_2_a_ready; // @[FIFOFixer.scala:96:33] assign fixer_auto_anon_out_3_a_valid = fixer_x1_anonOut_2_a_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_a_bits_opcode = fixer_x1_anonOut_2_a_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_a_bits_param = fixer_x1_anonOut_2_a_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_a_bits_size = fixer_x1_anonOut_2_a_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_a_bits_source = fixer_x1_anonOut_2_a_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_a_bits_address = fixer_x1_anonOut_2_a_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_a_bits_mask = fixer_x1_anonOut_2_a_bits_mask; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_a_bits_data = fixer_x1_anonOut_2_a_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_a_bits_corrupt = fixer_x1_anonOut_2_a_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_b_ready = fixer_x1_anonOut_2_b_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonIn_2_b_valid = fixer_x1_anonOut_2_b_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_2_b_bits_param = fixer_x1_anonOut_2_b_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_2_b_bits_source = fixer_x1_anonOut_2_b_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_2_b_bits_address = fixer_x1_anonOut_2_b_bits_address; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_2_c_ready = fixer_x1_anonOut_2_c_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_out_3_c_valid = fixer_x1_anonOut_2_c_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_c_bits_opcode = fixer_x1_anonOut_2_c_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_c_bits_param = fixer_x1_anonOut_2_c_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_c_bits_size = fixer_x1_anonOut_2_c_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_c_bits_source = fixer_x1_anonOut_2_c_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_c_bits_address = fixer_x1_anonOut_2_c_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_c_bits_data = fixer_x1_anonOut_2_c_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_c_bits_corrupt = fixer_x1_anonOut_2_c_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_d_ready = fixer_x1_anonOut_2_d_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonIn_2_d_valid = fixer_x1_anonOut_2_d_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_2_d_bits_opcode = fixer_x1_anonOut_2_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_2_d_bits_param = fixer_x1_anonOut_2_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_2_d_bits_size = fixer_x1_anonOut_2_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_2_d_bits_source = fixer_x1_anonOut_2_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_2_d_bits_sink = fixer_x1_anonOut_2_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_2_d_bits_denied = fixer_x1_anonOut_2_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_2_d_bits_data = fixer_x1_anonOut_2_d_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_2_d_bits_corrupt = fixer_x1_anonOut_2_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_2_e_ready = fixer_x1_anonOut_2_e_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_out_3_e_valid = fixer_x1_anonOut_2_e_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_3_e_bits_sink = fixer_x1_anonOut_2_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer__anonOut_a_valid_T_14; // @[FIFOFixer.scala:95:33] wire fixer__anonIn_a_ready_T_14 = fixer_x1_anonOut_3_a_ready; // @[FIFOFixer.scala:96:33] assign fixer_auto_anon_out_4_a_valid = fixer_x1_anonOut_3_a_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_a_bits_opcode = fixer_x1_anonOut_3_a_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_a_bits_param = fixer_x1_anonOut_3_a_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_a_bits_size = fixer_x1_anonOut_3_a_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_a_bits_source = fixer_x1_anonOut_3_a_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_a_bits_address = fixer_x1_anonOut_3_a_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_a_bits_mask = fixer_x1_anonOut_3_a_bits_mask; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_a_bits_data = fixer_x1_anonOut_3_a_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_a_bits_corrupt = fixer_x1_anonOut_3_a_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_b_ready = fixer_x1_anonOut_3_b_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonIn_3_b_valid = fixer_x1_anonOut_3_b_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_3_b_bits_param = fixer_x1_anonOut_3_b_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_3_b_bits_source = fixer_x1_anonOut_3_b_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_3_b_bits_address = fixer_x1_anonOut_3_b_bits_address; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_3_c_ready = fixer_x1_anonOut_3_c_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_out_4_c_valid = fixer_x1_anonOut_3_c_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_c_bits_opcode = fixer_x1_anonOut_3_c_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_c_bits_param = fixer_x1_anonOut_3_c_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_c_bits_size = fixer_x1_anonOut_3_c_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_c_bits_source = fixer_x1_anonOut_3_c_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_c_bits_address = fixer_x1_anonOut_3_c_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_c_bits_data = fixer_x1_anonOut_3_c_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_c_bits_corrupt = fixer_x1_anonOut_3_c_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_d_ready = fixer_x1_anonOut_3_d_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonIn_3_d_valid = fixer_x1_anonOut_3_d_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_3_d_bits_opcode = fixer_x1_anonOut_3_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_3_d_bits_param = fixer_x1_anonOut_3_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_3_d_bits_size = fixer_x1_anonOut_3_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_3_d_bits_source = fixer_x1_anonOut_3_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_3_d_bits_sink = fixer_x1_anonOut_3_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_3_d_bits_denied = fixer_x1_anonOut_3_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_3_d_bits_data = fixer_x1_anonOut_3_d_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_3_d_bits_corrupt = fixer_x1_anonOut_3_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_3_e_ready = fixer_x1_anonOut_3_e_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_out_4_e_valid = fixer_x1_anonOut_3_e_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_4_e_bits_sink = fixer_x1_anonOut_3_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer__anonOut_a_valid_T_17; // @[FIFOFixer.scala:95:33] wire fixer__anonIn_a_ready_T_17 = fixer_x1_anonOut_4_a_ready; // @[FIFOFixer.scala:96:33] assign fixer_auto_anon_out_5_a_valid = fixer_x1_anonOut_4_a_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_a_bits_opcode = fixer_x1_anonOut_4_a_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_a_bits_param = fixer_x1_anonOut_4_a_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_a_bits_size = fixer_x1_anonOut_4_a_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_a_bits_source = fixer_x1_anonOut_4_a_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_a_bits_address = fixer_x1_anonOut_4_a_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_a_bits_mask = fixer_x1_anonOut_4_a_bits_mask; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_a_bits_data = fixer_x1_anonOut_4_a_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_a_bits_corrupt = fixer_x1_anonOut_4_a_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_b_ready = fixer_x1_anonOut_4_b_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonIn_4_b_valid = fixer_x1_anonOut_4_b_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_4_b_bits_param = fixer_x1_anonOut_4_b_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_4_b_bits_source = fixer_x1_anonOut_4_b_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_4_b_bits_address = fixer_x1_anonOut_4_b_bits_address; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_4_c_ready = fixer_x1_anonOut_4_c_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_out_5_c_valid = fixer_x1_anonOut_4_c_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_c_bits_opcode = fixer_x1_anonOut_4_c_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_c_bits_param = fixer_x1_anonOut_4_c_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_c_bits_size = fixer_x1_anonOut_4_c_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_c_bits_source = fixer_x1_anonOut_4_c_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_c_bits_address = fixer_x1_anonOut_4_c_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_c_bits_data = fixer_x1_anonOut_4_c_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_c_bits_corrupt = fixer_x1_anonOut_4_c_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_d_ready = fixer_x1_anonOut_4_d_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonIn_4_d_valid = fixer_x1_anonOut_4_d_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_4_d_bits_opcode = fixer_x1_anonOut_4_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_4_d_bits_param = fixer_x1_anonOut_4_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_4_d_bits_size = fixer_x1_anonOut_4_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_4_d_bits_source = fixer_x1_anonOut_4_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_4_d_bits_sink = fixer_x1_anonOut_4_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_4_d_bits_denied = fixer_x1_anonOut_4_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_4_d_bits_data = fixer_x1_anonOut_4_d_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_4_d_bits_corrupt = fixer_x1_anonOut_4_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_4_e_ready = fixer_x1_anonOut_4_e_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_out_5_e_valid = fixer_x1_anonOut_4_e_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_5_e_bits_sink = fixer_x1_anonOut_4_e_bits_sink; // @[FIFOFixer.scala:50:9] wire fixer__anonOut_a_valid_T_20; // @[FIFOFixer.scala:95:33] wire fixer__anonIn_a_ready_T_20 = fixer_x1_anonOut_5_a_ready; // @[FIFOFixer.scala:96:33] assign fixer_auto_anon_out_6_a_valid = fixer_x1_anonOut_5_a_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_a_bits_opcode = fixer_x1_anonOut_5_a_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_a_bits_param = fixer_x1_anonOut_5_a_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_a_bits_size = fixer_x1_anonOut_5_a_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_a_bits_source = fixer_x1_anonOut_5_a_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_a_bits_address = fixer_x1_anonOut_5_a_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_a_bits_mask = fixer_x1_anonOut_5_a_bits_mask; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_a_bits_data = fixer_x1_anonOut_5_a_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_a_bits_corrupt = fixer_x1_anonOut_5_a_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_b_ready = fixer_x1_anonOut_5_b_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonIn_5_b_valid = fixer_x1_anonOut_5_b_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_5_b_bits_param = fixer_x1_anonOut_5_b_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_5_b_bits_source = fixer_x1_anonOut_5_b_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_5_b_bits_address = fixer_x1_anonOut_5_b_bits_address; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_5_c_ready = fixer_x1_anonOut_5_c_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_out_6_c_valid = fixer_x1_anonOut_5_c_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_c_bits_opcode = fixer_x1_anonOut_5_c_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_c_bits_param = fixer_x1_anonOut_5_c_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_c_bits_size = fixer_x1_anonOut_5_c_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_c_bits_source = fixer_x1_anonOut_5_c_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_c_bits_address = fixer_x1_anonOut_5_c_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_c_bits_data = fixer_x1_anonOut_5_c_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_c_bits_corrupt = fixer_x1_anonOut_5_c_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_d_ready = fixer_x1_anonOut_5_d_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonIn_5_d_valid = fixer_x1_anonOut_5_d_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_5_d_bits_opcode = fixer_x1_anonOut_5_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_5_d_bits_param = fixer_x1_anonOut_5_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_5_d_bits_size = fixer_x1_anonOut_5_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_5_d_bits_source = fixer_x1_anonOut_5_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_5_d_bits_sink = fixer_x1_anonOut_5_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_5_d_bits_denied = fixer_x1_anonOut_5_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_5_d_bits_data = fixer_x1_anonOut_5_d_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_5_d_bits_corrupt = fixer_x1_anonOut_5_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonIn_5_e_ready = fixer_x1_anonOut_5_e_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_out_6_e_valid = fixer_x1_anonOut_5_e_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_out_6_e_bits_sink = fixer_x1_anonOut_5_e_bits_sink; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_0_a_ready = fixer_anonIn_a_ready; // @[FIFOFixer.scala:50:9] assign fixer__anonOut_a_valid_T_2 = fixer_anonIn_a_valid; // @[FIFOFixer.scala:95:33] assign fixer_anonOut_a_bits_opcode = fixer_anonIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonOut_a_bits_param = fixer_anonIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonOut_a_bits_size = fixer_anonIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonOut_a_bits_source = fixer_anonIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonOut_a_bits_address = fixer_anonIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [31:0] fixer__a_notFIFO_T = fixer_anonIn_a_bits_address; // @[Parameters.scala:137:31] wire [31:0] fixer__a_id_T = fixer_anonIn_a_bits_address; // @[Parameters.scala:137:31] assign fixer_anonOut_a_bits_mask = fixer_anonIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonOut_a_bits_data = fixer_anonIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonOut_a_bits_corrupt = fixer_anonIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_anonOut_d_ready = fixer_anonIn_d_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_0_d_valid = fixer_anonIn_d_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_0_d_bits_opcode = fixer_anonIn_d_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_0_d_bits_param = fixer_anonIn_d_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_0_d_bits_size = fixer_anonIn_d_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_0_d_bits_source = fixer_anonIn_d_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_0_d_bits_sink = fixer_anonIn_d_bits_sink; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_0_d_bits_denied = fixer_anonIn_d_bits_denied; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_0_d_bits_data = fixer_anonIn_d_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_0_d_bits_corrupt = fixer_anonIn_d_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_a_ready = fixer_x1_anonIn_a_ready; // @[FIFOFixer.scala:50:9] assign fixer__anonOut_a_valid_T_5 = fixer_x1_anonIn_a_valid; // @[FIFOFixer.scala:95:33] assign fixer_x1_anonOut_a_bits_opcode = fixer_x1_anonIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_a_bits_param = fixer_x1_anonIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_a_bits_size = fixer_x1_anonIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_a_bits_source = fixer_x1_anonIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_a_bits_address = fixer_x1_anonIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [31:0] fixer__a_notFIFO_T_37 = fixer_x1_anonIn_a_bits_address; // @[Parameters.scala:137:31] wire [31:0] fixer__a_id_T_5 = fixer_x1_anonIn_a_bits_address; // @[Parameters.scala:137:31] assign fixer_x1_anonOut_a_bits_mask = fixer_x1_anonIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_a_bits_data = fixer_x1_anonIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_a_bits_corrupt = fixer_x1_anonIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_b_ready = fixer_x1_anonIn_b_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_1_b_valid = fixer_x1_anonIn_b_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_b_bits_param = fixer_x1_anonIn_b_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_b_bits_source = fixer_x1_anonIn_b_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_b_bits_address = fixer_x1_anonIn_b_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_c_ready = fixer_x1_anonIn_c_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonOut_c_valid = fixer_x1_anonIn_c_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_c_bits_opcode = fixer_x1_anonIn_c_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_c_bits_param = fixer_x1_anonIn_c_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_c_bits_size = fixer_x1_anonIn_c_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_c_bits_source = fixer_x1_anonIn_c_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_c_bits_address = fixer_x1_anonIn_c_bits_address; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_c_bits_data = fixer_x1_anonIn_c_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_c_bits_corrupt = fixer_x1_anonIn_c_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_d_ready = fixer_x1_anonIn_d_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_1_d_valid = fixer_x1_anonIn_d_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_d_bits_opcode = fixer_x1_anonIn_d_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_d_bits_param = fixer_x1_anonIn_d_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_d_bits_size = fixer_x1_anonIn_d_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_d_bits_source = fixer_x1_anonIn_d_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_d_bits_sink = fixer_x1_anonIn_d_bits_sink; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_d_bits_denied = fixer_x1_anonIn_d_bits_denied; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_d_bits_data = fixer_x1_anonIn_d_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_d_bits_corrupt = fixer_x1_anonIn_d_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_1_e_ready = fixer_x1_anonIn_e_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonOut_e_valid = fixer_x1_anonIn_e_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_e_bits_sink = fixer_x1_anonIn_e_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_2_a_ready = fixer_x1_anonIn_1_a_ready; // @[FIFOFixer.scala:50:9] assign fixer__anonOut_a_valid_T_8 = fixer_x1_anonIn_1_a_valid; // @[FIFOFixer.scala:95:33] assign fixer_x1_anonOut_1_a_bits_opcode = fixer_x1_anonIn_1_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_a_bits_param = fixer_x1_anonIn_1_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_a_bits_size = fixer_x1_anonIn_1_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_a_bits_source = fixer_x1_anonIn_1_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_a_bits_address = fixer_x1_anonIn_1_a_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [31:0] fixer__a_notFIFO_T_74 = fixer_x1_anonIn_1_a_bits_address; // @[Parameters.scala:137:31] wire [31:0] fixer__a_id_T_10 = fixer_x1_anonIn_1_a_bits_address; // @[Parameters.scala:137:31] assign fixer_x1_anonOut_1_a_bits_mask = fixer_x1_anonIn_1_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_a_bits_data = fixer_x1_anonIn_1_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_a_bits_corrupt = fixer_x1_anonIn_1_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_b_ready = fixer_x1_anonIn_1_b_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_2_b_valid = fixer_x1_anonIn_1_b_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_2_b_bits_param = fixer_x1_anonIn_1_b_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_2_b_bits_source = fixer_x1_anonIn_1_b_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_2_b_bits_address = fixer_x1_anonIn_1_b_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_2_c_ready = fixer_x1_anonIn_1_c_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonOut_1_c_valid = fixer_x1_anonIn_1_c_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_c_bits_opcode = fixer_x1_anonIn_1_c_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_c_bits_param = fixer_x1_anonIn_1_c_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_c_bits_size = fixer_x1_anonIn_1_c_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_c_bits_source = fixer_x1_anonIn_1_c_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_c_bits_address = fixer_x1_anonIn_1_c_bits_address; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_c_bits_data = fixer_x1_anonIn_1_c_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_c_bits_corrupt = fixer_x1_anonIn_1_c_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_d_ready = fixer_x1_anonIn_1_d_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_2_d_valid = fixer_x1_anonIn_1_d_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_2_d_bits_opcode = fixer_x1_anonIn_1_d_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_2_d_bits_param = fixer_x1_anonIn_1_d_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_2_d_bits_size = fixer_x1_anonIn_1_d_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_2_d_bits_source = fixer_x1_anonIn_1_d_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_2_d_bits_sink = fixer_x1_anonIn_1_d_bits_sink; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_2_d_bits_denied = fixer_x1_anonIn_1_d_bits_denied; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_2_d_bits_data = fixer_x1_anonIn_1_d_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_2_d_bits_corrupt = fixer_x1_anonIn_1_d_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_2_e_ready = fixer_x1_anonIn_1_e_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonOut_1_e_valid = fixer_x1_anonIn_1_e_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_1_e_bits_sink = fixer_x1_anonIn_1_e_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_3_a_ready = fixer_x1_anonIn_2_a_ready; // @[FIFOFixer.scala:50:9] assign fixer__anonOut_a_valid_T_11 = fixer_x1_anonIn_2_a_valid; // @[FIFOFixer.scala:95:33] assign fixer_x1_anonOut_2_a_bits_opcode = fixer_x1_anonIn_2_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_a_bits_param = fixer_x1_anonIn_2_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_a_bits_size = fixer_x1_anonIn_2_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_a_bits_source = fixer_x1_anonIn_2_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_a_bits_address = fixer_x1_anonIn_2_a_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [31:0] fixer__a_notFIFO_T_111 = fixer_x1_anonIn_2_a_bits_address; // @[Parameters.scala:137:31] wire [31:0] fixer__a_id_T_15 = fixer_x1_anonIn_2_a_bits_address; // @[Parameters.scala:137:31] assign fixer_x1_anonOut_2_a_bits_mask = fixer_x1_anonIn_2_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_a_bits_data = fixer_x1_anonIn_2_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_a_bits_corrupt = fixer_x1_anonIn_2_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_b_ready = fixer_x1_anonIn_2_b_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_3_b_valid = fixer_x1_anonIn_2_b_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_3_b_bits_param = fixer_x1_anonIn_2_b_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_3_b_bits_source = fixer_x1_anonIn_2_b_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_3_b_bits_address = fixer_x1_anonIn_2_b_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_3_c_ready = fixer_x1_anonIn_2_c_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonOut_2_c_valid = fixer_x1_anonIn_2_c_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_c_bits_opcode = fixer_x1_anonIn_2_c_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_c_bits_param = fixer_x1_anonIn_2_c_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_c_bits_size = fixer_x1_anonIn_2_c_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_c_bits_source = fixer_x1_anonIn_2_c_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_c_bits_address = fixer_x1_anonIn_2_c_bits_address; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_c_bits_data = fixer_x1_anonIn_2_c_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_c_bits_corrupt = fixer_x1_anonIn_2_c_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_d_ready = fixer_x1_anonIn_2_d_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_3_d_valid = fixer_x1_anonIn_2_d_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_3_d_bits_opcode = fixer_x1_anonIn_2_d_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_3_d_bits_param = fixer_x1_anonIn_2_d_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_3_d_bits_size = fixer_x1_anonIn_2_d_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_3_d_bits_source = fixer_x1_anonIn_2_d_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_3_d_bits_sink = fixer_x1_anonIn_2_d_bits_sink; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_3_d_bits_denied = fixer_x1_anonIn_2_d_bits_denied; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_3_d_bits_data = fixer_x1_anonIn_2_d_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_3_d_bits_corrupt = fixer_x1_anonIn_2_d_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_3_e_ready = fixer_x1_anonIn_2_e_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonOut_2_e_valid = fixer_x1_anonIn_2_e_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_2_e_bits_sink = fixer_x1_anonIn_2_e_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_4_a_ready = fixer_x1_anonIn_3_a_ready; // @[FIFOFixer.scala:50:9] assign fixer__anonOut_a_valid_T_14 = fixer_x1_anonIn_3_a_valid; // @[FIFOFixer.scala:95:33] assign fixer_x1_anonOut_3_a_bits_opcode = fixer_x1_anonIn_3_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_a_bits_param = fixer_x1_anonIn_3_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_a_bits_size = fixer_x1_anonIn_3_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_a_bits_source = fixer_x1_anonIn_3_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_a_bits_address = fixer_x1_anonIn_3_a_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [31:0] fixer__a_notFIFO_T_148 = fixer_x1_anonIn_3_a_bits_address; // @[Parameters.scala:137:31] wire [31:0] fixer__a_id_T_20 = fixer_x1_anonIn_3_a_bits_address; // @[Parameters.scala:137:31] assign fixer_x1_anonOut_3_a_bits_mask = fixer_x1_anonIn_3_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_a_bits_data = fixer_x1_anonIn_3_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_a_bits_corrupt = fixer_x1_anonIn_3_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_b_ready = fixer_x1_anonIn_3_b_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_4_b_valid = fixer_x1_anonIn_3_b_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_4_b_bits_param = fixer_x1_anonIn_3_b_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_4_b_bits_source = fixer_x1_anonIn_3_b_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_4_b_bits_address = fixer_x1_anonIn_3_b_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_4_c_ready = fixer_x1_anonIn_3_c_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonOut_3_c_valid = fixer_x1_anonIn_3_c_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_c_bits_opcode = fixer_x1_anonIn_3_c_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_c_bits_param = fixer_x1_anonIn_3_c_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_c_bits_size = fixer_x1_anonIn_3_c_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_c_bits_source = fixer_x1_anonIn_3_c_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_c_bits_address = fixer_x1_anonIn_3_c_bits_address; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_c_bits_data = fixer_x1_anonIn_3_c_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_c_bits_corrupt = fixer_x1_anonIn_3_c_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_d_ready = fixer_x1_anonIn_3_d_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_4_d_valid = fixer_x1_anonIn_3_d_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_4_d_bits_opcode = fixer_x1_anonIn_3_d_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_4_d_bits_param = fixer_x1_anonIn_3_d_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_4_d_bits_size = fixer_x1_anonIn_3_d_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_4_d_bits_source = fixer_x1_anonIn_3_d_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_4_d_bits_sink = fixer_x1_anonIn_3_d_bits_sink; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_4_d_bits_denied = fixer_x1_anonIn_3_d_bits_denied; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_4_d_bits_data = fixer_x1_anonIn_3_d_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_4_d_bits_corrupt = fixer_x1_anonIn_3_d_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_4_e_ready = fixer_x1_anonIn_3_e_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonOut_3_e_valid = fixer_x1_anonIn_3_e_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_3_e_bits_sink = fixer_x1_anonIn_3_e_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_5_a_ready = fixer_x1_anonIn_4_a_ready; // @[FIFOFixer.scala:50:9] assign fixer__anonOut_a_valid_T_17 = fixer_x1_anonIn_4_a_valid; // @[FIFOFixer.scala:95:33] assign fixer_x1_anonOut_4_a_bits_opcode = fixer_x1_anonIn_4_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_a_bits_param = fixer_x1_anonIn_4_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_a_bits_size = fixer_x1_anonIn_4_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_a_bits_source = fixer_x1_anonIn_4_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_a_bits_address = fixer_x1_anonIn_4_a_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [31:0] fixer__a_notFIFO_T_185 = fixer_x1_anonIn_4_a_bits_address; // @[Parameters.scala:137:31] wire [31:0] fixer__a_id_T_25 = fixer_x1_anonIn_4_a_bits_address; // @[Parameters.scala:137:31] assign fixer_x1_anonOut_4_a_bits_mask = fixer_x1_anonIn_4_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_a_bits_data = fixer_x1_anonIn_4_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_a_bits_corrupt = fixer_x1_anonIn_4_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_b_ready = fixer_x1_anonIn_4_b_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_5_b_valid = fixer_x1_anonIn_4_b_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_5_b_bits_param = fixer_x1_anonIn_4_b_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_5_b_bits_source = fixer_x1_anonIn_4_b_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_5_b_bits_address = fixer_x1_anonIn_4_b_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_5_c_ready = fixer_x1_anonIn_4_c_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonOut_4_c_valid = fixer_x1_anonIn_4_c_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_c_bits_opcode = fixer_x1_anonIn_4_c_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_c_bits_param = fixer_x1_anonIn_4_c_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_c_bits_size = fixer_x1_anonIn_4_c_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_c_bits_source = fixer_x1_anonIn_4_c_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_c_bits_address = fixer_x1_anonIn_4_c_bits_address; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_c_bits_data = fixer_x1_anonIn_4_c_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_c_bits_corrupt = fixer_x1_anonIn_4_c_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_d_ready = fixer_x1_anonIn_4_d_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_5_d_valid = fixer_x1_anonIn_4_d_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_5_d_bits_opcode = fixer_x1_anonIn_4_d_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_5_d_bits_param = fixer_x1_anonIn_4_d_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_5_d_bits_size = fixer_x1_anonIn_4_d_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_5_d_bits_source = fixer_x1_anonIn_4_d_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_5_d_bits_sink = fixer_x1_anonIn_4_d_bits_sink; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_5_d_bits_denied = fixer_x1_anonIn_4_d_bits_denied; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_5_d_bits_data = fixer_x1_anonIn_4_d_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_5_d_bits_corrupt = fixer_x1_anonIn_4_d_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_5_e_ready = fixer_x1_anonIn_4_e_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonOut_4_e_valid = fixer_x1_anonIn_4_e_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_4_e_bits_sink = fixer_x1_anonIn_4_e_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_6_a_ready = fixer_x1_anonIn_5_a_ready; // @[FIFOFixer.scala:50:9] assign fixer__anonOut_a_valid_T_20 = fixer_x1_anonIn_5_a_valid; // @[FIFOFixer.scala:95:33] assign fixer_x1_anonOut_5_a_bits_opcode = fixer_x1_anonIn_5_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_a_bits_param = fixer_x1_anonIn_5_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_a_bits_size = fixer_x1_anonIn_5_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_a_bits_source = fixer_x1_anonIn_5_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_a_bits_address = fixer_x1_anonIn_5_a_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [31:0] fixer__a_notFIFO_T_222 = fixer_x1_anonIn_5_a_bits_address; // @[Parameters.scala:137:31] wire [31:0] fixer__a_id_T_30 = fixer_x1_anonIn_5_a_bits_address; // @[Parameters.scala:137:31] assign fixer_x1_anonOut_5_a_bits_mask = fixer_x1_anonIn_5_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_a_bits_data = fixer_x1_anonIn_5_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_a_bits_corrupt = fixer_x1_anonIn_5_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_b_ready = fixer_x1_anonIn_5_b_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_6_b_valid = fixer_x1_anonIn_5_b_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_6_b_bits_param = fixer_x1_anonIn_5_b_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_6_b_bits_source = fixer_x1_anonIn_5_b_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_6_b_bits_address = fixer_x1_anonIn_5_b_bits_address; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_6_c_ready = fixer_x1_anonIn_5_c_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonOut_5_c_valid = fixer_x1_anonIn_5_c_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_c_bits_opcode = fixer_x1_anonIn_5_c_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_c_bits_param = fixer_x1_anonIn_5_c_bits_param; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_c_bits_size = fixer_x1_anonIn_5_c_bits_size; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_c_bits_source = fixer_x1_anonIn_5_c_bits_source; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_c_bits_address = fixer_x1_anonIn_5_c_bits_address; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_c_bits_data = fixer_x1_anonIn_5_c_bits_data; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_c_bits_corrupt = fixer_x1_anonIn_5_c_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_d_ready = fixer_x1_anonIn_5_d_ready; // @[MixedNode.scala:542:17, :551:17] assign fixer_auto_anon_in_6_d_valid = fixer_x1_anonIn_5_d_valid; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_6_d_bits_opcode = fixer_x1_anonIn_5_d_bits_opcode; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_6_d_bits_param = fixer_x1_anonIn_5_d_bits_param; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_6_d_bits_size = fixer_x1_anonIn_5_d_bits_size; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_6_d_bits_source = fixer_x1_anonIn_5_d_bits_source; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_6_d_bits_sink = fixer_x1_anonIn_5_d_bits_sink; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_6_d_bits_denied = fixer_x1_anonIn_5_d_bits_denied; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_6_d_bits_data = fixer_x1_anonIn_5_d_bits_data; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_6_d_bits_corrupt = fixer_x1_anonIn_5_d_bits_corrupt; // @[FIFOFixer.scala:50:9] assign fixer_auto_anon_in_6_e_ready = fixer_x1_anonIn_5_e_ready; // @[FIFOFixer.scala:50:9] assign fixer_x1_anonOut_5_e_valid = fixer_x1_anonIn_5_e_valid; // @[MixedNode.scala:542:17, :551:17] assign fixer_x1_anonOut_5_e_bits_sink = fixer_x1_anonIn_5_e_bits_sink; // @[MixedNode.scala:542:17, :551:17] wire [32:0] fixer__a_notFIFO_T_1 = {1'h0, fixer__a_notFIFO_T}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_2 = fixer__a_notFIFO_T_1 & 33'h8C020000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_3 = fixer__a_notFIFO_T_2; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_4 = fixer__a_notFIFO_T_3 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_5 = {fixer_anonIn_a_bits_address[31:17], fixer_anonIn_a_bits_address[16:0] ^ 17'h10000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_6 = {1'h0, fixer__a_notFIFO_T_5}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_7 = fixer__a_notFIFO_T_6 & 33'h8C031000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_8 = fixer__a_notFIFO_T_7; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_9 = fixer__a_notFIFO_T_8 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_10 = {fixer_anonIn_a_bits_address[31:18], fixer_anonIn_a_bits_address[17:0] ^ 18'h20000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_11 = {1'h0, fixer__a_notFIFO_T_10}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_12 = fixer__a_notFIFO_T_11 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_13 = fixer__a_notFIFO_T_12; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_14 = fixer__a_notFIFO_T_13 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_15 = {fixer_anonIn_a_bits_address[31:28], fixer_anonIn_a_bits_address[27:0] ^ 28'hC000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_16 = {1'h0, fixer__a_notFIFO_T_15}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_17 = fixer__a_notFIFO_T_16 & 33'h8C000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_18 = fixer__a_notFIFO_T_17; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_19 = fixer__a_notFIFO_T_18 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_20 = fixer__a_notFIFO_T_4 | fixer__a_notFIFO_T_9; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_21 = fixer__a_notFIFO_T_20 | fixer__a_notFIFO_T_14; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_22 = fixer__a_notFIFO_T_21 | fixer__a_notFIFO_T_19; // @[Parameters.scala:629:89] wire [31:0] fixer__a_notFIFO_T_23 = {fixer_anonIn_a_bits_address[31:28], fixer_anonIn_a_bits_address[27:0] ^ 28'h8000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_24 = {1'h0, fixer__a_notFIFO_T_23}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_25 = fixer__a_notFIFO_T_24 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_26 = fixer__a_notFIFO_T_25; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_27 = fixer__a_notFIFO_T_26 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_28 = fixer_anonIn_a_bits_address ^ 32'h80000000; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_29 = {1'h0, fixer__a_notFIFO_T_28}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_30 = fixer__a_notFIFO_T_29 & 33'h80000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_31 = fixer__a_notFIFO_T_30; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_32 = fixer__a_notFIFO_T_31 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_33 = fixer__a_notFIFO_T_27 | fixer__a_notFIFO_T_32; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_35 = fixer__a_notFIFO_T_33; // @[Mux.scala:30:73] wire fixer__a_notFIFO_T_36 = fixer__a_notFIFO_T_35; // @[Mux.scala:30:73] wire fixer_a_notFIFO = fixer__a_notFIFO_T_36; // @[Mux.scala:30:73] wire [32:0] fixer__a_id_T_1 = {1'h0, fixer__a_id_T}; // @[Parameters.scala:137:{31,41}] wire fixer__a_first_T = fixer_anonIn_a_ready & fixer_anonIn_a_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__a_first_beats1_decode_T = 27'hFFF << fixer_anonIn_a_bits_size; // @[package.scala:243:71] wire [11:0] fixer__a_first_beats1_decode_T_1 = fixer__a_first_beats1_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__a_first_beats1_decode_T_2 = ~fixer__a_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] fixer_a_first_beats1_decode = fixer__a_first_beats1_decode_T_2[11:3]; // @[package.scala:243:46] wire fixer__a_first_beats1_opdata_T = fixer_anonIn_a_bits_opcode[2]; // @[Edges.scala:92:37] wire fixer_a_first_beats1_opdata = ~fixer__a_first_beats1_opdata_T; // @[Edges.scala:92:{28,37}] wire [8:0] fixer_a_first_beats1 = fixer_a_first_beats1_opdata ? fixer_a_first_beats1_decode : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] fixer_a_first_counter; // @[Edges.scala:229:27] wire [9:0] fixer__a_first_counter1_T = {1'h0, fixer_a_first_counter} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_a_first_counter1 = fixer__a_first_counter1_T[8:0]; // @[Edges.scala:230:28] wire fixer_a_first = fixer_a_first_counter == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__a_first_last_T = fixer_a_first_counter == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__a_first_last_T_1 = fixer_a_first_beats1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_a_first_last = fixer__a_first_last_T | fixer__a_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire fixer_a_first_done = fixer_a_first_last & fixer__a_first_T; // @[Decoupled.scala:51:35] wire [8:0] fixer__a_first_count_T = ~fixer_a_first_counter1; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_a_first_count = fixer_a_first_beats1 & fixer__a_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__a_first_counter_T = fixer_a_first ? fixer_a_first_beats1 : fixer_a_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T = fixer_anonOut_d_ready & fixer_anonOut_d_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__d_first_beats1_decode_T = 27'hFFF << fixer_anonOut_d_bits_size; // @[package.scala:243:71] wire [11:0] fixer__d_first_beats1_decode_T_1 = fixer__d_first_beats1_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__d_first_beats1_decode_T_2 = ~fixer__d_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] fixer_d_first_beats1_decode = fixer__d_first_beats1_decode_T_2[11:3]; // @[package.scala:243:46] wire fixer_d_first_beats1_opdata = fixer_anonOut_d_bits_opcode[0]; // @[Edges.scala:106:36] wire [8:0] fixer_d_first_beats1 = fixer_d_first_beats1_opdata ? fixer_d_first_beats1_decode : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] fixer_d_first_counter; // @[Edges.scala:229:27] wire [9:0] fixer__d_first_counter1_T = {1'h0, fixer_d_first_counter} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_d_first_counter1 = fixer__d_first_counter1_T[8:0]; // @[Edges.scala:230:28] wire fixer_d_first_first = fixer_d_first_counter == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__d_first_last_T = fixer_d_first_counter == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__d_first_last_T_1 = fixer_d_first_beats1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_d_first_last = fixer__d_first_last_T | fixer__d_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire fixer_d_first_done = fixer_d_first_last & fixer__d_first_T; // @[Decoupled.scala:51:35] wire [8:0] fixer__d_first_count_T = ~fixer_d_first_counter1; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_d_first_count = fixer_d_first_beats1 & fixer__d_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__d_first_counter_T = fixer_d_first_first ? fixer_d_first_beats1 : fixer_d_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T_1 = fixer_anonOut_d_bits_opcode != 3'h6; // @[FIFOFixer.scala:75:63] wire fixer_d_first = fixer_d_first_first & fixer__d_first_T_1; // @[FIFOFixer.scala:75:{42,63}] reg fixer_flight_0; // @[FIFOFixer.scala:79:27] reg fixer_flight_1; // @[FIFOFixer.scala:79:27] reg fixer_flight_2; // @[FIFOFixer.scala:79:27] reg fixer_flight_3; // @[FIFOFixer.scala:79:27] reg fixer_flight_4; // @[FIFOFixer.scala:79:27] reg fixer_flight_5; // @[FIFOFixer.scala:79:27] reg fixer_flight_6; // @[FIFOFixer.scala:79:27] reg fixer_flight_7; // @[FIFOFixer.scala:79:27] reg fixer_flight_8; // @[FIFOFixer.scala:79:27] reg fixer_flight_9; // @[FIFOFixer.scala:79:27] reg fixer_flight_10; // @[FIFOFixer.scala:79:27] reg fixer_flight_11; // @[FIFOFixer.scala:79:27] reg fixer_flight_12; // @[FIFOFixer.scala:79:27] reg fixer_flight_13; // @[FIFOFixer.scala:79:27] reg fixer_flight_14; // @[FIFOFixer.scala:79:27] reg fixer_flight_15; // @[FIFOFixer.scala:79:27] reg fixer_flight_16; // @[FIFOFixer.scala:79:27] wire fixer__flight_T = ~fixer_a_notFIFO; // @[Mux.scala:30:73] wire fixer__T_2 = fixer_anonIn_d_ready & fixer_anonIn_d_valid; // @[Decoupled.scala:51:35] assign fixer_anonOut_a_valid = fixer__anonOut_a_valid_T_2; // @[FIFOFixer.scala:95:33] assign fixer_anonIn_a_ready = fixer__anonIn_a_ready_T_2; // @[FIFOFixer.scala:96:33] reg [16:0] fixer_SourceIdFIFOed; // @[FIFOFixer.scala:115:35] wire [16:0] fixer_SourceIdSet; // @[FIFOFixer.scala:116:36] wire [16:0] fixer_SourceIdClear; // @[FIFOFixer.scala:117:38] wire [31:0] fixer__SourceIdSet_T = 32'h1 << fixer_anonIn_a_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdSet = fixer_a_first & fixer__a_first_T & ~fixer_a_notFIFO ? fixer__SourceIdSet_T[16:0] : 17'h0; // @[OneHot.scala:58:35] wire [31:0] fixer__SourceIdClear_T = 32'h1 << fixer_anonIn_d_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdClear = fixer_d_first & fixer__T_2 ? fixer__SourceIdClear_T[16:0] : 17'h0; // @[OneHot.scala:58:35] wire [16:0] fixer__SourceIdFIFOed_T = fixer_SourceIdFIFOed | fixer_SourceIdSet; // @[FIFOFixer.scala:115:35, :116:36, :126:40] wire fixer_allIDs_FIFOed = &fixer_SourceIdFIFOed; // @[FIFOFixer.scala:115:35, :127:41] wire [32:0] fixer__a_notFIFO_T_38 = {1'h0, fixer__a_notFIFO_T_37}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_39 = fixer__a_notFIFO_T_38 & 33'h8C020000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_40 = fixer__a_notFIFO_T_39; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_41 = fixer__a_notFIFO_T_40 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_42 = {fixer_x1_anonIn_a_bits_address[31:17], fixer_x1_anonIn_a_bits_address[16:0] ^ 17'h10000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_43 = {1'h0, fixer__a_notFIFO_T_42}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_44 = fixer__a_notFIFO_T_43 & 33'h8C031000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_45 = fixer__a_notFIFO_T_44; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_46 = fixer__a_notFIFO_T_45 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_47 = {fixer_x1_anonIn_a_bits_address[31:18], fixer_x1_anonIn_a_bits_address[17:0] ^ 18'h20000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_48 = {1'h0, fixer__a_notFIFO_T_47}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_49 = fixer__a_notFIFO_T_48 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_50 = fixer__a_notFIFO_T_49; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_51 = fixer__a_notFIFO_T_50 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_52 = {fixer_x1_anonIn_a_bits_address[31:28], fixer_x1_anonIn_a_bits_address[27:0] ^ 28'hC000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_53 = {1'h0, fixer__a_notFIFO_T_52}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_54 = fixer__a_notFIFO_T_53 & 33'h8C000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_55 = fixer__a_notFIFO_T_54; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_56 = fixer__a_notFIFO_T_55 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_57 = fixer__a_notFIFO_T_41 | fixer__a_notFIFO_T_46; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_58 = fixer__a_notFIFO_T_57 | fixer__a_notFIFO_T_51; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_59 = fixer__a_notFIFO_T_58 | fixer__a_notFIFO_T_56; // @[Parameters.scala:629:89] wire [31:0] fixer__a_notFIFO_T_60 = {fixer_x1_anonIn_a_bits_address[31:28], fixer_x1_anonIn_a_bits_address[27:0] ^ 28'h8000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_61 = {1'h0, fixer__a_notFIFO_T_60}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_62 = fixer__a_notFIFO_T_61 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_63 = fixer__a_notFIFO_T_62; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_64 = fixer__a_notFIFO_T_63 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_65 = fixer_x1_anonIn_a_bits_address ^ 32'h80000000; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_66 = {1'h0, fixer__a_notFIFO_T_65}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_67 = fixer__a_notFIFO_T_66 & 33'h80000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_68 = fixer__a_notFIFO_T_67; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_69 = fixer__a_notFIFO_T_68 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_70 = fixer__a_notFIFO_T_64 | fixer__a_notFIFO_T_69; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_72 = fixer__a_notFIFO_T_70; // @[Mux.scala:30:73] wire fixer__a_notFIFO_T_73 = fixer__a_notFIFO_T_72; // @[Mux.scala:30:73] wire fixer_a_notFIFO_1 = fixer__a_notFIFO_T_73; // @[Mux.scala:30:73] wire [32:0] fixer__a_id_T_6 = {1'h0, fixer__a_id_T_5}; // @[Parameters.scala:137:{31,41}] wire fixer__a_first_T_1 = fixer_x1_anonIn_a_ready & fixer_x1_anonIn_a_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__a_first_beats1_decode_T_3 = 27'hFFF << fixer_x1_anonIn_a_bits_size; // @[package.scala:243:71] wire [11:0] fixer__a_first_beats1_decode_T_4 = fixer__a_first_beats1_decode_T_3[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__a_first_beats1_decode_T_5 = ~fixer__a_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [8:0] fixer_a_first_beats1_decode_1 = fixer__a_first_beats1_decode_T_5[11:3]; // @[package.scala:243:46] wire fixer__a_first_beats1_opdata_T_1 = fixer_x1_anonIn_a_bits_opcode[2]; // @[Edges.scala:92:37] wire fixer_a_first_beats1_opdata_1 = ~fixer__a_first_beats1_opdata_T_1; // @[Edges.scala:92:{28,37}] wire [8:0] fixer_a_first_beats1_1 = fixer_a_first_beats1_opdata_1 ? fixer_a_first_beats1_decode_1 : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] fixer_a_first_counter_1; // @[Edges.scala:229:27] wire [9:0] fixer__a_first_counter1_T_1 = {1'h0, fixer_a_first_counter_1} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_a_first_counter1_1 = fixer__a_first_counter1_T_1[8:0]; // @[Edges.scala:230:28] wire fixer_a_first_1 = fixer_a_first_counter_1 == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__a_first_last_T_2 = fixer_a_first_counter_1 == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__a_first_last_T_3 = fixer_a_first_beats1_1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_a_first_last_1 = fixer__a_first_last_T_2 | fixer__a_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire fixer_a_first_done_1 = fixer_a_first_last_1 & fixer__a_first_T_1; // @[Decoupled.scala:51:35] wire [8:0] fixer__a_first_count_T_1 = ~fixer_a_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_a_first_count_1 = fixer_a_first_beats1_1 & fixer__a_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__a_first_counter_T_1 = fixer_a_first_1 ? fixer_a_first_beats1_1 : fixer_a_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T_2 = fixer_x1_anonOut_d_ready & fixer_x1_anonOut_d_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__d_first_beats1_decode_T_3 = 27'hFFF << fixer_x1_anonOut_d_bits_size; // @[package.scala:243:71] wire [11:0] fixer__d_first_beats1_decode_T_4 = fixer__d_first_beats1_decode_T_3[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__d_first_beats1_decode_T_5 = ~fixer__d_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [8:0] fixer_d_first_beats1_decode_1 = fixer__d_first_beats1_decode_T_5[11:3]; // @[package.scala:243:46] wire fixer_d_first_beats1_opdata_1 = fixer_x1_anonOut_d_bits_opcode[0]; // @[Edges.scala:106:36] wire [8:0] fixer_d_first_beats1_1 = fixer_d_first_beats1_opdata_1 ? fixer_d_first_beats1_decode_1 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] fixer_d_first_counter_1; // @[Edges.scala:229:27] wire [9:0] fixer__d_first_counter1_T_1 = {1'h0, fixer_d_first_counter_1} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_d_first_counter1_1 = fixer__d_first_counter1_T_1[8:0]; // @[Edges.scala:230:28] wire fixer_d_first_first_1 = fixer_d_first_counter_1 == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__d_first_last_T_2 = fixer_d_first_counter_1 == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__d_first_last_T_3 = fixer_d_first_beats1_1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_d_first_last_1 = fixer__d_first_last_T_2 | fixer__d_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire fixer_d_first_done_1 = fixer_d_first_last_1 & fixer__d_first_T_2; // @[Decoupled.scala:51:35] wire [8:0] fixer__d_first_count_T_1 = ~fixer_d_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_d_first_count_1 = fixer_d_first_beats1_1 & fixer__d_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__d_first_counter_T_1 = fixer_d_first_first_1 ? fixer_d_first_beats1_1 : fixer_d_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T_3 = fixer_x1_anonOut_d_bits_opcode != 3'h6; // @[FIFOFixer.scala:75:63] wire fixer_d_first_1 = fixer_d_first_first_1 & fixer__d_first_T_3; // @[FIFOFixer.scala:75:{42,63}] reg fixer_flight_1_0; // @[FIFOFixer.scala:79:27] reg fixer_flight_1_1; // @[FIFOFixer.scala:79:27] reg fixer_flight_1_2; // @[FIFOFixer.scala:79:27] wire fixer__flight_T_1 = ~fixer_a_notFIFO_1; // @[Mux.scala:30:73] wire fixer__T_32 = fixer_x1_anonIn_d_ready & fixer_x1_anonIn_d_valid; // @[Decoupled.scala:51:35] assign fixer_x1_anonOut_a_valid = fixer__anonOut_a_valid_T_5; // @[FIFOFixer.scala:95:33] assign fixer_x1_anonIn_a_ready = fixer__anonIn_a_ready_T_5; // @[FIFOFixer.scala:96:33] reg [2:0] fixer_SourceIdFIFOed_1; // @[FIFOFixer.scala:115:35] wire [2:0] fixer_SourceIdSet_1; // @[FIFOFixer.scala:116:36] wire [2:0] fixer_SourceIdClear_1; // @[FIFOFixer.scala:117:38] wire [3:0] fixer__SourceIdSet_T_1 = 4'h1 << fixer_x1_anonIn_a_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdSet_1 = fixer_a_first_1 & fixer__a_first_T_1 & ~fixer_a_notFIFO_1 ? fixer__SourceIdSet_T_1[2:0] : 3'h0; // @[OneHot.scala:58:35] wire [3:0] fixer__SourceIdClear_T_1 = 4'h1 << fixer_x1_anonIn_d_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdClear_1 = fixer_d_first_1 & fixer__T_32 ? fixer__SourceIdClear_T_1[2:0] : 3'h0; // @[OneHot.scala:58:35] wire [2:0] fixer__SourceIdFIFOed_T_1 = fixer_SourceIdFIFOed_1 | fixer_SourceIdSet_1; // @[FIFOFixer.scala:115:35, :116:36, :126:40] wire fixer_allIDs_FIFOed_1 = &fixer_SourceIdFIFOed_1; // @[FIFOFixer.scala:115:35, :127:41] wire [32:0] fixer__a_notFIFO_T_75 = {1'h0, fixer__a_notFIFO_T_74}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_76 = fixer__a_notFIFO_T_75 & 33'h8C020000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_77 = fixer__a_notFIFO_T_76; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_78 = fixer__a_notFIFO_T_77 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_79 = {fixer_x1_anonIn_1_a_bits_address[31:17], fixer_x1_anonIn_1_a_bits_address[16:0] ^ 17'h10000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_80 = {1'h0, fixer__a_notFIFO_T_79}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_81 = fixer__a_notFIFO_T_80 & 33'h8C031000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_82 = fixer__a_notFIFO_T_81; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_83 = fixer__a_notFIFO_T_82 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_84 = {fixer_x1_anonIn_1_a_bits_address[31:18], fixer_x1_anonIn_1_a_bits_address[17:0] ^ 18'h20000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_85 = {1'h0, fixer__a_notFIFO_T_84}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_86 = fixer__a_notFIFO_T_85 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_87 = fixer__a_notFIFO_T_86; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_88 = fixer__a_notFIFO_T_87 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_89 = {fixer_x1_anonIn_1_a_bits_address[31:28], fixer_x1_anonIn_1_a_bits_address[27:0] ^ 28'hC000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_90 = {1'h0, fixer__a_notFIFO_T_89}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_91 = fixer__a_notFIFO_T_90 & 33'h8C000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_92 = fixer__a_notFIFO_T_91; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_93 = fixer__a_notFIFO_T_92 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_94 = fixer__a_notFIFO_T_78 | fixer__a_notFIFO_T_83; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_95 = fixer__a_notFIFO_T_94 | fixer__a_notFIFO_T_88; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_96 = fixer__a_notFIFO_T_95 | fixer__a_notFIFO_T_93; // @[Parameters.scala:629:89] wire [31:0] fixer__a_notFIFO_T_97 = {fixer_x1_anonIn_1_a_bits_address[31:28], fixer_x1_anonIn_1_a_bits_address[27:0] ^ 28'h8000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_98 = {1'h0, fixer__a_notFIFO_T_97}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_99 = fixer__a_notFIFO_T_98 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_100 = fixer__a_notFIFO_T_99; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_101 = fixer__a_notFIFO_T_100 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_102 = fixer_x1_anonIn_1_a_bits_address ^ 32'h80000000; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_103 = {1'h0, fixer__a_notFIFO_T_102}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_104 = fixer__a_notFIFO_T_103 & 33'h80000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_105 = fixer__a_notFIFO_T_104; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_106 = fixer__a_notFIFO_T_105 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_107 = fixer__a_notFIFO_T_101 | fixer__a_notFIFO_T_106; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_109 = fixer__a_notFIFO_T_107; // @[Mux.scala:30:73] wire fixer__a_notFIFO_T_110 = fixer__a_notFIFO_T_109; // @[Mux.scala:30:73] wire fixer_a_notFIFO_2 = fixer__a_notFIFO_T_110; // @[Mux.scala:30:73] wire [32:0] fixer__a_id_T_11 = {1'h0, fixer__a_id_T_10}; // @[Parameters.scala:137:{31,41}] wire fixer__a_first_T_2 = fixer_x1_anonIn_1_a_ready & fixer_x1_anonIn_1_a_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__a_first_beats1_decode_T_6 = 27'hFFF << fixer_x1_anonIn_1_a_bits_size; // @[package.scala:243:71] wire [11:0] fixer__a_first_beats1_decode_T_7 = fixer__a_first_beats1_decode_T_6[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__a_first_beats1_decode_T_8 = ~fixer__a_first_beats1_decode_T_7; // @[package.scala:243:{46,76}] wire [8:0] fixer_a_first_beats1_decode_2 = fixer__a_first_beats1_decode_T_8[11:3]; // @[package.scala:243:46] wire fixer__a_first_beats1_opdata_T_2 = fixer_x1_anonIn_1_a_bits_opcode[2]; // @[Edges.scala:92:37] wire fixer_a_first_beats1_opdata_2 = ~fixer__a_first_beats1_opdata_T_2; // @[Edges.scala:92:{28,37}] wire [8:0] fixer_a_first_beats1_2 = fixer_a_first_beats1_opdata_2 ? fixer_a_first_beats1_decode_2 : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] fixer_a_first_counter_2; // @[Edges.scala:229:27] wire [9:0] fixer__a_first_counter1_T_2 = {1'h0, fixer_a_first_counter_2} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_a_first_counter1_2 = fixer__a_first_counter1_T_2[8:0]; // @[Edges.scala:230:28] wire fixer_a_first_2 = fixer_a_first_counter_2 == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__a_first_last_T_4 = fixer_a_first_counter_2 == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__a_first_last_T_5 = fixer_a_first_beats1_2 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_a_first_last_2 = fixer__a_first_last_T_4 | fixer__a_first_last_T_5; // @[Edges.scala:232:{25,33,43}] wire fixer_a_first_done_2 = fixer_a_first_last_2 & fixer__a_first_T_2; // @[Decoupled.scala:51:35] wire [8:0] fixer__a_first_count_T_2 = ~fixer_a_first_counter1_2; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_a_first_count_2 = fixer_a_first_beats1_2 & fixer__a_first_count_T_2; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__a_first_counter_T_2 = fixer_a_first_2 ? fixer_a_first_beats1_2 : fixer_a_first_counter1_2; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T_4 = fixer_x1_anonOut_1_d_ready & fixer_x1_anonOut_1_d_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__d_first_beats1_decode_T_6 = 27'hFFF << fixer_x1_anonOut_1_d_bits_size; // @[package.scala:243:71] wire [11:0] fixer__d_first_beats1_decode_T_7 = fixer__d_first_beats1_decode_T_6[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__d_first_beats1_decode_T_8 = ~fixer__d_first_beats1_decode_T_7; // @[package.scala:243:{46,76}] wire [8:0] fixer_d_first_beats1_decode_2 = fixer__d_first_beats1_decode_T_8[11:3]; // @[package.scala:243:46] wire fixer_d_first_beats1_opdata_2 = fixer_x1_anonOut_1_d_bits_opcode[0]; // @[Edges.scala:106:36] wire [8:0] fixer_d_first_beats1_2 = fixer_d_first_beats1_opdata_2 ? fixer_d_first_beats1_decode_2 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] fixer_d_first_counter_2; // @[Edges.scala:229:27] wire [9:0] fixer__d_first_counter1_T_2 = {1'h0, fixer_d_first_counter_2} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_d_first_counter1_2 = fixer__d_first_counter1_T_2[8:0]; // @[Edges.scala:230:28] wire fixer_d_first_first_2 = fixer_d_first_counter_2 == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__d_first_last_T_4 = fixer_d_first_counter_2 == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__d_first_last_T_5 = fixer_d_first_beats1_2 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_d_first_last_2 = fixer__d_first_last_T_4 | fixer__d_first_last_T_5; // @[Edges.scala:232:{25,33,43}] wire fixer_d_first_done_2 = fixer_d_first_last_2 & fixer__d_first_T_4; // @[Decoupled.scala:51:35] wire [8:0] fixer__d_first_count_T_2 = ~fixer_d_first_counter1_2; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_d_first_count_2 = fixer_d_first_beats1_2 & fixer__d_first_count_T_2; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__d_first_counter_T_2 = fixer_d_first_first_2 ? fixer_d_first_beats1_2 : fixer_d_first_counter1_2; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T_5 = fixer_x1_anonOut_1_d_bits_opcode != 3'h6; // @[FIFOFixer.scala:75:63] wire fixer_d_first_2 = fixer_d_first_first_2 & fixer__d_first_T_5; // @[FIFOFixer.scala:75:{42,63}] reg fixer_flight_2_0; // @[FIFOFixer.scala:79:27] reg fixer_flight_2_1; // @[FIFOFixer.scala:79:27] wire fixer__flight_T_2 = ~fixer_a_notFIFO_2; // @[Mux.scala:30:73] wire fixer__T_48 = fixer_x1_anonIn_1_d_ready & fixer_x1_anonIn_1_d_valid; // @[Decoupled.scala:51:35] assign fixer_x1_anonOut_1_a_valid = fixer__anonOut_a_valid_T_8; // @[FIFOFixer.scala:95:33] assign fixer_x1_anonIn_1_a_ready = fixer__anonIn_a_ready_T_8; // @[FIFOFixer.scala:96:33] reg [1:0] fixer_SourceIdFIFOed_2; // @[FIFOFixer.scala:115:35] wire [1:0] fixer_SourceIdSet_2; // @[FIFOFixer.scala:116:36] wire [1:0] fixer_SourceIdClear_2; // @[FIFOFixer.scala:117:38] wire [1:0] fixer__SourceIdSet_T_2 = 2'h1 << fixer_x1_anonIn_1_a_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdSet_2 = fixer_a_first_2 & fixer__a_first_T_2 & ~fixer_a_notFIFO_2 ? fixer__SourceIdSet_T_2 : 2'h0; // @[OneHot.scala:58:35] wire [1:0] fixer__SourceIdClear_T_2 = 2'h1 << fixer_x1_anonIn_1_d_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdClear_2 = fixer_d_first_2 & fixer__T_48 ? fixer__SourceIdClear_T_2 : 2'h0; // @[OneHot.scala:58:35] wire [1:0] fixer__SourceIdFIFOed_T_2 = fixer_SourceIdFIFOed_2 | fixer_SourceIdSet_2; // @[FIFOFixer.scala:115:35, :116:36, :126:40] wire fixer_allIDs_FIFOed_2 = &fixer_SourceIdFIFOed_2; // @[FIFOFixer.scala:115:35, :127:41] wire [32:0] fixer__a_notFIFO_T_112 = {1'h0, fixer__a_notFIFO_T_111}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_113 = fixer__a_notFIFO_T_112 & 33'h8C020000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_114 = fixer__a_notFIFO_T_113; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_115 = fixer__a_notFIFO_T_114 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_116 = {fixer_x1_anonIn_2_a_bits_address[31:17], fixer_x1_anonIn_2_a_bits_address[16:0] ^ 17'h10000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_117 = {1'h0, fixer__a_notFIFO_T_116}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_118 = fixer__a_notFIFO_T_117 & 33'h8C031000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_119 = fixer__a_notFIFO_T_118; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_120 = fixer__a_notFIFO_T_119 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_121 = {fixer_x1_anonIn_2_a_bits_address[31:18], fixer_x1_anonIn_2_a_bits_address[17:0] ^ 18'h20000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_122 = {1'h0, fixer__a_notFIFO_T_121}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_123 = fixer__a_notFIFO_T_122 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_124 = fixer__a_notFIFO_T_123; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_125 = fixer__a_notFIFO_T_124 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_126 = {fixer_x1_anonIn_2_a_bits_address[31:28], fixer_x1_anonIn_2_a_bits_address[27:0] ^ 28'hC000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_127 = {1'h0, fixer__a_notFIFO_T_126}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_128 = fixer__a_notFIFO_T_127 & 33'h8C000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_129 = fixer__a_notFIFO_T_128; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_130 = fixer__a_notFIFO_T_129 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_131 = fixer__a_notFIFO_T_115 | fixer__a_notFIFO_T_120; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_132 = fixer__a_notFIFO_T_131 | fixer__a_notFIFO_T_125; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_133 = fixer__a_notFIFO_T_132 | fixer__a_notFIFO_T_130; // @[Parameters.scala:629:89] wire [31:0] fixer__a_notFIFO_T_134 = {fixer_x1_anonIn_2_a_bits_address[31:28], fixer_x1_anonIn_2_a_bits_address[27:0] ^ 28'h8000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_135 = {1'h0, fixer__a_notFIFO_T_134}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_136 = fixer__a_notFIFO_T_135 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_137 = fixer__a_notFIFO_T_136; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_138 = fixer__a_notFIFO_T_137 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_139 = fixer_x1_anonIn_2_a_bits_address ^ 32'h80000000; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_140 = {1'h0, fixer__a_notFIFO_T_139}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_141 = fixer__a_notFIFO_T_140 & 33'h80000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_142 = fixer__a_notFIFO_T_141; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_143 = fixer__a_notFIFO_T_142 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_144 = fixer__a_notFIFO_T_138 | fixer__a_notFIFO_T_143; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_146 = fixer__a_notFIFO_T_144; // @[Mux.scala:30:73] wire fixer__a_notFIFO_T_147 = fixer__a_notFIFO_T_146; // @[Mux.scala:30:73] wire fixer_a_notFIFO_3 = fixer__a_notFIFO_T_147; // @[Mux.scala:30:73] wire [32:0] fixer__a_id_T_16 = {1'h0, fixer__a_id_T_15}; // @[Parameters.scala:137:{31,41}] wire fixer__a_first_T_3 = fixer_x1_anonIn_2_a_ready & fixer_x1_anonIn_2_a_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__a_first_beats1_decode_T_9 = 27'hFFF << fixer_x1_anonIn_2_a_bits_size; // @[package.scala:243:71] wire [11:0] fixer__a_first_beats1_decode_T_10 = fixer__a_first_beats1_decode_T_9[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__a_first_beats1_decode_T_11 = ~fixer__a_first_beats1_decode_T_10; // @[package.scala:243:{46,76}] wire [8:0] fixer_a_first_beats1_decode_3 = fixer__a_first_beats1_decode_T_11[11:3]; // @[package.scala:243:46] wire fixer__a_first_beats1_opdata_T_3 = fixer_x1_anonIn_2_a_bits_opcode[2]; // @[Edges.scala:92:37] wire fixer_a_first_beats1_opdata_3 = ~fixer__a_first_beats1_opdata_T_3; // @[Edges.scala:92:{28,37}] wire [8:0] fixer_a_first_beats1_3 = fixer_a_first_beats1_opdata_3 ? fixer_a_first_beats1_decode_3 : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] fixer_a_first_counter_3; // @[Edges.scala:229:27] wire [9:0] fixer__a_first_counter1_T_3 = {1'h0, fixer_a_first_counter_3} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_a_first_counter1_3 = fixer__a_first_counter1_T_3[8:0]; // @[Edges.scala:230:28] wire fixer_a_first_3 = fixer_a_first_counter_3 == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__a_first_last_T_6 = fixer_a_first_counter_3 == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__a_first_last_T_7 = fixer_a_first_beats1_3 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_a_first_last_3 = fixer__a_first_last_T_6 | fixer__a_first_last_T_7; // @[Edges.scala:232:{25,33,43}] wire fixer_a_first_done_3 = fixer_a_first_last_3 & fixer__a_first_T_3; // @[Decoupled.scala:51:35] wire [8:0] fixer__a_first_count_T_3 = ~fixer_a_first_counter1_3; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_a_first_count_3 = fixer_a_first_beats1_3 & fixer__a_first_count_T_3; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__a_first_counter_T_3 = fixer_a_first_3 ? fixer_a_first_beats1_3 : fixer_a_first_counter1_3; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T_6 = fixer_x1_anonOut_2_d_ready & fixer_x1_anonOut_2_d_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__d_first_beats1_decode_T_9 = 27'hFFF << fixer_x1_anonOut_2_d_bits_size; // @[package.scala:243:71] wire [11:0] fixer__d_first_beats1_decode_T_10 = fixer__d_first_beats1_decode_T_9[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__d_first_beats1_decode_T_11 = ~fixer__d_first_beats1_decode_T_10; // @[package.scala:243:{46,76}] wire [8:0] fixer_d_first_beats1_decode_3 = fixer__d_first_beats1_decode_T_11[11:3]; // @[package.scala:243:46] wire fixer_d_first_beats1_opdata_3 = fixer_x1_anonOut_2_d_bits_opcode[0]; // @[Edges.scala:106:36] wire [8:0] fixer_d_first_beats1_3 = fixer_d_first_beats1_opdata_3 ? fixer_d_first_beats1_decode_3 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] fixer_d_first_counter_3; // @[Edges.scala:229:27] wire [9:0] fixer__d_first_counter1_T_3 = {1'h0, fixer_d_first_counter_3} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_d_first_counter1_3 = fixer__d_first_counter1_T_3[8:0]; // @[Edges.scala:230:28] wire fixer_d_first_first_3 = fixer_d_first_counter_3 == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__d_first_last_T_6 = fixer_d_first_counter_3 == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__d_first_last_T_7 = fixer_d_first_beats1_3 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_d_first_last_3 = fixer__d_first_last_T_6 | fixer__d_first_last_T_7; // @[Edges.scala:232:{25,33,43}] wire fixer_d_first_done_3 = fixer_d_first_last_3 & fixer__d_first_T_6; // @[Decoupled.scala:51:35] wire [8:0] fixer__d_first_count_T_3 = ~fixer_d_first_counter1_3; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_d_first_count_3 = fixer_d_first_beats1_3 & fixer__d_first_count_T_3; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__d_first_counter_T_3 = fixer_d_first_first_3 ? fixer_d_first_beats1_3 : fixer_d_first_counter1_3; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T_7 = fixer_x1_anonOut_2_d_bits_opcode != 3'h6; // @[FIFOFixer.scala:75:63] wire fixer_d_first_3 = fixer_d_first_first_3 & fixer__d_first_T_7; // @[FIFOFixer.scala:75:{42,63}] reg fixer_flight_3_0; // @[FIFOFixer.scala:79:27] reg fixer_flight_3_1; // @[FIFOFixer.scala:79:27] wire fixer__flight_T_3 = ~fixer_a_notFIFO_3; // @[Mux.scala:30:73] wire fixer__T_63 = fixer_x1_anonIn_2_d_ready & fixer_x1_anonIn_2_d_valid; // @[Decoupled.scala:51:35] assign fixer_x1_anonOut_2_a_valid = fixer__anonOut_a_valid_T_11; // @[FIFOFixer.scala:95:33] assign fixer_x1_anonIn_2_a_ready = fixer__anonIn_a_ready_T_11; // @[FIFOFixer.scala:96:33] reg [1:0] fixer_SourceIdFIFOed_3; // @[FIFOFixer.scala:115:35] wire [1:0] fixer_SourceIdSet_3; // @[FIFOFixer.scala:116:36] wire [1:0] fixer_SourceIdClear_3; // @[FIFOFixer.scala:117:38] wire [1:0] fixer__SourceIdSet_T_3 = 2'h1 << fixer_x1_anonIn_2_a_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdSet_3 = fixer_a_first_3 & fixer__a_first_T_3 & ~fixer_a_notFIFO_3 ? fixer__SourceIdSet_T_3 : 2'h0; // @[OneHot.scala:58:35] wire [1:0] fixer__SourceIdClear_T_3 = 2'h1 << fixer_x1_anonIn_2_d_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdClear_3 = fixer_d_first_3 & fixer__T_63 ? fixer__SourceIdClear_T_3 : 2'h0; // @[OneHot.scala:58:35] wire [1:0] fixer__SourceIdFIFOed_T_3 = fixer_SourceIdFIFOed_3 | fixer_SourceIdSet_3; // @[FIFOFixer.scala:115:35, :116:36, :126:40] wire fixer_allIDs_FIFOed_3 = &fixer_SourceIdFIFOed_3; // @[FIFOFixer.scala:115:35, :127:41] wire [32:0] fixer__a_notFIFO_T_149 = {1'h0, fixer__a_notFIFO_T_148}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_150 = fixer__a_notFIFO_T_149 & 33'h8C020000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_151 = fixer__a_notFIFO_T_150; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_152 = fixer__a_notFIFO_T_151 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_153 = {fixer_x1_anonIn_3_a_bits_address[31:17], fixer_x1_anonIn_3_a_bits_address[16:0] ^ 17'h10000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_154 = {1'h0, fixer__a_notFIFO_T_153}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_155 = fixer__a_notFIFO_T_154 & 33'h8C031000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_156 = fixer__a_notFIFO_T_155; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_157 = fixer__a_notFIFO_T_156 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_158 = {fixer_x1_anonIn_3_a_bits_address[31:18], fixer_x1_anonIn_3_a_bits_address[17:0] ^ 18'h20000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_159 = {1'h0, fixer__a_notFIFO_T_158}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_160 = fixer__a_notFIFO_T_159 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_161 = fixer__a_notFIFO_T_160; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_162 = fixer__a_notFIFO_T_161 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_163 = {fixer_x1_anonIn_3_a_bits_address[31:28], fixer_x1_anonIn_3_a_bits_address[27:0] ^ 28'hC000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_164 = {1'h0, fixer__a_notFIFO_T_163}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_165 = fixer__a_notFIFO_T_164 & 33'h8C000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_166 = fixer__a_notFIFO_T_165; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_167 = fixer__a_notFIFO_T_166 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_168 = fixer__a_notFIFO_T_152 | fixer__a_notFIFO_T_157; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_169 = fixer__a_notFIFO_T_168 | fixer__a_notFIFO_T_162; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_170 = fixer__a_notFIFO_T_169 | fixer__a_notFIFO_T_167; // @[Parameters.scala:629:89] wire [31:0] fixer__a_notFIFO_T_171 = {fixer_x1_anonIn_3_a_bits_address[31:28], fixer_x1_anonIn_3_a_bits_address[27:0] ^ 28'h8000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_172 = {1'h0, fixer__a_notFIFO_T_171}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_173 = fixer__a_notFIFO_T_172 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_174 = fixer__a_notFIFO_T_173; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_175 = fixer__a_notFIFO_T_174 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_176 = fixer_x1_anonIn_3_a_bits_address ^ 32'h80000000; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_177 = {1'h0, fixer__a_notFIFO_T_176}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_178 = fixer__a_notFIFO_T_177 & 33'h80000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_179 = fixer__a_notFIFO_T_178; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_180 = fixer__a_notFIFO_T_179 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_181 = fixer__a_notFIFO_T_175 | fixer__a_notFIFO_T_180; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_183 = fixer__a_notFIFO_T_181; // @[Mux.scala:30:73] wire fixer__a_notFIFO_T_184 = fixer__a_notFIFO_T_183; // @[Mux.scala:30:73] wire fixer_a_notFIFO_4 = fixer__a_notFIFO_T_184; // @[Mux.scala:30:73] wire [32:0] fixer__a_id_T_21 = {1'h0, fixer__a_id_T_20}; // @[Parameters.scala:137:{31,41}] wire fixer__a_first_T_4 = fixer_x1_anonIn_3_a_ready & fixer_x1_anonIn_3_a_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__a_first_beats1_decode_T_12 = 27'hFFF << fixer_x1_anonIn_3_a_bits_size; // @[package.scala:243:71] wire [11:0] fixer__a_first_beats1_decode_T_13 = fixer__a_first_beats1_decode_T_12[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__a_first_beats1_decode_T_14 = ~fixer__a_first_beats1_decode_T_13; // @[package.scala:243:{46,76}] wire [8:0] fixer_a_first_beats1_decode_4 = fixer__a_first_beats1_decode_T_14[11:3]; // @[package.scala:243:46] wire fixer__a_first_beats1_opdata_T_4 = fixer_x1_anonIn_3_a_bits_opcode[2]; // @[Edges.scala:92:37] wire fixer_a_first_beats1_opdata_4 = ~fixer__a_first_beats1_opdata_T_4; // @[Edges.scala:92:{28,37}] wire [8:0] fixer_a_first_beats1_4 = fixer_a_first_beats1_opdata_4 ? fixer_a_first_beats1_decode_4 : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] fixer_a_first_counter_4; // @[Edges.scala:229:27] wire [9:0] fixer__a_first_counter1_T_4 = {1'h0, fixer_a_first_counter_4} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_a_first_counter1_4 = fixer__a_first_counter1_T_4[8:0]; // @[Edges.scala:230:28] wire fixer_a_first_4 = fixer_a_first_counter_4 == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__a_first_last_T_8 = fixer_a_first_counter_4 == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__a_first_last_T_9 = fixer_a_first_beats1_4 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_a_first_last_4 = fixer__a_first_last_T_8 | fixer__a_first_last_T_9; // @[Edges.scala:232:{25,33,43}] wire fixer_a_first_done_4 = fixer_a_first_last_4 & fixer__a_first_T_4; // @[Decoupled.scala:51:35] wire [8:0] fixer__a_first_count_T_4 = ~fixer_a_first_counter1_4; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_a_first_count_4 = fixer_a_first_beats1_4 & fixer__a_first_count_T_4; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__a_first_counter_T_4 = fixer_a_first_4 ? fixer_a_first_beats1_4 : fixer_a_first_counter1_4; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T_8 = fixer_x1_anonOut_3_d_ready & fixer_x1_anonOut_3_d_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__d_first_beats1_decode_T_12 = 27'hFFF << fixer_x1_anonOut_3_d_bits_size; // @[package.scala:243:71] wire [11:0] fixer__d_first_beats1_decode_T_13 = fixer__d_first_beats1_decode_T_12[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__d_first_beats1_decode_T_14 = ~fixer__d_first_beats1_decode_T_13; // @[package.scala:243:{46,76}] wire [8:0] fixer_d_first_beats1_decode_4 = fixer__d_first_beats1_decode_T_14[11:3]; // @[package.scala:243:46] wire fixer_d_first_beats1_opdata_4 = fixer_x1_anonOut_3_d_bits_opcode[0]; // @[Edges.scala:106:36] wire [8:0] fixer_d_first_beats1_4 = fixer_d_first_beats1_opdata_4 ? fixer_d_first_beats1_decode_4 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] fixer_d_first_counter_4; // @[Edges.scala:229:27] wire [9:0] fixer__d_first_counter1_T_4 = {1'h0, fixer_d_first_counter_4} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_d_first_counter1_4 = fixer__d_first_counter1_T_4[8:0]; // @[Edges.scala:230:28] wire fixer_d_first_first_4 = fixer_d_first_counter_4 == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__d_first_last_T_8 = fixer_d_first_counter_4 == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__d_first_last_T_9 = fixer_d_first_beats1_4 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_d_first_last_4 = fixer__d_first_last_T_8 | fixer__d_first_last_T_9; // @[Edges.scala:232:{25,33,43}] wire fixer_d_first_done_4 = fixer_d_first_last_4 & fixer__d_first_T_8; // @[Decoupled.scala:51:35] wire [8:0] fixer__d_first_count_T_4 = ~fixer_d_first_counter1_4; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_d_first_count_4 = fixer_d_first_beats1_4 & fixer__d_first_count_T_4; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__d_first_counter_T_4 = fixer_d_first_first_4 ? fixer_d_first_beats1_4 : fixer_d_first_counter1_4; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T_9 = fixer_x1_anonOut_3_d_bits_opcode != 3'h6; // @[FIFOFixer.scala:75:63] wire fixer_d_first_4 = fixer_d_first_first_4 & fixer__d_first_T_9; // @[FIFOFixer.scala:75:{42,63}] reg fixer_flight_4_0; // @[FIFOFixer.scala:79:27] reg fixer_flight_4_1; // @[FIFOFixer.scala:79:27] wire fixer__flight_T_4 = ~fixer_a_notFIFO_4; // @[Mux.scala:30:73] wire fixer__T_78 = fixer_x1_anonIn_3_d_ready & fixer_x1_anonIn_3_d_valid; // @[Decoupled.scala:51:35] assign fixer_x1_anonOut_3_a_valid = fixer__anonOut_a_valid_T_14; // @[FIFOFixer.scala:95:33] assign fixer_x1_anonIn_3_a_ready = fixer__anonIn_a_ready_T_14; // @[FIFOFixer.scala:96:33] reg [1:0] fixer_SourceIdFIFOed_4; // @[FIFOFixer.scala:115:35] wire [1:0] fixer_SourceIdSet_4; // @[FIFOFixer.scala:116:36] wire [1:0] fixer_SourceIdClear_4; // @[FIFOFixer.scala:117:38] wire [1:0] fixer__SourceIdSet_T_4 = 2'h1 << fixer_x1_anonIn_3_a_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdSet_4 = fixer_a_first_4 & fixer__a_first_T_4 & ~fixer_a_notFIFO_4 ? fixer__SourceIdSet_T_4 : 2'h0; // @[OneHot.scala:58:35] wire [1:0] fixer__SourceIdClear_T_4 = 2'h1 << fixer_x1_anonIn_3_d_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdClear_4 = fixer_d_first_4 & fixer__T_78 ? fixer__SourceIdClear_T_4 : 2'h0; // @[OneHot.scala:58:35] wire [1:0] fixer__SourceIdFIFOed_T_4 = fixer_SourceIdFIFOed_4 | fixer_SourceIdSet_4; // @[FIFOFixer.scala:115:35, :116:36, :126:40] wire fixer_allIDs_FIFOed_4 = &fixer_SourceIdFIFOed_4; // @[FIFOFixer.scala:115:35, :127:41] wire [32:0] fixer__a_notFIFO_T_186 = {1'h0, fixer__a_notFIFO_T_185}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_187 = fixer__a_notFIFO_T_186 & 33'h8C020000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_188 = fixer__a_notFIFO_T_187; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_189 = fixer__a_notFIFO_T_188 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_190 = {fixer_x1_anonIn_4_a_bits_address[31:17], fixer_x1_anonIn_4_a_bits_address[16:0] ^ 17'h10000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_191 = {1'h0, fixer__a_notFIFO_T_190}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_192 = fixer__a_notFIFO_T_191 & 33'h8C031000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_193 = fixer__a_notFIFO_T_192; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_194 = fixer__a_notFIFO_T_193 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_195 = {fixer_x1_anonIn_4_a_bits_address[31:18], fixer_x1_anonIn_4_a_bits_address[17:0] ^ 18'h20000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_196 = {1'h0, fixer__a_notFIFO_T_195}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_197 = fixer__a_notFIFO_T_196 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_198 = fixer__a_notFIFO_T_197; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_199 = fixer__a_notFIFO_T_198 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_200 = {fixer_x1_anonIn_4_a_bits_address[31:28], fixer_x1_anonIn_4_a_bits_address[27:0] ^ 28'hC000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_201 = {1'h0, fixer__a_notFIFO_T_200}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_202 = fixer__a_notFIFO_T_201 & 33'h8C000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_203 = fixer__a_notFIFO_T_202; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_204 = fixer__a_notFIFO_T_203 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_205 = fixer__a_notFIFO_T_189 | fixer__a_notFIFO_T_194; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_206 = fixer__a_notFIFO_T_205 | fixer__a_notFIFO_T_199; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_207 = fixer__a_notFIFO_T_206 | fixer__a_notFIFO_T_204; // @[Parameters.scala:629:89] wire [31:0] fixer__a_notFIFO_T_208 = {fixer_x1_anonIn_4_a_bits_address[31:28], fixer_x1_anonIn_4_a_bits_address[27:0] ^ 28'h8000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_209 = {1'h0, fixer__a_notFIFO_T_208}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_210 = fixer__a_notFIFO_T_209 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_211 = fixer__a_notFIFO_T_210; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_212 = fixer__a_notFIFO_T_211 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_213 = fixer_x1_anonIn_4_a_bits_address ^ 32'h80000000; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_214 = {1'h0, fixer__a_notFIFO_T_213}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_215 = fixer__a_notFIFO_T_214 & 33'h80000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_216 = fixer__a_notFIFO_T_215; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_217 = fixer__a_notFIFO_T_216 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_218 = fixer__a_notFIFO_T_212 | fixer__a_notFIFO_T_217; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_220 = fixer__a_notFIFO_T_218; // @[Mux.scala:30:73] wire fixer__a_notFIFO_T_221 = fixer__a_notFIFO_T_220; // @[Mux.scala:30:73] wire fixer_a_notFIFO_5 = fixer__a_notFIFO_T_221; // @[Mux.scala:30:73] wire [32:0] fixer__a_id_T_26 = {1'h0, fixer__a_id_T_25}; // @[Parameters.scala:137:{31,41}] wire fixer__a_first_T_5 = fixer_x1_anonIn_4_a_ready & fixer_x1_anonIn_4_a_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__a_first_beats1_decode_T_15 = 27'hFFF << fixer_x1_anonIn_4_a_bits_size; // @[package.scala:243:71] wire [11:0] fixer__a_first_beats1_decode_T_16 = fixer__a_first_beats1_decode_T_15[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__a_first_beats1_decode_T_17 = ~fixer__a_first_beats1_decode_T_16; // @[package.scala:243:{46,76}] wire [8:0] fixer_a_first_beats1_decode_5 = fixer__a_first_beats1_decode_T_17[11:3]; // @[package.scala:243:46] wire fixer__a_first_beats1_opdata_T_5 = fixer_x1_anonIn_4_a_bits_opcode[2]; // @[Edges.scala:92:37] wire fixer_a_first_beats1_opdata_5 = ~fixer__a_first_beats1_opdata_T_5; // @[Edges.scala:92:{28,37}] wire [8:0] fixer_a_first_beats1_5 = fixer_a_first_beats1_opdata_5 ? fixer_a_first_beats1_decode_5 : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] fixer_a_first_counter_5; // @[Edges.scala:229:27] wire [9:0] fixer__a_first_counter1_T_5 = {1'h0, fixer_a_first_counter_5} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_a_first_counter1_5 = fixer__a_first_counter1_T_5[8:0]; // @[Edges.scala:230:28] wire fixer_a_first_5 = fixer_a_first_counter_5 == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__a_first_last_T_10 = fixer_a_first_counter_5 == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__a_first_last_T_11 = fixer_a_first_beats1_5 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_a_first_last_5 = fixer__a_first_last_T_10 | fixer__a_first_last_T_11; // @[Edges.scala:232:{25,33,43}] wire fixer_a_first_done_5 = fixer_a_first_last_5 & fixer__a_first_T_5; // @[Decoupled.scala:51:35] wire [8:0] fixer__a_first_count_T_5 = ~fixer_a_first_counter1_5; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_a_first_count_5 = fixer_a_first_beats1_5 & fixer__a_first_count_T_5; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__a_first_counter_T_5 = fixer_a_first_5 ? fixer_a_first_beats1_5 : fixer_a_first_counter1_5; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T_10 = fixer_x1_anonOut_4_d_ready & fixer_x1_anonOut_4_d_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__d_first_beats1_decode_T_15 = 27'hFFF << fixer_x1_anonOut_4_d_bits_size; // @[package.scala:243:71] wire [11:0] fixer__d_first_beats1_decode_T_16 = fixer__d_first_beats1_decode_T_15[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__d_first_beats1_decode_T_17 = ~fixer__d_first_beats1_decode_T_16; // @[package.scala:243:{46,76}] wire [8:0] fixer_d_first_beats1_decode_5 = fixer__d_first_beats1_decode_T_17[11:3]; // @[package.scala:243:46] wire fixer_d_first_beats1_opdata_5 = fixer_x1_anonOut_4_d_bits_opcode[0]; // @[Edges.scala:106:36] wire [8:0] fixer_d_first_beats1_5 = fixer_d_first_beats1_opdata_5 ? fixer_d_first_beats1_decode_5 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] fixer_d_first_counter_5; // @[Edges.scala:229:27] wire [9:0] fixer__d_first_counter1_T_5 = {1'h0, fixer_d_first_counter_5} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_d_first_counter1_5 = fixer__d_first_counter1_T_5[8:0]; // @[Edges.scala:230:28] wire fixer_d_first_first_5 = fixer_d_first_counter_5 == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__d_first_last_T_10 = fixer_d_first_counter_5 == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__d_first_last_T_11 = fixer_d_first_beats1_5 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_d_first_last_5 = fixer__d_first_last_T_10 | fixer__d_first_last_T_11; // @[Edges.scala:232:{25,33,43}] wire fixer_d_first_done_5 = fixer_d_first_last_5 & fixer__d_first_T_10; // @[Decoupled.scala:51:35] wire [8:0] fixer__d_first_count_T_5 = ~fixer_d_first_counter1_5; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_d_first_count_5 = fixer_d_first_beats1_5 & fixer__d_first_count_T_5; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__d_first_counter_T_5 = fixer_d_first_first_5 ? fixer_d_first_beats1_5 : fixer_d_first_counter1_5; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T_11 = fixer_x1_anonOut_4_d_bits_opcode != 3'h6; // @[FIFOFixer.scala:75:63] wire fixer_d_first_5 = fixer_d_first_first_5 & fixer__d_first_T_11; // @[FIFOFixer.scala:75:{42,63}] reg fixer_flight_5_0; // @[FIFOFixer.scala:79:27] reg fixer_flight_5_1; // @[FIFOFixer.scala:79:27] wire fixer__flight_T_5 = ~fixer_a_notFIFO_5; // @[Mux.scala:30:73] wire fixer__T_93 = fixer_x1_anonIn_4_d_ready & fixer_x1_anonIn_4_d_valid; // @[Decoupled.scala:51:35] assign fixer_x1_anonOut_4_a_valid = fixer__anonOut_a_valid_T_17; // @[FIFOFixer.scala:95:33] assign fixer_x1_anonIn_4_a_ready = fixer__anonIn_a_ready_T_17; // @[FIFOFixer.scala:96:33] reg [1:0] fixer_SourceIdFIFOed_5; // @[FIFOFixer.scala:115:35] wire [1:0] fixer_SourceIdSet_5; // @[FIFOFixer.scala:116:36] wire [1:0] fixer_SourceIdClear_5; // @[FIFOFixer.scala:117:38] wire [1:0] fixer__SourceIdSet_T_5 = 2'h1 << fixer_x1_anonIn_4_a_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdSet_5 = fixer_a_first_5 & fixer__a_first_T_5 & ~fixer_a_notFIFO_5 ? fixer__SourceIdSet_T_5 : 2'h0; // @[OneHot.scala:58:35] wire [1:0] fixer__SourceIdClear_T_5 = 2'h1 << fixer_x1_anonIn_4_d_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdClear_5 = fixer_d_first_5 & fixer__T_93 ? fixer__SourceIdClear_T_5 : 2'h0; // @[OneHot.scala:58:35] wire [1:0] fixer__SourceIdFIFOed_T_5 = fixer_SourceIdFIFOed_5 | fixer_SourceIdSet_5; // @[FIFOFixer.scala:115:35, :116:36, :126:40] wire fixer_allIDs_FIFOed_5 = &fixer_SourceIdFIFOed_5; // @[FIFOFixer.scala:115:35, :127:41] wire [32:0] fixer__a_notFIFO_T_223 = {1'h0, fixer__a_notFIFO_T_222}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_224 = fixer__a_notFIFO_T_223 & 33'h8C020000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_225 = fixer__a_notFIFO_T_224; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_226 = fixer__a_notFIFO_T_225 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_227 = {fixer_x1_anonIn_5_a_bits_address[31:17], fixer_x1_anonIn_5_a_bits_address[16:0] ^ 17'h10000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_228 = {1'h0, fixer__a_notFIFO_T_227}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_229 = fixer__a_notFIFO_T_228 & 33'h8C031000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_230 = fixer__a_notFIFO_T_229; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_231 = fixer__a_notFIFO_T_230 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_232 = {fixer_x1_anonIn_5_a_bits_address[31:18], fixer_x1_anonIn_5_a_bits_address[17:0] ^ 18'h20000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_233 = {1'h0, fixer__a_notFIFO_T_232}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_234 = fixer__a_notFIFO_T_233 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_235 = fixer__a_notFIFO_T_234; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_236 = fixer__a_notFIFO_T_235 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_237 = {fixer_x1_anonIn_5_a_bits_address[31:28], fixer_x1_anonIn_5_a_bits_address[27:0] ^ 28'hC000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_238 = {1'h0, fixer__a_notFIFO_T_237}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_239 = fixer__a_notFIFO_T_238 & 33'h8C000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_240 = fixer__a_notFIFO_T_239; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_241 = fixer__a_notFIFO_T_240 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_242 = fixer__a_notFIFO_T_226 | fixer__a_notFIFO_T_231; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_243 = fixer__a_notFIFO_T_242 | fixer__a_notFIFO_T_236; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_244 = fixer__a_notFIFO_T_243 | fixer__a_notFIFO_T_241; // @[Parameters.scala:629:89] wire [31:0] fixer__a_notFIFO_T_245 = {fixer_x1_anonIn_5_a_bits_address[31:28], fixer_x1_anonIn_5_a_bits_address[27:0] ^ 28'h8000000}; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_246 = {1'h0, fixer__a_notFIFO_T_245}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_247 = fixer__a_notFIFO_T_246 & 33'h8C030000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_248 = fixer__a_notFIFO_T_247; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_249 = fixer__a_notFIFO_T_248 == 33'h0; // @[Parameters.scala:137:{46,59}] wire [31:0] fixer__a_notFIFO_T_250 = fixer_x1_anonIn_5_a_bits_address ^ 32'h80000000; // @[Parameters.scala:137:31] wire [32:0] fixer__a_notFIFO_T_251 = {1'h0, fixer__a_notFIFO_T_250}; // @[Parameters.scala:137:{31,41}] wire [32:0] fixer__a_notFIFO_T_252 = fixer__a_notFIFO_T_251 & 33'h80000000; // @[Parameters.scala:137:{41,46}] wire [32:0] fixer__a_notFIFO_T_253 = fixer__a_notFIFO_T_252; // @[Parameters.scala:137:46] wire fixer__a_notFIFO_T_254 = fixer__a_notFIFO_T_253 == 33'h0; // @[Parameters.scala:137:{46,59}] wire fixer__a_notFIFO_T_255 = fixer__a_notFIFO_T_249 | fixer__a_notFIFO_T_254; // @[Parameters.scala:629:89] wire fixer__a_notFIFO_T_257 = fixer__a_notFIFO_T_255; // @[Mux.scala:30:73] wire fixer__a_notFIFO_T_258 = fixer__a_notFIFO_T_257; // @[Mux.scala:30:73] wire fixer_a_notFIFO_6 = fixer__a_notFIFO_T_258; // @[Mux.scala:30:73] wire [32:0] fixer__a_id_T_31 = {1'h0, fixer__a_id_T_30}; // @[Parameters.scala:137:{31,41}] wire fixer__a_first_T_6 = fixer_x1_anonIn_5_a_ready & fixer_x1_anonIn_5_a_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__a_first_beats1_decode_T_18 = 27'hFFF << fixer_x1_anonIn_5_a_bits_size; // @[package.scala:243:71] wire [11:0] fixer__a_first_beats1_decode_T_19 = fixer__a_first_beats1_decode_T_18[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__a_first_beats1_decode_T_20 = ~fixer__a_first_beats1_decode_T_19; // @[package.scala:243:{46,76}] wire [8:0] fixer_a_first_beats1_decode_6 = fixer__a_first_beats1_decode_T_20[11:3]; // @[package.scala:243:46] wire fixer__a_first_beats1_opdata_T_6 = fixer_x1_anonIn_5_a_bits_opcode[2]; // @[Edges.scala:92:37] wire fixer_a_first_beats1_opdata_6 = ~fixer__a_first_beats1_opdata_T_6; // @[Edges.scala:92:{28,37}] wire [8:0] fixer_a_first_beats1_6 = fixer_a_first_beats1_opdata_6 ? fixer_a_first_beats1_decode_6 : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] fixer_a_first_counter_6; // @[Edges.scala:229:27] wire [9:0] fixer__a_first_counter1_T_6 = {1'h0, fixer_a_first_counter_6} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_a_first_counter1_6 = fixer__a_first_counter1_T_6[8:0]; // @[Edges.scala:230:28] wire fixer_a_first_6 = fixer_a_first_counter_6 == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__a_first_last_T_12 = fixer_a_first_counter_6 == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__a_first_last_T_13 = fixer_a_first_beats1_6 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_a_first_last_6 = fixer__a_first_last_T_12 | fixer__a_first_last_T_13; // @[Edges.scala:232:{25,33,43}] wire fixer_a_first_done_6 = fixer_a_first_last_6 & fixer__a_first_T_6; // @[Decoupled.scala:51:35] wire [8:0] fixer__a_first_count_T_6 = ~fixer_a_first_counter1_6; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_a_first_count_6 = fixer_a_first_beats1_6 & fixer__a_first_count_T_6; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__a_first_counter_T_6 = fixer_a_first_6 ? fixer_a_first_beats1_6 : fixer_a_first_counter1_6; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T_12 = fixer_x1_anonOut_5_d_ready & fixer_x1_anonOut_5_d_valid; // @[Decoupled.scala:51:35] wire [26:0] fixer__d_first_beats1_decode_T_18 = 27'hFFF << fixer_x1_anonOut_5_d_bits_size; // @[package.scala:243:71] wire [11:0] fixer__d_first_beats1_decode_T_19 = fixer__d_first_beats1_decode_T_18[11:0]; // @[package.scala:243:{71,76}] wire [11:0] fixer__d_first_beats1_decode_T_20 = ~fixer__d_first_beats1_decode_T_19; // @[package.scala:243:{46,76}] wire [8:0] fixer_d_first_beats1_decode_6 = fixer__d_first_beats1_decode_T_20[11:3]; // @[package.scala:243:46] wire fixer_d_first_beats1_opdata_6 = fixer_x1_anonOut_5_d_bits_opcode[0]; // @[Edges.scala:106:36] wire [8:0] fixer_d_first_beats1_6 = fixer_d_first_beats1_opdata_6 ? fixer_d_first_beats1_decode_6 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] fixer_d_first_counter_6; // @[Edges.scala:229:27] wire [9:0] fixer__d_first_counter1_T_6 = {1'h0, fixer_d_first_counter_6} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] fixer_d_first_counter1_6 = fixer__d_first_counter1_T_6[8:0]; // @[Edges.scala:230:28] wire fixer_d_first_first_6 = fixer_d_first_counter_6 == 9'h0; // @[Edges.scala:229:27, :231:25] wire fixer__d_first_last_T_12 = fixer_d_first_counter_6 == 9'h1; // @[Edges.scala:229:27, :232:25] wire fixer__d_first_last_T_13 = fixer_d_first_beats1_6 == 9'h0; // @[Edges.scala:221:14, :232:43] wire fixer_d_first_last_6 = fixer__d_first_last_T_12 | fixer__d_first_last_T_13; // @[Edges.scala:232:{25,33,43}] wire fixer_d_first_done_6 = fixer_d_first_last_6 & fixer__d_first_T_12; // @[Decoupled.scala:51:35] wire [8:0] fixer__d_first_count_T_6 = ~fixer_d_first_counter1_6; // @[Edges.scala:230:28, :234:27] wire [8:0] fixer_d_first_count_6 = fixer_d_first_beats1_6 & fixer__d_first_count_T_6; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] fixer__d_first_counter_T_6 = fixer_d_first_first_6 ? fixer_d_first_beats1_6 : fixer_d_first_counter1_6; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire fixer__d_first_T_13 = fixer_x1_anonOut_5_d_bits_opcode != 3'h6; // @[FIFOFixer.scala:75:63] wire fixer_d_first_6 = fixer_d_first_first_6 & fixer__d_first_T_13; // @[FIFOFixer.scala:75:{42,63}] reg fixer_flight_6_0; // @[FIFOFixer.scala:79:27] reg fixer_flight_6_1; // @[FIFOFixer.scala:79:27] reg fixer_flight_6_2; // @[FIFOFixer.scala:79:27] wire fixer__flight_T_6 = ~fixer_a_notFIFO_6; // @[Mux.scala:30:73] wire fixer__T_108 = fixer_x1_anonIn_5_d_ready & fixer_x1_anonIn_5_d_valid; // @[Decoupled.scala:51:35] assign fixer_x1_anonOut_5_a_valid = fixer__anonOut_a_valid_T_20; // @[FIFOFixer.scala:95:33] assign fixer_x1_anonIn_5_a_ready = fixer__anonIn_a_ready_T_20; // @[FIFOFixer.scala:96:33] reg [2:0] fixer_SourceIdFIFOed_6; // @[FIFOFixer.scala:115:35] wire [2:0] fixer_SourceIdSet_6; // @[FIFOFixer.scala:116:36] wire [2:0] fixer_SourceIdClear_6; // @[FIFOFixer.scala:117:38] wire [3:0] fixer__SourceIdSet_T_6 = 4'h1 << fixer_x1_anonIn_5_a_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdSet_6 = fixer_a_first_6 & fixer__a_first_T_6 & ~fixer_a_notFIFO_6 ? fixer__SourceIdSet_T_6[2:0] : 3'h0; // @[OneHot.scala:58:35] wire [3:0] fixer__SourceIdClear_T_6 = 4'h1 << fixer_x1_anonIn_5_d_bits_source; // @[OneHot.scala:58:35] assign fixer_SourceIdClear_6 = fixer_d_first_6 & fixer__T_108 ? fixer__SourceIdClear_T_6[2:0] : 3'h0; // @[OneHot.scala:58:35] wire [2:0] fixer__SourceIdFIFOed_T_6 = fixer_SourceIdFIFOed_6 | fixer_SourceIdSet_6; // @[FIFOFixer.scala:115:35, :116:36, :126:40] wire fixer_allIDs_FIFOed_6 = &fixer_SourceIdFIFOed_6; // @[FIFOFixer.scala:115:35, :127:41] wire coupler_to_bus_named_cbus_widget_auto_anon_in_a_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_in_a_valid = coupler_to_bus_named_cbus_auto_widget_anon_in_a_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_opcode = coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_opcode; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_param = coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_param; // @[WidthWidget.scala:27:9] wire [3:0] coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_size = coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_source = coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_source; // @[WidthWidget.scala:27:9] wire [28:0] coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_address = coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_address; // @[WidthWidget.scala:27:9] wire [7:0] coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_mask = coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_mask; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_data = coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_corrupt = coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_in_d_ready = coupler_to_bus_named_cbus_auto_widget_anon_in_d_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_in_d_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_opcode; // @[WidthWidget.scala:27:9] wire [1:0] coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_param; // @[WidthWidget.scala:27:9] wire [3:0] coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_source; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_sink; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_denied; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_bus_xingOut_a_ready = coupler_to_bus_named_cbus_auto_bus_xing_out_a_ready; // @[MixedNode.scala:542:17] wire coupler_to_bus_named_cbus_bus_xingOut_a_valid; // @[MixedNode.scala:542:17] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_valid_0 = coupler_to_bus_named_cbus_auto_bus_xing_out_a_valid; // @[ClockDomain.scala:14:9] wire [2:0] coupler_to_bus_named_cbus_bus_xingOut_a_bits_opcode; // @[MixedNode.scala:542:17] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_opcode_0 = coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] coupler_to_bus_named_cbus_bus_xingOut_a_bits_param; // @[MixedNode.scala:542:17] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_param_0 = coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] coupler_to_bus_named_cbus_bus_xingOut_a_bits_size; // @[MixedNode.scala:542:17] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_size_0 = coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_size; // @[ClockDomain.scala:14:9] wire [5:0] coupler_to_bus_named_cbus_bus_xingOut_a_bits_source; // @[MixedNode.scala:542:17] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_source_0 = coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_source; // @[ClockDomain.scala:14:9] wire [28:0] coupler_to_bus_named_cbus_bus_xingOut_a_bits_address; // @[MixedNode.scala:542:17] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_address_0 = coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_address; // @[ClockDomain.scala:14:9] wire [7:0] coupler_to_bus_named_cbus_bus_xingOut_a_bits_mask; // @[MixedNode.scala:542:17] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_mask_0 = coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_mask; // @[ClockDomain.scala:14:9] wire [63:0] coupler_to_bus_named_cbus_bus_xingOut_a_bits_data; // @[MixedNode.scala:542:17] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_data_0 = coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_data; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_cbus_bus_xingOut_a_bits_corrupt; // @[MixedNode.scala:542:17] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_corrupt_0 = coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_corrupt; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_cbus_bus_xingOut_d_ready; // @[MixedNode.scala:542:17] assign auto_coupler_to_bus_named_cbus_bus_xing_out_d_ready_0 = coupler_to_bus_named_cbus_auto_bus_xing_out_d_ready; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_cbus_bus_xingOut_d_valid = coupler_to_bus_named_cbus_auto_bus_xing_out_d_valid; // @[MixedNode.scala:542:17] wire [2:0] coupler_to_bus_named_cbus_bus_xingOut_d_bits_opcode = coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_opcode; // @[MixedNode.scala:542:17] wire [1:0] coupler_to_bus_named_cbus_bus_xingOut_d_bits_param = coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_param; // @[MixedNode.scala:542:17] wire [3:0] coupler_to_bus_named_cbus_bus_xingOut_d_bits_size = coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_size; // @[MixedNode.scala:542:17] wire [5:0] coupler_to_bus_named_cbus_bus_xingOut_d_bits_source = coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_source; // @[MixedNode.scala:542:17] wire coupler_to_bus_named_cbus_bus_xingOut_d_bits_sink = coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_sink; // @[MixedNode.scala:542:17] wire coupler_to_bus_named_cbus_bus_xingOut_d_bits_denied = coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_denied; // @[MixedNode.scala:542:17] wire [63:0] coupler_to_bus_named_cbus_bus_xingOut_d_bits_data = coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_data; // @[MixedNode.scala:542:17] wire coupler_to_bus_named_cbus_bus_xingOut_d_bits_corrupt = coupler_to_bus_named_cbus_auto_bus_xing_out_d_bits_corrupt; // @[MixedNode.scala:542:17] wire coupler_to_bus_named_cbus_auto_widget_anon_in_a_ready; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_opcode; // @[LazyModuleImp.scala:138:7] wire [1:0] coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_param; // @[LazyModuleImp.scala:138:7] wire [3:0] coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_size; // @[LazyModuleImp.scala:138:7] wire [5:0] coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_source; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_sink; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_denied; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_data; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_cbus_auto_widget_anon_in_d_valid; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_cbus_widget_anonIn_a_ready; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_cbus_auto_widget_anon_in_a_ready = coupler_to_bus_named_cbus_widget_auto_anon_in_a_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_anonIn_a_valid = coupler_to_bus_named_cbus_widget_auto_anon_in_a_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_cbus_widget_anonIn_a_bits_opcode = coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_opcode; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_cbus_widget_anonIn_a_bits_param = coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_param; // @[WidthWidget.scala:27:9] wire [3:0] coupler_to_bus_named_cbus_widget_anonIn_a_bits_size = coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_cbus_widget_anonIn_a_bits_source = coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_source; // @[WidthWidget.scala:27:9] wire [28:0] coupler_to_bus_named_cbus_widget_anonIn_a_bits_address = coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_address; // @[WidthWidget.scala:27:9] wire [7:0] coupler_to_bus_named_cbus_widget_anonIn_a_bits_mask = coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_mask; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_cbus_widget_anonIn_a_bits_data = coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_anonIn_a_bits_corrupt = coupler_to_bus_named_cbus_widget_auto_anon_in_a_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_anonIn_d_ready = coupler_to_bus_named_cbus_widget_auto_anon_in_d_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_anonIn_d_valid; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_cbus_auto_widget_anon_in_d_valid = coupler_to_bus_named_cbus_widget_auto_anon_in_d_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_cbus_widget_anonIn_d_bits_opcode; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_opcode = coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_opcode; // @[WidthWidget.scala:27:9] wire [1:0] coupler_to_bus_named_cbus_widget_anonIn_d_bits_param; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_param = coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_param; // @[WidthWidget.scala:27:9] wire [3:0] coupler_to_bus_named_cbus_widget_anonIn_d_bits_size; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_size = coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_cbus_widget_anonIn_d_bits_source; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_source = coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_source; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_anonIn_d_bits_sink; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_sink = coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_sink; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_anonIn_d_bits_denied; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_denied = coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_denied; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_cbus_widget_anonIn_d_bits_data; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_data = coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_anonIn_d_bits_corrupt; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_corrupt = coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_bus_xingIn_a_ready; // @[MixedNode.scala:551:17] wire coupler_to_bus_named_cbus_widget_anonOut_a_ready = coupler_to_bus_named_cbus_widget_auto_anon_out_a_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_anonOut_a_valid; // @[MixedNode.scala:542:17] wire [2:0] coupler_to_bus_named_cbus_widget_anonOut_a_bits_opcode; // @[MixedNode.scala:542:17] wire coupler_to_bus_named_cbus_bus_xingIn_a_valid = coupler_to_bus_named_cbus_widget_auto_anon_out_a_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_cbus_widget_anonOut_a_bits_param; // @[MixedNode.scala:542:17] wire [2:0] coupler_to_bus_named_cbus_bus_xingIn_a_bits_opcode = coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_opcode; // @[WidthWidget.scala:27:9] wire [3:0] coupler_to_bus_named_cbus_widget_anonOut_a_bits_size; // @[MixedNode.scala:542:17] wire [2:0] coupler_to_bus_named_cbus_bus_xingIn_a_bits_param = coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_param; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_cbus_widget_anonOut_a_bits_source; // @[MixedNode.scala:542:17] wire [3:0] coupler_to_bus_named_cbus_bus_xingIn_a_bits_size = coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_size; // @[WidthWidget.scala:27:9] wire [28:0] coupler_to_bus_named_cbus_widget_anonOut_a_bits_address; // @[MixedNode.scala:542:17] wire [5:0] coupler_to_bus_named_cbus_bus_xingIn_a_bits_source = coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_source; // @[WidthWidget.scala:27:9] wire [7:0] coupler_to_bus_named_cbus_widget_anonOut_a_bits_mask; // @[MixedNode.scala:542:17] wire [28:0] coupler_to_bus_named_cbus_bus_xingIn_a_bits_address = coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_address; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_cbus_widget_anonOut_a_bits_data; // @[MixedNode.scala:542:17] wire [7:0] coupler_to_bus_named_cbus_bus_xingIn_a_bits_mask = coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_mask; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_anonOut_a_bits_corrupt; // @[MixedNode.scala:542:17] wire [63:0] coupler_to_bus_named_cbus_bus_xingIn_a_bits_data = coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_widget_anonOut_d_ready; // @[MixedNode.scala:542:17] wire coupler_to_bus_named_cbus_bus_xingIn_a_bits_corrupt = coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_bus_xingIn_d_ready = coupler_to_bus_named_cbus_widget_auto_anon_out_d_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_bus_xingIn_d_valid; // @[MixedNode.scala:551:17] wire coupler_to_bus_named_cbus_widget_anonOut_d_valid = coupler_to_bus_named_cbus_widget_auto_anon_out_d_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_cbus_bus_xingIn_d_bits_opcode; // @[MixedNode.scala:551:17] wire [2:0] coupler_to_bus_named_cbus_widget_anonOut_d_bits_opcode = coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_opcode; // @[WidthWidget.scala:27:9] wire [1:0] coupler_to_bus_named_cbus_bus_xingIn_d_bits_param; // @[MixedNode.scala:551:17] wire [1:0] coupler_to_bus_named_cbus_widget_anonOut_d_bits_param = coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_param; // @[WidthWidget.scala:27:9] wire [3:0] coupler_to_bus_named_cbus_bus_xingIn_d_bits_size; // @[MixedNode.scala:551:17] wire [3:0] coupler_to_bus_named_cbus_widget_anonOut_d_bits_size = coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_cbus_bus_xingIn_d_bits_source; // @[MixedNode.scala:551:17] wire [5:0] coupler_to_bus_named_cbus_widget_anonOut_d_bits_source = coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_source; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_bus_xingIn_d_bits_sink; // @[MixedNode.scala:551:17] wire coupler_to_bus_named_cbus_widget_anonOut_d_bits_sink = coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_sink; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_bus_xingIn_d_bits_denied; // @[MixedNode.scala:551:17] wire coupler_to_bus_named_cbus_widget_anonOut_d_bits_denied = coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_denied; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_cbus_bus_xingIn_d_bits_data; // @[MixedNode.scala:551:17] wire [63:0] coupler_to_bus_named_cbus_widget_anonOut_d_bits_data = coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_cbus_bus_xingIn_d_bits_corrupt; // @[MixedNode.scala:551:17] wire coupler_to_bus_named_cbus_widget_anonOut_d_bits_corrupt = coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_corrupt; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_anonIn_a_ready = coupler_to_bus_named_cbus_widget_anonOut_a_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_auto_anon_out_a_valid = coupler_to_bus_named_cbus_widget_anonOut_a_valid; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_opcode = coupler_to_bus_named_cbus_widget_anonOut_a_bits_opcode; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_param = coupler_to_bus_named_cbus_widget_anonOut_a_bits_param; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_size = coupler_to_bus_named_cbus_widget_anonOut_a_bits_size; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_source = coupler_to_bus_named_cbus_widget_anonOut_a_bits_source; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_address = coupler_to_bus_named_cbus_widget_anonOut_a_bits_address; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_mask = coupler_to_bus_named_cbus_widget_anonOut_a_bits_mask; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_data = coupler_to_bus_named_cbus_widget_anonOut_a_bits_data; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_a_bits_corrupt = coupler_to_bus_named_cbus_widget_anonOut_a_bits_corrupt; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_d_ready = coupler_to_bus_named_cbus_widget_anonOut_d_ready; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_anonIn_d_valid = coupler_to_bus_named_cbus_widget_anonOut_d_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonIn_d_bits_opcode = coupler_to_bus_named_cbus_widget_anonOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonIn_d_bits_param = coupler_to_bus_named_cbus_widget_anonOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonIn_d_bits_size = coupler_to_bus_named_cbus_widget_anonOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonIn_d_bits_source = coupler_to_bus_named_cbus_widget_anonOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonIn_d_bits_sink = coupler_to_bus_named_cbus_widget_anonOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonIn_d_bits_denied = coupler_to_bus_named_cbus_widget_anonOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonIn_d_bits_data = coupler_to_bus_named_cbus_widget_anonOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonIn_d_bits_corrupt = coupler_to_bus_named_cbus_widget_anonOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_auto_anon_in_a_ready = coupler_to_bus_named_cbus_widget_anonIn_a_ready; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_anonOut_a_valid = coupler_to_bus_named_cbus_widget_anonIn_a_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonOut_a_bits_opcode = coupler_to_bus_named_cbus_widget_anonIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonOut_a_bits_param = coupler_to_bus_named_cbus_widget_anonIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonOut_a_bits_size = coupler_to_bus_named_cbus_widget_anonIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonOut_a_bits_source = coupler_to_bus_named_cbus_widget_anonIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonOut_a_bits_address = coupler_to_bus_named_cbus_widget_anonIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonOut_a_bits_mask = coupler_to_bus_named_cbus_widget_anonIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonOut_a_bits_data = coupler_to_bus_named_cbus_widget_anonIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonOut_a_bits_corrupt = coupler_to_bus_named_cbus_widget_anonIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_anonOut_d_ready = coupler_to_bus_named_cbus_widget_anonIn_d_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_auto_anon_in_d_valid = coupler_to_bus_named_cbus_widget_anonIn_d_valid; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_opcode = coupler_to_bus_named_cbus_widget_anonIn_d_bits_opcode; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_param = coupler_to_bus_named_cbus_widget_anonIn_d_bits_param; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_size = coupler_to_bus_named_cbus_widget_anonIn_d_bits_size; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_source = coupler_to_bus_named_cbus_widget_anonIn_d_bits_source; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_sink = coupler_to_bus_named_cbus_widget_anonIn_d_bits_sink; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_denied = coupler_to_bus_named_cbus_widget_anonIn_d_bits_denied; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_data = coupler_to_bus_named_cbus_widget_anonIn_d_bits_data; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_in_d_bits_corrupt = coupler_to_bus_named_cbus_widget_anonIn_d_bits_corrupt; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_bus_xingIn_a_ready = coupler_to_bus_named_cbus_bus_xingOut_a_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_auto_bus_xing_out_a_valid = coupler_to_bus_named_cbus_bus_xingOut_a_valid; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_opcode = coupler_to_bus_named_cbus_bus_xingOut_a_bits_opcode; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_param = coupler_to_bus_named_cbus_bus_xingOut_a_bits_param; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_size = coupler_to_bus_named_cbus_bus_xingOut_a_bits_size; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_source = coupler_to_bus_named_cbus_bus_xingOut_a_bits_source; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_address = coupler_to_bus_named_cbus_bus_xingOut_a_bits_address; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_mask = coupler_to_bus_named_cbus_bus_xingOut_a_bits_mask; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_data = coupler_to_bus_named_cbus_bus_xingOut_a_bits_data; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_cbus_auto_bus_xing_out_a_bits_corrupt = coupler_to_bus_named_cbus_bus_xingOut_a_bits_corrupt; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_cbus_auto_bus_xing_out_d_ready = coupler_to_bus_named_cbus_bus_xingOut_d_ready; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_cbus_bus_xingIn_d_valid = coupler_to_bus_named_cbus_bus_xingOut_d_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingIn_d_bits_opcode = coupler_to_bus_named_cbus_bus_xingOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingIn_d_bits_param = coupler_to_bus_named_cbus_bus_xingOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingIn_d_bits_size = coupler_to_bus_named_cbus_bus_xingOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingIn_d_bits_source = coupler_to_bus_named_cbus_bus_xingOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingIn_d_bits_sink = coupler_to_bus_named_cbus_bus_xingOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingIn_d_bits_denied = coupler_to_bus_named_cbus_bus_xingOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingIn_d_bits_data = coupler_to_bus_named_cbus_bus_xingOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingIn_d_bits_corrupt = coupler_to_bus_named_cbus_bus_xingOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_auto_anon_out_a_ready = coupler_to_bus_named_cbus_bus_xingIn_a_ready; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_bus_xingOut_a_valid = coupler_to_bus_named_cbus_bus_xingIn_a_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingOut_a_bits_opcode = coupler_to_bus_named_cbus_bus_xingIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingOut_a_bits_param = coupler_to_bus_named_cbus_bus_xingIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingOut_a_bits_size = coupler_to_bus_named_cbus_bus_xingIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingOut_a_bits_source = coupler_to_bus_named_cbus_bus_xingIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingOut_a_bits_address = coupler_to_bus_named_cbus_bus_xingIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingOut_a_bits_mask = coupler_to_bus_named_cbus_bus_xingIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingOut_a_bits_data = coupler_to_bus_named_cbus_bus_xingIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingOut_a_bits_corrupt = coupler_to_bus_named_cbus_bus_xingIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_bus_xingOut_d_ready = coupler_to_bus_named_cbus_bus_xingIn_d_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_cbus_widget_auto_anon_out_d_valid = coupler_to_bus_named_cbus_bus_xingIn_d_valid; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_opcode = coupler_to_bus_named_cbus_bus_xingIn_d_bits_opcode; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_param = coupler_to_bus_named_cbus_bus_xingIn_d_bits_param; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_size = coupler_to_bus_named_cbus_bus_xingIn_d_bits_size; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_source = coupler_to_bus_named_cbus_bus_xingIn_d_bits_source; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_sink = coupler_to_bus_named_cbus_bus_xingIn_d_bits_sink; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_denied = coupler_to_bus_named_cbus_bus_xingIn_d_bits_denied; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_data = coupler_to_bus_named_cbus_bus_xingIn_d_bits_data; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_cbus_widget_auto_anon_out_d_bits_corrupt = coupler_to_bus_named_cbus_bus_xingIn_d_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_auto_anon_out_a_ready = coupler_from_bus_named_fbus_auto_widget_anon_out_a_ready; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_auto_anon_out_a_valid; // @[WidthWidget.scala:27:9] assign fixer_auto_anon_in_0_a_valid = coupler_from_bus_named_fbus_auto_widget_anon_out_a_valid; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_opcode; // @[WidthWidget.scala:27:9] assign fixer_auto_anon_in_0_a_bits_opcode = coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_param; // @[WidthWidget.scala:27:9] assign fixer_auto_anon_in_0_a_bits_param = coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_size; // @[WidthWidget.scala:27:9] assign fixer_auto_anon_in_0_a_bits_size = coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_size; // @[FIFOFixer.scala:50:9] wire [4:0] coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_source; // @[WidthWidget.scala:27:9] assign fixer_auto_anon_in_0_a_bits_source = coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_address; // @[WidthWidget.scala:27:9] assign fixer_auto_anon_in_0_a_bits_address = coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_mask; // @[WidthWidget.scala:27:9] assign fixer_auto_anon_in_0_a_bits_mask = coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_data; // @[WidthWidget.scala:27:9] assign fixer_auto_anon_in_0_a_bits_data = coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_data; // @[FIFOFixer.scala:50:9] wire coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_corrupt; // @[WidthWidget.scala:27:9] assign fixer_auto_anon_in_0_a_bits_corrupt = coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire coupler_from_bus_named_fbus_widget_auto_anon_out_d_ready; // @[WidthWidget.scala:27:9] assign fixer_auto_anon_in_0_d_ready = coupler_from_bus_named_fbus_auto_widget_anon_out_d_ready; // @[FIFOFixer.scala:50:9] wire coupler_from_bus_named_fbus_widget_auto_anon_out_d_valid = coupler_from_bus_named_fbus_auto_widget_anon_out_d_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_opcode = coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_opcode; // @[WidthWidget.scala:27:9] wire [1:0] coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_param = coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_param; // @[WidthWidget.scala:27:9] wire [3:0] coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_size = coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_size; // @[WidthWidget.scala:27:9] wire [4:0] coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_source = coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_source; // @[WidthWidget.scala:27:9] wire [2:0] coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_sink = coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_sink; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_denied = coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_denied; // @[WidthWidget.scala:27:9] wire [63:0] coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_data = coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_data; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_corrupt = coupler_from_bus_named_fbus_auto_widget_anon_out_d_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_bus_xingIn_a_ready; // @[MixedNode.scala:551:17] assign auto_coupler_from_bus_named_fbus_bus_xing_in_a_ready_0 = coupler_from_bus_named_fbus_auto_bus_xing_in_a_ready; // @[ClockDomain.scala:14:9] wire coupler_from_bus_named_fbus_bus_xingIn_a_valid = coupler_from_bus_named_fbus_auto_bus_xing_in_a_valid; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_bus_named_fbus_bus_xingIn_a_bits_opcode = coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_opcode; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_bus_named_fbus_bus_xingIn_a_bits_param = coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_param; // @[MixedNode.scala:551:17] wire [3:0] coupler_from_bus_named_fbus_bus_xingIn_a_bits_size = coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_size; // @[MixedNode.scala:551:17] wire [4:0] coupler_from_bus_named_fbus_bus_xingIn_a_bits_source = coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_source; // @[MixedNode.scala:551:17] wire [31:0] coupler_from_bus_named_fbus_bus_xingIn_a_bits_address = coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_address; // @[MixedNode.scala:551:17] wire [7:0] coupler_from_bus_named_fbus_bus_xingIn_a_bits_mask = coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_mask; // @[MixedNode.scala:551:17] wire [63:0] coupler_from_bus_named_fbus_bus_xingIn_a_bits_data = coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_data; // @[MixedNode.scala:551:17] wire coupler_from_bus_named_fbus_bus_xingIn_a_bits_corrupt = coupler_from_bus_named_fbus_auto_bus_xing_in_a_bits_corrupt; // @[MixedNode.scala:551:17] wire coupler_from_bus_named_fbus_bus_xingIn_d_ready = coupler_from_bus_named_fbus_auto_bus_xing_in_d_ready; // @[MixedNode.scala:551:17] wire coupler_from_bus_named_fbus_bus_xingIn_d_valid; // @[MixedNode.scala:551:17] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_valid_0 = coupler_from_bus_named_fbus_auto_bus_xing_in_d_valid; // @[ClockDomain.scala:14:9] wire [2:0] coupler_from_bus_named_fbus_bus_xingIn_d_bits_opcode; // @[MixedNode.scala:551:17] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_opcode_0 = coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_opcode; // @[ClockDomain.scala:14:9] wire [1:0] coupler_from_bus_named_fbus_bus_xingIn_d_bits_param; // @[MixedNode.scala:551:17] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_param_0 = coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] coupler_from_bus_named_fbus_bus_xingIn_d_bits_size; // @[MixedNode.scala:551:17] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_size_0 = coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_size; // @[ClockDomain.scala:14:9] wire [4:0] coupler_from_bus_named_fbus_bus_xingIn_d_bits_source; // @[MixedNode.scala:551:17] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_source_0 = coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_source; // @[ClockDomain.scala:14:9] wire [2:0] coupler_from_bus_named_fbus_bus_xingIn_d_bits_sink; // @[MixedNode.scala:551:17] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_sink_0 = coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_sink; // @[ClockDomain.scala:14:9] wire coupler_from_bus_named_fbus_bus_xingIn_d_bits_denied; // @[MixedNode.scala:551:17] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_denied_0 = coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_denied; // @[ClockDomain.scala:14:9] wire [63:0] coupler_from_bus_named_fbus_bus_xingIn_d_bits_data; // @[MixedNode.scala:551:17] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_data_0 = coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_data; // @[ClockDomain.scala:14:9] wire coupler_from_bus_named_fbus_bus_xingIn_d_bits_corrupt; // @[MixedNode.scala:551:17] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_corrupt_0 = coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_corrupt; // @[ClockDomain.scala:14:9] wire coupler_from_bus_named_fbus_widget_anonIn_a_ready; // @[MixedNode.scala:551:17] wire coupler_from_bus_named_fbus_bus_xingOut_a_ready = coupler_from_bus_named_fbus_widget_auto_anon_in_a_ready; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_bus_xingOut_a_valid; // @[MixedNode.scala:542:17] wire coupler_from_bus_named_fbus_widget_anonIn_a_valid = coupler_from_bus_named_fbus_widget_auto_anon_in_a_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_from_bus_named_fbus_bus_xingOut_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] coupler_from_bus_named_fbus_widget_anonIn_a_bits_opcode = coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_opcode; // @[WidthWidget.scala:27:9] wire [2:0] coupler_from_bus_named_fbus_bus_xingOut_a_bits_param; // @[MixedNode.scala:542:17] wire [2:0] coupler_from_bus_named_fbus_widget_anonIn_a_bits_param = coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_param; // @[WidthWidget.scala:27:9] wire [3:0] coupler_from_bus_named_fbus_bus_xingOut_a_bits_size; // @[MixedNode.scala:542:17] wire [3:0] coupler_from_bus_named_fbus_widget_anonIn_a_bits_size = coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_size; // @[WidthWidget.scala:27:9] wire [4:0] coupler_from_bus_named_fbus_bus_xingOut_a_bits_source; // @[MixedNode.scala:542:17] wire [4:0] coupler_from_bus_named_fbus_widget_anonIn_a_bits_source = coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_source; // @[WidthWidget.scala:27:9] wire [31:0] coupler_from_bus_named_fbus_bus_xingOut_a_bits_address; // @[MixedNode.scala:542:17] wire [31:0] coupler_from_bus_named_fbus_widget_anonIn_a_bits_address = coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_address; // @[WidthWidget.scala:27:9] wire [7:0] coupler_from_bus_named_fbus_bus_xingOut_a_bits_mask; // @[MixedNode.scala:542:17] wire [7:0] coupler_from_bus_named_fbus_widget_anonIn_a_bits_mask = coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_mask; // @[WidthWidget.scala:27:9] wire [63:0] coupler_from_bus_named_fbus_bus_xingOut_a_bits_data; // @[MixedNode.scala:542:17] wire [63:0] coupler_from_bus_named_fbus_widget_anonIn_a_bits_data = coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_data; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_bus_xingOut_a_bits_corrupt; // @[MixedNode.scala:542:17] wire coupler_from_bus_named_fbus_widget_anonIn_a_bits_corrupt = coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_bus_xingOut_d_ready; // @[MixedNode.scala:542:17] wire coupler_from_bus_named_fbus_widget_anonIn_d_ready = coupler_from_bus_named_fbus_widget_auto_anon_in_d_ready; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_anonIn_d_valid; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_bus_named_fbus_widget_anonIn_d_bits_opcode; // @[MixedNode.scala:551:17] wire coupler_from_bus_named_fbus_bus_xingOut_d_valid = coupler_from_bus_named_fbus_widget_auto_anon_in_d_valid; // @[WidthWidget.scala:27:9] wire [1:0] coupler_from_bus_named_fbus_widget_anonIn_d_bits_param; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_bus_named_fbus_bus_xingOut_d_bits_opcode = coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_opcode; // @[WidthWidget.scala:27:9] wire [3:0] coupler_from_bus_named_fbus_widget_anonIn_d_bits_size; // @[MixedNode.scala:551:17] wire [1:0] coupler_from_bus_named_fbus_bus_xingOut_d_bits_param = coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_param; // @[WidthWidget.scala:27:9] wire [4:0] coupler_from_bus_named_fbus_widget_anonIn_d_bits_source; // @[MixedNode.scala:551:17] wire [3:0] coupler_from_bus_named_fbus_bus_xingOut_d_bits_size = coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_size; // @[WidthWidget.scala:27:9] wire [2:0] coupler_from_bus_named_fbus_widget_anonIn_d_bits_sink; // @[MixedNode.scala:551:17] wire [4:0] coupler_from_bus_named_fbus_bus_xingOut_d_bits_source = coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_source; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_anonIn_d_bits_denied; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_bus_named_fbus_bus_xingOut_d_bits_sink = coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_sink; // @[WidthWidget.scala:27:9] wire [63:0] coupler_from_bus_named_fbus_widget_anonIn_d_bits_data; // @[MixedNode.scala:551:17] wire coupler_from_bus_named_fbus_bus_xingOut_d_bits_denied = coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_denied; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_anonIn_d_bits_corrupt; // @[MixedNode.scala:551:17] wire [63:0] coupler_from_bus_named_fbus_bus_xingOut_d_bits_data = coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_data; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_bus_xingOut_d_bits_corrupt = coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_anonOut_a_ready = coupler_from_bus_named_fbus_widget_auto_anon_out_a_ready; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_anonOut_a_valid; // @[MixedNode.scala:542:17] assign coupler_from_bus_named_fbus_auto_widget_anon_out_a_valid = coupler_from_bus_named_fbus_widget_auto_anon_out_a_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_from_bus_named_fbus_widget_anonOut_a_bits_opcode; // @[MixedNode.scala:542:17] assign coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_opcode = coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_opcode; // @[WidthWidget.scala:27:9] wire [2:0] coupler_from_bus_named_fbus_widget_anonOut_a_bits_param; // @[MixedNode.scala:542:17] assign coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_param = coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_param; // @[WidthWidget.scala:27:9] wire [3:0] coupler_from_bus_named_fbus_widget_anonOut_a_bits_size; // @[MixedNode.scala:542:17] assign coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_size = coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_size; // @[WidthWidget.scala:27:9] wire [4:0] coupler_from_bus_named_fbus_widget_anonOut_a_bits_source; // @[MixedNode.scala:542:17] assign coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_source = coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_source; // @[WidthWidget.scala:27:9] wire [31:0] coupler_from_bus_named_fbus_widget_anonOut_a_bits_address; // @[MixedNode.scala:542:17] assign coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_address = coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_address; // @[WidthWidget.scala:27:9] wire [7:0] coupler_from_bus_named_fbus_widget_anonOut_a_bits_mask; // @[MixedNode.scala:542:17] assign coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_mask = coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_mask; // @[WidthWidget.scala:27:9] wire [63:0] coupler_from_bus_named_fbus_widget_anonOut_a_bits_data; // @[MixedNode.scala:542:17] assign coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_data = coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_data; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_anonOut_a_bits_corrupt; // @[MixedNode.scala:542:17] assign coupler_from_bus_named_fbus_auto_widget_anon_out_a_bits_corrupt = coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_anonOut_d_ready; // @[MixedNode.scala:542:17] assign coupler_from_bus_named_fbus_auto_widget_anon_out_d_ready = coupler_from_bus_named_fbus_widget_auto_anon_out_d_ready; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_anonOut_d_valid = coupler_from_bus_named_fbus_widget_auto_anon_out_d_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_from_bus_named_fbus_widget_anonOut_d_bits_opcode = coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_opcode; // @[WidthWidget.scala:27:9] wire [1:0] coupler_from_bus_named_fbus_widget_anonOut_d_bits_param = coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_param; // @[WidthWidget.scala:27:9] wire [3:0] coupler_from_bus_named_fbus_widget_anonOut_d_bits_size = coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_size; // @[WidthWidget.scala:27:9] wire [4:0] coupler_from_bus_named_fbus_widget_anonOut_d_bits_source = coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_source; // @[WidthWidget.scala:27:9] wire [2:0] coupler_from_bus_named_fbus_widget_anonOut_d_bits_sink = coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_sink; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_anonOut_d_bits_denied = coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_denied; // @[WidthWidget.scala:27:9] wire [63:0] coupler_from_bus_named_fbus_widget_anonOut_d_bits_data = coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_data; // @[WidthWidget.scala:27:9] wire coupler_from_bus_named_fbus_widget_anonOut_d_bits_corrupt = coupler_from_bus_named_fbus_widget_auto_anon_out_d_bits_corrupt; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_anonIn_a_ready = coupler_from_bus_named_fbus_widget_anonOut_a_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_auto_anon_out_a_valid = coupler_from_bus_named_fbus_widget_anonOut_a_valid; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_opcode = coupler_from_bus_named_fbus_widget_anonOut_a_bits_opcode; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_param = coupler_from_bus_named_fbus_widget_anonOut_a_bits_param; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_size = coupler_from_bus_named_fbus_widget_anonOut_a_bits_size; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_source = coupler_from_bus_named_fbus_widget_anonOut_a_bits_source; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_address = coupler_from_bus_named_fbus_widget_anonOut_a_bits_address; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_mask = coupler_from_bus_named_fbus_widget_anonOut_a_bits_mask; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_data = coupler_from_bus_named_fbus_widget_anonOut_a_bits_data; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_out_a_bits_corrupt = coupler_from_bus_named_fbus_widget_anonOut_a_bits_corrupt; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_out_d_ready = coupler_from_bus_named_fbus_widget_anonOut_d_ready; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_anonIn_d_valid = coupler_from_bus_named_fbus_widget_anonOut_d_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonIn_d_bits_opcode = coupler_from_bus_named_fbus_widget_anonOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonIn_d_bits_param = coupler_from_bus_named_fbus_widget_anonOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonIn_d_bits_size = coupler_from_bus_named_fbus_widget_anonOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonIn_d_bits_source = coupler_from_bus_named_fbus_widget_anonOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonIn_d_bits_sink = coupler_from_bus_named_fbus_widget_anonOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonIn_d_bits_denied = coupler_from_bus_named_fbus_widget_anonOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonIn_d_bits_data = coupler_from_bus_named_fbus_widget_anonOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonIn_d_bits_corrupt = coupler_from_bus_named_fbus_widget_anonOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_auto_anon_in_a_ready = coupler_from_bus_named_fbus_widget_anonIn_a_ready; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_anonOut_a_valid = coupler_from_bus_named_fbus_widget_anonIn_a_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonOut_a_bits_opcode = coupler_from_bus_named_fbus_widget_anonIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonOut_a_bits_param = coupler_from_bus_named_fbus_widget_anonIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonOut_a_bits_size = coupler_from_bus_named_fbus_widget_anonIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonOut_a_bits_source = coupler_from_bus_named_fbus_widget_anonIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonOut_a_bits_address = coupler_from_bus_named_fbus_widget_anonIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonOut_a_bits_mask = coupler_from_bus_named_fbus_widget_anonIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonOut_a_bits_data = coupler_from_bus_named_fbus_widget_anonIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonOut_a_bits_corrupt = coupler_from_bus_named_fbus_widget_anonIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_anonOut_d_ready = coupler_from_bus_named_fbus_widget_anonIn_d_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_auto_anon_in_d_valid = coupler_from_bus_named_fbus_widget_anonIn_d_valid; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_opcode = coupler_from_bus_named_fbus_widget_anonIn_d_bits_opcode; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_param = coupler_from_bus_named_fbus_widget_anonIn_d_bits_param; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_size = coupler_from_bus_named_fbus_widget_anonIn_d_bits_size; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_source = coupler_from_bus_named_fbus_widget_anonIn_d_bits_source; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_sink = coupler_from_bus_named_fbus_widget_anonIn_d_bits_sink; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_denied = coupler_from_bus_named_fbus_widget_anonIn_d_bits_denied; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_data = coupler_from_bus_named_fbus_widget_anonIn_d_bits_data; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_d_bits_corrupt = coupler_from_bus_named_fbus_widget_anonIn_d_bits_corrupt; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_bus_xingIn_a_ready = coupler_from_bus_named_fbus_bus_xingOut_a_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_widget_auto_anon_in_a_valid = coupler_from_bus_named_fbus_bus_xingOut_a_valid; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_opcode = coupler_from_bus_named_fbus_bus_xingOut_a_bits_opcode; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_param = coupler_from_bus_named_fbus_bus_xingOut_a_bits_param; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_size = coupler_from_bus_named_fbus_bus_xingOut_a_bits_size; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_source = coupler_from_bus_named_fbus_bus_xingOut_a_bits_source; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_address = coupler_from_bus_named_fbus_bus_xingOut_a_bits_address; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_mask = coupler_from_bus_named_fbus_bus_xingOut_a_bits_mask; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_data = coupler_from_bus_named_fbus_bus_xingOut_a_bits_data; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_a_bits_corrupt = coupler_from_bus_named_fbus_bus_xingOut_a_bits_corrupt; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_widget_auto_anon_in_d_ready = coupler_from_bus_named_fbus_bus_xingOut_d_ready; // @[WidthWidget.scala:27:9] assign coupler_from_bus_named_fbus_bus_xingIn_d_valid = coupler_from_bus_named_fbus_bus_xingOut_d_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingIn_d_bits_opcode = coupler_from_bus_named_fbus_bus_xingOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingIn_d_bits_param = coupler_from_bus_named_fbus_bus_xingOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingIn_d_bits_size = coupler_from_bus_named_fbus_bus_xingOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingIn_d_bits_source = coupler_from_bus_named_fbus_bus_xingOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingIn_d_bits_sink = coupler_from_bus_named_fbus_bus_xingOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingIn_d_bits_denied = coupler_from_bus_named_fbus_bus_xingOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingIn_d_bits_data = coupler_from_bus_named_fbus_bus_xingOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingIn_d_bits_corrupt = coupler_from_bus_named_fbus_bus_xingOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_auto_bus_xing_in_a_ready = coupler_from_bus_named_fbus_bus_xingIn_a_ready; // @[MixedNode.scala:551:17] assign coupler_from_bus_named_fbus_bus_xingOut_a_valid = coupler_from_bus_named_fbus_bus_xingIn_a_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingOut_a_bits_opcode = coupler_from_bus_named_fbus_bus_xingIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingOut_a_bits_param = coupler_from_bus_named_fbus_bus_xingIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingOut_a_bits_size = coupler_from_bus_named_fbus_bus_xingIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingOut_a_bits_source = coupler_from_bus_named_fbus_bus_xingIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingOut_a_bits_address = coupler_from_bus_named_fbus_bus_xingIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingOut_a_bits_mask = coupler_from_bus_named_fbus_bus_xingIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingOut_a_bits_data = coupler_from_bus_named_fbus_bus_xingIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingOut_a_bits_corrupt = coupler_from_bus_named_fbus_bus_xingIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_bus_xingOut_d_ready = coupler_from_bus_named_fbus_bus_xingIn_d_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_bus_named_fbus_auto_bus_xing_in_d_valid = coupler_from_bus_named_fbus_bus_xingIn_d_valid; // @[MixedNode.scala:551:17] assign coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_opcode = coupler_from_bus_named_fbus_bus_xingIn_d_bits_opcode; // @[MixedNode.scala:551:17] assign coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_param = coupler_from_bus_named_fbus_bus_xingIn_d_bits_param; // @[MixedNode.scala:551:17] assign coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_size = coupler_from_bus_named_fbus_bus_xingIn_d_bits_size; // @[MixedNode.scala:551:17] assign coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_source = coupler_from_bus_named_fbus_bus_xingIn_d_bits_source; // @[MixedNode.scala:551:17] assign coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_sink = coupler_from_bus_named_fbus_bus_xingIn_d_bits_sink; // @[MixedNode.scala:551:17] assign coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_denied = coupler_from_bus_named_fbus_bus_xingIn_d_bits_denied; // @[MixedNode.scala:551:17] assign coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_data = coupler_from_bus_named_fbus_bus_xingIn_d_bits_data; // @[MixedNode.scala:551:17] assign coupler_from_bus_named_fbus_auto_bus_xing_in_d_bits_corrupt = coupler_from_bus_named_fbus_bus_xingIn_d_bits_corrupt; // @[MixedNode.scala:551:17] wire coupler_to_bus_named_coh_widget_auto_anon_in_a_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_in_a_valid = coupler_to_bus_named_coh_auto_widget_anon_in_a_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_opcode = coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_opcode; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_param = coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_size = coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_source = coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_source; // @[WidthWidget.scala:27:9] wire [31:0] coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_address = coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_address; // @[WidthWidget.scala:27:9] wire [7:0] coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_mask = coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_mask; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_data = coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_corrupt = coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_in_b_ready = coupler_to_bus_named_coh_auto_widget_anon_in_b_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_in_b_valid; // @[WidthWidget.scala:27:9] wire [1:0] coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_param; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_source; // @[WidthWidget.scala:27:9] wire [31:0] coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_address; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_in_c_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_in_c_valid = coupler_to_bus_named_coh_auto_widget_anon_in_c_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_opcode = coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_opcode; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_param = coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_size = coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_source = coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_source; // @[WidthWidget.scala:27:9] wire [31:0] coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_address = coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_address; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_data = coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_corrupt = coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_in_d_ready = coupler_to_bus_named_coh_auto_widget_anon_in_d_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_in_d_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_opcode; // @[WidthWidget.scala:27:9] wire [1:0] coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_source; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_sink; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_denied; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_in_e_valid = coupler_to_bus_named_coh_auto_widget_anon_in_e_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_in_e_bits_sink = coupler_to_bus_named_coh_auto_widget_anon_in_e_bits_sink; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_a_ready = coupler_to_bus_named_coh_auto_widget_anon_out_a_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_a_valid; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_valid_0 = coupler_to_bus_named_coh_auto_widget_anon_out_a_valid; // @[ClockDomain.scala:14:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_opcode; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_opcode_0 = coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_param; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_param_0 = coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_param; // @[ClockDomain.scala:14:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_size; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_size_0 = coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_size; // @[ClockDomain.scala:14:9] wire [5:0] coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_source; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_source_0 = coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_address; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_address_0 = coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_address; // @[ClockDomain.scala:14:9] wire [7:0] coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_mask; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_mask_0 = coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_mask; // @[ClockDomain.scala:14:9] wire [63:0] coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_data; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_data_0 = coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_data; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_corrupt; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_corrupt_0 = coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_corrupt; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_b_ready; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_b_ready_0 = coupler_to_bus_named_coh_auto_widget_anon_out_b_ready; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_b_valid = coupler_to_bus_named_coh_auto_widget_anon_out_b_valid; // @[WidthWidget.scala:27:9] wire [1:0] coupler_to_bus_named_coh_widget_auto_anon_out_b_bits_param = coupler_to_bus_named_coh_auto_widget_anon_out_b_bits_param; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_auto_anon_out_b_bits_source = coupler_to_bus_named_coh_auto_widget_anon_out_b_bits_source; // @[WidthWidget.scala:27:9] wire [31:0] coupler_to_bus_named_coh_widget_auto_anon_out_b_bits_address = coupler_to_bus_named_coh_auto_widget_anon_out_b_bits_address; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_c_ready = coupler_to_bus_named_coh_auto_widget_anon_out_c_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_c_valid; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_valid_0 = coupler_to_bus_named_coh_auto_widget_anon_out_c_valid; // @[ClockDomain.scala:14:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_opcode; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_opcode_0 = coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_opcode; // @[ClockDomain.scala:14:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_param; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_param_0 = coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_param; // @[ClockDomain.scala:14:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_size; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_size_0 = coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_size; // @[ClockDomain.scala:14:9] wire [5:0] coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_source; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_source_0 = coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_address; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_address_0 = coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_address; // @[ClockDomain.scala:14:9] wire [63:0] coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_data; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_data_0 = coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_data; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_corrupt; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_corrupt_0 = coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_corrupt; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_d_ready; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_d_ready_0 = coupler_to_bus_named_coh_auto_widget_anon_out_d_ready; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_d_valid = coupler_to_bus_named_coh_auto_widget_anon_out_d_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_opcode = coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_opcode; // @[WidthWidget.scala:27:9] wire [1:0] coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_param = coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_size = coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_source = coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_source; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_sink = coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_sink; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_denied = coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_denied; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_data = coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_corrupt = coupler_to_bus_named_coh_auto_widget_anon_out_d_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_auto_anon_out_e_valid; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_e_valid_0 = coupler_to_bus_named_coh_auto_widget_anon_out_e_valid; // @[ClockDomain.scala:14:9] wire [2:0] coupler_to_bus_named_coh_widget_auto_anon_out_e_bits_sink; // @[WidthWidget.scala:27:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_e_bits_sink_0 = coupler_to_bus_named_coh_auto_widget_anon_out_e_bits_sink; // @[ClockDomain.scala:14:9] wire coupler_to_bus_named_coh_auto_widget_anon_in_a_ready; // @[LazyModuleImp.scala:138:7] wire [1:0] coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_param; // @[LazyModuleImp.scala:138:7] wire [5:0] coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_source; // @[LazyModuleImp.scala:138:7] wire [31:0] coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_address; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_in_b_valid; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_in_c_ready; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_opcode; // @[LazyModuleImp.scala:138:7] wire [1:0] coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_param; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_size; // @[LazyModuleImp.scala:138:7] wire [5:0] coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_source; // @[LazyModuleImp.scala:138:7] wire [2:0] coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_sink; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_denied; // @[LazyModuleImp.scala:138:7] wire [63:0] coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_data; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_corrupt; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_auto_widget_anon_in_d_valid; // @[LazyModuleImp.scala:138:7] wire coupler_to_bus_named_coh_widget_anonIn_a_ready; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_a_ready = coupler_to_bus_named_coh_widget_auto_anon_in_a_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonIn_a_valid = coupler_to_bus_named_coh_widget_auto_anon_in_a_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonIn_a_bits_opcode = coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_opcode; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonIn_a_bits_param = coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonIn_a_bits_size = coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_anonIn_a_bits_source = coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_source; // @[WidthWidget.scala:27:9] wire [31:0] coupler_to_bus_named_coh_widget_anonIn_a_bits_address = coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_address; // @[WidthWidget.scala:27:9] wire [7:0] coupler_to_bus_named_coh_widget_anonIn_a_bits_mask = coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_mask; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_coh_widget_anonIn_a_bits_data = coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonIn_a_bits_corrupt = coupler_to_bus_named_coh_widget_auto_anon_in_a_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonIn_b_ready = coupler_to_bus_named_coh_widget_auto_anon_in_b_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonIn_b_valid; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_b_valid = coupler_to_bus_named_coh_widget_auto_anon_in_b_valid; // @[WidthWidget.scala:27:9] wire [1:0] coupler_to_bus_named_coh_widget_anonIn_b_bits_param; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_param = coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_param; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_anonIn_b_bits_source; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_source = coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_source; // @[WidthWidget.scala:27:9] wire [31:0] coupler_to_bus_named_coh_widget_anonIn_b_bits_address; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_address = coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_address; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonIn_c_ready; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_c_ready = coupler_to_bus_named_coh_widget_auto_anon_in_c_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonIn_c_valid = coupler_to_bus_named_coh_widget_auto_anon_in_c_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonIn_c_bits_opcode = coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_opcode; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonIn_c_bits_param = coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonIn_c_bits_size = coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_anonIn_c_bits_source = coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_source; // @[WidthWidget.scala:27:9] wire [31:0] coupler_to_bus_named_coh_widget_anonIn_c_bits_address = coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_address; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_coh_widget_anonIn_c_bits_data = coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonIn_c_bits_corrupt = coupler_to_bus_named_coh_widget_auto_anon_in_c_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonIn_d_ready = coupler_to_bus_named_coh_widget_auto_anon_in_d_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonIn_d_valid; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_d_valid = coupler_to_bus_named_coh_widget_auto_anon_in_d_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonIn_d_bits_opcode; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_opcode = coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_opcode; // @[WidthWidget.scala:27:9] wire [1:0] coupler_to_bus_named_coh_widget_anonIn_d_bits_param; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_param = coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonIn_d_bits_size; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_size = coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_anonIn_d_bits_source; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_source = coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_source; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonIn_d_bits_sink; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_sink = coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_sink; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonIn_d_bits_denied; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_denied = coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_denied; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_coh_widget_anonIn_d_bits_data; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_data = coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonIn_d_bits_corrupt; // @[MixedNode.scala:551:17] assign coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_corrupt = coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonIn_e_valid = coupler_to_bus_named_coh_widget_auto_anon_in_e_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonIn_e_bits_sink = coupler_to_bus_named_coh_widget_auto_anon_in_e_bits_sink; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_a_ready = coupler_to_bus_named_coh_widget_auto_anon_out_a_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_a_valid; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_a_valid = coupler_to_bus_named_coh_widget_auto_anon_out_a_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonOut_a_bits_opcode; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_opcode = coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_opcode; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonOut_a_bits_param; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_param = coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonOut_a_bits_size; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_size = coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_anonOut_a_bits_source; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_source = coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_source; // @[WidthWidget.scala:27:9] wire [31:0] coupler_to_bus_named_coh_widget_anonOut_a_bits_address; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_address = coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_address; // @[WidthWidget.scala:27:9] wire [7:0] coupler_to_bus_named_coh_widget_anonOut_a_bits_mask; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_mask = coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_mask; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_coh_widget_anonOut_a_bits_data; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_data = coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_a_bits_corrupt; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_a_bits_corrupt = coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_b_ready; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_b_ready = coupler_to_bus_named_coh_widget_auto_anon_out_b_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_b_valid = coupler_to_bus_named_coh_widget_auto_anon_out_b_valid; // @[WidthWidget.scala:27:9] wire [1:0] coupler_to_bus_named_coh_widget_anonOut_b_bits_param = coupler_to_bus_named_coh_widget_auto_anon_out_b_bits_param; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_anonOut_b_bits_source = coupler_to_bus_named_coh_widget_auto_anon_out_b_bits_source; // @[WidthWidget.scala:27:9] wire [31:0] coupler_to_bus_named_coh_widget_anonOut_b_bits_address = coupler_to_bus_named_coh_widget_auto_anon_out_b_bits_address; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_c_ready = coupler_to_bus_named_coh_widget_auto_anon_out_c_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_c_valid; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_c_valid = coupler_to_bus_named_coh_widget_auto_anon_out_c_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonOut_c_bits_opcode; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_opcode = coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_opcode; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonOut_c_bits_param; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_param = coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonOut_c_bits_size; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_size = coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_anonOut_c_bits_source; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_source = coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_source; // @[WidthWidget.scala:27:9] wire [31:0] coupler_to_bus_named_coh_widget_anonOut_c_bits_address; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_address = coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_address; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_coh_widget_anonOut_c_bits_data; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_data = coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_c_bits_corrupt; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_c_bits_corrupt = coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_d_ready; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_d_ready = coupler_to_bus_named_coh_widget_auto_anon_out_d_ready; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_d_valid = coupler_to_bus_named_coh_widget_auto_anon_out_d_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonOut_d_bits_opcode = coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_opcode; // @[WidthWidget.scala:27:9] wire [1:0] coupler_to_bus_named_coh_widget_anonOut_d_bits_param = coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonOut_d_bits_size = coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_size; // @[WidthWidget.scala:27:9] wire [5:0] coupler_to_bus_named_coh_widget_anonOut_d_bits_source = coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_source; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonOut_d_bits_sink = coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_sink; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_d_bits_denied = coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_denied; // @[WidthWidget.scala:27:9] wire [63:0] coupler_to_bus_named_coh_widget_anonOut_d_bits_data = coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_data; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_d_bits_corrupt = coupler_to_bus_named_coh_widget_auto_anon_out_d_bits_corrupt; // @[WidthWidget.scala:27:9] wire coupler_to_bus_named_coh_widget_anonOut_e_valid; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_e_valid = coupler_to_bus_named_coh_widget_auto_anon_out_e_valid; // @[WidthWidget.scala:27:9] wire [2:0] coupler_to_bus_named_coh_widget_anonOut_e_bits_sink; // @[MixedNode.scala:542:17] assign coupler_to_bus_named_coh_auto_widget_anon_out_e_bits_sink = coupler_to_bus_named_coh_widget_auto_anon_out_e_bits_sink; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_anonIn_a_ready = coupler_to_bus_named_coh_widget_anonOut_a_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_auto_anon_out_a_valid = coupler_to_bus_named_coh_widget_anonOut_a_valid; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_opcode = coupler_to_bus_named_coh_widget_anonOut_a_bits_opcode; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_param = coupler_to_bus_named_coh_widget_anonOut_a_bits_param; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_size = coupler_to_bus_named_coh_widget_anonOut_a_bits_size; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_source = coupler_to_bus_named_coh_widget_anonOut_a_bits_source; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_address = coupler_to_bus_named_coh_widget_anonOut_a_bits_address; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_mask = coupler_to_bus_named_coh_widget_anonOut_a_bits_mask; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_data = coupler_to_bus_named_coh_widget_anonOut_a_bits_data; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_a_bits_corrupt = coupler_to_bus_named_coh_widget_anonOut_a_bits_corrupt; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_b_ready = coupler_to_bus_named_coh_widget_anonOut_b_ready; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_anonIn_b_valid = coupler_to_bus_named_coh_widget_anonOut_b_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonIn_b_bits_param = coupler_to_bus_named_coh_widget_anonOut_b_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonIn_b_bits_source = coupler_to_bus_named_coh_widget_anonOut_b_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonIn_b_bits_address = coupler_to_bus_named_coh_widget_anonOut_b_bits_address; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonIn_c_ready = coupler_to_bus_named_coh_widget_anonOut_c_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_auto_anon_out_c_valid = coupler_to_bus_named_coh_widget_anonOut_c_valid; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_opcode = coupler_to_bus_named_coh_widget_anonOut_c_bits_opcode; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_param = coupler_to_bus_named_coh_widget_anonOut_c_bits_param; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_size = coupler_to_bus_named_coh_widget_anonOut_c_bits_size; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_source = coupler_to_bus_named_coh_widget_anonOut_c_bits_source; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_address = coupler_to_bus_named_coh_widget_anonOut_c_bits_address; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_data = coupler_to_bus_named_coh_widget_anonOut_c_bits_data; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_c_bits_corrupt = coupler_to_bus_named_coh_widget_anonOut_c_bits_corrupt; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_d_ready = coupler_to_bus_named_coh_widget_anonOut_d_ready; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_anonIn_d_valid = coupler_to_bus_named_coh_widget_anonOut_d_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonIn_d_bits_opcode = coupler_to_bus_named_coh_widget_anonOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonIn_d_bits_param = coupler_to_bus_named_coh_widget_anonOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonIn_d_bits_size = coupler_to_bus_named_coh_widget_anonOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonIn_d_bits_source = coupler_to_bus_named_coh_widget_anonOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonIn_d_bits_sink = coupler_to_bus_named_coh_widget_anonOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonIn_d_bits_denied = coupler_to_bus_named_coh_widget_anonOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonIn_d_bits_data = coupler_to_bus_named_coh_widget_anonOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonIn_d_bits_corrupt = coupler_to_bus_named_coh_widget_anonOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_auto_anon_out_e_valid = coupler_to_bus_named_coh_widget_anonOut_e_valid; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_out_e_bits_sink = coupler_to_bus_named_coh_widget_anonOut_e_bits_sink; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_in_a_ready = coupler_to_bus_named_coh_widget_anonIn_a_ready; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_anonOut_a_valid = coupler_to_bus_named_coh_widget_anonIn_a_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_a_bits_opcode = coupler_to_bus_named_coh_widget_anonIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_a_bits_param = coupler_to_bus_named_coh_widget_anonIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_a_bits_size = coupler_to_bus_named_coh_widget_anonIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_a_bits_source = coupler_to_bus_named_coh_widget_anonIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_a_bits_address = coupler_to_bus_named_coh_widget_anonIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_a_bits_mask = coupler_to_bus_named_coh_widget_anonIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_a_bits_data = coupler_to_bus_named_coh_widget_anonIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_a_bits_corrupt = coupler_to_bus_named_coh_widget_anonIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_b_ready = coupler_to_bus_named_coh_widget_anonIn_b_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_auto_anon_in_b_valid = coupler_to_bus_named_coh_widget_anonIn_b_valid; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_param = coupler_to_bus_named_coh_widget_anonIn_b_bits_param; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_source = coupler_to_bus_named_coh_widget_anonIn_b_bits_source; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_in_b_bits_address = coupler_to_bus_named_coh_widget_anonIn_b_bits_address; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_in_c_ready = coupler_to_bus_named_coh_widget_anonIn_c_ready; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_anonOut_c_valid = coupler_to_bus_named_coh_widget_anonIn_c_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_c_bits_opcode = coupler_to_bus_named_coh_widget_anonIn_c_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_c_bits_param = coupler_to_bus_named_coh_widget_anonIn_c_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_c_bits_size = coupler_to_bus_named_coh_widget_anonIn_c_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_c_bits_source = coupler_to_bus_named_coh_widget_anonIn_c_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_c_bits_address = coupler_to_bus_named_coh_widget_anonIn_c_bits_address; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_c_bits_data = coupler_to_bus_named_coh_widget_anonIn_c_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_c_bits_corrupt = coupler_to_bus_named_coh_widget_anonIn_c_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_d_ready = coupler_to_bus_named_coh_widget_anonIn_d_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_auto_anon_in_d_valid = coupler_to_bus_named_coh_widget_anonIn_d_valid; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_opcode = coupler_to_bus_named_coh_widget_anonIn_d_bits_opcode; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_param = coupler_to_bus_named_coh_widget_anonIn_d_bits_param; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_size = coupler_to_bus_named_coh_widget_anonIn_d_bits_size; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_source = coupler_to_bus_named_coh_widget_anonIn_d_bits_source; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_sink = coupler_to_bus_named_coh_widget_anonIn_d_bits_sink; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_denied = coupler_to_bus_named_coh_widget_anonIn_d_bits_denied; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_data = coupler_to_bus_named_coh_widget_anonIn_d_bits_data; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_auto_anon_in_d_bits_corrupt = coupler_to_bus_named_coh_widget_anonIn_d_bits_corrupt; // @[WidthWidget.scala:27:9] assign coupler_to_bus_named_coh_widget_anonOut_e_valid = coupler_to_bus_named_coh_widget_anonIn_e_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_to_bus_named_coh_widget_anonOut_e_bits_sink = coupler_to_bus_named_coh_widget_anonIn_e_bits_sink; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingIn_a_ready; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_a_ready_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_a_ready; // @[ClockDomain.scala:14:9] wire coupler_from_rockettile_tlMasterClockXingIn_a_valid = coupler_from_rockettile_auto_tl_master_clock_xing_in_a_valid; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingIn_a_bits_opcode = coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_opcode; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingIn_a_bits_param = coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_param; // @[MixedNode.scala:551:17] wire [3:0] coupler_from_rockettile_tlMasterClockXingIn_a_bits_size = coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_size; // @[MixedNode.scala:551:17] wire [1:0] coupler_from_rockettile_tlMasterClockXingIn_a_bits_source = coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_source; // @[MixedNode.scala:551:17] wire [31:0] coupler_from_rockettile_tlMasterClockXingIn_a_bits_address = coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_address; // @[MixedNode.scala:551:17] wire [7:0] coupler_from_rockettile_tlMasterClockXingIn_a_bits_mask = coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_mask; // @[MixedNode.scala:551:17] wire [63:0] coupler_from_rockettile_tlMasterClockXingIn_a_bits_data = coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_data; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_tlMasterClockXingIn_a_bits_corrupt = coupler_from_rockettile_auto_tl_master_clock_xing_in_a_bits_corrupt; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_tlMasterClockXingIn_b_ready = coupler_from_rockettile_auto_tl_master_clock_xing_in_b_ready; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_tlMasterClockXingIn_b_valid; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_b_valid_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_b_valid; // @[ClockDomain.scala:14:9] wire [1:0] coupler_from_rockettile_tlMasterClockXingIn_b_bits_param; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_param_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_param; // @[ClockDomain.scala:14:9] wire [1:0] coupler_from_rockettile_tlMasterClockXingIn_b_bits_source; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_source_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_source; // @[ClockDomain.scala:14:9] wire [31:0] coupler_from_rockettile_tlMasterClockXingIn_b_bits_address; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_address_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_address; // @[ClockDomain.scala:14:9] wire coupler_from_rockettile_tlMasterClockXingIn_c_ready; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_c_ready_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_c_ready; // @[ClockDomain.scala:14:9] wire coupler_from_rockettile_tlMasterClockXingIn_c_valid = coupler_from_rockettile_auto_tl_master_clock_xing_in_c_valid; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingIn_c_bits_opcode = coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_opcode; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingIn_c_bits_param = coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_param; // @[MixedNode.scala:551:17] wire [3:0] coupler_from_rockettile_tlMasterClockXingIn_c_bits_size = coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_size; // @[MixedNode.scala:551:17] wire [1:0] coupler_from_rockettile_tlMasterClockXingIn_c_bits_source = coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_source; // @[MixedNode.scala:551:17] wire [31:0] coupler_from_rockettile_tlMasterClockXingIn_c_bits_address = coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_address; // @[MixedNode.scala:551:17] wire [63:0] coupler_from_rockettile_tlMasterClockXingIn_c_bits_data = coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_data; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_tlMasterClockXingIn_c_bits_corrupt = coupler_from_rockettile_auto_tl_master_clock_xing_in_c_bits_corrupt; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_tlMasterClockXingIn_d_ready = coupler_from_rockettile_auto_tl_master_clock_xing_in_d_ready; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_tlMasterClockXingIn_d_valid; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_valid_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_d_valid; // @[ClockDomain.scala:14:9] wire [2:0] coupler_from_rockettile_tlMasterClockXingIn_d_bits_opcode; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_opcode_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_opcode; // @[ClockDomain.scala:14:9] wire [1:0] coupler_from_rockettile_tlMasterClockXingIn_d_bits_param; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_param_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_param; // @[ClockDomain.scala:14:9] wire [3:0] coupler_from_rockettile_tlMasterClockXingIn_d_bits_size; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_size_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_size; // @[ClockDomain.scala:14:9] wire [1:0] coupler_from_rockettile_tlMasterClockXingIn_d_bits_source; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_source_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_source; // @[ClockDomain.scala:14:9] wire [2:0] coupler_from_rockettile_tlMasterClockXingIn_d_bits_sink; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_sink_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_sink; // @[ClockDomain.scala:14:9] wire coupler_from_rockettile_tlMasterClockXingIn_d_bits_denied; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_denied_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_denied; // @[ClockDomain.scala:14:9] wire [63:0] coupler_from_rockettile_tlMasterClockXingIn_d_bits_data; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_data_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_data; // @[ClockDomain.scala:14:9] wire coupler_from_rockettile_tlMasterClockXingIn_d_bits_corrupt; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_corrupt_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_corrupt; // @[ClockDomain.scala:14:9] wire coupler_from_rockettile_tlMasterClockXingIn_e_ready; // @[MixedNode.scala:551:17] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_e_ready_0 = coupler_from_rockettile_auto_tl_master_clock_xing_in_e_ready; // @[ClockDomain.scala:14:9] wire coupler_from_rockettile_tlMasterClockXingIn_e_valid = coupler_from_rockettile_auto_tl_master_clock_xing_in_e_valid; // @[MixedNode.scala:551:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingIn_e_bits_sink = coupler_from_rockettile_auto_tl_master_clock_xing_in_e_bits_sink; // @[MixedNode.scala:551:17] wire coupler_from_rockettile_tlOut_a_ready = coupler_from_rockettile_auto_tl_out_a_ready; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlOut_a_valid; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_a_valid = coupler_from_rockettile_auto_tl_out_a_valid; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_rockettile_tlOut_a_bits_opcode; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_a_bits_opcode = coupler_from_rockettile_auto_tl_out_a_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_rockettile_tlOut_a_bits_param; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_a_bits_param = coupler_from_rockettile_auto_tl_out_a_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] coupler_from_rockettile_tlOut_a_bits_size; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_a_bits_size = coupler_from_rockettile_auto_tl_out_a_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] coupler_from_rockettile_tlOut_a_bits_source; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_a_bits_source = coupler_from_rockettile_auto_tl_out_a_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] coupler_from_rockettile_tlOut_a_bits_address; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_a_bits_address = coupler_from_rockettile_auto_tl_out_a_bits_address; // @[FIFOFixer.scala:50:9] wire [7:0] coupler_from_rockettile_tlOut_a_bits_mask; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_a_bits_mask = coupler_from_rockettile_auto_tl_out_a_bits_mask; // @[FIFOFixer.scala:50:9] wire [63:0] coupler_from_rockettile_tlOut_a_bits_data; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_a_bits_data = coupler_from_rockettile_auto_tl_out_a_bits_data; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_tlOut_a_bits_corrupt; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_a_bits_corrupt = coupler_from_rockettile_auto_tl_out_a_bits_corrupt; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_tlOut_b_ready; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_b_ready = coupler_from_rockettile_auto_tl_out_b_ready; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_tlOut_b_valid = coupler_from_rockettile_auto_tl_out_b_valid; // @[MixedNode.scala:542:17] wire [1:0] coupler_from_rockettile_tlOut_b_bits_param = coupler_from_rockettile_auto_tl_out_b_bits_param; // @[MixedNode.scala:542:17] wire [1:0] coupler_from_rockettile_tlOut_b_bits_source = coupler_from_rockettile_auto_tl_out_b_bits_source; // @[MixedNode.scala:542:17] wire [31:0] coupler_from_rockettile_tlOut_b_bits_address = coupler_from_rockettile_auto_tl_out_b_bits_address; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlOut_c_ready = coupler_from_rockettile_auto_tl_out_c_ready; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlOut_c_valid; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_c_valid = coupler_from_rockettile_auto_tl_out_c_valid; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_rockettile_tlOut_c_bits_opcode; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_c_bits_opcode = coupler_from_rockettile_auto_tl_out_c_bits_opcode; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_rockettile_tlOut_c_bits_param; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_c_bits_param = coupler_from_rockettile_auto_tl_out_c_bits_param; // @[FIFOFixer.scala:50:9] wire [3:0] coupler_from_rockettile_tlOut_c_bits_size; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_c_bits_size = coupler_from_rockettile_auto_tl_out_c_bits_size; // @[FIFOFixer.scala:50:9] wire [1:0] coupler_from_rockettile_tlOut_c_bits_source; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_c_bits_source = coupler_from_rockettile_auto_tl_out_c_bits_source; // @[FIFOFixer.scala:50:9] wire [31:0] coupler_from_rockettile_tlOut_c_bits_address; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_c_bits_address = coupler_from_rockettile_auto_tl_out_c_bits_address; // @[FIFOFixer.scala:50:9] wire [63:0] coupler_from_rockettile_tlOut_c_bits_data; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_c_bits_data = coupler_from_rockettile_auto_tl_out_c_bits_data; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_tlOut_c_bits_corrupt; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_c_bits_corrupt = coupler_from_rockettile_auto_tl_out_c_bits_corrupt; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_tlOut_d_ready; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_d_ready = coupler_from_rockettile_auto_tl_out_d_ready; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_tlOut_d_valid = coupler_from_rockettile_auto_tl_out_d_valid; // @[MixedNode.scala:542:17] wire [2:0] coupler_from_rockettile_tlOut_d_bits_opcode = coupler_from_rockettile_auto_tl_out_d_bits_opcode; // @[MixedNode.scala:542:17] wire [1:0] coupler_from_rockettile_tlOut_d_bits_param = coupler_from_rockettile_auto_tl_out_d_bits_param; // @[MixedNode.scala:542:17] wire [3:0] coupler_from_rockettile_tlOut_d_bits_size = coupler_from_rockettile_auto_tl_out_d_bits_size; // @[MixedNode.scala:542:17] wire [1:0] coupler_from_rockettile_tlOut_d_bits_source = coupler_from_rockettile_auto_tl_out_d_bits_source; // @[MixedNode.scala:542:17] wire [2:0] coupler_from_rockettile_tlOut_d_bits_sink = coupler_from_rockettile_auto_tl_out_d_bits_sink; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlOut_d_bits_denied = coupler_from_rockettile_auto_tl_out_d_bits_denied; // @[MixedNode.scala:542:17] wire [63:0] coupler_from_rockettile_tlOut_d_bits_data = coupler_from_rockettile_auto_tl_out_d_bits_data; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlOut_d_bits_corrupt = coupler_from_rockettile_auto_tl_out_d_bits_corrupt; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlOut_e_ready = coupler_from_rockettile_auto_tl_out_e_ready; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlOut_e_valid; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_e_valid = coupler_from_rockettile_auto_tl_out_e_valid; // @[FIFOFixer.scala:50:9] wire [2:0] coupler_from_rockettile_tlOut_e_bits_sink; // @[MixedNode.scala:542:17] assign fixer_auto_anon_in_1_e_bits_sink = coupler_from_rockettile_auto_tl_out_e_bits_sink; // @[FIFOFixer.scala:50:9] wire coupler_from_rockettile_tlIn_a_ready = coupler_from_rockettile_tlOut_a_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlIn_a_valid; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_a_valid = coupler_from_rockettile_tlOut_a_valid; // @[MixedNode.scala:542:17] wire [2:0] coupler_from_rockettile_tlIn_a_bits_opcode; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_a_bits_opcode = coupler_from_rockettile_tlOut_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] coupler_from_rockettile_tlIn_a_bits_param; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_a_bits_param = coupler_from_rockettile_tlOut_a_bits_param; // @[MixedNode.scala:542:17] wire [3:0] coupler_from_rockettile_tlIn_a_bits_size; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_a_bits_size = coupler_from_rockettile_tlOut_a_bits_size; // @[MixedNode.scala:542:17] wire [1:0] coupler_from_rockettile_tlIn_a_bits_source; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_a_bits_source = coupler_from_rockettile_tlOut_a_bits_source; // @[MixedNode.scala:542:17] wire [31:0] coupler_from_rockettile_tlIn_a_bits_address; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_a_bits_address = coupler_from_rockettile_tlOut_a_bits_address; // @[MixedNode.scala:542:17] wire [7:0] coupler_from_rockettile_tlIn_a_bits_mask; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_a_bits_mask = coupler_from_rockettile_tlOut_a_bits_mask; // @[MixedNode.scala:542:17] wire [63:0] coupler_from_rockettile_tlIn_a_bits_data; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_a_bits_data = coupler_from_rockettile_tlOut_a_bits_data; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlIn_a_bits_corrupt; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_a_bits_corrupt = coupler_from_rockettile_tlOut_a_bits_corrupt; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlIn_b_ready; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_b_ready = coupler_from_rockettile_tlOut_b_ready; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlIn_b_valid = coupler_from_rockettile_tlOut_b_valid; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_tlIn_b_bits_param = coupler_from_rockettile_tlOut_b_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_tlIn_b_bits_source = coupler_from_rockettile_tlOut_b_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [31:0] coupler_from_rockettile_tlIn_b_bits_address = coupler_from_rockettile_tlOut_b_bits_address; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlIn_c_ready = coupler_from_rockettile_tlOut_c_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlIn_c_valid; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_c_valid = coupler_from_rockettile_tlOut_c_valid; // @[MixedNode.scala:542:17] wire [2:0] coupler_from_rockettile_tlIn_c_bits_opcode; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_c_bits_opcode = coupler_from_rockettile_tlOut_c_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] coupler_from_rockettile_tlIn_c_bits_param; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_c_bits_param = coupler_from_rockettile_tlOut_c_bits_param; // @[MixedNode.scala:542:17] wire [3:0] coupler_from_rockettile_tlIn_c_bits_size; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_c_bits_size = coupler_from_rockettile_tlOut_c_bits_size; // @[MixedNode.scala:542:17] wire [1:0] coupler_from_rockettile_tlIn_c_bits_source; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_c_bits_source = coupler_from_rockettile_tlOut_c_bits_source; // @[MixedNode.scala:542:17] wire [31:0] coupler_from_rockettile_tlIn_c_bits_address; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_c_bits_address = coupler_from_rockettile_tlOut_c_bits_address; // @[MixedNode.scala:542:17] wire [63:0] coupler_from_rockettile_tlIn_c_bits_data; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_c_bits_data = coupler_from_rockettile_tlOut_c_bits_data; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlIn_c_bits_corrupt; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_c_bits_corrupt = coupler_from_rockettile_tlOut_c_bits_corrupt; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlIn_d_ready; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_d_ready = coupler_from_rockettile_tlOut_d_ready; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_tlIn_d_valid = coupler_from_rockettile_tlOut_d_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_tlIn_d_bits_opcode = coupler_from_rockettile_tlOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_tlIn_d_bits_param = coupler_from_rockettile_tlOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [3:0] coupler_from_rockettile_tlIn_d_bits_size = coupler_from_rockettile_tlOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_tlIn_d_bits_source = coupler_from_rockettile_tlOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_tlIn_d_bits_sink = coupler_from_rockettile_tlOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlIn_d_bits_denied = coupler_from_rockettile_tlOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] wire [63:0] coupler_from_rockettile_tlIn_d_bits_data = coupler_from_rockettile_tlOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlIn_d_bits_corrupt = coupler_from_rockettile_tlOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlIn_e_ready = coupler_from_rockettile_tlOut_e_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlIn_e_valid; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_e_valid = coupler_from_rockettile_tlOut_e_valid; // @[MixedNode.scala:542:17] wire [2:0] coupler_from_rockettile_tlIn_e_bits_sink; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_out_e_bits_sink = coupler_from_rockettile_tlOut_e_bits_sink; // @[MixedNode.scala:542:17] wire coupler_from_rockettile_no_bufferOut_a_ready = coupler_from_rockettile_tlIn_a_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferOut_a_valid; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_a_valid = coupler_from_rockettile_tlIn_a_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferOut_a_bits_opcode; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_a_bits_opcode = coupler_from_rockettile_tlIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferOut_a_bits_param; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_a_bits_param = coupler_from_rockettile_tlIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [3:0] coupler_from_rockettile_no_bufferOut_a_bits_size; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_a_bits_size = coupler_from_rockettile_tlIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_no_bufferOut_a_bits_source; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_a_bits_source = coupler_from_rockettile_tlIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [31:0] coupler_from_rockettile_no_bufferOut_a_bits_address; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_a_bits_address = coupler_from_rockettile_tlIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [7:0] coupler_from_rockettile_no_bufferOut_a_bits_mask; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_a_bits_mask = coupler_from_rockettile_tlIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] wire [63:0] coupler_from_rockettile_no_bufferOut_a_bits_data; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_a_bits_data = coupler_from_rockettile_tlIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferOut_a_bits_corrupt; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_a_bits_corrupt = coupler_from_rockettile_tlIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferOut_b_ready; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_b_ready = coupler_from_rockettile_tlIn_b_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferOut_b_valid = coupler_from_rockettile_tlIn_b_valid; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_no_bufferOut_b_bits_param = coupler_from_rockettile_tlIn_b_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_no_bufferOut_b_bits_source = coupler_from_rockettile_tlIn_b_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [31:0] coupler_from_rockettile_no_bufferOut_b_bits_address = coupler_from_rockettile_tlIn_b_bits_address; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferOut_c_ready = coupler_from_rockettile_tlIn_c_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferOut_c_valid; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_c_valid = coupler_from_rockettile_tlIn_c_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferOut_c_bits_opcode; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_c_bits_opcode = coupler_from_rockettile_tlIn_c_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferOut_c_bits_param; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_c_bits_param = coupler_from_rockettile_tlIn_c_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [3:0] coupler_from_rockettile_no_bufferOut_c_bits_size; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_c_bits_size = coupler_from_rockettile_tlIn_c_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_no_bufferOut_c_bits_source; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_c_bits_source = coupler_from_rockettile_tlIn_c_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [31:0] coupler_from_rockettile_no_bufferOut_c_bits_address; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_c_bits_address = coupler_from_rockettile_tlIn_c_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [63:0] coupler_from_rockettile_no_bufferOut_c_bits_data; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_c_bits_data = coupler_from_rockettile_tlIn_c_bits_data; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferOut_c_bits_corrupt; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_c_bits_corrupt = coupler_from_rockettile_tlIn_c_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferOut_d_ready; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_d_ready = coupler_from_rockettile_tlIn_d_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferOut_d_valid = coupler_from_rockettile_tlIn_d_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferOut_d_bits_opcode = coupler_from_rockettile_tlIn_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_no_bufferOut_d_bits_param = coupler_from_rockettile_tlIn_d_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [3:0] coupler_from_rockettile_no_bufferOut_d_bits_size = coupler_from_rockettile_tlIn_d_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_no_bufferOut_d_bits_source = coupler_from_rockettile_tlIn_d_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferOut_d_bits_sink = coupler_from_rockettile_tlIn_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferOut_d_bits_denied = coupler_from_rockettile_tlIn_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] wire [63:0] coupler_from_rockettile_no_bufferOut_d_bits_data = coupler_from_rockettile_tlIn_d_bits_data; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferOut_d_bits_corrupt = coupler_from_rockettile_tlIn_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferOut_e_ready = coupler_from_rockettile_tlIn_e_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferOut_e_valid; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_e_valid = coupler_from_rockettile_tlIn_e_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferOut_e_bits_sink; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_tlOut_e_bits_sink = coupler_from_rockettile_tlIn_e_bits_sink; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_a_ready = coupler_from_rockettile_no_bufferOut_a_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_a_valid; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_a_valid = coupler_from_rockettile_no_bufferOut_a_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferIn_a_bits_opcode; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_a_bits_opcode = coupler_from_rockettile_no_bufferOut_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferIn_a_bits_param; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_a_bits_param = coupler_from_rockettile_no_bufferOut_a_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [3:0] coupler_from_rockettile_no_bufferIn_a_bits_size; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_a_bits_size = coupler_from_rockettile_no_bufferOut_a_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_no_bufferIn_a_bits_source; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_a_bits_source = coupler_from_rockettile_no_bufferOut_a_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [31:0] coupler_from_rockettile_no_bufferIn_a_bits_address; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_a_bits_address = coupler_from_rockettile_no_bufferOut_a_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [7:0] coupler_from_rockettile_no_bufferIn_a_bits_mask; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_a_bits_mask = coupler_from_rockettile_no_bufferOut_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] wire [63:0] coupler_from_rockettile_no_bufferIn_a_bits_data; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_a_bits_data = coupler_from_rockettile_no_bufferOut_a_bits_data; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_a_bits_corrupt; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_a_bits_corrupt = coupler_from_rockettile_no_bufferOut_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_b_ready; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_b_ready = coupler_from_rockettile_no_bufferOut_b_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_b_valid = coupler_from_rockettile_no_bufferOut_b_valid; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_no_bufferIn_b_bits_param = coupler_from_rockettile_no_bufferOut_b_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_no_bufferIn_b_bits_source = coupler_from_rockettile_no_bufferOut_b_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [31:0] coupler_from_rockettile_no_bufferIn_b_bits_address = coupler_from_rockettile_no_bufferOut_b_bits_address; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_c_ready = coupler_from_rockettile_no_bufferOut_c_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_c_valid; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_c_valid = coupler_from_rockettile_no_bufferOut_c_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferIn_c_bits_opcode; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_c_bits_opcode = coupler_from_rockettile_no_bufferOut_c_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferIn_c_bits_param; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_c_bits_param = coupler_from_rockettile_no_bufferOut_c_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [3:0] coupler_from_rockettile_no_bufferIn_c_bits_size; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_c_bits_size = coupler_from_rockettile_no_bufferOut_c_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_no_bufferIn_c_bits_source; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_c_bits_source = coupler_from_rockettile_no_bufferOut_c_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [31:0] coupler_from_rockettile_no_bufferIn_c_bits_address; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_c_bits_address = coupler_from_rockettile_no_bufferOut_c_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [63:0] coupler_from_rockettile_no_bufferIn_c_bits_data; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_c_bits_data = coupler_from_rockettile_no_bufferOut_c_bits_data; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_c_bits_corrupt; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_c_bits_corrupt = coupler_from_rockettile_no_bufferOut_c_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_d_ready; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_d_ready = coupler_from_rockettile_no_bufferOut_d_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_d_valid = coupler_from_rockettile_no_bufferOut_d_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferIn_d_bits_opcode = coupler_from_rockettile_no_bufferOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_no_bufferIn_d_bits_param = coupler_from_rockettile_no_bufferOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [3:0] coupler_from_rockettile_no_bufferIn_d_bits_size = coupler_from_rockettile_no_bufferOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_no_bufferIn_d_bits_source = coupler_from_rockettile_no_bufferOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferIn_d_bits_sink = coupler_from_rockettile_no_bufferOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_d_bits_denied = coupler_from_rockettile_no_bufferOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] wire [63:0] coupler_from_rockettile_no_bufferIn_d_bits_data = coupler_from_rockettile_no_bufferOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_d_bits_corrupt = coupler_from_rockettile_no_bufferOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_e_ready = coupler_from_rockettile_no_bufferOut_e_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_no_bufferIn_e_valid; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_e_valid = coupler_from_rockettile_no_bufferOut_e_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_no_bufferIn_e_bits_sink; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlIn_e_bits_sink = coupler_from_rockettile_no_bufferOut_e_bits_sink; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_a_ready = coupler_from_rockettile_no_bufferIn_a_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_a_valid; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_a_valid = coupler_from_rockettile_no_bufferIn_a_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingOut_a_bits_opcode; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_a_bits_opcode = coupler_from_rockettile_no_bufferIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingOut_a_bits_param; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_a_bits_param = coupler_from_rockettile_no_bufferIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [3:0] coupler_from_rockettile_tlMasterClockXingOut_a_bits_size; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_a_bits_size = coupler_from_rockettile_no_bufferIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_tlMasterClockXingOut_a_bits_source; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_a_bits_source = coupler_from_rockettile_no_bufferIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [31:0] coupler_from_rockettile_tlMasterClockXingOut_a_bits_address; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_a_bits_address = coupler_from_rockettile_no_bufferIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [7:0] coupler_from_rockettile_tlMasterClockXingOut_a_bits_mask; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_a_bits_mask = coupler_from_rockettile_no_bufferIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] wire [63:0] coupler_from_rockettile_tlMasterClockXingOut_a_bits_data; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_a_bits_data = coupler_from_rockettile_no_bufferIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_a_bits_corrupt; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_a_bits_corrupt = coupler_from_rockettile_no_bufferIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_b_ready; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_b_ready = coupler_from_rockettile_no_bufferIn_b_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_b_valid = coupler_from_rockettile_no_bufferIn_b_valid; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_tlMasterClockXingOut_b_bits_param = coupler_from_rockettile_no_bufferIn_b_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_tlMasterClockXingOut_b_bits_source = coupler_from_rockettile_no_bufferIn_b_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [31:0] coupler_from_rockettile_tlMasterClockXingOut_b_bits_address = coupler_from_rockettile_no_bufferIn_b_bits_address; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_c_ready = coupler_from_rockettile_no_bufferIn_c_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_c_valid; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_c_valid = coupler_from_rockettile_no_bufferIn_c_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingOut_c_bits_opcode; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_c_bits_opcode = coupler_from_rockettile_no_bufferIn_c_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingOut_c_bits_param; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_c_bits_param = coupler_from_rockettile_no_bufferIn_c_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [3:0] coupler_from_rockettile_tlMasterClockXingOut_c_bits_size; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_c_bits_size = coupler_from_rockettile_no_bufferIn_c_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_tlMasterClockXingOut_c_bits_source; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_c_bits_source = coupler_from_rockettile_no_bufferIn_c_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [31:0] coupler_from_rockettile_tlMasterClockXingOut_c_bits_address; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_c_bits_address = coupler_from_rockettile_no_bufferIn_c_bits_address; // @[MixedNode.scala:542:17, :551:17] wire [63:0] coupler_from_rockettile_tlMasterClockXingOut_c_bits_data; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_c_bits_data = coupler_from_rockettile_no_bufferIn_c_bits_data; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_c_bits_corrupt; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_c_bits_corrupt = coupler_from_rockettile_no_bufferIn_c_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_d_ready; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_d_ready = coupler_from_rockettile_no_bufferIn_d_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_d_valid = coupler_from_rockettile_no_bufferIn_d_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingOut_d_bits_opcode = coupler_from_rockettile_no_bufferIn_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_tlMasterClockXingOut_d_bits_param = coupler_from_rockettile_no_bufferIn_d_bits_param; // @[MixedNode.scala:542:17, :551:17] wire [3:0] coupler_from_rockettile_tlMasterClockXingOut_d_bits_size = coupler_from_rockettile_no_bufferIn_d_bits_size; // @[MixedNode.scala:542:17, :551:17] wire [1:0] coupler_from_rockettile_tlMasterClockXingOut_d_bits_source = coupler_from_rockettile_no_bufferIn_d_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingOut_d_bits_sink = coupler_from_rockettile_no_bufferIn_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_d_bits_denied = coupler_from_rockettile_no_bufferIn_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] wire [63:0] coupler_from_rockettile_tlMasterClockXingOut_d_bits_data = coupler_from_rockettile_no_bufferIn_d_bits_data; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_d_bits_corrupt = coupler_from_rockettile_no_bufferIn_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_e_ready = coupler_from_rockettile_no_bufferIn_e_ready; // @[MixedNode.scala:542:17, :551:17] wire coupler_from_rockettile_tlMasterClockXingOut_e_valid; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_e_valid = coupler_from_rockettile_no_bufferIn_e_valid; // @[MixedNode.scala:542:17, :551:17] wire [2:0] coupler_from_rockettile_tlMasterClockXingOut_e_bits_sink; // @[MixedNode.scala:542:17] assign coupler_from_rockettile_no_bufferOut_e_bits_sink = coupler_from_rockettile_no_bufferIn_e_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_a_ready = coupler_from_rockettile_tlMasterClockXingOut_a_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_a_valid = coupler_from_rockettile_tlMasterClockXingOut_a_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_a_bits_opcode = coupler_from_rockettile_tlMasterClockXingOut_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_a_bits_param = coupler_from_rockettile_tlMasterClockXingOut_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_a_bits_size = coupler_from_rockettile_tlMasterClockXingOut_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_a_bits_source = coupler_from_rockettile_tlMasterClockXingOut_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_a_bits_address = coupler_from_rockettile_tlMasterClockXingOut_a_bits_address; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_a_bits_mask = coupler_from_rockettile_tlMasterClockXingOut_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_a_bits_data = coupler_from_rockettile_tlMasterClockXingOut_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_a_bits_corrupt = coupler_from_rockettile_tlMasterClockXingOut_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_b_ready = coupler_from_rockettile_tlMasterClockXingOut_b_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_b_valid = coupler_from_rockettile_tlMasterClockXingOut_b_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_b_bits_param = coupler_from_rockettile_tlMasterClockXingOut_b_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_b_bits_source = coupler_from_rockettile_tlMasterClockXingOut_b_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_b_bits_address = coupler_from_rockettile_tlMasterClockXingOut_b_bits_address; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_c_ready = coupler_from_rockettile_tlMasterClockXingOut_c_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_c_valid = coupler_from_rockettile_tlMasterClockXingOut_c_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_c_bits_opcode = coupler_from_rockettile_tlMasterClockXingOut_c_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_c_bits_param = coupler_from_rockettile_tlMasterClockXingOut_c_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_c_bits_size = coupler_from_rockettile_tlMasterClockXingOut_c_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_c_bits_source = coupler_from_rockettile_tlMasterClockXingOut_c_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_c_bits_address = coupler_from_rockettile_tlMasterClockXingOut_c_bits_address; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_c_bits_data = coupler_from_rockettile_tlMasterClockXingOut_c_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_c_bits_corrupt = coupler_from_rockettile_tlMasterClockXingOut_c_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_d_ready = coupler_from_rockettile_tlMasterClockXingOut_d_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_d_valid = coupler_from_rockettile_tlMasterClockXingOut_d_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_d_bits_opcode = coupler_from_rockettile_tlMasterClockXingOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_d_bits_param = coupler_from_rockettile_tlMasterClockXingOut_d_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_d_bits_size = coupler_from_rockettile_tlMasterClockXingOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_d_bits_source = coupler_from_rockettile_tlMasterClockXingOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_d_bits_sink = coupler_from_rockettile_tlMasterClockXingOut_d_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_d_bits_denied = coupler_from_rockettile_tlMasterClockXingOut_d_bits_denied; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_d_bits_data = coupler_from_rockettile_tlMasterClockXingOut_d_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_d_bits_corrupt = coupler_from_rockettile_tlMasterClockXingOut_d_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingIn_e_ready = coupler_from_rockettile_tlMasterClockXingOut_e_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_e_valid = coupler_from_rockettile_tlMasterClockXingOut_e_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_no_bufferIn_e_bits_sink = coupler_from_rockettile_tlMasterClockXingOut_e_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_a_ready = coupler_from_rockettile_tlMasterClockXingIn_a_ready; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlMasterClockXingOut_a_valid = coupler_from_rockettile_tlMasterClockXingIn_a_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_a_bits_opcode = coupler_from_rockettile_tlMasterClockXingIn_a_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_a_bits_param = coupler_from_rockettile_tlMasterClockXingIn_a_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_a_bits_size = coupler_from_rockettile_tlMasterClockXingIn_a_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_a_bits_source = coupler_from_rockettile_tlMasterClockXingIn_a_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_a_bits_address = coupler_from_rockettile_tlMasterClockXingIn_a_bits_address; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_a_bits_mask = coupler_from_rockettile_tlMasterClockXingIn_a_bits_mask; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_a_bits_data = coupler_from_rockettile_tlMasterClockXingIn_a_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_a_bits_corrupt = coupler_from_rockettile_tlMasterClockXingIn_a_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_b_ready = coupler_from_rockettile_tlMasterClockXingIn_b_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_b_valid = coupler_from_rockettile_tlMasterClockXingIn_b_valid; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_param = coupler_from_rockettile_tlMasterClockXingIn_b_bits_param; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_source = coupler_from_rockettile_tlMasterClockXingIn_b_bits_source; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_b_bits_address = coupler_from_rockettile_tlMasterClockXingIn_b_bits_address; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_c_ready = coupler_from_rockettile_tlMasterClockXingIn_c_ready; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlMasterClockXingOut_c_valid = coupler_from_rockettile_tlMasterClockXingIn_c_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_c_bits_opcode = coupler_from_rockettile_tlMasterClockXingIn_c_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_c_bits_param = coupler_from_rockettile_tlMasterClockXingIn_c_bits_param; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_c_bits_size = coupler_from_rockettile_tlMasterClockXingIn_c_bits_size; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_c_bits_source = coupler_from_rockettile_tlMasterClockXingIn_c_bits_source; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_c_bits_address = coupler_from_rockettile_tlMasterClockXingIn_c_bits_address; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_c_bits_data = coupler_from_rockettile_tlMasterClockXingIn_c_bits_data; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_c_bits_corrupt = coupler_from_rockettile_tlMasterClockXingIn_c_bits_corrupt; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_d_ready = coupler_from_rockettile_tlMasterClockXingIn_d_ready; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_d_valid = coupler_from_rockettile_tlMasterClockXingIn_d_valid; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_opcode = coupler_from_rockettile_tlMasterClockXingIn_d_bits_opcode; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_param = coupler_from_rockettile_tlMasterClockXingIn_d_bits_param; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_size = coupler_from_rockettile_tlMasterClockXingIn_d_bits_size; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_source = coupler_from_rockettile_tlMasterClockXingIn_d_bits_source; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_sink = coupler_from_rockettile_tlMasterClockXingIn_d_bits_sink; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_denied = coupler_from_rockettile_tlMasterClockXingIn_d_bits_denied; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_data = coupler_from_rockettile_tlMasterClockXingIn_d_bits_data; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_d_bits_corrupt = coupler_from_rockettile_tlMasterClockXingIn_d_bits_corrupt; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_auto_tl_master_clock_xing_in_e_ready = coupler_from_rockettile_tlMasterClockXingIn_e_ready; // @[MixedNode.scala:551:17] assign coupler_from_rockettile_tlMasterClockXingOut_e_valid = coupler_from_rockettile_tlMasterClockXingIn_e_valid; // @[MixedNode.scala:542:17, :551:17] assign coupler_from_rockettile_tlMasterClockXingOut_e_bits_sink = coupler_from_rockettile_tlMasterClockXingIn_e_bits_sink; // @[MixedNode.scala:542:17, :551:17] assign childClock = clockSinkNodeIn_clock; // @[MixedNode.scala:551:17] assign childReset = clockSinkNodeIn_reset; // @[MixedNode.scala:551:17] wire fixer__T_1 = fixer_a_first & fixer__a_first_T; // @[Decoupled.scala:51:35] wire fixer__T_3 = fixer_d_first & fixer__T_2; // @[Decoupled.scala:51:35] wire fixer__T_31 = fixer_a_first_1 & fixer__a_first_T_1; // @[Decoupled.scala:51:35] wire fixer__T_33 = fixer_d_first_1 & fixer__T_32; // @[Decoupled.scala:51:35] wire fixer__T_47 = fixer_a_first_2 & fixer__a_first_T_2; // @[Decoupled.scala:51:35] wire fixer__T_49 = fixer_d_first_2 & fixer__T_48; // @[Decoupled.scala:51:35] wire fixer__T_62 = fixer_a_first_3 & fixer__a_first_T_3; // @[Decoupled.scala:51:35] wire fixer__T_64 = fixer_d_first_3 & fixer__T_63; // @[Decoupled.scala:51:35] wire fixer__T_77 = fixer_a_first_4 & fixer__a_first_T_4; // @[Decoupled.scala:51:35] wire fixer__T_79 = fixer_d_first_4 & fixer__T_78; // @[Decoupled.scala:51:35] wire fixer__T_92 = fixer_a_first_5 & fixer__a_first_T_5; // @[Decoupled.scala:51:35] wire fixer__T_94 = fixer_d_first_5 & fixer__T_93; // @[Decoupled.scala:51:35] wire fixer__T_107 = fixer_a_first_6 & fixer__a_first_T_6; // @[Decoupled.scala:51:35] wire fixer__T_109 = fixer_d_first_6 & fixer__T_108; // @[Decoupled.scala:51:35] always @(posedge childClock) begin // @[LazyModuleImp.scala:155:31] if (childReset) begin // @[LazyModuleImp.scala:155:31, :158:31] fixer_a_first_counter <= 9'h0; // @[Edges.scala:229:27] fixer_d_first_counter <= 9'h0; // @[Edges.scala:229:27] fixer_flight_0 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_1 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_2 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_3 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_4 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_5 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_6 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_7 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_8 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_9 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_10 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_11 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_12 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_13 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_14 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_15 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_16 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_SourceIdFIFOed <= 17'h0; // @[FIFOFixer.scala:115:35] fixer_a_first_counter_1 <= 9'h0; // @[Edges.scala:229:27] fixer_d_first_counter_1 <= 9'h0; // @[Edges.scala:229:27] fixer_flight_1_0 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_1_1 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_1_2 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_SourceIdFIFOed_1 <= 3'h0; // @[FIFOFixer.scala:115:35] fixer_a_first_counter_2 <= 9'h0; // @[Edges.scala:229:27] fixer_d_first_counter_2 <= 9'h0; // @[Edges.scala:229:27] fixer_flight_2_0 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_2_1 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_SourceIdFIFOed_2 <= 2'h0; // @[FIFOFixer.scala:115:35] fixer_a_first_counter_3 <= 9'h0; // @[Edges.scala:229:27] fixer_d_first_counter_3 <= 9'h0; // @[Edges.scala:229:27] fixer_flight_3_0 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_3_1 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_SourceIdFIFOed_3 <= 2'h0; // @[FIFOFixer.scala:115:35] fixer_a_first_counter_4 <= 9'h0; // @[Edges.scala:229:27] fixer_d_first_counter_4 <= 9'h0; // @[Edges.scala:229:27] fixer_flight_4_0 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_4_1 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_SourceIdFIFOed_4 <= 2'h0; // @[FIFOFixer.scala:115:35] fixer_a_first_counter_5 <= 9'h0; // @[Edges.scala:229:27] fixer_d_first_counter_5 <= 9'h0; // @[Edges.scala:229:27] fixer_flight_5_0 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_5_1 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_SourceIdFIFOed_5 <= 2'h0; // @[FIFOFixer.scala:115:35] fixer_a_first_counter_6 <= 9'h0; // @[Edges.scala:229:27] fixer_d_first_counter_6 <= 9'h0; // @[Edges.scala:229:27] fixer_flight_6_0 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_6_1 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_flight_6_2 <= 1'h0; // @[FIFOFixer.scala:79:27] fixer_SourceIdFIFOed_6 <= 3'h0; // @[FIFOFixer.scala:115:35] end else begin // @[LazyModuleImp.scala:155:31] if (fixer__a_first_T) // @[Decoupled.scala:51:35] fixer_a_first_counter <= fixer__a_first_counter_T; // @[Edges.scala:229:27, :236:21] if (fixer__d_first_T) // @[Decoupled.scala:51:35] fixer_d_first_counter <= fixer__d_first_counter_T; // @[Edges.scala:229:27, :236:21] fixer_flight_0 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'h0) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'h0 ? fixer__flight_T : fixer_flight_0); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_1 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'h1) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'h1 ? fixer__flight_T : fixer_flight_1); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_2 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'h2) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'h2 ? fixer__flight_T : fixer_flight_2); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_3 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'h3) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'h3 ? fixer__flight_T : fixer_flight_3); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_4 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'h4) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'h4 ? fixer__flight_T : fixer_flight_4); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_5 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'h5) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'h5 ? fixer__flight_T : fixer_flight_5); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_6 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'h6) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'h6 ? fixer__flight_T : fixer_flight_6); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_7 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'h7) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'h7 ? fixer__flight_T : fixer_flight_7); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_8 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'h8) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'h8 ? fixer__flight_T : fixer_flight_8); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_9 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'h9) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'h9 ? fixer__flight_T : fixer_flight_9); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_10 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'hA) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'hA ? fixer__flight_T : fixer_flight_10); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_11 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'hB) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'hB ? fixer__flight_T : fixer_flight_11); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_12 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'hC) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'hC ? fixer__flight_T : fixer_flight_12); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_13 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'hD) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'hD ? fixer__flight_T : fixer_flight_13); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_14 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'hE) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'hE ? fixer__flight_T : fixer_flight_14); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_15 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'hF) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'hF ? fixer__flight_T : fixer_flight_15); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_16 <= ~(fixer__T_3 & fixer_anonIn_d_bits_source == 5'h10) & (fixer__T_1 & fixer_anonIn_a_bits_source == 5'h10 ? fixer__flight_T : fixer_flight_16); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_SourceIdFIFOed <= fixer__SourceIdFIFOed_T; // @[FIFOFixer.scala:115:35, :126:40] if (fixer__a_first_T_1) // @[Decoupled.scala:51:35] fixer_a_first_counter_1 <= fixer__a_first_counter_T_1; // @[Edges.scala:229:27, :236:21] if (fixer__d_first_T_2) // @[Decoupled.scala:51:35] fixer_d_first_counter_1 <= fixer__d_first_counter_T_1; // @[Edges.scala:229:27, :236:21] fixer_flight_1_0 <= ~(fixer__T_33 & fixer_x1_anonIn_d_bits_source == 2'h0) & (fixer__T_31 & fixer_x1_anonIn_a_bits_source == 2'h0 ? fixer__flight_T_1 : fixer_flight_1_0); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_1_1 <= ~(fixer__T_33 & fixer_x1_anonIn_d_bits_source == 2'h1) & (fixer__T_31 & fixer_x1_anonIn_a_bits_source == 2'h1 ? fixer__flight_T_1 : fixer_flight_1_1); // @[OneHot.scala:58:35] fixer_flight_1_2 <= ~(fixer__T_33 & fixer_x1_anonIn_d_bits_source == 2'h2) & (fixer__T_31 & fixer_x1_anonIn_a_bits_source == 2'h2 ? fixer__flight_T_1 : fixer_flight_1_2); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_SourceIdFIFOed_1 <= fixer__SourceIdFIFOed_T_1; // @[FIFOFixer.scala:115:35, :126:40] if (fixer__a_first_T_2) // @[Decoupled.scala:51:35] fixer_a_first_counter_2 <= fixer__a_first_counter_T_2; // @[Edges.scala:229:27, :236:21] if (fixer__d_first_T_4) // @[Decoupled.scala:51:35] fixer_d_first_counter_2 <= fixer__d_first_counter_T_2; // @[Edges.scala:229:27, :236:21] fixer_flight_2_0 <= ~(fixer__T_49 & ~fixer_x1_anonIn_1_d_bits_source) & (fixer__T_47 & ~fixer_x1_anonIn_1_a_bits_source ? fixer__flight_T_2 : fixer_flight_2_0); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_2_1 <= ~(fixer__T_49 & fixer_x1_anonIn_1_d_bits_source) & (fixer__T_47 & fixer_x1_anonIn_1_a_bits_source ? fixer__flight_T_2 : fixer_flight_2_1); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_SourceIdFIFOed_2 <= fixer__SourceIdFIFOed_T_2; // @[FIFOFixer.scala:115:35, :126:40] if (fixer__a_first_T_3) // @[Decoupled.scala:51:35] fixer_a_first_counter_3 <= fixer__a_first_counter_T_3; // @[Edges.scala:229:27, :236:21] if (fixer__d_first_T_6) // @[Decoupled.scala:51:35] fixer_d_first_counter_3 <= fixer__d_first_counter_T_3; // @[Edges.scala:229:27, :236:21] fixer_flight_3_0 <= ~(fixer__T_64 & ~fixer_x1_anonIn_2_d_bits_source) & (fixer__T_62 & ~fixer_x1_anonIn_2_a_bits_source ? fixer__flight_T_3 : fixer_flight_3_0); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_3_1 <= ~(fixer__T_64 & fixer_x1_anonIn_2_d_bits_source) & (fixer__T_62 & fixer_x1_anonIn_2_a_bits_source ? fixer__flight_T_3 : fixer_flight_3_1); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_SourceIdFIFOed_3 <= fixer__SourceIdFIFOed_T_3; // @[FIFOFixer.scala:115:35, :126:40] if (fixer__a_first_T_4) // @[Decoupled.scala:51:35] fixer_a_first_counter_4 <= fixer__a_first_counter_T_4; // @[Edges.scala:229:27, :236:21] if (fixer__d_first_T_8) // @[Decoupled.scala:51:35] fixer_d_first_counter_4 <= fixer__d_first_counter_T_4; // @[Edges.scala:229:27, :236:21] fixer_flight_4_0 <= ~(fixer__T_79 & ~fixer_x1_anonIn_3_d_bits_source) & (fixer__T_77 & ~fixer_x1_anonIn_3_a_bits_source ? fixer__flight_T_4 : fixer_flight_4_0); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_4_1 <= ~(fixer__T_79 & fixer_x1_anonIn_3_d_bits_source) & (fixer__T_77 & fixer_x1_anonIn_3_a_bits_source ? fixer__flight_T_4 : fixer_flight_4_1); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_SourceIdFIFOed_4 <= fixer__SourceIdFIFOed_T_4; // @[FIFOFixer.scala:115:35, :126:40] if (fixer__a_first_T_5) // @[Decoupled.scala:51:35] fixer_a_first_counter_5 <= fixer__a_first_counter_T_5; // @[Edges.scala:229:27, :236:21] if (fixer__d_first_T_10) // @[Decoupled.scala:51:35] fixer_d_first_counter_5 <= fixer__d_first_counter_T_5; // @[Edges.scala:229:27, :236:21] fixer_flight_5_0 <= ~(fixer__T_94 & ~fixer_x1_anonIn_4_d_bits_source) & (fixer__T_92 & ~fixer_x1_anonIn_4_a_bits_source ? fixer__flight_T_5 : fixer_flight_5_0); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_5_1 <= ~(fixer__T_94 & fixer_x1_anonIn_4_d_bits_source) & (fixer__T_92 & fixer_x1_anonIn_4_a_bits_source ? fixer__flight_T_5 : fixer_flight_5_1); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_SourceIdFIFOed_5 <= fixer__SourceIdFIFOed_T_5; // @[FIFOFixer.scala:115:35, :126:40] if (fixer__a_first_T_6) // @[Decoupled.scala:51:35] fixer_a_first_counter_6 <= fixer__a_first_counter_T_6; // @[Edges.scala:229:27, :236:21] if (fixer__d_first_T_12) // @[Decoupled.scala:51:35] fixer_d_first_counter_6 <= fixer__d_first_counter_T_6; // @[Edges.scala:229:27, :236:21] fixer_flight_6_0 <= ~(fixer__T_109 & fixer_x1_anonIn_5_d_bits_source == 2'h0) & (fixer__T_107 & fixer_x1_anonIn_5_a_bits_source == 2'h0 ? fixer__flight_T_6 : fixer_flight_6_0); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_flight_6_1 <= ~(fixer__T_109 & fixer_x1_anonIn_5_d_bits_source == 2'h1) & (fixer__T_107 & fixer_x1_anonIn_5_a_bits_source == 2'h1 ? fixer__flight_T_6 : fixer_flight_6_1); // @[OneHot.scala:58:35] fixer_flight_6_2 <= ~(fixer__T_109 & fixer_x1_anonIn_5_d_bits_source == 2'h2) & (fixer__T_107 & fixer_x1_anonIn_5_a_bits_source == 2'h2 ? fixer__flight_T_6 : fixer_flight_6_2); // @[FIFOFixer.scala:79:27, :80:{21,35,62,65}, :81:{21,35,62}] fixer_SourceIdFIFOed_6 <= fixer__SourceIdFIFOed_T_6; // @[FIFOFixer.scala:115:35, :126:40] end always @(posedge) FixedClockBroadcast_10 fixedClockNode ( // @[ClockGroup.scala:115:114] .auto_anon_in_clock (clockGroup_auto_out_clock), // @[ClockGroup.scala:24:9] .auto_anon_in_reset (clockGroup_auto_out_reset), // @[ClockGroup.scala:24:9] .auto_anon_out_9_clock (auto_fixedClockNode_anon_out_8_clock_0), .auto_anon_out_9_reset (auto_fixedClockNode_anon_out_8_reset_0), .auto_anon_out_8_clock (auto_fixedClockNode_anon_out_7_clock_0), .auto_anon_out_8_reset (auto_fixedClockNode_anon_out_7_reset_0), .auto_anon_out_7_clock (auto_fixedClockNode_anon_out_6_clock_0), .auto_anon_out_7_reset (auto_fixedClockNode_anon_out_6_reset_0), .auto_anon_out_6_clock (auto_fixedClockNode_anon_out_5_clock_0), .auto_anon_out_6_reset (auto_fixedClockNode_anon_out_5_reset_0), .auto_anon_out_5_clock (auto_fixedClockNode_anon_out_4_clock_0), .auto_anon_out_5_reset (auto_fixedClockNode_anon_out_4_reset_0), .auto_anon_out_4_clock (auto_fixedClockNode_anon_out_3_clock_0), .auto_anon_out_4_reset (auto_fixedClockNode_anon_out_3_reset_0), .auto_anon_out_3_clock (auto_fixedClockNode_anon_out_2_clock_0), .auto_anon_out_3_reset (auto_fixedClockNode_anon_out_2_reset_0), .auto_anon_out_2_clock (auto_fixedClockNode_anon_out_1_clock_0), .auto_anon_out_2_reset (auto_fixedClockNode_anon_out_1_reset_0), .auto_anon_out_1_clock (auto_fixedClockNode_anon_out_0_clock_0), .auto_anon_out_1_reset (auto_fixedClockNode_anon_out_0_reset_0), .auto_anon_out_0_clock (clockSinkNodeIn_clock), .auto_anon_out_0_reset (clockSinkNodeIn_reset) ); // @[ClockGroup.scala:115:114] TLXbar_sbus_i7_o2_a32d64s6k3z4c system_bus_xbar ( // @[SystemBus.scala:47:43] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset), // @[LazyModuleImp.scala:158:31] .auto_anon_in_6_a_ready (fixer_auto_anon_out_6_a_ready), .auto_anon_in_6_a_valid (fixer_auto_anon_out_6_a_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_a_bits_opcode (fixer_auto_anon_out_6_a_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_a_bits_param (fixer_auto_anon_out_6_a_bits_param), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_a_bits_size (fixer_auto_anon_out_6_a_bits_size), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_a_bits_source (fixer_auto_anon_out_6_a_bits_source), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_a_bits_address (fixer_auto_anon_out_6_a_bits_address), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_a_bits_mask (fixer_auto_anon_out_6_a_bits_mask), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_a_bits_data (fixer_auto_anon_out_6_a_bits_data), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_a_bits_corrupt (fixer_auto_anon_out_6_a_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_b_ready (fixer_auto_anon_out_6_b_ready), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_b_valid (fixer_auto_anon_out_6_b_valid), .auto_anon_in_6_b_bits_param (fixer_auto_anon_out_6_b_bits_param), .auto_anon_in_6_b_bits_source (fixer_auto_anon_out_6_b_bits_source), .auto_anon_in_6_b_bits_address (fixer_auto_anon_out_6_b_bits_address), .auto_anon_in_6_c_ready (fixer_auto_anon_out_6_c_ready), .auto_anon_in_6_c_valid (fixer_auto_anon_out_6_c_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_c_bits_opcode (fixer_auto_anon_out_6_c_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_c_bits_param (fixer_auto_anon_out_6_c_bits_param), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_c_bits_size (fixer_auto_anon_out_6_c_bits_size), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_c_bits_source (fixer_auto_anon_out_6_c_bits_source), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_c_bits_address (fixer_auto_anon_out_6_c_bits_address), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_c_bits_data (fixer_auto_anon_out_6_c_bits_data), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_c_bits_corrupt (fixer_auto_anon_out_6_c_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_d_ready (fixer_auto_anon_out_6_d_ready), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_d_valid (fixer_auto_anon_out_6_d_valid), .auto_anon_in_6_d_bits_opcode (fixer_auto_anon_out_6_d_bits_opcode), .auto_anon_in_6_d_bits_param (fixer_auto_anon_out_6_d_bits_param), .auto_anon_in_6_d_bits_size (fixer_auto_anon_out_6_d_bits_size), .auto_anon_in_6_d_bits_source (fixer_auto_anon_out_6_d_bits_source), .auto_anon_in_6_d_bits_sink (fixer_auto_anon_out_6_d_bits_sink), .auto_anon_in_6_d_bits_denied (fixer_auto_anon_out_6_d_bits_denied), .auto_anon_in_6_d_bits_data (fixer_auto_anon_out_6_d_bits_data), .auto_anon_in_6_d_bits_corrupt (fixer_auto_anon_out_6_d_bits_corrupt), .auto_anon_in_6_e_ready (fixer_auto_anon_out_6_e_ready), .auto_anon_in_6_e_valid (fixer_auto_anon_out_6_e_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_6_e_bits_sink (fixer_auto_anon_out_6_e_bits_sink), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_a_ready (fixer_auto_anon_out_5_a_ready), .auto_anon_in_5_a_valid (fixer_auto_anon_out_5_a_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_a_bits_opcode (fixer_auto_anon_out_5_a_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_a_bits_param (fixer_auto_anon_out_5_a_bits_param), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_a_bits_size (fixer_auto_anon_out_5_a_bits_size), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_a_bits_source (fixer_auto_anon_out_5_a_bits_source), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_a_bits_address (fixer_auto_anon_out_5_a_bits_address), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_a_bits_mask (fixer_auto_anon_out_5_a_bits_mask), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_a_bits_data (fixer_auto_anon_out_5_a_bits_data), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_a_bits_corrupt (fixer_auto_anon_out_5_a_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_b_ready (fixer_auto_anon_out_5_b_ready), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_b_valid (fixer_auto_anon_out_5_b_valid), .auto_anon_in_5_b_bits_param (fixer_auto_anon_out_5_b_bits_param), .auto_anon_in_5_b_bits_source (fixer_auto_anon_out_5_b_bits_source), .auto_anon_in_5_b_bits_address (fixer_auto_anon_out_5_b_bits_address), .auto_anon_in_5_c_ready (fixer_auto_anon_out_5_c_ready), .auto_anon_in_5_c_valid (fixer_auto_anon_out_5_c_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_c_bits_opcode (fixer_auto_anon_out_5_c_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_c_bits_param (fixer_auto_anon_out_5_c_bits_param), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_c_bits_size (fixer_auto_anon_out_5_c_bits_size), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_c_bits_source (fixer_auto_anon_out_5_c_bits_source), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_c_bits_address (fixer_auto_anon_out_5_c_bits_address), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_c_bits_data (fixer_auto_anon_out_5_c_bits_data), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_c_bits_corrupt (fixer_auto_anon_out_5_c_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_d_ready (fixer_auto_anon_out_5_d_ready), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_d_valid (fixer_auto_anon_out_5_d_valid), .auto_anon_in_5_d_bits_opcode (fixer_auto_anon_out_5_d_bits_opcode), .auto_anon_in_5_d_bits_param (fixer_auto_anon_out_5_d_bits_param), .auto_anon_in_5_d_bits_size (fixer_auto_anon_out_5_d_bits_size), .auto_anon_in_5_d_bits_source (fixer_auto_anon_out_5_d_bits_source), .auto_anon_in_5_d_bits_sink (fixer_auto_anon_out_5_d_bits_sink), .auto_anon_in_5_d_bits_denied (fixer_auto_anon_out_5_d_bits_denied), .auto_anon_in_5_d_bits_data (fixer_auto_anon_out_5_d_bits_data), .auto_anon_in_5_d_bits_corrupt (fixer_auto_anon_out_5_d_bits_corrupt), .auto_anon_in_5_e_ready (fixer_auto_anon_out_5_e_ready), .auto_anon_in_5_e_valid (fixer_auto_anon_out_5_e_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_5_e_bits_sink (fixer_auto_anon_out_5_e_bits_sink), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_a_ready (fixer_auto_anon_out_4_a_ready), .auto_anon_in_4_a_valid (fixer_auto_anon_out_4_a_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_a_bits_opcode (fixer_auto_anon_out_4_a_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_a_bits_param (fixer_auto_anon_out_4_a_bits_param), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_a_bits_size (fixer_auto_anon_out_4_a_bits_size), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_a_bits_source (fixer_auto_anon_out_4_a_bits_source), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_a_bits_address (fixer_auto_anon_out_4_a_bits_address), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_a_bits_mask (fixer_auto_anon_out_4_a_bits_mask), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_a_bits_data (fixer_auto_anon_out_4_a_bits_data), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_a_bits_corrupt (fixer_auto_anon_out_4_a_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_b_ready (fixer_auto_anon_out_4_b_ready), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_b_valid (fixer_auto_anon_out_4_b_valid), .auto_anon_in_4_b_bits_param (fixer_auto_anon_out_4_b_bits_param), .auto_anon_in_4_b_bits_source (fixer_auto_anon_out_4_b_bits_source), .auto_anon_in_4_b_bits_address (fixer_auto_anon_out_4_b_bits_address), .auto_anon_in_4_c_ready (fixer_auto_anon_out_4_c_ready), .auto_anon_in_4_c_valid (fixer_auto_anon_out_4_c_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_c_bits_opcode (fixer_auto_anon_out_4_c_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_c_bits_param (fixer_auto_anon_out_4_c_bits_param), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_c_bits_size (fixer_auto_anon_out_4_c_bits_size), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_c_bits_source (fixer_auto_anon_out_4_c_bits_source), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_c_bits_address (fixer_auto_anon_out_4_c_bits_address), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_c_bits_data (fixer_auto_anon_out_4_c_bits_data), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_c_bits_corrupt (fixer_auto_anon_out_4_c_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_d_ready (fixer_auto_anon_out_4_d_ready), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_d_valid (fixer_auto_anon_out_4_d_valid), .auto_anon_in_4_d_bits_opcode (fixer_auto_anon_out_4_d_bits_opcode), .auto_anon_in_4_d_bits_param (fixer_auto_anon_out_4_d_bits_param), .auto_anon_in_4_d_bits_size (fixer_auto_anon_out_4_d_bits_size), .auto_anon_in_4_d_bits_source (fixer_auto_anon_out_4_d_bits_source), .auto_anon_in_4_d_bits_sink (fixer_auto_anon_out_4_d_bits_sink), .auto_anon_in_4_d_bits_denied (fixer_auto_anon_out_4_d_bits_denied), .auto_anon_in_4_d_bits_data (fixer_auto_anon_out_4_d_bits_data), .auto_anon_in_4_d_bits_corrupt (fixer_auto_anon_out_4_d_bits_corrupt), .auto_anon_in_4_e_ready (fixer_auto_anon_out_4_e_ready), .auto_anon_in_4_e_valid (fixer_auto_anon_out_4_e_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_4_e_bits_sink (fixer_auto_anon_out_4_e_bits_sink), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_a_ready (fixer_auto_anon_out_3_a_ready), .auto_anon_in_3_a_valid (fixer_auto_anon_out_3_a_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_a_bits_opcode (fixer_auto_anon_out_3_a_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_a_bits_param (fixer_auto_anon_out_3_a_bits_param), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_a_bits_size (fixer_auto_anon_out_3_a_bits_size), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_a_bits_source (fixer_auto_anon_out_3_a_bits_source), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_a_bits_address (fixer_auto_anon_out_3_a_bits_address), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_a_bits_mask (fixer_auto_anon_out_3_a_bits_mask), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_a_bits_data (fixer_auto_anon_out_3_a_bits_data), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_a_bits_corrupt (fixer_auto_anon_out_3_a_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_b_ready (fixer_auto_anon_out_3_b_ready), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_b_valid (fixer_auto_anon_out_3_b_valid), .auto_anon_in_3_b_bits_param (fixer_auto_anon_out_3_b_bits_param), .auto_anon_in_3_b_bits_source (fixer_auto_anon_out_3_b_bits_source), .auto_anon_in_3_b_bits_address (fixer_auto_anon_out_3_b_bits_address), .auto_anon_in_3_c_ready (fixer_auto_anon_out_3_c_ready), .auto_anon_in_3_c_valid (fixer_auto_anon_out_3_c_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_c_bits_opcode (fixer_auto_anon_out_3_c_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_c_bits_param (fixer_auto_anon_out_3_c_bits_param), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_c_bits_size (fixer_auto_anon_out_3_c_bits_size), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_c_bits_source (fixer_auto_anon_out_3_c_bits_source), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_c_bits_address (fixer_auto_anon_out_3_c_bits_address), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_c_bits_data (fixer_auto_anon_out_3_c_bits_data), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_c_bits_corrupt (fixer_auto_anon_out_3_c_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_d_ready (fixer_auto_anon_out_3_d_ready), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_d_valid (fixer_auto_anon_out_3_d_valid), .auto_anon_in_3_d_bits_opcode (fixer_auto_anon_out_3_d_bits_opcode), .auto_anon_in_3_d_bits_param (fixer_auto_anon_out_3_d_bits_param), .auto_anon_in_3_d_bits_size (fixer_auto_anon_out_3_d_bits_size), .auto_anon_in_3_d_bits_source (fixer_auto_anon_out_3_d_bits_source), .auto_anon_in_3_d_bits_sink (fixer_auto_anon_out_3_d_bits_sink), .auto_anon_in_3_d_bits_denied (fixer_auto_anon_out_3_d_bits_denied), .auto_anon_in_3_d_bits_data (fixer_auto_anon_out_3_d_bits_data), .auto_anon_in_3_d_bits_corrupt (fixer_auto_anon_out_3_d_bits_corrupt), .auto_anon_in_3_e_ready (fixer_auto_anon_out_3_e_ready), .auto_anon_in_3_e_valid (fixer_auto_anon_out_3_e_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_3_e_bits_sink (fixer_auto_anon_out_3_e_bits_sink), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_a_ready (fixer_auto_anon_out_2_a_ready), .auto_anon_in_2_a_valid (fixer_auto_anon_out_2_a_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_a_bits_opcode (fixer_auto_anon_out_2_a_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_a_bits_param (fixer_auto_anon_out_2_a_bits_param), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_a_bits_size (fixer_auto_anon_out_2_a_bits_size), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_a_bits_source (fixer_auto_anon_out_2_a_bits_source), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_a_bits_address (fixer_auto_anon_out_2_a_bits_address), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_a_bits_mask (fixer_auto_anon_out_2_a_bits_mask), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_a_bits_data (fixer_auto_anon_out_2_a_bits_data), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_a_bits_corrupt (fixer_auto_anon_out_2_a_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_b_ready (fixer_auto_anon_out_2_b_ready), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_b_valid (fixer_auto_anon_out_2_b_valid), .auto_anon_in_2_b_bits_param (fixer_auto_anon_out_2_b_bits_param), .auto_anon_in_2_b_bits_source (fixer_auto_anon_out_2_b_bits_source), .auto_anon_in_2_b_bits_address (fixer_auto_anon_out_2_b_bits_address), .auto_anon_in_2_c_ready (fixer_auto_anon_out_2_c_ready), .auto_anon_in_2_c_valid (fixer_auto_anon_out_2_c_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_c_bits_opcode (fixer_auto_anon_out_2_c_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_c_bits_param (fixer_auto_anon_out_2_c_bits_param), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_c_bits_size (fixer_auto_anon_out_2_c_bits_size), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_c_bits_source (fixer_auto_anon_out_2_c_bits_source), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_c_bits_address (fixer_auto_anon_out_2_c_bits_address), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_c_bits_data (fixer_auto_anon_out_2_c_bits_data), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_c_bits_corrupt (fixer_auto_anon_out_2_c_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_d_ready (fixer_auto_anon_out_2_d_ready), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_d_valid (fixer_auto_anon_out_2_d_valid), .auto_anon_in_2_d_bits_opcode (fixer_auto_anon_out_2_d_bits_opcode), .auto_anon_in_2_d_bits_param (fixer_auto_anon_out_2_d_bits_param), .auto_anon_in_2_d_bits_size (fixer_auto_anon_out_2_d_bits_size), .auto_anon_in_2_d_bits_source (fixer_auto_anon_out_2_d_bits_source), .auto_anon_in_2_d_bits_sink (fixer_auto_anon_out_2_d_bits_sink), .auto_anon_in_2_d_bits_denied (fixer_auto_anon_out_2_d_bits_denied), .auto_anon_in_2_d_bits_data (fixer_auto_anon_out_2_d_bits_data), .auto_anon_in_2_d_bits_corrupt (fixer_auto_anon_out_2_d_bits_corrupt), .auto_anon_in_2_e_ready (fixer_auto_anon_out_2_e_ready), .auto_anon_in_2_e_valid (fixer_auto_anon_out_2_e_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_2_e_bits_sink (fixer_auto_anon_out_2_e_bits_sink), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_a_ready (fixer_auto_anon_out_1_a_ready), .auto_anon_in_1_a_valid (fixer_auto_anon_out_1_a_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_a_bits_opcode (fixer_auto_anon_out_1_a_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_a_bits_param (fixer_auto_anon_out_1_a_bits_param), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_a_bits_size (fixer_auto_anon_out_1_a_bits_size), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_a_bits_source (fixer_auto_anon_out_1_a_bits_source), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_a_bits_address (fixer_auto_anon_out_1_a_bits_address), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_a_bits_mask (fixer_auto_anon_out_1_a_bits_mask), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_a_bits_data (fixer_auto_anon_out_1_a_bits_data), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_a_bits_corrupt (fixer_auto_anon_out_1_a_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_b_ready (fixer_auto_anon_out_1_b_ready), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_b_valid (fixer_auto_anon_out_1_b_valid), .auto_anon_in_1_b_bits_param (fixer_auto_anon_out_1_b_bits_param), .auto_anon_in_1_b_bits_source (fixer_auto_anon_out_1_b_bits_source), .auto_anon_in_1_b_bits_address (fixer_auto_anon_out_1_b_bits_address), .auto_anon_in_1_c_ready (fixer_auto_anon_out_1_c_ready), .auto_anon_in_1_c_valid (fixer_auto_anon_out_1_c_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_c_bits_opcode (fixer_auto_anon_out_1_c_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_c_bits_param (fixer_auto_anon_out_1_c_bits_param), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_c_bits_size (fixer_auto_anon_out_1_c_bits_size), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_c_bits_source (fixer_auto_anon_out_1_c_bits_source), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_c_bits_address (fixer_auto_anon_out_1_c_bits_address), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_c_bits_data (fixer_auto_anon_out_1_c_bits_data), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_c_bits_corrupt (fixer_auto_anon_out_1_c_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_d_ready (fixer_auto_anon_out_1_d_ready), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_d_valid (fixer_auto_anon_out_1_d_valid), .auto_anon_in_1_d_bits_opcode (fixer_auto_anon_out_1_d_bits_opcode), .auto_anon_in_1_d_bits_param (fixer_auto_anon_out_1_d_bits_param), .auto_anon_in_1_d_bits_size (fixer_auto_anon_out_1_d_bits_size), .auto_anon_in_1_d_bits_source (fixer_auto_anon_out_1_d_bits_source), .auto_anon_in_1_d_bits_sink (fixer_auto_anon_out_1_d_bits_sink), .auto_anon_in_1_d_bits_denied (fixer_auto_anon_out_1_d_bits_denied), .auto_anon_in_1_d_bits_data (fixer_auto_anon_out_1_d_bits_data), .auto_anon_in_1_d_bits_corrupt (fixer_auto_anon_out_1_d_bits_corrupt), .auto_anon_in_1_e_ready (fixer_auto_anon_out_1_e_ready), .auto_anon_in_1_e_valid (fixer_auto_anon_out_1_e_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_1_e_bits_sink (fixer_auto_anon_out_1_e_bits_sink), // @[FIFOFixer.scala:50:9] .auto_anon_in_0_a_ready (fixer_auto_anon_out_0_a_ready), .auto_anon_in_0_a_valid (fixer_auto_anon_out_0_a_valid), // @[FIFOFixer.scala:50:9] .auto_anon_in_0_a_bits_opcode (fixer_auto_anon_out_0_a_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_anon_in_0_a_bits_param (fixer_auto_anon_out_0_a_bits_param), // @[FIFOFixer.scala:50:9] .auto_anon_in_0_a_bits_size (fixer_auto_anon_out_0_a_bits_size), // @[FIFOFixer.scala:50:9] .auto_anon_in_0_a_bits_source (fixer_auto_anon_out_0_a_bits_source), // @[FIFOFixer.scala:50:9] .auto_anon_in_0_a_bits_address (fixer_auto_anon_out_0_a_bits_address), // @[FIFOFixer.scala:50:9] .auto_anon_in_0_a_bits_mask (fixer_auto_anon_out_0_a_bits_mask), // @[FIFOFixer.scala:50:9] .auto_anon_in_0_a_bits_data (fixer_auto_anon_out_0_a_bits_data), // @[FIFOFixer.scala:50:9] .auto_anon_in_0_a_bits_corrupt (fixer_auto_anon_out_0_a_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_anon_in_0_d_ready (fixer_auto_anon_out_0_d_ready), // @[FIFOFixer.scala:50:9] .auto_anon_in_0_d_valid (fixer_auto_anon_out_0_d_valid), .auto_anon_in_0_d_bits_opcode (fixer_auto_anon_out_0_d_bits_opcode), .auto_anon_in_0_d_bits_param (fixer_auto_anon_out_0_d_bits_param), .auto_anon_in_0_d_bits_size (fixer_auto_anon_out_0_d_bits_size), .auto_anon_in_0_d_bits_source (fixer_auto_anon_out_0_d_bits_source), .auto_anon_in_0_d_bits_sink (fixer_auto_anon_out_0_d_bits_sink), .auto_anon_in_0_d_bits_denied (fixer_auto_anon_out_0_d_bits_denied), .auto_anon_in_0_d_bits_data (fixer_auto_anon_out_0_d_bits_data), .auto_anon_in_0_d_bits_corrupt (fixer_auto_anon_out_0_d_bits_corrupt), .auto_anon_out_1_a_ready (coupler_to_bus_named_coh_auto_widget_anon_in_a_ready), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_a_valid (coupler_to_bus_named_coh_auto_widget_anon_in_a_valid), .auto_anon_out_1_a_bits_opcode (coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_opcode), .auto_anon_out_1_a_bits_param (coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_param), .auto_anon_out_1_a_bits_size (coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_size), .auto_anon_out_1_a_bits_source (coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_source), .auto_anon_out_1_a_bits_address (coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_address), .auto_anon_out_1_a_bits_mask (coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_mask), .auto_anon_out_1_a_bits_data (coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_data), .auto_anon_out_1_a_bits_corrupt (coupler_to_bus_named_coh_auto_widget_anon_in_a_bits_corrupt), .auto_anon_out_1_b_ready (coupler_to_bus_named_coh_auto_widget_anon_in_b_ready), .auto_anon_out_1_b_valid (coupler_to_bus_named_coh_auto_widget_anon_in_b_valid), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_b_bits_param (coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_param), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_b_bits_source (coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_source), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_b_bits_address (coupler_to_bus_named_coh_auto_widget_anon_in_b_bits_address), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_c_ready (coupler_to_bus_named_coh_auto_widget_anon_in_c_ready), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_c_valid (coupler_to_bus_named_coh_auto_widget_anon_in_c_valid), .auto_anon_out_1_c_bits_opcode (coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_opcode), .auto_anon_out_1_c_bits_param (coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_param), .auto_anon_out_1_c_bits_size (coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_size), .auto_anon_out_1_c_bits_source (coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_source), .auto_anon_out_1_c_bits_address (coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_address), .auto_anon_out_1_c_bits_data (coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_data), .auto_anon_out_1_c_bits_corrupt (coupler_to_bus_named_coh_auto_widget_anon_in_c_bits_corrupt), .auto_anon_out_1_d_ready (coupler_to_bus_named_coh_auto_widget_anon_in_d_ready), .auto_anon_out_1_d_valid (coupler_to_bus_named_coh_auto_widget_anon_in_d_valid), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_d_bits_opcode (coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_opcode), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_d_bits_param (coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_param), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_d_bits_size (coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_size), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_d_bits_source (coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_source), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_d_bits_sink (coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_sink), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_d_bits_denied (coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_denied), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_d_bits_data (coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_data), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_d_bits_corrupt (coupler_to_bus_named_coh_auto_widget_anon_in_d_bits_corrupt), // @[LazyModuleImp.scala:138:7] .auto_anon_out_1_e_valid (coupler_to_bus_named_coh_auto_widget_anon_in_e_valid), .auto_anon_out_1_e_bits_sink (coupler_to_bus_named_coh_auto_widget_anon_in_e_bits_sink), .auto_anon_out_0_a_ready (coupler_to_bus_named_cbus_auto_widget_anon_in_a_ready), // @[LazyModuleImp.scala:138:7] .auto_anon_out_0_a_valid (coupler_to_bus_named_cbus_auto_widget_anon_in_a_valid), .auto_anon_out_0_a_bits_opcode (coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_opcode), .auto_anon_out_0_a_bits_param (coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_param), .auto_anon_out_0_a_bits_size (coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_size), .auto_anon_out_0_a_bits_source (coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_source), .auto_anon_out_0_a_bits_address (coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_address), .auto_anon_out_0_a_bits_mask (coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_mask), .auto_anon_out_0_a_bits_data (coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_data), .auto_anon_out_0_a_bits_corrupt (coupler_to_bus_named_cbus_auto_widget_anon_in_a_bits_corrupt), .auto_anon_out_0_d_ready (coupler_to_bus_named_cbus_auto_widget_anon_in_d_ready), .auto_anon_out_0_d_valid (coupler_to_bus_named_cbus_auto_widget_anon_in_d_valid), // @[LazyModuleImp.scala:138:7] .auto_anon_out_0_d_bits_opcode (coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_opcode), // @[LazyModuleImp.scala:138:7] .auto_anon_out_0_d_bits_param (coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_param), // @[LazyModuleImp.scala:138:7] .auto_anon_out_0_d_bits_size (coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_size), // @[LazyModuleImp.scala:138:7] .auto_anon_out_0_d_bits_source (coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_source), // @[LazyModuleImp.scala:138:7] .auto_anon_out_0_d_bits_sink (coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_sink), // @[LazyModuleImp.scala:138:7] .auto_anon_out_0_d_bits_denied (coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_denied), // @[LazyModuleImp.scala:138:7] .auto_anon_out_0_d_bits_data (coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_data), // @[LazyModuleImp.scala:138:7] .auto_anon_out_0_d_bits_corrupt (coupler_to_bus_named_cbus_auto_widget_anon_in_d_bits_corrupt) // @[LazyModuleImp.scala:138:7] ); // @[SystemBus.scala:47:43] TLInterconnectCoupler_sbus_from_port_named_rerocc_0 coupler_from_port_named_rerocc_0 ( // @[LazyScope.scala:98:27] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset), // @[LazyModuleImp.scala:158:31] .auto_buffer_in_a_ready (auto_coupler_from_port_named_rerocc_0_buffer_in_a_ready_0), .auto_buffer_in_a_valid (auto_coupler_from_port_named_rerocc_0_buffer_in_a_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_opcode (auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_opcode_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_param (auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_param_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_size (auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_size_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_source (auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_source_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_address (auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_address_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_mask (auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_mask_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_data (auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_data_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_corrupt (auto_coupler_from_port_named_rerocc_0_buffer_in_a_bits_corrupt_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_b_ready (auto_coupler_from_port_named_rerocc_0_buffer_in_b_ready_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_b_valid (auto_coupler_from_port_named_rerocc_0_buffer_in_b_valid_0), .auto_buffer_in_b_bits_opcode (auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_opcode_0), .auto_buffer_in_b_bits_param (auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_param_0), .auto_buffer_in_b_bits_size (auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_size_0), .auto_buffer_in_b_bits_source (auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_source_0), .auto_buffer_in_b_bits_address (auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_address_0), .auto_buffer_in_b_bits_mask (auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_mask_0), .auto_buffer_in_b_bits_data (auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_data_0), .auto_buffer_in_b_bits_corrupt (auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_corrupt_0), .auto_buffer_in_c_ready (auto_coupler_from_port_named_rerocc_0_buffer_in_c_ready_0), .auto_buffer_in_c_valid (auto_coupler_from_port_named_rerocc_0_buffer_in_c_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_opcode (auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_opcode_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_param (auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_param_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_size (auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_size_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_source (auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_source_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_address (auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_address_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_data (auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_data_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_corrupt (auto_coupler_from_port_named_rerocc_0_buffer_in_c_bits_corrupt_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_d_ready (auto_coupler_from_port_named_rerocc_0_buffer_in_d_ready_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_d_valid (auto_coupler_from_port_named_rerocc_0_buffer_in_d_valid_0), .auto_buffer_in_d_bits_opcode (auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_opcode_0), .auto_buffer_in_d_bits_param (auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_param_0), .auto_buffer_in_d_bits_size (auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_size_0), .auto_buffer_in_d_bits_source (auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_source_0), .auto_buffer_in_d_bits_sink (auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_sink_0), .auto_buffer_in_d_bits_denied (auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_denied_0), .auto_buffer_in_d_bits_data (auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_data_0), .auto_buffer_in_d_bits_corrupt (auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_corrupt_0), .auto_buffer_in_e_ready (auto_coupler_from_port_named_rerocc_0_buffer_in_e_ready_0), .auto_buffer_in_e_valid (auto_coupler_from_port_named_rerocc_0_buffer_in_e_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_e_bits_sink (auto_coupler_from_port_named_rerocc_0_buffer_in_e_bits_sink_0), // @[ClockDomain.scala:14:9] .auto_tl_out_a_ready (fixer_auto_anon_in_2_a_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_a_valid (fixer_auto_anon_in_2_a_valid), .auto_tl_out_a_bits_opcode (fixer_auto_anon_in_2_a_bits_opcode), .auto_tl_out_a_bits_param (fixer_auto_anon_in_2_a_bits_param), .auto_tl_out_a_bits_size (fixer_auto_anon_in_2_a_bits_size), .auto_tl_out_a_bits_source (fixer_auto_anon_in_2_a_bits_source), .auto_tl_out_a_bits_address (fixer_auto_anon_in_2_a_bits_address), .auto_tl_out_a_bits_mask (fixer_auto_anon_in_2_a_bits_mask), .auto_tl_out_a_bits_data (fixer_auto_anon_in_2_a_bits_data), .auto_tl_out_a_bits_corrupt (fixer_auto_anon_in_2_a_bits_corrupt), .auto_tl_out_b_ready (fixer_auto_anon_in_2_b_ready), .auto_tl_out_b_valid (fixer_auto_anon_in_2_b_valid), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_param (fixer_auto_anon_in_2_b_bits_param), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_source (fixer_auto_anon_in_2_b_bits_source), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_address (fixer_auto_anon_in_2_b_bits_address), // @[FIFOFixer.scala:50:9] .auto_tl_out_c_ready (fixer_auto_anon_in_2_c_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_c_valid (fixer_auto_anon_in_2_c_valid), .auto_tl_out_c_bits_opcode (fixer_auto_anon_in_2_c_bits_opcode), .auto_tl_out_c_bits_param (fixer_auto_anon_in_2_c_bits_param), .auto_tl_out_c_bits_size (fixer_auto_anon_in_2_c_bits_size), .auto_tl_out_c_bits_source (fixer_auto_anon_in_2_c_bits_source), .auto_tl_out_c_bits_address (fixer_auto_anon_in_2_c_bits_address), .auto_tl_out_c_bits_data (fixer_auto_anon_in_2_c_bits_data), .auto_tl_out_c_bits_corrupt (fixer_auto_anon_in_2_c_bits_corrupt), .auto_tl_out_d_ready (fixer_auto_anon_in_2_d_ready), .auto_tl_out_d_valid (fixer_auto_anon_in_2_d_valid), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_opcode (fixer_auto_anon_in_2_d_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_param (fixer_auto_anon_in_2_d_bits_param), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_size (fixer_auto_anon_in_2_d_bits_size), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_source (fixer_auto_anon_in_2_d_bits_source), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_sink (fixer_auto_anon_in_2_d_bits_sink), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_denied (fixer_auto_anon_in_2_d_bits_denied), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_data (fixer_auto_anon_in_2_d_bits_data), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_corrupt (fixer_auto_anon_in_2_d_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_tl_out_e_ready (fixer_auto_anon_in_2_e_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_e_valid (fixer_auto_anon_in_2_e_valid), .auto_tl_out_e_bits_sink (fixer_auto_anon_in_2_e_bits_sink) ); // @[LazyScope.scala:98:27] TLInterconnectCoupler_sbus_to_sport_named_rerocc_0 coupler_to_sport_named_rerocc_0 ( // @[LazyScope.scala:98:27] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset) // @[LazyModuleImp.scala:158:31] ); // @[LazyScope.scala:98:27] TLInterconnectCoupler_sbus_from_port_named_rerocc_1 coupler_from_port_named_rerocc_1 ( // @[LazyScope.scala:98:27] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset), // @[LazyModuleImp.scala:158:31] .auto_buffer_in_a_ready (auto_coupler_from_port_named_rerocc_1_buffer_in_a_ready_0), .auto_buffer_in_a_valid (auto_coupler_from_port_named_rerocc_1_buffer_in_a_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_opcode (auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_opcode_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_param (auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_param_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_size (auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_size_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_source (auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_source_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_address (auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_address_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_mask (auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_mask_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_data (auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_data_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_corrupt (auto_coupler_from_port_named_rerocc_1_buffer_in_a_bits_corrupt_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_b_ready (auto_coupler_from_port_named_rerocc_1_buffer_in_b_ready_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_b_valid (auto_coupler_from_port_named_rerocc_1_buffer_in_b_valid_0), .auto_buffer_in_b_bits_opcode (auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_opcode_0), .auto_buffer_in_b_bits_param (auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_param_0), .auto_buffer_in_b_bits_size (auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_size_0), .auto_buffer_in_b_bits_source (auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_source_0), .auto_buffer_in_b_bits_address (auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_address_0), .auto_buffer_in_b_bits_mask (auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_mask_0), .auto_buffer_in_b_bits_data (auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_data_0), .auto_buffer_in_b_bits_corrupt (auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_corrupt_0), .auto_buffer_in_c_ready (auto_coupler_from_port_named_rerocc_1_buffer_in_c_ready_0), .auto_buffer_in_c_valid (auto_coupler_from_port_named_rerocc_1_buffer_in_c_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_opcode (auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_opcode_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_param (auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_param_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_size (auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_size_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_source (auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_source_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_address (auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_address_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_data (auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_data_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_corrupt (auto_coupler_from_port_named_rerocc_1_buffer_in_c_bits_corrupt_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_d_ready (auto_coupler_from_port_named_rerocc_1_buffer_in_d_ready_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_d_valid (auto_coupler_from_port_named_rerocc_1_buffer_in_d_valid_0), .auto_buffer_in_d_bits_opcode (auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_opcode_0), .auto_buffer_in_d_bits_param (auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_param_0), .auto_buffer_in_d_bits_size (auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_size_0), .auto_buffer_in_d_bits_source (auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_source_0), .auto_buffer_in_d_bits_sink (auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_sink_0), .auto_buffer_in_d_bits_denied (auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_denied_0), .auto_buffer_in_d_bits_data (auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_data_0), .auto_buffer_in_d_bits_corrupt (auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_corrupt_0), .auto_buffer_in_e_ready (auto_coupler_from_port_named_rerocc_1_buffer_in_e_ready_0), .auto_buffer_in_e_valid (auto_coupler_from_port_named_rerocc_1_buffer_in_e_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_e_bits_sink (auto_coupler_from_port_named_rerocc_1_buffer_in_e_bits_sink_0), // @[ClockDomain.scala:14:9] .auto_tl_out_a_ready (fixer_auto_anon_in_3_a_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_a_valid (fixer_auto_anon_in_3_a_valid), .auto_tl_out_a_bits_opcode (fixer_auto_anon_in_3_a_bits_opcode), .auto_tl_out_a_bits_param (fixer_auto_anon_in_3_a_bits_param), .auto_tl_out_a_bits_size (fixer_auto_anon_in_3_a_bits_size), .auto_tl_out_a_bits_source (fixer_auto_anon_in_3_a_bits_source), .auto_tl_out_a_bits_address (fixer_auto_anon_in_3_a_bits_address), .auto_tl_out_a_bits_mask (fixer_auto_anon_in_3_a_bits_mask), .auto_tl_out_a_bits_data (fixer_auto_anon_in_3_a_bits_data), .auto_tl_out_a_bits_corrupt (fixer_auto_anon_in_3_a_bits_corrupt), .auto_tl_out_b_ready (fixer_auto_anon_in_3_b_ready), .auto_tl_out_b_valid (fixer_auto_anon_in_3_b_valid), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_param (fixer_auto_anon_in_3_b_bits_param), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_source (fixer_auto_anon_in_3_b_bits_source), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_address (fixer_auto_anon_in_3_b_bits_address), // @[FIFOFixer.scala:50:9] .auto_tl_out_c_ready (fixer_auto_anon_in_3_c_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_c_valid (fixer_auto_anon_in_3_c_valid), .auto_tl_out_c_bits_opcode (fixer_auto_anon_in_3_c_bits_opcode), .auto_tl_out_c_bits_param (fixer_auto_anon_in_3_c_bits_param), .auto_tl_out_c_bits_size (fixer_auto_anon_in_3_c_bits_size), .auto_tl_out_c_bits_source (fixer_auto_anon_in_3_c_bits_source), .auto_tl_out_c_bits_address (fixer_auto_anon_in_3_c_bits_address), .auto_tl_out_c_bits_data (fixer_auto_anon_in_3_c_bits_data), .auto_tl_out_c_bits_corrupt (fixer_auto_anon_in_3_c_bits_corrupt), .auto_tl_out_d_ready (fixer_auto_anon_in_3_d_ready), .auto_tl_out_d_valid (fixer_auto_anon_in_3_d_valid), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_opcode (fixer_auto_anon_in_3_d_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_param (fixer_auto_anon_in_3_d_bits_param), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_size (fixer_auto_anon_in_3_d_bits_size), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_source (fixer_auto_anon_in_3_d_bits_source), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_sink (fixer_auto_anon_in_3_d_bits_sink), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_denied (fixer_auto_anon_in_3_d_bits_denied), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_data (fixer_auto_anon_in_3_d_bits_data), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_corrupt (fixer_auto_anon_in_3_d_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_tl_out_e_ready (fixer_auto_anon_in_3_e_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_e_valid (fixer_auto_anon_in_3_e_valid), .auto_tl_out_e_bits_sink (fixer_auto_anon_in_3_e_bits_sink) ); // @[LazyScope.scala:98:27] TLInterconnectCoupler_sbus_to_sport_named_rerocc_1 coupler_to_sport_named_rerocc_1 ( // @[LazyScope.scala:98:27] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset) // @[LazyModuleImp.scala:158:31] ); // @[LazyScope.scala:98:27] TLInterconnectCoupler_sbus_from_port_named_rerocc_2 coupler_from_port_named_rerocc_2 ( // @[LazyScope.scala:98:27] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset), // @[LazyModuleImp.scala:158:31] .auto_buffer_in_a_ready (auto_coupler_from_port_named_rerocc_2_buffer_in_a_ready_0), .auto_buffer_in_a_valid (auto_coupler_from_port_named_rerocc_2_buffer_in_a_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_opcode (auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_opcode_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_param (auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_param_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_size (auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_size_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_source (auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_source_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_address (auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_address_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_mask (auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_mask_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_data (auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_data_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_corrupt (auto_coupler_from_port_named_rerocc_2_buffer_in_a_bits_corrupt_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_b_ready (auto_coupler_from_port_named_rerocc_2_buffer_in_b_ready_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_b_valid (auto_coupler_from_port_named_rerocc_2_buffer_in_b_valid_0), .auto_buffer_in_b_bits_opcode (auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_opcode_0), .auto_buffer_in_b_bits_param (auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_param_0), .auto_buffer_in_b_bits_size (auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_size_0), .auto_buffer_in_b_bits_source (auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_source_0), .auto_buffer_in_b_bits_address (auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_address_0), .auto_buffer_in_b_bits_mask (auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_mask_0), .auto_buffer_in_b_bits_data (auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_data_0), .auto_buffer_in_b_bits_corrupt (auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_corrupt_0), .auto_buffer_in_c_ready (auto_coupler_from_port_named_rerocc_2_buffer_in_c_ready_0), .auto_buffer_in_c_valid (auto_coupler_from_port_named_rerocc_2_buffer_in_c_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_opcode (auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_opcode_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_param (auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_param_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_size (auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_size_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_source (auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_source_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_address (auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_address_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_data (auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_data_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_corrupt (auto_coupler_from_port_named_rerocc_2_buffer_in_c_bits_corrupt_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_d_ready (auto_coupler_from_port_named_rerocc_2_buffer_in_d_ready_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_d_valid (auto_coupler_from_port_named_rerocc_2_buffer_in_d_valid_0), .auto_buffer_in_d_bits_opcode (auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_opcode_0), .auto_buffer_in_d_bits_param (auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_param_0), .auto_buffer_in_d_bits_size (auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_size_0), .auto_buffer_in_d_bits_source (auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_source_0), .auto_buffer_in_d_bits_sink (auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_sink_0), .auto_buffer_in_d_bits_denied (auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_denied_0), .auto_buffer_in_d_bits_data (auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_data_0), .auto_buffer_in_d_bits_corrupt (auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_corrupt_0), .auto_buffer_in_e_ready (auto_coupler_from_port_named_rerocc_2_buffer_in_e_ready_0), .auto_buffer_in_e_valid (auto_coupler_from_port_named_rerocc_2_buffer_in_e_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_e_bits_sink (auto_coupler_from_port_named_rerocc_2_buffer_in_e_bits_sink_0), // @[ClockDomain.scala:14:9] .auto_tl_out_a_ready (fixer_auto_anon_in_4_a_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_a_valid (fixer_auto_anon_in_4_a_valid), .auto_tl_out_a_bits_opcode (fixer_auto_anon_in_4_a_bits_opcode), .auto_tl_out_a_bits_param (fixer_auto_anon_in_4_a_bits_param), .auto_tl_out_a_bits_size (fixer_auto_anon_in_4_a_bits_size), .auto_tl_out_a_bits_source (fixer_auto_anon_in_4_a_bits_source), .auto_tl_out_a_bits_address (fixer_auto_anon_in_4_a_bits_address), .auto_tl_out_a_bits_mask (fixer_auto_anon_in_4_a_bits_mask), .auto_tl_out_a_bits_data (fixer_auto_anon_in_4_a_bits_data), .auto_tl_out_a_bits_corrupt (fixer_auto_anon_in_4_a_bits_corrupt), .auto_tl_out_b_ready (fixer_auto_anon_in_4_b_ready), .auto_tl_out_b_valid (fixer_auto_anon_in_4_b_valid), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_param (fixer_auto_anon_in_4_b_bits_param), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_source (fixer_auto_anon_in_4_b_bits_source), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_address (fixer_auto_anon_in_4_b_bits_address), // @[FIFOFixer.scala:50:9] .auto_tl_out_c_ready (fixer_auto_anon_in_4_c_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_c_valid (fixer_auto_anon_in_4_c_valid), .auto_tl_out_c_bits_opcode (fixer_auto_anon_in_4_c_bits_opcode), .auto_tl_out_c_bits_param (fixer_auto_anon_in_4_c_bits_param), .auto_tl_out_c_bits_size (fixer_auto_anon_in_4_c_bits_size), .auto_tl_out_c_bits_source (fixer_auto_anon_in_4_c_bits_source), .auto_tl_out_c_bits_address (fixer_auto_anon_in_4_c_bits_address), .auto_tl_out_c_bits_data (fixer_auto_anon_in_4_c_bits_data), .auto_tl_out_c_bits_corrupt (fixer_auto_anon_in_4_c_bits_corrupt), .auto_tl_out_d_ready (fixer_auto_anon_in_4_d_ready), .auto_tl_out_d_valid (fixer_auto_anon_in_4_d_valid), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_opcode (fixer_auto_anon_in_4_d_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_param (fixer_auto_anon_in_4_d_bits_param), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_size (fixer_auto_anon_in_4_d_bits_size), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_source (fixer_auto_anon_in_4_d_bits_source), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_sink (fixer_auto_anon_in_4_d_bits_sink), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_denied (fixer_auto_anon_in_4_d_bits_denied), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_data (fixer_auto_anon_in_4_d_bits_data), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_corrupt (fixer_auto_anon_in_4_d_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_tl_out_e_ready (fixer_auto_anon_in_4_e_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_e_valid (fixer_auto_anon_in_4_e_valid), .auto_tl_out_e_bits_sink (fixer_auto_anon_in_4_e_bits_sink) ); // @[LazyScope.scala:98:27] TLInterconnectCoupler_sbus_to_sport_named_rerocc_2 coupler_to_sport_named_rerocc_2 ( // @[LazyScope.scala:98:27] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset) // @[LazyModuleImp.scala:158:31] ); // @[LazyScope.scala:98:27] TLInterconnectCoupler_sbus_from_port_named_rerocc_3 coupler_from_port_named_rerocc_3 ( // @[LazyScope.scala:98:27] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset), // @[LazyModuleImp.scala:158:31] .auto_buffer_in_a_ready (auto_coupler_from_port_named_rerocc_3_buffer_in_a_ready_0), .auto_buffer_in_a_valid (auto_coupler_from_port_named_rerocc_3_buffer_in_a_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_opcode (auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_opcode_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_param (auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_param_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_size (auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_size_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_source (auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_source_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_address (auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_address_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_mask (auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_mask_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_data (auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_data_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_corrupt (auto_coupler_from_port_named_rerocc_3_buffer_in_a_bits_corrupt_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_b_ready (auto_coupler_from_port_named_rerocc_3_buffer_in_b_ready_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_b_valid (auto_coupler_from_port_named_rerocc_3_buffer_in_b_valid_0), .auto_buffer_in_b_bits_opcode (auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_opcode_0), .auto_buffer_in_b_bits_param (auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_param_0), .auto_buffer_in_b_bits_size (auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_size_0), .auto_buffer_in_b_bits_source (auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_source_0), .auto_buffer_in_b_bits_address (auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_address_0), .auto_buffer_in_b_bits_mask (auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_mask_0), .auto_buffer_in_b_bits_data (auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_data_0), .auto_buffer_in_b_bits_corrupt (auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_corrupt_0), .auto_buffer_in_c_ready (auto_coupler_from_port_named_rerocc_3_buffer_in_c_ready_0), .auto_buffer_in_c_valid (auto_coupler_from_port_named_rerocc_3_buffer_in_c_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_opcode (auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_opcode_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_param (auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_param_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_size (auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_size_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_source (auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_source_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_address (auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_address_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_data (auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_data_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_corrupt (auto_coupler_from_port_named_rerocc_3_buffer_in_c_bits_corrupt_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_d_ready (auto_coupler_from_port_named_rerocc_3_buffer_in_d_ready_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_d_valid (auto_coupler_from_port_named_rerocc_3_buffer_in_d_valid_0), .auto_buffer_in_d_bits_opcode (auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_opcode_0), .auto_buffer_in_d_bits_param (auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_param_0), .auto_buffer_in_d_bits_size (auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_size_0), .auto_buffer_in_d_bits_source (auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_source_0), .auto_buffer_in_d_bits_sink (auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_sink_0), .auto_buffer_in_d_bits_denied (auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_denied_0), .auto_buffer_in_d_bits_data (auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_data_0), .auto_buffer_in_d_bits_corrupt (auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_corrupt_0), .auto_buffer_in_e_ready (auto_coupler_from_port_named_rerocc_3_buffer_in_e_ready_0), .auto_buffer_in_e_valid (auto_coupler_from_port_named_rerocc_3_buffer_in_e_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_e_bits_sink (auto_coupler_from_port_named_rerocc_3_buffer_in_e_bits_sink_0), // @[ClockDomain.scala:14:9] .auto_tl_out_a_ready (fixer_auto_anon_in_5_a_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_a_valid (fixer_auto_anon_in_5_a_valid), .auto_tl_out_a_bits_opcode (fixer_auto_anon_in_5_a_bits_opcode), .auto_tl_out_a_bits_param (fixer_auto_anon_in_5_a_bits_param), .auto_tl_out_a_bits_size (fixer_auto_anon_in_5_a_bits_size), .auto_tl_out_a_bits_source (fixer_auto_anon_in_5_a_bits_source), .auto_tl_out_a_bits_address (fixer_auto_anon_in_5_a_bits_address), .auto_tl_out_a_bits_mask (fixer_auto_anon_in_5_a_bits_mask), .auto_tl_out_a_bits_data (fixer_auto_anon_in_5_a_bits_data), .auto_tl_out_a_bits_corrupt (fixer_auto_anon_in_5_a_bits_corrupt), .auto_tl_out_b_ready (fixer_auto_anon_in_5_b_ready), .auto_tl_out_b_valid (fixer_auto_anon_in_5_b_valid), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_param (fixer_auto_anon_in_5_b_bits_param), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_source (fixer_auto_anon_in_5_b_bits_source), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_address (fixer_auto_anon_in_5_b_bits_address), // @[FIFOFixer.scala:50:9] .auto_tl_out_c_ready (fixer_auto_anon_in_5_c_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_c_valid (fixer_auto_anon_in_5_c_valid), .auto_tl_out_c_bits_opcode (fixer_auto_anon_in_5_c_bits_opcode), .auto_tl_out_c_bits_param (fixer_auto_anon_in_5_c_bits_param), .auto_tl_out_c_bits_size (fixer_auto_anon_in_5_c_bits_size), .auto_tl_out_c_bits_source (fixer_auto_anon_in_5_c_bits_source), .auto_tl_out_c_bits_address (fixer_auto_anon_in_5_c_bits_address), .auto_tl_out_c_bits_data (fixer_auto_anon_in_5_c_bits_data), .auto_tl_out_c_bits_corrupt (fixer_auto_anon_in_5_c_bits_corrupt), .auto_tl_out_d_ready (fixer_auto_anon_in_5_d_ready), .auto_tl_out_d_valid (fixer_auto_anon_in_5_d_valid), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_opcode (fixer_auto_anon_in_5_d_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_param (fixer_auto_anon_in_5_d_bits_param), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_size (fixer_auto_anon_in_5_d_bits_size), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_source (fixer_auto_anon_in_5_d_bits_source), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_sink (fixer_auto_anon_in_5_d_bits_sink), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_denied (fixer_auto_anon_in_5_d_bits_denied), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_data (fixer_auto_anon_in_5_d_bits_data), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_corrupt (fixer_auto_anon_in_5_d_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_tl_out_e_ready (fixer_auto_anon_in_5_e_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_e_valid (fixer_auto_anon_in_5_e_valid), .auto_tl_out_e_bits_sink (fixer_auto_anon_in_5_e_bits_sink) ); // @[LazyScope.scala:98:27] TLInterconnectCoupler_sbus_to_sport_named_rerocc_3 coupler_to_sport_named_rerocc_3 ( // @[LazyScope.scala:98:27] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset) // @[LazyModuleImp.scala:158:31] ); // @[LazyScope.scala:98:27] TLInterconnectCoupler_sbus_from_port_named_rerocc_4 coupler_from_port_named_rerocc_4 ( // @[LazyScope.scala:98:27] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset), // @[LazyModuleImp.scala:158:31] .auto_buffer_in_a_ready (auto_coupler_from_port_named_rerocc_4_buffer_in_a_ready_0), .auto_buffer_in_a_valid (auto_coupler_from_port_named_rerocc_4_buffer_in_a_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_opcode (auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_opcode_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_param (auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_param_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_size (auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_size_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_source (auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_source_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_address (auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_address_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_mask (auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_mask_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_data (auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_data_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_a_bits_corrupt (auto_coupler_from_port_named_rerocc_4_buffer_in_a_bits_corrupt_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_b_ready (auto_coupler_from_port_named_rerocc_4_buffer_in_b_ready_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_b_valid (auto_coupler_from_port_named_rerocc_4_buffer_in_b_valid_0), .auto_buffer_in_b_bits_opcode (auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_opcode_0), .auto_buffer_in_b_bits_param (auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_param_0), .auto_buffer_in_b_bits_size (auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_size_0), .auto_buffer_in_b_bits_source (auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_source_0), .auto_buffer_in_b_bits_address (auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_address_0), .auto_buffer_in_b_bits_mask (auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_mask_0), .auto_buffer_in_b_bits_data (auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_data_0), .auto_buffer_in_b_bits_corrupt (auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_corrupt_0), .auto_buffer_in_c_ready (auto_coupler_from_port_named_rerocc_4_buffer_in_c_ready_0), .auto_buffer_in_c_valid (auto_coupler_from_port_named_rerocc_4_buffer_in_c_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_opcode (auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_opcode_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_param (auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_param_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_size (auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_size_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_source (auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_source_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_address (auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_address_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_data (auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_data_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_c_bits_corrupt (auto_coupler_from_port_named_rerocc_4_buffer_in_c_bits_corrupt_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_d_ready (auto_coupler_from_port_named_rerocc_4_buffer_in_d_ready_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_d_valid (auto_coupler_from_port_named_rerocc_4_buffer_in_d_valid_0), .auto_buffer_in_d_bits_opcode (auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_opcode_0), .auto_buffer_in_d_bits_param (auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_param_0), .auto_buffer_in_d_bits_size (auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_size_0), .auto_buffer_in_d_bits_source (auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_source_0), .auto_buffer_in_d_bits_sink (auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_sink_0), .auto_buffer_in_d_bits_denied (auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_denied_0), .auto_buffer_in_d_bits_data (auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_data_0), .auto_buffer_in_d_bits_corrupt (auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_corrupt_0), .auto_buffer_in_e_ready (auto_coupler_from_port_named_rerocc_4_buffer_in_e_ready_0), .auto_buffer_in_e_valid (auto_coupler_from_port_named_rerocc_4_buffer_in_e_valid_0), // @[ClockDomain.scala:14:9] .auto_buffer_in_e_bits_sink (auto_coupler_from_port_named_rerocc_4_buffer_in_e_bits_sink_0), // @[ClockDomain.scala:14:9] .auto_tl_out_a_ready (fixer_auto_anon_in_6_a_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_a_valid (fixer_auto_anon_in_6_a_valid), .auto_tl_out_a_bits_opcode (fixer_auto_anon_in_6_a_bits_opcode), .auto_tl_out_a_bits_param (fixer_auto_anon_in_6_a_bits_param), .auto_tl_out_a_bits_size (fixer_auto_anon_in_6_a_bits_size), .auto_tl_out_a_bits_source (fixer_auto_anon_in_6_a_bits_source), .auto_tl_out_a_bits_address (fixer_auto_anon_in_6_a_bits_address), .auto_tl_out_a_bits_mask (fixer_auto_anon_in_6_a_bits_mask), .auto_tl_out_a_bits_data (fixer_auto_anon_in_6_a_bits_data), .auto_tl_out_a_bits_corrupt (fixer_auto_anon_in_6_a_bits_corrupt), .auto_tl_out_b_ready (fixer_auto_anon_in_6_b_ready), .auto_tl_out_b_valid (fixer_auto_anon_in_6_b_valid), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_param (fixer_auto_anon_in_6_b_bits_param), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_source (fixer_auto_anon_in_6_b_bits_source), // @[FIFOFixer.scala:50:9] .auto_tl_out_b_bits_address (fixer_auto_anon_in_6_b_bits_address), // @[FIFOFixer.scala:50:9] .auto_tl_out_c_ready (fixer_auto_anon_in_6_c_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_c_valid (fixer_auto_anon_in_6_c_valid), .auto_tl_out_c_bits_opcode (fixer_auto_anon_in_6_c_bits_opcode), .auto_tl_out_c_bits_param (fixer_auto_anon_in_6_c_bits_param), .auto_tl_out_c_bits_size (fixer_auto_anon_in_6_c_bits_size), .auto_tl_out_c_bits_source (fixer_auto_anon_in_6_c_bits_source), .auto_tl_out_c_bits_address (fixer_auto_anon_in_6_c_bits_address), .auto_tl_out_c_bits_data (fixer_auto_anon_in_6_c_bits_data), .auto_tl_out_c_bits_corrupt (fixer_auto_anon_in_6_c_bits_corrupt), .auto_tl_out_d_ready (fixer_auto_anon_in_6_d_ready), .auto_tl_out_d_valid (fixer_auto_anon_in_6_d_valid), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_opcode (fixer_auto_anon_in_6_d_bits_opcode), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_param (fixer_auto_anon_in_6_d_bits_param), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_size (fixer_auto_anon_in_6_d_bits_size), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_source (fixer_auto_anon_in_6_d_bits_source), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_sink (fixer_auto_anon_in_6_d_bits_sink), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_denied (fixer_auto_anon_in_6_d_bits_denied), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_data (fixer_auto_anon_in_6_d_bits_data), // @[FIFOFixer.scala:50:9] .auto_tl_out_d_bits_corrupt (fixer_auto_anon_in_6_d_bits_corrupt), // @[FIFOFixer.scala:50:9] .auto_tl_out_e_ready (fixer_auto_anon_in_6_e_ready), // @[FIFOFixer.scala:50:9] .auto_tl_out_e_valid (fixer_auto_anon_in_6_e_valid), .auto_tl_out_e_bits_sink (fixer_auto_anon_in_6_e_bits_sink) ); // @[LazyScope.scala:98:27] TLInterconnectCoupler_sbus_to_sport_named_rerocc_4 coupler_to_sport_named_rerocc_4 ( // @[LazyScope.scala:98:27] .clock (childClock), // @[LazyModuleImp.scala:155:31] .reset (childReset) // @[LazyModuleImp.scala:158:31] ); // @[LazyScope.scala:98:27] assign auto_coupler_from_port_named_rerocc_4_buffer_in_a_ready = auto_coupler_from_port_named_rerocc_4_buffer_in_a_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_b_valid = auto_coupler_from_port_named_rerocc_4_buffer_in_b_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_opcode = auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_param = auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_size = auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_source = auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_address = auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_address_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_mask = auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_mask_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_data = auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_corrupt = auto_coupler_from_port_named_rerocc_4_buffer_in_b_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_c_ready = auto_coupler_from_port_named_rerocc_4_buffer_in_c_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_d_valid = auto_coupler_from_port_named_rerocc_4_buffer_in_d_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_opcode = auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_param = auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_size = auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_source = auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_sink = auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_denied = auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_data = auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_corrupt = auto_coupler_from_port_named_rerocc_4_buffer_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_4_buffer_in_e_ready = auto_coupler_from_port_named_rerocc_4_buffer_in_e_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_a_ready = auto_coupler_from_port_named_rerocc_3_buffer_in_a_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_b_valid = auto_coupler_from_port_named_rerocc_3_buffer_in_b_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_opcode = auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_param = auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_size = auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_source = auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_address = auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_address_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_mask = auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_mask_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_data = auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_corrupt = auto_coupler_from_port_named_rerocc_3_buffer_in_b_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_c_ready = auto_coupler_from_port_named_rerocc_3_buffer_in_c_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_d_valid = auto_coupler_from_port_named_rerocc_3_buffer_in_d_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_opcode = auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_param = auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_size = auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_source = auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_sink = auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_denied = auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_data = auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_corrupt = auto_coupler_from_port_named_rerocc_3_buffer_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_3_buffer_in_e_ready = auto_coupler_from_port_named_rerocc_3_buffer_in_e_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_a_ready = auto_coupler_from_port_named_rerocc_2_buffer_in_a_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_b_valid = auto_coupler_from_port_named_rerocc_2_buffer_in_b_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_opcode = auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_param = auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_size = auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_source = auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_address = auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_address_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_mask = auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_mask_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_data = auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_corrupt = auto_coupler_from_port_named_rerocc_2_buffer_in_b_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_c_ready = auto_coupler_from_port_named_rerocc_2_buffer_in_c_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_d_valid = auto_coupler_from_port_named_rerocc_2_buffer_in_d_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_opcode = auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_param = auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_size = auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_source = auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_sink = auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_denied = auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_data = auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_corrupt = auto_coupler_from_port_named_rerocc_2_buffer_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_2_buffer_in_e_ready = auto_coupler_from_port_named_rerocc_2_buffer_in_e_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_a_ready = auto_coupler_from_port_named_rerocc_1_buffer_in_a_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_b_valid = auto_coupler_from_port_named_rerocc_1_buffer_in_b_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_opcode = auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_param = auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_size = auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_source = auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_address = auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_address_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_mask = auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_mask_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_data = auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_corrupt = auto_coupler_from_port_named_rerocc_1_buffer_in_b_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_c_ready = auto_coupler_from_port_named_rerocc_1_buffer_in_c_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_d_valid = auto_coupler_from_port_named_rerocc_1_buffer_in_d_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_opcode = auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_param = auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_size = auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_source = auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_sink = auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_denied = auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_data = auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_corrupt = auto_coupler_from_port_named_rerocc_1_buffer_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_1_buffer_in_e_ready = auto_coupler_from_port_named_rerocc_1_buffer_in_e_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_a_ready = auto_coupler_from_port_named_rerocc_0_buffer_in_a_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_b_valid = auto_coupler_from_port_named_rerocc_0_buffer_in_b_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_opcode = auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_param = auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_size = auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_source = auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_address = auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_address_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_mask = auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_mask_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_data = auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_corrupt = auto_coupler_from_port_named_rerocc_0_buffer_in_b_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_c_ready = auto_coupler_from_port_named_rerocc_0_buffer_in_c_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_d_valid = auto_coupler_from_port_named_rerocc_0_buffer_in_d_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_opcode = auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_param = auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_size = auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_source = auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_sink = auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_denied = auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_data = auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_corrupt = auto_coupler_from_port_named_rerocc_0_buffer_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_port_named_rerocc_0_buffer_in_e_ready = auto_coupler_from_port_named_rerocc_0_buffer_in_e_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_a_ready = auto_coupler_from_rockettile_tl_master_clock_xing_in_a_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_b_valid = auto_coupler_from_rockettile_tl_master_clock_xing_in_b_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_param = auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_source = auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_address = auto_coupler_from_rockettile_tl_master_clock_xing_in_b_bits_address_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_c_ready = auto_coupler_from_rockettile_tl_master_clock_xing_in_c_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_valid = auto_coupler_from_rockettile_tl_master_clock_xing_in_d_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_opcode = auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_param = auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_size = auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_source = auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_sink = auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_denied = auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_data = auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_corrupt = auto_coupler_from_rockettile_tl_master_clock_xing_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_rockettile_tl_master_clock_xing_in_e_ready = auto_coupler_from_rockettile_tl_master_clock_xing_in_e_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_valid = auto_coupler_to_bus_named_coh_widget_anon_out_a_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_opcode = auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_param = auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_size = auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_source = auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_address = auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_address_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_mask = auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_mask_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_data = auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_corrupt = auto_coupler_to_bus_named_coh_widget_anon_out_a_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_b_ready = auto_coupler_to_bus_named_coh_widget_anon_out_b_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_valid = auto_coupler_to_bus_named_coh_widget_anon_out_c_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_opcode = auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_param = auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_size = auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_source = auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_address = auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_address_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_data = auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_corrupt = auto_coupler_to_bus_named_coh_widget_anon_out_c_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_d_ready = auto_coupler_to_bus_named_coh_widget_anon_out_d_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_e_valid = auto_coupler_to_bus_named_coh_widget_anon_out_e_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_coh_widget_anon_out_e_bits_sink = auto_coupler_to_bus_named_coh_widget_anon_out_e_bits_sink_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_bus_named_fbus_bus_xing_in_a_ready = auto_coupler_from_bus_named_fbus_bus_xing_in_a_ready_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_valid = auto_coupler_from_bus_named_fbus_bus_xing_in_d_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_opcode = auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_param = auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_size = auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_source = auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_sink = auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_sink_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_denied = auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_denied_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_data = auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_corrupt = auto_coupler_from_bus_named_fbus_bus_xing_in_d_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_valid = auto_coupler_to_bus_named_cbus_bus_xing_out_a_valid_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_opcode = auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_opcode_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_param = auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_param_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_size = auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_size_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_source = auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_source_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_address = auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_address_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_mask = auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_mask_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_data = auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_data_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_corrupt = auto_coupler_to_bus_named_cbus_bus_xing_out_a_bits_corrupt_0; // @[ClockDomain.scala:14:9] assign auto_coupler_to_bus_named_cbus_bus_xing_out_d_ready = auto_coupler_to_bus_named_cbus_bus_xing_out_d_ready_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_8_clock = auto_fixedClockNode_anon_out_8_clock_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_8_reset = auto_fixedClockNode_anon_out_8_reset_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_7_clock = auto_fixedClockNode_anon_out_7_clock_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_7_reset = auto_fixedClockNode_anon_out_7_reset_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_6_clock = auto_fixedClockNode_anon_out_6_clock_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_6_reset = auto_fixedClockNode_anon_out_6_reset_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_5_clock = auto_fixedClockNode_anon_out_5_clock_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_5_reset = auto_fixedClockNode_anon_out_5_reset_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_4_clock = auto_fixedClockNode_anon_out_4_clock_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_4_reset = auto_fixedClockNode_anon_out_4_reset_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_3_clock = auto_fixedClockNode_anon_out_3_clock_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_3_reset = auto_fixedClockNode_anon_out_3_reset_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_2_clock = auto_fixedClockNode_anon_out_2_clock_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_2_reset = auto_fixedClockNode_anon_out_2_reset_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_1_clock = auto_fixedClockNode_anon_out_1_clock_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_1_reset = auto_fixedClockNode_anon_out_1_reset_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_0_clock = auto_fixedClockNode_anon_out_0_clock_0; // @[ClockDomain.scala:14:9] assign auto_fixedClockNode_anon_out_0_reset = auto_fixedClockNode_anon_out_0_reset_0; // @[ClockDomain.scala:14:9] assign auto_sbus_clock_groups_out_member_coh_0_clock = auto_sbus_clock_groups_out_member_coh_0_clock_0; // @[ClockDomain.scala:14:9] assign auto_sbus_clock_groups_out_member_coh_0_reset = auto_sbus_clock_groups_out_member_coh_0_reset_0; // @[ClockDomain.scala:14:9] endmodule
Generate the Verilog code corresponding to the following Chisel files. File ClockDomain.scala: package freechips.rocketchip.prci import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ abstract class Domain(implicit p: Parameters) extends LazyModule with HasDomainCrossing { def clockBundle: ClockBundle lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { childClock := clockBundle.clock childReset := clockBundle.reset override def provideImplicitClockToLazyChildren = true // these are just for backwards compatibility with external devices // that were manually wiring themselves to the domain's clock/reset input: val clock = IO(Output(chiselTypeOf(clockBundle.clock))) val reset = IO(Output(chiselTypeOf(clockBundle.reset))) clock := clockBundle.clock reset := clockBundle.reset } } abstract class ClockDomain(implicit p: Parameters) extends Domain with HasClockDomainCrossing class ClockSinkDomain(val clockSinkParams: ClockSinkParameters)(implicit p: Parameters) extends ClockDomain { def this(take: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSinkParameters(take = take, name = name)) val clockNode = ClockSinkNode(Seq(clockSinkParams)) def clockBundle = clockNode.in.head._1 override lazy val desiredName = (clockSinkParams.name.toSeq :+ "ClockSinkDomain").mkString } class ClockSourceDomain(val clockSourceParams: ClockSourceParameters)(implicit p: Parameters) extends ClockDomain { def this(give: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSourceParameters(give = give, name = name)) val clockNode = ClockSourceNode(Seq(clockSourceParams)) def clockBundle = clockNode.out.head._1 override lazy val desiredName = (clockSourceParams.name.toSeq :+ "ClockSourceDomain").mkString } abstract class ResetDomain(implicit p: Parameters) extends Domain with HasResetDomainCrossing File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File NoC.scala: package constellation.noc import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.{Field, Parameters} import freechips.rocketchip.diplomacy.{LazyModule, LazyModuleImp, BundleBridgeSink, InModuleBody} import freechips.rocketchip.util.ElaborationArtefacts import freechips.rocketchip.prci._ import constellation.router._ import constellation.channel._ import constellation.routing.{RoutingRelation, ChannelRoutingInfo} import constellation.topology.{PhysicalTopology, UnidirectionalLine} class NoCTerminalIO( val ingressParams: Seq[IngressChannelParams], val egressParams: Seq[EgressChannelParams])(implicit val p: Parameters) extends Bundle { val ingress = MixedVec(ingressParams.map { u => Flipped(new IngressChannel(u)) }) val egress = MixedVec(egressParams.map { u => new EgressChannel(u) }) } class NoC(nocParams: NoCParams)(implicit p: Parameters) extends LazyModule { override def shouldBeInlined = nocParams.inlineNoC val internalParams = InternalNoCParams(nocParams) val allChannelParams = internalParams.channelParams val allIngressParams = internalParams.ingressParams val allEgressParams = internalParams.egressParams val allRouterParams = internalParams.routerParams val iP = p.alterPartial({ case InternalNoCKey => internalParams }) val nNodes = nocParams.topology.nNodes val nocName = nocParams.nocName val skipValidationChecks = nocParams.skipValidationChecks val clockSourceNodes = Seq.tabulate(nNodes) { i => ClockSourceNode(Seq(ClockSourceParameters())) } val router_sink_domains = Seq.tabulate(nNodes) { i => val router_sink_domain = LazyModule(new ClockSinkDomain(ClockSinkParameters( name = Some(s"${nocName}_router_$i") ))) router_sink_domain.clockNode := clockSourceNodes(i) router_sink_domain } val routers = Seq.tabulate(nNodes) { i => router_sink_domains(i) { val inParams = allChannelParams.filter(_.destId == i).map( _.copy(payloadBits=allRouterParams(i).user.payloadBits) ) val outParams = allChannelParams.filter(_.srcId == i).map( _.copy(payloadBits=allRouterParams(i).user.payloadBits) ) val ingressParams = allIngressParams.filter(_.destId == i).map( _.copy(payloadBits=allRouterParams(i).user.payloadBits) ) val egressParams = allEgressParams.filter(_.srcId == i).map( _.copy(payloadBits=allRouterParams(i).user.payloadBits) ) val noIn = inParams.size + ingressParams.size == 0 val noOut = outParams.size + egressParams.size == 0 if (noIn || noOut) { println(s"Constellation WARNING: $nocName router $i seems to be unused, it will not be generated") None } else { Some(LazyModule(new Router( routerParams = allRouterParams(i), preDiplomaticInParams = inParams, preDiplomaticIngressParams = ingressParams, outDests = outParams.map(_.destId), egressIds = egressParams.map(_.egressId) )(iP))) } }}.flatten val ingressNodes = allIngressParams.map { u => IngressChannelSourceNode(u.destId) } val egressNodes = allEgressParams.map { u => EgressChannelDestNode(u) } // Generate channels between routers diplomatically Seq.tabulate(nNodes, nNodes) { case (i, j) => if (i != j) { val routerI = routers.find(_.nodeId == i) val routerJ = routers.find(_.nodeId == j) if (routerI.isDefined && routerJ.isDefined) { val sourceNodes: Seq[ChannelSourceNode] = routerI.get.sourceNodes.filter(_.destId == j) val destNodes: Seq[ChannelDestNode] = routerJ.get.destNodes.filter(_.destParams.srcId == i) require (sourceNodes.size == destNodes.size) (sourceNodes zip destNodes).foreach { case (src, dst) => val channelParam = allChannelParams.find(c => c.srcId == i && c.destId == j).get router_sink_domains(j) { implicit val p: Parameters = iP (dst := ChannelWidthWidget(routerJ.get.payloadBits, routerI.get.payloadBits) := channelParam.channelGen(p)(src) ) } } } }} // Generate terminal channels diplomatically routers.foreach { dst => router_sink_domains(dst.nodeId) { implicit val p: Parameters = iP dst.ingressNodes.foreach(n => { val ingressId = n.destParams.ingressId require(dst.payloadBits <= allIngressParams(ingressId).payloadBits) (n := IngressWidthWidget(dst.payloadBits, allIngressParams(ingressId).payloadBits) := ingressNodes(ingressId) ) }) dst.egressNodes.foreach(n => { val egressId = n.egressId require(dst.payloadBits <= allEgressParams(egressId).payloadBits) (egressNodes(egressId) := EgressWidthWidget(allEgressParams(egressId).payloadBits, dst.payloadBits) := n ) }) }} val debugNodes = routers.map { r => val sink = BundleBridgeSink[DebugBundle]() sink := r.debugNode sink } val ctrlNodes = if (nocParams.hasCtrl) { (0 until nNodes).map { i => routers.find(_.nodeId == i).map { r => val sink = BundleBridgeSink[RouterCtrlBundle]() sink := r.ctrlNode.get sink } } } else { Nil } println(s"Constellation: $nocName Finished parameter validation") lazy val module = new Impl class Impl extends LazyModuleImp(this) { println(s"Constellation: $nocName Starting NoC RTL generation") val io = IO(new NoCTerminalIO(allIngressParams, allEgressParams)(iP) { val router_clocks = Vec(nNodes, Input(new ClockBundle(ClockBundleParameters()))) val router_ctrl = if (nocParams.hasCtrl) Vec(nNodes, new RouterCtrlBundle) else Nil }) (io.ingress zip ingressNodes.map(_.out(0)._1)).foreach { case (l,r) => r <> l } (io.egress zip egressNodes .map(_.in (0)._1)).foreach { case (l,r) => l <> r } (io.router_clocks zip clockSourceNodes.map(_.out(0)._1)).foreach { case (l,r) => l <> r } if (nocParams.hasCtrl) { ctrlNodes.zipWithIndex.map { case (c,i) => if (c.isDefined) { io.router_ctrl(i) <> c.get.in(0)._1 } else { io.router_ctrl(i) <> DontCare } } } // TODO: These assume a single clock-domain across the entire noc val debug_va_stall_ctr = RegInit(0.U(64.W)) val debug_sa_stall_ctr = RegInit(0.U(64.W)) val debug_any_stall_ctr = debug_va_stall_ctr + debug_sa_stall_ctr debug_va_stall_ctr := debug_va_stall_ctr + debugNodes.map(_.in(0)._1.va_stall.reduce(_+_)).reduce(_+_) debug_sa_stall_ctr := debug_sa_stall_ctr + debugNodes.map(_.in(0)._1.sa_stall.reduce(_+_)).reduce(_+_) dontTouch(debug_va_stall_ctr) dontTouch(debug_sa_stall_ctr) dontTouch(debug_any_stall_ctr) def prepend(s: String) = Seq(nocName, s).mkString(".") ElaborationArtefacts.add(prepend("noc.graphml"), graphML) val adjList = routers.map { r => val outs = r.outParams.map(o => s"${o.destId}").mkString(" ") val egresses = r.egressParams.map(e => s"e${e.egressId}").mkString(" ") val ingresses = r.ingressParams.map(i => s"i${i.ingressId} ${r.nodeId}") (Seq(s"${r.nodeId} $outs $egresses") ++ ingresses).mkString("\n") }.mkString("\n") ElaborationArtefacts.add(prepend("noc.adjlist"), adjList) val xys = routers.map(r => { val n = r.nodeId val ids = (Seq(r.nodeId.toString) ++ r.egressParams.map(e => s"e${e.egressId}") ++ r.ingressParams.map(i => s"i${i.ingressId}") ) val plotter = nocParams.topology.plotter val coords = (Seq(plotter.node(r.nodeId)) ++ Seq.tabulate(r.egressParams.size ) { i => plotter. egress(i, r. egressParams.size, r.nodeId) } ++ Seq.tabulate(r.ingressParams.size) { i => plotter.ingress(i, r.ingressParams.size, r.nodeId) } ) (ids zip coords).map { case (i, (x, y)) => s"$i $x $y" }.mkString("\n") }).mkString("\n") ElaborationArtefacts.add(prepend("noc.xy"), xys) val edgeProps = routers.map { r => val outs = r.outParams.map { o => (Seq(s"${r.nodeId} ${o.destId}") ++ (if (o.possibleFlows.size == 0) Some("unused") else None)) .mkString(" ") } val egresses = r.egressParams.map { e => (Seq(s"${r.nodeId} e${e.egressId}") ++ (if (e.possibleFlows.size == 0) Some("unused") else None)) .mkString(" ") } val ingresses = r.ingressParams.map { i => (Seq(s"i${i.ingressId} ${r.nodeId}") ++ (if (i.possibleFlows.size == 0) Some("unused") else None)) .mkString(" ") } (outs ++ egresses ++ ingresses).mkString("\n") }.mkString("\n") ElaborationArtefacts.add(prepend("noc.edgeprops"), edgeProps) println(s"Constellation: $nocName Finished NoC RTL generation") } }
module TLNoC_router_6ClockSinkDomain( // @[ClockDomain.scala:14:9] output [3:0] auto_routers_debug_out_va_stall_0, // @[LazyModuleImp.scala:107:25] output [3:0] auto_routers_debug_out_va_stall_1, // @[LazyModuleImp.scala:107:25] output [3:0] auto_routers_debug_out_va_stall_2, // @[LazyModuleImp.scala:107:25] output [3:0] auto_routers_debug_out_sa_stall_0, // @[LazyModuleImp.scala:107:25] output [3:0] auto_routers_debug_out_sa_stall_1, // @[LazyModuleImp.scala:107:25] output [3:0] auto_routers_debug_out_sa_stall_2, // @[LazyModuleImp.scala:107:25] output auto_routers_egress_nodes_out_2_flit_valid, // @[LazyModuleImp.scala:107:25] output auto_routers_egress_nodes_out_2_flit_bits_head, // @[LazyModuleImp.scala:107:25] output auto_routers_egress_nodes_out_2_flit_bits_tail, // @[LazyModuleImp.scala:107:25] output [72:0] auto_routers_egress_nodes_out_2_flit_bits_payload, // @[LazyModuleImp.scala:107:25] input auto_routers_egress_nodes_out_1_flit_ready, // @[LazyModuleImp.scala:107:25] output auto_routers_egress_nodes_out_1_flit_valid, // @[LazyModuleImp.scala:107:25] output auto_routers_egress_nodes_out_1_flit_bits_head, // @[LazyModuleImp.scala:107:25] output auto_routers_egress_nodes_out_1_flit_bits_tail, // @[LazyModuleImp.scala:107:25] output [72:0] auto_routers_egress_nodes_out_1_flit_bits_payload, // @[LazyModuleImp.scala:107:25] input auto_routers_egress_nodes_out_0_flit_ready, // @[LazyModuleImp.scala:107:25] output auto_routers_egress_nodes_out_0_flit_valid, // @[LazyModuleImp.scala:107:25] output auto_routers_egress_nodes_out_0_flit_bits_head, // @[LazyModuleImp.scala:107:25] output auto_routers_egress_nodes_out_0_flit_bits_tail, // @[LazyModuleImp.scala:107:25] output [72:0] auto_routers_egress_nodes_out_0_flit_bits_payload, // @[LazyModuleImp.scala:107:25] output auto_routers_ingress_nodes_in_1_flit_ready, // @[LazyModuleImp.scala:107:25] input auto_routers_ingress_nodes_in_1_flit_valid, // @[LazyModuleImp.scala:107:25] input auto_routers_ingress_nodes_in_1_flit_bits_head, // @[LazyModuleImp.scala:107:25] input auto_routers_ingress_nodes_in_1_flit_bits_tail, // @[LazyModuleImp.scala:107:25] input [72:0] auto_routers_ingress_nodes_in_1_flit_bits_payload, // @[LazyModuleImp.scala:107:25] input [3:0] auto_routers_ingress_nodes_in_1_flit_bits_egress_id, // @[LazyModuleImp.scala:107:25] output auto_routers_ingress_nodes_in_0_flit_ready, // @[LazyModuleImp.scala:107:25] input auto_routers_ingress_nodes_in_0_flit_valid, // @[LazyModuleImp.scala:107:25] input auto_routers_ingress_nodes_in_0_flit_bits_head, // @[LazyModuleImp.scala:107:25] input auto_routers_ingress_nodes_in_0_flit_bits_tail, // @[LazyModuleImp.scala:107:25] input [72:0] auto_routers_ingress_nodes_in_0_flit_bits_payload, // @[LazyModuleImp.scala:107:25] input [3:0] auto_routers_ingress_nodes_in_0_flit_bits_egress_id, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_flit_0_valid, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_flit_0_bits_head, // @[LazyModuleImp.scala:107:25] output auto_routers_source_nodes_out_flit_0_bits_tail, // @[LazyModuleImp.scala:107:25] output [72:0] auto_routers_source_nodes_out_flit_0_bits_payload, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_source_nodes_out_flit_0_bits_flow_vnet_id, // @[LazyModuleImp.scala:107:25] output [3:0] auto_routers_source_nodes_out_flit_0_bits_flow_ingress_node, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_source_nodes_out_flit_0_bits_flow_ingress_node_id, // @[LazyModuleImp.scala:107:25] output [3:0] auto_routers_source_nodes_out_flit_0_bits_flow_egress_node, // @[LazyModuleImp.scala:107:25] output [2:0] auto_routers_source_nodes_out_flit_0_bits_flow_egress_node_id, // @[LazyModuleImp.scala:107:25] output [3:0] auto_routers_source_nodes_out_flit_0_bits_virt_channel_id, // @[LazyModuleImp.scala:107:25] input [9:0] auto_routers_source_nodes_out_credit_return, // @[LazyModuleImp.scala:107:25] input [9:0] auto_routers_source_nodes_out_vc_free, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_flit_0_valid, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_flit_0_bits_head, // @[LazyModuleImp.scala:107:25] input auto_routers_dest_nodes_in_flit_0_bits_tail, // @[LazyModuleImp.scala:107:25] input [72:0] auto_routers_dest_nodes_in_flit_0_bits_payload, // @[LazyModuleImp.scala:107:25] input [2:0] auto_routers_dest_nodes_in_flit_0_bits_flow_vnet_id, // @[LazyModuleImp.scala:107:25] input [3:0] auto_routers_dest_nodes_in_flit_0_bits_flow_ingress_node, // @[LazyModuleImp.scala:107:25] input [2:0] auto_routers_dest_nodes_in_flit_0_bits_flow_ingress_node_id, // @[LazyModuleImp.scala:107:25] input [3:0] auto_routers_dest_nodes_in_flit_0_bits_flow_egress_node, // @[LazyModuleImp.scala:107:25] input [2:0] auto_routers_dest_nodes_in_flit_0_bits_flow_egress_node_id, // @[LazyModuleImp.scala:107:25] input [3:0] auto_routers_dest_nodes_in_flit_0_bits_virt_channel_id, // @[LazyModuleImp.scala:107:25] output [9:0] auto_routers_dest_nodes_in_credit_return, // @[LazyModuleImp.scala:107:25] output [9:0] auto_routers_dest_nodes_in_vc_free, // @[LazyModuleImp.scala:107:25] input auto_clock_in_clock, // @[LazyModuleImp.scala:107:25] input auto_clock_in_reset // @[LazyModuleImp.scala:107:25] ); Router_6 routers ( // @[NoC.scala:67:22] .clock (auto_clock_in_clock), .reset (auto_clock_in_reset), .auto_debug_out_va_stall_0 (auto_routers_debug_out_va_stall_0), .auto_debug_out_va_stall_1 (auto_routers_debug_out_va_stall_1), .auto_debug_out_va_stall_2 (auto_routers_debug_out_va_stall_2), .auto_debug_out_sa_stall_0 (auto_routers_debug_out_sa_stall_0), .auto_debug_out_sa_stall_1 (auto_routers_debug_out_sa_stall_1), .auto_debug_out_sa_stall_2 (auto_routers_debug_out_sa_stall_2), .auto_egress_nodes_out_2_flit_valid (auto_routers_egress_nodes_out_2_flit_valid), .auto_egress_nodes_out_2_flit_bits_head (auto_routers_egress_nodes_out_2_flit_bits_head), .auto_egress_nodes_out_2_flit_bits_tail (auto_routers_egress_nodes_out_2_flit_bits_tail), .auto_egress_nodes_out_2_flit_bits_payload (auto_routers_egress_nodes_out_2_flit_bits_payload), .auto_egress_nodes_out_1_flit_ready (auto_routers_egress_nodes_out_1_flit_ready), .auto_egress_nodes_out_1_flit_valid (auto_routers_egress_nodes_out_1_flit_valid), .auto_egress_nodes_out_1_flit_bits_head (auto_routers_egress_nodes_out_1_flit_bits_head), .auto_egress_nodes_out_1_flit_bits_tail (auto_routers_egress_nodes_out_1_flit_bits_tail), .auto_egress_nodes_out_1_flit_bits_payload (auto_routers_egress_nodes_out_1_flit_bits_payload), .auto_egress_nodes_out_0_flit_ready (auto_routers_egress_nodes_out_0_flit_ready), .auto_egress_nodes_out_0_flit_valid (auto_routers_egress_nodes_out_0_flit_valid), .auto_egress_nodes_out_0_flit_bits_head (auto_routers_egress_nodes_out_0_flit_bits_head), .auto_egress_nodes_out_0_flit_bits_tail (auto_routers_egress_nodes_out_0_flit_bits_tail), .auto_egress_nodes_out_0_flit_bits_payload (auto_routers_egress_nodes_out_0_flit_bits_payload), .auto_ingress_nodes_in_1_flit_ready (auto_routers_ingress_nodes_in_1_flit_ready), .auto_ingress_nodes_in_1_flit_valid (auto_routers_ingress_nodes_in_1_flit_valid), .auto_ingress_nodes_in_1_flit_bits_head (auto_routers_ingress_nodes_in_1_flit_bits_head), .auto_ingress_nodes_in_1_flit_bits_tail (auto_routers_ingress_nodes_in_1_flit_bits_tail), .auto_ingress_nodes_in_1_flit_bits_payload (auto_routers_ingress_nodes_in_1_flit_bits_payload), .auto_ingress_nodes_in_1_flit_bits_egress_id (auto_routers_ingress_nodes_in_1_flit_bits_egress_id), .auto_ingress_nodes_in_0_flit_ready (auto_routers_ingress_nodes_in_0_flit_ready), .auto_ingress_nodes_in_0_flit_valid (auto_routers_ingress_nodes_in_0_flit_valid), .auto_ingress_nodes_in_0_flit_bits_head (auto_routers_ingress_nodes_in_0_flit_bits_head), .auto_ingress_nodes_in_0_flit_bits_tail (auto_routers_ingress_nodes_in_0_flit_bits_tail), .auto_ingress_nodes_in_0_flit_bits_payload (auto_routers_ingress_nodes_in_0_flit_bits_payload), .auto_ingress_nodes_in_0_flit_bits_egress_id (auto_routers_ingress_nodes_in_0_flit_bits_egress_id), .auto_source_nodes_out_flit_0_valid (auto_routers_source_nodes_out_flit_0_valid), .auto_source_nodes_out_flit_0_bits_head (auto_routers_source_nodes_out_flit_0_bits_head), .auto_source_nodes_out_flit_0_bits_tail (auto_routers_source_nodes_out_flit_0_bits_tail), .auto_source_nodes_out_flit_0_bits_payload (auto_routers_source_nodes_out_flit_0_bits_payload), .auto_source_nodes_out_flit_0_bits_flow_vnet_id (auto_routers_source_nodes_out_flit_0_bits_flow_vnet_id), .auto_source_nodes_out_flit_0_bits_flow_ingress_node (auto_routers_source_nodes_out_flit_0_bits_flow_ingress_node), .auto_source_nodes_out_flit_0_bits_flow_ingress_node_id (auto_routers_source_nodes_out_flit_0_bits_flow_ingress_node_id), .auto_source_nodes_out_flit_0_bits_flow_egress_node (auto_routers_source_nodes_out_flit_0_bits_flow_egress_node), .auto_source_nodes_out_flit_0_bits_flow_egress_node_id (auto_routers_source_nodes_out_flit_0_bits_flow_egress_node_id), .auto_source_nodes_out_flit_0_bits_virt_channel_id (auto_routers_source_nodes_out_flit_0_bits_virt_channel_id), .auto_source_nodes_out_credit_return (auto_routers_source_nodes_out_credit_return), .auto_source_nodes_out_vc_free (auto_routers_source_nodes_out_vc_free), .auto_dest_nodes_in_flit_0_valid (auto_routers_dest_nodes_in_flit_0_valid), .auto_dest_nodes_in_flit_0_bits_head (auto_routers_dest_nodes_in_flit_0_bits_head), .auto_dest_nodes_in_flit_0_bits_tail (auto_routers_dest_nodes_in_flit_0_bits_tail), .auto_dest_nodes_in_flit_0_bits_payload (auto_routers_dest_nodes_in_flit_0_bits_payload), .auto_dest_nodes_in_flit_0_bits_flow_vnet_id (auto_routers_dest_nodes_in_flit_0_bits_flow_vnet_id), .auto_dest_nodes_in_flit_0_bits_flow_ingress_node (auto_routers_dest_nodes_in_flit_0_bits_flow_ingress_node), .auto_dest_nodes_in_flit_0_bits_flow_ingress_node_id (auto_routers_dest_nodes_in_flit_0_bits_flow_ingress_node_id), .auto_dest_nodes_in_flit_0_bits_flow_egress_node (auto_routers_dest_nodes_in_flit_0_bits_flow_egress_node), .auto_dest_nodes_in_flit_0_bits_flow_egress_node_id (auto_routers_dest_nodes_in_flit_0_bits_flow_egress_node_id), .auto_dest_nodes_in_flit_0_bits_virt_channel_id (auto_routers_dest_nodes_in_flit_0_bits_virt_channel_id), .auto_dest_nodes_in_credit_return (auto_routers_dest_nodes_in_credit_return), .auto_dest_nodes_in_vc_free (auto_routers_dest_nodes_in_vc_free) ); // @[NoC.scala:67:22] endmodule
Generate the Verilog code corresponding to the following Chisel files. File sodor_internal_tile.scala: package sodor.common import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import freechips.rocketchip.subsystem._ import freechips.rocketchip.devices.tilelink._ import freechips.rocketchip.diplomacy._ import freechips.rocketchip.rocket._ import freechips.rocketchip.subsystem.{RocketCrossingParams} import freechips.rocketchip.tilelink._ import freechips.rocketchip.interrupts._ import freechips.rocketchip.util._ import freechips.rocketchip.tile._ import freechips.rocketchip.amba.axi4._ // Event sets for core CSR // This object simply disable all performance counters object CSREvents { val events = new EventSets(Seq(new EventSet((mask, hit) => false.B, Seq(("placeholder", () => false.B))))) } // Abstract core and tile base class for all cores abstract class AbstractCore extends Module { val mem_ports: Seq[MemPortIo] val interrupt: CoreInterrupts val hartid: UInt val reset_vector: UInt val io: Data } abstract class AbstractInternalTile(ports: Int)(implicit val p: Parameters, val conf: SodorCoreParams) extends Module { val io = IO(new Bundle { val debug_port = Flipped(new MemPortIo(data_width = conf.xprlen)) val master_port = Vec(ports, new MemPortIo(data_width = conf.xprlen)) val interrupt = Input(new CoreInterrupts(false)) val hartid = Input(UInt()) val reset_vector = Input(UInt()) }) } // Cores and internal tiles constructors trait SodorCoreFactory { def nMemPorts: Int def instantiate(implicit p: Parameters, conf: SodorCoreParams): AbstractCore } trait SodorInternalTileFactory { def nMemPorts: Int def instantiate(range: AddressSet)(implicit p: Parameters, conf: SodorCoreParams): AbstractInternalTile } // Original sodor tile in this repo. // This tile is only for 3-stage core since it has a special structure (SyncMem and possibly one memory port). class SodorInternalTileStage3(range: AddressSet, ports: Int)(implicit p: Parameters, conf: SodorCoreParams) extends AbstractInternalTile(ports) { // Core memory port val core = Module(new sodor.stage3.Core()) core.io := DontCare val core_ports = Wire(Vec(2, new MemPortIo(data_width = conf.xprlen))) core.io.imem <> core_ports(1) core.io.dmem <> core_ports(0) // scratchpad memory port val memory = Module(new SyncScratchPadMemory(num_core_ports = ports)) val mem_ports = Wire(Vec(2, new MemPortIo(data_width = conf.xprlen))) // master memory port val master_ports = Wire(Vec(2, new MemPortIo(data_width = conf.xprlen))) // Connect ports ((mem_ports zip core_ports) zip master_ports).foreach({ case ((mem_port, core_port), master_port) => { val router = Module(new SodorRequestRouter(range)) router.io.corePort <> core_port router.io.scratchPort <> mem_port router.io.masterPort <> master_port // For sync memory, use the request address from the previous cycle val reg_resp_address = Reg(UInt(conf.xprlen.W)) when (core_port.req.fire) { reg_resp_address := core_port.req.bits.addr } router.io.respAddress := reg_resp_address }}) // If we only use one port, arbitrate if (ports == 1) { // Arbitrate scratchpad val scratchpad_arbiter = Module(new sodor.stage3.SodorMemArbiter) mem_ports(1) <> scratchpad_arbiter.io.imem mem_ports(0) <> scratchpad_arbiter.io.dmem scratchpad_arbiter.io.mem <> memory.io.core_ports(0) // Arbitrate master val master_buffer = Module(new SameCycleRequestBuffer) val master_arbiter = Module(new sodor.stage3.SodorMemArbiter) master_ports(1) <> master_arbiter.io.imem master_ports(0) <> master_arbiter.io.dmem master_arbiter.io.mem <> master_buffer.io.in master_buffer.io.out <> io.master_port(0) } else { mem_ports(1) <> memory.io.core_ports(1) mem_ports(0) <> memory.io.core_ports(0) master_ports(1) <> io.master_port(1) master_ports(0) <> io.master_port(0) } memory.io.debug_port <> io.debug_port core.interrupt <> io.interrupt core.hartid := io.hartid core.reset_vector := io.reset_vector } // The general Sodor tile for all cores other than 3-stage class SodorInternalTile(range: AddressSet, coreCtor: SodorCoreFactory)(implicit p: Parameters, conf: SodorCoreParams) extends AbstractInternalTile(coreCtor.nMemPorts) { val core = Module(coreCtor.instantiate) core.io := DontCare val memory = Module(new AsyncScratchPadMemory(num_core_ports = coreCtor.nMemPorts)) val nMemPorts = coreCtor.nMemPorts ((memory.io.core_ports zip core.mem_ports) zip io.master_port).foreach({ case ((mem_port, core_port), master_port) => { val router = Module(new SodorRequestRouter(range)) router.io.corePort <> core_port router.io.scratchPort <> mem_port router.io.masterPort <> master_port // For async memory, simply use the current request address router.io.respAddress := core_port.req.bits.addr }}) io.debug_port <> memory.io.debug_port core.interrupt <> io.interrupt core.hartid := io.hartid core.reset_vector := io.reset_vector } // Tile constructor case object Stage1Factory extends SodorInternalTileFactory { case object Stage1CoreFactory extends SodorCoreFactory { val nMemPorts = 2 def instantiate(implicit p: Parameters, conf: SodorCoreParams) = new sodor.stage1.Core() } def nMemPorts = Stage1CoreFactory.nMemPorts def instantiate(range: AddressSet)(implicit p: Parameters, conf: SodorCoreParams) = new SodorInternalTile(range, Stage1CoreFactory) } case object Stage2Factory extends SodorInternalTileFactory { case object Stage2CoreFactory extends SodorCoreFactory { val nMemPorts = 2 def instantiate(implicit p: Parameters, conf: SodorCoreParams) = new sodor.stage2.Core() } def nMemPorts = Stage2CoreFactory.nMemPorts def instantiate(range: AddressSet)(implicit p: Parameters, conf: SodorCoreParams) = new SodorInternalTile(range, Stage2CoreFactory) } case class Stage3Factory(ports: Int = 2) extends SodorInternalTileFactory { def nMemPorts = ports def instantiate(range: AddressSet)(implicit p: Parameters, conf: SodorCoreParams) = new SodorInternalTileStage3(range, ports) } case object Stage5Factory extends SodorInternalTileFactory { case object Stage5CoreFactory extends SodorCoreFactory { val nMemPorts = 2 def instantiate(implicit p: Parameters, conf: SodorCoreParams) = new sodor.stage5.Core() } def nMemPorts = Stage5CoreFactory.nMemPorts def instantiate(range: AddressSet)(implicit p: Parameters, conf: SodorCoreParams) = new SodorInternalTile(range, Stage5CoreFactory) } case object UCodeFactory extends SodorInternalTileFactory { case object UCodeCoreFactory extends SodorCoreFactory { val nMemPorts = 1 def instantiate(implicit p: Parameters, conf: SodorCoreParams) = new sodor.ucode.Core() } def nMemPorts = UCodeCoreFactory.nMemPorts def instantiate(range: AddressSet)(implicit p: Parameters, conf: SodorCoreParams) = new SodorInternalTile(range, UCodeCoreFactory) }
module SodorInternalTileStage3( // @[sodor_internal_tile.scala:56:7] input clock, // @[sodor_internal_tile.scala:56:7] input reset, // @[sodor_internal_tile.scala:56:7] input io_debug_port_req_valid, // @[sodor_internal_tile.scala:34:14] input [31:0] io_debug_port_req_bits_addr, // @[sodor_internal_tile.scala:34:14] input [31:0] io_debug_port_req_bits_data, // @[sodor_internal_tile.scala:34:14] input io_debug_port_req_bits_fcn, // @[sodor_internal_tile.scala:34:14] input [2:0] io_debug_port_req_bits_typ, // @[sodor_internal_tile.scala:34:14] output io_debug_port_resp_valid, // @[sodor_internal_tile.scala:34:14] output [31:0] io_debug_port_resp_bits_data, // @[sodor_internal_tile.scala:34:14] input io_master_port_0_req_ready, // @[sodor_internal_tile.scala:34:14] output io_master_port_0_req_valid, // @[sodor_internal_tile.scala:34:14] output [31:0] io_master_port_0_req_bits_addr, // @[sodor_internal_tile.scala:34:14] output [31:0] io_master_port_0_req_bits_data, // @[sodor_internal_tile.scala:34:14] output io_master_port_0_req_bits_fcn, // @[sodor_internal_tile.scala:34:14] output [2:0] io_master_port_0_req_bits_typ, // @[sodor_internal_tile.scala:34:14] input io_master_port_0_resp_valid, // @[sodor_internal_tile.scala:34:14] input [31:0] io_master_port_0_resp_bits_data, // @[sodor_internal_tile.scala:34:14] input io_master_port_1_req_ready, // @[sodor_internal_tile.scala:34:14] output io_master_port_1_req_valid, // @[sodor_internal_tile.scala:34:14] output [31:0] io_master_port_1_req_bits_addr, // @[sodor_internal_tile.scala:34:14] input io_master_port_1_resp_valid, // @[sodor_internal_tile.scala:34:14] input [31:0] io_master_port_1_resp_bits_data, // @[sodor_internal_tile.scala:34:14] input io_interrupt_debug, // @[sodor_internal_tile.scala:34:14] input io_interrupt_mtip, // @[sodor_internal_tile.scala:34:14] input io_interrupt_msip, // @[sodor_internal_tile.scala:34:14] input io_interrupt_meip, // @[sodor_internal_tile.scala:34:14] input io_hartid // @[sodor_internal_tile.scala:34:14] ); wire io_debug_port_req_valid_0 = io_debug_port_req_valid; // @[sodor_internal_tile.scala:56:7] wire [31:0] io_debug_port_req_bits_addr_0 = io_debug_port_req_bits_addr; // @[sodor_internal_tile.scala:56:7] wire [31:0] io_debug_port_req_bits_data_0 = io_debug_port_req_bits_data; // @[sodor_internal_tile.scala:56:7] wire io_debug_port_req_bits_fcn_0 = io_debug_port_req_bits_fcn; // @[sodor_internal_tile.scala:56:7] wire [2:0] io_debug_port_req_bits_typ_0 = io_debug_port_req_bits_typ; // @[sodor_internal_tile.scala:56:7] wire io_master_port_0_req_ready_0 = io_master_port_0_req_ready; // @[sodor_internal_tile.scala:56:7] wire io_master_port_0_resp_valid_0 = io_master_port_0_resp_valid; // @[sodor_internal_tile.scala:56:7] wire [31:0] io_master_port_0_resp_bits_data_0 = io_master_port_0_resp_bits_data; // @[sodor_internal_tile.scala:56:7] wire io_master_port_1_req_ready_0 = io_master_port_1_req_ready; // @[sodor_internal_tile.scala:56:7] wire io_master_port_1_resp_valid_0 = io_master_port_1_resp_valid; // @[sodor_internal_tile.scala:56:7] wire [31:0] io_master_port_1_resp_bits_data_0 = io_master_port_1_resp_bits_data; // @[sodor_internal_tile.scala:56:7] wire io_interrupt_debug_0 = io_interrupt_debug; // @[sodor_internal_tile.scala:56:7] wire io_interrupt_mtip_0 = io_interrupt_mtip; // @[sodor_internal_tile.scala:56:7] wire io_interrupt_msip_0 = io_interrupt_msip; // @[sodor_internal_tile.scala:56:7] wire io_interrupt_meip_0 = io_interrupt_meip; // @[sodor_internal_tile.scala:56:7] wire io_hartid_0 = io_hartid; // @[sodor_internal_tile.scala:56:7] wire [31:0] io_reset_vector = 32'h10000; // @[sodor_internal_tile.scala:34:14, :56:7, :60:22] wire [2:0] io_master_port_1_req_bits_typ = 3'h7; // @[sodor_internal_tile.scala:34:14, :56:7, :60:22, :62:24, :67:22, :68:23, :70:26, :74:24] wire [2:0] core_ports_1_req_bits_typ = 3'h7; // @[sodor_internal_tile.scala:34:14, :56:7, :60:22, :62:24, :67:22, :68:23, :70:26, :74:24] wire [2:0] mem_ports_1_req_bits_typ = 3'h7; // @[sodor_internal_tile.scala:34:14, :56:7, :60:22, :62:24, :67:22, :68:23, :70:26, :74:24] wire [2:0] master_ports_1_req_bits_typ = 3'h7; // @[sodor_internal_tile.scala:34:14, :56:7, :60:22, :62:24, :67:22, :68:23, :70:26, :74:24] wire io_master_port_1_req_bits_fcn = 1'h0; // @[sodor_internal_tile.scala:34:14, :56:7, :60:22, :62:24, :67:22, :68:23, :70:26, :74:24] wire core_ports_1_req_bits_fcn = 1'h0; // @[sodor_internal_tile.scala:34:14, :56:7, :60:22, :62:24, :67:22, :68:23, :70:26, :74:24] wire mem_ports_1_req_bits_fcn = 1'h0; // @[sodor_internal_tile.scala:34:14, :56:7, :60:22, :62:24, :67:22, :68:23, :70:26, :74:24] wire master_ports_1_req_bits_fcn = 1'h0; // @[sodor_internal_tile.scala:34:14, :56:7, :60:22, :62:24, :67:22, :68:23, :70:26, :74:24] wire [31:0] io_master_port_1_req_bits_data = 32'h0; // @[sodor_internal_tile.scala:34:14, :56:7, :60:22, :62:24, :67:22, :68:23, :70:26, :74:24] wire [31:0] core_ports_1_req_bits_data = 32'h0; // @[sodor_internal_tile.scala:34:14, :56:7, :60:22, :62:24, :67:22, :68:23, :70:26, :74:24] wire [31:0] mem_ports_1_req_bits_data = 32'h0; // @[sodor_internal_tile.scala:34:14, :56:7, :60:22, :62:24, :67:22, :68:23, :70:26, :74:24] wire [31:0] master_ports_1_req_bits_data = 32'h0; // @[sodor_internal_tile.scala:34:14, :56:7, :60:22, :62:24, :67:22, :68:23, :70:26, :74:24] wire io_debug_port_req_ready = 1'h1; // @[sodor_internal_tile.scala:34:14, :56:7, :67:22, :68:23, :74:24] wire mem_ports_0_req_ready = 1'h1; // @[sodor_internal_tile.scala:34:14, :56:7, :67:22, :68:23, :74:24] wire mem_ports_1_req_ready = 1'h1; // @[sodor_internal_tile.scala:34:14, :56:7, :67:22, :68:23, :74:24] wire master_ports_0_req_ready = io_master_port_0_req_ready_0; // @[sodor_internal_tile.scala:56:7, :70:26] wire master_ports_0_req_valid; // @[sodor_internal_tile.scala:70:26] wire [31:0] master_ports_0_req_bits_addr; // @[sodor_internal_tile.scala:70:26] wire [31:0] master_ports_0_req_bits_data; // @[sodor_internal_tile.scala:70:26] wire master_ports_0_req_bits_fcn; // @[sodor_internal_tile.scala:70:26] wire [2:0] master_ports_0_req_bits_typ; // @[sodor_internal_tile.scala:70:26] wire master_ports_0_resp_valid = io_master_port_0_resp_valid_0; // @[sodor_internal_tile.scala:56:7, :70:26] wire [31:0] master_ports_0_resp_bits_data = io_master_port_0_resp_bits_data_0; // @[sodor_internal_tile.scala:56:7, :70:26] wire master_ports_1_req_ready = io_master_port_1_req_ready_0; // @[sodor_internal_tile.scala:56:7, :70:26] wire master_ports_1_req_valid; // @[sodor_internal_tile.scala:70:26] wire [31:0] master_ports_1_req_bits_addr; // @[sodor_internal_tile.scala:70:26] wire master_ports_1_resp_valid = io_master_port_1_resp_valid_0; // @[sodor_internal_tile.scala:56:7, :70:26] wire [31:0] master_ports_1_resp_bits_data = io_master_port_1_resp_bits_data_0; // @[sodor_internal_tile.scala:56:7, :70:26] wire [31:0] io_debug_port_resp_bits_data_0; // @[sodor_internal_tile.scala:56:7] wire io_debug_port_resp_valid_0; // @[sodor_internal_tile.scala:56:7] wire [31:0] io_master_port_0_req_bits_addr_0; // @[sodor_internal_tile.scala:56:7] wire [31:0] io_master_port_0_req_bits_data_0; // @[sodor_internal_tile.scala:56:7] wire io_master_port_0_req_bits_fcn_0; // @[sodor_internal_tile.scala:56:7] wire [2:0] io_master_port_0_req_bits_typ_0; // @[sodor_internal_tile.scala:56:7] wire io_master_port_0_req_valid_0; // @[sodor_internal_tile.scala:56:7] wire [31:0] io_master_port_1_req_bits_addr_0; // @[sodor_internal_tile.scala:56:7] wire io_master_port_1_req_valid_0; // @[sodor_internal_tile.scala:56:7] wire [31:0] core_ports_0_req_bits_addr; // @[sodor_internal_tile.scala:62:24] wire [31:0] core_ports_0_req_bits_data; // @[sodor_internal_tile.scala:62:24] wire core_ports_0_req_bits_fcn; // @[sodor_internal_tile.scala:62:24] wire [2:0] core_ports_0_req_bits_typ; // @[sodor_internal_tile.scala:62:24] wire core_ports_0_req_ready; // @[sodor_internal_tile.scala:62:24] wire core_ports_0_req_valid; // @[sodor_internal_tile.scala:62:24] wire [31:0] core_ports_0_resp_bits_data; // @[sodor_internal_tile.scala:62:24] wire core_ports_0_resp_valid; // @[sodor_internal_tile.scala:62:24] wire [31:0] core_ports_1_req_bits_addr; // @[sodor_internal_tile.scala:62:24] wire core_ports_1_req_ready; // @[sodor_internal_tile.scala:62:24] wire core_ports_1_req_valid; // @[sodor_internal_tile.scala:62:24] wire [31:0] core_ports_1_resp_bits_data; // @[sodor_internal_tile.scala:62:24] wire core_ports_1_resp_valid; // @[sodor_internal_tile.scala:62:24] wire [31:0] mem_ports_0_req_bits_addr; // @[sodor_internal_tile.scala:68:23] wire [31:0] mem_ports_0_req_bits_data; // @[sodor_internal_tile.scala:68:23] wire mem_ports_0_req_bits_fcn; // @[sodor_internal_tile.scala:68:23] wire [2:0] mem_ports_0_req_bits_typ; // @[sodor_internal_tile.scala:68:23] wire mem_ports_0_req_valid; // @[sodor_internal_tile.scala:68:23] wire [31:0] mem_ports_0_resp_bits_data; // @[sodor_internal_tile.scala:68:23] wire mem_ports_0_resp_valid; // @[sodor_internal_tile.scala:68:23] wire [31:0] mem_ports_1_req_bits_addr; // @[sodor_internal_tile.scala:68:23] wire mem_ports_1_req_valid; // @[sodor_internal_tile.scala:68:23] wire [31:0] mem_ports_1_resp_bits_data; // @[sodor_internal_tile.scala:68:23] wire mem_ports_1_resp_valid; // @[sodor_internal_tile.scala:68:23] assign io_master_port_0_req_valid_0 = master_ports_0_req_valid; // @[sodor_internal_tile.scala:56:7, :70:26] assign io_master_port_0_req_bits_addr_0 = master_ports_0_req_bits_addr; // @[sodor_internal_tile.scala:56:7, :70:26] assign io_master_port_0_req_bits_data_0 = master_ports_0_req_bits_data; // @[sodor_internal_tile.scala:56:7, :70:26] assign io_master_port_0_req_bits_fcn_0 = master_ports_0_req_bits_fcn; // @[sodor_internal_tile.scala:56:7, :70:26] assign io_master_port_0_req_bits_typ_0 = master_ports_0_req_bits_typ; // @[sodor_internal_tile.scala:56:7, :70:26] assign io_master_port_1_req_valid_0 = master_ports_1_req_valid; // @[sodor_internal_tile.scala:56:7, :70:26] assign io_master_port_1_req_bits_addr_0 = master_ports_1_req_bits_addr; // @[sodor_internal_tile.scala:56:7, :70:26] reg [31:0] reg_resp_address; // @[sodor_internal_tile.scala:79:31] reg [31:0] reg_resp_address_1; // @[sodor_internal_tile.scala:79:31] always @(posedge clock) begin // @[sodor_internal_tile.scala:56:7] if (core_ports_0_req_ready & core_ports_0_req_valid) // @[Decoupled.scala:51:35] reg_resp_address <= core_ports_0_req_bits_addr; // @[sodor_internal_tile.scala:62:24, :79:31] if (core_ports_1_req_ready & core_ports_1_req_valid) // @[Decoupled.scala:51:35] reg_resp_address_1 <= core_ports_1_req_bits_addr; // @[sodor_internal_tile.scala:62:24, :79:31] always @(posedge) Core core ( // @[sodor_internal_tile.scala:60:22] .clock (clock), .reset (reset), .io_imem_req_ready (core_ports_1_req_ready), // @[sodor_internal_tile.scala:62:24] .io_imem_req_valid (core_ports_1_req_valid), .io_imem_req_bits_addr (core_ports_1_req_bits_addr), .io_imem_resp_valid (core_ports_1_resp_valid), // @[sodor_internal_tile.scala:62:24] .io_imem_resp_bits_data (core_ports_1_resp_bits_data), // @[sodor_internal_tile.scala:62:24] .io_dmem_req_ready (core_ports_0_req_ready), // @[sodor_internal_tile.scala:62:24] .io_dmem_req_valid (core_ports_0_req_valid), .io_dmem_req_bits_addr (core_ports_0_req_bits_addr), .io_dmem_req_bits_data (core_ports_0_req_bits_data), .io_dmem_req_bits_fcn (core_ports_0_req_bits_fcn), .io_dmem_req_bits_typ (core_ports_0_req_bits_typ), .io_dmem_resp_valid (core_ports_0_resp_valid), // @[sodor_internal_tile.scala:62:24] .io_dmem_resp_bits_data (core_ports_0_resp_bits_data), // @[sodor_internal_tile.scala:62:24] .io_interrupt_debug (io_interrupt_debug_0), // @[sodor_internal_tile.scala:56:7] .io_interrupt_mtip (io_interrupt_mtip_0), // @[sodor_internal_tile.scala:56:7] .io_interrupt_msip (io_interrupt_msip_0), // @[sodor_internal_tile.scala:56:7] .io_interrupt_meip (io_interrupt_meip_0), // @[sodor_internal_tile.scala:56:7] .io_hartid (io_hartid_0) // @[sodor_internal_tile.scala:56:7] ); // @[sodor_internal_tile.scala:60:22] SyncScratchPadMemory memory ( // @[sodor_internal_tile.scala:67:22] .clock (clock), .reset (reset), .io_core_ports_0_req_valid (mem_ports_0_req_valid), // @[sodor_internal_tile.scala:68:23] .io_core_ports_0_req_bits_addr (mem_ports_0_req_bits_addr), // @[sodor_internal_tile.scala:68:23] .io_core_ports_0_req_bits_data (mem_ports_0_req_bits_data), // @[sodor_internal_tile.scala:68:23] .io_core_ports_0_req_bits_fcn (mem_ports_0_req_bits_fcn), // @[sodor_internal_tile.scala:68:23] .io_core_ports_0_req_bits_typ (mem_ports_0_req_bits_typ), // @[sodor_internal_tile.scala:68:23] .io_core_ports_0_resp_valid (mem_ports_0_resp_valid), .io_core_ports_0_resp_bits_data (mem_ports_0_resp_bits_data), .io_core_ports_1_req_valid (mem_ports_1_req_valid), // @[sodor_internal_tile.scala:68:23] .io_core_ports_1_req_bits_addr (mem_ports_1_req_bits_addr), // @[sodor_internal_tile.scala:68:23] .io_core_ports_1_resp_valid (mem_ports_1_resp_valid), .io_core_ports_1_resp_bits_data (mem_ports_1_resp_bits_data), .io_debug_port_req_valid (io_debug_port_req_valid_0), // @[sodor_internal_tile.scala:56:7] .io_debug_port_req_bits_addr (io_debug_port_req_bits_addr_0), // @[sodor_internal_tile.scala:56:7] .io_debug_port_req_bits_data (io_debug_port_req_bits_data_0), // @[sodor_internal_tile.scala:56:7] .io_debug_port_req_bits_fcn (io_debug_port_req_bits_fcn_0), // @[sodor_internal_tile.scala:56:7] .io_debug_port_req_bits_typ (io_debug_port_req_bits_typ_0), // @[sodor_internal_tile.scala:56:7] .io_debug_port_resp_valid (io_debug_port_resp_valid_0), .io_debug_port_resp_bits_data (io_debug_port_resp_bits_data_0) ); // @[sodor_internal_tile.scala:67:22] SodorRequestRouter router ( // @[sodor_internal_tile.scala:74:24] .clock (clock), .reset (reset), .io_masterPort_req_ready (master_ports_0_req_ready), // @[sodor_internal_tile.scala:70:26] .io_masterPort_req_valid (master_ports_0_req_valid), .io_masterPort_req_bits_addr (master_ports_0_req_bits_addr), .io_masterPort_req_bits_data (master_ports_0_req_bits_data), .io_masterPort_req_bits_fcn (master_ports_0_req_bits_fcn), .io_masterPort_req_bits_typ (master_ports_0_req_bits_typ), .io_masterPort_resp_valid (master_ports_0_resp_valid), // @[sodor_internal_tile.scala:70:26] .io_masterPort_resp_bits_data (master_ports_0_resp_bits_data), // @[sodor_internal_tile.scala:70:26] .io_scratchPort_req_valid (mem_ports_0_req_valid), .io_scratchPort_req_bits_addr (mem_ports_0_req_bits_addr), .io_scratchPort_req_bits_data (mem_ports_0_req_bits_data), .io_scratchPort_req_bits_fcn (mem_ports_0_req_bits_fcn), .io_scratchPort_req_bits_typ (mem_ports_0_req_bits_typ), .io_scratchPort_resp_valid (mem_ports_0_resp_valid), // @[sodor_internal_tile.scala:68:23] .io_scratchPort_resp_bits_data (mem_ports_0_resp_bits_data), // @[sodor_internal_tile.scala:68:23] .io_corePort_req_ready (core_ports_0_req_ready), .io_corePort_req_valid (core_ports_0_req_valid), // @[sodor_internal_tile.scala:62:24] .io_corePort_req_bits_addr (core_ports_0_req_bits_addr), // @[sodor_internal_tile.scala:62:24] .io_corePort_req_bits_data (core_ports_0_req_bits_data), // @[sodor_internal_tile.scala:62:24] .io_corePort_req_bits_fcn (core_ports_0_req_bits_fcn), // @[sodor_internal_tile.scala:62:24] .io_corePort_req_bits_typ (core_ports_0_req_bits_typ), // @[sodor_internal_tile.scala:62:24] .io_corePort_resp_valid (core_ports_0_resp_valid), .io_corePort_resp_bits_data (core_ports_0_resp_bits_data), .io_respAddress (reg_resp_address) // @[sodor_internal_tile.scala:79:31] ); // @[sodor_internal_tile.scala:74:24] SodorRequestRouter_1 router_1 ( // @[sodor_internal_tile.scala:74:24] .clock (clock), .reset (reset), .io_masterPort_req_ready (master_ports_1_req_ready), // @[sodor_internal_tile.scala:70:26] .io_masterPort_req_valid (master_ports_1_req_valid), .io_masterPort_req_bits_addr (master_ports_1_req_bits_addr), .io_masterPort_resp_valid (master_ports_1_resp_valid), // @[sodor_internal_tile.scala:70:26] .io_masterPort_resp_bits_data (master_ports_1_resp_bits_data), // @[sodor_internal_tile.scala:70:26] .io_scratchPort_req_valid (mem_ports_1_req_valid), .io_scratchPort_req_bits_addr (mem_ports_1_req_bits_addr), .io_scratchPort_resp_valid (mem_ports_1_resp_valid), // @[sodor_internal_tile.scala:68:23] .io_scratchPort_resp_bits_data (mem_ports_1_resp_bits_data), // @[sodor_internal_tile.scala:68:23] .io_corePort_req_ready (core_ports_1_req_ready), .io_corePort_req_valid (core_ports_1_req_valid), // @[sodor_internal_tile.scala:62:24] .io_corePort_req_bits_addr (core_ports_1_req_bits_addr), // @[sodor_internal_tile.scala:62:24] .io_corePort_resp_valid (core_ports_1_resp_valid), .io_corePort_resp_bits_data (core_ports_1_resp_bits_data), .io_respAddress (reg_resp_address_1) // @[sodor_internal_tile.scala:79:31] ); // @[sodor_internal_tile.scala:74:24] assign io_debug_port_resp_valid = io_debug_port_resp_valid_0; // @[sodor_internal_tile.scala:56:7] assign io_debug_port_resp_bits_data = io_debug_port_resp_bits_data_0; // @[sodor_internal_tile.scala:56:7] assign io_master_port_0_req_valid = io_master_port_0_req_valid_0; // @[sodor_internal_tile.scala:56:7] assign io_master_port_0_req_bits_addr = io_master_port_0_req_bits_addr_0; // @[sodor_internal_tile.scala:56:7] assign io_master_port_0_req_bits_data = io_master_port_0_req_bits_data_0; // @[sodor_internal_tile.scala:56:7] assign io_master_port_0_req_bits_fcn = io_master_port_0_req_bits_fcn_0; // @[sodor_internal_tile.scala:56:7] assign io_master_port_0_req_bits_typ = io_master_port_0_req_bits_typ_0; // @[sodor_internal_tile.scala:56:7] assign io_master_port_1_req_valid = io_master_port_1_req_valid_0; // @[sodor_internal_tile.scala:56:7] assign io_master_port_1_req_bits_addr = io_master_port_1_req_bits_addr_0; // @[sodor_internal_tile.scala:56:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File AsyncQueue.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ case class AsyncQueueParams( depth: Int = 8, sync: Int = 3, safe: Boolean = true, // If safe is true, then effort is made to resynchronize the crossing indices when either side is reset. // This makes it safe/possible to reset one side of the crossing (but not the other) when the queue is empty. narrow: Boolean = false) // If narrow is true then the read mux is moved to the source side of the crossing. // This reduces the number of level shifters in the case where the clock crossing is also a voltage crossing, // at the expense of a combinational path from the sink to the source and back to the sink. { require (depth > 0 && isPow2(depth)) require (sync >= 2) val bits = log2Ceil(depth) val wires = if (narrow) 1 else depth } object AsyncQueueParams { // When there is only one entry, we don't need narrow. def singleton(sync: Int = 3, safe: Boolean = true) = AsyncQueueParams(1, sync, safe, false) } class AsyncBundleSafety extends Bundle { val ridx_valid = Input (Bool()) val widx_valid = Output(Bool()) val source_reset_n = Output(Bool()) val sink_reset_n = Input (Bool()) } class AsyncBundle[T <: Data](private val gen: T, val params: AsyncQueueParams = AsyncQueueParams()) extends Bundle { // Data-path synchronization val mem = Output(Vec(params.wires, gen)) val ridx = Input (UInt((params.bits+1).W)) val widx = Output(UInt((params.bits+1).W)) val index = params.narrow.option(Input(UInt(params.bits.W))) // Signals used to self-stabilize a safe AsyncQueue val safe = params.safe.option(new AsyncBundleSafety) } object GrayCounter { def apply(bits: Int, increment: Bool = true.B, clear: Bool = false.B, name: String = "binary"): UInt = { val incremented = Wire(UInt(bits.W)) val binary = RegNext(next=incremented, init=0.U).suggestName(name) incremented := Mux(clear, 0.U, binary + increment.asUInt) incremented ^ (incremented >> 1) } } class AsyncValidSync(sync: Int, desc: String) extends RawModule { val io = IO(new Bundle { val in = Input(Bool()) val out = Output(Bool()) }) val clock = IO(Input(Clock())) val reset = IO(Input(AsyncReset())) withClockAndReset(clock, reset){ io.out := AsyncResetSynchronizerShiftReg(io.in, sync, Some(desc)) } } class AsyncQueueSource[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSource_${gen.typeName}" val io = IO(new Bundle { // These come from the source domain val enq = Flipped(Decoupled(gen)) // These cross to the sink clock domain val async = new AsyncBundle(gen, params) }) val bits = params.bits val sink_ready = WireInit(true.B) val mem = Reg(Vec(params.depth, gen)) // This does NOT need to be reset at all. val widx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.enq.fire, !sink_ready, "widx_bin")) val ridx = AsyncResetSynchronizerShiftReg(io.async.ridx, params.sync, Some("ridx_gray")) val ready = sink_ready && widx =/= (ridx ^ (params.depth | params.depth >> 1).U) val index = if (bits == 0) 0.U else io.async.widx(bits-1, 0) ^ (io.async.widx(bits, bits) << (bits-1)) when (io.enq.fire) { mem(index) := io.enq.bits } val ready_reg = withReset(reset.asAsyncReset)(RegNext(next=ready, init=false.B).suggestName("ready_reg")) io.enq.ready := ready_reg && sink_ready val widx_reg = withReset(reset.asAsyncReset)(RegNext(next=widx, init=0.U).suggestName("widx_gray")) io.async.widx := widx_reg io.async.index match { case Some(index) => io.async.mem(0) := mem(index) case None => io.async.mem := mem } io.async.safe.foreach { sio => val source_valid_0 = Module(new AsyncValidSync(params.sync, "source_valid_0")) val source_valid_1 = Module(new AsyncValidSync(params.sync, "source_valid_1")) val sink_extend = Module(new AsyncValidSync(params.sync, "sink_extend")) val sink_valid = Module(new AsyncValidSync(params.sync, "sink_valid")) source_valid_0.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset source_valid_1.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_extend .reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_valid .reset := reset.asAsyncReset source_valid_0.clock := clock source_valid_1.clock := clock sink_extend .clock := clock sink_valid .clock := clock source_valid_0.io.in := true.B source_valid_1.io.in := source_valid_0.io.out sio.widx_valid := source_valid_1.io.out sink_extend.io.in := sio.ridx_valid sink_valid.io.in := sink_extend.io.out sink_ready := sink_valid.io.out sio.source_reset_n := !reset.asBool // Assert that if there is stuff in the queue, then reset cannot happen // Impossible to write because dequeue can occur on the receiving side, // then reset allowed to happen, but write side cannot know that dequeue // occurred. // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // assert (!(reset || !sio.sink_reset_n) || !io.enq.valid, "Enqueue while sink is reset and AsyncQueueSource is unprotected") // assert (!reset_rise || prev_idx_match.asBool, "Sink reset while AsyncQueueSource not empty") } } class AsyncQueueSink[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSink_${gen.typeName}" val io = IO(new Bundle { // These come from the sink domain val deq = Decoupled(gen) // These cross to the source clock domain val async = Flipped(new AsyncBundle(gen, params)) }) val bits = params.bits val source_ready = WireInit(true.B) val ridx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.deq.fire, !source_ready, "ridx_bin")) val widx = AsyncResetSynchronizerShiftReg(io.async.widx, params.sync, Some("widx_gray")) val valid = source_ready && ridx =/= widx // The mux is safe because timing analysis ensures ridx has reached the register // On an ASIC, changes to the unread location cannot affect the selected value // On an FPGA, only one input changes at a time => mem updates don't cause glitches // The register only latches when the selected valued is not being written val index = if (bits == 0) 0.U else ridx(bits-1, 0) ^ (ridx(bits, bits) << (bits-1)) io.async.index.foreach { _ := index } // This register does not NEED to be reset, as its contents will not // be considered unless the asynchronously reset deq valid register is set. // It is possible that bits latches when the source domain is reset / has power cut // This is safe, because isolation gates brought mem low before the zeroed widx reached us val deq_bits_nxt = io.async.mem(if (params.narrow) 0.U else index) io.deq.bits := ClockCrossingReg(deq_bits_nxt, en = valid, doInit = false, name = Some("deq_bits_reg")) val valid_reg = withReset(reset.asAsyncReset)(RegNext(next=valid, init=false.B).suggestName("valid_reg")) io.deq.valid := valid_reg && source_ready val ridx_reg = withReset(reset.asAsyncReset)(RegNext(next=ridx, init=0.U).suggestName("ridx_gray")) io.async.ridx := ridx_reg io.async.safe.foreach { sio => val sink_valid_0 = Module(new AsyncValidSync(params.sync, "sink_valid_0")) val sink_valid_1 = Module(new AsyncValidSync(params.sync, "sink_valid_1")) val source_extend = Module(new AsyncValidSync(params.sync, "source_extend")) val source_valid = Module(new AsyncValidSync(params.sync, "source_valid")) sink_valid_0 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset sink_valid_1 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_extend.reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_valid .reset := reset.asAsyncReset sink_valid_0 .clock := clock sink_valid_1 .clock := clock source_extend.clock := clock source_valid .clock := clock sink_valid_0.io.in := true.B sink_valid_1.io.in := sink_valid_0.io.out sio.ridx_valid := sink_valid_1.io.out source_extend.io.in := sio.widx_valid source_valid.io.in := source_extend.io.out source_ready := source_valid.io.out sio.sink_reset_n := !reset.asBool // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // // val reset_and_extend = !source_ready || !sio.source_reset_n || reset.asBool // val reset_and_extend_prev = RegNext(reset_and_extend, true.B) // val reset_rise = !reset_and_extend_prev && reset_and_extend // val prev_idx_match = AsyncResetReg(updateData=(io.async.widx===io.async.ridx), resetData=0) // assert (!reset_rise || prev_idx_match.asBool, "Source reset while AsyncQueueSink not empty") } } object FromAsyncBundle { // Sometimes it makes sense for the sink to have different sync than the source def apply[T <: Data](x: AsyncBundle[T]): DecoupledIO[T] = apply(x, x.params.sync) def apply[T <: Data](x: AsyncBundle[T], sync: Int): DecoupledIO[T] = { val sink = Module(new AsyncQueueSink(chiselTypeOf(x.mem(0)), x.params.copy(sync = sync))) sink.io.async <> x sink.io.deq } } object ToAsyncBundle { def apply[T <: Data](x: ReadyValidIO[T], params: AsyncQueueParams = AsyncQueueParams()): AsyncBundle[T] = { val source = Module(new AsyncQueueSource(chiselTypeOf(x.bits), params)) source.io.enq <> x source.io.async } } class AsyncQueue[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Crossing[T] { val io = IO(new CrossingIO(gen)) val source = withClockAndReset(io.enq_clock, io.enq_reset) { Module(new AsyncQueueSource(gen, params)) } val sink = withClockAndReset(io.deq_clock, io.deq_reset) { Module(new AsyncQueueSink (gen, params)) } source.io.enq <> io.enq io.deq <> sink.io.deq sink.io.async <> source.io.async }
module AsyncValidSync_152( // @[AsyncQueue.scala:58:7] output io_out, // @[AsyncQueue.scala:59:14] input clock, // @[AsyncQueue.scala:63:17] input reset // @[AsyncQueue.scala:64:17] ); wire io_in = 1'h1; // @[ShiftReg.scala:45:23] wire _io_out_WIRE; // @[ShiftReg.scala:48:24] wire io_out_0; // @[AsyncQueue.scala:58:7] assign io_out_0 = _io_out_WIRE; // @[ShiftReg.scala:48:24] AsyncResetSynchronizerShiftReg_w1_d3_i0_169 io_out_source_valid_0 ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (reset), .io_q (_io_out_WIRE) ); // @[ShiftReg.scala:45:23] assign io_out = io_out_0; // @[AsyncQueue.scala:58:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File InputUnit.scala: package constellation.router import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.{Field, Parameters} import freechips.rocketchip.util._ import constellation.channel._ import constellation.routing.{FlowRoutingBundle} import constellation.noc.{HasNoCParams} class AbstractInputUnitIO( val cParam: BaseChannelParams, val outParams: Seq[ChannelParams], val egressParams: Seq[EgressChannelParams], )(implicit val p: Parameters) extends Bundle with HasRouterOutputParams { val nodeId = cParam.destId val router_req = Decoupled(new RouteComputerReq) val router_resp = Input(new RouteComputerResp(outParams, egressParams)) val vcalloc_req = Decoupled(new VCAllocReq(cParam, outParams, egressParams)) val vcalloc_resp = Input(new VCAllocResp(outParams, egressParams)) val out_credit_available = Input(MixedVec(allOutParams.map { u => Vec(u.nVirtualChannels, Bool()) })) val salloc_req = Vec(cParam.destSpeedup, Decoupled(new SwitchAllocReq(outParams, egressParams))) val out = Vec(cParam.destSpeedup, Valid(new SwitchBundle(outParams, egressParams))) val debug = Output(new Bundle { val va_stall = UInt(log2Ceil(cParam.nVirtualChannels).W) val sa_stall = UInt(log2Ceil(cParam.nVirtualChannels).W) }) val block = Input(Bool()) } abstract class AbstractInputUnit( val cParam: BaseChannelParams, val outParams: Seq[ChannelParams], val egressParams: Seq[EgressChannelParams] )(implicit val p: Parameters) extends Module with HasRouterOutputParams with HasNoCParams { val nodeId = cParam.destId def io: AbstractInputUnitIO } class InputBuffer(cParam: ChannelParams)(implicit p: Parameters) extends Module { val nVirtualChannels = cParam.nVirtualChannels val io = IO(new Bundle { val enq = Flipped(Vec(cParam.srcSpeedup, Valid(new Flit(cParam.payloadBits)))) val deq = Vec(cParam.nVirtualChannels, Decoupled(new BaseFlit(cParam.payloadBits))) }) val useOutputQueues = cParam.useOutputQueues val delims = if (useOutputQueues) { cParam.virtualChannelParams.map(u => if (u.traversable) u.bufferSize else 0).scanLeft(0)(_+_) } else { // If no queuing, have to add an additional slot since head == tail implies empty // TODO this should be fixed, should use all slots available cParam.virtualChannelParams.map(u => if (u.traversable) u.bufferSize + 1 else 0).scanLeft(0)(_+_) } val starts = delims.dropRight(1).zipWithIndex.map { case (s,i) => if (cParam.virtualChannelParams(i).traversable) s else 0 } val ends = delims.tail.zipWithIndex.map { case (s,i) => if (cParam.virtualChannelParams(i).traversable) s else 0 } val fullSize = delims.last // Ugly case. Use multiple queues if ((cParam.srcSpeedup > 1 || cParam.destSpeedup > 1 || fullSize <= 1) || !cParam.unifiedBuffer) { require(useOutputQueues) val qs = cParam.virtualChannelParams.map(v => Module(new Queue(new BaseFlit(cParam.payloadBits), v.bufferSize))) qs.zipWithIndex.foreach { case (q,i) => val sel = io.enq.map(f => f.valid && f.bits.virt_channel_id === i.U) q.io.enq.valid := sel.orR q.io.enq.bits.head := Mux1H(sel, io.enq.map(_.bits.head)) q.io.enq.bits.tail := Mux1H(sel, io.enq.map(_.bits.tail)) q.io.enq.bits.payload := Mux1H(sel, io.enq.map(_.bits.payload)) io.deq(i) <> q.io.deq } } else { val mem = Mem(fullSize, new BaseFlit(cParam.payloadBits)) val heads = RegInit(VecInit(starts.map(_.U(log2Ceil(fullSize).W)))) val tails = RegInit(VecInit(starts.map(_.U(log2Ceil(fullSize).W)))) val empty = (heads zip tails).map(t => t._1 === t._2) val qs = Seq.fill(nVirtualChannels) { Module(new Queue(new BaseFlit(cParam.payloadBits), 1, pipe=true)) } qs.foreach(_.io.enq.valid := false.B) qs.foreach(_.io.enq.bits := DontCare) val vc_sel = UIntToOH(io.enq(0).bits.virt_channel_id) val flit = Wire(new BaseFlit(cParam.payloadBits)) val direct_to_q = (Mux1H(vc_sel, qs.map(_.io.enq.ready)) && Mux1H(vc_sel, empty)) && useOutputQueues.B flit.head := io.enq(0).bits.head flit.tail := io.enq(0).bits.tail flit.payload := io.enq(0).bits.payload when (io.enq(0).valid && !direct_to_q) { val tail = tails(io.enq(0).bits.virt_channel_id) mem.write(tail, flit) tails(io.enq(0).bits.virt_channel_id) := Mux( tail === Mux1H(vc_sel, ends.map(_ - 1).map(_ max 0).map(_.U)), Mux1H(vc_sel, starts.map(_.U)), tail + 1.U) } .elsewhen (io.enq(0).valid && direct_to_q) { for (i <- 0 until nVirtualChannels) { when (io.enq(0).bits.virt_channel_id === i.U) { qs(i).io.enq.valid := true.B qs(i).io.enq.bits := flit } } } if (useOutputQueues) { val can_to_q = (0 until nVirtualChannels).map { i => !empty(i) && qs(i).io.enq.ready } val to_q_oh = PriorityEncoderOH(can_to_q) val to_q = OHToUInt(to_q_oh) when (can_to_q.orR) { val head = Mux1H(to_q_oh, heads) heads(to_q) := Mux( head === Mux1H(to_q_oh, ends.map(_ - 1).map(_ max 0).map(_.U)), Mux1H(to_q_oh, starts.map(_.U)), head + 1.U) for (i <- 0 until nVirtualChannels) { when (to_q_oh(i)) { qs(i).io.enq.valid := true.B qs(i).io.enq.bits := mem.read(head) } } } for (i <- 0 until nVirtualChannels) { io.deq(i) <> qs(i).io.deq } } else { qs.map(_.io.deq.ready := false.B) val ready_sel = io.deq.map(_.ready) val fire = io.deq.map(_.fire) assert(PopCount(fire) <= 1.U) val head = Mux1H(fire, heads) when (fire.orR) { val fire_idx = OHToUInt(fire) heads(fire_idx) := Mux( head === Mux1H(fire, ends.map(_ - 1).map(_ max 0).map(_.U)), Mux1H(fire, starts.map(_.U)), head + 1.U) } val read_flit = mem.read(head) for (i <- 0 until nVirtualChannels) { io.deq(i).valid := !empty(i) io.deq(i).bits := read_flit } } } } class InputUnit(cParam: ChannelParams, outParams: Seq[ChannelParams], egressParams: Seq[EgressChannelParams], combineRCVA: Boolean, combineSAST: Boolean ) (implicit p: Parameters) extends AbstractInputUnit(cParam, outParams, egressParams)(p) { val nVirtualChannels = cParam.nVirtualChannels val virtualChannelParams = cParam.virtualChannelParams class InputUnitIO extends AbstractInputUnitIO(cParam, outParams, egressParams) { val in = Flipped(new Channel(cParam.asInstanceOf[ChannelParams])) } val io = IO(new InputUnitIO) val g_i :: g_r :: g_v :: g_a :: g_c :: Nil = Enum(5) class InputState extends Bundle { val g = UInt(3.W) val vc_sel = MixedVec(allOutParams.map { u => Vec(u.nVirtualChannels, Bool()) }) val flow = new FlowRoutingBundle val fifo_deps = UInt(nVirtualChannels.W) } val input_buffer = Module(new InputBuffer(cParam)) for (i <- 0 until cParam.srcSpeedup) { input_buffer.io.enq(i) := io.in.flit(i) } input_buffer.io.deq.foreach(_.ready := false.B) val route_arbiter = Module(new Arbiter( new RouteComputerReq, nVirtualChannels )) io.router_req <> route_arbiter.io.out val states = Reg(Vec(nVirtualChannels, new InputState)) val anyFifo = cParam.possibleFlows.map(_.fifo).reduce(_||_) val allFifo = cParam.possibleFlows.map(_.fifo).reduce(_&&_) if (anyFifo) { val idle_mask = VecInit(states.map(_.g === g_i)).asUInt for (s <- states) for (i <- 0 until nVirtualChannels) s.fifo_deps := s.fifo_deps & ~idle_mask } for (i <- 0 until cParam.srcSpeedup) { when (io.in.flit(i).fire && io.in.flit(i).bits.head) { val id = io.in.flit(i).bits.virt_channel_id assert(id < nVirtualChannels.U) assert(states(id).g === g_i) val at_dest = io.in.flit(i).bits.flow.egress_node === nodeId.U states(id).g := Mux(at_dest, g_v, g_r) states(id).vc_sel.foreach(_.foreach(_ := false.B)) for (o <- 0 until nEgress) { when (o.U === io.in.flit(i).bits.flow.egress_node_id) { states(id).vc_sel(o+nOutputs)(0) := true.B } } states(id).flow := io.in.flit(i).bits.flow if (anyFifo) { val fifo = cParam.possibleFlows.filter(_.fifo).map(_.isFlow(io.in.flit(i).bits.flow)).toSeq.orR states(id).fifo_deps := VecInit(states.zipWithIndex.map { case (s, j) => s.g =/= g_i && s.flow.asUInt === io.in.flit(i).bits.flow.asUInt && j.U =/= id }).asUInt } } } (route_arbiter.io.in zip states).zipWithIndex.map { case ((i,s),idx) => if (virtualChannelParams(idx).traversable) { i.valid := s.g === g_r i.bits.flow := s.flow i.bits.src_virt_id := idx.U when (i.fire) { s.g := g_v } } else { i.valid := false.B i.bits := DontCare } } when (io.router_req.fire) { val id = io.router_req.bits.src_virt_id assert(states(id).g === g_r) states(id).g := g_v for (i <- 0 until nVirtualChannels) { when (i.U === id) { states(i).vc_sel := io.router_resp.vc_sel } } } val mask = RegInit(0.U(nVirtualChannels.W)) val vcalloc_reqs = Wire(Vec(nVirtualChannels, new VCAllocReq(cParam, outParams, egressParams))) val vcalloc_vals = Wire(Vec(nVirtualChannels, Bool())) val vcalloc_filter = PriorityEncoderOH(Cat(vcalloc_vals.asUInt, vcalloc_vals.asUInt & ~mask)) val vcalloc_sel = vcalloc_filter(nVirtualChannels-1,0) | (vcalloc_filter >> nVirtualChannels) // Prioritize incoming packetes when (io.router_req.fire) { mask := (1.U << io.router_req.bits.src_virt_id) - 1.U } .elsewhen (vcalloc_vals.orR) { mask := Mux1H(vcalloc_sel, (0 until nVirtualChannels).map { w => ~(0.U((w+1).W)) }) } io.vcalloc_req.valid := vcalloc_vals.orR io.vcalloc_req.bits := Mux1H(vcalloc_sel, vcalloc_reqs) states.zipWithIndex.map { case (s,idx) => if (virtualChannelParams(idx).traversable) { vcalloc_vals(idx) := s.g === g_v && s.fifo_deps === 0.U vcalloc_reqs(idx).in_vc := idx.U vcalloc_reqs(idx).vc_sel := s.vc_sel vcalloc_reqs(idx).flow := s.flow when (vcalloc_vals(idx) && vcalloc_sel(idx) && io.vcalloc_req.ready) { s.g := g_a } if (combineRCVA) { when (route_arbiter.io.in(idx).fire) { vcalloc_vals(idx) := true.B vcalloc_reqs(idx).vc_sel := io.router_resp.vc_sel } } } else { vcalloc_vals(idx) := false.B vcalloc_reqs(idx) := DontCare } } io.debug.va_stall := PopCount(vcalloc_vals) - io.vcalloc_req.ready when (io.vcalloc_req.fire) { for (i <- 0 until nVirtualChannels) { when (vcalloc_sel(i)) { states(i).vc_sel := io.vcalloc_resp.vc_sel states(i).g := g_a if (!combineRCVA) { assert(states(i).g === g_v) } } } } val salloc_arb = Module(new SwitchArbiter( nVirtualChannels, cParam.destSpeedup, outParams, egressParams )) (states zip salloc_arb.io.in).zipWithIndex.map { case ((s,r),i) => if (virtualChannelParams(i).traversable) { val credit_available = (s.vc_sel.asUInt & io.out_credit_available.asUInt) =/= 0.U r.valid := s.g === g_a && credit_available && input_buffer.io.deq(i).valid r.bits.vc_sel := s.vc_sel val deq_tail = input_buffer.io.deq(i).bits.tail r.bits.tail := deq_tail when (r.fire && deq_tail) { s.g := g_i } input_buffer.io.deq(i).ready := r.ready } else { r.valid := false.B r.bits := DontCare } } io.debug.sa_stall := PopCount(salloc_arb.io.in.map(r => r.valid && !r.ready)) io.salloc_req <> salloc_arb.io.out when (io.block) { salloc_arb.io.out.foreach(_.ready := false.B) io.salloc_req.foreach(_.valid := false.B) } class OutBundle extends Bundle { val valid = Bool() val vid = UInt(virtualChannelBits.W) val out_vid = UInt(log2Up(allOutParams.map(_.nVirtualChannels).max).W) val flit = new Flit(cParam.payloadBits) } val salloc_outs = if (combineSAST) { Wire(Vec(cParam.destSpeedup, new OutBundle)) } else { Reg(Vec(cParam.destSpeedup, new OutBundle)) } io.in.credit_return := salloc_arb.io.out.zipWithIndex.map { case (o, i) => Mux(o.fire, salloc_arb.io.chosen_oh(i), 0.U) }.reduce(_|_) io.in.vc_free := salloc_arb.io.out.zipWithIndex.map { case (o, i) => Mux(o.fire && Mux1H(salloc_arb.io.chosen_oh(i), input_buffer.io.deq.map(_.bits.tail)), salloc_arb.io.chosen_oh(i), 0.U) }.reduce(_|_) for (i <- 0 until cParam.destSpeedup) { val salloc_out = salloc_outs(i) salloc_out.valid := salloc_arb.io.out(i).fire salloc_out.vid := OHToUInt(salloc_arb.io.chosen_oh(i)) val vc_sel = Mux1H(salloc_arb.io.chosen_oh(i), states.map(_.vc_sel)) val channel_oh = vc_sel.map(_.reduce(_||_)).toSeq val virt_channel = Mux1H(channel_oh, vc_sel.map(v => OHToUInt(v)).toSeq) when (salloc_arb.io.out(i).fire) { salloc_out.out_vid := virt_channel salloc_out.flit.payload := Mux1H(salloc_arb.io.chosen_oh(i), input_buffer.io.deq.map(_.bits.payload)) salloc_out.flit.head := Mux1H(salloc_arb.io.chosen_oh(i), input_buffer.io.deq.map(_.bits.head)) salloc_out.flit.tail := Mux1H(salloc_arb.io.chosen_oh(i), input_buffer.io.deq.map(_.bits.tail)) salloc_out.flit.flow := Mux1H(salloc_arb.io.chosen_oh(i), states.map(_.flow)) } .otherwise { salloc_out.out_vid := DontCare salloc_out.flit := DontCare } salloc_out.flit.virt_channel_id := DontCare // this gets set in the switch io.out(i).valid := salloc_out.valid io.out(i).bits.flit := salloc_out.flit io.out(i).bits.out_virt_channel := salloc_out.out_vid } def filterVCSel(sel: MixedVec[Vec[Bool]], srcV: Int) = { if (virtualChannelParams(srcV).traversable) { outParams.zipWithIndex.map { case (oP, oI) => (0 until oP.nVirtualChannels).map { oV => var allow = false virtualChannelParams(srcV).possibleFlows.foreach { pI => allow = allow || routingRelation( cParam.channelRoutingInfos(srcV), oP.channelRoutingInfos(oV), pI ) } if (!allow) sel(oI)(oV) := false.B } } } } (0 until nVirtualChannels).map { i => if (!virtualChannelParams(i).traversable) states(i) := DontCare filterVCSel(states(i).vc_sel, i) } when (reset.asBool) { states.foreach(_.g := g_i) } }
module InputUnit_29( // @[InputUnit.scala:158:7] input clock, // @[InputUnit.scala:158:7] input reset, // @[InputUnit.scala:158:7] output [2:0] io_router_req_bits_src_virt_id, // @[InputUnit.scala:170:14] output [2:0] io_router_req_bits_flow_vnet_id, // @[InputUnit.scala:170:14] output [4:0] io_router_req_bits_flow_ingress_node, // @[InputUnit.scala:170:14] output [1:0] io_router_req_bits_flow_ingress_node_id, // @[InputUnit.scala:170:14] output [4:0] io_router_req_bits_flow_egress_node, // @[InputUnit.scala:170:14] output [1:0] io_router_req_bits_flow_egress_node_id, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_3_1, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_3_2, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_3_3, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_3_4, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_3_5, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_3_6, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_3_7, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_2_4, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_2_5, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_2_6, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_2_7, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_0_1, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_0_2, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_0_3, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_0_4, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_0_5, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_0_6, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_0_7, // @[InputUnit.scala:170:14] input io_vcalloc_req_ready, // @[InputUnit.scala:170:14] output io_vcalloc_req_valid, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_3_1, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_3_2, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_3_3, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_3_4, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_3_5, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_3_6, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_3_7, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_2_4, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_2_5, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_2_6, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_2_7, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_0_1, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_0_2, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_0_3, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_0_4, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_0_5, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_0_6, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_0_7, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_3_1, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_3_2, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_3_3, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_3_4, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_3_5, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_3_6, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_3_7, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_2_4, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_2_5, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_2_6, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_2_7, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_0_1, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_0_2, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_0_3, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_0_4, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_0_5, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_0_6, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_0_7, // @[InputUnit.scala:170:14] input io_out_credit_available_3_1, // @[InputUnit.scala:170:14] input io_out_credit_available_3_2, // @[InputUnit.scala:170:14] input io_out_credit_available_3_3, // @[InputUnit.scala:170:14] input io_out_credit_available_3_4, // @[InputUnit.scala:170:14] input io_out_credit_available_3_5, // @[InputUnit.scala:170:14] input io_out_credit_available_3_6, // @[InputUnit.scala:170:14] input io_out_credit_available_3_7, // @[InputUnit.scala:170:14] input io_out_credit_available_2_0, // @[InputUnit.scala:170:14] input io_out_credit_available_2_1, // @[InputUnit.scala:170:14] input io_out_credit_available_2_2, // @[InputUnit.scala:170:14] input io_out_credit_available_2_3, // @[InputUnit.scala:170:14] input io_out_credit_available_2_4, // @[InputUnit.scala:170:14] input io_out_credit_available_2_5, // @[InputUnit.scala:170:14] input io_out_credit_available_2_6, // @[InputUnit.scala:170:14] input io_out_credit_available_2_7, // @[InputUnit.scala:170:14] input io_out_credit_available_1_1, // @[InputUnit.scala:170:14] input io_out_credit_available_1_2, // @[InputUnit.scala:170:14] input io_out_credit_available_1_3, // @[InputUnit.scala:170:14] input io_out_credit_available_1_4, // @[InputUnit.scala:170:14] input io_out_credit_available_1_5, // @[InputUnit.scala:170:14] input io_out_credit_available_1_6, // @[InputUnit.scala:170:14] input io_out_credit_available_1_7, // @[InputUnit.scala:170:14] input io_out_credit_available_0_1, // @[InputUnit.scala:170:14] input io_out_credit_available_0_2, // @[InputUnit.scala:170:14] input io_out_credit_available_0_3, // @[InputUnit.scala:170:14] input io_out_credit_available_0_4, // @[InputUnit.scala:170:14] input io_out_credit_available_0_5, // @[InputUnit.scala:170:14] input io_out_credit_available_0_6, // @[InputUnit.scala:170:14] input io_out_credit_available_0_7, // @[InputUnit.scala:170:14] input io_salloc_req_0_ready, // @[InputUnit.scala:170:14] output io_salloc_req_0_valid, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_3_0, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_3_1, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_3_2, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_3_3, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_3_4, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_3_5, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_3_6, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_3_7, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_2_0, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_2_1, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_2_2, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_2_3, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_2_4, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_2_5, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_2_6, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_2_7, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_1_0, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_1_1, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_1_2, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_1_3, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_1_4, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_1_5, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_1_6, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_1_7, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_0_1, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_0_2, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_0_3, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_0_4, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_0_5, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_0_6, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_0_7, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_tail, // @[InputUnit.scala:170:14] output io_out_0_valid, // @[InputUnit.scala:170:14] output io_out_0_bits_flit_head, // @[InputUnit.scala:170:14] output io_out_0_bits_flit_tail, // @[InputUnit.scala:170:14] output [72:0] io_out_0_bits_flit_payload, // @[InputUnit.scala:170:14] output [2:0] io_out_0_bits_flit_flow_vnet_id, // @[InputUnit.scala:170:14] output [4:0] io_out_0_bits_flit_flow_ingress_node, // @[InputUnit.scala:170:14] output [1:0] io_out_0_bits_flit_flow_ingress_node_id, // @[InputUnit.scala:170:14] output [4:0] io_out_0_bits_flit_flow_egress_node, // @[InputUnit.scala:170:14] output [1:0] io_out_0_bits_flit_flow_egress_node_id, // @[InputUnit.scala:170:14] output [2:0] io_out_0_bits_out_virt_channel, // @[InputUnit.scala:170:14] output [2:0] io_debug_va_stall, // @[InputUnit.scala:170:14] output [2:0] io_debug_sa_stall, // @[InputUnit.scala:170:14] input io_in_flit_0_valid, // @[InputUnit.scala:170:14] input io_in_flit_0_bits_head, // @[InputUnit.scala:170:14] input io_in_flit_0_bits_tail, // @[InputUnit.scala:170:14] input [72:0] io_in_flit_0_bits_payload, // @[InputUnit.scala:170:14] input [2:0] io_in_flit_0_bits_flow_vnet_id, // @[InputUnit.scala:170:14] input [4:0] io_in_flit_0_bits_flow_ingress_node, // @[InputUnit.scala:170:14] input [1:0] io_in_flit_0_bits_flow_ingress_node_id, // @[InputUnit.scala:170:14] input [4:0] io_in_flit_0_bits_flow_egress_node, // @[InputUnit.scala:170:14] input [1:0] io_in_flit_0_bits_flow_egress_node_id, // @[InputUnit.scala:170:14] input [2:0] io_in_flit_0_bits_virt_channel_id, // @[InputUnit.scala:170:14] output [7:0] io_in_credit_return, // @[InputUnit.scala:170:14] output [7:0] io_in_vc_free // @[InputUnit.scala:170:14] ); wire vcalloc_vals_7; // @[InputUnit.scala:266:32] wire vcalloc_vals_6; // @[InputUnit.scala:266:32] wire vcalloc_vals_5; // @[InputUnit.scala:266:32] wire vcalloc_vals_4; // @[InputUnit.scala:266:32] wire vcalloc_vals_3; // @[InputUnit.scala:266:32] wire vcalloc_vals_2; // @[InputUnit.scala:266:32] wire vcalloc_vals_1; // @[InputUnit.scala:266:32] wire _salloc_arb_io_in_1_ready; // @[InputUnit.scala:296:26] wire _salloc_arb_io_in_2_ready; // @[InputUnit.scala:296:26] wire _salloc_arb_io_in_3_ready; // @[InputUnit.scala:296:26] wire _salloc_arb_io_in_4_ready; // @[InputUnit.scala:296:26] wire _salloc_arb_io_in_5_ready; // @[InputUnit.scala:296:26] wire _salloc_arb_io_in_6_ready; // @[InputUnit.scala:296:26] wire _salloc_arb_io_in_7_ready; // @[InputUnit.scala:296:26] wire _salloc_arb_io_out_0_valid; // @[InputUnit.scala:296:26] wire [7:0] _salloc_arb_io_chosen_oh_0; // @[InputUnit.scala:296:26] wire _route_arbiter_io_in_1_ready; // @[InputUnit.scala:187:29] wire _route_arbiter_io_in_2_ready; // @[InputUnit.scala:187:29] wire _route_arbiter_io_in_3_ready; // @[InputUnit.scala:187:29] wire _route_arbiter_io_in_4_ready; // @[InputUnit.scala:187:29] wire _route_arbiter_io_in_5_ready; // @[InputUnit.scala:187:29] wire _route_arbiter_io_in_6_ready; // @[InputUnit.scala:187:29] wire _route_arbiter_io_in_7_ready; // @[InputUnit.scala:187:29] wire _route_arbiter_io_out_valid; // @[InputUnit.scala:187:29] wire [2:0] _route_arbiter_io_out_bits_src_virt_id; // @[InputUnit.scala:187:29] wire _input_buffer_io_deq_0_bits_head; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_0_bits_tail; // @[InputUnit.scala:181:28] wire [72:0] _input_buffer_io_deq_0_bits_payload; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_1_valid; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_1_bits_head; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_1_bits_tail; // @[InputUnit.scala:181:28] wire [72:0] _input_buffer_io_deq_1_bits_payload; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_2_valid; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_2_bits_head; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_2_bits_tail; // @[InputUnit.scala:181:28] wire [72:0] _input_buffer_io_deq_2_bits_payload; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_3_valid; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_3_bits_head; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_3_bits_tail; // @[InputUnit.scala:181:28] wire [72:0] _input_buffer_io_deq_3_bits_payload; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_4_valid; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_4_bits_head; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_4_bits_tail; // @[InputUnit.scala:181:28] wire [72:0] _input_buffer_io_deq_4_bits_payload; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_5_valid; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_5_bits_head; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_5_bits_tail; // @[InputUnit.scala:181:28] wire [72:0] _input_buffer_io_deq_5_bits_payload; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_6_valid; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_6_bits_head; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_6_bits_tail; // @[InputUnit.scala:181:28] wire [72:0] _input_buffer_io_deq_6_bits_payload; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_7_valid; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_7_bits_head; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_7_bits_tail; // @[InputUnit.scala:181:28] wire [72:0] _input_buffer_io_deq_7_bits_payload; // @[InputUnit.scala:181:28] reg [2:0] states_1_g; // @[InputUnit.scala:192:19] reg states_1_vc_sel_3_1; // @[InputUnit.scala:192:19] reg states_1_vc_sel_0_1; // @[InputUnit.scala:192:19] reg states_1_vc_sel_0_2; // @[InputUnit.scala:192:19] reg states_1_vc_sel_0_3; // @[InputUnit.scala:192:19] reg states_1_vc_sel_0_4; // @[InputUnit.scala:192:19] reg states_1_vc_sel_0_5; // @[InputUnit.scala:192:19] reg states_1_vc_sel_0_6; // @[InputUnit.scala:192:19] reg states_1_vc_sel_0_7; // @[InputUnit.scala:192:19] reg [2:0] states_1_flow_vnet_id; // @[InputUnit.scala:192:19] reg [4:0] states_1_flow_ingress_node; // @[InputUnit.scala:192:19] reg [1:0] states_1_flow_ingress_node_id; // @[InputUnit.scala:192:19] reg [4:0] states_1_flow_egress_node; // @[InputUnit.scala:192:19] reg [1:0] states_1_flow_egress_node_id; // @[InputUnit.scala:192:19] reg [2:0] states_2_g; // @[InputUnit.scala:192:19] reg states_2_vc_sel_3_1; // @[InputUnit.scala:192:19] reg states_2_vc_sel_3_2; // @[InputUnit.scala:192:19] reg states_2_vc_sel_3_3; // @[InputUnit.scala:192:19] reg states_2_vc_sel_3_4; // @[InputUnit.scala:192:19] reg states_2_vc_sel_3_5; // @[InputUnit.scala:192:19] reg states_2_vc_sel_3_6; // @[InputUnit.scala:192:19] reg states_2_vc_sel_3_7; // @[InputUnit.scala:192:19] reg states_2_vc_sel_0_1; // @[InputUnit.scala:192:19] reg states_2_vc_sel_0_2; // @[InputUnit.scala:192:19] reg states_2_vc_sel_0_3; // @[InputUnit.scala:192:19] reg states_2_vc_sel_0_4; // @[InputUnit.scala:192:19] reg states_2_vc_sel_0_5; // @[InputUnit.scala:192:19] reg states_2_vc_sel_0_6; // @[InputUnit.scala:192:19] reg states_2_vc_sel_0_7; // @[InputUnit.scala:192:19] reg [2:0] states_2_flow_vnet_id; // @[InputUnit.scala:192:19] reg [4:0] states_2_flow_ingress_node; // @[InputUnit.scala:192:19] reg [1:0] states_2_flow_ingress_node_id; // @[InputUnit.scala:192:19] reg [4:0] states_2_flow_egress_node; // @[InputUnit.scala:192:19] reg [1:0] states_2_flow_egress_node_id; // @[InputUnit.scala:192:19] reg [2:0] states_3_g; // @[InputUnit.scala:192:19] reg states_3_vc_sel_3_1; // @[InputUnit.scala:192:19] reg states_3_vc_sel_3_2; // @[InputUnit.scala:192:19] reg states_3_vc_sel_3_3; // @[InputUnit.scala:192:19] reg states_3_vc_sel_3_4; // @[InputUnit.scala:192:19] reg states_3_vc_sel_3_5; // @[InputUnit.scala:192:19] reg states_3_vc_sel_3_6; // @[InputUnit.scala:192:19] reg states_3_vc_sel_3_7; // @[InputUnit.scala:192:19] reg states_3_vc_sel_0_1; // @[InputUnit.scala:192:19] reg states_3_vc_sel_0_2; // @[InputUnit.scala:192:19] reg states_3_vc_sel_0_3; // @[InputUnit.scala:192:19] reg states_3_vc_sel_0_4; // @[InputUnit.scala:192:19] reg states_3_vc_sel_0_5; // @[InputUnit.scala:192:19] reg states_3_vc_sel_0_6; // @[InputUnit.scala:192:19] reg states_3_vc_sel_0_7; // @[InputUnit.scala:192:19] reg [2:0] states_3_flow_vnet_id; // @[InputUnit.scala:192:19] reg [4:0] states_3_flow_ingress_node; // @[InputUnit.scala:192:19] reg [1:0] states_3_flow_ingress_node_id; // @[InputUnit.scala:192:19] reg [4:0] states_3_flow_egress_node; // @[InputUnit.scala:192:19] reg [1:0] states_3_flow_egress_node_id; // @[InputUnit.scala:192:19] reg [2:0] states_4_g; // @[InputUnit.scala:192:19] reg states_4_vc_sel_3_1; // @[InputUnit.scala:192:19] reg states_4_vc_sel_3_2; // @[InputUnit.scala:192:19] reg states_4_vc_sel_3_3; // @[InputUnit.scala:192:19] reg states_4_vc_sel_3_4; // @[InputUnit.scala:192:19] reg states_4_vc_sel_3_5; // @[InputUnit.scala:192:19] reg states_4_vc_sel_3_6; // @[InputUnit.scala:192:19] reg states_4_vc_sel_3_7; // @[InputUnit.scala:192:19] reg states_4_vc_sel_0_1; // @[InputUnit.scala:192:19] reg states_4_vc_sel_0_2; // @[InputUnit.scala:192:19] reg states_4_vc_sel_0_3; // @[InputUnit.scala:192:19] reg states_4_vc_sel_0_4; // @[InputUnit.scala:192:19] reg states_4_vc_sel_0_5; // @[InputUnit.scala:192:19] reg states_4_vc_sel_0_6; // @[InputUnit.scala:192:19] reg states_4_vc_sel_0_7; // @[InputUnit.scala:192:19] reg [2:0] states_4_flow_vnet_id; // @[InputUnit.scala:192:19] reg [4:0] states_4_flow_ingress_node; // @[InputUnit.scala:192:19] reg [1:0] states_4_flow_ingress_node_id; // @[InputUnit.scala:192:19] reg [4:0] states_4_flow_egress_node; // @[InputUnit.scala:192:19] reg [1:0] states_4_flow_egress_node_id; // @[InputUnit.scala:192:19] reg [2:0] states_5_g; // @[InputUnit.scala:192:19] reg states_5_vc_sel_3_1; // @[InputUnit.scala:192:19] reg states_5_vc_sel_3_2; // @[InputUnit.scala:192:19] reg states_5_vc_sel_3_3; // @[InputUnit.scala:192:19] reg states_5_vc_sel_3_4; // @[InputUnit.scala:192:19] reg states_5_vc_sel_3_5; // @[InputUnit.scala:192:19] reg states_5_vc_sel_3_6; // @[InputUnit.scala:192:19] reg states_5_vc_sel_3_7; // @[InputUnit.scala:192:19] reg states_5_vc_sel_2_4; // @[InputUnit.scala:192:19] reg states_5_vc_sel_2_5; // @[InputUnit.scala:192:19] reg states_5_vc_sel_2_6; // @[InputUnit.scala:192:19] reg states_5_vc_sel_2_7; // @[InputUnit.scala:192:19] reg states_5_vc_sel_0_1; // @[InputUnit.scala:192:19] reg states_5_vc_sel_0_2; // @[InputUnit.scala:192:19] reg states_5_vc_sel_0_3; // @[InputUnit.scala:192:19] reg states_5_vc_sel_0_4; // @[InputUnit.scala:192:19] reg states_5_vc_sel_0_5; // @[InputUnit.scala:192:19] reg states_5_vc_sel_0_6; // @[InputUnit.scala:192:19] reg states_5_vc_sel_0_7; // @[InputUnit.scala:192:19] reg [2:0] states_5_flow_vnet_id; // @[InputUnit.scala:192:19] reg [4:0] states_5_flow_ingress_node; // @[InputUnit.scala:192:19] reg [1:0] states_5_flow_ingress_node_id; // @[InputUnit.scala:192:19] reg [4:0] states_5_flow_egress_node; // @[InputUnit.scala:192:19] reg [1:0] states_5_flow_egress_node_id; // @[InputUnit.scala:192:19] reg [2:0] states_6_g; // @[InputUnit.scala:192:19] reg states_6_vc_sel_3_1; // @[InputUnit.scala:192:19] reg states_6_vc_sel_3_2; // @[InputUnit.scala:192:19] reg states_6_vc_sel_3_3; // @[InputUnit.scala:192:19] reg states_6_vc_sel_3_4; // @[InputUnit.scala:192:19] reg states_6_vc_sel_3_5; // @[InputUnit.scala:192:19] reg states_6_vc_sel_3_6; // @[InputUnit.scala:192:19] reg states_6_vc_sel_3_7; // @[InputUnit.scala:192:19] reg states_6_vc_sel_2_4; // @[InputUnit.scala:192:19] reg states_6_vc_sel_2_5; // @[InputUnit.scala:192:19] reg states_6_vc_sel_2_6; // @[InputUnit.scala:192:19] reg states_6_vc_sel_2_7; // @[InputUnit.scala:192:19] reg states_6_vc_sel_0_1; // @[InputUnit.scala:192:19] reg states_6_vc_sel_0_2; // @[InputUnit.scala:192:19] reg states_6_vc_sel_0_3; // @[InputUnit.scala:192:19] reg states_6_vc_sel_0_4; // @[InputUnit.scala:192:19] reg states_6_vc_sel_0_5; // @[InputUnit.scala:192:19] reg states_6_vc_sel_0_6; // @[InputUnit.scala:192:19] reg states_6_vc_sel_0_7; // @[InputUnit.scala:192:19] reg [2:0] states_6_flow_vnet_id; // @[InputUnit.scala:192:19] reg [4:0] states_6_flow_ingress_node; // @[InputUnit.scala:192:19] reg [1:0] states_6_flow_ingress_node_id; // @[InputUnit.scala:192:19] reg [4:0] states_6_flow_egress_node; // @[InputUnit.scala:192:19] reg [1:0] states_6_flow_egress_node_id; // @[InputUnit.scala:192:19] reg [2:0] states_7_g; // @[InputUnit.scala:192:19] reg states_7_vc_sel_3_1; // @[InputUnit.scala:192:19] reg states_7_vc_sel_3_2; // @[InputUnit.scala:192:19] reg states_7_vc_sel_3_3; // @[InputUnit.scala:192:19] reg states_7_vc_sel_3_4; // @[InputUnit.scala:192:19] reg states_7_vc_sel_3_5; // @[InputUnit.scala:192:19] reg states_7_vc_sel_3_6; // @[InputUnit.scala:192:19] reg states_7_vc_sel_3_7; // @[InputUnit.scala:192:19] reg states_7_vc_sel_2_4; // @[InputUnit.scala:192:19] reg states_7_vc_sel_2_5; // @[InputUnit.scala:192:19] reg states_7_vc_sel_2_6; // @[InputUnit.scala:192:19] reg states_7_vc_sel_2_7; // @[InputUnit.scala:192:19] reg states_7_vc_sel_0_1; // @[InputUnit.scala:192:19] reg states_7_vc_sel_0_2; // @[InputUnit.scala:192:19] reg states_7_vc_sel_0_3; // @[InputUnit.scala:192:19] reg states_7_vc_sel_0_4; // @[InputUnit.scala:192:19] reg states_7_vc_sel_0_5; // @[InputUnit.scala:192:19] reg states_7_vc_sel_0_6; // @[InputUnit.scala:192:19] reg states_7_vc_sel_0_7; // @[InputUnit.scala:192:19] reg [2:0] states_7_flow_vnet_id; // @[InputUnit.scala:192:19] reg [4:0] states_7_flow_ingress_node; // @[InputUnit.scala:192:19] reg [1:0] states_7_flow_ingress_node_id; // @[InputUnit.scala:192:19] reg [4:0] states_7_flow_egress_node; // @[InputUnit.scala:192:19] reg [1:0] states_7_flow_egress_node_id; // @[InputUnit.scala:192:19] wire _GEN = io_in_flit_0_valid & io_in_flit_0_bits_head; // @[InputUnit.scala:205:30] wire route_arbiter_io_in_1_valid = states_1_g == 3'h1; // @[InputUnit.scala:192:19, :229:22] wire route_arbiter_io_in_2_valid = states_2_g == 3'h1; // @[InputUnit.scala:192:19, :229:22] wire route_arbiter_io_in_3_valid = states_3_g == 3'h1; // @[InputUnit.scala:192:19, :229:22] wire route_arbiter_io_in_4_valid = states_4_g == 3'h1; // @[InputUnit.scala:192:19, :229:22] wire route_arbiter_io_in_5_valid = states_5_g == 3'h1; // @[InputUnit.scala:192:19, :229:22] wire route_arbiter_io_in_6_valid = states_6_g == 3'h1; // @[InputUnit.scala:192:19, :229:22] wire route_arbiter_io_in_7_valid = states_7_g == 3'h1; // @[InputUnit.scala:192:19, :229:22] reg [7:0] mask; // @[InputUnit.scala:250:21] wire [7:0] _vcalloc_filter_T_3 = {vcalloc_vals_7, vcalloc_vals_6, vcalloc_vals_5, vcalloc_vals_4, vcalloc_vals_3, vcalloc_vals_2, vcalloc_vals_1, 1'h0} & ~mask; // @[InputUnit.scala:250:21, :253:{80,87,89}, :266:32] wire [15:0] vcalloc_filter = _vcalloc_filter_T_3[0] ? 16'h1 : _vcalloc_filter_T_3[1] ? 16'h2 : _vcalloc_filter_T_3[2] ? 16'h4 : _vcalloc_filter_T_3[3] ? 16'h8 : _vcalloc_filter_T_3[4] ? 16'h10 : _vcalloc_filter_T_3[5] ? 16'h20 : _vcalloc_filter_T_3[6] ? 16'h40 : _vcalloc_filter_T_3[7] ? 16'h80 : vcalloc_vals_1 ? 16'h200 : vcalloc_vals_2 ? 16'h400 : vcalloc_vals_3 ? 16'h800 : vcalloc_vals_4 ? 16'h1000 : vcalloc_vals_5 ? 16'h2000 : vcalloc_vals_6 ? 16'h4000 : {vcalloc_vals_7, 15'h0}; // @[OneHot.scala:85:71] wire [7:0] vcalloc_sel = vcalloc_filter[7:0] | vcalloc_filter[15:8]; // @[Mux.scala:50:70] wire io_vcalloc_req_valid_0 = vcalloc_vals_1 | vcalloc_vals_2 | vcalloc_vals_3 | vcalloc_vals_4 | vcalloc_vals_5 | vcalloc_vals_6 | vcalloc_vals_7; // @[package.scala:81:59] assign vcalloc_vals_1 = states_1_g == 3'h2; // @[InputUnit.scala:192:19, :266:32] assign vcalloc_vals_2 = states_2_g == 3'h2; // @[InputUnit.scala:192:19, :266:32] assign vcalloc_vals_3 = states_3_g == 3'h2; // @[InputUnit.scala:192:19, :266:32] assign vcalloc_vals_4 = states_4_g == 3'h2; // @[InputUnit.scala:192:19, :266:32] assign vcalloc_vals_5 = states_5_g == 3'h2; // @[InputUnit.scala:192:19, :266:32] assign vcalloc_vals_6 = states_6_g == 3'h2; // @[InputUnit.scala:192:19, :266:32] assign vcalloc_vals_7 = states_7_g == 3'h2; // @[InputUnit.scala:192:19, :266:32] wire _GEN_0 = io_vcalloc_req_ready & io_vcalloc_req_valid_0; // @[Decoupled.scala:51:35] wire _GEN_1 = _GEN_0 & vcalloc_sel[1]; // @[Mux.scala:32:36] wire _GEN_2 = _GEN_0 & vcalloc_sel[2]; // @[Mux.scala:32:36] wire _GEN_3 = _GEN_0 & vcalloc_sel[3]; // @[Mux.scala:32:36] wire _GEN_4 = _GEN_0 & vcalloc_sel[4]; // @[Mux.scala:32:36] wire _GEN_5 = _GEN_0 & vcalloc_sel[5]; // @[Mux.scala:32:36] wire _GEN_6 = _GEN_0 & vcalloc_sel[6]; // @[Mux.scala:32:36] wire _GEN_7 = _GEN_0 & vcalloc_sel[7]; // @[Mux.scala:32:36]
Generate the Verilog code corresponding to the following Chisel files. File Serdes.scala: package testchipip.serdes import chisel3._ import chisel3.util._ import freechips.rocketchip.diplomacy._ import org.chipsalliance.cde.config._ class GenericSerializer[T <: Data](t: T, flitWidth: Int) extends Module { override def desiredName = s"GenericSerializer_${t.typeName}w${t.getWidth}_f${flitWidth}" val io = IO(new Bundle { val in = Flipped(Decoupled(t)) val out = Decoupled(new Flit(flitWidth)) val busy = Output(Bool()) }) val dataBits = t.getWidth.max(flitWidth) val dataBeats = (dataBits - 1) / flitWidth + 1 require(dataBeats >= 1) val data = Reg(Vec(dataBeats, UInt(flitWidth.W))) val beat = RegInit(0.U(log2Ceil(dataBeats).W)) io.in.ready := io.out.ready && beat === 0.U io.out.valid := io.in.valid || beat =/= 0.U io.out.bits.flit := Mux(beat === 0.U, io.in.bits.asUInt, data(beat)) when (io.out.fire) { beat := Mux(beat === (dataBeats-1).U, 0.U, beat + 1.U) when (beat === 0.U) { data := io.in.bits.asTypeOf(Vec(dataBeats, UInt(flitWidth.W))) data(0) := DontCare // unused, DCE this } } io.busy := io.out.valid } class GenericDeserializer[T <: Data](t: T, flitWidth: Int) extends Module { override def desiredName = s"GenericDeserializer_${t.typeName}w${t.getWidth}_f${flitWidth}" val io = IO(new Bundle { val in = Flipped(Decoupled(new Flit(flitWidth))) val out = Decoupled(t) val busy = Output(Bool()) }) val dataBits = t.getWidth.max(flitWidth) val dataBeats = (dataBits - 1) / flitWidth + 1 require(dataBeats >= 1) val data = Reg(Vec(dataBeats-1, UInt(flitWidth.W))) val beat = RegInit(0.U(log2Ceil(dataBeats).W)) io.in.ready := io.out.ready || beat =/= (dataBeats-1).U io.out.valid := io.in.valid && beat === (dataBeats-1).U io.out.bits := (if (dataBeats == 1) { io.in.bits.flit.asTypeOf(t) } else { Cat(io.in.bits.flit, data.asUInt).asTypeOf(t) }) when (io.in.fire) { beat := Mux(beat === (dataBeats-1).U, 0.U, beat + 1.U) if (dataBeats > 1) { when (beat =/= (dataBeats-1).U) { data(beat(log2Ceil(dataBeats-1)-1,0)) := io.in.bits.flit } } } io.busy := beat =/= 0.U } class FlitToPhit(flitWidth: Int, phitWidth: Int) extends Module { override def desiredName = s"FlitToPhit_f${flitWidth}_p${phitWidth}" val io = IO(new Bundle { val in = Flipped(Decoupled(new Flit(flitWidth))) val out = Decoupled(new Phit(phitWidth)) }) require(flitWidth >= phitWidth) val dataBeats = (flitWidth - 1) / phitWidth + 1 val data = Reg(Vec(dataBeats-1, UInt(phitWidth.W))) val beat = RegInit(0.U(log2Ceil(dataBeats).W)) io.in.ready := io.out.ready && beat === 0.U io.out.valid := io.in.valid || beat =/= 0.U io.out.bits.phit := (if (dataBeats == 1) io.in.bits.flit else Mux(beat === 0.U, io.in.bits.flit, data(beat-1.U))) when (io.out.fire) { beat := Mux(beat === (dataBeats-1).U, 0.U, beat + 1.U) when (beat === 0.U) { data := io.in.bits.asTypeOf(Vec(dataBeats, UInt(phitWidth.W))).tail } } } object FlitToPhit { def apply(flit: DecoupledIO[Flit], phitWidth: Int): DecoupledIO[Phit] = { val flit2phit = Module(new FlitToPhit(flit.bits.flitWidth, phitWidth)) flit2phit.io.in <> flit flit2phit.io.out } } class PhitToFlit(flitWidth: Int, phitWidth: Int) extends Module { override def desiredName = s"PhitToFlit_p${phitWidth}_f${flitWidth}" val io = IO(new Bundle { val in = Flipped(Decoupled(new Phit(phitWidth))) val out = Decoupled(new Flit(flitWidth)) }) require(flitWidth >= phitWidth) val dataBeats = (flitWidth - 1) / phitWidth + 1 val data = Reg(Vec(dataBeats-1, UInt(phitWidth.W))) val beat = RegInit(0.U(log2Ceil(dataBeats).W)) io.in.ready := io.out.ready || beat =/= (dataBeats-1).U io.out.valid := io.in.valid && beat === (dataBeats-1).U io.out.bits.flit := (if (dataBeats == 1) io.in.bits.phit else Cat(io.in.bits.phit, data.asUInt)) when (io.in.fire) { beat := Mux(beat === (dataBeats-1).U, 0.U, beat + 1.U) if (dataBeats > 1) { when (beat =/= (dataBeats-1).U) { data(beat) := io.in.bits.phit } } } } object PhitToFlit { def apply(phit: DecoupledIO[Phit], flitWidth: Int): DecoupledIO[Flit] = { val phit2flit = Module(new PhitToFlit(flitWidth, phit.bits.phitWidth)) phit2flit.io.in <> phit phit2flit.io.out } def apply(phit: ValidIO[Phit], flitWidth: Int): ValidIO[Flit] = { val phit2flit = Module(new PhitToFlit(flitWidth, phit.bits.phitWidth)) phit2flit.io.in.valid := phit.valid phit2flit.io.in.bits := phit.bits when (phit.valid) { assert(phit2flit.io.in.ready) } val out = Wire(Valid(new Flit(flitWidth))) out.valid := phit2flit.io.out.valid out.bits := phit2flit.io.out.bits phit2flit.io.out.ready := true.B out } } class PhitArbiter(phitWidth: Int, flitWidth: Int, channels: Int) extends Module { override def desiredName = s"PhitArbiter_p${phitWidth}_f${flitWidth}_n${channels}" val io = IO(new Bundle { val in = Flipped(Vec(channels, Decoupled(new Phit(phitWidth)))) val out = Decoupled(new Phit(phitWidth)) }) if (channels == 1) { io.out <> io.in(0) } else { val headerWidth = log2Ceil(channels) val headerBeats = (headerWidth - 1) / phitWidth + 1 val flitBeats = (flitWidth - 1) / phitWidth + 1 val beats = headerBeats + flitBeats val beat = RegInit(0.U(log2Ceil(beats).W)) val chosen_reg = Reg(UInt(headerWidth.W)) val chosen_prio = PriorityEncoder(io.in.map(_.valid)) val chosen = Mux(beat === 0.U, chosen_prio, chosen_reg) val header_idx = if (headerBeats == 1) 0.U else beat(log2Ceil(headerBeats)-1,0) io.out.valid := VecInit(io.in.map(_.valid))(chosen) io.out.bits.phit := Mux(beat < headerBeats.U, chosen.asTypeOf(Vec(headerBeats, UInt(phitWidth.W)))(header_idx), VecInit(io.in.map(_.bits.phit))(chosen)) for (i <- 0 until channels) { io.in(i).ready := io.out.ready && beat >= headerBeats.U && chosen_reg === i.U } when (io.out.fire) { beat := Mux(beat === (beats-1).U, 0.U, beat + 1.U) when (beat === 0.U) { chosen_reg := chosen_prio } } } } class PhitDemux(phitWidth: Int, flitWidth: Int, channels: Int) extends Module { override def desiredName = s"PhitDemux_p${phitWidth}_f${flitWidth}_n${channels}" val io = IO(new Bundle { val in = Flipped(Decoupled(new Phit(phitWidth))) val out = Vec(channels, Decoupled(new Phit(phitWidth))) }) if (channels == 1) { io.out(0) <> io.in } else { val headerWidth = log2Ceil(channels) val headerBeats = (headerWidth - 1) / phitWidth + 1 val flitBeats = (flitWidth - 1) / phitWidth + 1 val beats = headerBeats + flitBeats val beat = RegInit(0.U(log2Ceil(beats).W)) val channel_vec = Reg(Vec(headerBeats, UInt(phitWidth.W))) val channel = channel_vec.asUInt(log2Ceil(channels)-1,0) val header_idx = if (headerBeats == 1) 0.U else beat(log2Ceil(headerBeats)-1,0) io.in.ready := beat < headerBeats.U || VecInit(io.out.map(_.ready))(channel) for (c <- 0 until channels) { io.out(c).valid := io.in.valid && beat >= headerBeats.U && channel === c.U io.out(c).bits.phit := io.in.bits.phit } when (io.in.fire) { beat := Mux(beat === (beats-1).U, 0.U, beat + 1.U) when (beat < headerBeats.U) { channel_vec(header_idx) := io.in.bits.phit } } } } class DecoupledFlitToCreditedFlit(flitWidth: Int, bufferSz: Int) extends Module { override def desiredName = s"DecoupledFlitToCreditedFlit_f${flitWidth}_b${bufferSz}" val io = IO(new Bundle { val in = Flipped(Decoupled(new Flit(flitWidth))) val out = Decoupled(new Flit(flitWidth)) val credit = Flipped(Decoupled(new Flit(flitWidth))) }) val creditWidth = log2Ceil(bufferSz) require(creditWidth <= flitWidth) val credits = RegInit(0.U((creditWidth+1).W)) val credit_incr = io.out.fire val credit_decr = io.credit.fire when (credit_incr || credit_decr) { credits := credits + credit_incr - Mux(io.credit.valid, io.credit.bits.flit +& 1.U, 0.U) } io.out.valid := io.in.valid && credits < bufferSz.U io.out.bits.flit := io.in.bits.flit io.in.ready := io.out.ready && credits < bufferSz.U io.credit.ready := true.B } class CreditedFlitToDecoupledFlit(flitWidth: Int, bufferSz: Int) extends Module { override def desiredName = s"CreditedFlitToDecoupledFlit_f${flitWidth}_b${bufferSz}" val io = IO(new Bundle { val in = Flipped(Decoupled(new Flit(flitWidth))) val out = Decoupled(new Flit(flitWidth)) val credit = Decoupled(new Flit(flitWidth)) }) val creditWidth = log2Ceil(bufferSz) require(creditWidth <= flitWidth) val buffer = Module(new Queue(new Flit(flitWidth), bufferSz)) val credits = RegInit(0.U((creditWidth+1).W)) val credit_incr = buffer.io.deq.fire val credit_decr = io.credit.fire when (credit_incr || credit_decr) { credits := credit_incr + Mux(credit_decr, 0.U, credits) } buffer.io.enq.valid := io.in.valid buffer.io.enq.bits := io.in.bits io.in.ready := true.B when (io.in.valid) { assert(buffer.io.enq.ready) } io.out <> buffer.io.deq io.credit.valid := credits =/= 0.U io.credit.bits.flit := credits - 1.U }
module PhitArbiter_p32_f32_n5( // @[Serdes.scala:148:7] input clock, // @[Serdes.scala:148:7] input reset, // @[Serdes.scala:148:7] output io_in_0_ready, // @[Serdes.scala:150:14] input io_in_0_valid, // @[Serdes.scala:150:14] input [31:0] io_in_0_bits_phit, // @[Serdes.scala:150:14] output io_in_1_ready, // @[Serdes.scala:150:14] input io_in_1_valid, // @[Serdes.scala:150:14] input [31:0] io_in_1_bits_phit, // @[Serdes.scala:150:14] output io_in_2_ready, // @[Serdes.scala:150:14] input io_in_2_valid, // @[Serdes.scala:150:14] input [31:0] io_in_2_bits_phit, // @[Serdes.scala:150:14] output io_in_3_ready, // @[Serdes.scala:150:14] input io_in_3_valid, // @[Serdes.scala:150:14] input [31:0] io_in_3_bits_phit, // @[Serdes.scala:150:14] output io_in_4_ready, // @[Serdes.scala:150:14] input io_in_4_valid, // @[Serdes.scala:150:14] input [31:0] io_in_4_bits_phit, // @[Serdes.scala:150:14] input io_out_ready, // @[Serdes.scala:150:14] output io_out_valid, // @[Serdes.scala:150:14] output [31:0] io_out_bits_phit // @[Serdes.scala:150:14] ); wire [31:0] _io_out_bits_phit_WIRE_1; // @[Serdes.scala:169:22] wire io_in_0_valid_0 = io_in_0_valid; // @[Serdes.scala:148:7] wire [31:0] io_in_0_bits_phit_0 = io_in_0_bits_phit; // @[Serdes.scala:148:7] wire io_in_1_valid_0 = io_in_1_valid; // @[Serdes.scala:148:7] wire [31:0] io_in_1_bits_phit_0 = io_in_1_bits_phit; // @[Serdes.scala:148:7] wire io_in_2_valid_0 = io_in_2_valid; // @[Serdes.scala:148:7] wire [31:0] io_in_2_bits_phit_0 = io_in_2_bits_phit; // @[Serdes.scala:148:7] wire io_in_3_valid_0 = io_in_3_valid; // @[Serdes.scala:148:7] wire [31:0] io_in_3_bits_phit_0 = io_in_3_bits_phit; // @[Serdes.scala:148:7] wire io_in_4_valid_0 = io_in_4_valid; // @[Serdes.scala:148:7] wire [31:0] io_in_4_bits_phit_0 = io_in_4_bits_phit; // @[Serdes.scala:148:7] wire io_out_ready_0 = io_out_ready; // @[Serdes.scala:148:7] wire _io_in_0_ready_T_3; // @[Serdes.scala:173:63] wire _io_out_valid_WIRE_0 = io_in_0_valid_0; // @[Serdes.scala:148:7, :167:28] wire [31:0] _io_out_bits_phit_WIRE_2_0 = io_in_0_bits_phit_0; // @[Serdes.scala:148:7, :170:14] wire _io_in_1_ready_T_3; // @[Serdes.scala:173:63] wire _io_out_valid_WIRE_1 = io_in_1_valid_0; // @[Serdes.scala:148:7, :167:28] wire [31:0] _io_out_bits_phit_WIRE_2_1 = io_in_1_bits_phit_0; // @[Serdes.scala:148:7, :170:14] wire _io_in_2_ready_T_3; // @[Serdes.scala:173:63] wire _io_out_valid_WIRE_2 = io_in_2_valid_0; // @[Serdes.scala:148:7, :167:28] wire [31:0] _io_out_bits_phit_WIRE_2_2 = io_in_2_bits_phit_0; // @[Serdes.scala:148:7, :170:14] wire _io_in_3_ready_T_3; // @[Serdes.scala:173:63] wire _io_out_valid_WIRE_3 = io_in_3_valid_0; // @[Serdes.scala:148:7, :167:28] wire [31:0] _io_out_bits_phit_WIRE_2_3 = io_in_3_bits_phit_0; // @[Serdes.scala:148:7, :170:14] wire _io_in_4_ready_T_3; // @[Serdes.scala:173:63] wire _io_out_valid_WIRE_4 = io_in_4_valid_0; // @[Serdes.scala:148:7, :167:28] wire [31:0] _io_out_bits_phit_WIRE_2_4 = io_in_4_bits_phit_0; // @[Serdes.scala:148:7, :170:14] wire [31:0] _io_out_bits_phit_T_2; // @[Serdes.scala:168:28] wire io_in_0_ready_0; // @[Serdes.scala:148:7] wire io_in_1_ready_0; // @[Serdes.scala:148:7] wire io_in_2_ready_0; // @[Serdes.scala:148:7] wire io_in_3_ready_0; // @[Serdes.scala:148:7] wire io_in_4_ready_0; // @[Serdes.scala:148:7] wire [31:0] io_out_bits_phit_0; // @[Serdes.scala:148:7] wire io_out_valid_0; // @[Serdes.scala:148:7] reg beat; // @[Serdes.scala:161:23] wire _io_in_0_ready_T = beat; // @[Serdes.scala:161:23, :173:46] wire _io_in_1_ready_T = beat; // @[Serdes.scala:161:23, :173:46] wire _io_in_2_ready_T = beat; // @[Serdes.scala:161:23, :173:46] wire _io_in_3_ready_T = beat; // @[Serdes.scala:161:23, :173:46] wire _io_in_4_ready_T = beat; // @[Serdes.scala:161:23, :173:46] wire _beat_T = beat; // @[Serdes.scala:161:23, :177:24] reg [2:0] chosen_reg; // @[Serdes.scala:162:25] wire [2:0] _chosen_prio_T = io_in_3_valid_0 ? 3'h3 : 3'h4; // @[Mux.scala:50:70] wire [2:0] _chosen_prio_T_1 = io_in_2_valid_0 ? 3'h2 : _chosen_prio_T; // @[Mux.scala:50:70] wire [2:0] _chosen_prio_T_2 = io_in_1_valid_0 ? 3'h1 : _chosen_prio_T_1; // @[Mux.scala:50:70] wire [2:0] chosen_prio = io_in_0_valid_0 ? 3'h0 : _chosen_prio_T_2; // @[Mux.scala:50:70] wire _chosen_T = ~beat; // @[Serdes.scala:161:23, :164:27] wire [2:0] chosen = _chosen_T ? chosen_prio : chosen_reg; // @[Mux.scala:50:70] wire [7:0] _GEN = {{_io_out_valid_WIRE_0}, {_io_out_valid_WIRE_0}, {_io_out_valid_WIRE_0}, {_io_out_valid_WIRE_4}, {_io_out_valid_WIRE_3}, {_io_out_valid_WIRE_2}, {_io_out_valid_WIRE_1}, {_io_out_valid_WIRE_0}}; // @[Serdes.scala:167:{18,28}] assign io_out_valid_0 = _GEN[chosen]; // @[Serdes.scala:148:7, :164:21, :167:18] wire _io_out_bits_phit_T = ~beat; // @[Serdes.scala:161:23, :168:34] wire [31:0] _io_out_bits_phit_T_1 = _io_out_bits_phit_WIRE_1; // @[Serdes.scala:169:22] assign _io_out_bits_phit_WIRE_1 = {29'h0, chosen}; // @[Serdes.scala:164:21, :169:22] wire [31:0] _io_out_bits_phit_WIRE_0 = _io_out_bits_phit_T_1; // @[Serdes.scala:169:22] wire [7:0][31:0] _GEN_0 = {{_io_out_bits_phit_WIRE_2_0}, {_io_out_bits_phit_WIRE_2_0}, {_io_out_bits_phit_WIRE_2_0}, {_io_out_bits_phit_WIRE_2_4}, {_io_out_bits_phit_WIRE_2_3}, {_io_out_bits_phit_WIRE_2_2}, {_io_out_bits_phit_WIRE_2_1}, {_io_out_bits_phit_WIRE_2_0}}; // @[Serdes.scala:168:28, :170:14] assign _io_out_bits_phit_T_2 = _io_out_bits_phit_T ? _io_out_bits_phit_WIRE_0 : _GEN_0[chosen]; // @[Serdes.scala:164:21, :168:{28,34}, :169:22] assign io_out_bits_phit_0 = _io_out_bits_phit_T_2; // @[Serdes.scala:148:7, :168:28] wire _io_in_0_ready_T_1 = io_out_ready_0 & _io_in_0_ready_T; // @[Serdes.scala:148:7, :173:{38,46}] wire _io_in_0_ready_T_2 = chosen_reg == 3'h0; // @[Serdes.scala:162:25, :173:77] assign _io_in_0_ready_T_3 = _io_in_0_ready_T_1 & _io_in_0_ready_T_2; // @[Serdes.scala:173:{38,63,77}] assign io_in_0_ready_0 = _io_in_0_ready_T_3; // @[Serdes.scala:148:7, :173:63] wire _io_in_1_ready_T_1 = io_out_ready_0 & _io_in_1_ready_T; // @[Serdes.scala:148:7, :173:{38,46}] wire _io_in_1_ready_T_2 = chosen_reg == 3'h1; // @[Serdes.scala:162:25, :173:77] assign _io_in_1_ready_T_3 = _io_in_1_ready_T_1 & _io_in_1_ready_T_2; // @[Serdes.scala:173:{38,63,77}] assign io_in_1_ready_0 = _io_in_1_ready_T_3; // @[Serdes.scala:148:7, :173:63] wire _io_in_2_ready_T_1 = io_out_ready_0 & _io_in_2_ready_T; // @[Serdes.scala:148:7, :173:{38,46}] wire _io_in_2_ready_T_2 = chosen_reg == 3'h2; // @[Serdes.scala:162:25, :173:77] assign _io_in_2_ready_T_3 = _io_in_2_ready_T_1 & _io_in_2_ready_T_2; // @[Serdes.scala:173:{38,63,77}] assign io_in_2_ready_0 = _io_in_2_ready_T_3; // @[Serdes.scala:148:7, :173:63] wire _io_in_3_ready_T_1 = io_out_ready_0 & _io_in_3_ready_T; // @[Serdes.scala:148:7, :173:{38,46}] wire _io_in_3_ready_T_2 = chosen_reg == 3'h3; // @[Serdes.scala:162:25, :173:77] assign _io_in_3_ready_T_3 = _io_in_3_ready_T_1 & _io_in_3_ready_T_2; // @[Serdes.scala:173:{38,63,77}] assign io_in_3_ready_0 = _io_in_3_ready_T_3; // @[Serdes.scala:148:7, :173:63] wire _io_in_4_ready_T_1 = io_out_ready_0 & _io_in_4_ready_T; // @[Serdes.scala:148:7, :173:{38,46}] wire _io_in_4_ready_T_2 = chosen_reg == 3'h4; // @[Serdes.scala:162:25, :173:77] assign _io_in_4_ready_T_3 = _io_in_4_ready_T_1 & _io_in_4_ready_T_2; // @[Serdes.scala:173:{38,63,77}] assign io_in_4_ready_0 = _io_in_4_ready_T_3; // @[Serdes.scala:148:7, :173:63] wire [1:0] _beat_T_1 = {1'h0, beat} + 2'h1; // @[Serdes.scala:161:23, :177:51] wire _beat_T_2 = _beat_T_1[0]; // @[Serdes.scala:177:51] wire _beat_T_3 = ~_beat_T & _beat_T_2; // @[Serdes.scala:177:{18,24,51}] wire _T = io_out_ready_0 & io_out_valid_0; // @[Decoupled.scala:51:35] always @(posedge clock) begin // @[Serdes.scala:148:7] if (reset) // @[Serdes.scala:148:7] beat <= 1'h0; // @[Serdes.scala:161:23] else if (_T) // @[Decoupled.scala:51:35] beat <= _beat_T_3; // @[Serdes.scala:161:23, :177:18] if (_T & ~beat) // @[Decoupled.scala:51:35] chosen_reg <= chosen_prio; // @[Mux.scala:50:70] always @(posedge) assign io_in_0_ready = io_in_0_ready_0; // @[Serdes.scala:148:7] assign io_in_1_ready = io_in_1_ready_0; // @[Serdes.scala:148:7] assign io_in_2_ready = io_in_2_ready_0; // @[Serdes.scala:148:7] assign io_in_3_ready = io_in_3_ready_0; // @[Serdes.scala:148:7] assign io_in_4_ready = io_in_4_ready_0; // @[Serdes.scala:148:7] assign io_out_valid = io_out_valid_0; // @[Serdes.scala:148:7] assign io_out_bits_phit = io_out_bits_phit_0; // @[Serdes.scala:148:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File RecFNToRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import consts._ class RecFNToRecFN( inExpWidth: Int, inSigWidth: Int, outExpWidth: Int, outSigWidth: Int) extends chisel3.RawModule { val io = IO(new Bundle { val in = Input(Bits((inExpWidth + inSigWidth + 1).W)) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) val out = Output(Bits((outExpWidth + outSigWidth + 1).W)) val exceptionFlags = Output(Bits(5.W)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val rawIn = rawFloatFromRecFN(inExpWidth, inSigWidth, io.in); if ((inExpWidth == outExpWidth) && (inSigWidth <= outSigWidth)) { //-------------------------------------------------------------------- //-------------------------------------------------------------------- io.out := io.in<<(outSigWidth - inSigWidth) io.exceptionFlags := isSigNaNRawFloat(rawIn) ## 0.U(4.W) } else { //-------------------------------------------------------------------- //-------------------------------------------------------------------- val roundAnyRawFNToRecFN = Module( new RoundAnyRawFNToRecFN( inExpWidth, inSigWidth, outExpWidth, outSigWidth, flRoundOpt_sigMSBitAlwaysZero )) roundAnyRawFNToRecFN.io.invalidExc := isSigNaNRawFloat(rawIn) roundAnyRawFNToRecFN.io.infiniteExc := false.B roundAnyRawFNToRecFN.io.in := rawIn roundAnyRawFNToRecFN.io.roundingMode := io.roundingMode roundAnyRawFNToRecFN.io.detectTininess := io.detectTininess io.out := roundAnyRawFNToRecFN.io.out io.exceptionFlags := roundAnyRawFNToRecFN.io.exceptionFlags } } File rawFloatFromRecFN.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2010, 2011, 2012, 2013, 2014, 2015, 2016 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the University nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ package hardfloat import chisel3._ import chisel3.util._ /*---------------------------------------------------------------------------- | In the result, no more than one of 'isNaN', 'isInf', and 'isZero' will be | set. *----------------------------------------------------------------------------*/ object rawFloatFromRecFN { def apply(expWidth: Int, sigWidth: Int, in: Bits): RawFloat = { val exp = in(expWidth + sigWidth - 1, sigWidth - 1) val isZero = exp(expWidth, expWidth - 2) === 0.U val isSpecial = exp(expWidth, expWidth - 1) === 3.U val out = Wire(new RawFloat(expWidth, sigWidth)) out.isNaN := isSpecial && exp(expWidth - 2) out.isInf := isSpecial && ! exp(expWidth - 2) out.isZero := isZero out.sign := in(expWidth + sigWidth) out.sExp := exp.zext out.sig := 0.U(1.W) ## ! isZero ## in(sigWidth - 2, 0) out } }
module RecFNToRecFN_232( // @[RecFNToRecFN.scala:44:5] input [32:0] io_in, // @[RecFNToRecFN.scala:48:16] output [32:0] io_out // @[RecFNToRecFN.scala:48:16] ); wire [32:0] io_in_0 = io_in; // @[RecFNToRecFN.scala:44:5] wire io_detectTininess = 1'h1; // @[RecFNToRecFN.scala:44:5, :48:16] wire [2:0] io_roundingMode = 3'h0; // @[RecFNToRecFN.scala:44:5, :48:16] wire [32:0] _io_out_T = io_in_0; // @[RecFNToRecFN.scala:44:5, :64:35] wire [4:0] _io_exceptionFlags_T_3; // @[RecFNToRecFN.scala:65:54] wire [32:0] io_out_0; // @[RecFNToRecFN.scala:44:5] wire [4:0] io_exceptionFlags; // @[RecFNToRecFN.scala:44:5] wire [8:0] rawIn_exp = io_in_0[31:23]; // @[rawFloatFromRecFN.scala:51:21] wire [2:0] _rawIn_isZero_T = rawIn_exp[8:6]; // @[rawFloatFromRecFN.scala:51:21, :52:28] wire rawIn_isZero = _rawIn_isZero_T == 3'h0; // @[rawFloatFromRecFN.scala:52:{28,53}] wire rawIn_isZero_0 = rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :55:23] wire [1:0] _rawIn_isSpecial_T = rawIn_exp[8:7]; // @[rawFloatFromRecFN.scala:51:21, :53:28] wire rawIn_isSpecial = &_rawIn_isSpecial_T; // @[rawFloatFromRecFN.scala:53:{28,53}] wire _rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:56:33] wire _rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:57:33] wire _rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:59:25] wire [9:0] _rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:60:27] wire [24:0] _rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:61:44] wire rawIn_isNaN; // @[rawFloatFromRecFN.scala:55:23] wire rawIn_isInf; // @[rawFloatFromRecFN.scala:55:23] wire rawIn_sign; // @[rawFloatFromRecFN.scala:55:23] wire [9:0] rawIn_sExp; // @[rawFloatFromRecFN.scala:55:23] wire [24:0] rawIn_sig; // @[rawFloatFromRecFN.scala:55:23] wire _rawIn_out_isNaN_T = rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41] wire _rawIn_out_isInf_T = rawIn_exp[6]; // @[rawFloatFromRecFN.scala:51:21, :56:41, :57:41] assign _rawIn_out_isNaN_T_1 = rawIn_isSpecial & _rawIn_out_isNaN_T; // @[rawFloatFromRecFN.scala:53:53, :56:{33,41}] assign rawIn_isNaN = _rawIn_out_isNaN_T_1; // @[rawFloatFromRecFN.scala:55:23, :56:33] wire _rawIn_out_isInf_T_1 = ~_rawIn_out_isInf_T; // @[rawFloatFromRecFN.scala:57:{36,41}] assign _rawIn_out_isInf_T_2 = rawIn_isSpecial & _rawIn_out_isInf_T_1; // @[rawFloatFromRecFN.scala:53:53, :57:{33,36}] assign rawIn_isInf = _rawIn_out_isInf_T_2; // @[rawFloatFromRecFN.scala:55:23, :57:33] assign _rawIn_out_sign_T = io_in_0[32]; // @[rawFloatFromRecFN.scala:59:25] assign rawIn_sign = _rawIn_out_sign_T; // @[rawFloatFromRecFN.scala:55:23, :59:25] assign _rawIn_out_sExp_T = {1'h0, rawIn_exp}; // @[rawFloatFromRecFN.scala:51:21, :60:27] assign rawIn_sExp = _rawIn_out_sExp_T; // @[rawFloatFromRecFN.scala:55:23, :60:27] wire _rawIn_out_sig_T = ~rawIn_isZero; // @[rawFloatFromRecFN.scala:52:53, :61:35] wire [1:0] _rawIn_out_sig_T_1 = {1'h0, _rawIn_out_sig_T}; // @[rawFloatFromRecFN.scala:61:{32,35}] wire [22:0] _rawIn_out_sig_T_2 = io_in_0[22:0]; // @[rawFloatFromRecFN.scala:61:49] assign _rawIn_out_sig_T_3 = {_rawIn_out_sig_T_1, _rawIn_out_sig_T_2}; // @[rawFloatFromRecFN.scala:61:{32,44,49}] assign rawIn_sig = _rawIn_out_sig_T_3; // @[rawFloatFromRecFN.scala:55:23, :61:44] assign io_out_0 = _io_out_T; // @[RecFNToRecFN.scala:44:5, :64:35] wire _io_exceptionFlags_T = rawIn_sig[22]; // @[rawFloatFromRecFN.scala:55:23] wire _io_exceptionFlags_T_1 = ~_io_exceptionFlags_T; // @[common.scala:82:{49,56}] wire _io_exceptionFlags_T_2 = rawIn_isNaN & _io_exceptionFlags_T_1; // @[rawFloatFromRecFN.scala:55:23] assign _io_exceptionFlags_T_3 = {_io_exceptionFlags_T_2, 4'h0}; // @[common.scala:82:46] assign io_exceptionFlags = _io_exceptionFlags_T_3; // @[RecFNToRecFN.scala:44:5, :65:54] assign io_out = io_out_0; // @[RecFNToRecFN.scala:44:5] endmodule
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File AsyncQueue.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ case class AsyncQueueParams( depth: Int = 8, sync: Int = 3, safe: Boolean = true, // If safe is true, then effort is made to resynchronize the crossing indices when either side is reset. // This makes it safe/possible to reset one side of the crossing (but not the other) when the queue is empty. narrow: Boolean = false) // If narrow is true then the read mux is moved to the source side of the crossing. // This reduces the number of level shifters in the case where the clock crossing is also a voltage crossing, // at the expense of a combinational path from the sink to the source and back to the sink. { require (depth > 0 && isPow2(depth)) require (sync >= 2) val bits = log2Ceil(depth) val wires = if (narrow) 1 else depth } object AsyncQueueParams { // When there is only one entry, we don't need narrow. def singleton(sync: Int = 3, safe: Boolean = true) = AsyncQueueParams(1, sync, safe, false) } class AsyncBundleSafety extends Bundle { val ridx_valid = Input (Bool()) val widx_valid = Output(Bool()) val source_reset_n = Output(Bool()) val sink_reset_n = Input (Bool()) } class AsyncBundle[T <: Data](private val gen: T, val params: AsyncQueueParams = AsyncQueueParams()) extends Bundle { // Data-path synchronization val mem = Output(Vec(params.wires, gen)) val ridx = Input (UInt((params.bits+1).W)) val widx = Output(UInt((params.bits+1).W)) val index = params.narrow.option(Input(UInt(params.bits.W))) // Signals used to self-stabilize a safe AsyncQueue val safe = params.safe.option(new AsyncBundleSafety) } object GrayCounter { def apply(bits: Int, increment: Bool = true.B, clear: Bool = false.B, name: String = "binary"): UInt = { val incremented = Wire(UInt(bits.W)) val binary = RegNext(next=incremented, init=0.U).suggestName(name) incremented := Mux(clear, 0.U, binary + increment.asUInt) incremented ^ (incremented >> 1) } } class AsyncValidSync(sync: Int, desc: String) extends RawModule { val io = IO(new Bundle { val in = Input(Bool()) val out = Output(Bool()) }) val clock = IO(Input(Clock())) val reset = IO(Input(AsyncReset())) withClockAndReset(clock, reset){ io.out := AsyncResetSynchronizerShiftReg(io.in, sync, Some(desc)) } } class AsyncQueueSource[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSource_${gen.typeName}" val io = IO(new Bundle { // These come from the source domain val enq = Flipped(Decoupled(gen)) // These cross to the sink clock domain val async = new AsyncBundle(gen, params) }) val bits = params.bits val sink_ready = WireInit(true.B) val mem = Reg(Vec(params.depth, gen)) // This does NOT need to be reset at all. val widx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.enq.fire, !sink_ready, "widx_bin")) val ridx = AsyncResetSynchronizerShiftReg(io.async.ridx, params.sync, Some("ridx_gray")) val ready = sink_ready && widx =/= (ridx ^ (params.depth | params.depth >> 1).U) val index = if (bits == 0) 0.U else io.async.widx(bits-1, 0) ^ (io.async.widx(bits, bits) << (bits-1)) when (io.enq.fire) { mem(index) := io.enq.bits } val ready_reg = withReset(reset.asAsyncReset)(RegNext(next=ready, init=false.B).suggestName("ready_reg")) io.enq.ready := ready_reg && sink_ready val widx_reg = withReset(reset.asAsyncReset)(RegNext(next=widx, init=0.U).suggestName("widx_gray")) io.async.widx := widx_reg io.async.index match { case Some(index) => io.async.mem(0) := mem(index) case None => io.async.mem := mem } io.async.safe.foreach { sio => val source_valid_0 = Module(new AsyncValidSync(params.sync, "source_valid_0")) val source_valid_1 = Module(new AsyncValidSync(params.sync, "source_valid_1")) val sink_extend = Module(new AsyncValidSync(params.sync, "sink_extend")) val sink_valid = Module(new AsyncValidSync(params.sync, "sink_valid")) source_valid_0.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset source_valid_1.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_extend .reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_valid .reset := reset.asAsyncReset source_valid_0.clock := clock source_valid_1.clock := clock sink_extend .clock := clock sink_valid .clock := clock source_valid_0.io.in := true.B source_valid_1.io.in := source_valid_0.io.out sio.widx_valid := source_valid_1.io.out sink_extend.io.in := sio.ridx_valid sink_valid.io.in := sink_extend.io.out sink_ready := sink_valid.io.out sio.source_reset_n := !reset.asBool // Assert that if there is stuff in the queue, then reset cannot happen // Impossible to write because dequeue can occur on the receiving side, // then reset allowed to happen, but write side cannot know that dequeue // occurred. // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // assert (!(reset || !sio.sink_reset_n) || !io.enq.valid, "Enqueue while sink is reset and AsyncQueueSource is unprotected") // assert (!reset_rise || prev_idx_match.asBool, "Sink reset while AsyncQueueSource not empty") } } class AsyncQueueSink[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSink_${gen.typeName}" val io = IO(new Bundle { // These come from the sink domain val deq = Decoupled(gen) // These cross to the source clock domain val async = Flipped(new AsyncBundle(gen, params)) }) val bits = params.bits val source_ready = WireInit(true.B) val ridx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.deq.fire, !source_ready, "ridx_bin")) val widx = AsyncResetSynchronizerShiftReg(io.async.widx, params.sync, Some("widx_gray")) val valid = source_ready && ridx =/= widx // The mux is safe because timing analysis ensures ridx has reached the register // On an ASIC, changes to the unread location cannot affect the selected value // On an FPGA, only one input changes at a time => mem updates don't cause glitches // The register only latches when the selected valued is not being written val index = if (bits == 0) 0.U else ridx(bits-1, 0) ^ (ridx(bits, bits) << (bits-1)) io.async.index.foreach { _ := index } // This register does not NEED to be reset, as its contents will not // be considered unless the asynchronously reset deq valid register is set. // It is possible that bits latches when the source domain is reset / has power cut // This is safe, because isolation gates brought mem low before the zeroed widx reached us val deq_bits_nxt = io.async.mem(if (params.narrow) 0.U else index) io.deq.bits := ClockCrossingReg(deq_bits_nxt, en = valid, doInit = false, name = Some("deq_bits_reg")) val valid_reg = withReset(reset.asAsyncReset)(RegNext(next=valid, init=false.B).suggestName("valid_reg")) io.deq.valid := valid_reg && source_ready val ridx_reg = withReset(reset.asAsyncReset)(RegNext(next=ridx, init=0.U).suggestName("ridx_gray")) io.async.ridx := ridx_reg io.async.safe.foreach { sio => val sink_valid_0 = Module(new AsyncValidSync(params.sync, "sink_valid_0")) val sink_valid_1 = Module(new AsyncValidSync(params.sync, "sink_valid_1")) val source_extend = Module(new AsyncValidSync(params.sync, "source_extend")) val source_valid = Module(new AsyncValidSync(params.sync, "source_valid")) sink_valid_0 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset sink_valid_1 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_extend.reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_valid .reset := reset.asAsyncReset sink_valid_0 .clock := clock sink_valid_1 .clock := clock source_extend.clock := clock source_valid .clock := clock sink_valid_0.io.in := true.B sink_valid_1.io.in := sink_valid_0.io.out sio.ridx_valid := sink_valid_1.io.out source_extend.io.in := sio.widx_valid source_valid.io.in := source_extend.io.out source_ready := source_valid.io.out sio.sink_reset_n := !reset.asBool // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // // val reset_and_extend = !source_ready || !sio.source_reset_n || reset.asBool // val reset_and_extend_prev = RegNext(reset_and_extend, true.B) // val reset_rise = !reset_and_extend_prev && reset_and_extend // val prev_idx_match = AsyncResetReg(updateData=(io.async.widx===io.async.ridx), resetData=0) // assert (!reset_rise || prev_idx_match.asBool, "Source reset while AsyncQueueSink not empty") } } object FromAsyncBundle { // Sometimes it makes sense for the sink to have different sync than the source def apply[T <: Data](x: AsyncBundle[T]): DecoupledIO[T] = apply(x, x.params.sync) def apply[T <: Data](x: AsyncBundle[T], sync: Int): DecoupledIO[T] = { val sink = Module(new AsyncQueueSink(chiselTypeOf(x.mem(0)), x.params.copy(sync = sync))) sink.io.async <> x sink.io.deq } } object ToAsyncBundle { def apply[T <: Data](x: ReadyValidIO[T], params: AsyncQueueParams = AsyncQueueParams()): AsyncBundle[T] = { val source = Module(new AsyncQueueSource(chiselTypeOf(x.bits), params)) source.io.enq <> x source.io.async } } class AsyncQueue[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Crossing[T] { val io = IO(new CrossingIO(gen)) val source = withClockAndReset(io.enq_clock, io.enq_reset) { Module(new AsyncQueueSource(gen, params)) } val sink = withClockAndReset(io.deq_clock, io.deq_reset) { Module(new AsyncQueueSink (gen, params)) } source.io.enq <> io.enq io.deq <> sink.io.deq sink.io.async <> source.io.async }
module AsyncValidSync_69( // @[AsyncQueue.scala:58:7] input io_in, // @[AsyncQueue.scala:59:14] output io_out, // @[AsyncQueue.scala:59:14] input clock, // @[AsyncQueue.scala:63:17] input reset // @[AsyncQueue.scala:64:17] ); wire io_in_0 = io_in; // @[AsyncQueue.scala:58:7] wire _io_out_WIRE; // @[ShiftReg.scala:48:24] wire io_out_0; // @[AsyncQueue.scala:58:7] assign io_out_0 = _io_out_WIRE; // @[ShiftReg.scala:48:24] AsyncResetSynchronizerShiftReg_w1_d3_i0_82 io_out_sink_valid_1 ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (reset), .io_d (io_in_0), // @[AsyncQueue.scala:58:7] .io_q (_io_out_WIRE) ); // @[ShiftReg.scala:45:23] assign io_out = io_out_0; // @[AsyncQueue.scala:58:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File SynchronizerReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util.{RegEnable, Cat} /** These wrap behavioral * shift and next registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * * These are built up of *ResetSynchronizerPrimitiveShiftReg, * intended to be replaced by the integrator's metastable flops chains or replaced * at this level if they have a multi-bit wide synchronizer primitive. * The different types vary in their reset behavior: * NonSyncResetSynchronizerShiftReg -- Register array which does not have a reset pin * AsyncResetSynchronizerShiftReg -- Asynchronously reset register array, constructed from W instantiations of D deep * 1-bit-wide shift registers. * SyncResetSynchronizerShiftReg -- Synchronously reset register array, constructed similarly to AsyncResetSynchronizerShiftReg * * [Inferred]ResetSynchronizerShiftReg -- TBD reset type by chisel3 reset inference. * * ClockCrossingReg -- Not made up of SynchronizerPrimitiveShiftReg. This is for single-deep flops which cross * Clock Domains. */ object SynchronizerResetType extends Enumeration { val NonSync, Inferred, Sync, Async = Value } // Note: this should not be used directly. // Use the companion object to generate this with the correct reset type mixin. private class SynchronizerPrimitiveShiftReg( sync: Int, init: Boolean, resetType: SynchronizerResetType.Value) extends AbstractPipelineReg(1) { val initInt = if (init) 1 else 0 val initPostfix = resetType match { case SynchronizerResetType.NonSync => "" case _ => s"_i${initInt}" } override def desiredName = s"${resetType.toString}ResetSynchronizerPrimitiveShiftReg_d${sync}${initPostfix}" val chain = List.tabulate(sync) { i => val reg = if (resetType == SynchronizerResetType.NonSync) Reg(Bool()) else RegInit(init.B) reg.suggestName(s"sync_$i") } chain.last := io.d.asBool (chain.init zip chain.tail).foreach { case (sink, source) => sink := source } io.q := chain.head.asUInt } private object SynchronizerPrimitiveShiftReg { def apply (in: Bool, sync: Int, init: Boolean, resetType: SynchronizerResetType.Value): Bool = { val gen: () => SynchronizerPrimitiveShiftReg = resetType match { case SynchronizerResetType.NonSync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) case SynchronizerResetType.Async => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireAsyncReset case SynchronizerResetType.Sync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireSyncReset case SynchronizerResetType.Inferred => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) } AbstractPipelineReg(gen(), in) } } // Note: This module may end up with a non-AsyncReset type reset. // But the Primitives within will always have AsyncReset type. class AsyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"AsyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asAsyncReset){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Async) } } io.q := Cat(output.reverse) } object AsyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } // Note: This module may end up with a non-Bool type reset. // But the Primitives within will always have Bool reset type. @deprecated("SyncResetSynchronizerShiftReg is unecessary with Chisel3 inferred resets. Use ResetSynchronizerShiftReg which will use the inferred reset type.", "rocket-chip 1.2") class SyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asBool){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Sync) } } io.q := Cat(output.reverse) } object SyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class ResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"ResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Inferred) } io.q := Cat(output.reverse) } object ResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new ResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class SynchronizerShiftReg(w: Int = 1, sync: Int = 3) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SynchronizerShiftReg_w${w}_d${sync}" val output = Seq.tabulate(w) { i => SynchronizerPrimitiveShiftReg(io.d(i), sync, false, SynchronizerResetType.NonSync) } io.q := Cat(output.reverse) } object SynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SynchronizerShiftReg(in.getWidth, sync), in, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, None) def apply [T <: Data](in: T): T = apply (in, 3, None) } class ClockCrossingReg(w: Int = 1, doInit: Boolean) extends Module { override def desiredName = s"ClockCrossingReg_w${w}" val io = IO(new Bundle{ val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) val en = Input(Bool()) }) val cdc_reg = if (doInit) RegEnable(io.d, 0.U(w.W), io.en) else RegEnable(io.d, io.en) io.q := cdc_reg } object ClockCrossingReg { def apply [T <: Data](in: T, en: Bool, doInit: Boolean, name: Option[String] = None): T = { val cdc_reg = Module(new ClockCrossingReg(in.getWidth, doInit)) name.foreach{ cdc_reg.suggestName(_) } cdc_reg.io.d := in.asUInt cdc_reg.io.en := en cdc_reg.io.q.asTypeOf(in) } }
module AsyncResetSynchronizerShiftReg_w1_d3_i0_155( // @[SynchronizerReg.scala:80:7] input clock, // @[SynchronizerReg.scala:80:7] input reset, // @[SynchronizerReg.scala:80:7] input io_d, // @[ShiftReg.scala:36:14] output io_q // @[ShiftReg.scala:36:14] ); wire io_d_0 = io_d; // @[SynchronizerReg.scala:80:7] wire _output_T = reset; // @[SynchronizerReg.scala:86:21] wire _output_T_1 = io_d_0; // @[SynchronizerReg.scala:80:7, :87:41] wire output_0; // @[ShiftReg.scala:48:24] wire io_q_0; // @[SynchronizerReg.scala:80:7] assign io_q_0 = output_0; // @[SynchronizerReg.scala:80:7] AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_271 output_chain ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (_output_T), // @[SynchronizerReg.scala:86:21] .io_d (_output_T_1), // @[SynchronizerReg.scala:87:41] .io_q (output_0) ); // @[ShiftReg.scala:45:23] assign io_q = io_q_0; // @[SynchronizerReg.scala:80:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Nodes.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.util.{AsyncQueueParams,RationalDirection} case object TLMonitorBuilder extends Field[TLMonitorArgs => TLMonitorBase](args => new TLMonitor(args)) object TLImp extends NodeImp[TLMasterPortParameters, TLSlavePortParameters, TLEdgeOut, TLEdgeIn, TLBundle] { def edgeO(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeOut(pd, pu, p, sourceInfo) def edgeI(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeIn (pd, pu, p, sourceInfo) def bundleO(eo: TLEdgeOut) = TLBundle(eo.bundle) def bundleI(ei: TLEdgeIn) = TLBundle(ei.bundle) def render(ei: TLEdgeIn) = RenderedEdge(colour = "#000000" /* black */, label = (ei.manager.beatBytes * 8).toString) override def monitor(bundle: TLBundle, edge: TLEdgeIn): Unit = { val monitor = Module(edge.params(TLMonitorBuilder)(TLMonitorArgs(edge))) monitor.io.in := bundle } override def mixO(pd: TLMasterPortParameters, node: OutwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLMasterPortParameters = pd.v1copy(clients = pd.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) }) override def mixI(pu: TLSlavePortParameters, node: InwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLSlavePortParameters = pu.v1copy(managers = pu.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) }) } trait TLFormatNode extends FormatNode[TLEdgeIn, TLEdgeOut] case class TLClientNode(portParams: Seq[TLMasterPortParameters])(implicit valName: ValName) extends SourceNode(TLImp)(portParams) with TLFormatNode case class TLManagerNode(portParams: Seq[TLSlavePortParameters])(implicit valName: ValName) extends SinkNode(TLImp)(portParams) with TLFormatNode case class TLAdapterNode( clientFn: TLMasterPortParameters => TLMasterPortParameters = { s => s }, managerFn: TLSlavePortParameters => TLSlavePortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLJunctionNode( clientFn: Seq[TLMasterPortParameters] => Seq[TLMasterPortParameters], managerFn: Seq[TLSlavePortParameters] => Seq[TLSlavePortParameters])( implicit valName: ValName) extends JunctionNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLIdentityNode()(implicit valName: ValName) extends IdentityNode(TLImp)() with TLFormatNode object TLNameNode { def apply(name: ValName) = TLIdentityNode()(name) def apply(name: Option[String]): TLIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLIdentityNode = apply(Some(name)) } case class TLEphemeralNode()(implicit valName: ValName) extends EphemeralNode(TLImp)() object TLTempNode { def apply(): TLEphemeralNode = TLEphemeralNode()(ValName("temp")) } case class TLNexusNode( clientFn: Seq[TLMasterPortParameters] => TLMasterPortParameters, managerFn: Seq[TLSlavePortParameters] => TLSlavePortParameters)( implicit valName: ValName) extends NexusNode(TLImp)(clientFn, managerFn) with TLFormatNode abstract class TLCustomNode(implicit valName: ValName) extends CustomNode(TLImp) with TLFormatNode // Asynchronous crossings trait TLAsyncFormatNode extends FormatNode[TLAsyncEdgeParameters, TLAsyncEdgeParameters] object TLAsyncImp extends SimpleNodeImp[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncEdgeParameters, TLAsyncBundle] { def edge(pd: TLAsyncClientPortParameters, pu: TLAsyncManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLAsyncEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLAsyncEdgeParameters) = new TLAsyncBundle(e.bundle) def render(e: TLAsyncEdgeParameters) = RenderedEdge(colour = "#ff0000" /* red */, label = e.manager.async.depth.toString) override def mixO(pd: TLAsyncClientPortParameters, node: OutwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLAsyncManagerPortParameters, node: InwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLAsyncAdapterNode( clientFn: TLAsyncClientPortParameters => TLAsyncClientPortParameters = { s => s }, managerFn: TLAsyncManagerPortParameters => TLAsyncManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLAsyncImp)(clientFn, managerFn) with TLAsyncFormatNode case class TLAsyncIdentityNode()(implicit valName: ValName) extends IdentityNode(TLAsyncImp)() with TLAsyncFormatNode object TLAsyncNameNode { def apply(name: ValName) = TLAsyncIdentityNode()(name) def apply(name: Option[String]): TLAsyncIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLAsyncIdentityNode = apply(Some(name)) } case class TLAsyncSourceNode(sync: Option[Int])(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLAsyncImp)( dFn = { p => TLAsyncClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = p.base.minLatency + sync.getOrElse(p.async.sync)) }) with FormatNode[TLEdgeIn, TLAsyncEdgeParameters] // discard cycles in other clock domain case class TLAsyncSinkNode(async: AsyncQueueParams)(implicit valName: ValName) extends MixedAdapterNode(TLAsyncImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = p.base.minLatency + async.sync) }, uFn = { p => TLAsyncManagerPortParameters(async, p) }) with FormatNode[TLAsyncEdgeParameters, TLEdgeOut] // Rationally related crossings trait TLRationalFormatNode extends FormatNode[TLRationalEdgeParameters, TLRationalEdgeParameters] object TLRationalImp extends SimpleNodeImp[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalEdgeParameters, TLRationalBundle] { def edge(pd: TLRationalClientPortParameters, pu: TLRationalManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLRationalEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLRationalEdgeParameters) = new TLRationalBundle(e.bundle) def render(e: TLRationalEdgeParameters) = RenderedEdge(colour = "#00ff00" /* green */) override def mixO(pd: TLRationalClientPortParameters, node: OutwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLRationalManagerPortParameters, node: InwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLRationalAdapterNode( clientFn: TLRationalClientPortParameters => TLRationalClientPortParameters = { s => s }, managerFn: TLRationalManagerPortParameters => TLRationalManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLRationalImp)(clientFn, managerFn) with TLRationalFormatNode case class TLRationalIdentityNode()(implicit valName: ValName) extends IdentityNode(TLRationalImp)() with TLRationalFormatNode object TLRationalNameNode { def apply(name: ValName) = TLRationalIdentityNode()(name) def apply(name: Option[String]): TLRationalIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLRationalIdentityNode = apply(Some(name)) } case class TLRationalSourceNode()(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLRationalImp)( dFn = { p => TLRationalClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLRationalEdgeParameters] // discard cycles from other clock domain case class TLRationalSinkNode(direction: RationalDirection)(implicit valName: ValName) extends MixedAdapterNode(TLRationalImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLRationalManagerPortParameters(direction, p) }) with FormatNode[TLRationalEdgeParameters, TLEdgeOut] // Credited version of TileLink channels trait TLCreditedFormatNode extends FormatNode[TLCreditedEdgeParameters, TLCreditedEdgeParameters] object TLCreditedImp extends SimpleNodeImp[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedEdgeParameters, TLCreditedBundle] { def edge(pd: TLCreditedClientPortParameters, pu: TLCreditedManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLCreditedEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLCreditedEdgeParameters) = new TLCreditedBundle(e.bundle) def render(e: TLCreditedEdgeParameters) = RenderedEdge(colour = "#ffff00" /* yellow */, e.delay.toString) override def mixO(pd: TLCreditedClientPortParameters, node: OutwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLCreditedManagerPortParameters, node: InwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLCreditedAdapterNode( clientFn: TLCreditedClientPortParameters => TLCreditedClientPortParameters = { s => s }, managerFn: TLCreditedManagerPortParameters => TLCreditedManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLCreditedImp)(clientFn, managerFn) with TLCreditedFormatNode case class TLCreditedIdentityNode()(implicit valName: ValName) extends IdentityNode(TLCreditedImp)() with TLCreditedFormatNode object TLCreditedNameNode { def apply(name: ValName) = TLCreditedIdentityNode()(name) def apply(name: Option[String]): TLCreditedIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLCreditedIdentityNode = apply(Some(name)) } case class TLCreditedSourceNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLCreditedImp)( dFn = { p => TLCreditedClientPortParameters(delay, p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLCreditedEdgeParameters] // discard cycles from other clock domain case class TLCreditedSinkNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLCreditedImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLCreditedManagerPortParameters(delay, p) }) with FormatNode[TLCreditedEdgeParameters, TLEdgeOut] File Tilelink.scala: package constellation.protocol import chisel3._ import chisel3.util._ import constellation.channel._ import constellation.noc._ import constellation.soc.{CanAttachToGlobalNoC} import org.chipsalliance.cde.config._ import freechips.rocketchip.diplomacy._ import freechips.rocketchip.util._ import freechips.rocketchip.tilelink._ import scala.collection.immutable.{ListMap} trait TLFieldHelper { def getBodyFields(b: TLChannel): Seq[Data] = b match { case b: TLBundleA => Seq(b.mask, b.data, b.corrupt) case b: TLBundleB => Seq(b.mask, b.data, b.corrupt) case b: TLBundleC => Seq( b.data, b.corrupt) case b: TLBundleD => Seq( b.data, b.corrupt) case b: TLBundleE => Seq() } def getConstFields(b: TLChannel): Seq[Data] = b match { case b: TLBundleA => Seq(b.opcode, b.param, b.size, b.source, b.address, b.user, b.echo ) case b: TLBundleB => Seq(b.opcode, b.param, b.size, b.source, b.address ) case b: TLBundleC => Seq(b.opcode, b.param, b.size, b.source, b.address, b.user, b.echo ) case b: TLBundleD => Seq(b.opcode, b.param, b.size, b.source, b.user, b.echo, b.sink, b.denied) case b: TLBundleE => Seq( b.sink ) } def minTLPayloadWidth(b: TLChannel): Int = Seq(getBodyFields(b), getConstFields(b)).map(_.map(_.getWidth).sum).max def minTLPayloadWidth(bs: Seq[TLChannel]): Int = bs.map(b => minTLPayloadWidth(b)).max def minTLPayloadWidth(b: TLBundle): Int = minTLPayloadWidth(Seq(b.a, b.b, b.c, b.d, b.e).map(_.bits)) } class TLMasterToNoC( edgeIn: TLEdge, edgesOut: Seq[TLEdge], sourceStart: Int, sourceSize: Int, wideBundle: TLBundleParameters, slaveToEgressOffset: Int => Int, flitWidth: Int )(implicit p: Parameters) extends Module { val io = IO(new Bundle { val tilelink = Flipped(new TLBundle(wideBundle)) val flits = new Bundle { val a = Decoupled(new IngressFlit(flitWidth)) val b = Flipped(Decoupled(new EgressFlit(flitWidth))) val c = Decoupled(new IngressFlit(flitWidth)) val d = Flipped(Decoupled(new EgressFlit(flitWidth))) val e = Decoupled(new IngressFlit(flitWidth)) } }) val a = Module(new TLAToNoC(edgeIn, edgesOut, wideBundle, (i) => slaveToEgressOffset(i) + 0, sourceStart)) val b = Module(new TLBFromNoC(edgeIn, wideBundle, sourceSize)) val c = Module(new TLCToNoC(edgeIn, edgesOut, wideBundle, (i) => slaveToEgressOffset(i) + 1, sourceStart)) val d = Module(new TLDFromNoC(edgeIn, wideBundle, sourceSize)) val e = Module(new TLEToNoC(edgeIn, edgesOut, wideBundle, (i) => slaveToEgressOffset(i) + 2)) a.io.protocol <> io.tilelink.a io.tilelink.b <> b.io.protocol c.io.protocol <> io.tilelink.c io.tilelink.d <> d.io.protocol e.io.protocol <> io.tilelink.e io.flits.a <> a.io.flit b.io.flit <> io.flits.b io.flits.c <> c.io.flit d.io.flit <> io.flits.d io.flits.e <> e.io.flit } class TLMasterACDToNoC( edgeIn: TLEdge, edgesOut: Seq[TLEdge], sourceStart: Int, sourceSize: Int, wideBundle: TLBundleParameters, slaveToEgressOffset: Int => Int, flitWidth: Int )(implicit p: Parameters) extends Module { val io = IO(new Bundle { val tilelink = Flipped(new TLBundle(wideBundle)) val flits = new Bundle { val a = Decoupled(new IngressFlit(flitWidth)) val c = Decoupled(new IngressFlit(flitWidth)) val d = Flipped(Decoupled(new EgressFlit(flitWidth))) } }) io.tilelink := DontCare val a = Module(new TLAToNoC(edgeIn, edgesOut, wideBundle, (i) => slaveToEgressOffset(i) + 0, sourceStart)) val c = Module(new TLCToNoC(edgeIn, edgesOut, wideBundle, (i) => slaveToEgressOffset(i) + 1, sourceStart)) val d = Module(new TLDFromNoC(edgeIn, wideBundle, sourceSize)) a.io.protocol <> io.tilelink.a c.io.protocol <> io.tilelink.c io.tilelink.d <> d.io.protocol io.flits.a <> a.io.flit io.flits.c <> c.io.flit d.io.flit <> io.flits.d } class TLMasterBEToNoC( edgeIn: TLEdge, edgesOut: Seq[TLEdge], sourceStart: Int, sourceSize: Int, wideBundle: TLBundleParameters, slaveToEgressOffset: Int => Int, flitWidth: Int )(implicit p: Parameters) extends Module { val io = IO(new Bundle { val tilelink = Flipped(new TLBundle(wideBundle)) val flits = new Bundle { val b = Flipped(Decoupled(new EgressFlit(flitWidth))) val e = Decoupled(new IngressFlit(flitWidth)) } }) io.tilelink := DontCare val b = Module(new TLBFromNoC(edgeIn, wideBundle, sourceSize)) val e = Module(new TLEToNoC(edgeIn, edgesOut, wideBundle, (i) => slaveToEgressOffset(i) + 0)) io.tilelink.b <> b.io.protocol e.io.protocol <> io.tilelink.e b.io.flit <> io.flits.b io.flits.e <> e.io.flit } class TLSlaveToNoC( edgeOut: TLEdge, edgesIn: Seq[TLEdge], sourceStart: Int, sourceSize: Int, wideBundle: TLBundleParameters, masterToEgressOffset: Int => Int, flitWidth: Int )(implicit p: Parameters) extends Module { val io = IO(new Bundle { val tilelink = new TLBundle(wideBundle) val flits = new Bundle { val a = Flipped(Decoupled(new EgressFlit(flitWidth))) val b = Decoupled(new IngressFlit(flitWidth)) val c = Flipped(Decoupled(new EgressFlit(flitWidth))) val d = Decoupled(new IngressFlit(flitWidth)) val e = Flipped(Decoupled(new EgressFlit(flitWidth))) } }) val a = Module(new TLAFromNoC(edgeOut, wideBundle)) val b = Module(new TLBToNoC(edgeOut, edgesIn, wideBundle, (i) => masterToEgressOffset(i) + 0)) val c = Module(new TLCFromNoC(edgeOut, wideBundle)) val d = Module(new TLDToNoC(edgeOut, edgesIn, wideBundle, (i) => masterToEgressOffset(i) + 1, sourceStart)) val e = Module(new TLEFromNoC(edgeOut, wideBundle, sourceSize)) io.tilelink.a <> a.io.protocol b.io.protocol <> io.tilelink.b io.tilelink.c <> c.io.protocol d.io.protocol <> io.tilelink.d io.tilelink.e <> e.io.protocol a.io.flit <> io.flits.a io.flits.b <> b.io.flit c.io.flit <> io.flits.c io.flits.d <> d.io.flit e.io.flit <> io.flits.e } class TLSlaveACDToNoC( edgeOut: TLEdge, edgesIn: Seq[TLEdge], sourceStart: Int, sourceSize: Int, wideBundle: TLBundleParameters, masterToEgressOffset: Int => Int, flitWidth: Int )(implicit p: Parameters) extends Module { val io = IO(new Bundle { val tilelink = new TLBundle(wideBundle) val flits = new Bundle { val a = Flipped(Decoupled(new EgressFlit(flitWidth))) val c = Flipped(Decoupled(new EgressFlit(flitWidth))) val d = Decoupled(new IngressFlit(flitWidth)) } }) io.tilelink := DontCare val a = Module(new TLAFromNoC(edgeOut, wideBundle)) val c = Module(new TLCFromNoC(edgeOut, wideBundle)) val d = Module(new TLDToNoC(edgeOut, edgesIn, wideBundle, (i) => masterToEgressOffset(i) + 0, sourceStart)) io.tilelink.a <> a.io.protocol io.tilelink.c <> c.io.protocol d.io.protocol <> io.tilelink.d a.io.flit <> io.flits.a c.io.flit <> io.flits.c io.flits.d <> d.io.flit } class TLSlaveBEToNoC( edgeOut: TLEdge, edgesIn: Seq[TLEdge], sourceStart: Int, sourceSize: Int, wideBundle: TLBundleParameters, masterToEgressOffset: Int => Int, flitWidth: Int )(implicit p: Parameters) extends Module { val io = IO(new Bundle { val tilelink = new TLBundle(wideBundle) val flits = new Bundle { val b = Decoupled(new IngressFlit(flitWidth)) val e = Flipped(Decoupled(new EgressFlit(flitWidth))) } }) io.tilelink := DontCare val b = Module(new TLBToNoC(edgeOut, edgesIn, wideBundle, (i) => masterToEgressOffset(i) + 0)) val e = Module(new TLEFromNoC(edgeOut, wideBundle, sourceSize)) b.io.protocol <> io.tilelink.b io.tilelink.e <> e.io.protocol io.flits.b <> b.io.flit e.io.flit <> io.flits.e } class TileLinkInterconnectInterface(edgesIn: Seq[TLEdge], edgesOut: Seq[TLEdge])(implicit val p: Parameters) extends Bundle { val in = MixedVec(edgesIn.map { e => Flipped(new TLBundle(e.bundle)) }) val out = MixedVec(edgesOut.map { e => new TLBundle(e.bundle) }) } trait TileLinkProtocolParams extends ProtocolParams with TLFieldHelper { def edgesIn: Seq[TLEdge] def edgesOut: Seq[TLEdge] def edgeInNodes: Seq[Int] def edgeOutNodes: Seq[Int] require(edgesIn.size == edgeInNodes.size && edgesOut.size == edgeOutNodes.size) def wideBundle = TLBundleParameters.union(edgesIn.map(_.bundle) ++ edgesOut.map(_.bundle)) def genBundle = new TLBundle(wideBundle) def inputIdRanges = TLXbar.mapInputIds(edgesIn.map(_.client)) def outputIdRanges = TLXbar.mapOutputIds(edgesOut.map(_.manager)) val vNetBlocking = (blocker: Int, blockee: Int) => blocker < blockee def genIO()(implicit p: Parameters): Data = new TileLinkInterconnectInterface(edgesIn, edgesOut) } object TLConnect { def apply[T <: TLBundleBase](l: DecoupledIO[T], r: DecoupledIO[T]) = { l.valid := r.valid r.ready := l.ready l.bits.squeezeAll.waiveAll :<>= r.bits.squeezeAll.waiveAll } } // BEGIN: TileLinkProtocolParams case class TileLinkABCDEProtocolParams( edgesIn: Seq[TLEdge], edgesOut: Seq[TLEdge], edgeInNodes: Seq[Int], edgeOutNodes: Seq[Int] ) extends TileLinkProtocolParams { // END: TileLinkProtocolParams val minPayloadWidth = minTLPayloadWidth(new TLBundle(wideBundle)) val ingressNodes = (edgeInNodes.map(u => Seq.fill(3) (u)) ++ edgeOutNodes.map(u => Seq.fill (2) {u})).flatten val egressNodes = (edgeInNodes.map(u => Seq.fill(2) (u)) ++ edgeOutNodes.map(u => Seq.fill (3) {u})).flatten val nVirtualNetworks = 5 val flows = edgesIn.zipWithIndex.map { case (edgeIn, ii) => edgesOut.zipWithIndex.map { case (edgeOut, oi) => val reachable = edgeIn.client.clients.exists { c => edgeOut.manager.managers.exists { m => c.visibility.exists { ca => m.address.exists { ma => ca.overlaps(ma) }} }} val probe = edgeIn.client.anySupportProbe && edgeOut.manager.managers.exists(_.regionType >= RegionType.TRACKED) val release = edgeIn.client.anySupportProbe && edgeOut.manager.anySupportAcquireB ( (if (reachable) Some(FlowParams(ii * 3 + 0 , oi * 3 + 0 + edgesIn.size * 2, 4)) else None) ++ // A (if (probe ) Some(FlowParams(oi * 2 + 0 + edgesIn.size * 3, ii * 2 + 0 , 3)) else None) ++ // B (if (release ) Some(FlowParams(ii * 3 + 1 , oi * 3 + 1 + edgesIn.size * 2, 2)) else None) ++ // C (if (reachable) Some(FlowParams(oi * 2 + 1 + edgesIn.size * 3, ii * 2 + 1 , 1)) else None) ++ // D (if (release ) Some(FlowParams(ii * 3 + 2 , oi * 3 + 2 + edgesIn.size * 2, 0)) else None)) // E }}.flatten.flatten def interface(terminals: NoCTerminalIO, ingressOffset: Int, egressOffset: Int, protocol: Data)(implicit p: Parameters) = { val ingresses = terminals.ingress val egresses = terminals.egress protocol match { case protocol: TileLinkInterconnectInterface => { edgesIn.zipWithIndex.map { case (e,i) => val nif_master = Module(new TLMasterToNoC( e, edgesOut, inputIdRanges(i).start, inputIdRanges(i).size, wideBundle, (s) => s * 3 + edgesIn.size * 2 + egressOffset, minPayloadWidth )) nif_master.io.tilelink := DontCare nif_master.io.tilelink.a.valid := false.B nif_master.io.tilelink.c.valid := false.B nif_master.io.tilelink.e.valid := false.B TLConnect(nif_master.io.tilelink.a, protocol.in(i).a) TLConnect(protocol.in(i).d, nif_master.io.tilelink.d) if (protocol.in(i).params.hasBCE) { TLConnect(protocol.in(i).b, nif_master.io.tilelink.b) TLConnect(nif_master.io.tilelink.c, protocol.in(i).c) TLConnect(nif_master.io.tilelink.e, protocol.in(i).e) } ingresses(i * 3 + 0).flit <> nif_master.io.flits.a ingresses(i * 3 + 1).flit <> nif_master.io.flits.c ingresses(i * 3 + 2).flit <> nif_master.io.flits.e nif_master.io.flits.b <> egresses(i * 2 + 0).flit nif_master.io.flits.d <> egresses(i * 2 + 1).flit } edgesOut.zipWithIndex.map { case (e,i) => val nif_slave = Module(new TLSlaveToNoC( e, edgesIn, outputIdRanges(i).start, outputIdRanges(i).size, wideBundle, (s) => s * 2 + egressOffset, minPayloadWidth )) nif_slave.io.tilelink := DontCare nif_slave.io.tilelink.b.valid := false.B nif_slave.io.tilelink.d.valid := false.B TLConnect(protocol.out(i).a, nif_slave.io.tilelink.a) TLConnect(nif_slave.io.tilelink.d, protocol.out(i).d) if (protocol.out(i).params.hasBCE) { TLConnect(nif_slave.io.tilelink.b, protocol.out(i).b) TLConnect(protocol.out(i).c, nif_slave.io.tilelink.c) TLConnect(protocol.out(i).e, nif_slave.io.tilelink.e) } ingresses(i * 2 + 0 + edgesIn.size * 3).flit <> nif_slave.io.flits.b ingresses(i * 2 + 1 + edgesIn.size * 3).flit <> nif_slave.io.flits.d nif_slave.io.flits.a <> egresses(i * 3 + 0 + edgesIn.size * 2).flit nif_slave.io.flits.c <> egresses(i * 3 + 1 + edgesIn.size * 2).flit nif_slave.io.flits.e <> egresses(i * 3 + 2 + edgesIn.size * 2).flit } } } } } case class TileLinkACDProtocolParams( edgesIn: Seq[TLEdge], edgesOut: Seq[TLEdge], edgeInNodes: Seq[Int], edgeOutNodes: Seq[Int]) extends TileLinkProtocolParams { val minPayloadWidth = minTLPayloadWidth(Seq(genBundle.a, genBundle.c, genBundle.d).map(_.bits)) val ingressNodes = (edgeInNodes.map(u => Seq.fill(2) (u)) ++ edgeOutNodes.map(u => Seq.fill (1) {u})).flatten val egressNodes = (edgeInNodes.map(u => Seq.fill(1) (u)) ++ edgeOutNodes.map(u => Seq.fill (2) {u})).flatten val nVirtualNetworks = 3 val flows = edgesIn.zipWithIndex.map { case (edgeIn, ii) => edgesOut.zipWithIndex.map { case (edgeOut, oi) => val reachable = edgeIn.client.clients.exists { c => edgeOut.manager.managers.exists { m => c.visibility.exists { ca => m.address.exists { ma => ca.overlaps(ma) }} }} val release = edgeIn.client.anySupportProbe && edgeOut.manager.anySupportAcquireB ( (if (reachable) Some(FlowParams(ii * 2 + 0 , oi * 2 + 0 + edgesIn.size * 1, 2)) else None) ++ // A (if (release ) Some(FlowParams(ii * 2 + 1 , oi * 2 + 1 + edgesIn.size * 1, 1)) else None) ++ // C (if (reachable) Some(FlowParams(oi * 1 + 0 + edgesIn.size * 2, ii * 1 + 0 , 0)) else None)) // D }}.flatten.flatten def interface(terminals: NoCTerminalIO, ingressOffset: Int, egressOffset: Int, protocol: Data)(implicit p: Parameters) = { val ingresses = terminals.ingress val egresses = terminals.egress protocol match { case protocol: TileLinkInterconnectInterface => { protocol := DontCare edgesIn.zipWithIndex.map { case (e,i) => val nif_master_acd = Module(new TLMasterACDToNoC( e, edgesOut, inputIdRanges(i).start, inputIdRanges(i).size, wideBundle, (s) => s * 2 + edgesIn.size * 1 + egressOffset, minPayloadWidth )) nif_master_acd.io.tilelink := DontCare nif_master_acd.io.tilelink.a.valid := false.B nif_master_acd.io.tilelink.c.valid := false.B nif_master_acd.io.tilelink.e.valid := false.B TLConnect(nif_master_acd.io.tilelink.a, protocol.in(i).a) TLConnect(protocol.in(i).d, nif_master_acd.io.tilelink.d) if (protocol.in(i).params.hasBCE) { TLConnect(nif_master_acd.io.tilelink.c, protocol.in(i).c) } ingresses(i * 2 + 0).flit <> nif_master_acd.io.flits.a ingresses(i * 2 + 1).flit <> nif_master_acd.io.flits.c nif_master_acd.io.flits.d <> egresses(i * 1 + 0).flit } edgesOut.zipWithIndex.map { case (e,i) => val nif_slave_acd = Module(new TLSlaveACDToNoC( e, edgesIn, outputIdRanges(i).start, outputIdRanges(i).size, wideBundle, (s) => s * 1 + egressOffset, minPayloadWidth )) nif_slave_acd.io.tilelink := DontCare nif_slave_acd.io.tilelink.b.valid := false.B nif_slave_acd.io.tilelink.d.valid := false.B TLConnect(protocol.out(i).a, nif_slave_acd.io.tilelink.a) TLConnect(nif_slave_acd.io.tilelink.d, protocol.out(i).d) if (protocol.out(i).params.hasBCE) { TLConnect(protocol.out(i).c, nif_slave_acd.io.tilelink.c) } ingresses(i * 1 + 0 + edgesIn.size * 2).flit <> nif_slave_acd.io.flits.d nif_slave_acd.io.flits.a <> egresses(i * 2 + 0 + edgesIn.size * 1).flit nif_slave_acd.io.flits.c <> egresses(i * 2 + 1 + edgesIn.size * 1).flit } }} } } case class TileLinkBEProtocolParams( edgesIn: Seq[TLEdge], edgesOut: Seq[TLEdge], edgeInNodes: Seq[Int], edgeOutNodes: Seq[Int]) extends TileLinkProtocolParams { val minPayloadWidth = minTLPayloadWidth(Seq(genBundle.b, genBundle.e).map(_.bits)) val ingressNodes = (edgeInNodes.map(u => Seq.fill(1) (u)) ++ edgeOutNodes.map(u => Seq.fill (1) {u})).flatten val egressNodes = (edgeInNodes.map(u => Seq.fill(1) (u)) ++ edgeOutNodes.map(u => Seq.fill (1) {u})).flatten val nVirtualNetworks = 2 val flows = edgesIn.zipWithIndex.map { case (edgeIn, ii) => edgesOut.zipWithIndex.map { case (edgeOut, oi) => val probe = edgeIn.client.anySupportProbe && edgeOut.manager.managers.exists(_.regionType >= RegionType.TRACKED) val release = edgeIn.client.anySupportProbe && edgeOut.manager.anySupportAcquireB ( (if (probe ) Some(FlowParams(oi * 1 + 0 + edgesIn.size * 1, ii * 1 + 0 , 1)) else None) ++ // B (if (release ) Some(FlowParams(ii * 1 + 0 , oi * 1 + 0 + edgesIn.size * 1, 0)) else None)) // E }}.flatten.flatten def interface(terminals: NoCTerminalIO, ingressOffset: Int, egressOffset: Int, protocol: Data)(implicit p: Parameters) = { val ingresses = terminals.ingress val egresses = terminals.egress protocol match { case protocol: TileLinkInterconnectInterface => { protocol := DontCare edgesIn.zipWithIndex.map { case (e,i) => val nif_master_be = Module(new TLMasterBEToNoC( e, edgesOut, inputIdRanges(i).start, inputIdRanges(i).size, wideBundle, (s) => s * 1 + edgesIn.size * 1 + egressOffset, minPayloadWidth )) nif_master_be.io.tilelink := DontCare nif_master_be.io.tilelink.a.valid := false.B nif_master_be.io.tilelink.c.valid := false.B nif_master_be.io.tilelink.e.valid := false.B if (protocol.in(i).params.hasBCE) { TLConnect(protocol.in(i).b, nif_master_be.io.tilelink.b) TLConnect(nif_master_be.io.tilelink.e, protocol.in(i).e) } ingresses(i * 1 + 0).flit <> nif_master_be.io.flits.e nif_master_be.io.flits.b <> egresses(i * 1 + 0).flit } edgesOut.zipWithIndex.map { case (e,i) => val nif_slave_be = Module(new TLSlaveBEToNoC( e, edgesIn, outputIdRanges(i).start, outputIdRanges(i).size, wideBundle, (s) => s * 1 + egressOffset, minPayloadWidth )) nif_slave_be.io.tilelink := DontCare nif_slave_be.io.tilelink.b.valid := false.B nif_slave_be.io.tilelink.d.valid := false.B if (protocol.out(i).params.hasBCE) { TLConnect(protocol.out(i).e, nif_slave_be.io.tilelink.e) TLConnect(nif_slave_be.io.tilelink.b, protocol.out(i).b) } ingresses(i * 1 + 0 + edgesIn.size * 1).flit <> nif_slave_be.io.flits.b nif_slave_be.io.flits.e <> egresses(i * 1 + 0 + edgesIn.size * 1).flit } }} } } abstract class TLNoCLike(implicit p: Parameters) extends LazyModule { val node = new TLNexusNode( clientFn = { seq => seq(0).v1copy( echoFields = BundleField.union(seq.flatMap(_.echoFields)), requestFields = BundleField.union(seq.flatMap(_.requestFields)), responseKeys = seq.flatMap(_.responseKeys).distinct, minLatency = seq.map(_.minLatency).min, clients = (TLXbar.mapInputIds(seq) zip seq) flatMap { case (range, port) => port.clients map { client => client.v1copy( sourceId = client.sourceId.shift(range.start) )} } ) }, managerFn = { seq => val fifoIdFactory = TLXbar.relabeler() seq(0).v1copy( responseFields = BundleField.union(seq.flatMap(_.responseFields)), requestKeys = seq.flatMap(_.requestKeys).distinct, minLatency = seq.map(_.minLatency).min, endSinkId = TLXbar.mapOutputIds(seq).map(_.end).max, managers = seq.flatMap { port => require (port.beatBytes == seq(0).beatBytes, s"TLNoC (data widths don't match: ${port.managers.map(_.name)} has ${port.beatBytes}B vs ${seq(0).managers.map(_.name)} has ${seq(0).beatBytes}B") // TileLink NoC does not preserve FIFO-ness, masters to this NoC should instantiate FIFOFixers port.managers map { manager => manager.v1copy(fifoId = None) } } ) } ) } abstract class TLNoCModuleImp(outer: LazyModule) extends LazyModuleImp(outer) { val edgesIn: Seq[TLEdge] val edgesOut: Seq[TLEdge] val nodeMapping: DiplomaticNetworkNodeMapping val nocName: String lazy val inNames = nodeMapping.genUniqueName(edgesIn.map(_.master.masters.map(_.name))) lazy val outNames = nodeMapping.genUniqueName(edgesOut.map(_.slave.slaves.map(_.name))) lazy val edgeInNodes = nodeMapping.getNodesIn(inNames) lazy val edgeOutNodes = nodeMapping.getNodesOut(outNames) def printNodeMappings() { println(s"Constellation: TLNoC $nocName inwards mapping:") for ((n, i) <- inNames zip edgeInNodes) { val node = i.map(_.toString).getOrElse("X") println(s" $node <- $n") } println(s"Constellation: TLNoC $nocName outwards mapping:") for ((n, i) <- outNames zip edgeOutNodes) { val node = i.map(_.toString).getOrElse("X") println(s" $node <- $n") } } } trait TLNoCParams // Instantiates a private TLNoC. Replaces the TLXbar // BEGIN: TLNoCParams case class SimpleTLNoCParams( nodeMappings: DiplomaticNetworkNodeMapping, nocParams: NoCParams = NoCParams(), ) extends TLNoCParams class TLNoC(params: SimpleTLNoCParams, name: String = "test", inlineNoC: Boolean = false)(implicit p: Parameters) extends TLNoCLike { // END: TLNoCParams override def shouldBeInlined = inlineNoC lazy val module = new TLNoCModuleImp(this) { val (io_in, edgesIn) = node.in.unzip val (io_out, edgesOut) = node.out.unzip val nodeMapping = params.nodeMappings val nocName = name printNodeMappings() val protocolParams = TileLinkABCDEProtocolParams( edgesIn = edgesIn, edgesOut = edgesOut, edgeInNodes = edgeInNodes.flatten, edgeOutNodes = edgeOutNodes.flatten ) val noc = Module(new ProtocolNoC(ProtocolNoCParams( params.nocParams.copy(hasCtrl = false, nocName=name, inlineNoC = inlineNoC), Seq(protocolParams), inlineNoC = inlineNoC ))) noc.io.protocol(0) match { case protocol: TileLinkInterconnectInterface => { (protocol.in zip io_in).foreach { case (l,r) => l <> r } (io_out zip protocol.out).foreach { case (l,r) => l <> r } } } } } case class SplitACDxBETLNoCParams( nodeMappings: DiplomaticNetworkNodeMapping, acdNoCParams: NoCParams = NoCParams(), beNoCParams: NoCParams = NoCParams(), beDivision: Int = 2 ) extends TLNoCParams class TLSplitACDxBENoC(params: SplitACDxBETLNoCParams, name: String = "test", inlineNoC: Boolean = false)(implicit p: Parameters) extends TLNoCLike { override def shouldBeInlined = inlineNoC lazy val module = new TLNoCModuleImp(this) { val (io_in, edgesIn) = node.in.unzip val (io_out, edgesOut) = node.out.unzip val nodeMapping = params.nodeMappings val nocName = name printNodeMappings() val acdProtocolParams = TileLinkACDProtocolParams( edgesIn = edgesIn, edgesOut = edgesOut, edgeInNodes = edgeInNodes.flatten, edgeOutNodes = edgeOutNodes.flatten ) val beProtocolParams = TileLinkBEProtocolParams( edgesIn = edgesIn, edgesOut = edgesOut, edgeInNodes = edgeInNodes.flatten, edgeOutNodes = edgeOutNodes.flatten ) val acd_noc = Module(new ProtocolNoC(ProtocolNoCParams( params.acdNoCParams.copy(hasCtrl = false, nocName=s"${name}_acd", inlineNoC = inlineNoC), Seq(acdProtocolParams), inlineNoC = inlineNoC ))) val be_noc = Module(new ProtocolNoC(ProtocolNoCParams( params.beNoCParams.copy(hasCtrl = false, nocName=s"${name}_be", inlineNoC = inlineNoC), Seq(beProtocolParams), widthDivision = params.beDivision, inlineNoC = inlineNoC ))) acd_noc.io.protocol(0) match { case protocol: TileLinkInterconnectInterface => { (protocol.in zip io_in).foreach { case (l,r) => l := DontCare l.a <> r.a l.c <> r.c l.d <> r.d } (io_out zip protocol.out).foreach { case (l,r) => r := DontCare l.a <> r.a l.c <> r.c l.d <> r.d } }} be_noc.io.protocol(0) match { case protocol: TileLinkInterconnectInterface => { (protocol.in zip io_in).foreach { case (l,r) => l := DontCare l.b <> r.b l.e <> r.e } (io_out zip protocol.out).foreach { case (l,r) => r := DontCare l.b <> r.b l.e <> r.e } }} } } case class GlobalTLNoCParams( nodeMappings: DiplomaticNetworkNodeMapping ) extends TLNoCParams // Maps this interconnect onto a global NoC class TLGlobalNoC(params: GlobalTLNoCParams, name: String = "test")(implicit p: Parameters) extends TLNoCLike { lazy val module = new TLNoCModuleImp(this) with CanAttachToGlobalNoC { val (io_in, edgesIn) = node.in.unzip val (io_out, edgesOut) = node.out.unzip val nodeMapping = params.nodeMappings val nocName = name val protocolParams = TileLinkABCDEProtocolParams( edgesIn = edgesIn, edgesOut = edgesOut, edgeInNodes = edgeInNodes.flatten, edgeOutNodes = edgeOutNodes.flatten ) printNodeMappings() val io_global = IO(Flipped(protocolParams.genIO())) io_global match { case protocol: TileLinkInterconnectInterface => { (protocol.in zip io_in).foreach { case (l,r) => l <> r } (io_out zip protocol.out).foreach { case (l,r) => l <> r } } } } } File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } }
module TLNoC_2( // @[Tilelink.scala:546:25] input clock, // @[Tilelink.scala:546:25] input reset, // @[Tilelink.scala:546:25] output auto_in_3_a_ready, // @[LazyModuleImp.scala:107:25] input auto_in_3_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_3_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_3_a_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_3_a_bits_size, // @[LazyModuleImp.scala:107:25] input [3:0] auto_in_3_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_in_3_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_in_3_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_in_3_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_in_3_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_in_3_d_ready, // @[LazyModuleImp.scala:107:25] output auto_in_3_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_in_3_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_in_3_d_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_in_3_d_bits_size, // @[LazyModuleImp.scala:107:25] output [3:0] auto_in_3_d_bits_source, // @[LazyModuleImp.scala:107:25] output auto_in_3_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_in_3_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_in_3_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_in_3_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_in_2_a_ready, // @[LazyModuleImp.scala:107:25] input auto_in_2_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_2_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_2_a_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_2_a_bits_size, // @[LazyModuleImp.scala:107:25] input [3:0] auto_in_2_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_in_2_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_in_2_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_in_2_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_in_2_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_in_2_d_ready, // @[LazyModuleImp.scala:107:25] output auto_in_2_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_in_2_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_in_2_d_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_in_2_d_bits_size, // @[LazyModuleImp.scala:107:25] output [3:0] auto_in_2_d_bits_source, // @[LazyModuleImp.scala:107:25] output auto_in_2_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_in_2_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_in_2_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_in_2_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_in_1_a_ready, // @[LazyModuleImp.scala:107:25] input auto_in_1_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_1_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_1_a_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_1_a_bits_size, // @[LazyModuleImp.scala:107:25] input [3:0] auto_in_1_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_in_1_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_in_1_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_in_1_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_in_1_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_in_1_d_ready, // @[LazyModuleImp.scala:107:25] output auto_in_1_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_in_1_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_in_1_d_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_in_1_d_bits_size, // @[LazyModuleImp.scala:107:25] output [3:0] auto_in_1_d_bits_source, // @[LazyModuleImp.scala:107:25] output auto_in_1_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_in_1_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_in_1_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_in_1_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_in_0_a_ready, // @[LazyModuleImp.scala:107:25] input auto_in_0_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_0_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_0_a_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_0_a_bits_size, // @[LazyModuleImp.scala:107:25] input [3:0] auto_in_0_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_in_0_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_in_0_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_in_0_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_in_0_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_in_0_d_ready, // @[LazyModuleImp.scala:107:25] output auto_in_0_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_in_0_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_in_0_d_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_in_0_d_bits_size, // @[LazyModuleImp.scala:107:25] output [3:0] auto_in_0_d_bits_source, // @[LazyModuleImp.scala:107:25] output auto_in_0_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_in_0_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_in_0_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_in_0_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_out_4_a_ready, // @[LazyModuleImp.scala:107:25] output auto_out_4_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_4_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_4_a_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_4_a_bits_size, // @[LazyModuleImp.scala:107:25] output [5:0] auto_out_4_a_bits_source, // @[LazyModuleImp.scala:107:25] output [27:0] auto_out_4_a_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_out_4_a_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_out_4_a_bits_data, // @[LazyModuleImp.scala:107:25] output auto_out_4_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_out_4_d_ready, // @[LazyModuleImp.scala:107:25] input auto_out_4_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_4_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_out_4_d_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_4_d_bits_size, // @[LazyModuleImp.scala:107:25] input [5:0] auto_out_4_d_bits_source, // @[LazyModuleImp.scala:107:25] input auto_out_4_d_bits_sink, // @[LazyModuleImp.scala:107:25] input auto_out_4_d_bits_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_out_4_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_out_4_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_out_3_a_ready, // @[LazyModuleImp.scala:107:25] output auto_out_3_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_3_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_3_a_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_3_a_bits_size, // @[LazyModuleImp.scala:107:25] output [5:0] auto_out_3_a_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_out_3_a_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_out_3_a_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_out_3_a_bits_data, // @[LazyModuleImp.scala:107:25] output auto_out_3_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_out_3_d_ready, // @[LazyModuleImp.scala:107:25] input auto_out_3_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_3_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_3_d_bits_size, // @[LazyModuleImp.scala:107:25] input [5:0] auto_out_3_d_bits_source, // @[LazyModuleImp.scala:107:25] input auto_out_3_d_bits_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_out_3_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_out_3_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_out_2_a_ready, // @[LazyModuleImp.scala:107:25] output auto_out_2_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_2_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_2_a_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_2_a_bits_size, // @[LazyModuleImp.scala:107:25] output [5:0] auto_out_2_a_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_out_2_a_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_out_2_a_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_out_2_a_bits_data, // @[LazyModuleImp.scala:107:25] output auto_out_2_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_out_2_d_ready, // @[LazyModuleImp.scala:107:25] input auto_out_2_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_2_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_2_d_bits_size, // @[LazyModuleImp.scala:107:25] input [5:0] auto_out_2_d_bits_source, // @[LazyModuleImp.scala:107:25] input auto_out_2_d_bits_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_out_2_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_out_2_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_out_1_a_ready, // @[LazyModuleImp.scala:107:25] output auto_out_1_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_1_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_1_a_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_1_a_bits_size, // @[LazyModuleImp.scala:107:25] output [5:0] auto_out_1_a_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_out_1_a_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_out_1_a_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_out_1_a_bits_data, // @[LazyModuleImp.scala:107:25] output auto_out_1_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_out_1_d_ready, // @[LazyModuleImp.scala:107:25] input auto_out_1_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_1_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_1_d_bits_size, // @[LazyModuleImp.scala:107:25] input [5:0] auto_out_1_d_bits_source, // @[LazyModuleImp.scala:107:25] input auto_out_1_d_bits_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_out_1_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_out_1_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_out_0_a_ready, // @[LazyModuleImp.scala:107:25] output auto_out_0_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_0_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_0_a_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_out_0_a_bits_size, // @[LazyModuleImp.scala:107:25] output [5:0] auto_out_0_a_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_out_0_a_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_out_0_a_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_out_0_a_bits_data, // @[LazyModuleImp.scala:107:25] output auto_out_0_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_out_0_d_ready, // @[LazyModuleImp.scala:107:25] input auto_out_0_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_0_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_out_0_d_bits_size, // @[LazyModuleImp.scala:107:25] input [5:0] auto_out_0_d_bits_source, // @[LazyModuleImp.scala:107:25] input auto_out_0_d_bits_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_out_0_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_out_0_d_bits_corrupt // @[LazyModuleImp.scala:107:25] ); wire _noc_io_protocol_0_in_3_a_ready; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_3_d_valid; // @[Tilelink.scala:561:21] wire [2:0] _noc_io_protocol_0_in_3_d_bits_opcode; // @[Tilelink.scala:561:21] wire [1:0] _noc_io_protocol_0_in_3_d_bits_param; // @[Tilelink.scala:561:21] wire [2:0] _noc_io_protocol_0_in_3_d_bits_size; // @[Tilelink.scala:561:21] wire [3:0] _noc_io_protocol_0_in_3_d_bits_source; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_3_d_bits_sink; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_3_d_bits_denied; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_3_d_bits_corrupt; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_2_a_ready; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_2_d_valid; // @[Tilelink.scala:561:21] wire [2:0] _noc_io_protocol_0_in_2_d_bits_opcode; // @[Tilelink.scala:561:21] wire [1:0] _noc_io_protocol_0_in_2_d_bits_param; // @[Tilelink.scala:561:21] wire [2:0] _noc_io_protocol_0_in_2_d_bits_size; // @[Tilelink.scala:561:21] wire [3:0] _noc_io_protocol_0_in_2_d_bits_source; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_2_d_bits_sink; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_2_d_bits_denied; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_2_d_bits_corrupt; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_1_a_ready; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_1_d_valid; // @[Tilelink.scala:561:21] wire [2:0] _noc_io_protocol_0_in_1_d_bits_opcode; // @[Tilelink.scala:561:21] wire [1:0] _noc_io_protocol_0_in_1_d_bits_param; // @[Tilelink.scala:561:21] wire [2:0] _noc_io_protocol_0_in_1_d_bits_size; // @[Tilelink.scala:561:21] wire [3:0] _noc_io_protocol_0_in_1_d_bits_source; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_1_d_bits_sink; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_1_d_bits_denied; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_1_d_bits_corrupt; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_0_a_ready; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_0_d_valid; // @[Tilelink.scala:561:21] wire [2:0] _noc_io_protocol_0_in_0_d_bits_opcode; // @[Tilelink.scala:561:21] wire [1:0] _noc_io_protocol_0_in_0_d_bits_param; // @[Tilelink.scala:561:21] wire [2:0] _noc_io_protocol_0_in_0_d_bits_size; // @[Tilelink.scala:561:21] wire [3:0] _noc_io_protocol_0_in_0_d_bits_source; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_0_d_bits_sink; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_0_d_bits_denied; // @[Tilelink.scala:561:21] wire _noc_io_protocol_0_in_0_d_bits_corrupt; // @[Tilelink.scala:561:21] TLMonitor_35 monitor ( // @[Nodes.scala:27:25] .clock (clock), .reset (reset), .io_in_a_ready (_noc_io_protocol_0_in_0_a_ready), // @[Tilelink.scala:561:21] .io_in_a_valid (auto_in_0_a_valid), .io_in_a_bits_opcode (auto_in_0_a_bits_opcode), .io_in_a_bits_param (auto_in_0_a_bits_param), .io_in_a_bits_size (auto_in_0_a_bits_size), .io_in_a_bits_source (auto_in_0_a_bits_source), .io_in_a_bits_address (auto_in_0_a_bits_address), .io_in_a_bits_mask (auto_in_0_a_bits_mask), .io_in_a_bits_corrupt (auto_in_0_a_bits_corrupt), .io_in_d_ready (auto_in_0_d_ready), .io_in_d_valid (_noc_io_protocol_0_in_0_d_valid), // @[Tilelink.scala:561:21] .io_in_d_bits_opcode (_noc_io_protocol_0_in_0_d_bits_opcode), // @[Tilelink.scala:561:21] .io_in_d_bits_param (_noc_io_protocol_0_in_0_d_bits_param), // @[Tilelink.scala:561:21] .io_in_d_bits_size (_noc_io_protocol_0_in_0_d_bits_size), // @[Tilelink.scala:561:21] .io_in_d_bits_source (_noc_io_protocol_0_in_0_d_bits_source), // @[Tilelink.scala:561:21] .io_in_d_bits_sink (_noc_io_protocol_0_in_0_d_bits_sink), // @[Tilelink.scala:561:21] .io_in_d_bits_denied (_noc_io_protocol_0_in_0_d_bits_denied), // @[Tilelink.scala:561:21] .io_in_d_bits_corrupt (_noc_io_protocol_0_in_0_d_bits_corrupt) // @[Tilelink.scala:561:21] ); // @[Nodes.scala:27:25] TLMonitor_36 monitor_1 ( // @[Nodes.scala:27:25] .clock (clock), .reset (reset), .io_in_a_ready (_noc_io_protocol_0_in_1_a_ready), // @[Tilelink.scala:561:21] .io_in_a_valid (auto_in_1_a_valid), .io_in_a_bits_opcode (auto_in_1_a_bits_opcode), .io_in_a_bits_param (auto_in_1_a_bits_param), .io_in_a_bits_size (auto_in_1_a_bits_size), .io_in_a_bits_source (auto_in_1_a_bits_source), .io_in_a_bits_address (auto_in_1_a_bits_address), .io_in_a_bits_mask (auto_in_1_a_bits_mask), .io_in_a_bits_corrupt (auto_in_1_a_bits_corrupt), .io_in_d_ready (auto_in_1_d_ready), .io_in_d_valid (_noc_io_protocol_0_in_1_d_valid), // @[Tilelink.scala:561:21] .io_in_d_bits_opcode (_noc_io_protocol_0_in_1_d_bits_opcode), // @[Tilelink.scala:561:21] .io_in_d_bits_param (_noc_io_protocol_0_in_1_d_bits_param), // @[Tilelink.scala:561:21] .io_in_d_bits_size (_noc_io_protocol_0_in_1_d_bits_size), // @[Tilelink.scala:561:21] .io_in_d_bits_source (_noc_io_protocol_0_in_1_d_bits_source), // @[Tilelink.scala:561:21] .io_in_d_bits_sink (_noc_io_protocol_0_in_1_d_bits_sink), // @[Tilelink.scala:561:21] .io_in_d_bits_denied (_noc_io_protocol_0_in_1_d_bits_denied), // @[Tilelink.scala:561:21] .io_in_d_bits_corrupt (_noc_io_protocol_0_in_1_d_bits_corrupt) // @[Tilelink.scala:561:21] ); // @[Nodes.scala:27:25] TLMonitor_37 monitor_2 ( // @[Nodes.scala:27:25] .clock (clock), .reset (reset), .io_in_a_ready (_noc_io_protocol_0_in_2_a_ready), // @[Tilelink.scala:561:21] .io_in_a_valid (auto_in_2_a_valid), .io_in_a_bits_opcode (auto_in_2_a_bits_opcode), .io_in_a_bits_param (auto_in_2_a_bits_param), .io_in_a_bits_size (auto_in_2_a_bits_size), .io_in_a_bits_source (auto_in_2_a_bits_source), .io_in_a_bits_address (auto_in_2_a_bits_address), .io_in_a_bits_mask (auto_in_2_a_bits_mask), .io_in_a_bits_corrupt (auto_in_2_a_bits_corrupt), .io_in_d_ready (auto_in_2_d_ready), .io_in_d_valid (_noc_io_protocol_0_in_2_d_valid), // @[Tilelink.scala:561:21] .io_in_d_bits_opcode (_noc_io_protocol_0_in_2_d_bits_opcode), // @[Tilelink.scala:561:21] .io_in_d_bits_param (_noc_io_protocol_0_in_2_d_bits_param), // @[Tilelink.scala:561:21] .io_in_d_bits_size (_noc_io_protocol_0_in_2_d_bits_size), // @[Tilelink.scala:561:21] .io_in_d_bits_source (_noc_io_protocol_0_in_2_d_bits_source), // @[Tilelink.scala:561:21] .io_in_d_bits_sink (_noc_io_protocol_0_in_2_d_bits_sink), // @[Tilelink.scala:561:21] .io_in_d_bits_denied (_noc_io_protocol_0_in_2_d_bits_denied), // @[Tilelink.scala:561:21] .io_in_d_bits_corrupt (_noc_io_protocol_0_in_2_d_bits_corrupt) // @[Tilelink.scala:561:21] ); // @[Nodes.scala:27:25] TLMonitor_38 monitor_3 ( // @[Nodes.scala:27:25] .clock (clock), .reset (reset), .io_in_a_ready (_noc_io_protocol_0_in_3_a_ready), // @[Tilelink.scala:561:21] .io_in_a_valid (auto_in_3_a_valid), .io_in_a_bits_opcode (auto_in_3_a_bits_opcode), .io_in_a_bits_param (auto_in_3_a_bits_param), .io_in_a_bits_size (auto_in_3_a_bits_size), .io_in_a_bits_source (auto_in_3_a_bits_source), .io_in_a_bits_address (auto_in_3_a_bits_address), .io_in_a_bits_mask (auto_in_3_a_bits_mask), .io_in_a_bits_corrupt (auto_in_3_a_bits_corrupt), .io_in_d_ready (auto_in_3_d_ready), .io_in_d_valid (_noc_io_protocol_0_in_3_d_valid), // @[Tilelink.scala:561:21] .io_in_d_bits_opcode (_noc_io_protocol_0_in_3_d_bits_opcode), // @[Tilelink.scala:561:21] .io_in_d_bits_param (_noc_io_protocol_0_in_3_d_bits_param), // @[Tilelink.scala:561:21] .io_in_d_bits_size (_noc_io_protocol_0_in_3_d_bits_size), // @[Tilelink.scala:561:21] .io_in_d_bits_source (_noc_io_protocol_0_in_3_d_bits_source), // @[Tilelink.scala:561:21] .io_in_d_bits_sink (_noc_io_protocol_0_in_3_d_bits_sink), // @[Tilelink.scala:561:21] .io_in_d_bits_denied (_noc_io_protocol_0_in_3_d_bits_denied), // @[Tilelink.scala:561:21] .io_in_d_bits_corrupt (_noc_io_protocol_0_in_3_d_bits_corrupt) // @[Tilelink.scala:561:21] ); // @[Nodes.scala:27:25] ProtocolNoC_2 noc ( // @[Tilelink.scala:561:21] .clock (clock), .reset (reset), .io_protocol_0_in_3_a_ready (_noc_io_protocol_0_in_3_a_ready), .io_protocol_0_in_3_a_valid (auto_in_3_a_valid), .io_protocol_0_in_3_a_bits_opcode (auto_in_3_a_bits_opcode), .io_protocol_0_in_3_a_bits_param (auto_in_3_a_bits_param), .io_protocol_0_in_3_a_bits_size (auto_in_3_a_bits_size), .io_protocol_0_in_3_a_bits_source (auto_in_3_a_bits_source), .io_protocol_0_in_3_a_bits_address (auto_in_3_a_bits_address), .io_protocol_0_in_3_a_bits_mask (auto_in_3_a_bits_mask), .io_protocol_0_in_3_a_bits_data (auto_in_3_a_bits_data), .io_protocol_0_in_3_a_bits_corrupt (auto_in_3_a_bits_corrupt), .io_protocol_0_in_3_d_ready (auto_in_3_d_ready), .io_protocol_0_in_3_d_valid (_noc_io_protocol_0_in_3_d_valid), .io_protocol_0_in_3_d_bits_opcode (_noc_io_protocol_0_in_3_d_bits_opcode), .io_protocol_0_in_3_d_bits_param (_noc_io_protocol_0_in_3_d_bits_param), .io_protocol_0_in_3_d_bits_size (_noc_io_protocol_0_in_3_d_bits_size), .io_protocol_0_in_3_d_bits_source (_noc_io_protocol_0_in_3_d_bits_source), .io_protocol_0_in_3_d_bits_sink (_noc_io_protocol_0_in_3_d_bits_sink), .io_protocol_0_in_3_d_bits_denied (_noc_io_protocol_0_in_3_d_bits_denied), .io_protocol_0_in_3_d_bits_data (auto_in_3_d_bits_data), .io_protocol_0_in_3_d_bits_corrupt (_noc_io_protocol_0_in_3_d_bits_corrupt), .io_protocol_0_in_2_a_ready (_noc_io_protocol_0_in_2_a_ready), .io_protocol_0_in_2_a_valid (auto_in_2_a_valid), .io_protocol_0_in_2_a_bits_opcode (auto_in_2_a_bits_opcode), .io_protocol_0_in_2_a_bits_param (auto_in_2_a_bits_param), .io_protocol_0_in_2_a_bits_size (auto_in_2_a_bits_size), .io_protocol_0_in_2_a_bits_source (auto_in_2_a_bits_source), .io_protocol_0_in_2_a_bits_address (auto_in_2_a_bits_address), .io_protocol_0_in_2_a_bits_mask (auto_in_2_a_bits_mask), .io_protocol_0_in_2_a_bits_data (auto_in_2_a_bits_data), .io_protocol_0_in_2_a_bits_corrupt (auto_in_2_a_bits_corrupt), .io_protocol_0_in_2_d_ready (auto_in_2_d_ready), .io_protocol_0_in_2_d_valid (_noc_io_protocol_0_in_2_d_valid), .io_protocol_0_in_2_d_bits_opcode (_noc_io_protocol_0_in_2_d_bits_opcode), .io_protocol_0_in_2_d_bits_param (_noc_io_protocol_0_in_2_d_bits_param), .io_protocol_0_in_2_d_bits_size (_noc_io_protocol_0_in_2_d_bits_size), .io_protocol_0_in_2_d_bits_source (_noc_io_protocol_0_in_2_d_bits_source), .io_protocol_0_in_2_d_bits_sink (_noc_io_protocol_0_in_2_d_bits_sink), .io_protocol_0_in_2_d_bits_denied (_noc_io_protocol_0_in_2_d_bits_denied), .io_protocol_0_in_2_d_bits_data (auto_in_2_d_bits_data), .io_protocol_0_in_2_d_bits_corrupt (_noc_io_protocol_0_in_2_d_bits_corrupt), .io_protocol_0_in_1_a_ready (_noc_io_protocol_0_in_1_a_ready), .io_protocol_0_in_1_a_valid (auto_in_1_a_valid), .io_protocol_0_in_1_a_bits_opcode (auto_in_1_a_bits_opcode), .io_protocol_0_in_1_a_bits_param (auto_in_1_a_bits_param), .io_protocol_0_in_1_a_bits_size (auto_in_1_a_bits_size), .io_protocol_0_in_1_a_bits_source (auto_in_1_a_bits_source), .io_protocol_0_in_1_a_bits_address (auto_in_1_a_bits_address), .io_protocol_0_in_1_a_bits_mask (auto_in_1_a_bits_mask), .io_protocol_0_in_1_a_bits_data (auto_in_1_a_bits_data), .io_protocol_0_in_1_a_bits_corrupt (auto_in_1_a_bits_corrupt), .io_protocol_0_in_1_d_ready (auto_in_1_d_ready), .io_protocol_0_in_1_d_valid (_noc_io_protocol_0_in_1_d_valid), .io_protocol_0_in_1_d_bits_opcode (_noc_io_protocol_0_in_1_d_bits_opcode), .io_protocol_0_in_1_d_bits_param (_noc_io_protocol_0_in_1_d_bits_param), .io_protocol_0_in_1_d_bits_size (_noc_io_protocol_0_in_1_d_bits_size), .io_protocol_0_in_1_d_bits_source (_noc_io_protocol_0_in_1_d_bits_source), .io_protocol_0_in_1_d_bits_sink (_noc_io_protocol_0_in_1_d_bits_sink), .io_protocol_0_in_1_d_bits_denied (_noc_io_protocol_0_in_1_d_bits_denied), .io_protocol_0_in_1_d_bits_data (auto_in_1_d_bits_data), .io_protocol_0_in_1_d_bits_corrupt (_noc_io_protocol_0_in_1_d_bits_corrupt), .io_protocol_0_in_0_a_ready (_noc_io_protocol_0_in_0_a_ready), .io_protocol_0_in_0_a_valid (auto_in_0_a_valid), .io_protocol_0_in_0_a_bits_opcode (auto_in_0_a_bits_opcode), .io_protocol_0_in_0_a_bits_param (auto_in_0_a_bits_param), .io_protocol_0_in_0_a_bits_size (auto_in_0_a_bits_size), .io_protocol_0_in_0_a_bits_source (auto_in_0_a_bits_source), .io_protocol_0_in_0_a_bits_address (auto_in_0_a_bits_address), .io_protocol_0_in_0_a_bits_mask (auto_in_0_a_bits_mask), .io_protocol_0_in_0_a_bits_data (auto_in_0_a_bits_data), .io_protocol_0_in_0_a_bits_corrupt (auto_in_0_a_bits_corrupt), .io_protocol_0_in_0_d_ready (auto_in_0_d_ready), .io_protocol_0_in_0_d_valid (_noc_io_protocol_0_in_0_d_valid), .io_protocol_0_in_0_d_bits_opcode (_noc_io_protocol_0_in_0_d_bits_opcode), .io_protocol_0_in_0_d_bits_param (_noc_io_protocol_0_in_0_d_bits_param), .io_protocol_0_in_0_d_bits_size (_noc_io_protocol_0_in_0_d_bits_size), .io_protocol_0_in_0_d_bits_source (_noc_io_protocol_0_in_0_d_bits_source), .io_protocol_0_in_0_d_bits_sink (_noc_io_protocol_0_in_0_d_bits_sink), .io_protocol_0_in_0_d_bits_denied (_noc_io_protocol_0_in_0_d_bits_denied), .io_protocol_0_in_0_d_bits_data (auto_in_0_d_bits_data), .io_protocol_0_in_0_d_bits_corrupt (_noc_io_protocol_0_in_0_d_bits_corrupt), .io_protocol_0_out_4_a_ready (auto_out_4_a_ready), .io_protocol_0_out_4_a_valid (auto_out_4_a_valid), .io_protocol_0_out_4_a_bits_opcode (auto_out_4_a_bits_opcode), .io_protocol_0_out_4_a_bits_param (auto_out_4_a_bits_param), .io_protocol_0_out_4_a_bits_size (auto_out_4_a_bits_size), .io_protocol_0_out_4_a_bits_source (auto_out_4_a_bits_source), .io_protocol_0_out_4_a_bits_address (auto_out_4_a_bits_address), .io_protocol_0_out_4_a_bits_mask (auto_out_4_a_bits_mask), .io_protocol_0_out_4_a_bits_data (auto_out_4_a_bits_data), .io_protocol_0_out_4_a_bits_corrupt (auto_out_4_a_bits_corrupt), .io_protocol_0_out_4_d_ready (auto_out_4_d_ready), .io_protocol_0_out_4_d_valid (auto_out_4_d_valid), .io_protocol_0_out_4_d_bits_opcode (auto_out_4_d_bits_opcode), .io_protocol_0_out_4_d_bits_param (auto_out_4_d_bits_param), .io_protocol_0_out_4_d_bits_size (auto_out_4_d_bits_size), .io_protocol_0_out_4_d_bits_source (auto_out_4_d_bits_source), .io_protocol_0_out_4_d_bits_sink (auto_out_4_d_bits_sink), .io_protocol_0_out_4_d_bits_denied (auto_out_4_d_bits_denied), .io_protocol_0_out_4_d_bits_data (auto_out_4_d_bits_data), .io_protocol_0_out_4_d_bits_corrupt (auto_out_4_d_bits_corrupt), .io_protocol_0_out_3_a_ready (auto_out_3_a_ready), .io_protocol_0_out_3_a_valid (auto_out_3_a_valid), .io_protocol_0_out_3_a_bits_opcode (auto_out_3_a_bits_opcode), .io_protocol_0_out_3_a_bits_param (auto_out_3_a_bits_param), .io_protocol_0_out_3_a_bits_size (auto_out_3_a_bits_size), .io_protocol_0_out_3_a_bits_source (auto_out_3_a_bits_source), .io_protocol_0_out_3_a_bits_address (auto_out_3_a_bits_address), .io_protocol_0_out_3_a_bits_mask (auto_out_3_a_bits_mask), .io_protocol_0_out_3_a_bits_data (auto_out_3_a_bits_data), .io_protocol_0_out_3_a_bits_corrupt (auto_out_3_a_bits_corrupt), .io_protocol_0_out_3_d_ready (auto_out_3_d_ready), .io_protocol_0_out_3_d_valid (auto_out_3_d_valid), .io_protocol_0_out_3_d_bits_opcode (auto_out_3_d_bits_opcode), .io_protocol_0_out_3_d_bits_size (auto_out_3_d_bits_size), .io_protocol_0_out_3_d_bits_source (auto_out_3_d_bits_source), .io_protocol_0_out_3_d_bits_denied (auto_out_3_d_bits_denied), .io_protocol_0_out_3_d_bits_data (auto_out_3_d_bits_data), .io_protocol_0_out_3_d_bits_corrupt (auto_out_3_d_bits_corrupt), .io_protocol_0_out_2_a_ready (auto_out_2_a_ready), .io_protocol_0_out_2_a_valid (auto_out_2_a_valid), .io_protocol_0_out_2_a_bits_opcode (auto_out_2_a_bits_opcode), .io_protocol_0_out_2_a_bits_param (auto_out_2_a_bits_param), .io_protocol_0_out_2_a_bits_size (auto_out_2_a_bits_size), .io_protocol_0_out_2_a_bits_source (auto_out_2_a_bits_source), .io_protocol_0_out_2_a_bits_address (auto_out_2_a_bits_address), .io_protocol_0_out_2_a_bits_mask (auto_out_2_a_bits_mask), .io_protocol_0_out_2_a_bits_data (auto_out_2_a_bits_data), .io_protocol_0_out_2_a_bits_corrupt (auto_out_2_a_bits_corrupt), .io_protocol_0_out_2_d_ready (auto_out_2_d_ready), .io_protocol_0_out_2_d_valid (auto_out_2_d_valid), .io_protocol_0_out_2_d_bits_opcode (auto_out_2_d_bits_opcode), .io_protocol_0_out_2_d_bits_size (auto_out_2_d_bits_size), .io_protocol_0_out_2_d_bits_source (auto_out_2_d_bits_source), .io_protocol_0_out_2_d_bits_denied (auto_out_2_d_bits_denied), .io_protocol_0_out_2_d_bits_data (auto_out_2_d_bits_data), .io_protocol_0_out_2_d_bits_corrupt (auto_out_2_d_bits_corrupt), .io_protocol_0_out_1_a_ready (auto_out_1_a_ready), .io_protocol_0_out_1_a_valid (auto_out_1_a_valid), .io_protocol_0_out_1_a_bits_opcode (auto_out_1_a_bits_opcode), .io_protocol_0_out_1_a_bits_param (auto_out_1_a_bits_param), .io_protocol_0_out_1_a_bits_size (auto_out_1_a_bits_size), .io_protocol_0_out_1_a_bits_source (auto_out_1_a_bits_source), .io_protocol_0_out_1_a_bits_address (auto_out_1_a_bits_address), .io_protocol_0_out_1_a_bits_mask (auto_out_1_a_bits_mask), .io_protocol_0_out_1_a_bits_data (auto_out_1_a_bits_data), .io_protocol_0_out_1_a_bits_corrupt (auto_out_1_a_bits_corrupt), .io_protocol_0_out_1_d_ready (auto_out_1_d_ready), .io_protocol_0_out_1_d_valid (auto_out_1_d_valid), .io_protocol_0_out_1_d_bits_opcode (auto_out_1_d_bits_opcode), .io_protocol_0_out_1_d_bits_size (auto_out_1_d_bits_size), .io_protocol_0_out_1_d_bits_source (auto_out_1_d_bits_source), .io_protocol_0_out_1_d_bits_denied (auto_out_1_d_bits_denied), .io_protocol_0_out_1_d_bits_data (auto_out_1_d_bits_data), .io_protocol_0_out_1_d_bits_corrupt (auto_out_1_d_bits_corrupt), .io_protocol_0_out_0_a_ready (auto_out_0_a_ready), .io_protocol_0_out_0_a_valid (auto_out_0_a_valid), .io_protocol_0_out_0_a_bits_opcode (auto_out_0_a_bits_opcode), .io_protocol_0_out_0_a_bits_param (auto_out_0_a_bits_param), .io_protocol_0_out_0_a_bits_size (auto_out_0_a_bits_size), .io_protocol_0_out_0_a_bits_source (auto_out_0_a_bits_source), .io_protocol_0_out_0_a_bits_address (auto_out_0_a_bits_address), .io_protocol_0_out_0_a_bits_mask (auto_out_0_a_bits_mask), .io_protocol_0_out_0_a_bits_data (auto_out_0_a_bits_data), .io_protocol_0_out_0_a_bits_corrupt (auto_out_0_a_bits_corrupt), .io_protocol_0_out_0_d_ready (auto_out_0_d_ready), .io_protocol_0_out_0_d_valid (auto_out_0_d_valid), .io_protocol_0_out_0_d_bits_opcode (auto_out_0_d_bits_opcode), .io_protocol_0_out_0_d_bits_size (auto_out_0_d_bits_size), .io_protocol_0_out_0_d_bits_source (auto_out_0_d_bits_source), .io_protocol_0_out_0_d_bits_denied (auto_out_0_d_bits_denied), .io_protocol_0_out_0_d_bits_data (auto_out_0_d_bits_data), .io_protocol_0_out_0_d_bits_corrupt (auto_out_0_d_bits_corrupt) ); // @[Tilelink.scala:561:21] assign auto_in_3_a_ready = _noc_io_protocol_0_in_3_a_ready; // @[Tilelink.scala:546:25, :561:21] assign auto_in_3_d_valid = _noc_io_protocol_0_in_3_d_valid; // @[Tilelink.scala:546:25, :561:21] assign auto_in_3_d_bits_opcode = _noc_io_protocol_0_in_3_d_bits_opcode; // @[Tilelink.scala:546:25, :561:21] assign auto_in_3_d_bits_param = _noc_io_protocol_0_in_3_d_bits_param; // @[Tilelink.scala:546:25, :561:21] assign auto_in_3_d_bits_size = _noc_io_protocol_0_in_3_d_bits_size; // @[Tilelink.scala:546:25, :561:21] assign auto_in_3_d_bits_source = _noc_io_protocol_0_in_3_d_bits_source; // @[Tilelink.scala:546:25, :561:21] assign auto_in_3_d_bits_sink = _noc_io_protocol_0_in_3_d_bits_sink; // @[Tilelink.scala:546:25, :561:21] assign auto_in_3_d_bits_denied = _noc_io_protocol_0_in_3_d_bits_denied; // @[Tilelink.scala:546:25, :561:21] assign auto_in_3_d_bits_corrupt = _noc_io_protocol_0_in_3_d_bits_corrupt; // @[Tilelink.scala:546:25, :561:21] assign auto_in_2_a_ready = _noc_io_protocol_0_in_2_a_ready; // @[Tilelink.scala:546:25, :561:21] assign auto_in_2_d_valid = _noc_io_protocol_0_in_2_d_valid; // @[Tilelink.scala:546:25, :561:21] assign auto_in_2_d_bits_opcode = _noc_io_protocol_0_in_2_d_bits_opcode; // @[Tilelink.scala:546:25, :561:21] assign auto_in_2_d_bits_param = _noc_io_protocol_0_in_2_d_bits_param; // @[Tilelink.scala:546:25, :561:21] assign auto_in_2_d_bits_size = _noc_io_protocol_0_in_2_d_bits_size; // @[Tilelink.scala:546:25, :561:21] assign auto_in_2_d_bits_source = _noc_io_protocol_0_in_2_d_bits_source; // @[Tilelink.scala:546:25, :561:21] assign auto_in_2_d_bits_sink = _noc_io_protocol_0_in_2_d_bits_sink; // @[Tilelink.scala:546:25, :561:21] assign auto_in_2_d_bits_denied = _noc_io_protocol_0_in_2_d_bits_denied; // @[Tilelink.scala:546:25, :561:21] assign auto_in_2_d_bits_corrupt = _noc_io_protocol_0_in_2_d_bits_corrupt; // @[Tilelink.scala:546:25, :561:21] assign auto_in_1_a_ready = _noc_io_protocol_0_in_1_a_ready; // @[Tilelink.scala:546:25, :561:21] assign auto_in_1_d_valid = _noc_io_protocol_0_in_1_d_valid; // @[Tilelink.scala:546:25, :561:21] assign auto_in_1_d_bits_opcode = _noc_io_protocol_0_in_1_d_bits_opcode; // @[Tilelink.scala:546:25, :561:21] assign auto_in_1_d_bits_param = _noc_io_protocol_0_in_1_d_bits_param; // @[Tilelink.scala:546:25, :561:21] assign auto_in_1_d_bits_size = _noc_io_protocol_0_in_1_d_bits_size; // @[Tilelink.scala:546:25, :561:21] assign auto_in_1_d_bits_source = _noc_io_protocol_0_in_1_d_bits_source; // @[Tilelink.scala:546:25, :561:21] assign auto_in_1_d_bits_sink = _noc_io_protocol_0_in_1_d_bits_sink; // @[Tilelink.scala:546:25, :561:21] assign auto_in_1_d_bits_denied = _noc_io_protocol_0_in_1_d_bits_denied; // @[Tilelink.scala:546:25, :561:21] assign auto_in_1_d_bits_corrupt = _noc_io_protocol_0_in_1_d_bits_corrupt; // @[Tilelink.scala:546:25, :561:21] assign auto_in_0_a_ready = _noc_io_protocol_0_in_0_a_ready; // @[Tilelink.scala:546:25, :561:21] assign auto_in_0_d_valid = _noc_io_protocol_0_in_0_d_valid; // @[Tilelink.scala:546:25, :561:21] assign auto_in_0_d_bits_opcode = _noc_io_protocol_0_in_0_d_bits_opcode; // @[Tilelink.scala:546:25, :561:21] assign auto_in_0_d_bits_param = _noc_io_protocol_0_in_0_d_bits_param; // @[Tilelink.scala:546:25, :561:21] assign auto_in_0_d_bits_size = _noc_io_protocol_0_in_0_d_bits_size; // @[Tilelink.scala:546:25, :561:21] assign auto_in_0_d_bits_source = _noc_io_protocol_0_in_0_d_bits_source; // @[Tilelink.scala:546:25, :561:21] assign auto_in_0_d_bits_sink = _noc_io_protocol_0_in_0_d_bits_sink; // @[Tilelink.scala:546:25, :561:21] assign auto_in_0_d_bits_denied = _noc_io_protocol_0_in_0_d_bits_denied; // @[Tilelink.scala:546:25, :561:21] assign auto_in_0_d_bits_corrupt = _noc_io_protocol_0_in_0_d_bits_corrupt; // @[Tilelink.scala:546:25, :561:21] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceLine import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import freechips.rocketchip.diplomacy.EnableMonitors import freechips.rocketchip.formal.{MonitorDirection, IfThen, Property, PropertyClass, TestplanTestType, TLMonitorStrictMode} import freechips.rocketchip.util.PlusArg case class TLMonitorArgs(edge: TLEdge) abstract class TLMonitorBase(args: TLMonitorArgs) extends Module { val io = IO(new Bundle { val in = Input(new TLBundle(args.edge.bundle)) }) def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit legalize(io.in, args.edge, reset) } object TLMonitor { def apply(enable: Boolean, node: TLNode)(implicit p: Parameters): TLNode = { if (enable) { EnableMonitors { implicit p => node := TLEphemeralNode()(ValName("monitor")) } } else { node } } } class TLMonitor(args: TLMonitorArgs, monitorDir: MonitorDirection = MonitorDirection.Monitor) extends TLMonitorBase(args) { require (args.edge.params(TLMonitorStrictMode) || (! args.edge.params(TestplanTestType).formal)) val cover_prop_class = PropertyClass.Default //Like assert but can flip to being an assumption for formal verification def monAssert(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir, cond, message, PropertyClass.Default) } def assume(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir.flip, cond, message, PropertyClass.Default) } def extra = { args.edge.sourceInfo match { case SourceLine(filename, line, col) => s" (connected at $filename:$line:$col)" case _ => "" } } def visible(address: UInt, source: UInt, edge: TLEdge) = edge.client.clients.map { c => !c.sourceId.contains(source) || c.visibility.map(_.contains(address)).reduce(_ || _) }.reduce(_ && _) def legalizeFormatA(bundle: TLBundleA, edge: TLEdge): Unit = { //switch this flag to turn on diplomacy in error messages def diplomacyInfo = if (true) "" else "\nThe diplomacy information for the edge is as follows:\n" + edge.formatEdge + "\n" monAssert (TLMessages.isA(bundle.opcode), "'A' channel has invalid opcode" + extra) // Reuse these subexpressions to save some firrtl lines val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) monAssert (visible(edge.address(bundle), bundle.source, edge), "'A' channel carries an address illegal for the specified bank visibility") //The monitor doesn’t check for acquire T vs acquire B, it assumes that acquire B implies acquire T and only checks for acquire B //TODO: check for acquireT? when (bundle.opcode === TLMessages.AcquireBlock) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquireBlock carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquireBlock smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquireBlock address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquireBlock carries invalid grow param" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquireBlock contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquireBlock is corrupt" + extra) } when (bundle.opcode === TLMessages.AcquirePerm) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquirePerm carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquirePerm smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquirePerm address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquirePerm carries invalid grow param" + extra) monAssert (bundle.param =/= TLPermissions.NtoB, "'A' channel AcquirePerm requests NtoB" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquirePerm contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquirePerm is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.emitsGet(bundle.source, bundle.size), "'A' channel carries Get type which master claims it can't emit" + diplomacyInfo + extra) monAssert (edge.slave.supportsGetSafe(edge.address(bundle), bundle.size, None), "'A' channel carries Get type which slave claims it can't support" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel Get carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.emitsPutFull(bundle.source, bundle.size) && edge.slave.supportsPutFullSafe(edge.address(bundle), bundle.size), "'A' channel carries PutFull type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel PutFull carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.emitsPutPartial(bundle.source, bundle.size) && edge.slave.supportsPutPartialSafe(edge.address(bundle), bundle.size), "'A' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel PutPartial carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'A' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.emitsArithmetic(bundle.source, bundle.size) && edge.slave.supportsArithmeticSafe(edge.address(bundle), bundle.size), "'A' channel carries Arithmetic type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Arithmetic carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'A' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.emitsLogical(bundle.source, bundle.size) && edge.slave.supportsLogicalSafe(edge.address(bundle), bundle.size), "'A' channel carries Logical type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Logical carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'A' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.emitsHint(bundle.source, bundle.size) && edge.slave.supportsHintSafe(edge.address(bundle), bundle.size), "'A' channel carries Hint type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Hint carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Hint address not aligned to size" + extra) monAssert (TLHints.isHints(bundle.param), "'A' channel Hint carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Hint is corrupt" + extra) } } def legalizeFormatB(bundle: TLBundleB, edge: TLEdge): Unit = { monAssert (TLMessages.isB(bundle.opcode), "'B' channel has invalid opcode" + extra) monAssert (visible(edge.address(bundle), bundle.source, edge), "'B' channel carries an address illegal for the specified bank visibility") // Reuse these subexpressions to save some firrtl lines val address_ok = edge.manager.containsSafe(edge.address(bundle)) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) val legal_source = Mux1H(edge.client.find(bundle.source), edge.client.clients.map(c => c.sourceId.start.U)) === bundle.source when (bundle.opcode === TLMessages.Probe) { assume (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'B' channel carries Probe type which is unexpected using diplomatic parameters" + extra) assume (address_ok, "'B' channel Probe carries unmanaged address" + extra) assume (legal_source, "'B' channel Probe carries source that is not first source" + extra) assume (is_aligned, "'B' channel Probe address not aligned to size" + extra) assume (TLPermissions.isCap(bundle.param), "'B' channel Probe carries invalid cap param" + extra) assume (bundle.mask === mask, "'B' channel Probe contains invalid mask" + extra) assume (!bundle.corrupt, "'B' channel Probe is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.supportsGet(edge.source(bundle), bundle.size) && edge.slave.emitsGetSafe(edge.address(bundle), bundle.size), "'B' channel carries Get type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel Get carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Get carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.supportsPutFull(edge.source(bundle), bundle.size) && edge.slave.emitsPutFullSafe(edge.address(bundle), bundle.size), "'B' channel carries PutFull type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutFull carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutFull carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.supportsPutPartial(edge.source(bundle), bundle.size) && edge.slave.emitsPutPartialSafe(edge.address(bundle), bundle.size), "'B' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutPartial carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutPartial carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'B' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.supportsArithmetic(edge.source(bundle), bundle.size) && edge.slave.emitsArithmeticSafe(edge.address(bundle), bundle.size), "'B' channel carries Arithmetic type unsupported by master" + extra) monAssert (address_ok, "'B' channel Arithmetic carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Arithmetic carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'B' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.supportsLogical(edge.source(bundle), bundle.size) && edge.slave.emitsLogicalSafe(edge.address(bundle), bundle.size), "'B' channel carries Logical type unsupported by client" + extra) monAssert (address_ok, "'B' channel Logical carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Logical carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'B' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.supportsHint(edge.source(bundle), bundle.size) && edge.slave.emitsHintSafe(edge.address(bundle), bundle.size), "'B' channel carries Hint type unsupported by client" + extra) monAssert (address_ok, "'B' channel Hint carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Hint carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Hint address not aligned to size" + extra) monAssert (bundle.mask === mask, "'B' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Hint is corrupt" + extra) } } def legalizeFormatC(bundle: TLBundleC, edge: TLEdge): Unit = { monAssert (TLMessages.isC(bundle.opcode), "'C' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val address_ok = edge.manager.containsSafe(edge.address(bundle)) monAssert (visible(edge.address(bundle), bundle.source, edge), "'C' channel carries an address illegal for the specified bank visibility") when (bundle.opcode === TLMessages.ProbeAck) { monAssert (address_ok, "'C' channel ProbeAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAck carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAck smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAck address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAck carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel ProbeAck is corrupt" + extra) } when (bundle.opcode === TLMessages.ProbeAckData) { monAssert (address_ok, "'C' channel ProbeAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAckData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAckData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAckData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAckData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.Release) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries Release type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel Release carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel Release smaller than a beat" + extra) monAssert (is_aligned, "'C' channel Release address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel Release carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel Release is corrupt" + extra) } when (bundle.opcode === TLMessages.ReleaseData) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries ReleaseData type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel ReleaseData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ReleaseData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ReleaseData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ReleaseData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.AccessAck) { monAssert (address_ok, "'C' channel AccessAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel AccessAck is corrupt" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { monAssert (address_ok, "'C' channel AccessAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAckData carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAckData address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAckData carries invalid param" + extra) } when (bundle.opcode === TLMessages.HintAck) { monAssert (address_ok, "'C' channel HintAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel HintAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel HintAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel HintAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel HintAck is corrupt" + extra) } } def legalizeFormatD(bundle: TLBundleD, edge: TLEdge): Unit = { assume (TLMessages.isD(bundle.opcode), "'D' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val sink_ok = bundle.sink < edge.manager.endSinkId.U val deny_put_ok = edge.manager.mayDenyPut.B val deny_get_ok = edge.manager.mayDenyGet.B when (bundle.opcode === TLMessages.ReleaseAck) { assume (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel ReleaseAck smaller than a beat" + extra) assume (bundle.param === 0.U, "'D' channel ReleaseeAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel ReleaseAck is corrupt" + extra) assume (!bundle.denied, "'D' channel ReleaseAck is denied" + extra) } when (bundle.opcode === TLMessages.Grant) { assume (source_ok, "'D' channel Grant carries invalid source ID" + extra) assume (sink_ok, "'D' channel Grant carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel Grant smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel Grant carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel Grant carries toN param" + extra) assume (!bundle.corrupt, "'D' channel Grant is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel Grant is denied" + extra) } when (bundle.opcode === TLMessages.GrantData) { assume (source_ok, "'D' channel GrantData carries invalid source ID" + extra) assume (sink_ok, "'D' channel GrantData carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel GrantData smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel GrantData carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel GrantData carries toN param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel GrantData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel GrantData is denied" + extra) } when (bundle.opcode === TLMessages.AccessAck) { assume (source_ok, "'D' channel AccessAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel AccessAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel AccessAck is denied" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { assume (source_ok, "'D' channel AccessAckData carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAckData carries invalid param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel AccessAckData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel AccessAckData is denied" + extra) } when (bundle.opcode === TLMessages.HintAck) { assume (source_ok, "'D' channel HintAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel HintAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel HintAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel HintAck is denied" + extra) } } def legalizeFormatE(bundle: TLBundleE, edge: TLEdge): Unit = { val sink_ok = bundle.sink < edge.manager.endSinkId.U monAssert (sink_ok, "'E' channels carries invalid sink ID" + extra) } def legalizeFormat(bundle: TLBundle, edge: TLEdge) = { when (bundle.a.valid) { legalizeFormatA(bundle.a.bits, edge) } when (bundle.d.valid) { legalizeFormatD(bundle.d.bits, edge) } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { when (bundle.b.valid) { legalizeFormatB(bundle.b.bits, edge) } when (bundle.c.valid) { legalizeFormatC(bundle.c.bits, edge) } when (bundle.e.valid) { legalizeFormatE(bundle.e.bits, edge) } } else { monAssert (!bundle.b.valid, "'B' channel valid and not TL-C" + extra) monAssert (!bundle.c.valid, "'C' channel valid and not TL-C" + extra) monAssert (!bundle.e.valid, "'E' channel valid and not TL-C" + extra) } } def legalizeMultibeatA(a: DecoupledIO[TLBundleA], edge: TLEdge): Unit = { val a_first = edge.first(a.bits, a.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (a.valid && !a_first) { monAssert (a.bits.opcode === opcode, "'A' channel opcode changed within multibeat operation" + extra) monAssert (a.bits.param === param, "'A' channel param changed within multibeat operation" + extra) monAssert (a.bits.size === size, "'A' channel size changed within multibeat operation" + extra) monAssert (a.bits.source === source, "'A' channel source changed within multibeat operation" + extra) monAssert (a.bits.address=== address,"'A' channel address changed with multibeat operation" + extra) } when (a.fire && a_first) { opcode := a.bits.opcode param := a.bits.param size := a.bits.size source := a.bits.source address := a.bits.address } } def legalizeMultibeatB(b: DecoupledIO[TLBundleB], edge: TLEdge): Unit = { val b_first = edge.first(b.bits, b.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (b.valid && !b_first) { monAssert (b.bits.opcode === opcode, "'B' channel opcode changed within multibeat operation" + extra) monAssert (b.bits.param === param, "'B' channel param changed within multibeat operation" + extra) monAssert (b.bits.size === size, "'B' channel size changed within multibeat operation" + extra) monAssert (b.bits.source === source, "'B' channel source changed within multibeat operation" + extra) monAssert (b.bits.address=== address,"'B' channel addresss changed with multibeat operation" + extra) } when (b.fire && b_first) { opcode := b.bits.opcode param := b.bits.param size := b.bits.size source := b.bits.source address := b.bits.address } } def legalizeADSourceFormal(bundle: TLBundle, edge: TLEdge): Unit = { // Symbolic variable val sym_source = Wire(UInt(edge.client.endSourceId.W)) // TODO: Connect sym_source to a fixed value for simulation and to a // free wire in formal sym_source := 0.U // Type casting Int to UInt val maxSourceId = Wire(UInt(edge.client.endSourceId.W)) maxSourceId := edge.client.endSourceId.U // Delayed verison of sym_source val sym_source_d = Reg(UInt(edge.client.endSourceId.W)) sym_source_d := sym_source // These will be constraints for FV setup Property( MonitorDirection.Monitor, (sym_source === sym_source_d), "sym_source should remain stable", PropertyClass.Default) Property( MonitorDirection.Monitor, (sym_source <= maxSourceId), "sym_source should take legal value", PropertyClass.Default) val my_resp_pend = RegInit(false.B) val my_opcode = Reg(UInt()) val my_size = Reg(UInt()) val a_first = bundle.a.valid && edge.first(bundle.a.bits, bundle.a.fire) val d_first = bundle.d.valid && edge.first(bundle.d.bits, bundle.d.fire) val my_a_first_beat = a_first && (bundle.a.bits.source === sym_source) val my_d_first_beat = d_first && (bundle.d.bits.source === sym_source) val my_clr_resp_pend = (bundle.d.fire && my_d_first_beat) val my_set_resp_pend = (bundle.a.fire && my_a_first_beat && !my_clr_resp_pend) when (my_set_resp_pend) { my_resp_pend := true.B } .elsewhen (my_clr_resp_pend) { my_resp_pend := false.B } when (my_a_first_beat) { my_opcode := bundle.a.bits.opcode my_size := bundle.a.bits.size } val my_resp_size = Mux(my_a_first_beat, bundle.a.bits.size, my_size) val my_resp_opcode = Mux(my_a_first_beat, bundle.a.bits.opcode, my_opcode) val my_resp_opcode_legal = Wire(Bool()) when ((my_resp_opcode === TLMessages.Get) || (my_resp_opcode === TLMessages.ArithmeticData) || (my_resp_opcode === TLMessages.LogicalData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAckData) } .elsewhen ((my_resp_opcode === TLMessages.PutFullData) || (my_resp_opcode === TLMessages.PutPartialData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAck) } .otherwise { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.HintAck) } monAssert (IfThen(my_resp_pend, !my_a_first_beat), "Request message should not be sent with a source ID, for which a response message" + "is already pending (not received until current cycle) for a prior request message" + "with the same source ID" + extra) assume (IfThen(my_clr_resp_pend, (my_set_resp_pend || my_resp_pend)), "Response message should be accepted with a source ID only if a request message with the" + "same source ID has been accepted or is being accepted in the current cycle" + extra) assume (IfThen(my_d_first_beat, (my_a_first_beat || my_resp_pend)), "Response message should be sent with a source ID only if a request message with the" + "same source ID has been accepted or is being sent in the current cycle" + extra) assume (IfThen(my_d_first_beat, (bundle.d.bits.size === my_resp_size)), "If d_valid is 1, then d_size should be same as a_size of the corresponding request" + "message" + extra) assume (IfThen(my_d_first_beat, my_resp_opcode_legal), "If d_valid is 1, then d_opcode should correspond with a_opcode of the corresponding" + "request message" + extra) } def legalizeMultibeatC(c: DecoupledIO[TLBundleC], edge: TLEdge): Unit = { val c_first = edge.first(c.bits, c.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (c.valid && !c_first) { monAssert (c.bits.opcode === opcode, "'C' channel opcode changed within multibeat operation" + extra) monAssert (c.bits.param === param, "'C' channel param changed within multibeat operation" + extra) monAssert (c.bits.size === size, "'C' channel size changed within multibeat operation" + extra) monAssert (c.bits.source === source, "'C' channel source changed within multibeat operation" + extra) monAssert (c.bits.address=== address,"'C' channel address changed with multibeat operation" + extra) } when (c.fire && c_first) { opcode := c.bits.opcode param := c.bits.param size := c.bits.size source := c.bits.source address := c.bits.address } } def legalizeMultibeatD(d: DecoupledIO[TLBundleD], edge: TLEdge): Unit = { val d_first = edge.first(d.bits, d.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val sink = Reg(UInt()) val denied = Reg(Bool()) when (d.valid && !d_first) { assume (d.bits.opcode === opcode, "'D' channel opcode changed within multibeat operation" + extra) assume (d.bits.param === param, "'D' channel param changed within multibeat operation" + extra) assume (d.bits.size === size, "'D' channel size changed within multibeat operation" + extra) assume (d.bits.source === source, "'D' channel source changed within multibeat operation" + extra) assume (d.bits.sink === sink, "'D' channel sink changed with multibeat operation" + extra) assume (d.bits.denied === denied, "'D' channel denied changed with multibeat operation" + extra) } when (d.fire && d_first) { opcode := d.bits.opcode param := d.bits.param size := d.bits.size source := d.bits.source sink := d.bits.sink denied := d.bits.denied } } def legalizeMultibeat(bundle: TLBundle, edge: TLEdge): Unit = { legalizeMultibeatA(bundle.a, edge) legalizeMultibeatD(bundle.d, edge) if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { legalizeMultibeatB(bundle.b, edge) legalizeMultibeatC(bundle.c, edge) } } //This is left in for almond which doesn't adhere to the tilelink protocol @deprecated("Use legalizeADSource instead if possible","") def legalizeADSourceOld(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.client.endSourceId.W)) val a_first = edge.first(bundle.a.bits, bundle.a.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val a_set = WireInit(0.U(edge.client.endSourceId.W)) when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) assert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) assume((a_set | inflight)(bundle.d.bits.source), "'D' channel acknowledged for nothing inflight" + extra) } if (edge.manager.minLatency > 0) { assume(a_set =/= d_clr || !a_set.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") assert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeADSource(bundle: TLBundle, edge: TLEdge): Unit = { val a_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val a_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_a_opcode_bus_size = log2Ceil(a_opcode_bus_size) val log_a_size_bus_size = log2Ceil(a_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) // size up to avoid width error inflight.suggestName("inflight") val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) inflight_opcodes.suggestName("inflight_opcodes") val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) inflight_sizes.suggestName("inflight_sizes") val a_first = edge.first(bundle.a.bits, bundle.a.fire) a_first.suggestName("a_first") val d_first = edge.first(bundle.d.bits, bundle.d.fire) d_first.suggestName("d_first") val a_set = WireInit(0.U(edge.client.endSourceId.W)) val a_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) a_set.suggestName("a_set") a_set_wo_ready.suggestName("a_set_wo_ready") val a_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) a_opcodes_set.suggestName("a_opcodes_set") val a_sizes_set = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) a_sizes_set.suggestName("a_sizes_set") val a_opcode_lookup = WireInit(0.U((a_opcode_bus_size - 1).W)) a_opcode_lookup.suggestName("a_opcode_lookup") a_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_a_opcode_bus_size.U) & size_to_numfullbits(1.U << log_a_opcode_bus_size.U)) >> 1.U val a_size_lookup = WireInit(0.U((1 << log_a_size_bus_size).W)) a_size_lookup.suggestName("a_size_lookup") a_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_a_size_bus_size.U) & size_to_numfullbits(1.U << log_a_size_bus_size.U)) >> 1.U val responseMap = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.Grant, TLMessages.Grant)) val responseMapSecondOption = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.GrantData, TLMessages.Grant)) val a_opcodes_set_interm = WireInit(0.U(a_opcode_bus_size.W)) a_opcodes_set_interm.suggestName("a_opcodes_set_interm") val a_sizes_set_interm = WireInit(0.U(a_size_bus_size.W)) a_sizes_set_interm.suggestName("a_sizes_set_interm") when (bundle.a.valid && a_first && edge.isRequest(bundle.a.bits)) { a_set_wo_ready := UIntToOH(bundle.a.bits.source) } when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) a_opcodes_set_interm := (bundle.a.bits.opcode << 1.U) | 1.U a_sizes_set_interm := (bundle.a.bits.size << 1.U) | 1.U a_opcodes_set := (a_opcodes_set_interm) << (bundle.a.bits.source << log_a_opcode_bus_size.U) a_sizes_set := (a_sizes_set_interm) << (bundle.a.bits.source << log_a_size_bus_size.U) monAssert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) d_opcodes_clr.suggestName("d_opcodes_clr") val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_a_opcode_bus_size.U) << (bundle.d.bits.source << log_a_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_a_size_bus_size.U) << (bundle.d.bits.source << log_a_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { val same_cycle_resp = bundle.a.valid && a_first && edge.isRequest(bundle.a.bits) && (bundle.a.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.opcode === responseMap(bundle.a.bits.opcode)) || (bundle.d.bits.opcode === responseMapSecondOption(bundle.a.bits.opcode)), "'D' channel contains improper opcode response" + extra) assume((bundle.a.bits.size === bundle.d.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.opcode === responseMap(a_opcode_lookup)) || (bundle.d.bits.opcode === responseMapSecondOption(a_opcode_lookup)), "'D' channel contains improper opcode response" + extra) assume((bundle.d.bits.size === a_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && a_first && bundle.a.valid && (bundle.a.bits.source === bundle.d.bits.source) && !d_release_ack) { assume((!bundle.d.ready) || bundle.a.ready, "ready check") } if (edge.manager.minLatency > 0) { assume(a_set_wo_ready =/= d_clr_wo_ready || !a_set_wo_ready.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr inflight_opcodes := (inflight_opcodes | a_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | a_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeCDSource(bundle: TLBundle, edge: TLEdge): Unit = { val c_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val c_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_c_opcode_bus_size = log2Ceil(c_opcode_bus_size) val log_c_size_bus_size = log2Ceil(c_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) inflight.suggestName("inflight") inflight_opcodes.suggestName("inflight_opcodes") inflight_sizes.suggestName("inflight_sizes") val c_first = edge.first(bundle.c.bits, bundle.c.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) c_first.suggestName("c_first") d_first.suggestName("d_first") val c_set = WireInit(0.U(edge.client.endSourceId.W)) val c_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val c_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val c_sizes_set = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) c_set.suggestName("c_set") c_set_wo_ready.suggestName("c_set_wo_ready") c_opcodes_set.suggestName("c_opcodes_set") c_sizes_set.suggestName("c_sizes_set") val c_opcode_lookup = WireInit(0.U((1 << log_c_opcode_bus_size).W)) val c_size_lookup = WireInit(0.U((1 << log_c_size_bus_size).W)) c_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_c_opcode_bus_size.U) & size_to_numfullbits(1.U << log_c_opcode_bus_size.U)) >> 1.U c_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_c_size_bus_size.U) & size_to_numfullbits(1.U << log_c_size_bus_size.U)) >> 1.U c_opcode_lookup.suggestName("c_opcode_lookup") c_size_lookup.suggestName("c_size_lookup") val c_opcodes_set_interm = WireInit(0.U(c_opcode_bus_size.W)) val c_sizes_set_interm = WireInit(0.U(c_size_bus_size.W)) c_opcodes_set_interm.suggestName("c_opcodes_set_interm") c_sizes_set_interm.suggestName("c_sizes_set_interm") when (bundle.c.valid && c_first && edge.isRequest(bundle.c.bits)) { c_set_wo_ready := UIntToOH(bundle.c.bits.source) } when (bundle.c.fire && c_first && edge.isRequest(bundle.c.bits)) { c_set := UIntToOH(bundle.c.bits.source) c_opcodes_set_interm := (bundle.c.bits.opcode << 1.U) | 1.U c_sizes_set_interm := (bundle.c.bits.size << 1.U) | 1.U c_opcodes_set := (c_opcodes_set_interm) << (bundle.c.bits.source << log_c_opcode_bus_size.U) c_sizes_set := (c_sizes_set_interm) << (bundle.c.bits.source << log_c_size_bus_size.U) monAssert(!inflight(bundle.c.bits.source), "'C' channel re-used a source ID" + extra) } val c_probe_ack = bundle.c.bits.opcode === TLMessages.ProbeAck || bundle.c.bits.opcode === TLMessages.ProbeAckData val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") d_opcodes_clr.suggestName("d_opcodes_clr") d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_c_opcode_bus_size.U) << (bundle.d.bits.source << log_c_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_c_size_bus_size.U) << (bundle.d.bits.source << log_c_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { val same_cycle_resp = bundle.c.valid && c_first && edge.isRequest(bundle.c.bits) && (bundle.c.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.size === bundle.c.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.size === c_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && c_first && bundle.c.valid && (bundle.c.bits.source === bundle.d.bits.source) && d_release_ack && !c_probe_ack) { assume((!bundle.d.ready) || bundle.c.ready, "ready check") } if (edge.manager.minLatency > 0) { when (c_set_wo_ready.orR) { assume(c_set_wo_ready =/= d_clr_wo_ready, s"'C' and 'D' concurrent, despite minlatency > 0" + extra) } } inflight := (inflight | c_set) & ~d_clr inflight_opcodes := (inflight_opcodes | c_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | c_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.c.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeDESink(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.manager.endSinkId.W)) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val e_first = true.B val d_set = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.d.fire && d_first && edge.isRequest(bundle.d.bits)) { d_set := UIntToOH(bundle.d.bits.sink) assume(!inflight(bundle.d.bits.sink), "'D' channel re-used a sink ID" + extra) } val e_clr = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.e.fire && e_first && edge.isResponse(bundle.e.bits)) { e_clr := UIntToOH(bundle.e.bits.sink) monAssert((d_set | inflight)(bundle.e.bits.sink), "'E' channel acknowledged for nothing inflight" + extra) } // edge.client.minLatency applies to BC, not DE inflight := (inflight | d_set) & ~e_clr } def legalizeUnique(bundle: TLBundle, edge: TLEdge): Unit = { val sourceBits = log2Ceil(edge.client.endSourceId) val tooBig = 14 // >16kB worth of flight information gets to be too much if (sourceBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with source bits (${sourceBits}) > ${tooBig}; A=>D transaction flight will not be checked") } else { if (args.edge.params(TestplanTestType).simulation) { if (args.edge.params(TLMonitorStrictMode)) { legalizeADSource(bundle, edge) legalizeCDSource(bundle, edge) } else { legalizeADSourceOld(bundle, edge) } } if (args.edge.params(TestplanTestType).formal) { legalizeADSourceFormal(bundle, edge) } } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { // legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize... val sinkBits = log2Ceil(edge.manager.endSinkId) if (sinkBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with sink bits (${sinkBits}) > ${tooBig}; D=>E transaction flight will not be checked") } else { legalizeDESink(bundle, edge) } } } def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit = { legalizeFormat (bundle, edge) legalizeMultibeat (bundle, edge) legalizeUnique (bundle, edge) } } File Misc.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import scala.math._ class ParameterizedBundle(implicit p: Parameters) extends Bundle trait Clocked extends Bundle { val clock = Clock() val reset = Bool() } object DecoupledHelper { def apply(rvs: Bool*) = new DecoupledHelper(rvs) } class DecoupledHelper(val rvs: Seq[Bool]) { def fire(exclude: Bool, includes: Bool*) = { require(rvs.contains(exclude), "Excluded Bool not present in DecoupledHelper! Note that DecoupledHelper uses referential equality for exclusion! If you don't want to exclude anything, use fire()!") (rvs.filter(_ ne exclude) ++ includes).reduce(_ && _) } def fire() = { rvs.reduce(_ && _) } } object MuxT { def apply[T <: Data, U <: Data](cond: Bool, con: (T, U), alt: (T, U)): (T, U) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2)) def apply[T <: Data, U <: Data, W <: Data](cond: Bool, con: (T, U, W), alt: (T, U, W)): (T, U, W) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3)) def apply[T <: Data, U <: Data, W <: Data, X <: Data](cond: Bool, con: (T, U, W, X), alt: (T, U, W, X)): (T, U, W, X) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3), Mux(cond, con._4, alt._4)) } /** Creates a cascade of n MuxTs to search for a key value. */ object MuxTLookup { def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } } object ValidMux { def apply[T <: Data](v1: ValidIO[T], v2: ValidIO[T]*): ValidIO[T] = { apply(v1 +: v2.toSeq) } def apply[T <: Data](valids: Seq[ValidIO[T]]): ValidIO[T] = { val out = Wire(Valid(valids.head.bits.cloneType)) out.valid := valids.map(_.valid).reduce(_ || _) out.bits := MuxCase(valids.head.bits, valids.map(v => (v.valid -> v.bits))) out } } object Str { def apply(s: String): UInt = { var i = BigInt(0) require(s.forall(validChar _)) for (c <- s) i = (i << 8) | c i.U((s.length*8).W) } def apply(x: Char): UInt = { require(validChar(x)) x.U(8.W) } def apply(x: UInt): UInt = apply(x, 10) def apply(x: UInt, radix: Int): UInt = { val rad = radix.U val w = x.getWidth require(w > 0) var q = x var s = digit(q % rad) for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad s = Cat(Mux((radix == 10).B && q === 0.U, Str(' '), digit(q % rad)), s) } s } def apply(x: SInt): UInt = apply(x, 10) def apply(x: SInt, radix: Int): UInt = { val neg = x < 0.S val abs = x.abs.asUInt if (radix != 10) { Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix)) } else { val rad = radix.U val w = abs.getWidth require(w > 0) var q = abs var s = digit(q % rad) var needSign = neg for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad val placeSpace = q === 0.U val space = Mux(needSign, Str('-'), Str(' ')) needSign = needSign && !placeSpace s = Cat(Mux(placeSpace, space, digit(q % rad)), s) } Cat(Mux(needSign, Str('-'), Str(' ')), s) } } private def digit(d: UInt): UInt = Mux(d < 10.U, Str('0')+d, Str(('a'-10).toChar)+d)(7,0) private def validChar(x: Char) = x == (x & 0xFF) } object Split { def apply(x: UInt, n0: Int) = { val w = x.getWidth (x.extract(w-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n2: Int, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n2), x.extract(n2-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } } object Random { def apply(mod: Int, random: UInt): UInt = { if (isPow2(mod)) random.extract(log2Ceil(mod)-1,0) else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod)) } def apply(mod: Int): UInt = apply(mod, randomizer) def oneHot(mod: Int, random: UInt): UInt = { if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0)) else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).asUInt } def oneHot(mod: Int): UInt = oneHot(mod, randomizer) private def randomizer = LFSR(16) private def partition(value: UInt, slices: Int) = Seq.tabulate(slices)(i => value < (((i + 1) << value.getWidth) / slices).U) } object Majority { def apply(in: Set[Bool]): Bool = { val n = (in.size >> 1) + 1 val clauses = in.subsets(n).map(_.reduce(_ && _)) clauses.reduce(_ || _) } def apply(in: Seq[Bool]): Bool = apply(in.toSet) def apply(in: UInt): Bool = apply(in.asBools.toSet) } object PopCountAtLeast { private def two(x: UInt): (Bool, Bool) = x.getWidth match { case 1 => (x.asBool, false.B) case n => val half = x.getWidth / 2 val (leftOne, leftTwo) = two(x(half - 1, 0)) val (rightOne, rightTwo) = two(x(x.getWidth - 1, half)) (leftOne || rightOne, leftTwo || rightTwo || (leftOne && rightOne)) } def apply(x: UInt, n: Int): Bool = n match { case 0 => true.B case 1 => x.orR case 2 => two(x)._2 case 3 => PopCount(x) >= n.U } } // This gets used everywhere, so make the smallest circuit possible ... // Given an address and size, create a mask of beatBytes size // eg: (0x3, 0, 4) => 0001, (0x3, 1, 4) => 0011, (0x3, 2, 4) => 1111 // groupBy applies an interleaved OR reduction; groupBy=2 take 0010 => 01 object MaskGen { def apply(addr_lo: UInt, lgSize: UInt, beatBytes: Int, groupBy: Int = 1): UInt = { require (groupBy >= 1 && beatBytes >= groupBy) require (isPow2(beatBytes) && isPow2(groupBy)) val lgBytes = log2Ceil(beatBytes) val sizeOH = UIntToOH(lgSize | 0.U(log2Up(beatBytes).W), log2Up(beatBytes)) | (groupBy*2 - 1).U def helper(i: Int): Seq[(Bool, Bool)] = { if (i == 0) { Seq((lgSize >= lgBytes.asUInt, true.B)) } else { val sub = helper(i-1) val size = sizeOH(lgBytes - i) val bit = addr_lo(lgBytes - i) val nbit = !bit Seq.tabulate (1 << i) { j => val (sub_acc, sub_eq) = sub(j/2) val eq = sub_eq && (if (j % 2 == 1) bit else nbit) val acc = sub_acc || (size && eq) (acc, eq) } } } if (groupBy == beatBytes) 1.U else Cat(helper(lgBytes-log2Ceil(groupBy)).map(_._1).reverse) } } File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Bundles.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import freechips.rocketchip.util._ import scala.collection.immutable.ListMap import chisel3.util.Decoupled import chisel3.util.DecoupledIO import chisel3.reflect.DataMirror abstract class TLBundleBase(val params: TLBundleParameters) extends Bundle // common combos in lazy policy: // Put + Acquire // Release + AccessAck object TLMessages { // A B C D E def PutFullData = 0.U // . . => AccessAck def PutPartialData = 1.U // . . => AccessAck def ArithmeticData = 2.U // . . => AccessAckData def LogicalData = 3.U // . . => AccessAckData def Get = 4.U // . . => AccessAckData def Hint = 5.U // . . => HintAck def AcquireBlock = 6.U // . => Grant[Data] def AcquirePerm = 7.U // . => Grant[Data] def Probe = 6.U // . => ProbeAck[Data] def AccessAck = 0.U // . . def AccessAckData = 1.U // . . def HintAck = 2.U // . . def ProbeAck = 4.U // . def ProbeAckData = 5.U // . def Release = 6.U // . => ReleaseAck def ReleaseData = 7.U // . => ReleaseAck def Grant = 4.U // . => GrantAck def GrantData = 5.U // . => GrantAck def ReleaseAck = 6.U // . def GrantAck = 0.U // . def isA(x: UInt) = x <= AcquirePerm def isB(x: UInt) = x <= Probe def isC(x: UInt) = x <= ReleaseData def isD(x: UInt) = x <= ReleaseAck def adResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, Grant, Grant) def bcResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, ProbeAck, ProbeAck) def a = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("AcquireBlock",TLPermissions.PermMsgGrow), ("AcquirePerm",TLPermissions.PermMsgGrow)) def b = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("Probe",TLPermissions.PermMsgCap)) def c = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("ProbeAck",TLPermissions.PermMsgReport), ("ProbeAckData",TLPermissions.PermMsgReport), ("Release",TLPermissions.PermMsgReport), ("ReleaseData",TLPermissions.PermMsgReport)) def d = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("Grant",TLPermissions.PermMsgCap), ("GrantData",TLPermissions.PermMsgCap), ("ReleaseAck",TLPermissions.PermMsgReserved)) } /** * The three primary TileLink permissions are: * (T)runk: the agent is (or is on inwards path to) the global point of serialization. * (B)ranch: the agent is on an outwards path to * (N)one: * These permissions are permuted by transfer operations in various ways. * Operations can cap permissions, request for them to be grown or shrunk, * or for a report on their current status. */ object TLPermissions { val aWidth = 2 val bdWidth = 2 val cWidth = 3 // Cap types (Grant = new permissions, Probe = permisions <= target) def toT = 0.U(bdWidth.W) def toB = 1.U(bdWidth.W) def toN = 2.U(bdWidth.W) def isCap(x: UInt) = x <= toN // Grow types (Acquire = permissions >= target) def NtoB = 0.U(aWidth.W) def NtoT = 1.U(aWidth.W) def BtoT = 2.U(aWidth.W) def isGrow(x: UInt) = x <= BtoT // Shrink types (ProbeAck, Release) def TtoB = 0.U(cWidth.W) def TtoN = 1.U(cWidth.W) def BtoN = 2.U(cWidth.W) def isShrink(x: UInt) = x <= BtoN // Report types (ProbeAck, Release) def TtoT = 3.U(cWidth.W) def BtoB = 4.U(cWidth.W) def NtoN = 5.U(cWidth.W) def isReport(x: UInt) = x <= NtoN def PermMsgGrow:Seq[String] = Seq("Grow NtoB", "Grow NtoT", "Grow BtoT") def PermMsgCap:Seq[String] = Seq("Cap toT", "Cap toB", "Cap toN") def PermMsgReport:Seq[String] = Seq("Shrink TtoB", "Shrink TtoN", "Shrink BtoN", "Report TotT", "Report BtoB", "Report NtoN") def PermMsgReserved:Seq[String] = Seq("Reserved") } object TLAtomics { val width = 3 // Arithmetic types def MIN = 0.U(width.W) def MAX = 1.U(width.W) def MINU = 2.U(width.W) def MAXU = 3.U(width.W) def ADD = 4.U(width.W) def isArithmetic(x: UInt) = x <= ADD // Logical types def XOR = 0.U(width.W) def OR = 1.U(width.W) def AND = 2.U(width.W) def SWAP = 3.U(width.W) def isLogical(x: UInt) = x <= SWAP def ArithMsg:Seq[String] = Seq("MIN", "MAX", "MINU", "MAXU", "ADD") def LogicMsg:Seq[String] = Seq("XOR", "OR", "AND", "SWAP") } object TLHints { val width = 1 def PREFETCH_READ = 0.U(width.W) def PREFETCH_WRITE = 1.U(width.W) def isHints(x: UInt) = x <= PREFETCH_WRITE def HintsMsg:Seq[String] = Seq("PrefetchRead", "PrefetchWrite") } sealed trait TLChannel extends TLBundleBase { val channelName: String } sealed trait TLDataChannel extends TLChannel sealed trait TLAddrChannel extends TLDataChannel final class TLBundleA(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleA_${params.shortName}" val channelName = "'A' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(List(TLAtomics.width, TLPermissions.aWidth, TLHints.width).max.W) // amo_opcode || grow perms || hint val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleB(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleB_${params.shortName}" val channelName = "'B' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val address = UInt(params.addressBits.W) // from // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleC(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleC_${params.shortName}" val channelName = "'C' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.cWidth.W) // shrink or report perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleD(params: TLBundleParameters) extends TLBundleBase(params) with TLDataChannel { override def typeName = s"TLBundleD_${params.shortName}" val channelName = "'D' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val sink = UInt(params.sinkBits.W) // from val denied = Bool() // implies corrupt iff *Data val user = BundleMap(params.responseFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleE(params: TLBundleParameters) extends TLBundleBase(params) with TLChannel { override def typeName = s"TLBundleE_${params.shortName}" val channelName = "'E' channel" val sink = UInt(params.sinkBits.W) // to } class TLBundle(val params: TLBundleParameters) extends Record { // Emulate a Bundle with elements abcde or ad depending on params.hasBCE private val optA = Some (Decoupled(new TLBundleA(params))) private val optB = params.hasBCE.option(Flipped(Decoupled(new TLBundleB(params)))) private val optC = params.hasBCE.option(Decoupled(new TLBundleC(params))) private val optD = Some (Flipped(Decoupled(new TLBundleD(params)))) private val optE = params.hasBCE.option(Decoupled(new TLBundleE(params))) def a: DecoupledIO[TLBundleA] = optA.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleA(params))))) def b: DecoupledIO[TLBundleB] = optB.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleB(params))))) def c: DecoupledIO[TLBundleC] = optC.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleC(params))))) def d: DecoupledIO[TLBundleD] = optD.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleD(params))))) def e: DecoupledIO[TLBundleE] = optE.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleE(params))))) val elements = if (params.hasBCE) ListMap("e" -> e, "d" -> d, "c" -> c, "b" -> b, "a" -> a) else ListMap("d" -> d, "a" -> a) def tieoff(): Unit = { DataMirror.specifiedDirectionOf(a.ready) match { case SpecifiedDirection.Input => a.ready := false.B c.ready := false.B e.ready := false.B b.valid := false.B d.valid := false.B case SpecifiedDirection.Output => a.valid := false.B c.valid := false.B e.valid := false.B b.ready := false.B d.ready := false.B case _ => } } } object TLBundle { def apply(params: TLBundleParameters) = new TLBundle(params) } class TLAsyncBundleBase(val params: TLAsyncBundleParameters) extends Bundle class TLAsyncBundle(params: TLAsyncBundleParameters) extends TLAsyncBundleBase(params) { val a = new AsyncBundle(new TLBundleA(params.base), params.async) val b = Flipped(new AsyncBundle(new TLBundleB(params.base), params.async)) val c = new AsyncBundle(new TLBundleC(params.base), params.async) val d = Flipped(new AsyncBundle(new TLBundleD(params.base), params.async)) val e = new AsyncBundle(new TLBundleE(params.base), params.async) } class TLRationalBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = RationalIO(new TLBundleA(params)) val b = Flipped(RationalIO(new TLBundleB(params))) val c = RationalIO(new TLBundleC(params)) val d = Flipped(RationalIO(new TLBundleD(params))) val e = RationalIO(new TLBundleE(params)) } class TLCreditedBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = CreditedIO(new TLBundleA(params)) val b = Flipped(CreditedIO(new TLBundleB(params))) val c = CreditedIO(new TLBundleC(params)) val d = Flipped(CreditedIO(new TLBundleD(params))) val e = CreditedIO(new TLBundleE(params)) } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.diplomacy.{ AddressDecoder, AddressSet, BufferParams, DirectedBuffers, IdMap, IdMapEntry, IdRange, RegionType, TransferSizes } import freechips.rocketchip.resources.{Resource, ResourceAddress, ResourcePermissions} import freechips.rocketchip.util.{ AsyncQueueParams, BundleField, BundleFieldBase, BundleKeyBase, CreditedDelay, groupByIntoSeq, RationalDirection, SimpleProduct } import scala.math.max //These transfer sizes describe requests issued from masters on the A channel that will be responded by slaves on the D channel case class TLMasterToSlaveTransferSizes( // Supports both Acquire+Release of the following two sizes: acquireT: TransferSizes = TransferSizes.none, acquireB: TransferSizes = TransferSizes.none, arithmetic: TransferSizes = TransferSizes.none, logical: TransferSizes = TransferSizes.none, get: TransferSizes = TransferSizes.none, putFull: TransferSizes = TransferSizes.none, putPartial: TransferSizes = TransferSizes.none, hint: TransferSizes = TransferSizes.none) extends TLCommonTransferSizes { def intersect(rhs: TLMasterToSlaveTransferSizes) = TLMasterToSlaveTransferSizes( acquireT = acquireT .intersect(rhs.acquireT), acquireB = acquireB .intersect(rhs.acquireB), arithmetic = arithmetic.intersect(rhs.arithmetic), logical = logical .intersect(rhs.logical), get = get .intersect(rhs.get), putFull = putFull .intersect(rhs.putFull), putPartial = putPartial.intersect(rhs.putPartial), hint = hint .intersect(rhs.hint)) def mincover(rhs: TLMasterToSlaveTransferSizes) = TLMasterToSlaveTransferSizes( acquireT = acquireT .mincover(rhs.acquireT), acquireB = acquireB .mincover(rhs.acquireB), arithmetic = arithmetic.mincover(rhs.arithmetic), logical = logical .mincover(rhs.logical), get = get .mincover(rhs.get), putFull = putFull .mincover(rhs.putFull), putPartial = putPartial.mincover(rhs.putPartial), hint = hint .mincover(rhs.hint)) // Reduce rendering to a simple yes/no per field override def toString = { def str(x: TransferSizes, flag: String) = if (x.none) "" else flag def flags = Vector( str(acquireT, "T"), str(acquireB, "B"), str(arithmetic, "A"), str(logical, "L"), str(get, "G"), str(putFull, "F"), str(putPartial, "P"), str(hint, "H")) flags.mkString } // Prints out the actual information in a user readable way def infoString = { s"""acquireT = ${acquireT} |acquireB = ${acquireB} |arithmetic = ${arithmetic} |logical = ${logical} |get = ${get} |putFull = ${putFull} |putPartial = ${putPartial} |hint = ${hint} | |""".stripMargin } } object TLMasterToSlaveTransferSizes { def unknownEmits = TLMasterToSlaveTransferSizes( acquireT = TransferSizes(1, 4096), acquireB = TransferSizes(1, 4096), arithmetic = TransferSizes(1, 4096), logical = TransferSizes(1, 4096), get = TransferSizes(1, 4096), putFull = TransferSizes(1, 4096), putPartial = TransferSizes(1, 4096), hint = TransferSizes(1, 4096)) def unknownSupports = TLMasterToSlaveTransferSizes() } //These transfer sizes describe requests issued from slaves on the B channel that will be responded by masters on the C channel case class TLSlaveToMasterTransferSizes( probe: TransferSizes = TransferSizes.none, arithmetic: TransferSizes = TransferSizes.none, logical: TransferSizes = TransferSizes.none, get: TransferSizes = TransferSizes.none, putFull: TransferSizes = TransferSizes.none, putPartial: TransferSizes = TransferSizes.none, hint: TransferSizes = TransferSizes.none ) extends TLCommonTransferSizes { def intersect(rhs: TLSlaveToMasterTransferSizes) = TLSlaveToMasterTransferSizes( probe = probe .intersect(rhs.probe), arithmetic = arithmetic.intersect(rhs.arithmetic), logical = logical .intersect(rhs.logical), get = get .intersect(rhs.get), putFull = putFull .intersect(rhs.putFull), putPartial = putPartial.intersect(rhs.putPartial), hint = hint .intersect(rhs.hint) ) def mincover(rhs: TLSlaveToMasterTransferSizes) = TLSlaveToMasterTransferSizes( probe = probe .mincover(rhs.probe), arithmetic = arithmetic.mincover(rhs.arithmetic), logical = logical .mincover(rhs.logical), get = get .mincover(rhs.get), putFull = putFull .mincover(rhs.putFull), putPartial = putPartial.mincover(rhs.putPartial), hint = hint .mincover(rhs.hint) ) // Reduce rendering to a simple yes/no per field override def toString = { def str(x: TransferSizes, flag: String) = if (x.none) "" else flag def flags = Vector( str(probe, "P"), str(arithmetic, "A"), str(logical, "L"), str(get, "G"), str(putFull, "F"), str(putPartial, "P"), str(hint, "H")) flags.mkString } // Prints out the actual information in a user readable way def infoString = { s"""probe = ${probe} |arithmetic = ${arithmetic} |logical = ${logical} |get = ${get} |putFull = ${putFull} |putPartial = ${putPartial} |hint = ${hint} | |""".stripMargin } } object TLSlaveToMasterTransferSizes { def unknownEmits = TLSlaveToMasterTransferSizes( arithmetic = TransferSizes(1, 4096), logical = TransferSizes(1, 4096), get = TransferSizes(1, 4096), putFull = TransferSizes(1, 4096), putPartial = TransferSizes(1, 4096), hint = TransferSizes(1, 4096), probe = TransferSizes(1, 4096)) def unknownSupports = TLSlaveToMasterTransferSizes() } trait TLCommonTransferSizes { def arithmetic: TransferSizes def logical: TransferSizes def get: TransferSizes def putFull: TransferSizes def putPartial: TransferSizes def hint: TransferSizes } class TLSlaveParameters private( val nodePath: Seq[BaseNode], val resources: Seq[Resource], setName: Option[String], val address: Seq[AddressSet], val regionType: RegionType.T, val executable: Boolean, val fifoId: Option[Int], val supports: TLMasterToSlaveTransferSizes, val emits: TLSlaveToMasterTransferSizes, // By default, slaves are forbidden from issuing 'denied' responses (it prevents Fragmentation) val alwaysGrantsT: Boolean, // typically only true for CacheCork'd read-write devices; dual: neverReleaseData // If fifoId=Some, all accesses sent to the same fifoId are executed and ACK'd in FIFO order // Note: you can only rely on this FIFO behaviour if your TLMasterParameters include requestFifo val mayDenyGet: Boolean, // applies to: AccessAckData, GrantData val mayDenyPut: Boolean) // applies to: AccessAck, Grant, HintAck // ReleaseAck may NEVER be denied extends SimpleProduct { def sortedAddress = address.sorted override def canEqual(that: Any): Boolean = that.isInstanceOf[TLSlaveParameters] override def productPrefix = "TLSlaveParameters" // We intentionally omit nodePath for equality testing / formatting def productArity: Int = 11 def productElement(n: Int): Any = n match { case 0 => name case 1 => address case 2 => resources case 3 => regionType case 4 => executable case 5 => fifoId case 6 => supports case 7 => emits case 8 => alwaysGrantsT case 9 => mayDenyGet case 10 => mayDenyPut case _ => throw new IndexOutOfBoundsException(n.toString) } def supportsAcquireT: TransferSizes = supports.acquireT def supportsAcquireB: TransferSizes = supports.acquireB def supportsArithmetic: TransferSizes = supports.arithmetic def supportsLogical: TransferSizes = supports.logical def supportsGet: TransferSizes = supports.get def supportsPutFull: TransferSizes = supports.putFull def supportsPutPartial: TransferSizes = supports.putPartial def supportsHint: TransferSizes = supports.hint require (!address.isEmpty, "Address cannot be empty") address.foreach { a => require (a.finite, "Address must be finite") } address.combinations(2).foreach { case Seq(x,y) => require (!x.overlaps(y), s"$x and $y overlap.") } require (supportsPutFull.contains(supportsPutPartial), s"PutFull($supportsPutFull) < PutPartial($supportsPutPartial)") require (supportsPutFull.contains(supportsArithmetic), s"PutFull($supportsPutFull) < Arithmetic($supportsArithmetic)") require (supportsPutFull.contains(supportsLogical), s"PutFull($supportsPutFull) < Logical($supportsLogical)") require (supportsGet.contains(supportsArithmetic), s"Get($supportsGet) < Arithmetic($supportsArithmetic)") require (supportsGet.contains(supportsLogical), s"Get($supportsGet) < Logical($supportsLogical)") require (supportsAcquireB.contains(supportsAcquireT), s"AcquireB($supportsAcquireB) < AcquireT($supportsAcquireT)") require (!alwaysGrantsT || supportsAcquireT, s"Must supportAcquireT if promising to always grantT") // Make sure that the regionType agrees with the capabilities require (!supportsAcquireB || regionType >= RegionType.UNCACHED) // acquire -> uncached, tracked, cached require (regionType <= RegionType.UNCACHED || supportsAcquireB) // tracked, cached -> acquire require (regionType != RegionType.UNCACHED || supportsGet) // uncached -> supportsGet val name = setName.orElse(nodePath.lastOption.map(_.lazyModule.name)).getOrElse("disconnected") val maxTransfer = List( // Largest supported transfer of all types supportsAcquireT.max, supportsAcquireB.max, supportsArithmetic.max, supportsLogical.max, supportsGet.max, supportsPutFull.max, supportsPutPartial.max).max val maxAddress = address.map(_.max).max val minAlignment = address.map(_.alignment).min // The device had better not support a transfer larger than its alignment require (minAlignment >= maxTransfer, s"Bad $address: minAlignment ($minAlignment) must be >= maxTransfer ($maxTransfer)") def toResource: ResourceAddress = { ResourceAddress(address, ResourcePermissions( r = supportsAcquireB || supportsGet, w = supportsAcquireT || supportsPutFull, x = executable, c = supportsAcquireB, a = supportsArithmetic && supportsLogical)) } def findTreeViolation() = nodePath.find { case _: MixedAdapterNode[_, _, _, _, _, _, _, _] => false case _: SinkNode[_, _, _, _, _] => false case node => node.inputs.size != 1 } def isTree = findTreeViolation() == None def infoString = { s"""Slave Name = ${name} |Slave Address = ${address} |supports = ${supports.infoString} | |""".stripMargin } def v1copy( address: Seq[AddressSet] = address, resources: Seq[Resource] = resources, regionType: RegionType.T = regionType, executable: Boolean = executable, nodePath: Seq[BaseNode] = nodePath, supportsAcquireT: TransferSizes = supports.acquireT, supportsAcquireB: TransferSizes = supports.acquireB, supportsArithmetic: TransferSizes = supports.arithmetic, supportsLogical: TransferSizes = supports.logical, supportsGet: TransferSizes = supports.get, supportsPutFull: TransferSizes = supports.putFull, supportsPutPartial: TransferSizes = supports.putPartial, supportsHint: TransferSizes = supports.hint, mayDenyGet: Boolean = mayDenyGet, mayDenyPut: Boolean = mayDenyPut, alwaysGrantsT: Boolean = alwaysGrantsT, fifoId: Option[Int] = fifoId) = { new TLSlaveParameters( setName = setName, address = address, resources = resources, regionType = regionType, executable = executable, nodePath = nodePath, supports = TLMasterToSlaveTransferSizes( acquireT = supportsAcquireT, acquireB = supportsAcquireB, arithmetic = supportsArithmetic, logical = supportsLogical, get = supportsGet, putFull = supportsPutFull, putPartial = supportsPutPartial, hint = supportsHint), emits = emits, mayDenyGet = mayDenyGet, mayDenyPut = mayDenyPut, alwaysGrantsT = alwaysGrantsT, fifoId = fifoId) } def v2copy( nodePath: Seq[BaseNode] = nodePath, resources: Seq[Resource] = resources, name: Option[String] = setName, address: Seq[AddressSet] = address, regionType: RegionType.T = regionType, executable: Boolean = executable, fifoId: Option[Int] = fifoId, supports: TLMasterToSlaveTransferSizes = supports, emits: TLSlaveToMasterTransferSizes = emits, alwaysGrantsT: Boolean = alwaysGrantsT, mayDenyGet: Boolean = mayDenyGet, mayDenyPut: Boolean = mayDenyPut) = { new TLSlaveParameters( nodePath = nodePath, resources = resources, setName = name, address = address, regionType = regionType, executable = executable, fifoId = fifoId, supports = supports, emits = emits, alwaysGrantsT = alwaysGrantsT, mayDenyGet = mayDenyGet, mayDenyPut = mayDenyPut) } @deprecated("Use v1copy instead of copy","") def copy( address: Seq[AddressSet] = address, resources: Seq[Resource] = resources, regionType: RegionType.T = regionType, executable: Boolean = executable, nodePath: Seq[BaseNode] = nodePath, supportsAcquireT: TransferSizes = supports.acquireT, supportsAcquireB: TransferSizes = supports.acquireB, supportsArithmetic: TransferSizes = supports.arithmetic, supportsLogical: TransferSizes = supports.logical, supportsGet: TransferSizes = supports.get, supportsPutFull: TransferSizes = supports.putFull, supportsPutPartial: TransferSizes = supports.putPartial, supportsHint: TransferSizes = supports.hint, mayDenyGet: Boolean = mayDenyGet, mayDenyPut: Boolean = mayDenyPut, alwaysGrantsT: Boolean = alwaysGrantsT, fifoId: Option[Int] = fifoId) = { v1copy( address = address, resources = resources, regionType = regionType, executable = executable, nodePath = nodePath, supportsAcquireT = supportsAcquireT, supportsAcquireB = supportsAcquireB, supportsArithmetic = supportsArithmetic, supportsLogical = supportsLogical, supportsGet = supportsGet, supportsPutFull = supportsPutFull, supportsPutPartial = supportsPutPartial, supportsHint = supportsHint, mayDenyGet = mayDenyGet, mayDenyPut = mayDenyPut, alwaysGrantsT = alwaysGrantsT, fifoId = fifoId) } } object TLSlaveParameters { def v1( address: Seq[AddressSet], resources: Seq[Resource] = Seq(), regionType: RegionType.T = RegionType.GET_EFFECTS, executable: Boolean = false, nodePath: Seq[BaseNode] = Seq(), supportsAcquireT: TransferSizes = TransferSizes.none, supportsAcquireB: TransferSizes = TransferSizes.none, supportsArithmetic: TransferSizes = TransferSizes.none, supportsLogical: TransferSizes = TransferSizes.none, supportsGet: TransferSizes = TransferSizes.none, supportsPutFull: TransferSizes = TransferSizes.none, supportsPutPartial: TransferSizes = TransferSizes.none, supportsHint: TransferSizes = TransferSizes.none, mayDenyGet: Boolean = false, mayDenyPut: Boolean = false, alwaysGrantsT: Boolean = false, fifoId: Option[Int] = None) = { new TLSlaveParameters( setName = None, address = address, resources = resources, regionType = regionType, executable = executable, nodePath = nodePath, supports = TLMasterToSlaveTransferSizes( acquireT = supportsAcquireT, acquireB = supportsAcquireB, arithmetic = supportsArithmetic, logical = supportsLogical, get = supportsGet, putFull = supportsPutFull, putPartial = supportsPutPartial, hint = supportsHint), emits = TLSlaveToMasterTransferSizes.unknownEmits, mayDenyGet = mayDenyGet, mayDenyPut = mayDenyPut, alwaysGrantsT = alwaysGrantsT, fifoId = fifoId) } def v2( address: Seq[AddressSet], nodePath: Seq[BaseNode] = Seq(), resources: Seq[Resource] = Seq(), name: Option[String] = None, regionType: RegionType.T = RegionType.GET_EFFECTS, executable: Boolean = false, fifoId: Option[Int] = None, supports: TLMasterToSlaveTransferSizes = TLMasterToSlaveTransferSizes.unknownSupports, emits: TLSlaveToMasterTransferSizes = TLSlaveToMasterTransferSizes.unknownEmits, alwaysGrantsT: Boolean = false, mayDenyGet: Boolean = false, mayDenyPut: Boolean = false) = { new TLSlaveParameters( nodePath = nodePath, resources = resources, setName = name, address = address, regionType = regionType, executable = executable, fifoId = fifoId, supports = supports, emits = emits, alwaysGrantsT = alwaysGrantsT, mayDenyGet = mayDenyGet, mayDenyPut = mayDenyPut) } } object TLManagerParameters { @deprecated("Use TLSlaveParameters.v1 instead of TLManagerParameters","") def apply( address: Seq[AddressSet], resources: Seq[Resource] = Seq(), regionType: RegionType.T = RegionType.GET_EFFECTS, executable: Boolean = false, nodePath: Seq[BaseNode] = Seq(), supportsAcquireT: TransferSizes = TransferSizes.none, supportsAcquireB: TransferSizes = TransferSizes.none, supportsArithmetic: TransferSizes = TransferSizes.none, supportsLogical: TransferSizes = TransferSizes.none, supportsGet: TransferSizes = TransferSizes.none, supportsPutFull: TransferSizes = TransferSizes.none, supportsPutPartial: TransferSizes = TransferSizes.none, supportsHint: TransferSizes = TransferSizes.none, mayDenyGet: Boolean = false, mayDenyPut: Boolean = false, alwaysGrantsT: Boolean = false, fifoId: Option[Int] = None) = TLSlaveParameters.v1( address, resources, regionType, executable, nodePath, supportsAcquireT, supportsAcquireB, supportsArithmetic, supportsLogical, supportsGet, supportsPutFull, supportsPutPartial, supportsHint, mayDenyGet, mayDenyPut, alwaysGrantsT, fifoId, ) } case class TLChannelBeatBytes(a: Option[Int], b: Option[Int], c: Option[Int], d: Option[Int]) { def members = Seq(a, b, c, d) members.collect { case Some(beatBytes) => require (isPow2(beatBytes), "Data channel width must be a power of 2") } } object TLChannelBeatBytes{ def apply(beatBytes: Int): TLChannelBeatBytes = TLChannelBeatBytes( Some(beatBytes), Some(beatBytes), Some(beatBytes), Some(beatBytes)) def apply(): TLChannelBeatBytes = TLChannelBeatBytes( None, None, None, None) } class TLSlavePortParameters private( val slaves: Seq[TLSlaveParameters], val channelBytes: TLChannelBeatBytes, val endSinkId: Int, val minLatency: Int, val responseFields: Seq[BundleFieldBase], val requestKeys: Seq[BundleKeyBase]) extends SimpleProduct { def sortedSlaves = slaves.sortBy(_.sortedAddress.head) override def canEqual(that: Any): Boolean = that.isInstanceOf[TLSlavePortParameters] override def productPrefix = "TLSlavePortParameters" def productArity: Int = 6 def productElement(n: Int): Any = n match { case 0 => slaves case 1 => channelBytes case 2 => endSinkId case 3 => minLatency case 4 => responseFields case 5 => requestKeys case _ => throw new IndexOutOfBoundsException(n.toString) } require (!slaves.isEmpty, "Slave ports must have slaves") require (endSinkId >= 0, "Sink ids cannot be negative") require (minLatency >= 0, "Minimum required latency cannot be negative") // Using this API implies you cannot handle mixed-width busses def beatBytes = { channelBytes.members.foreach { width => require (width.isDefined && width == channelBytes.a) } channelBytes.a.get } // TODO this should be deprecated def managers = slaves def requireFifo(policy: TLFIFOFixer.Policy = TLFIFOFixer.allFIFO) = { val relevant = slaves.filter(m => policy(m)) relevant.foreach { m => require(m.fifoId == relevant.head.fifoId, s"${m.name} had fifoId ${m.fifoId}, which was not homogeneous (${slaves.map(s => (s.name, s.fifoId))}) ") } } // Bounds on required sizes def maxAddress = slaves.map(_.maxAddress).max def maxTransfer = slaves.map(_.maxTransfer).max def mayDenyGet = slaves.exists(_.mayDenyGet) def mayDenyPut = slaves.exists(_.mayDenyPut) // Diplomatically determined operation sizes emitted by all outward Slaves // as opposed to emits* which generate circuitry to check which specific addresses val allEmitClaims = slaves.map(_.emits).reduce( _ intersect _) // Operation Emitted by at least one outward Slaves // as opposed to emits* which generate circuitry to check which specific addresses val anyEmitClaims = slaves.map(_.emits).reduce(_ mincover _) // Diplomatically determined operation sizes supported by all outward Slaves // as opposed to supports* which generate circuitry to check which specific addresses val allSupportClaims = slaves.map(_.supports).reduce( _ intersect _) val allSupportAcquireT = allSupportClaims.acquireT val allSupportAcquireB = allSupportClaims.acquireB val allSupportArithmetic = allSupportClaims.arithmetic val allSupportLogical = allSupportClaims.logical val allSupportGet = allSupportClaims.get val allSupportPutFull = allSupportClaims.putFull val allSupportPutPartial = allSupportClaims.putPartial val allSupportHint = allSupportClaims.hint // Operation supported by at least one outward Slaves // as opposed to supports* which generate circuitry to check which specific addresses val anySupportClaims = slaves.map(_.supports).reduce(_ mincover _) val anySupportAcquireT = !anySupportClaims.acquireT.none val anySupportAcquireB = !anySupportClaims.acquireB.none val anySupportArithmetic = !anySupportClaims.arithmetic.none val anySupportLogical = !anySupportClaims.logical.none val anySupportGet = !anySupportClaims.get.none val anySupportPutFull = !anySupportClaims.putFull.none val anySupportPutPartial = !anySupportClaims.putPartial.none val anySupportHint = !anySupportClaims.hint.none // Supporting Acquire means being routable for GrantAck require ((endSinkId == 0) == !anySupportAcquireB) // These return Option[TLSlaveParameters] for your convenience def find(address: BigInt) = slaves.find(_.address.exists(_.contains(address))) // The safe version will check the entire address def findSafe(address: UInt) = VecInit(sortedSlaves.map(_.address.map(_.contains(address)).reduce(_ || _))) // The fast version assumes the address is valid (you probably want fastProperty instead of this function) def findFast(address: UInt) = { val routingMask = AddressDecoder(slaves.map(_.address)) VecInit(sortedSlaves.map(_.address.map(_.widen(~routingMask)).distinct.map(_.contains(address)).reduce(_ || _))) } // Compute the simplest AddressSets that decide a key def fastPropertyGroup[K](p: TLSlaveParameters => K): Seq[(K, Seq[AddressSet])] = { val groups = groupByIntoSeq(sortedSlaves.map(m => (p(m), m.address)))( _._1).map { case (k, vs) => k -> vs.flatMap(_._2) } val reductionMask = AddressDecoder(groups.map(_._2)) groups.map { case (k, seq) => k -> AddressSet.unify(seq.map(_.widen(~reductionMask)).distinct) } } // Select a property def fastProperty[K, D <: Data](address: UInt, p: TLSlaveParameters => K, d: K => D): D = Mux1H(fastPropertyGroup(p).map { case (v, a) => (a.map(_.contains(address)).reduce(_||_), d(v)) }) // Note: returns the actual fifoId + 1 or 0 if None def findFifoIdFast(address: UInt) = fastProperty(address, _.fifoId.map(_+1).getOrElse(0), (i:Int) => i.U) def hasFifoIdFast(address: UInt) = fastProperty(address, _.fifoId.isDefined, (b:Boolean) => b.B) // Does this Port manage this ID/address? def containsSafe(address: UInt) = findSafe(address).reduce(_ || _) private def addressHelper( // setting safe to false indicates that all addresses are expected to be legal, which might reduce circuit complexity safe: Boolean, // member filters out the sizes being checked based on the opcode being emitted or supported member: TLSlaveParameters => TransferSizes, address: UInt, lgSize: UInt, // range provides a limit on the sizes that are expected to be evaluated, which might reduce circuit complexity range: Option[TransferSizes]): Bool = { // trim reduces circuit complexity by intersecting checked sizes with the range argument def trim(x: TransferSizes) = range.map(_.intersect(x)).getOrElse(x) // groupBy returns an unordered map, convert back to Seq and sort the result for determinism // groupByIntoSeq is turning slaves into trimmed membership sizes // We are grouping all the slaves by their transfer size where // if they support the trimmed size then // member is the type of transfer that you are looking for (What you are trying to filter on) // When you consider membership, you are trimming the sizes to only the ones that you care about // you are filtering the slaves based on both whether they support a particular opcode and the size // Grouping the slaves based on the actual transfer size range they support // intersecting the range and checking their membership // FOR SUPPORTCASES instead of returning the list of slaves, // you are returning a map from transfer size to the set of // address sets that are supported for that transfer size // find all the slaves that support a certain type of operation and then group their addresses by the supported size // for every size there could be multiple address ranges // safety is a trade off between checking between all possible addresses vs only the addresses // that are known to have supported sizes // the trade off is 'checking all addresses is a more expensive circuit but will always give you // the right answer even if you give it an illegal address' // the not safe version is a cheaper circuit but if you give it an illegal address then it might produce the wrong answer // fast presumes address legality // This groupByIntoSeq deterministically groups all address sets for which a given `member` transfer size applies. // In the resulting Map of cases, the keys are transfer sizes and the values are all address sets which emit or support that size. val supportCases = groupByIntoSeq(slaves)(m => trim(member(m))).map { case (k: TransferSizes, vs: Seq[TLSlaveParameters]) => k -> vs.flatMap(_.address) } // safe produces a circuit that compares against all possible addresses, // whereas fast presumes that the address is legal but uses an efficient address decoder val mask = if (safe) ~BigInt(0) else AddressDecoder(supportCases.map(_._2)) // Simplified creates the most concise possible representation of each cases' address sets based on the mask. val simplified = supportCases.map { case (k, seq) => k -> AddressSet.unify(seq.map(_.widen(~mask)).distinct) } simplified.map { case (s, a) => // s is a size, you are checking for this size either the size of the operation is in s // We return an or-reduction of all the cases, checking whether any contains both the dynamic size and dynamic address on the wire. ((Some(s) == range).B || s.containsLg(lgSize)) && a.map(_.contains(address)).reduce(_||_) }.foldLeft(false.B)(_||_) } def supportsAcquireTSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.acquireT, address, lgSize, range) def supportsAcquireBSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.acquireB, address, lgSize, range) def supportsArithmeticSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.arithmetic, address, lgSize, range) def supportsLogicalSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.logical, address, lgSize, range) def supportsGetSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.get, address, lgSize, range) def supportsPutFullSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.putFull, address, lgSize, range) def supportsPutPartialSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.putPartial, address, lgSize, range) def supportsHintSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.supports.hint, address, lgSize, range) def supportsAcquireTFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.acquireT, address, lgSize, range) def supportsAcquireBFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.acquireB, address, lgSize, range) def supportsArithmeticFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.arithmetic, address, lgSize, range) def supportsLogicalFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.logical, address, lgSize, range) def supportsGetFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.get, address, lgSize, range) def supportsPutFullFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.putFull, address, lgSize, range) def supportsPutPartialFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.putPartial, address, lgSize, range) def supportsHintFast (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(false, _.supports.hint, address, lgSize, range) def emitsProbeSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.probe, address, lgSize, range) def emitsArithmeticSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.arithmetic, address, lgSize, range) def emitsLogicalSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.logical, address, lgSize, range) def emitsGetSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.get, address, lgSize, range) def emitsPutFullSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.putFull, address, lgSize, range) def emitsPutPartialSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.putPartial, address, lgSize, range) def emitsHintSafe (address: UInt, lgSize: UInt, range: Option[TransferSizes] = None) = addressHelper(true, _.emits.hint, address, lgSize, range) def findTreeViolation() = slaves.flatMap(_.findTreeViolation()).headOption def isTree = !slaves.exists(!_.isTree) def infoString = "Slave Port Beatbytes = " + beatBytes + "\n" + "Slave Port MinLatency = " + minLatency + "\n\n" + slaves.map(_.infoString).mkString def v1copy( managers: Seq[TLSlaveParameters] = slaves, beatBytes: Int = -1, endSinkId: Int = endSinkId, minLatency: Int = minLatency, responseFields: Seq[BundleFieldBase] = responseFields, requestKeys: Seq[BundleKeyBase] = requestKeys) = { new TLSlavePortParameters( slaves = managers, channelBytes = if (beatBytes != -1) TLChannelBeatBytes(beatBytes) else channelBytes, endSinkId = endSinkId, minLatency = minLatency, responseFields = responseFields, requestKeys = requestKeys) } def v2copy( slaves: Seq[TLSlaveParameters] = slaves, channelBytes: TLChannelBeatBytes = channelBytes, endSinkId: Int = endSinkId, minLatency: Int = minLatency, responseFields: Seq[BundleFieldBase] = responseFields, requestKeys: Seq[BundleKeyBase] = requestKeys) = { new TLSlavePortParameters( slaves = slaves, channelBytes = channelBytes, endSinkId = endSinkId, minLatency = minLatency, responseFields = responseFields, requestKeys = requestKeys) } @deprecated("Use v1copy instead of copy","") def copy( managers: Seq[TLSlaveParameters] = slaves, beatBytes: Int = -1, endSinkId: Int = endSinkId, minLatency: Int = minLatency, responseFields: Seq[BundleFieldBase] = responseFields, requestKeys: Seq[BundleKeyBase] = requestKeys) = { v1copy( managers, beatBytes, endSinkId, minLatency, responseFields, requestKeys) } } object TLSlavePortParameters { def v1( managers: Seq[TLSlaveParameters], beatBytes: Int, endSinkId: Int = 0, minLatency: Int = 0, responseFields: Seq[BundleFieldBase] = Nil, requestKeys: Seq[BundleKeyBase] = Nil) = { new TLSlavePortParameters( slaves = managers, channelBytes = TLChannelBeatBytes(beatBytes), endSinkId = endSinkId, minLatency = minLatency, responseFields = responseFields, requestKeys = requestKeys) } } object TLManagerPortParameters { @deprecated("Use TLSlavePortParameters.v1 instead of TLManagerPortParameters","") def apply( managers: Seq[TLSlaveParameters], beatBytes: Int, endSinkId: Int = 0, minLatency: Int = 0, responseFields: Seq[BundleFieldBase] = Nil, requestKeys: Seq[BundleKeyBase] = Nil) = { TLSlavePortParameters.v1( managers, beatBytes, endSinkId, minLatency, responseFields, requestKeys) } } class TLMasterParameters private( val nodePath: Seq[BaseNode], val resources: Seq[Resource], val name: String, val visibility: Seq[AddressSet], val unusedRegionTypes: Set[RegionType.T], val executesOnly: Boolean, val requestFifo: Boolean, // only a request, not a requirement. applies to A, not C. val supports: TLSlaveToMasterTransferSizes, val emits: TLMasterToSlaveTransferSizes, val neverReleasesData: Boolean, val sourceId: IdRange) extends SimpleProduct { override def canEqual(that: Any): Boolean = that.isInstanceOf[TLMasterParameters] override def productPrefix = "TLMasterParameters" // We intentionally omit nodePath for equality testing / formatting def productArity: Int = 10 def productElement(n: Int): Any = n match { case 0 => name case 1 => sourceId case 2 => resources case 3 => visibility case 4 => unusedRegionTypes case 5 => executesOnly case 6 => requestFifo case 7 => supports case 8 => emits case 9 => neverReleasesData case _ => throw new IndexOutOfBoundsException(n.toString) } require (!sourceId.isEmpty) require (!visibility.isEmpty) require (supports.putFull.contains(supports.putPartial)) // We only support these operations if we support Probe (ie: we're a cache) require (supports.probe.contains(supports.arithmetic)) require (supports.probe.contains(supports.logical)) require (supports.probe.contains(supports.get)) require (supports.probe.contains(supports.putFull)) require (supports.probe.contains(supports.putPartial)) require (supports.probe.contains(supports.hint)) visibility.combinations(2).foreach { case Seq(x,y) => require (!x.overlaps(y), s"$x and $y overlap.") } val maxTransfer = List( supports.probe.max, supports.arithmetic.max, supports.logical.max, supports.get.max, supports.putFull.max, supports.putPartial.max).max def infoString = { s"""Master Name = ${name} |visibility = ${visibility} |emits = ${emits.infoString} |sourceId = ${sourceId} | |""".stripMargin } def v1copy( name: String = name, sourceId: IdRange = sourceId, nodePath: Seq[BaseNode] = nodePath, requestFifo: Boolean = requestFifo, visibility: Seq[AddressSet] = visibility, supportsProbe: TransferSizes = supports.probe, supportsArithmetic: TransferSizes = supports.arithmetic, supportsLogical: TransferSizes = supports.logical, supportsGet: TransferSizes = supports.get, supportsPutFull: TransferSizes = supports.putFull, supportsPutPartial: TransferSizes = supports.putPartial, supportsHint: TransferSizes = supports.hint) = { new TLMasterParameters( nodePath = nodePath, resources = this.resources, name = name, visibility = visibility, unusedRegionTypes = this.unusedRegionTypes, executesOnly = this.executesOnly, requestFifo = requestFifo, supports = TLSlaveToMasterTransferSizes( probe = supportsProbe, arithmetic = supportsArithmetic, logical = supportsLogical, get = supportsGet, putFull = supportsPutFull, putPartial = supportsPutPartial, hint = supportsHint), emits = this.emits, neverReleasesData = this.neverReleasesData, sourceId = sourceId) } def v2copy( nodePath: Seq[BaseNode] = nodePath, resources: Seq[Resource] = resources, name: String = name, visibility: Seq[AddressSet] = visibility, unusedRegionTypes: Set[RegionType.T] = unusedRegionTypes, executesOnly: Boolean = executesOnly, requestFifo: Boolean = requestFifo, supports: TLSlaveToMasterTransferSizes = supports, emits: TLMasterToSlaveTransferSizes = emits, neverReleasesData: Boolean = neverReleasesData, sourceId: IdRange = sourceId) = { new TLMasterParameters( nodePath = nodePath, resources = resources, name = name, visibility = visibility, unusedRegionTypes = unusedRegionTypes, executesOnly = executesOnly, requestFifo = requestFifo, supports = supports, emits = emits, neverReleasesData = neverReleasesData, sourceId = sourceId) } @deprecated("Use v1copy instead of copy","") def copy( name: String = name, sourceId: IdRange = sourceId, nodePath: Seq[BaseNode] = nodePath, requestFifo: Boolean = requestFifo, visibility: Seq[AddressSet] = visibility, supportsProbe: TransferSizes = supports.probe, supportsArithmetic: TransferSizes = supports.arithmetic, supportsLogical: TransferSizes = supports.logical, supportsGet: TransferSizes = supports.get, supportsPutFull: TransferSizes = supports.putFull, supportsPutPartial: TransferSizes = supports.putPartial, supportsHint: TransferSizes = supports.hint) = { v1copy( name = name, sourceId = sourceId, nodePath = nodePath, requestFifo = requestFifo, visibility = visibility, supportsProbe = supportsProbe, supportsArithmetic = supportsArithmetic, supportsLogical = supportsLogical, supportsGet = supportsGet, supportsPutFull = supportsPutFull, supportsPutPartial = supportsPutPartial, supportsHint = supportsHint) } } object TLMasterParameters { def v1( name: String, sourceId: IdRange = IdRange(0,1), nodePath: Seq[BaseNode] = Seq(), requestFifo: Boolean = false, visibility: Seq[AddressSet] = Seq(AddressSet(0, ~0)), supportsProbe: TransferSizes = TransferSizes.none, supportsArithmetic: TransferSizes = TransferSizes.none, supportsLogical: TransferSizes = TransferSizes.none, supportsGet: TransferSizes = TransferSizes.none, supportsPutFull: TransferSizes = TransferSizes.none, supportsPutPartial: TransferSizes = TransferSizes.none, supportsHint: TransferSizes = TransferSizes.none) = { new TLMasterParameters( nodePath = nodePath, resources = Nil, name = name, visibility = visibility, unusedRegionTypes = Set(), executesOnly = false, requestFifo = requestFifo, supports = TLSlaveToMasterTransferSizes( probe = supportsProbe, arithmetic = supportsArithmetic, logical = supportsLogical, get = supportsGet, putFull = supportsPutFull, putPartial = supportsPutPartial, hint = supportsHint), emits = TLMasterToSlaveTransferSizes.unknownEmits, neverReleasesData = false, sourceId = sourceId) } def v2( nodePath: Seq[BaseNode] = Seq(), resources: Seq[Resource] = Nil, name: String, visibility: Seq[AddressSet] = Seq(AddressSet(0, ~0)), unusedRegionTypes: Set[RegionType.T] = Set(), executesOnly: Boolean = false, requestFifo: Boolean = false, supports: TLSlaveToMasterTransferSizes = TLSlaveToMasterTransferSizes.unknownSupports, emits: TLMasterToSlaveTransferSizes = TLMasterToSlaveTransferSizes.unknownEmits, neverReleasesData: Boolean = false, sourceId: IdRange = IdRange(0,1)) = { new TLMasterParameters( nodePath = nodePath, resources = resources, name = name, visibility = visibility, unusedRegionTypes = unusedRegionTypes, executesOnly = executesOnly, requestFifo = requestFifo, supports = supports, emits = emits, neverReleasesData = neverReleasesData, sourceId = sourceId) } } object TLClientParameters { @deprecated("Use TLMasterParameters.v1 instead of TLClientParameters","") def apply( name: String, sourceId: IdRange = IdRange(0,1), nodePath: Seq[BaseNode] = Seq(), requestFifo: Boolean = false, visibility: Seq[AddressSet] = Seq(AddressSet.everything), supportsProbe: TransferSizes = TransferSizes.none, supportsArithmetic: TransferSizes = TransferSizes.none, supportsLogical: TransferSizes = TransferSizes.none, supportsGet: TransferSizes = TransferSizes.none, supportsPutFull: TransferSizes = TransferSizes.none, supportsPutPartial: TransferSizes = TransferSizes.none, supportsHint: TransferSizes = TransferSizes.none) = { TLMasterParameters.v1( name = name, sourceId = sourceId, nodePath = nodePath, requestFifo = requestFifo, visibility = visibility, supportsProbe = supportsProbe, supportsArithmetic = supportsArithmetic, supportsLogical = supportsLogical, supportsGet = supportsGet, supportsPutFull = supportsPutFull, supportsPutPartial = supportsPutPartial, supportsHint = supportsHint) } } class TLMasterPortParameters private( val masters: Seq[TLMasterParameters], val channelBytes: TLChannelBeatBytes, val minLatency: Int, val echoFields: Seq[BundleFieldBase], val requestFields: Seq[BundleFieldBase], val responseKeys: Seq[BundleKeyBase]) extends SimpleProduct { override def canEqual(that: Any): Boolean = that.isInstanceOf[TLMasterPortParameters] override def productPrefix = "TLMasterPortParameters" def productArity: Int = 6 def productElement(n: Int): Any = n match { case 0 => masters case 1 => channelBytes case 2 => minLatency case 3 => echoFields case 4 => requestFields case 5 => responseKeys case _ => throw new IndexOutOfBoundsException(n.toString) } require (!masters.isEmpty) require (minLatency >= 0) def clients = masters // Require disjoint ranges for Ids IdRange.overlaps(masters.map(_.sourceId)).foreach { case (x, y) => require (!x.overlaps(y), s"TLClientParameters.sourceId ${x} overlaps ${y}") } // Bounds on required sizes def endSourceId = masters.map(_.sourceId.end).max def maxTransfer = masters.map(_.maxTransfer).max // The unused sources < endSourceId def unusedSources: Seq[Int] = { val usedSources = masters.map(_.sourceId).sortBy(_.start) ((Seq(0) ++ usedSources.map(_.end)) zip usedSources.map(_.start)) flatMap { case (end, start) => end until start } } // Diplomatically determined operation sizes emitted by all inward Masters // as opposed to emits* which generate circuitry to check which specific addresses val allEmitClaims = masters.map(_.emits).reduce( _ intersect _) // Diplomatically determined operation sizes Emitted by at least one inward Masters // as opposed to emits* which generate circuitry to check which specific addresses val anyEmitClaims = masters.map(_.emits).reduce(_ mincover _) // Diplomatically determined operation sizes supported by all inward Masters // as opposed to supports* which generate circuitry to check which specific addresses val allSupportProbe = masters.map(_.supports.probe) .reduce(_ intersect _) val allSupportArithmetic = masters.map(_.supports.arithmetic).reduce(_ intersect _) val allSupportLogical = masters.map(_.supports.logical) .reduce(_ intersect _) val allSupportGet = masters.map(_.supports.get) .reduce(_ intersect _) val allSupportPutFull = masters.map(_.supports.putFull) .reduce(_ intersect _) val allSupportPutPartial = masters.map(_.supports.putPartial).reduce(_ intersect _) val allSupportHint = masters.map(_.supports.hint) .reduce(_ intersect _) // Diplomatically determined operation sizes supported by at least one master // as opposed to supports* which generate circuitry to check which specific addresses val anySupportProbe = masters.map(!_.supports.probe.none) .reduce(_ || _) val anySupportArithmetic = masters.map(!_.supports.arithmetic.none).reduce(_ || _) val anySupportLogical = masters.map(!_.supports.logical.none) .reduce(_ || _) val anySupportGet = masters.map(!_.supports.get.none) .reduce(_ || _) val anySupportPutFull = masters.map(!_.supports.putFull.none) .reduce(_ || _) val anySupportPutPartial = masters.map(!_.supports.putPartial.none).reduce(_ || _) val anySupportHint = masters.map(!_.supports.hint.none) .reduce(_ || _) // These return Option[TLMasterParameters] for your convenience def find(id: Int) = masters.find(_.sourceId.contains(id)) // Synthesizable lookup methods def find(id: UInt) = VecInit(masters.map(_.sourceId.contains(id))) def contains(id: UInt) = find(id).reduce(_ || _) def requestFifo(id: UInt) = Mux1H(find(id), masters.map(c => c.requestFifo.B)) // Available during RTL runtime, checks to see if (id, size) is supported by the master's (client's) diplomatic parameters private def sourceIdHelper(member: TLMasterParameters => TransferSizes)(id: UInt, lgSize: UInt) = { val allSame = masters.map(member(_) == member(masters(0))).reduce(_ && _) // this if statement is a coarse generalization of the groupBy in the sourceIdHelper2 version; // the case where there is only one group. if (allSame) member(masters(0)).containsLg(lgSize) else { // Find the master associated with ID and returns whether that particular master is able to receive transaction of lgSize Mux1H(find(id), masters.map(member(_).containsLg(lgSize))) } } // Check for support of a given operation at a specific id val supportsProbe = sourceIdHelper(_.supports.probe) _ val supportsArithmetic = sourceIdHelper(_.supports.arithmetic) _ val supportsLogical = sourceIdHelper(_.supports.logical) _ val supportsGet = sourceIdHelper(_.supports.get) _ val supportsPutFull = sourceIdHelper(_.supports.putFull) _ val supportsPutPartial = sourceIdHelper(_.supports.putPartial) _ val supportsHint = sourceIdHelper(_.supports.hint) _ // TODO: Merge sourceIdHelper2 with sourceIdHelper private def sourceIdHelper2( member: TLMasterParameters => TransferSizes, sourceId: UInt, lgSize: UInt): Bool = { // Because sourceIds are uniquely owned by each master, we use them to group the // cases that have to be checked. val emitCases = groupByIntoSeq(masters)(m => member(m)).map { case (k, vs) => k -> vs.map(_.sourceId) } emitCases.map { case (s, a) => (s.containsLg(lgSize)) && a.map(_.contains(sourceId)).reduce(_||_) }.foldLeft(false.B)(_||_) } // Check for emit of a given operation at a specific id def emitsAcquireT (sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.acquireT, sourceId, lgSize) def emitsAcquireB (sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.acquireB, sourceId, lgSize) def emitsArithmetic(sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.arithmetic, sourceId, lgSize) def emitsLogical (sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.logical, sourceId, lgSize) def emitsGet (sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.get, sourceId, lgSize) def emitsPutFull (sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.putFull, sourceId, lgSize) def emitsPutPartial(sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.putPartial, sourceId, lgSize) def emitsHint (sourceId: UInt, lgSize: UInt) = sourceIdHelper2(_.emits.hint, sourceId, lgSize) def infoString = masters.map(_.infoString).mkString def v1copy( clients: Seq[TLMasterParameters] = masters, minLatency: Int = minLatency, echoFields: Seq[BundleFieldBase] = echoFields, requestFields: Seq[BundleFieldBase] = requestFields, responseKeys: Seq[BundleKeyBase] = responseKeys) = { new TLMasterPortParameters( masters = clients, channelBytes = channelBytes, minLatency = minLatency, echoFields = echoFields, requestFields = requestFields, responseKeys = responseKeys) } def v2copy( masters: Seq[TLMasterParameters] = masters, channelBytes: TLChannelBeatBytes = channelBytes, minLatency: Int = minLatency, echoFields: Seq[BundleFieldBase] = echoFields, requestFields: Seq[BundleFieldBase] = requestFields, responseKeys: Seq[BundleKeyBase] = responseKeys) = { new TLMasterPortParameters( masters = masters, channelBytes = channelBytes, minLatency = minLatency, echoFields = echoFields, requestFields = requestFields, responseKeys = responseKeys) } @deprecated("Use v1copy instead of copy","") def copy( clients: Seq[TLMasterParameters] = masters, minLatency: Int = minLatency, echoFields: Seq[BundleFieldBase] = echoFields, requestFields: Seq[BundleFieldBase] = requestFields, responseKeys: Seq[BundleKeyBase] = responseKeys) = { v1copy( clients, minLatency, echoFields, requestFields, responseKeys) } } object TLClientPortParameters { @deprecated("Use TLMasterPortParameters.v1 instead of TLClientPortParameters","") def apply( clients: Seq[TLMasterParameters], minLatency: Int = 0, echoFields: Seq[BundleFieldBase] = Nil, requestFields: Seq[BundleFieldBase] = Nil, responseKeys: Seq[BundleKeyBase] = Nil) = { TLMasterPortParameters.v1( clients, minLatency, echoFields, requestFields, responseKeys) } } object TLMasterPortParameters { def v1( clients: Seq[TLMasterParameters], minLatency: Int = 0, echoFields: Seq[BundleFieldBase] = Nil, requestFields: Seq[BundleFieldBase] = Nil, responseKeys: Seq[BundleKeyBase] = Nil) = { new TLMasterPortParameters( masters = clients, channelBytes = TLChannelBeatBytes(), minLatency = minLatency, echoFields = echoFields, requestFields = requestFields, responseKeys = responseKeys) } def v2( masters: Seq[TLMasterParameters], channelBytes: TLChannelBeatBytes = TLChannelBeatBytes(), minLatency: Int = 0, echoFields: Seq[BundleFieldBase] = Nil, requestFields: Seq[BundleFieldBase] = Nil, responseKeys: Seq[BundleKeyBase] = Nil) = { new TLMasterPortParameters( masters = masters, channelBytes = channelBytes, minLatency = minLatency, echoFields = echoFields, requestFields = requestFields, responseKeys = responseKeys) } } case class TLBundleParameters( addressBits: Int, dataBits: Int, sourceBits: Int, sinkBits: Int, sizeBits: Int, echoFields: Seq[BundleFieldBase], requestFields: Seq[BundleFieldBase], responseFields: Seq[BundleFieldBase], hasBCE: Boolean) { // Chisel has issues with 0-width wires require (addressBits >= 1) require (dataBits >= 8) require (sourceBits >= 1) require (sinkBits >= 1) require (sizeBits >= 1) require (isPow2(dataBits)) echoFields.foreach { f => require (f.key.isControl, s"${f} is not a legal echo field") } val addrLoBits = log2Up(dataBits/8) // Used to uniquify bus IP names def shortName = s"a${addressBits}d${dataBits}s${sourceBits}k${sinkBits}z${sizeBits}" + (if (hasBCE) "c" else "u") def union(x: TLBundleParameters) = TLBundleParameters( max(addressBits, x.addressBits), max(dataBits, x.dataBits), max(sourceBits, x.sourceBits), max(sinkBits, x.sinkBits), max(sizeBits, x.sizeBits), echoFields = BundleField.union(echoFields ++ x.echoFields), requestFields = BundleField.union(requestFields ++ x.requestFields), responseFields = BundleField.union(responseFields ++ x.responseFields), hasBCE || x.hasBCE) } object TLBundleParameters { val emptyBundleParams = TLBundleParameters( addressBits = 1, dataBits = 8, sourceBits = 1, sinkBits = 1, sizeBits = 1, echoFields = Nil, requestFields = Nil, responseFields = Nil, hasBCE = false) def union(x: Seq[TLBundleParameters]) = x.foldLeft(emptyBundleParams)((x,y) => x.union(y)) def apply(master: TLMasterPortParameters, slave: TLSlavePortParameters) = new TLBundleParameters( addressBits = log2Up(slave.maxAddress + 1), dataBits = slave.beatBytes * 8, sourceBits = log2Up(master.endSourceId), sinkBits = log2Up(slave.endSinkId), sizeBits = log2Up(log2Ceil(max(master.maxTransfer, slave.maxTransfer))+1), echoFields = master.echoFields, requestFields = BundleField.accept(master.requestFields, slave.requestKeys), responseFields = BundleField.accept(slave.responseFields, master.responseKeys), hasBCE = master.anySupportProbe && slave.anySupportAcquireB) } case class TLEdgeParameters( master: TLMasterPortParameters, slave: TLSlavePortParameters, params: Parameters, sourceInfo: SourceInfo) extends FormatEdge { // legacy names: def manager = slave def client = master val maxTransfer = max(master.maxTransfer, slave.maxTransfer) val maxLgSize = log2Ceil(maxTransfer) // Sanity check the link... require (maxTransfer >= slave.beatBytes, s"Link's max transfer (${maxTransfer}) < ${slave.slaves.map(_.name)}'s beatBytes (${slave.beatBytes})") def diplomaticClaimsMasterToSlave = master.anyEmitClaims.intersect(slave.anySupportClaims) val bundle = TLBundleParameters(master, slave) def formatEdge = master.infoString + "\n" + slave.infoString } case class TLCreditedDelay( a: CreditedDelay, b: CreditedDelay, c: CreditedDelay, d: CreditedDelay, e: CreditedDelay) { def + (that: TLCreditedDelay): TLCreditedDelay = TLCreditedDelay( a = a + that.a, b = b + that.b, c = c + that.c, d = d + that.d, e = e + that.e) override def toString = s"(${a}, ${b}, ${c}, ${d}, ${e})" } object TLCreditedDelay { def apply(delay: CreditedDelay): TLCreditedDelay = apply(delay, delay.flip, delay, delay.flip, delay) } case class TLCreditedManagerPortParameters(delay: TLCreditedDelay, base: TLSlavePortParameters) {def infoString = base.infoString} case class TLCreditedClientPortParameters(delay: TLCreditedDelay, base: TLMasterPortParameters) {def infoString = base.infoString} case class TLCreditedEdgeParameters(client: TLCreditedClientPortParameters, manager: TLCreditedManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends FormatEdge { val delay = client.delay + manager.delay val bundle = TLBundleParameters(client.base, manager.base) def formatEdge = client.infoString + "\n" + manager.infoString } case class TLAsyncManagerPortParameters(async: AsyncQueueParams, base: TLSlavePortParameters) {def infoString = base.infoString} case class TLAsyncClientPortParameters(base: TLMasterPortParameters) {def infoString = base.infoString} case class TLAsyncBundleParameters(async: AsyncQueueParams, base: TLBundleParameters) case class TLAsyncEdgeParameters(client: TLAsyncClientPortParameters, manager: TLAsyncManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends FormatEdge { val bundle = TLAsyncBundleParameters(manager.async, TLBundleParameters(client.base, manager.base)) def formatEdge = client.infoString + "\n" + manager.infoString } case class TLRationalManagerPortParameters(direction: RationalDirection, base: TLSlavePortParameters) {def infoString = base.infoString} case class TLRationalClientPortParameters(base: TLMasterPortParameters) {def infoString = base.infoString} case class TLRationalEdgeParameters(client: TLRationalClientPortParameters, manager: TLRationalManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends FormatEdge { val bundle = TLBundleParameters(client.base, manager.base) def formatEdge = client.infoString + "\n" + manager.infoString } // To be unified, devices must agree on all of these terms case class ManagerUnificationKey( resources: Seq[Resource], regionType: RegionType.T, executable: Boolean, supportsAcquireT: TransferSizes, supportsAcquireB: TransferSizes, supportsArithmetic: TransferSizes, supportsLogical: TransferSizes, supportsGet: TransferSizes, supportsPutFull: TransferSizes, supportsPutPartial: TransferSizes, supportsHint: TransferSizes) object ManagerUnificationKey { def apply(x: TLSlaveParameters): ManagerUnificationKey = ManagerUnificationKey( resources = x.resources, regionType = x.regionType, executable = x.executable, supportsAcquireT = x.supportsAcquireT, supportsAcquireB = x.supportsAcquireB, supportsArithmetic = x.supportsArithmetic, supportsLogical = x.supportsLogical, supportsGet = x.supportsGet, supportsPutFull = x.supportsPutFull, supportsPutPartial = x.supportsPutPartial, supportsHint = x.supportsHint) } object ManagerUnification { def apply(slaves: Seq[TLSlaveParameters]): List[TLSlaveParameters] = { slaves.groupBy(ManagerUnificationKey.apply).values.map { seq => val agree = seq.forall(_.fifoId == seq.head.fifoId) seq(0).v1copy( address = AddressSet.unify(seq.flatMap(_.address)), fifoId = if (agree) seq(0).fifoId else None) }.toList } } case class TLBufferParams( a: BufferParams = BufferParams.none, b: BufferParams = BufferParams.none, c: BufferParams = BufferParams.none, d: BufferParams = BufferParams.none, e: BufferParams = BufferParams.none ) extends DirectedBuffers[TLBufferParams] { def copyIn(x: BufferParams) = this.copy(b = x, d = x) def copyOut(x: BufferParams) = this.copy(a = x, c = x, e = x) def copyInOut(x: BufferParams) = this.copyIn(x).copyOut(x) } /** Pretty printing of TL source id maps */ class TLSourceIdMap(tl: TLMasterPortParameters) extends IdMap[TLSourceIdMapEntry] { private val tlDigits = String.valueOf(tl.endSourceId-1).length() protected val fmt = s"\t[%${tlDigits}d, %${tlDigits}d) %s%s%s" private val sorted = tl.masters.sortBy(_.sourceId) val mapping: Seq[TLSourceIdMapEntry] = sorted.map { case c => TLSourceIdMapEntry(c.sourceId, c.name, c.supports.probe, c.requestFifo) } } case class TLSourceIdMapEntry(tlId: IdRange, name: String, isCache: Boolean, requestFifo: Boolean) extends IdMapEntry { val from = tlId val to = tlId val maxTransactionsInFlight = Some(tlId.size) } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module TLMonitor_39( // @[Monitor.scala:36:7] input clock, // @[Monitor.scala:36:7] input reset, // @[Monitor.scala:36:7] input io_in_a_ready, // @[Monitor.scala:20:14] input io_in_a_valid, // @[Monitor.scala:20:14] input [31:0] io_in_a_bits_address, // @[Monitor.scala:20:14] input io_in_d_ready, // @[Monitor.scala:20:14] input io_in_d_valid, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_opcode, // @[Monitor.scala:20:14] input [1:0] io_in_d_bits_param, // @[Monitor.scala:20:14] input [3:0] io_in_d_bits_size, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_sink, // @[Monitor.scala:20:14] input io_in_d_bits_denied, // @[Monitor.scala:20:14] input [63:0] io_in_d_bits_data, // @[Monitor.scala:20:14] input io_in_d_bits_corrupt // @[Monitor.scala:20:14] ); wire [31:0] _plusarg_reader_1_out; // @[PlusArg.scala:80:11] wire [31:0] _plusarg_reader_out; // @[PlusArg.scala:80:11] wire io_in_a_ready_0 = io_in_a_ready; // @[Monitor.scala:36:7] wire io_in_a_valid_0 = io_in_a_valid; // @[Monitor.scala:36:7] wire [31:0] io_in_a_bits_address_0 = io_in_a_bits_address; // @[Monitor.scala:36:7] wire io_in_d_ready_0 = io_in_d_ready; // @[Monitor.scala:36:7] wire io_in_d_valid_0 = io_in_d_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_opcode_0 = io_in_d_bits_opcode; // @[Monitor.scala:36:7] wire [1:0] io_in_d_bits_param_0 = io_in_d_bits_param; // @[Monitor.scala:36:7] wire [3:0] io_in_d_bits_size_0 = io_in_d_bits_size; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_sink_0 = io_in_d_bits_sink; // @[Monitor.scala:36:7] wire io_in_d_bits_denied_0 = io_in_d_bits_denied; // @[Monitor.scala:36:7] wire [63:0] io_in_d_bits_data_0 = io_in_d_bits_data; // @[Monitor.scala:36:7] wire io_in_d_bits_corrupt_0 = io_in_d_bits_corrupt; // @[Monitor.scala:36:7] wire io_in_a_bits_source = 1'h0; // @[Monitor.scala:36:7] wire io_in_a_bits_corrupt = 1'h0; // @[Monitor.scala:36:7] wire io_in_d_bits_source = 1'h0; // @[Monitor.scala:36:7] wire mask_sub_size = 1'h0; // @[Misc.scala:209:26] wire _mask_sub_acc_T = 1'h0; // @[Misc.scala:215:38] wire _mask_sub_acc_T_1 = 1'h0; // @[Misc.scala:215:38] wire _mask_sub_acc_T_2 = 1'h0; // @[Misc.scala:215:38] wire _mask_sub_acc_T_3 = 1'h0; // @[Misc.scala:215:38] wire a_first_beats1_opdata = 1'h0; // @[Edges.scala:92:28] wire a_first_beats1_opdata_1 = 1'h0; // @[Edges.scala:92:28] wire _c_first_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_bits_source = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_bits_source = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_bits_source = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_bits_source = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_T = 1'h0; // @[Decoupled.scala:51:35] wire c_first_beats1_opdata = 1'h0; // @[Edges.scala:102:36] wire _c_first_last_T = 1'h0; // @[Edges.scala:232:25] wire c_first_done = 1'h0; // @[Edges.scala:233:22] wire c_set = 1'h0; // @[Monitor.scala:738:34] wire c_set_wo_ready = 1'h0; // @[Monitor.scala:739:34] wire _c_set_wo_ready_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_bits_source = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_bits_source = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_bits_source = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_bits_source = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_bits_source = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_bits_source = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_bits_source = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_bits_source = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_bits_source = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_bits_source = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_bits_source = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_bits_source = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_bits_source = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_bits_source = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T = 1'h0; // @[Monitor.scala:772:47] wire _c_probe_ack_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_bits_source = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_bits_source = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T_1 = 1'h0; // @[Monitor.scala:772:95] wire c_probe_ack = 1'h0; // @[Monitor.scala:772:71] wire _same_cycle_resp_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_bits_source = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_bits_source = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_3 = 1'h0; // @[Monitor.scala:795:44] wire _same_cycle_resp_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_bits_source = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_bits_source = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_4 = 1'h0; // @[Edges.scala:68:36] wire _same_cycle_resp_T_5 = 1'h0; // @[Edges.scala:68:51] wire _same_cycle_resp_T_6 = 1'h0; // @[Edges.scala:68:40] wire _same_cycle_resp_T_7 = 1'h0; // @[Monitor.scala:795:55] wire _same_cycle_resp_WIRE_4_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_bits_source = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_5_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_bits_source = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire same_cycle_resp_1 = 1'h0; // @[Monitor.scala:795:88] wire _source_ok_T = 1'h1; // @[Parameters.scala:46:9] wire _source_ok_WIRE_0 = 1'h1; // @[Parameters.scala:1138:31] wire mask_sub_sub_sub_0_1 = 1'h1; // @[Misc.scala:206:21] wire mask_sub_sub_size = 1'h1; // @[Misc.scala:209:26] wire mask_sub_sub_0_1 = 1'h1; // @[Misc.scala:215:29] wire mask_sub_sub_1_1 = 1'h1; // @[Misc.scala:215:29] wire mask_sub_0_1 = 1'h1; // @[Misc.scala:215:29] wire mask_sub_1_1 = 1'h1; // @[Misc.scala:215:29] wire mask_sub_2_1 = 1'h1; // @[Misc.scala:215:29] wire mask_sub_3_1 = 1'h1; // @[Misc.scala:215:29] wire mask_size = 1'h1; // @[Misc.scala:209:26] wire mask_acc = 1'h1; // @[Misc.scala:215:29] wire mask_acc_1 = 1'h1; // @[Misc.scala:215:29] wire mask_acc_2 = 1'h1; // @[Misc.scala:215:29] wire mask_acc_3 = 1'h1; // @[Misc.scala:215:29] wire mask_acc_4 = 1'h1; // @[Misc.scala:215:29] wire mask_acc_5 = 1'h1; // @[Misc.scala:215:29] wire mask_acc_6 = 1'h1; // @[Misc.scala:215:29] wire mask_acc_7 = 1'h1; // @[Misc.scala:215:29] wire _source_ok_T_1 = 1'h1; // @[Parameters.scala:46:9] wire _source_ok_WIRE_1_0 = 1'h1; // @[Parameters.scala:1138:31] wire sink_ok = 1'h1; // @[Monitor.scala:309:31] wire _a_first_beats1_opdata_T = 1'h1; // @[Edges.scala:92:37] wire _a_first_last_T_1 = 1'h1; // @[Edges.scala:232:43] wire a_first_last = 1'h1; // @[Edges.scala:232:33] wire _a_first_beats1_opdata_T_1 = 1'h1; // @[Edges.scala:92:37] wire _a_first_last_T_3 = 1'h1; // @[Edges.scala:232:43] wire a_first_last_1 = 1'h1; // @[Edges.scala:232:33] wire _same_cycle_resp_T_2 = 1'h1; // @[Monitor.scala:684:113] wire c_first = 1'h1; // @[Edges.scala:231:25] wire _c_first_last_T_1 = 1'h1; // @[Edges.scala:232:43] wire c_first_last = 1'h1; // @[Edges.scala:232:33] wire _same_cycle_resp_T_8 = 1'h1; // @[Monitor.scala:795:113] wire [8:0] a_first_beats1 = 9'h0; // @[Edges.scala:221:14] wire [8:0] a_first_count = 9'h0; // @[Edges.scala:234:25] wire [8:0] a_first_beats1_1 = 9'h0; // @[Edges.scala:221:14] wire [8:0] a_first_count_1 = 9'h0; // @[Edges.scala:234:25] wire [8:0] c_first_beats1_decode = 9'h0; // @[Edges.scala:220:59] wire [8:0] c_first_beats1 = 9'h0; // @[Edges.scala:221:14] wire [8:0] _c_first_count_T = 9'h0; // @[Edges.scala:234:27] wire [8:0] c_first_count = 9'h0; // @[Edges.scala:234:25] wire [8:0] _c_first_counter_T = 9'h0; // @[Edges.scala:236:21] wire [8:0] c_first_counter1 = 9'h1FF; // @[Edges.scala:230:28] wire [9:0] _c_first_counter1_T = 10'h3FF; // @[Edges.scala:230:28] wire [3:0] io_in_a_bits_size = 4'h6; // @[Monitor.scala:36:7] wire [3:0] _mask_sizeOH_T = 4'h6; // @[Misc.scala:202:34] wire [2:0] io_in_a_bits_param = 3'h0; // @[Monitor.scala:36:7] wire [2:0] responseMap_0 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMap_1 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_0 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_1 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] _c_first_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_4_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_4_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_5_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_5_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] io_in_a_bits_opcode = 3'h4; // @[Monitor.scala:36:7] wire [2:0] _mask_sizeOH_T_2 = 3'h4; // @[OneHot.scala:65:27] wire [2:0] responseMap_6 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMap_7 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_7 = 3'h4; // @[Monitor.scala:644:42] wire [7:0] io_in_a_bits_mask = 8'hFF; // @[Monitor.scala:36:7] wire [7:0] mask = 8'hFF; // @[Misc.scala:222:10] wire [63:0] io_in_a_bits_data = 64'h0; // @[Monitor.scala:36:7] wire [63:0] _c_first_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_first_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_wo_ready_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_wo_ready_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_4_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_5_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [31:0] _c_first_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_first_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_first_WIRE_2_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_first_WIRE_3_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_set_wo_ready_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_set_wo_ready_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_set_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_set_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_opcodes_set_interm_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_opcodes_set_interm_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_sizes_set_interm_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_sizes_set_interm_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_opcodes_set_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_opcodes_set_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_sizes_set_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_sizes_set_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_probe_ack_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_probe_ack_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_probe_ack_WIRE_2_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_probe_ack_WIRE_3_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _same_cycle_resp_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _same_cycle_resp_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _same_cycle_resp_WIRE_2_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _same_cycle_resp_WIRE_3_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _same_cycle_resp_WIRE_4_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _same_cycle_resp_WIRE_5_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [3:0] _a_opcode_lookup_T = 4'h0; // @[Monitor.scala:637:69] wire [3:0] _a_size_lookup_T = 4'h0; // @[Monitor.scala:641:65] wire [3:0] _a_opcodes_set_T = 4'h0; // @[Monitor.scala:659:79] wire [3:0] _a_sizes_set_T = 4'h0; // @[Monitor.scala:660:77] wire [3:0] _d_opcodes_clr_T_4 = 4'h0; // @[Monitor.scala:680:101] wire [3:0] _d_sizes_clr_T_4 = 4'h0; // @[Monitor.scala:681:99] wire [3:0] _c_first_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_first_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_first_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_first_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] c_opcodes_set = 4'h0; // @[Monitor.scala:740:34] wire [3:0] _c_opcode_lookup_T = 4'h0; // @[Monitor.scala:749:69] wire [3:0] _c_size_lookup_T = 4'h0; // @[Monitor.scala:750:67] wire [3:0] c_opcodes_set_interm = 4'h0; // @[Monitor.scala:754:40] wire [3:0] _c_set_wo_ready_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_set_wo_ready_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_interm_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_opcodes_set_interm_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_interm_T = 4'h0; // @[Monitor.scala:765:53] wire [3:0] _c_sizes_set_interm_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_sizes_set_interm_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_opcodes_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_T = 4'h0; // @[Monitor.scala:767:79] wire [3:0] _c_sizes_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_sizes_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_sizes_set_T = 4'h0; // @[Monitor.scala:768:77] wire [3:0] _c_probe_ack_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_probe_ack_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_probe_ack_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_probe_ack_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _d_opcodes_clr_T_10 = 4'h0; // @[Monitor.scala:790:101] wire [3:0] _d_sizes_clr_T_10 = 4'h0; // @[Monitor.scala:791:99] wire [3:0] _same_cycle_resp_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_4_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_5_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [30:0] _d_sizes_clr_T_5 = 31'hFF; // @[Monitor.scala:681:74] wire [30:0] _d_sizes_clr_T_11 = 31'hFF; // @[Monitor.scala:791:74] wire [15:0] _a_size_lookup_T_5 = 16'hFF; // @[Monitor.scala:612:57] wire [15:0] _d_sizes_clr_T_3 = 16'hFF; // @[Monitor.scala:612:57] wire [15:0] _c_size_lookup_T_5 = 16'hFF; // @[Monitor.scala:724:57] wire [15:0] _d_sizes_clr_T_9 = 16'hFF; // @[Monitor.scala:724:57] wire [16:0] _a_size_lookup_T_4 = 17'hFF; // @[Monitor.scala:612:57] wire [16:0] _d_sizes_clr_T_2 = 17'hFF; // @[Monitor.scala:612:57] wire [16:0] _c_size_lookup_T_4 = 17'hFF; // @[Monitor.scala:724:57] wire [16:0] _d_sizes_clr_T_8 = 17'hFF; // @[Monitor.scala:724:57] wire [15:0] _a_size_lookup_T_3 = 16'h100; // @[Monitor.scala:612:51] wire [15:0] _d_sizes_clr_T_1 = 16'h100; // @[Monitor.scala:612:51] wire [15:0] _c_size_lookup_T_3 = 16'h100; // @[Monitor.scala:724:51] wire [15:0] _d_sizes_clr_T_7 = 16'h100; // @[Monitor.scala:724:51] wire [3:0] _a_size_lookup_T_2 = 4'h8; // @[Monitor.scala:641:117] wire [3:0] _a_opcodes_set_interm_T = 4'h8; // @[Monitor.scala:657:53] wire [3:0] _d_sizes_clr_T = 4'h8; // @[Monitor.scala:681:48] wire [3:0] _c_size_lookup_T_2 = 4'h8; // @[Monitor.scala:750:119] wire [3:0] _d_sizes_clr_T_6 = 4'h8; // @[Monitor.scala:791:48] wire [3:0] mask_lo = 4'hF; // @[Misc.scala:222:10] wire [3:0] mask_hi = 4'hF; // @[Misc.scala:222:10] wire [30:0] _d_opcodes_clr_T_5 = 31'hF; // @[Monitor.scala:680:76] wire [30:0] _d_opcodes_clr_T_11 = 31'hF; // @[Monitor.scala:790:76] wire [15:0] _a_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_opcodes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _c_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_opcodes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [16:0] _a_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_opcodes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _c_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_opcodes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [15:0] _a_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_opcodes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _c_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_opcodes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [3:0] _mask_sizeOH_T_1 = 4'h4; // @[OneHot.scala:65:12] wire [3:0] _a_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:637:123] wire [3:0] _d_opcodes_clr_T = 4'h4; // @[Monitor.scala:680:48] wire [3:0] _c_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:749:123] wire [3:0] _d_opcodes_clr_T_6 = 4'h4; // @[Monitor.scala:790:48] wire [1:0] _a_set_wo_ready_T = 2'h1; // @[OneHot.scala:58:35] wire [1:0] _a_set_T = 2'h1; // @[OneHot.scala:58:35] wire [1:0] _d_clr_wo_ready_T = 2'h1; // @[OneHot.scala:58:35] wire [1:0] _d_clr_T = 2'h1; // @[OneHot.scala:58:35] wire [1:0] _c_set_wo_ready_T = 2'h1; // @[OneHot.scala:58:35] wire [1:0] _c_set_T = 2'h1; // @[OneHot.scala:58:35] wire [1:0] _d_clr_wo_ready_T_1 = 2'h1; // @[OneHot.scala:58:35] wire [1:0] _d_clr_T_1 = 2'h1; // @[OneHot.scala:58:35] wire [19:0] _c_sizes_set_T_1 = 20'h0; // @[Monitor.scala:768:52] wire [18:0] _c_opcodes_set_T_1 = 19'h0; // @[Monitor.scala:767:54] wire [4:0] _c_sizes_set_interm_T_1 = 5'h1; // @[Monitor.scala:766:59] wire [4:0] c_sizes_set_interm = 5'h0; // @[Monitor.scala:755:40] wire [4:0] _c_sizes_set_interm_T = 5'h0; // @[Monitor.scala:766:51] wire [3:0] _c_opcodes_set_interm_T_1 = 4'h1; // @[Monitor.scala:765:61] wire [7:0] c_sizes_set = 8'h0; // @[Monitor.scala:741:34] wire [11:0] _c_first_beats1_decode_T_2 = 12'h0; // @[package.scala:243:46] wire [11:0] _c_first_beats1_decode_T_1 = 12'hFFF; // @[package.scala:243:76] wire [26:0] _c_first_beats1_decode_T = 27'hFFF; // @[package.scala:243:71] wire [2:0] responseMap_2 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_3 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_4 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_2 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_3 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_4 = 3'h1; // @[Monitor.scala:644:42] wire [4:0] _a_sizes_set_interm_T_1 = 5'hD; // @[Monitor.scala:658:59] wire [4:0] _a_sizes_set_interm_T = 5'hC; // @[Monitor.scala:658:51] wire [3:0] _a_opcodes_set_interm_T_1 = 4'h9; // @[Monitor.scala:657:61] wire [2:0] mask_sizeOH = 3'h5; // @[Misc.scala:202:81] wire [2:0] responseMapSecondOption_6 = 3'h5; // @[Monitor.scala:644:42] wire [2:0] responseMap_5 = 3'h2; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_5 = 3'h2; // @[Monitor.scala:644:42] wire [8:0] a_first_beats1_decode = 9'h7; // @[Edges.scala:220:59] wire [8:0] a_first_beats1_decode_1 = 9'h7; // @[Edges.scala:220:59] wire [11:0] is_aligned_mask = 12'h3F; // @[package.scala:243:46] wire [11:0] _a_first_beats1_decode_T_2 = 12'h3F; // @[package.scala:243:46] wire [11:0] _a_first_beats1_decode_T_5 = 12'h3F; // @[package.scala:243:46] wire [11:0] _is_aligned_mask_T_1 = 12'hFC0; // @[package.scala:243:76] wire [11:0] _a_first_beats1_decode_T_1 = 12'hFC0; // @[package.scala:243:76] wire [11:0] _a_first_beats1_decode_T_4 = 12'hFC0; // @[package.scala:243:76] wire [26:0] _is_aligned_mask_T = 27'h3FFC0; // @[package.scala:243:71] wire [26:0] _a_first_beats1_decode_T = 27'h3FFC0; // @[package.scala:243:71] wire [26:0] _a_first_beats1_decode_T_3 = 27'h3FFC0; // @[package.scala:243:71] wire [1:0] mask_lo_lo = 2'h3; // @[Misc.scala:222:10] wire [1:0] mask_lo_hi = 2'h3; // @[Misc.scala:222:10] wire [1:0] mask_hi_lo = 2'h3; // @[Misc.scala:222:10] wire [1:0] mask_hi_hi = 2'h3; // @[Misc.scala:222:10] wire [1:0] mask_sizeOH_shiftAmount = 2'h2; // @[OneHot.scala:64:49] wire [31:0] _is_aligned_T = {26'h0, io_in_a_bits_address_0[5:0]}; // @[Monitor.scala:36:7] wire is_aligned = _is_aligned_T == 32'h0; // @[Edges.scala:21:{16,24}] wire mask_sub_sub_bit = io_in_a_bits_address_0[2]; // @[Misc.scala:210:26] wire mask_sub_sub_1_2 = mask_sub_sub_bit; // @[Misc.scala:210:26, :214:27] wire mask_sub_sub_nbit = ~mask_sub_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_sub_0_2 = mask_sub_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_sub_acc_T = mask_sub_sub_0_2; // @[Misc.scala:214:27, :215:38] wire _mask_sub_sub_acc_T_1 = mask_sub_sub_1_2; // @[Misc.scala:214:27, :215:38] wire mask_sub_bit = io_in_a_bits_address_0[1]; // @[Misc.scala:210:26] wire mask_sub_nbit = ~mask_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_0_2 = mask_sub_sub_0_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire mask_sub_1_2 = mask_sub_sub_0_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire mask_sub_2_2 = mask_sub_sub_1_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire mask_sub_3_2 = mask_sub_sub_1_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire mask_bit = io_in_a_bits_address_0[0]; // @[Misc.scala:210:26] wire mask_nbit = ~mask_bit; // @[Misc.scala:210:26, :211:20] wire mask_eq = mask_sub_0_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T = mask_eq; // @[Misc.scala:214:27, :215:38] wire mask_eq_1 = mask_sub_0_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_1 = mask_eq_1; // @[Misc.scala:214:27, :215:38] wire mask_eq_2 = mask_sub_1_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_2 = mask_eq_2; // @[Misc.scala:214:27, :215:38] wire mask_eq_3 = mask_sub_1_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_3 = mask_eq_3; // @[Misc.scala:214:27, :215:38] wire mask_eq_4 = mask_sub_2_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_4 = mask_eq_4; // @[Misc.scala:214:27, :215:38] wire mask_eq_5 = mask_sub_2_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_5 = mask_eq_5; // @[Misc.scala:214:27, :215:38] wire mask_eq_6 = mask_sub_3_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_6 = mask_eq_6; // @[Misc.scala:214:27, :215:38] wire mask_eq_7 = mask_sub_3_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_7 = mask_eq_7; // @[Misc.scala:214:27, :215:38] wire _T_1332 = io_in_a_ready_0 & io_in_a_valid_0; // @[Decoupled.scala:51:35] wire _a_first_T; // @[Decoupled.scala:51:35] assign _a_first_T = _T_1332; // @[Decoupled.scala:51:35] wire _a_first_T_1; // @[Decoupled.scala:51:35] assign _a_first_T_1 = _T_1332; // @[Decoupled.scala:51:35] wire a_first_done = _a_first_T; // @[Decoupled.scala:51:35] reg [8:0] a_first_counter; // @[Edges.scala:229:27] wire [9:0] _a_first_counter1_T = {1'h0, a_first_counter} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] a_first_counter1 = _a_first_counter1_T[8:0]; // @[Edges.scala:230:28] wire a_first = a_first_counter == 9'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T = a_first_counter == 9'h1; // @[Edges.scala:229:27, :232:25] wire [8:0] _a_first_count_T = ~a_first_counter1; // @[Edges.scala:230:28, :234:27] wire [8:0] _a_first_counter_T = a_first ? 9'h0 : a_first_counter1; // @[Edges.scala:230:28, :231:25, :236:21] reg [31:0] address; // @[Monitor.scala:391:22] wire _T_1405 = io_in_d_ready_0 & io_in_d_valid_0; // @[Decoupled.scala:51:35] wire _d_first_T; // @[Decoupled.scala:51:35] assign _d_first_T = _T_1405; // @[Decoupled.scala:51:35] wire _d_first_T_1; // @[Decoupled.scala:51:35] assign _d_first_T_1 = _T_1405; // @[Decoupled.scala:51:35] wire _d_first_T_2; // @[Decoupled.scala:51:35] assign _d_first_T_2 = _T_1405; // @[Decoupled.scala:51:35] wire [26:0] _GEN = 27'hFFF << io_in_d_bits_size_0; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T; // @[package.scala:243:71] assign _d_first_beats1_decode_T = _GEN; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T_3; // @[package.scala:243:71] assign _d_first_beats1_decode_T_3 = _GEN; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T_6; // @[package.scala:243:71] assign _d_first_beats1_decode_T_6 = _GEN; // @[package.scala:243:71] wire [11:0] _d_first_beats1_decode_T_1 = _d_first_beats1_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_2 = ~_d_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode = _d_first_beats1_decode_T_2[11:3]; // @[package.scala:243:46] wire d_first_beats1_opdata = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_1 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_2 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire [8:0] d_first_beats1 = d_first_beats1_opdata ? d_first_beats1_decode : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T = {1'h0, d_first_counter} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1 = _d_first_counter1_T[8:0]; // @[Edges.scala:230:28] wire d_first = d_first_counter == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T = d_first_counter == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_1 = d_first_beats1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last = _d_first_last_T | _d_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire d_first_done = d_first_last & _d_first_T; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T = ~d_first_counter1; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count = d_first_beats1 & _d_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T = d_first ? d_first_beats1 : d_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode_1; // @[Monitor.scala:538:22] reg [1:0] param_1; // @[Monitor.scala:539:22] reg [3:0] size_1; // @[Monitor.scala:540:22] reg [2:0] sink; // @[Monitor.scala:542:22] reg denied; // @[Monitor.scala:543:22] reg [1:0] inflight; // @[Monitor.scala:614:27] reg [3:0] inflight_opcodes; // @[Monitor.scala:616:35] wire [3:0] _a_opcode_lookup_T_1 = inflight_opcodes; // @[Monitor.scala:616:35, :637:44] reg [7:0] inflight_sizes; // @[Monitor.scala:618:33] wire [7:0] _a_size_lookup_T_1 = inflight_sizes; // @[Monitor.scala:618:33, :641:40] wire a_first_done_1 = _a_first_T_1; // @[Decoupled.scala:51:35] reg [8:0] a_first_counter_1; // @[Edges.scala:229:27] wire [9:0] _a_first_counter1_T_1 = {1'h0, a_first_counter_1} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] a_first_counter1_1 = _a_first_counter1_T_1[8:0]; // @[Edges.scala:230:28] wire a_first_1 = a_first_counter_1 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T_2 = a_first_counter_1 == 9'h1; // @[Edges.scala:229:27, :232:25] wire [8:0] _a_first_count_T_1 = ~a_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [8:0] _a_first_counter_T_1 = a_first_1 ? 9'h0 : a_first_counter1_1; // @[Edges.scala:230:28, :231:25, :236:21] wire [11:0] _d_first_beats1_decode_T_4 = _d_first_beats1_decode_T_3[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_5 = ~_d_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode_1 = _d_first_beats1_decode_T_5[11:3]; // @[package.scala:243:46] wire [8:0] d_first_beats1_1 = d_first_beats1_opdata_1 ? d_first_beats1_decode_1 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter_1; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T_1 = {1'h0, d_first_counter_1} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1_1 = _d_first_counter1_T_1[8:0]; // @[Edges.scala:230:28] wire d_first_1 = d_first_counter_1 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_2 = d_first_counter_1 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_3 = d_first_beats1_1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_1 = _d_first_last_T_2 | _d_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire d_first_done_1 = d_first_last_1 & _d_first_T_1; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T_1 = ~d_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count_1 = d_first_beats1_1 & _d_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T_1 = d_first_1 ? d_first_beats1_1 : d_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire a_set; // @[Monitor.scala:626:34] wire a_set_wo_ready; // @[Monitor.scala:627:34] wire [3:0] a_opcodes_set; // @[Monitor.scala:630:33] wire [7:0] a_sizes_set; // @[Monitor.scala:632:31] wire [2:0] a_opcode_lookup; // @[Monitor.scala:635:35] wire [15:0] _a_opcode_lookup_T_6 = {12'h0, _a_opcode_lookup_T_1}; // @[Monitor.scala:637:{44,97}] wire [15:0] _a_opcode_lookup_T_7 = {1'h0, _a_opcode_lookup_T_6[15:1]}; // @[Monitor.scala:637:{97,152}] assign a_opcode_lookup = _a_opcode_lookup_T_7[2:0]; // @[Monitor.scala:635:35, :637:{21,152}] wire [7:0] a_size_lookup; // @[Monitor.scala:639:33] wire [15:0] _a_size_lookup_T_6 = {8'h0, _a_size_lookup_T_1}; // @[Monitor.scala:641:{40,91}] wire [15:0] _a_size_lookup_T_7 = {1'h0, _a_size_lookup_T_6[15:1]}; // @[Monitor.scala:641:{91,144}] assign a_size_lookup = _a_size_lookup_T_7[7:0]; // @[Monitor.scala:639:33, :641:{19,144}] wire [3:0] a_opcodes_set_interm; // @[Monitor.scala:646:40] wire [4:0] a_sizes_set_interm; // @[Monitor.scala:648:38] wire _T_1255 = io_in_a_valid_0 & a_first_1; // @[Monitor.scala:36:7, :651:26] assign a_set_wo_ready = _T_1255; // @[Monitor.scala:627:34, :651:26] wire _same_cycle_resp_T; // @[Monitor.scala:684:44] assign _same_cycle_resp_T = _T_1255; // @[Monitor.scala:651:26, :684:44] assign a_set = _T_1332 & a_first_1; // @[Decoupled.scala:51:35] assign a_opcodes_set_interm = a_set ? 4'h9 : 4'h0; // @[Monitor.scala:626:34, :646:40, :655:70, :657:28] assign a_sizes_set_interm = a_set ? 5'hD : 5'h0; // @[Monitor.scala:626:34, :648:38, :655:70, :658:28] wire [18:0] _a_opcodes_set_T_1 = {15'h0, a_opcodes_set_interm}; // @[package.scala:243:71] assign a_opcodes_set = a_set ? _a_opcodes_set_T_1[3:0] : 4'h0; // @[Monitor.scala:626:34, :630:33, :655:70, :659:{28,54}] wire [19:0] _a_sizes_set_T_1 = {15'h0, a_sizes_set_interm}; // @[package.scala:243:71] assign a_sizes_set = a_set ? _a_sizes_set_T_1[7:0] : 8'h0; // @[Monitor.scala:626:34, :632:31, :655:70, :660:{28,52}] wire d_clr; // @[Monitor.scala:664:34] wire d_clr_wo_ready; // @[Monitor.scala:665:34] wire [3:0] d_opcodes_clr; // @[Monitor.scala:668:33] wire [7:0] d_sizes_clr; // @[Monitor.scala:670:31] wire _GEN_0 = io_in_d_bits_opcode_0 == 3'h6; // @[Monitor.scala:36:7, :673:46] wire d_release_ack; // @[Monitor.scala:673:46] assign d_release_ack = _GEN_0; // @[Monitor.scala:673:46] wire d_release_ack_1; // @[Monitor.scala:783:46] assign d_release_ack_1 = _GEN_0; // @[Monitor.scala:673:46, :783:46] wire _T_1304 = io_in_d_valid_0 & d_first_1; // @[Monitor.scala:36:7, :674:26] assign d_clr_wo_ready = _T_1304 & ~d_release_ack; // @[Monitor.scala:665:34, :673:46, :674:{26,71,74}] assign d_clr = _T_1405 & d_first_1 & ~d_release_ack; // @[Decoupled.scala:51:35] assign d_opcodes_clr = {4{d_clr}}; // @[Monitor.scala:664:34, :668:33, :678:89, :680:21] assign d_sizes_clr = {8{d_clr}}; // @[Monitor.scala:664:34, :670:31, :678:89, :681:21] wire _same_cycle_resp_T_1 = _same_cycle_resp_T; // @[Monitor.scala:684:{44,55}] wire same_cycle_resp = _same_cycle_resp_T_1; // @[Monitor.scala:684:{55,88}] wire [1:0] _inflight_T = {inflight[1], inflight[0] | a_set}; // @[Monitor.scala:614:27, :626:34, :705:27] wire _inflight_T_1 = ~d_clr; // @[Monitor.scala:664:34, :705:38] wire [1:0] _inflight_T_2 = {1'h0, _inflight_T[0] & _inflight_T_1}; // @[Monitor.scala:705:{27,36,38}] wire [3:0] _inflight_opcodes_T = inflight_opcodes | a_opcodes_set; // @[Monitor.scala:616:35, :630:33, :706:43] wire [3:0] _inflight_opcodes_T_1 = ~d_opcodes_clr; // @[Monitor.scala:668:33, :706:62] wire [3:0] _inflight_opcodes_T_2 = _inflight_opcodes_T & _inflight_opcodes_T_1; // @[Monitor.scala:706:{43,60,62}] wire [7:0] _inflight_sizes_T = inflight_sizes | a_sizes_set; // @[Monitor.scala:618:33, :632:31, :707:39] wire [7:0] _inflight_sizes_T_1 = ~d_sizes_clr; // @[Monitor.scala:670:31, :707:56] wire [7:0] _inflight_sizes_T_2 = _inflight_sizes_T & _inflight_sizes_T_1; // @[Monitor.scala:707:{39,54,56}] reg [31:0] watchdog; // @[Monitor.scala:709:27] wire [32:0] _watchdog_T = {1'h0, watchdog} + 33'h1; // @[Monitor.scala:709:27, :714:26] wire [31:0] _watchdog_T_1 = _watchdog_T[31:0]; // @[Monitor.scala:714:26] reg [1:0] inflight_1; // @[Monitor.scala:726:35] wire [1:0] _inflight_T_3 = inflight_1; // @[Monitor.scala:726:35, :814:35] reg [3:0] inflight_opcodes_1; // @[Monitor.scala:727:35] wire [3:0] _c_opcode_lookup_T_1 = inflight_opcodes_1; // @[Monitor.scala:727:35, :749:44] wire [3:0] _inflight_opcodes_T_3 = inflight_opcodes_1; // @[Monitor.scala:727:35, :815:43] reg [7:0] inflight_sizes_1; // @[Monitor.scala:728:35] wire [7:0] _c_size_lookup_T_1 = inflight_sizes_1; // @[Monitor.scala:728:35, :750:42] wire [7:0] _inflight_sizes_T_3 = inflight_sizes_1; // @[Monitor.scala:728:35, :816:41] wire [11:0] _d_first_beats1_decode_T_7 = _d_first_beats1_decode_T_6[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_8 = ~_d_first_beats1_decode_T_7; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode_2 = _d_first_beats1_decode_T_8[11:3]; // @[package.scala:243:46] wire [8:0] d_first_beats1_2 = d_first_beats1_opdata_2 ? d_first_beats1_decode_2 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter_2; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T_2 = {1'h0, d_first_counter_2} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1_2 = _d_first_counter1_T_2[8:0]; // @[Edges.scala:230:28] wire d_first_2 = d_first_counter_2 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_4 = d_first_counter_2 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_5 = d_first_beats1_2 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_2 = _d_first_last_T_4 | _d_first_last_T_5; // @[Edges.scala:232:{25,33,43}] wire d_first_done_2 = d_first_last_2 & _d_first_T_2; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T_2 = ~d_first_counter1_2; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count_2 = d_first_beats1_2 & _d_first_count_T_2; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T_2 = d_first_2 ? d_first_beats1_2 : d_first_counter1_2; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [3:0] c_opcode_lookup; // @[Monitor.scala:747:35] wire [7:0] c_size_lookup; // @[Monitor.scala:748:35] wire [15:0] _c_opcode_lookup_T_6 = {12'h0, _c_opcode_lookup_T_1}; // @[Monitor.scala:749:{44,97}] wire [15:0] _c_opcode_lookup_T_7 = {1'h0, _c_opcode_lookup_T_6[15:1]}; // @[Monitor.scala:749:{97,152}] assign c_opcode_lookup = _c_opcode_lookup_T_7[3:0]; // @[Monitor.scala:747:35, :749:{21,152}] wire [15:0] _c_size_lookup_T_6 = {8'h0, _c_size_lookup_T_1}; // @[Monitor.scala:750:{42,93}] wire [15:0] _c_size_lookup_T_7 = {1'h0, _c_size_lookup_T_6[15:1]}; // @[Monitor.scala:750:{93,146}] assign c_size_lookup = _c_size_lookup_T_7[7:0]; // @[Monitor.scala:748:35, :750:{21,146}] wire d_clr_1; // @[Monitor.scala:774:34] wire d_clr_wo_ready_1; // @[Monitor.scala:775:34] wire [3:0] d_opcodes_clr_1; // @[Monitor.scala:776:34] wire [7:0] d_sizes_clr_1; // @[Monitor.scala:777:34] wire _T_1376 = io_in_d_valid_0 & d_first_2; // @[Monitor.scala:36:7, :784:26] assign d_clr_wo_ready_1 = _T_1376 & d_release_ack_1; // @[Monitor.scala:775:34, :783:46, :784:{26,71}] assign d_clr_1 = _T_1405 & d_first_2 & d_release_ack_1; // @[Decoupled.scala:51:35] assign d_opcodes_clr_1 = {4{d_clr_1}}; // @[Monitor.scala:774:34, :776:34, :788:88, :790:21] assign d_sizes_clr_1 = {8{d_clr_1}}; // @[Monitor.scala:774:34, :777:34, :788:88, :791:21] wire _inflight_T_4 = ~d_clr_1; // @[Monitor.scala:774:34, :814:46] wire [1:0] _inflight_T_5 = {1'h0, _inflight_T_3[0] & _inflight_T_4}; // @[Monitor.scala:814:{35,44,46}] wire [3:0] _inflight_opcodes_T_4 = ~d_opcodes_clr_1; // @[Monitor.scala:776:34, :815:62] wire [3:0] _inflight_opcodes_T_5 = _inflight_opcodes_T_3 & _inflight_opcodes_T_4; // @[Monitor.scala:815:{43,60,62}] wire [7:0] _inflight_sizes_T_4 = ~d_sizes_clr_1; // @[Monitor.scala:777:34, :816:58] wire [7:0] _inflight_sizes_T_5 = _inflight_sizes_T_3 & _inflight_sizes_T_4; // @[Monitor.scala:816:{41,56,58}] reg [31:0] watchdog_1; // @[Monitor.scala:818:27]
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File AsyncQueue.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ case class AsyncQueueParams( depth: Int = 8, sync: Int = 3, safe: Boolean = true, // If safe is true, then effort is made to resynchronize the crossing indices when either side is reset. // This makes it safe/possible to reset one side of the crossing (but not the other) when the queue is empty. narrow: Boolean = false) // If narrow is true then the read mux is moved to the source side of the crossing. // This reduces the number of level shifters in the case where the clock crossing is also a voltage crossing, // at the expense of a combinational path from the sink to the source and back to the sink. { require (depth > 0 && isPow2(depth)) require (sync >= 2) val bits = log2Ceil(depth) val wires = if (narrow) 1 else depth } object AsyncQueueParams { // When there is only one entry, we don't need narrow. def singleton(sync: Int = 3, safe: Boolean = true) = AsyncQueueParams(1, sync, safe, false) } class AsyncBundleSafety extends Bundle { val ridx_valid = Input (Bool()) val widx_valid = Output(Bool()) val source_reset_n = Output(Bool()) val sink_reset_n = Input (Bool()) } class AsyncBundle[T <: Data](private val gen: T, val params: AsyncQueueParams = AsyncQueueParams()) extends Bundle { // Data-path synchronization val mem = Output(Vec(params.wires, gen)) val ridx = Input (UInt((params.bits+1).W)) val widx = Output(UInt((params.bits+1).W)) val index = params.narrow.option(Input(UInt(params.bits.W))) // Signals used to self-stabilize a safe AsyncQueue val safe = params.safe.option(new AsyncBundleSafety) } object GrayCounter { def apply(bits: Int, increment: Bool = true.B, clear: Bool = false.B, name: String = "binary"): UInt = { val incremented = Wire(UInt(bits.W)) val binary = RegNext(next=incremented, init=0.U).suggestName(name) incremented := Mux(clear, 0.U, binary + increment.asUInt) incremented ^ (incremented >> 1) } } class AsyncValidSync(sync: Int, desc: String) extends RawModule { val io = IO(new Bundle { val in = Input(Bool()) val out = Output(Bool()) }) val clock = IO(Input(Clock())) val reset = IO(Input(AsyncReset())) withClockAndReset(clock, reset){ io.out := AsyncResetSynchronizerShiftReg(io.in, sync, Some(desc)) } } class AsyncQueueSource[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSource_${gen.typeName}" val io = IO(new Bundle { // These come from the source domain val enq = Flipped(Decoupled(gen)) // These cross to the sink clock domain val async = new AsyncBundle(gen, params) }) val bits = params.bits val sink_ready = WireInit(true.B) val mem = Reg(Vec(params.depth, gen)) // This does NOT need to be reset at all. val widx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.enq.fire, !sink_ready, "widx_bin")) val ridx = AsyncResetSynchronizerShiftReg(io.async.ridx, params.sync, Some("ridx_gray")) val ready = sink_ready && widx =/= (ridx ^ (params.depth | params.depth >> 1).U) val index = if (bits == 0) 0.U else io.async.widx(bits-1, 0) ^ (io.async.widx(bits, bits) << (bits-1)) when (io.enq.fire) { mem(index) := io.enq.bits } val ready_reg = withReset(reset.asAsyncReset)(RegNext(next=ready, init=false.B).suggestName("ready_reg")) io.enq.ready := ready_reg && sink_ready val widx_reg = withReset(reset.asAsyncReset)(RegNext(next=widx, init=0.U).suggestName("widx_gray")) io.async.widx := widx_reg io.async.index match { case Some(index) => io.async.mem(0) := mem(index) case None => io.async.mem := mem } io.async.safe.foreach { sio => val source_valid_0 = Module(new AsyncValidSync(params.sync, "source_valid_0")) val source_valid_1 = Module(new AsyncValidSync(params.sync, "source_valid_1")) val sink_extend = Module(new AsyncValidSync(params.sync, "sink_extend")) val sink_valid = Module(new AsyncValidSync(params.sync, "sink_valid")) source_valid_0.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset source_valid_1.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_extend .reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_valid .reset := reset.asAsyncReset source_valid_0.clock := clock source_valid_1.clock := clock sink_extend .clock := clock sink_valid .clock := clock source_valid_0.io.in := true.B source_valid_1.io.in := source_valid_0.io.out sio.widx_valid := source_valid_1.io.out sink_extend.io.in := sio.ridx_valid sink_valid.io.in := sink_extend.io.out sink_ready := sink_valid.io.out sio.source_reset_n := !reset.asBool // Assert that if there is stuff in the queue, then reset cannot happen // Impossible to write because dequeue can occur on the receiving side, // then reset allowed to happen, but write side cannot know that dequeue // occurred. // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // assert (!(reset || !sio.sink_reset_n) || !io.enq.valid, "Enqueue while sink is reset and AsyncQueueSource is unprotected") // assert (!reset_rise || prev_idx_match.asBool, "Sink reset while AsyncQueueSource not empty") } } class AsyncQueueSink[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSink_${gen.typeName}" val io = IO(new Bundle { // These come from the sink domain val deq = Decoupled(gen) // These cross to the source clock domain val async = Flipped(new AsyncBundle(gen, params)) }) val bits = params.bits val source_ready = WireInit(true.B) val ridx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.deq.fire, !source_ready, "ridx_bin")) val widx = AsyncResetSynchronizerShiftReg(io.async.widx, params.sync, Some("widx_gray")) val valid = source_ready && ridx =/= widx // The mux is safe because timing analysis ensures ridx has reached the register // On an ASIC, changes to the unread location cannot affect the selected value // On an FPGA, only one input changes at a time => mem updates don't cause glitches // The register only latches when the selected valued is not being written val index = if (bits == 0) 0.U else ridx(bits-1, 0) ^ (ridx(bits, bits) << (bits-1)) io.async.index.foreach { _ := index } // This register does not NEED to be reset, as its contents will not // be considered unless the asynchronously reset deq valid register is set. // It is possible that bits latches when the source domain is reset / has power cut // This is safe, because isolation gates brought mem low before the zeroed widx reached us val deq_bits_nxt = io.async.mem(if (params.narrow) 0.U else index) io.deq.bits := ClockCrossingReg(deq_bits_nxt, en = valid, doInit = false, name = Some("deq_bits_reg")) val valid_reg = withReset(reset.asAsyncReset)(RegNext(next=valid, init=false.B).suggestName("valid_reg")) io.deq.valid := valid_reg && source_ready val ridx_reg = withReset(reset.asAsyncReset)(RegNext(next=ridx, init=0.U).suggestName("ridx_gray")) io.async.ridx := ridx_reg io.async.safe.foreach { sio => val sink_valid_0 = Module(new AsyncValidSync(params.sync, "sink_valid_0")) val sink_valid_1 = Module(new AsyncValidSync(params.sync, "sink_valid_1")) val source_extend = Module(new AsyncValidSync(params.sync, "source_extend")) val source_valid = Module(new AsyncValidSync(params.sync, "source_valid")) sink_valid_0 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset sink_valid_1 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_extend.reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_valid .reset := reset.asAsyncReset sink_valid_0 .clock := clock sink_valid_1 .clock := clock source_extend.clock := clock source_valid .clock := clock sink_valid_0.io.in := true.B sink_valid_1.io.in := sink_valid_0.io.out sio.ridx_valid := sink_valid_1.io.out source_extend.io.in := sio.widx_valid source_valid.io.in := source_extend.io.out source_ready := source_valid.io.out sio.sink_reset_n := !reset.asBool // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // // val reset_and_extend = !source_ready || !sio.source_reset_n || reset.asBool // val reset_and_extend_prev = RegNext(reset_and_extend, true.B) // val reset_rise = !reset_and_extend_prev && reset_and_extend // val prev_idx_match = AsyncResetReg(updateData=(io.async.widx===io.async.ridx), resetData=0) // assert (!reset_rise || prev_idx_match.asBool, "Source reset while AsyncQueueSink not empty") } } object FromAsyncBundle { // Sometimes it makes sense for the sink to have different sync than the source def apply[T <: Data](x: AsyncBundle[T]): DecoupledIO[T] = apply(x, x.params.sync) def apply[T <: Data](x: AsyncBundle[T], sync: Int): DecoupledIO[T] = { val sink = Module(new AsyncQueueSink(chiselTypeOf(x.mem(0)), x.params.copy(sync = sync))) sink.io.async <> x sink.io.deq } } object ToAsyncBundle { def apply[T <: Data](x: ReadyValidIO[T], params: AsyncQueueParams = AsyncQueueParams()): AsyncBundle[T] = { val source = Module(new AsyncQueueSource(chiselTypeOf(x.bits), params)) source.io.enq <> x source.io.async } } class AsyncQueue[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Crossing[T] { val io = IO(new CrossingIO(gen)) val source = withClockAndReset(io.enq_clock, io.enq_reset) { Module(new AsyncQueueSource(gen, params)) } val sink = withClockAndReset(io.deq_clock, io.deq_reset) { Module(new AsyncQueueSink (gen, params)) } source.io.enq <> io.enq io.deq <> sink.io.deq sink.io.async <> source.io.async }
module AsyncValidSync_61( // @[AsyncQueue.scala:58:7] input io_in, // @[AsyncQueue.scala:59:14] output io_out, // @[AsyncQueue.scala:59:14] input clock, // @[AsyncQueue.scala:63:17] input reset // @[AsyncQueue.scala:64:17] ); wire io_in_0 = io_in; // @[AsyncQueue.scala:58:7] wire _io_out_WIRE; // @[ShiftReg.scala:48:24] wire io_out_0; // @[AsyncQueue.scala:58:7] assign io_out_0 = _io_out_WIRE; // @[ShiftReg.scala:48:24] AsyncResetSynchronizerShiftReg_w1_d3_i0_61 io_out_source_valid_1 ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (reset), .io_d (io_in_0), // @[AsyncQueue.scala:58:7] .io_q (_io_out_WIRE) ); // @[ShiftReg.scala:45:23] assign io_out = io_out_0; // @[AsyncQueue.scala:58:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Decode.scala: // See LICENSE.Berkeley for license details. package freechips.rocketchip.rocket import chisel3._ import chisel3.util.BitPat import chisel3.util.experimental.decode._ object DecodeLogic { // TODO This should be a method on BitPat private def hasDontCare(bp: BitPat): Boolean = bp.mask.bitCount != bp.width // Pads BitPats that are safe to pad (no don't cares), errors otherwise private def padBP(bp: BitPat, width: Int): BitPat = { if (bp.width == width) bp else { require(!hasDontCare(bp), s"Cannot pad '$bp' to '$width' bits because it has don't cares") val diff = width - bp.width require(diff > 0, s"Cannot pad '$bp' to '$width' because it is already '${bp.width}' bits wide!") BitPat(0.U(diff.W)) ## bp } } def apply(addr: UInt, default: BitPat, mapping: Iterable[(BitPat, BitPat)]): UInt = chisel3.util.experimental.decode.decoder(QMCMinimizer, addr, TruthTable(mapping, default)) def apply(addr: UInt, default: Seq[BitPat], mappingIn: Iterable[(BitPat, Seq[BitPat])]): Seq[UInt] = { val nElts = default.size require(mappingIn.forall(_._2.size == nElts), s"All Seq[BitPat] must be of the same length, got $nElts vs. ${mappingIn.find(_._2.size != nElts).get}" ) val elementsGrouped = mappingIn.map(_._2).transpose val elementWidths = elementsGrouped.zip(default).map { case (elts, default) => (default :: elts.toList).map(_.getWidth).max } val resultWidth = elementWidths.sum val elementIndices = elementWidths.scan(resultWidth - 1) { case (l, r) => l - r } // All BitPats that correspond to a given element in the result must have the same width in the // chisel3 decoder. We will zero pad any BitPats that are too small so long as they dont have // any don't cares. If there are don't cares, it is an error and the user needs to pad the // BitPat themselves val defaultsPadded = default.zip(elementWidths).map { case (bp, w) => padBP(bp, w) } val mappingInPadded = mappingIn.map { case (in, elts) => in -> elts.zip(elementWidths).map { case (bp, w) => padBP(bp, w) } } val decoded = apply(addr, defaultsPadded.reduce(_ ## _), mappingInPadded.map { case (in, out) => (in, out.reduce(_ ## _)) }) elementIndices.zip(elementIndices.tail).map { case (msb, lsb) => decoded(msb, lsb + 1) }.toList } def apply(addr: UInt, default: Seq[BitPat], mappingIn: List[(UInt, Seq[BitPat])]): Seq[UInt] = apply(addr, default, mappingIn.map(m => (BitPat(m._1), m._2)).asInstanceOf[Iterable[(BitPat, Seq[BitPat])]]) def apply(addr: UInt, trues: Iterable[UInt], falses: Iterable[UInt]): Bool = apply(addr, BitPat.dontCare(1), trues.map(BitPat(_) -> BitPat("b1")) ++ falses.map(BitPat(_) -> BitPat("b0"))).asBool } File Counters.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ // Produces 0-width value when counting to 1 class ZCounter(val n: Int) { val value = RegInit(0.U(log2Ceil(n).W)) def inc(): Bool = { if (n == 1) true.B else { val wrap = value === (n-1).U value := Mux(!isPow2(n).B && wrap, 0.U, value + 1.U) wrap } } } object ZCounter { def apply(n: Int) = new ZCounter(n) def apply(cond: Bool, n: Int): (UInt, Bool) = { val c = new ZCounter(n) var wrap: Bool = null when (cond) { wrap = c.inc() } (c.value, cond && wrap) } } object TwoWayCounter { def apply(up: Bool, down: Bool, max: Int): UInt = { val cnt = RegInit(0.U(log2Up(max + 1).W)) when (up && !down) { cnt := cnt + 1.U } when (down && !up) { cnt := cnt - 1.U } cnt } } // a counter that clock gates most of its MSBs using the LSB carry-out case class WideCounter(width: Int, inc: UInt = 1.U, reset: Boolean = true, inhibit: Bool = false.B) { private val isWide = width > (2 * inc.getWidth) private val smallWidth = if (isWide) inc.getWidth max log2Up(width) else width private val small = if (reset) RegInit(0.U(smallWidth.W)) else Reg(UInt(smallWidth.W)) private val nextSmall = small +& inc when (!inhibit) { small := nextSmall } private val large = if (isWide) { val r = if (reset) RegInit(0.U((width - smallWidth).W)) else Reg(UInt((width - smallWidth).W)) when (nextSmall(smallWidth) && !inhibit) { r := r + 1.U } r } else null val value = if (isWide) Cat(large, small) else small lazy val carryOut = { val lo = (small ^ nextSmall) >> 1 if (!isWide) lo else { val hi = Mux(nextSmall(smallWidth), large ^ (large +& 1.U), 0.U) >> 1 Cat(hi, lo) } } def := (x: UInt) = { small := x if (isWide) large := x >> smallWidth } } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File PMP.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.rocket import chisel3._ import chisel3.util.{Cat, log2Ceil} import org.chipsalliance.cde.config._ import freechips.rocketchip.tile._ import freechips.rocketchip.util._ class PMPConfig extends Bundle { val l = Bool() val res = UInt(2.W) val a = UInt(2.W) val x = Bool() val w = Bool() val r = Bool() } object PMP { def lgAlign = 2 def apply(reg: PMPReg): PMP = { val pmp = Wire(new PMP()(reg.p)) pmp.cfg := reg.cfg pmp.addr := reg.addr pmp.mask := pmp.computeMask pmp } } class PMPReg(implicit p: Parameters) extends CoreBundle()(p) { val cfg = new PMPConfig val addr = UInt((paddrBits - PMP.lgAlign).W) def reset(): Unit = { cfg.a := 0.U cfg.l := 0.U } def readAddr = if (pmpGranularity.log2 == PMP.lgAlign) addr else { val mask = ((BigInt(1) << (pmpGranularity.log2 - PMP.lgAlign)) - 1).U Mux(napot, addr | (mask >> 1), ~(~addr | mask)) } def napot = cfg.a(1) def torNotNAPOT = cfg.a(0) def tor = !napot && torNotNAPOT def cfgLocked = cfg.l def addrLocked(next: PMPReg) = cfgLocked || next.cfgLocked && next.tor } class PMP(implicit p: Parameters) extends PMPReg { val mask = UInt(paddrBits.W) import PMP._ def computeMask = { val base = Cat(addr, cfg.a(0)) | ((pmpGranularity - 1).U >> lgAlign) Cat(base & ~(base + 1.U), ((1 << lgAlign) - 1).U) } private def comparand = ~(~(addr << lgAlign) | (pmpGranularity - 1).U) private def pow2Match(x: UInt, lgSize: UInt, lgMaxSize: Int) = { def eval(a: UInt, b: UInt, m: UInt) = ((a ^ b) & ~m) === 0.U if (lgMaxSize <= pmpGranularity.log2) { eval(x, comparand, mask) } else { // break up the circuit; the MSB part will be CSE'd val lsbMask = mask | UIntToOH1(lgSize, lgMaxSize) val msbMatch = eval(x >> lgMaxSize, comparand >> lgMaxSize, mask >> lgMaxSize) val lsbMatch = eval(x(lgMaxSize-1, 0), comparand(lgMaxSize-1, 0), lsbMask(lgMaxSize-1, 0)) msbMatch && lsbMatch } } private def boundMatch(x: UInt, lsbMask: UInt, lgMaxSize: Int) = { if (lgMaxSize <= pmpGranularity.log2) { x < comparand } else { // break up the circuit; the MSB part will be CSE'd val msbsLess = (x >> lgMaxSize) < (comparand >> lgMaxSize) val msbsEqual = ((x >> lgMaxSize) ^ (comparand >> lgMaxSize)) === 0.U val lsbsLess = (x(lgMaxSize-1, 0) | lsbMask) < comparand(lgMaxSize-1, 0) msbsLess || (msbsEqual && lsbsLess) } } private def lowerBoundMatch(x: UInt, lgSize: UInt, lgMaxSize: Int) = !boundMatch(x, UIntToOH1(lgSize, lgMaxSize), lgMaxSize) private def upperBoundMatch(x: UInt, lgMaxSize: Int) = boundMatch(x, 0.U, lgMaxSize) private def rangeMatch(x: UInt, lgSize: UInt, lgMaxSize: Int, prev: PMP) = prev.lowerBoundMatch(x, lgSize, lgMaxSize) && upperBoundMatch(x, lgMaxSize) private def pow2Homogeneous(x: UInt, pgLevel: UInt) = { val maskHomogeneous = pgLevelMap { idxBits => if (idxBits > paddrBits) false.B else mask(idxBits - 1) } (pgLevel) maskHomogeneous || (pgLevelMap { idxBits => ((x ^ comparand) >> idxBits) =/= 0.U } (pgLevel)) } private def pgLevelMap[T](f: Int => T) = (0 until pgLevels).map { i => f(pgIdxBits + (pgLevels - 1 - i) * pgLevelBits) } private def rangeHomogeneous(x: UInt, pgLevel: UInt, prev: PMP) = { val beginsAfterLower = !(x < prev.comparand) val beginsAfterUpper = !(x < comparand) val pgMask = pgLevelMap { idxBits => (((BigInt(1) << paddrBits) - (BigInt(1) << idxBits)) max 0).U } (pgLevel) val endsBeforeLower = (x & pgMask) < (prev.comparand & pgMask) val endsBeforeUpper = (x & pgMask) < (comparand & pgMask) endsBeforeLower || beginsAfterUpper || (beginsAfterLower && endsBeforeUpper) } // returns whether this PMP completely contains, or contains none of, a page def homogeneous(x: UInt, pgLevel: UInt, prev: PMP): Bool = Mux(napot, pow2Homogeneous(x, pgLevel), !torNotNAPOT || rangeHomogeneous(x, pgLevel, prev)) // returns whether this matching PMP fully contains the access def aligned(x: UInt, lgSize: UInt, lgMaxSize: Int, prev: PMP): Bool = if (lgMaxSize <= pmpGranularity.log2) true.B else { val lsbMask = UIntToOH1(lgSize, lgMaxSize) val straddlesLowerBound = ((x >> lgMaxSize) ^ (prev.comparand >> lgMaxSize)) === 0.U && (prev.comparand(lgMaxSize-1, 0) & ~x(lgMaxSize-1, 0)) =/= 0.U val straddlesUpperBound = ((x >> lgMaxSize) ^ (comparand >> lgMaxSize)) === 0.U && (comparand(lgMaxSize-1, 0) & (x(lgMaxSize-1, 0) | lsbMask)) =/= 0.U val rangeAligned = !(straddlesLowerBound || straddlesUpperBound) val pow2Aligned = (lsbMask & ~mask(lgMaxSize-1, 0)) === 0.U Mux(napot, pow2Aligned, rangeAligned) } // returns whether this PMP matches at least one byte of the access def hit(x: UInt, lgSize: UInt, lgMaxSize: Int, prev: PMP): Bool = Mux(napot, pow2Match(x, lgSize, lgMaxSize), torNotNAPOT && rangeMatch(x, lgSize, lgMaxSize, prev)) } class PMPHomogeneityChecker(pmps: Seq[PMP])(implicit p: Parameters) { def apply(addr: UInt, pgLevel: UInt): Bool = { pmps.foldLeft((true.B, 0.U.asTypeOf(new PMP))) { case ((h, prev), pmp) => (h && pmp.homogeneous(addr, pgLevel, prev), pmp) }._1 } } class PMPChecker(lgMaxSize: Int)(implicit val p: Parameters) extends Module with HasCoreParameters { override def desiredName = s"PMPChecker_s${lgMaxSize}" val io = IO(new Bundle { val prv = Input(UInt(PRV.SZ.W)) val pmp = Input(Vec(nPMPs, new PMP)) val addr = Input(UInt(paddrBits.W)) val size = Input(UInt(log2Ceil(lgMaxSize + 1).W)) val r = Output(Bool()) val w = Output(Bool()) val x = Output(Bool()) }) val default = if (io.pmp.isEmpty) true.B else io.prv > PRV.S.U val pmp0 = WireInit(0.U.asTypeOf(new PMP)) pmp0.cfg.r := default pmp0.cfg.w := default pmp0.cfg.x := default val res = (io.pmp zip (pmp0 +: io.pmp)).reverse.foldLeft(pmp0) { case (prev, (pmp, prevPMP)) => val hit = pmp.hit(io.addr, io.size, lgMaxSize, prevPMP) val ignore = default && !pmp.cfg.l val aligned = pmp.aligned(io.addr, io.size, lgMaxSize, prevPMP) for ((name, idx) <- Seq("no", "TOR", if (pmpGranularity <= 4) "NA4" else "", "NAPOT").zipWithIndex; if name.nonEmpty) property.cover(pmp.cfg.a === idx.U, s"The cfg access is set to ${name} access ", "Cover PMP access mode setting") property.cover(pmp.cfg.l === 0x1.U, s"The cfg lock is set to high ", "Cover PMP lock mode setting") // Not including Write and no Read permission as the combination is reserved for ((name, idx) <- Seq("no", "RO", "", "RW", "X", "RX", "", "RWX").zipWithIndex; if name.nonEmpty) property.cover((Cat(pmp.cfg.x, pmp.cfg.w, pmp.cfg.r) === idx.U), s"The permission is set to ${name} access ", "Cover PMP access permission setting") for ((name, idx) <- Seq("", "TOR", if (pmpGranularity <= 4) "NA4" else "", "NAPOT").zipWithIndex; if name.nonEmpty) { property.cover(!ignore && hit && aligned && pmp.cfg.a === idx.U, s"The access matches ${name} mode ", "Cover PMP access") property.cover(pmp.cfg.l && hit && aligned && pmp.cfg.a === idx.U, s"The access matches ${name} mode with lock bit high", "Cover PMP access with lock bit") } val cur = WireInit(pmp) cur.cfg.r := aligned && (pmp.cfg.r || ignore) cur.cfg.w := aligned && (pmp.cfg.w || ignore) cur.cfg.x := aligned && (pmp.cfg.x || ignore) Mux(hit, cur, prev) } io.r := res.cfg.r io.w := res.cfg.w io.x := res.cfg.x } File CSR.scala: // See LICENSE.SiFive for license details. // See LICENSE.Berkeley for license details. package freechips.rocketchip.rocket import chisel3._ import chisel3.util.{BitPat, Cat, Fill, Mux1H, PopCount, PriorityMux, RegEnable, UIntToOH, Valid, log2Ceil, log2Up} import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.devices.debug.DebugModuleKey import freechips.rocketchip.tile._ import freechips.rocketchip.util._ import freechips.rocketchip.util.property import scala.collection.mutable.LinkedHashMap import Instructions._ import CustomInstructions._ class MStatus extends Bundle { // not truly part of mstatus, but convenient val debug = Bool() val cease = Bool() val wfi = Bool() val isa = UInt(32.W) val dprv = UInt(PRV.SZ.W) // effective prv for data accesses val dv = Bool() // effective v for data accesses val prv = UInt(PRV.SZ.W) val v = Bool() val sd = Bool() val zero2 = UInt(23.W) val mpv = Bool() val gva = Bool() val mbe = Bool() val sbe = Bool() val sxl = UInt(2.W) val uxl = UInt(2.W) val sd_rv32 = Bool() val zero1 = UInt(8.W) val tsr = Bool() val tw = Bool() val tvm = Bool() val mxr = Bool() val sum = Bool() val mprv = Bool() val xs = UInt(2.W) val fs = UInt(2.W) val mpp = UInt(2.W) val vs = UInt(2.W) val spp = UInt(1.W) val mpie = Bool() val ube = Bool() val spie = Bool() val upie = Bool() val mie = Bool() val hie = Bool() val sie = Bool() val uie = Bool() } class MNStatus extends Bundle { val mpp = UInt(2.W) val zero3 = UInt(3.W) val mpv = Bool() val zero2 = UInt(3.W) val mie = Bool() val zero1 = UInt(3.W) } class HStatus extends Bundle { val zero6 = UInt(30.W) val vsxl = UInt(2.W) val zero5 = UInt(9.W) val vtsr = Bool() val vtw = Bool() val vtvm = Bool() val zero3 = UInt(2.W) val vgein = UInt(6.W) val zero2 = UInt(2.W) val hu = Bool() val spvp = Bool() val spv = Bool() val gva = Bool() val vsbe = Bool() val zero1 = UInt(5.W) } class DCSR extends Bundle { val xdebugver = UInt(2.W) val zero4 = UInt(2.W) val zero3 = UInt(12.W) val ebreakm = Bool() val ebreakh = Bool() val ebreaks = Bool() val ebreaku = Bool() val zero2 = Bool() val stopcycle = Bool() val stoptime = Bool() val cause = UInt(3.W) val v = Bool() val zero1 = UInt(2.W) val step = Bool() val prv = UInt(PRV.SZ.W) } class MIP(implicit p: Parameters) extends CoreBundle()(p) with HasCoreParameters { val lip = Vec(coreParams.nLocalInterrupts, Bool()) val zero1 = Bool() val debug = Bool() // keep in sync with CSR.debugIntCause val rocc = Bool() val sgeip = Bool() val meip = Bool() val vseip = Bool() val seip = Bool() val ueip = Bool() val mtip = Bool() val vstip = Bool() val stip = Bool() val utip = Bool() val msip = Bool() val vssip = Bool() val ssip = Bool() val usip = Bool() } class Envcfg extends Bundle { val stce = Bool() // only for menvcfg/henvcfg val pbmte = Bool() // only for menvcfg/henvcfg val zero54 = UInt(54.W) val cbze = Bool() val cbcfe = Bool() val cbie = UInt(2.W) val zero3 = UInt(3.W) val fiom = Bool() def write(wdata: UInt) { val new_envcfg = wdata.asTypeOf(new Envcfg) fiom := new_envcfg.fiom // only FIOM is writable currently } } class PTBR(implicit p: Parameters) extends CoreBundle()(p) { def additionalPgLevels = mode.extract(log2Ceil(pgLevels-minPgLevels+1)-1, 0) def pgLevelsToMode(i: Int) = (xLen, i) match { case (32, 2) => 1 case (64, x) if x >= 3 && x <= 6 => x + 5 } val (modeBits, maxASIdBits) = xLen match { case 32 => (1, 9) case 64 => (4, 16) } require(modeBits + maxASIdBits + maxPAddrBits - pgIdxBits == xLen) val mode = UInt(modeBits.W) val asid = UInt(maxASIdBits.W) val ppn = UInt((maxPAddrBits - pgIdxBits).W) } object PRV { val SZ = 2 val U = 0 val S = 1 val H = 2 val M = 3 } object CSR { // commands val SZ = 3 def X = BitPat.dontCare(SZ) def N = 0.U(SZ.W) def R = 2.U(SZ.W) def I = 4.U(SZ.W) def W = 5.U(SZ.W) def S = 6.U(SZ.W) def C = 7.U(SZ.W) // mask a CSR cmd with a valid bit def maskCmd(valid: Bool, cmd: UInt): UInt = { // all commands less than CSR.I are treated by CSRFile as NOPs cmd & ~Mux(valid, 0.U, CSR.I) } val ADDRSZ = 12 def modeLSB: Int = 8 def mode(addr: Int): Int = (addr >> modeLSB) % (1 << PRV.SZ) def mode(addr: UInt): UInt = addr(modeLSB + PRV.SZ - 1, modeLSB) def busErrorIntCause = 128 def debugIntCause = 14 // keep in sync with MIP.debug def debugTriggerCause = { val res = debugIntCause require(!(Causes.all contains res)) res } def rnmiIntCause = 13 // NMI: Higher numbers = higher priority, must not reuse debugIntCause def rnmiBEUCause = 12 val firstCtr = CSRs.cycle val firstCtrH = CSRs.cycleh val firstHPC = CSRs.hpmcounter3 val firstHPCH = CSRs.hpmcounter3h val firstHPE = CSRs.mhpmevent3 val firstMHPC = CSRs.mhpmcounter3 val firstMHPCH = CSRs.mhpmcounter3h val firstHPM = 3 val nCtr = 32 val nHPM = nCtr - firstHPM val hpmWidth = 40 val maxPMPs = 16 } class PerfCounterIO(implicit p: Parameters) extends CoreBundle with HasCoreParameters { val eventSel = Output(UInt(xLen.W)) val inc = Input(UInt(log2Ceil(1+retireWidth).W)) } class TracedInstruction(implicit p: Parameters) extends CoreBundle { val valid = Bool() val iaddr = UInt(coreMaxAddrBits.W) val insn = UInt(iLen.W) val priv = UInt(3.W) val exception = Bool() val interrupt = Bool() val cause = UInt(xLen.W) val tval = UInt((coreMaxAddrBits max iLen).W) val wdata = Option.when(traceHasWdata)(UInt((vLen max xLen).W)) } class TraceAux extends Bundle { val enable = Bool() val stall = Bool() } class CSRDecodeIO(implicit p: Parameters) extends CoreBundle { val inst = Input(UInt(iLen.W)) def csr_addr = (inst >> 20)(CSR.ADDRSZ-1, 0) val fp_illegal = Output(Bool()) val vector_illegal = Output(Bool()) val fp_csr = Output(Bool()) val vector_csr = Output(Bool()) val rocc_illegal = Output(Bool()) val read_illegal = Output(Bool()) val write_illegal = Output(Bool()) val write_flush = Output(Bool()) val system_illegal = Output(Bool()) val virtual_access_illegal = Output(Bool()) val virtual_system_illegal = Output(Bool()) } class CSRFileIO(hasBeu: Boolean)(implicit p: Parameters) extends CoreBundle with HasCoreParameters { val ungated_clock = Input(Clock()) val interrupts = Input(new CoreInterrupts(hasBeu)) val hartid = Input(UInt(hartIdLen.W)) val rw = new Bundle { val addr = Input(UInt(CSR.ADDRSZ.W)) val cmd = Input(Bits(CSR.SZ.W)) val rdata = Output(Bits(xLen.W)) val wdata = Input(Bits(xLen.W)) } val decode = Vec(decodeWidth, new CSRDecodeIO) val csr_stall = Output(Bool()) // stall retire for wfi val rw_stall = Output(Bool()) // stall rw, rw will have no effect while rw_stall val eret = Output(Bool()) val singleStep = Output(Bool()) val status = Output(new MStatus()) val hstatus = Output(new HStatus()) val gstatus = Output(new MStatus()) val ptbr = Output(new PTBR()) val hgatp = Output(new PTBR()) val vsatp = Output(new PTBR()) val evec = Output(UInt(vaddrBitsExtended.W)) val exception = Input(Bool()) val retire = Input(UInt(log2Up(1+retireWidth).W)) val cause = Input(UInt(xLen.W)) val pc = Input(UInt(vaddrBitsExtended.W)) val tval = Input(UInt(vaddrBitsExtended.W)) val htval = Input(UInt(((maxSVAddrBits + 1) min xLen).W)) val mhtinst_read_pseudo = Input(Bool()) val gva = Input(Bool()) val time = Output(UInt(xLen.W)) val fcsr_rm = Output(Bits(FPConstants.RM_SZ.W)) val fcsr_flags = Flipped(Valid(Bits(FPConstants.FLAGS_SZ.W))) val set_fs_dirty = coreParams.haveFSDirty.option(Input(Bool())) val rocc_interrupt = Input(Bool()) val interrupt = Output(Bool()) val interrupt_cause = Output(UInt(xLen.W)) val bp = Output(Vec(nBreakpoints, new BP)) val pmp = Output(Vec(nPMPs, new PMP)) val counters = Vec(nPerfCounters, new PerfCounterIO) val csrw_counter = Output(UInt(CSR.nCtr.W)) val inhibit_cycle = Output(Bool()) val inst = Input(Vec(retireWidth, UInt(iLen.W))) val trace = Output(Vec(retireWidth, new TracedInstruction)) val mcontext = Output(UInt(coreParams.mcontextWidth.W)) val scontext = Output(UInt(coreParams.scontextWidth.W)) val fiom = Output(Bool()) val vector = usingVector.option(new Bundle { val vconfig = Output(new VConfig()) val vstart = Output(UInt(maxVLMax.log2.W)) val vxrm = Output(UInt(2.W)) val set_vs_dirty = Input(Bool()) val set_vconfig = Flipped(Valid(new VConfig)) val set_vstart = Flipped(Valid(vstart)) val set_vxsat = Input(Bool()) }) } class VConfig(implicit p: Parameters) extends CoreBundle { val vl = UInt((maxVLMax.log2 + 1).W) val vtype = new VType } object VType { def fromUInt(that: UInt, ignore_vill: Boolean = false)(implicit p: Parameters): VType = { val res = 0.U.asTypeOf(new VType) val in = that.asTypeOf(res) val vill = (in.max_vsew.U < in.vsew) || !in.lmul_ok || in.reserved =/= 0.U || in.vill when (!vill || ignore_vill.B) { res := in res.vsew := in.vsew(log2Ceil(1 + in.max_vsew) - 1, 0) } res.reserved := 0.U res.vill := vill res } def computeVL(avl: UInt, vtype: UInt, currentVL: UInt, useCurrentVL: Bool, useMax: Bool, useZero: Bool)(implicit p: Parameters): UInt = VType.fromUInt(vtype, true).vl(avl, currentVL, useCurrentVL, useMax, useZero) } class VType(implicit p: Parameters) extends CoreBundle { val vill = Bool() val reserved = UInt((xLen - 9).W) val vma = Bool() val vta = Bool() val vsew = UInt(3.W) val vlmul_sign = Bool() val vlmul_mag = UInt(2.W) def vlmul_signed: SInt = Cat(vlmul_sign, vlmul_mag).asSInt @deprecated("use vlmul_sign, vlmul_mag, or vlmul_signed", "RVV 0.9") def vlmul: UInt = vlmul_mag def max_vsew = log2Ceil(eLen/8) def max_vlmul = (1 << vlmul_mag.getWidth) - 1 def lmul_ok: Bool = Mux(this.vlmul_sign, this.vlmul_mag =/= 0.U && ~this.vlmul_mag < max_vsew.U - this.vsew, true.B) def minVLMax: Int = ((maxVLMax / eLen) >> ((1 << vlmul_mag.getWidth) - 1)) max 1 def vlMax: UInt = (maxVLMax.U >> (this.vsew +& Cat(this.vlmul_sign, ~this.vlmul_mag))).andNot((minVLMax-1).U) def vl(avl: UInt, currentVL: UInt, useCurrentVL: Bool, useMax: Bool, useZero: Bool): UInt = { val atLeastMaxVLMax = useMax || Mux(useCurrentVL, currentVL >= maxVLMax.U, avl >= maxVLMax.U) val avl_lsbs = Mux(useCurrentVL, currentVL, avl)(maxVLMax.log2 - 1, 0) val atLeastVLMax = atLeastMaxVLMax || (avl_lsbs & (-maxVLMax.S >> (this.vsew +& Cat(this.vlmul_sign, ~this.vlmul_mag))).asUInt.andNot((minVLMax-1).U)).orR val isZero = vill || useZero Mux(!isZero && atLeastVLMax, vlMax, 0.U) | Mux(!isZero && !atLeastVLMax, avl_lsbs, 0.U) } } class CSRFile( perfEventSets: EventSets = new EventSets(Seq()), customCSRs: Seq[CustomCSR] = Nil, roccCSRs: Seq[CustomCSR] = Nil, hasBeu: Boolean = false)(implicit p: Parameters) extends CoreModule()(p) with HasCoreParameters { val io = IO(new CSRFileIO(hasBeu) { val customCSRs = Vec(CSRFile.this.customCSRs.size, new CustomCSRIO) val roccCSRs = Vec(CSRFile.this.roccCSRs.size, new CustomCSRIO) }) io.rw_stall := false.B val reset_mstatus = WireDefault(0.U.asTypeOf(new MStatus())) reset_mstatus.mpp := PRV.M.U reset_mstatus.prv := PRV.M.U reset_mstatus.xs := (if (usingRoCC) 3.U else 0.U) val reg_mstatus = RegInit(reset_mstatus) val new_prv = WireDefault(reg_mstatus.prv) reg_mstatus.prv := legalizePrivilege(new_prv) val reset_dcsr = WireDefault(0.U.asTypeOf(new DCSR())) reset_dcsr.xdebugver := 1.U reset_dcsr.prv := PRV.M.U val reg_dcsr = RegInit(reset_dcsr) val (supported_interrupts, delegable_interrupts) = { val sup = Wire(new MIP) sup.usip := false.B sup.ssip := usingSupervisor.B sup.vssip := usingHypervisor.B sup.msip := true.B sup.utip := false.B sup.stip := usingSupervisor.B sup.vstip := usingHypervisor.B sup.mtip := true.B sup.ueip := false.B sup.seip := usingSupervisor.B sup.vseip := usingHypervisor.B sup.meip := true.B sup.sgeip := false.B sup.rocc := usingRoCC.B sup.debug := false.B sup.zero1 := false.B sup.lip foreach { _ := true.B } val supported_high_interrupts = if (io.interrupts.buserror.nonEmpty && !usingNMI) (BigInt(1) << CSR.busErrorIntCause).U else 0.U val del = WireDefault(sup) del.msip := false.B del.mtip := false.B del.meip := false.B (sup.asUInt | supported_high_interrupts, del.asUInt) } val delegable_base_exceptions = Seq( Causes.misaligned_fetch, Causes.fetch_page_fault, Causes.breakpoint, Causes.load_page_fault, Causes.store_page_fault, Causes.misaligned_load, Causes.misaligned_store, Causes.illegal_instruction, Causes.user_ecall, ) val delegable_hypervisor_exceptions = Seq( Causes.virtual_supervisor_ecall, Causes.fetch_guest_page_fault, Causes.load_guest_page_fault, Causes.virtual_instruction, Causes.store_guest_page_fault, ) val delegable_exceptions = ( delegable_base_exceptions ++ (if (usingHypervisor) delegable_hypervisor_exceptions else Seq()) ).map(1 << _).sum.U val hs_delegable_exceptions = Seq( Causes.misaligned_fetch, Causes.fetch_access, Causes.illegal_instruction, Causes.breakpoint, Causes.misaligned_load, Causes.load_access, Causes.misaligned_store, Causes.store_access, Causes.user_ecall, Causes.fetch_page_fault, Causes.load_page_fault, Causes.store_page_fault).map(1 << _).sum.U val (hs_delegable_interrupts, mideleg_always_hs) = { val always = WireDefault(0.U.asTypeOf(new MIP())) always.vssip := usingHypervisor.B always.vstip := usingHypervisor.B always.vseip := usingHypervisor.B val deleg = WireDefault(always) deleg.lip.foreach { _ := usingHypervisor.B } (deleg.asUInt, always.asUInt) } val reg_debug = RegInit(false.B) val reg_dpc = Reg(UInt(vaddrBitsExtended.W)) val reg_dscratch0 = Reg(UInt(xLen.W)) val reg_dscratch1 = (p(DebugModuleKey).map(_.nDscratch).getOrElse(1) > 1).option(Reg(UInt(xLen.W))) val reg_singleStepped = Reg(Bool()) val reg_mcontext = (coreParams.mcontextWidth > 0).option(RegInit(0.U(coreParams.mcontextWidth.W))) val reg_scontext = (coreParams.scontextWidth > 0).option(RegInit(0.U(coreParams.scontextWidth.W))) val reg_tselect = Reg(UInt(log2Up(nBreakpoints).W)) val reg_bp = Reg(Vec(1 << log2Up(nBreakpoints), new BP)) val reg_pmp = Reg(Vec(nPMPs, new PMPReg)) val reg_mie = Reg(UInt(xLen.W)) val (reg_mideleg, read_mideleg) = { val reg = Reg(UInt(xLen.W)) (reg, Mux(usingSupervisor.B, reg & delegable_interrupts | mideleg_always_hs, 0.U)) } val (reg_medeleg, read_medeleg) = { val reg = Reg(UInt(xLen.W)) (reg, Mux(usingSupervisor.B, reg & delegable_exceptions, 0.U)) } val reg_mip = Reg(new MIP) val reg_mepc = Reg(UInt(vaddrBitsExtended.W)) val reg_mcause = RegInit(0.U(xLen.W)) val reg_mtval = Reg(UInt(vaddrBitsExtended.W)) val reg_mtval2 = Reg(UInt(((maxSVAddrBits + 1) min xLen).W)) val reg_mscratch = Reg(Bits(xLen.W)) val mtvecWidth = paddrBits min xLen val reg_mtvec = mtvecInit match { case Some(addr) => RegInit(addr.U(mtvecWidth.W)) case None => Reg(UInt(mtvecWidth.W)) } val reset_mnstatus = WireDefault(0.U.asTypeOf(new MNStatus())) reset_mnstatus.mpp := PRV.M.U val reg_mnscratch = Reg(Bits(xLen.W)) val reg_mnepc = Reg(UInt(vaddrBitsExtended.W)) val reg_mncause = RegInit(0.U(xLen.W)) val reg_mnstatus = RegInit(reset_mnstatus) val reg_rnmie = RegInit(true.B) val nmie = reg_rnmie val reg_menvcfg = RegInit(0.U.asTypeOf(new Envcfg)) val reg_senvcfg = RegInit(0.U.asTypeOf(new Envcfg)) val reg_henvcfg = RegInit(0.U.asTypeOf(new Envcfg)) val delegable_counters = ((BigInt(1) << (nPerfCounters + CSR.firstHPM)) - 1).U val (reg_mcounteren, read_mcounteren) = { val reg = Reg(UInt(32.W)) (reg, Mux(usingUser.B, reg & delegable_counters, 0.U)) } val (reg_scounteren, read_scounteren) = { val reg = Reg(UInt(32.W)) (reg, Mux(usingSupervisor.B, reg & delegable_counters, 0.U)) } val (reg_hideleg, read_hideleg) = { val reg = Reg(UInt(xLen.W)) (reg, Mux(usingHypervisor.B, reg & hs_delegable_interrupts, 0.U)) } val (reg_hedeleg, read_hedeleg) = { val reg = Reg(UInt(xLen.W)) (reg, Mux(usingHypervisor.B, reg & hs_delegable_exceptions, 0.U)) } val hs_delegable_counters = delegable_counters val (reg_hcounteren, read_hcounteren) = { val reg = Reg(UInt(32.W)) (reg, Mux(usingHypervisor.B, reg & hs_delegable_counters, 0.U)) } val reg_hstatus = RegInit(0.U.asTypeOf(new HStatus)) val reg_hgatp = Reg(new PTBR) val reg_htval = Reg(reg_mtval2.cloneType) val read_hvip = reg_mip.asUInt & hs_delegable_interrupts val read_hie = reg_mie & hs_delegable_interrupts val (reg_vstvec, read_vstvec) = { val reg = Reg(UInt(vaddrBitsExtended.W)) (reg, formTVec(reg).sextTo(xLen)) } val reg_vsstatus = Reg(new MStatus) val reg_vsscratch = Reg(Bits(xLen.W)) val reg_vsepc = Reg(UInt(vaddrBitsExtended.W)) val reg_vscause = Reg(Bits(xLen.W)) val reg_vstval = Reg(UInt(vaddrBitsExtended.W)) val reg_vsatp = Reg(new PTBR) val reg_sepc = Reg(UInt(vaddrBitsExtended.W)) val reg_scause = Reg(Bits(xLen.W)) val reg_stval = Reg(UInt(vaddrBitsExtended.W)) val reg_sscratch = Reg(Bits(xLen.W)) val reg_stvec = Reg(UInt((if (usingHypervisor) vaddrBitsExtended else vaddrBits).W)) val reg_satp = Reg(new PTBR) val reg_wfi = withClock(io.ungated_clock) { RegInit(false.B) } val reg_fflags = Reg(UInt(5.W)) val reg_frm = Reg(UInt(3.W)) val reg_vconfig = usingVector.option(Reg(new VConfig)) val reg_vstart = usingVector.option(Reg(UInt(maxVLMax.log2.W))) val reg_vxsat = usingVector.option(Reg(Bool())) val reg_vxrm = usingVector.option(Reg(UInt(io.vector.get.vxrm.getWidth.W))) val reg_mtinst_read_pseudo = Reg(Bool()) val reg_htinst_read_pseudo = Reg(Bool()) // XLEN=32: 0x00002000 // XLEN=64: 0x00003000 val Seq(read_mtinst, read_htinst) = Seq(reg_mtinst_read_pseudo, reg_htinst_read_pseudo).map(r => Cat(r, (xLen == 32).option(0.U).getOrElse(r), 0.U(12.W))) val reg_mcountinhibit = RegInit(0.U((CSR.firstHPM + nPerfCounters).W)) io.inhibit_cycle := reg_mcountinhibit(0) val reg_instret = WideCounter(64, io.retire, inhibit = reg_mcountinhibit(2)) val reg_cycle = if (enableCommitLog) WideCounter(64, io.retire, inhibit = reg_mcountinhibit(0)) else withClock(io.ungated_clock) { WideCounter(64, !io.csr_stall, inhibit = reg_mcountinhibit(0)) } val reg_hpmevent = io.counters.map(c => RegInit(0.U(xLen.W))) (io.counters zip reg_hpmevent) foreach { case (c, e) => c.eventSel := e } val reg_hpmcounter = io.counters.zipWithIndex.map { case (c, i) => WideCounter(CSR.hpmWidth, c.inc, reset = false, inhibit = reg_mcountinhibit(CSR.firstHPM+i)) } val mip = WireDefault(reg_mip) mip.lip := (io.interrupts.lip: Seq[Bool]) mip.mtip := io.interrupts.mtip mip.msip := io.interrupts.msip mip.meip := io.interrupts.meip // seip is the OR of reg_mip.seip and the actual line from the PLIC io.interrupts.seip.foreach { mip.seip := reg_mip.seip || _ } // Simimlar sort of thing would apply if the PLIC had a VSEIP line: //io.interrupts.vseip.foreach { mip.vseip := reg_mip.vseip || _ } mip.rocc := io.rocc_interrupt val read_mip = mip.asUInt & supported_interrupts val read_hip = read_mip & hs_delegable_interrupts val high_interrupts = (if (usingNMI) 0.U else io.interrupts.buserror.map(_ << CSR.busErrorIntCause).getOrElse(0.U)) val pending_interrupts = high_interrupts | (read_mip & reg_mie) val d_interrupts = io.interrupts.debug << CSR.debugIntCause val (nmi_interrupts, nmiFlag) = io.interrupts.nmi.map(nmi => (((nmi.rnmi && reg_rnmie) << CSR.rnmiIntCause) | io.interrupts.buserror.map(_ << CSR.rnmiBEUCause).getOrElse(0.U), !io.interrupts.debug && nmi.rnmi && reg_rnmie)).getOrElse(0.U, false.B) val m_interrupts = Mux(nmie && (reg_mstatus.prv <= PRV.S.U || reg_mstatus.mie), ~(~pending_interrupts | read_mideleg), 0.U) val s_interrupts = Mux(nmie && (reg_mstatus.v || reg_mstatus.prv < PRV.S.U || (reg_mstatus.prv === PRV.S.U && reg_mstatus.sie)), pending_interrupts & read_mideleg & ~read_hideleg, 0.U) val vs_interrupts = Mux(nmie && (reg_mstatus.v && (reg_mstatus.prv < PRV.S.U || reg_mstatus.prv === PRV.S.U && reg_vsstatus.sie)), pending_interrupts & read_hideleg, 0.U) val (anyInterrupt, whichInterrupt) = chooseInterrupt(Seq(vs_interrupts, s_interrupts, m_interrupts, nmi_interrupts, d_interrupts)) val interruptMSB = BigInt(1) << (xLen-1) val interruptCause = interruptMSB.U + (nmiFlag << (xLen-2)) + whichInterrupt io.interrupt := (anyInterrupt && !io.singleStep || reg_singleStepped) && !(reg_debug || io.status.cease) io.interrupt_cause := interruptCause io.bp := reg_bp take nBreakpoints io.mcontext := reg_mcontext.getOrElse(0.U) io.scontext := reg_scontext.getOrElse(0.U) io.fiom := (reg_mstatus.prv < PRV.M.U && reg_menvcfg.fiom) || (reg_mstatus.prv < PRV.S.U && reg_senvcfg.fiom) || (reg_mstatus.v && reg_henvcfg.fiom) io.pmp := reg_pmp.map(PMP(_)) val isaMaskString = (if (usingMulDiv) "M" else "") + (if (usingAtomics) "A" else "") + (if (fLen >= 32) "F" else "") + (if (fLen >= 64) "D" else "") + (if (coreParams.hasV) "V" else "") + (if (usingCompressed) "C" else "") val isaString = (if (coreParams.useRVE) "E" else "I") + isaMaskString + (if (customIsaExt.isDefined || usingRoCC) "X" else "") + (if (usingSupervisor) "S" else "") + (if (usingHypervisor) "H" else "") + (if (usingUser) "U" else "") val isaMax = (BigInt(log2Ceil(xLen) - 4) << (xLen-2)) | isaStringToMask(isaString) val reg_misa = RegInit(isaMax.U) val read_mstatus = io.status.asUInt.extract(xLen-1,0) val read_mtvec = formTVec(reg_mtvec).padTo(xLen) val read_stvec = formTVec(reg_stvec).sextTo(xLen) val read_mapping = LinkedHashMap[Int,Bits]( CSRs.tselect -> reg_tselect, CSRs.tdata1 -> reg_bp(reg_tselect).control.asUInt, CSRs.tdata2 -> reg_bp(reg_tselect).address.sextTo(xLen), CSRs.tdata3 -> reg_bp(reg_tselect).textra.asUInt, CSRs.misa -> reg_misa, CSRs.mstatus -> read_mstatus, CSRs.mtvec -> read_mtvec, CSRs.mip -> read_mip, CSRs.mie -> reg_mie, CSRs.mscratch -> reg_mscratch, CSRs.mepc -> readEPC(reg_mepc).sextTo(xLen), CSRs.mtval -> reg_mtval.sextTo(xLen), CSRs.mcause -> reg_mcause, CSRs.mhartid -> io.hartid) val debug_csrs = if (!usingDebug) LinkedHashMap() else LinkedHashMap[Int,Bits]( CSRs.dcsr -> reg_dcsr.asUInt, CSRs.dpc -> readEPC(reg_dpc).sextTo(xLen), CSRs.dscratch0 -> reg_dscratch0.asUInt) ++ reg_dscratch1.map(r => CSRs.dscratch1 -> r) val read_mnstatus = WireInit(0.U.asTypeOf(new MNStatus())) read_mnstatus.mpp := reg_mnstatus.mpp read_mnstatus.mpv := reg_mnstatus.mpv read_mnstatus.mie := reg_rnmie val nmi_csrs = if (!usingNMI) LinkedHashMap() else LinkedHashMap[Int,Bits]( CustomCSRs.mnscratch -> reg_mnscratch, CustomCSRs.mnepc -> readEPC(reg_mnepc).sextTo(xLen), CustomCSRs.mncause -> reg_mncause, CustomCSRs.mnstatus -> read_mnstatus.asUInt) val context_csrs = LinkedHashMap[Int,Bits]() ++ reg_mcontext.map(r => CSRs.mcontext -> r) ++ reg_scontext.map(r => CSRs.scontext -> r) val read_fcsr = Cat(reg_frm, reg_fflags) val fp_csrs = LinkedHashMap[Int,Bits]() ++ usingFPU.option(CSRs.fflags -> reg_fflags) ++ usingFPU.option(CSRs.frm -> reg_frm) ++ (usingFPU || usingVector).option(CSRs.fcsr -> read_fcsr) val read_vcsr = Cat(reg_vxrm.getOrElse(0.U), reg_vxsat.getOrElse(0.U)) val vector_csrs = if (!usingVector) LinkedHashMap() else LinkedHashMap[Int,Bits]( CSRs.vxsat -> reg_vxsat.get, CSRs.vxrm -> reg_vxrm.get, CSRs.vcsr -> read_vcsr, CSRs.vstart -> reg_vstart.get, CSRs.vtype -> reg_vconfig.get.vtype.asUInt, CSRs.vl -> reg_vconfig.get.vl, CSRs.vlenb -> (vLen / 8).U) read_mapping ++= debug_csrs read_mapping ++= nmi_csrs read_mapping ++= context_csrs read_mapping ++= fp_csrs read_mapping ++= vector_csrs if (coreParams.haveBasicCounters) { read_mapping += CSRs.mcountinhibit -> reg_mcountinhibit read_mapping += CSRs.mcycle -> reg_cycle read_mapping += CSRs.minstret -> reg_instret for (((e, c), i) <- (reg_hpmevent.padTo(CSR.nHPM, 0.U) zip reg_hpmcounter.map(x => x: UInt).padTo(CSR.nHPM, 0.U)).zipWithIndex) { read_mapping += (i + CSR.firstHPE) -> e // mhpmeventN read_mapping += (i + CSR.firstMHPC) -> c // mhpmcounterN read_mapping += (i + CSR.firstHPC) -> c // hpmcounterN if (xLen == 32) { read_mapping += (i + CSR.firstMHPCH) -> (c >> 32) // mhpmcounterNh read_mapping += (i + CSR.firstHPCH) -> (c >> 32) // hpmcounterNh } } if (usingUser) { read_mapping += CSRs.mcounteren -> read_mcounteren } read_mapping += CSRs.cycle -> reg_cycle read_mapping += CSRs.instret -> reg_instret if (xLen == 32) { read_mapping += CSRs.mcycleh -> (reg_cycle >> 32) read_mapping += CSRs.minstreth -> (reg_instret >> 32) read_mapping += CSRs.cycleh -> (reg_cycle >> 32) read_mapping += CSRs.instreth -> (reg_instret >> 32) } } if (usingUser) { read_mapping += CSRs.menvcfg -> reg_menvcfg.asUInt if (xLen == 32) read_mapping += CSRs.menvcfgh -> (reg_menvcfg.asUInt >> 32) } val sie_mask = { val sgeip_mask = WireInit(0.U.asTypeOf(new MIP)) sgeip_mask.sgeip := true.B read_mideleg & ~(hs_delegable_interrupts | sgeip_mask.asUInt) } if (usingSupervisor) { val read_sie = reg_mie & sie_mask val read_sip = read_mip & sie_mask val read_sstatus = WireDefault(0.U.asTypeOf(new MStatus)) read_sstatus.sd := io.status.sd read_sstatus.uxl := io.status.uxl read_sstatus.sd_rv32 := io.status.sd_rv32 read_sstatus.mxr := io.status.mxr read_sstatus.sum := io.status.sum read_sstatus.xs := io.status.xs read_sstatus.fs := io.status.fs read_sstatus.vs := io.status.vs read_sstatus.spp := io.status.spp read_sstatus.spie := io.status.spie read_sstatus.sie := io.status.sie read_mapping += CSRs.sstatus -> (read_sstatus.asUInt)(xLen-1,0) read_mapping += CSRs.sip -> read_sip.asUInt read_mapping += CSRs.sie -> read_sie.asUInt read_mapping += CSRs.sscratch -> reg_sscratch read_mapping += CSRs.scause -> reg_scause read_mapping += CSRs.stval -> reg_stval.sextTo(xLen) read_mapping += CSRs.satp -> reg_satp.asUInt read_mapping += CSRs.sepc -> readEPC(reg_sepc).sextTo(xLen) read_mapping += CSRs.stvec -> read_stvec read_mapping += CSRs.scounteren -> read_scounteren read_mapping += CSRs.mideleg -> read_mideleg read_mapping += CSRs.medeleg -> read_medeleg read_mapping += CSRs.senvcfg -> reg_senvcfg.asUInt } val pmpCfgPerCSR = xLen / new PMPConfig().getWidth def pmpCfgIndex(i: Int) = (xLen / 32) * (i / pmpCfgPerCSR) if (reg_pmp.nonEmpty) { require(reg_pmp.size <= CSR.maxPMPs) val read_pmp = reg_pmp.padTo(CSR.maxPMPs, 0.U.asTypeOf(new PMP)) for (i <- 0 until read_pmp.size by pmpCfgPerCSR) read_mapping += (CSRs.pmpcfg0 + pmpCfgIndex(i)) -> read_pmp.map(_.cfg).slice(i, i + pmpCfgPerCSR).asUInt for ((pmp, i) <- read_pmp.zipWithIndex) read_mapping += (CSRs.pmpaddr0 + i) -> pmp.readAddr } // implementation-defined CSRs def generateCustomCSR(csr: CustomCSR, csr_io: CustomCSRIO) = { require(csr.mask >= 0 && csr.mask.bitLength <= xLen) require(!read_mapping.contains(csr.id)) val reg = csr.init.map(init => RegInit(init.U(xLen.W))).getOrElse(Reg(UInt(xLen.W))) val read = io.rw.cmd =/= CSR.N && io.rw.addr === csr.id.U csr_io.ren := read when (read && csr_io.stall) { io.rw_stall := true.B } read_mapping += csr.id -> reg reg } val reg_custom = customCSRs.zip(io.customCSRs).map(t => generateCustomCSR(t._1, t._2)) val reg_rocc = roccCSRs.zip(io.roccCSRs).map(t => generateCustomCSR(t._1, t._2)) if (usingHypervisor) { read_mapping += CSRs.mtinst -> read_mtinst read_mapping += CSRs.mtval2 -> reg_mtval2 val read_hstatus = io.hstatus.asUInt.extract(xLen-1,0) read_mapping += CSRs.hstatus -> read_hstatus read_mapping += CSRs.hedeleg -> read_hedeleg read_mapping += CSRs.hideleg -> read_hideleg read_mapping += CSRs.hcounteren-> read_hcounteren read_mapping += CSRs.hgatp -> reg_hgatp.asUInt read_mapping += CSRs.hip -> read_hip read_mapping += CSRs.hie -> read_hie read_mapping += CSRs.hvip -> read_hvip read_mapping += CSRs.hgeie -> 0.U read_mapping += CSRs.hgeip -> 0.U read_mapping += CSRs.htval -> reg_htval read_mapping += CSRs.htinst -> read_htinst read_mapping += CSRs.henvcfg -> reg_henvcfg.asUInt if (xLen == 32) read_mapping += CSRs.henvcfgh -> (reg_henvcfg.asUInt >> 32) val read_vsie = (read_hie & read_hideleg) >> 1 val read_vsip = (read_hip & read_hideleg) >> 1 val read_vsepc = readEPC(reg_vsepc).sextTo(xLen) val read_vstval = reg_vstval.sextTo(xLen) val read_vsstatus = io.gstatus.asUInt.extract(xLen-1,0) read_mapping += CSRs.vsstatus -> read_vsstatus read_mapping += CSRs.vsip -> read_vsip read_mapping += CSRs.vsie -> read_vsie read_mapping += CSRs.vsscratch -> reg_vsscratch read_mapping += CSRs.vscause -> reg_vscause read_mapping += CSRs.vstval -> read_vstval read_mapping += CSRs.vsatp -> reg_vsatp.asUInt read_mapping += CSRs.vsepc -> read_vsepc read_mapping += CSRs.vstvec -> read_vstvec } // mimpid, marchid, mvendorid, and mconfigptr are 0 unless overridden by customCSRs Seq(CSRs.mimpid, CSRs.marchid, CSRs.mvendorid, CSRs.mconfigptr).foreach(id => read_mapping.getOrElseUpdate(id, 0.U)) val decoded_addr = { val addr = Cat(io.status.v, io.rw.addr) val pats = for (((k, _), i) <- read_mapping.zipWithIndex) yield (BitPat(k.U), (0 until read_mapping.size).map(j => BitPat((i == j).B))) val decoded = DecodeLogic(addr, Seq.fill(read_mapping.size)(X), pats) val unvirtualized_mapping = (for (((k, _), v) <- read_mapping zip decoded) yield k -> v.asBool).toMap for ((k, v) <- unvirtualized_mapping) yield k -> { val alt: Option[Bool] = CSR.mode(k) match { // hcontext was assigned an unfortunate address; it lives where a // hypothetical vscontext will live. Exclude them from the S/VS remapping. // (on separate lines so scala-lint doesnt do something stupid) case _ if k == CSRs.scontext => None case _ if k == CSRs.hcontext => None // When V=1, if a corresponding VS CSR exists, access it instead... case PRV.H => unvirtualized_mapping.lift(k - (1 << CSR.modeLSB)) // ...and don't access the original S-mode version. case PRV.S => unvirtualized_mapping.contains(k + (1 << CSR.modeLSB)).option(false.B) case _ => None } alt.map(Mux(reg_mstatus.v, _, v)).getOrElse(v) } } val wdata = readModifyWriteCSR(io.rw.cmd, io.rw.rdata, io.rw.wdata) val system_insn = io.rw.cmd === CSR.I val hlsv = Seq(HLV_B, HLV_BU, HLV_H, HLV_HU, HLV_W, HLV_WU, HLV_D, HSV_B, HSV_H, HSV_W, HSV_D, HLVX_HU, HLVX_WU) val decode_table = Seq( ECALL-> List(Y,N,N,N,N,N,N,N,N), EBREAK-> List(N,Y,N,N,N,N,N,N,N), MRET-> List(N,N,Y,N,N,N,N,N,N), CEASE-> List(N,N,N,Y,N,N,N,N,N), WFI-> List(N,N,N,N,Y,N,N,N,N)) ++ usingDebug.option( DRET-> List(N,N,Y,N,N,N,N,N,N)) ++ usingNMI.option( MNRET-> List(N,N,Y,N,N,N,N,N,N)) ++ coreParams.haveCFlush.option(CFLUSH_D_L1-> List(N,N,N,N,N,N,N,N,N)) ++ usingSupervisor.option( SRET-> List(N,N,Y,N,N,N,N,N,N)) ++ usingVM.option( SFENCE_VMA-> List(N,N,N,N,N,Y,N,N,N)) ++ usingHypervisor.option( HFENCE_VVMA-> List(N,N,N,N,N,N,Y,N,N)) ++ usingHypervisor.option( HFENCE_GVMA-> List(N,N,N,N,N,N,N,Y,N)) ++ (if (usingHypervisor) hlsv.map(_-> List(N,N,N,N,N,N,N,N,Y)) else Seq()) val insn_call :: insn_break :: insn_ret :: insn_cease :: insn_wfi :: _ :: _ :: _ :: _ :: Nil = { val insn = ECALL.value.U | (io.rw.addr << 20) DecodeLogic(insn, decode_table(0)._2.map(x=>X), decode_table).map(system_insn && _.asBool) } for (io_dec <- io.decode) { val addr = io_dec.inst(31, 20) def decodeAny(m: LinkedHashMap[Int,Bits]): Bool = m.map { case(k: Int, _: Bits) => addr === k.U }.reduce(_||_) def decodeFast(s: Seq[Int]): Bool = DecodeLogic(addr, s.map(_.U), (read_mapping -- s).keys.toList.map(_.U)) val _ :: is_break :: is_ret :: _ :: is_wfi :: is_sfence :: is_hfence_vvma :: is_hfence_gvma :: is_hlsv :: Nil = DecodeLogic(io_dec.inst, decode_table(0)._2.map(x=>X), decode_table).map(_.asBool) val is_counter = (addr.inRange(CSR.firstCtr.U, (CSR.firstCtr + CSR.nCtr).U) || addr.inRange(CSR.firstCtrH.U, (CSR.firstCtrH + CSR.nCtr).U)) val allow_wfi = (!usingSupervisor).B || reg_mstatus.prv > PRV.S.U || !reg_mstatus.tw && (!reg_mstatus.v || !reg_hstatus.vtw) val allow_sfence_vma = (!usingVM).B || reg_mstatus.prv > PRV.S.U || !Mux(reg_mstatus.v, reg_hstatus.vtvm, reg_mstatus.tvm) val allow_hfence_vvma = (!usingHypervisor).B || !reg_mstatus.v && (reg_mstatus.prv >= PRV.S.U) val allow_hlsv = (!usingHypervisor).B || !reg_mstatus.v && (reg_mstatus.prv >= PRV.S.U || reg_hstatus.hu) val allow_sret = (!usingSupervisor).B || reg_mstatus.prv > PRV.S.U || !Mux(reg_mstatus.v, reg_hstatus.vtsr, reg_mstatus.tsr) val counter_addr = addr(log2Ceil(read_mcounteren.getWidth)-1, 0) val allow_counter = (reg_mstatus.prv > PRV.S.U || read_mcounteren(counter_addr)) && (!usingSupervisor.B || reg_mstatus.prv >= PRV.S.U || read_scounteren(counter_addr)) && (!usingHypervisor.B || !reg_mstatus.v || read_hcounteren(counter_addr)) io_dec.fp_illegal := io.status.fs === 0.U || reg_mstatus.v && reg_vsstatus.fs === 0.U || !reg_misa('f'-'a') io_dec.vector_illegal := io.status.vs === 0.U || reg_mstatus.v && reg_vsstatus.vs === 0.U || !reg_misa('v'-'a') io_dec.fp_csr := decodeFast(fp_csrs.keys.toList) io_dec.vector_csr := decodeFast(vector_csrs.keys.toList) io_dec.rocc_illegal := io.status.xs === 0.U || reg_mstatus.v && reg_vsstatus.xs === 0.U || !reg_misa('x'-'a') val csr_addr_legal = reg_mstatus.prv >= CSR.mode(addr) || usingHypervisor.B && !reg_mstatus.v && reg_mstatus.prv === PRV.S.U && CSR.mode(addr) === PRV.H.U val csr_exists = decodeAny(read_mapping) io_dec.read_illegal := !csr_addr_legal || !csr_exists || ((addr === CSRs.satp.U || addr === CSRs.hgatp.U) && !allow_sfence_vma) || is_counter && !allow_counter || decodeFast(debug_csrs.keys.toList) && !reg_debug || decodeFast(vector_csrs.keys.toList) && io_dec.vector_illegal || io_dec.fp_csr && io_dec.fp_illegal io_dec.write_illegal := addr(11,10).andR io_dec.write_flush := { val addr_m = addr | (PRV.M.U << CSR.modeLSB) !(addr_m >= CSRs.mscratch.U && addr_m <= CSRs.mtval.U) } io_dec.system_illegal := !csr_addr_legal && !is_hlsv || is_wfi && !allow_wfi || is_ret && !allow_sret || is_ret && addr(10) && addr(7) && !reg_debug || (is_sfence || is_hfence_gvma) && !allow_sfence_vma || is_hfence_vvma && !allow_hfence_vvma || is_hlsv && !allow_hlsv io_dec.virtual_access_illegal := reg_mstatus.v && csr_exists && ( CSR.mode(addr) === PRV.H.U || is_counter && read_mcounteren(counter_addr) && (!read_hcounteren(counter_addr) || !reg_mstatus.prv(0) && !read_scounteren(counter_addr)) || CSR.mode(addr) === PRV.S.U && !reg_mstatus.prv(0) || addr === CSRs.satp.U && reg_mstatus.prv(0) && reg_hstatus.vtvm) io_dec.virtual_system_illegal := reg_mstatus.v && ( is_hfence_vvma || is_hfence_gvma || is_hlsv || is_wfi && (!reg_mstatus.prv(0) || !reg_mstatus.tw && reg_hstatus.vtw) || is_ret && CSR.mode(addr) === PRV.S.U && (!reg_mstatus.prv(0) || reg_hstatus.vtsr) || is_sfence && (!reg_mstatus.prv(0) || reg_hstatus.vtvm)) } val cause = Mux(insn_call, Causes.user_ecall.U + Mux(reg_mstatus.prv(0) && reg_mstatus.v, PRV.H.U, reg_mstatus.prv), Mux[UInt](insn_break, Causes.breakpoint.U, io.cause)) val cause_lsbs = cause(log2Ceil(1 + CSR.busErrorIntCause)-1, 0) val cause_deleg_lsbs = cause(log2Ceil(xLen)-1,0) val causeIsDebugInt = cause(xLen-1) && cause_lsbs === CSR.debugIntCause.U val causeIsDebugTrigger = !cause(xLen-1) && cause_lsbs === CSR.debugTriggerCause.U val causeIsDebugBreak = !cause(xLen-1) && insn_break && Cat(reg_dcsr.ebreakm, reg_dcsr.ebreakh, reg_dcsr.ebreaks, reg_dcsr.ebreaku)(reg_mstatus.prv) val trapToDebug = usingDebug.B && (reg_singleStepped || causeIsDebugInt || causeIsDebugTrigger || causeIsDebugBreak || reg_debug) val debugEntry = p(DebugModuleKey).map(_.debugEntry).getOrElse(BigInt(0x800)) val debugException = p(DebugModuleKey).map(_.debugException).getOrElse(BigInt(0x808)) val debugTVec = Mux(reg_debug, Mux(insn_break, debugEntry.U, debugException.U), debugEntry.U) val delegate = usingSupervisor.B && reg_mstatus.prv <= PRV.S.U && Mux(cause(xLen-1), read_mideleg(cause_deleg_lsbs), read_medeleg(cause_deleg_lsbs)) val delegateVS = reg_mstatus.v && delegate && Mux(cause(xLen-1), read_hideleg(cause_deleg_lsbs), read_hedeleg(cause_deleg_lsbs)) def mtvecBaseAlign = 2 def mtvecInterruptAlign = { require(reg_mip.getWidth <= xLen) log2Ceil(xLen) } val notDebugTVec = { val base = Mux(delegate, Mux(delegateVS, read_vstvec, read_stvec), read_mtvec) val interruptOffset = cause(mtvecInterruptAlign-1, 0) << mtvecBaseAlign val interruptVec = Cat(base >> (mtvecInterruptAlign + mtvecBaseAlign), interruptOffset) val doVector = base(0) && cause(cause.getWidth-1) && (cause_lsbs >> mtvecInterruptAlign) === 0.U Mux(doVector, interruptVec, base >> mtvecBaseAlign << mtvecBaseAlign) } val causeIsRnmiInt = cause(xLen-1) && cause(xLen-2) && (cause_lsbs === CSR.rnmiIntCause.U || cause_lsbs === CSR.rnmiBEUCause.U) val causeIsRnmiBEU = cause(xLen-1) && cause(xLen-2) && cause_lsbs === CSR.rnmiBEUCause.U val causeIsNmi = causeIsRnmiInt val nmiTVecInt = io.interrupts.nmi.map(nmi => nmi.rnmi_interrupt_vector).getOrElse(0.U) val nmiTVecXcpt = io.interrupts.nmi.map(nmi => nmi.rnmi_exception_vector).getOrElse(0.U) val trapToNmiInt = usingNMI.B && causeIsNmi val trapToNmiXcpt = usingNMI.B && !nmie val trapToNmi = trapToNmiInt || trapToNmiXcpt val nmiTVec = (Mux(causeIsNmi, nmiTVecInt, nmiTVecXcpt)>>1)<<1 val tvec = Mux(trapToDebug, debugTVec, Mux(trapToNmi, nmiTVec, notDebugTVec)) io.evec := tvec io.ptbr := reg_satp io.hgatp := reg_hgatp io.vsatp := reg_vsatp io.eret := insn_call || insn_break || insn_ret io.singleStep := reg_dcsr.step && !reg_debug io.status := reg_mstatus io.status.sd := io.status.fs.andR || io.status.xs.andR || io.status.vs.andR io.status.debug := reg_debug io.status.isa := reg_misa io.status.uxl := (if (usingUser) log2Ceil(xLen) - 4 else 0).U io.status.sxl := (if (usingSupervisor) log2Ceil(xLen) - 4 else 0).U io.status.dprv := Mux(reg_mstatus.mprv && !reg_debug, reg_mstatus.mpp, reg_mstatus.prv) io.status.dv := reg_mstatus.v || Mux(reg_mstatus.mprv && !reg_debug, reg_mstatus.mpv, false.B) io.status.sd_rv32 := (xLen == 32).B && io.status.sd io.status.mpv := reg_mstatus.mpv io.status.gva := reg_mstatus.gva io.hstatus := reg_hstatus io.hstatus.vsxl := (if (usingSupervisor) log2Ceil(xLen) - 4 else 0).U io.gstatus := reg_vsstatus io.gstatus.sd := io.gstatus.fs.andR || io.gstatus.xs.andR || io.gstatus.vs.andR io.gstatus.uxl := (if (usingUser) log2Ceil(xLen) - 4 else 0).U io.gstatus.sd_rv32 := (xLen == 32).B && io.gstatus.sd val exception = insn_call || insn_break || io.exception assert(PopCount(insn_ret :: insn_call :: insn_break :: io.exception :: Nil) <= 1.U, "these conditions must be mutually exclusive") when (insn_wfi && !io.singleStep && !reg_debug) { reg_wfi := true.B } when (pending_interrupts.orR || io.interrupts.debug || exception) { reg_wfi := false.B } io.interrupts.nmi.map(nmi => when (nmi.rnmi) { reg_wfi := false.B } ) when (io.retire(0) || exception) { reg_singleStepped := true.B } when (!io.singleStep) { reg_singleStepped := false.B } assert(!io.singleStep || io.retire <= 1.U) assert(!reg_singleStepped || io.retire === 0.U) val epc = formEPC(io.pc) val tval = Mux(insn_break, epc, io.tval) when (exception) { when (trapToDebug) { when (!reg_debug) { reg_mstatus.v := false.B reg_debug := true.B reg_dpc := epc reg_dcsr.cause := Mux(reg_singleStepped, 4.U, Mux(causeIsDebugInt, 3.U, Mux[UInt](causeIsDebugTrigger, 2.U, 1.U))) reg_dcsr.prv := trimPrivilege(reg_mstatus.prv) reg_dcsr.v := reg_mstatus.v new_prv := PRV.M.U } }.elsewhen (trapToNmiInt) { when (reg_rnmie) { reg_mstatus.v := false.B reg_mnstatus.mpv := reg_mstatus.v reg_rnmie := false.B reg_mnepc := epc reg_mncause := (BigInt(1) << (xLen-1)).U | Mux(causeIsRnmiBEU, 3.U, 2.U) reg_mnstatus.mpp := trimPrivilege(reg_mstatus.prv) new_prv := PRV.M.U } }.elsewhen (delegateVS && nmie) { reg_mstatus.v := true.B reg_vsstatus.spp := reg_mstatus.prv reg_vsepc := epc reg_vscause := Mux(cause(xLen-1), Cat(cause(xLen-1, 2), 1.U(2.W)), cause) reg_vstval := tval reg_vsstatus.spie := reg_vsstatus.sie reg_vsstatus.sie := false.B new_prv := PRV.S.U }.elsewhen (delegate && nmie) { reg_mstatus.v := false.B reg_hstatus.spvp := Mux(reg_mstatus.v, reg_mstatus.prv(0),reg_hstatus.spvp) reg_hstatus.gva := io.gva reg_hstatus.spv := reg_mstatus.v reg_sepc := epc reg_scause := cause reg_stval := tval reg_htval := io.htval reg_htinst_read_pseudo := io.mhtinst_read_pseudo reg_mstatus.spie := reg_mstatus.sie reg_mstatus.spp := reg_mstatus.prv reg_mstatus.sie := false.B new_prv := PRV.S.U }.otherwise { reg_mstatus.v := false.B reg_mstatus.mpv := reg_mstatus.v reg_mstatus.gva := io.gva reg_mepc := epc reg_mcause := cause reg_mtval := tval reg_mtval2 := io.htval reg_mtinst_read_pseudo := io.mhtinst_read_pseudo reg_mstatus.mpie := reg_mstatus.mie reg_mstatus.mpp := trimPrivilege(reg_mstatus.prv) reg_mstatus.mie := false.B new_prv := PRV.M.U } } for (i <- 0 until supported_interrupts.getWidth) { val en = exception && (supported_interrupts & (BigInt(1) << i).U) =/= 0.U && cause === (BigInt(1) << (xLen - 1)).U + i.U val delegable = (delegable_interrupts & (BigInt(1) << i).U) =/= 0.U property.cover(en && !delegate, s"INTERRUPT_M_$i") property.cover(en && delegable && delegate, s"INTERRUPT_S_$i") } for (i <- 0 until xLen) { val supported_exceptions: BigInt = 0x8fe | (if (usingCompressed && !coreParams.misaWritable) 0 else 1) | (if (usingUser) 0x100 else 0) | (if (usingSupervisor) 0x200 else 0) | (if (usingVM) 0xb000 else 0) if (((supported_exceptions >> i) & 1) != 0) { val en = exception && cause === i.U val delegable = (delegable_exceptions & (BigInt(1) << i).U) =/= 0.U property.cover(en && !delegate, s"EXCEPTION_M_$i") property.cover(en && delegable && delegate, s"EXCEPTION_S_$i") } } when (insn_ret) { val ret_prv = WireInit(UInt(), DontCare) when (usingSupervisor.B && !io.rw.addr(9)) { when (!reg_mstatus.v) { reg_mstatus.sie := reg_mstatus.spie reg_mstatus.spie := true.B reg_mstatus.spp := PRV.U.U ret_prv := reg_mstatus.spp reg_mstatus.v := usingHypervisor.B && reg_hstatus.spv io.evec := readEPC(reg_sepc) reg_hstatus.spv := false.B }.otherwise { reg_vsstatus.sie := reg_vsstatus.spie reg_vsstatus.spie := true.B reg_vsstatus.spp := PRV.U.U ret_prv := reg_vsstatus.spp reg_mstatus.v := usingHypervisor.B io.evec := readEPC(reg_vsepc) } }.elsewhen (usingDebug.B && io.rw.addr(10) && io.rw.addr(7)) { ret_prv := reg_dcsr.prv reg_mstatus.v := usingHypervisor.B && reg_dcsr.v && reg_dcsr.prv <= PRV.S.U reg_debug := false.B io.evec := readEPC(reg_dpc) }.elsewhen (usingNMI.B && io.rw.addr(10) && !io.rw.addr(7)) { ret_prv := reg_mnstatus.mpp reg_mstatus.v := usingHypervisor.B && reg_mnstatus.mpv && reg_mnstatus.mpp <= PRV.S.U reg_rnmie := true.B io.evec := readEPC(reg_mnepc) }.otherwise { reg_mstatus.mie := reg_mstatus.mpie reg_mstatus.mpie := true.B reg_mstatus.mpp := legalizePrivilege(PRV.U.U) reg_mstatus.mpv := false.B ret_prv := reg_mstatus.mpp reg_mstatus.v := usingHypervisor.B && reg_mstatus.mpv && reg_mstatus.mpp <= PRV.S.U io.evec := readEPC(reg_mepc) } new_prv := ret_prv when (usingUser.B && ret_prv <= PRV.S.U) { reg_mstatus.mprv := false.B } } io.time := reg_cycle io.csr_stall := reg_wfi || io.status.cease io.status.cease := RegEnable(true.B, false.B, insn_cease) io.status.wfi := reg_wfi for ((io, reg) <- io.customCSRs zip reg_custom) { io.wen := false.B io.wdata := wdata io.value := reg } for ((io, reg) <- io.roccCSRs zip reg_rocc) { io.wen := false.B io.wdata := wdata io.value := reg } io.rw.rdata := Mux1H(for ((k, v) <- read_mapping) yield decoded_addr(k) -> v) // cover access to register val coverable_counters = read_mapping.filterNot { case (k, _) => k >= CSR.firstHPC + nPerfCounters && k < CSR.firstHPC + CSR.nHPM } coverable_counters.foreach( {case (k, v) => { when (!k.U(11,10).andR) { // Cover points for RW CSR registers property.cover(io.rw.cmd.isOneOf(CSR.W, CSR.S, CSR.C) && io.rw.addr===k.U, "CSR_access_"+k.toString, "Cover Accessing Core CSR field") } .otherwise { // Cover points for RO CSR registers property.cover(io.rw.cmd===CSR.R && io.rw.addr===k.U, "CSR_access_"+k.toString, "Cover Accessing Core CSR field") } }}) val set_vs_dirty = WireDefault(io.vector.map(_.set_vs_dirty).getOrElse(false.B)) io.vector.foreach { vio => when (set_vs_dirty) { assert(reg_mstatus.vs > 0.U) when (reg_mstatus.v) { reg_vsstatus.vs := 3.U } reg_mstatus.vs := 3.U } } val set_fs_dirty = WireDefault(io.set_fs_dirty.getOrElse(false.B)) if (coreParams.haveFSDirty) { when (set_fs_dirty) { assert(reg_mstatus.fs > 0.U) when (reg_mstatus.v) { reg_vsstatus.fs := 3.U } reg_mstatus.fs := 3.U } } io.fcsr_rm := reg_frm when (io.fcsr_flags.valid) { reg_fflags := reg_fflags | io.fcsr_flags.bits set_fs_dirty := true.B } io.vector.foreach { vio => when (vio.set_vxsat) { reg_vxsat.get := true.B set_vs_dirty := true.B } } val csr_wen = io.rw.cmd.isOneOf(CSR.S, CSR.C, CSR.W) && !io.rw_stall io.csrw_counter := Mux(coreParams.haveBasicCounters.B && csr_wen && (io.rw.addr.inRange(CSRs.mcycle.U, (CSRs.mcycle + CSR.nCtr).U) || io.rw.addr.inRange(CSRs.mcycleh.U, (CSRs.mcycleh + CSR.nCtr).U)), UIntToOH(io.rw.addr(log2Ceil(CSR.nCtr+nPerfCounters)-1, 0)), 0.U) when (csr_wen) { val scause_mask = ((BigInt(1) << (xLen-1)) + 31).U /* only implement 5 LSBs and MSB */ val satp_valid_modes = 0 +: (minPgLevels to pgLevels).map(new PTBR().pgLevelsToMode(_)) when (decoded_addr(CSRs.mstatus)) { val new_mstatus = wdata.asTypeOf(new MStatus()) reg_mstatus.mie := new_mstatus.mie reg_mstatus.mpie := new_mstatus.mpie if (usingUser) { reg_mstatus.mprv := new_mstatus.mprv reg_mstatus.mpp := legalizePrivilege(new_mstatus.mpp) if (usingSupervisor) { reg_mstatus.spp := new_mstatus.spp reg_mstatus.spie := new_mstatus.spie reg_mstatus.sie := new_mstatus.sie reg_mstatus.tw := new_mstatus.tw reg_mstatus.tsr := new_mstatus.tsr } if (usingVM) { reg_mstatus.mxr := new_mstatus.mxr reg_mstatus.sum := new_mstatus.sum reg_mstatus.tvm := new_mstatus.tvm } if (usingHypervisor) { reg_mstatus.mpv := new_mstatus.mpv reg_mstatus.gva := new_mstatus.gva } } if (usingSupervisor || usingFPU) reg_mstatus.fs := formFS(new_mstatus.fs) reg_mstatus.vs := formVS(new_mstatus.vs) } when (decoded_addr(CSRs.misa)) { val mask = isaStringToMask(isaMaskString).U(xLen.W) val f = wdata('f' - 'a') // suppress write if it would cause the next fetch to be misaligned when (!usingCompressed.B || !io.pc(1) || wdata('c' - 'a')) { if (coreParams.misaWritable) reg_misa := ~(~wdata | (!f << ('d' - 'a'))) & mask | reg_misa & ~mask } } when (decoded_addr(CSRs.mip)) { // MIP should be modified based on the value in reg_mip, not the value // in read_mip, since read_mip.seip is the OR of reg_mip.seip and // io.interrupts.seip. We don't want the value on the PLIC line to // inadvertently be OR'd into read_mip.seip. val new_mip = readModifyWriteCSR(io.rw.cmd, reg_mip.asUInt, io.rw.wdata).asTypeOf(new MIP) if (usingSupervisor) { reg_mip.ssip := new_mip.ssip reg_mip.stip := new_mip.stip reg_mip.seip := new_mip.seip } if (usingHypervisor) { reg_mip.vssip := new_mip.vssip } } when (decoded_addr(CSRs.mie)) { reg_mie := wdata & supported_interrupts } when (decoded_addr(CSRs.mepc)) { reg_mepc := formEPC(wdata) } when (decoded_addr(CSRs.mscratch)) { reg_mscratch := wdata } if (mtvecWritable) when (decoded_addr(CSRs.mtvec)) { reg_mtvec := wdata } when (decoded_addr(CSRs.mcause)) { reg_mcause := wdata & ((BigInt(1) << (xLen-1)) + (BigInt(1) << whichInterrupt.getWidth) - 1).U } when (decoded_addr(CSRs.mtval)) { reg_mtval := wdata } if (usingNMI) { val new_mnstatus = wdata.asTypeOf(new MNStatus()) when (decoded_addr(CustomCSRs.mnscratch)) { reg_mnscratch := wdata } when (decoded_addr(CustomCSRs.mnepc)) { reg_mnepc := formEPC(wdata) } when (decoded_addr(CustomCSRs.mncause)) { reg_mncause := wdata & ((BigInt(1) << (xLen-1)) + BigInt(3)).U } when (decoded_addr(CustomCSRs.mnstatus)) { reg_mnstatus.mpp := legalizePrivilege(new_mnstatus.mpp) reg_mnstatus.mpv := usingHypervisor.B && new_mnstatus.mpv reg_rnmie := reg_rnmie | new_mnstatus.mie // mnie bit settable but not clearable from software } } for (((e, c), i) <- (reg_hpmevent zip reg_hpmcounter).zipWithIndex) { writeCounter(i + CSR.firstMHPC, c, wdata) when (decoded_addr(i + CSR.firstHPE)) { e := perfEventSets.maskEventSelector(wdata) } } if (coreParams.haveBasicCounters) { when (decoded_addr(CSRs.mcountinhibit)) { reg_mcountinhibit := wdata & ~2.U(xLen.W) } // mcountinhibit bit [1] is tied zero writeCounter(CSRs.mcycle, reg_cycle, wdata) writeCounter(CSRs.minstret, reg_instret, wdata) } if (usingFPU) { when (decoded_addr(CSRs.fflags)) { set_fs_dirty := true.B; reg_fflags := wdata } when (decoded_addr(CSRs.frm)) { set_fs_dirty := true.B; reg_frm := wdata } when (decoded_addr(CSRs.fcsr)) { set_fs_dirty := true.B reg_fflags := wdata reg_frm := wdata >> reg_fflags.getWidth } } if (usingDebug) { when (decoded_addr(CSRs.dcsr)) { val new_dcsr = wdata.asTypeOf(new DCSR()) reg_dcsr.step := new_dcsr.step reg_dcsr.ebreakm := new_dcsr.ebreakm if (usingSupervisor) reg_dcsr.ebreaks := new_dcsr.ebreaks if (usingUser) reg_dcsr.ebreaku := new_dcsr.ebreaku if (usingUser) reg_dcsr.prv := legalizePrivilege(new_dcsr.prv) if (usingHypervisor) reg_dcsr.v := new_dcsr.v } when (decoded_addr(CSRs.dpc)) { reg_dpc := formEPC(wdata) } when (decoded_addr(CSRs.dscratch0)) { reg_dscratch0 := wdata } reg_dscratch1.foreach { r => when (decoded_addr(CSRs.dscratch1)) { r := wdata } } } if (usingSupervisor) { when (decoded_addr(CSRs.sstatus)) { val new_sstatus = wdata.asTypeOf(new MStatus()) reg_mstatus.sie := new_sstatus.sie reg_mstatus.spie := new_sstatus.spie reg_mstatus.spp := new_sstatus.spp reg_mstatus.fs := formFS(new_sstatus.fs) reg_mstatus.vs := formVS(new_sstatus.vs) if (usingVM) { reg_mstatus.mxr := new_sstatus.mxr reg_mstatus.sum := new_sstatus.sum } } when (decoded_addr(CSRs.sip)) { val new_sip = ((read_mip & ~read_mideleg) | (wdata & read_mideleg)).asTypeOf(new MIP()) reg_mip.ssip := new_sip.ssip } when (decoded_addr(CSRs.satp)) { if (usingVM) { val new_satp = wdata.asTypeOf(new PTBR()) when (new_satp.mode.isOneOf(satp_valid_modes.map(_.U))) { reg_satp.mode := new_satp.mode & satp_valid_modes.reduce(_|_).U reg_satp.ppn := new_satp.ppn(ppnBits-1,0) if (asIdBits > 0) reg_satp.asid := new_satp.asid(asIdBits-1,0) } } } when (decoded_addr(CSRs.sie)) { reg_mie := (reg_mie & ~sie_mask) | (wdata & sie_mask) } when (decoded_addr(CSRs.sscratch)) { reg_sscratch := wdata } when (decoded_addr(CSRs.sepc)) { reg_sepc := formEPC(wdata) } when (decoded_addr(CSRs.stvec)) { reg_stvec := wdata } when (decoded_addr(CSRs.scause)) { reg_scause := wdata & scause_mask } when (decoded_addr(CSRs.stval)) { reg_stval := wdata } when (decoded_addr(CSRs.mideleg)) { reg_mideleg := wdata } when (decoded_addr(CSRs.medeleg)) { reg_medeleg := wdata } when (decoded_addr(CSRs.scounteren)) { reg_scounteren := wdata } when (decoded_addr(CSRs.senvcfg)) { reg_senvcfg.write(wdata) } } if (usingHypervisor) { when (decoded_addr(CSRs.hstatus)) { val new_hstatus = wdata.asTypeOf(new HStatus()) reg_hstatus.gva := new_hstatus.gva reg_hstatus.spv := new_hstatus.spv reg_hstatus.spvp := new_hstatus.spvp reg_hstatus.hu := new_hstatus.hu reg_hstatus.vtvm := new_hstatus.vtvm reg_hstatus.vtw := new_hstatus.vtw reg_hstatus.vtsr := new_hstatus.vtsr reg_hstatus.vsxl := new_hstatus.vsxl } when (decoded_addr(CSRs.hideleg)) { reg_hideleg := wdata } when (decoded_addr(CSRs.hedeleg)) { reg_hedeleg := wdata } when (decoded_addr(CSRs.hgatp)) { val new_hgatp = wdata.asTypeOf(new PTBR()) val valid_modes = 0 +: (minPgLevels to pgLevels).map(new_hgatp.pgLevelsToMode(_)) when (new_hgatp.mode.isOneOf(valid_modes.map(_.U))) { reg_hgatp.mode := new_hgatp.mode & valid_modes.reduce(_|_).U } reg_hgatp.ppn := Cat(new_hgatp.ppn(ppnBits-1,2), 0.U(2.W)) if (vmIdBits > 0) reg_hgatp.asid := new_hgatp.asid(vmIdBits-1,0) } when (decoded_addr(CSRs.hip)) { val new_hip = ((read_mip & ~hs_delegable_interrupts) | (wdata & hs_delegable_interrupts)).asTypeOf(new MIP()) reg_mip.vssip := new_hip.vssip } when (decoded_addr(CSRs.hie)) { reg_mie := (reg_mie & ~hs_delegable_interrupts) | (wdata & hs_delegable_interrupts) } when (decoded_addr(CSRs.hvip)) { val new_sip = ((read_mip & ~hs_delegable_interrupts) | (wdata & hs_delegable_interrupts)).asTypeOf(new MIP()) reg_mip.vssip := new_sip.vssip reg_mip.vstip := new_sip.vstip reg_mip.vseip := new_sip.vseip } when (decoded_addr(CSRs.hcounteren)) { reg_hcounteren := wdata } when (decoded_addr(CSRs.htval)) { reg_htval := wdata } when (decoded_addr(CSRs.mtval2)) { reg_mtval2 := wdata } val write_mhtinst_read_pseudo = wdata(13) && (xLen == 32).option(true.B).getOrElse(wdata(12)) when(decoded_addr(CSRs.mtinst)) { reg_mtinst_read_pseudo := write_mhtinst_read_pseudo } when(decoded_addr(CSRs.htinst)) { reg_htinst_read_pseudo := write_mhtinst_read_pseudo } when (decoded_addr(CSRs.vsstatus)) { val new_vsstatus = wdata.asTypeOf(new MStatus()) reg_vsstatus.sie := new_vsstatus.sie reg_vsstatus.spie := new_vsstatus.spie reg_vsstatus.spp := new_vsstatus.spp reg_vsstatus.mxr := new_vsstatus.mxr reg_vsstatus.sum := new_vsstatus.sum reg_vsstatus.fs := formFS(new_vsstatus.fs) reg_vsstatus.vs := formVS(new_vsstatus.vs) } when (decoded_addr(CSRs.vsip)) { val new_vsip = ((read_hip & ~read_hideleg) | ((wdata << 1) & read_hideleg)).asTypeOf(new MIP()) reg_mip.vssip := new_vsip.vssip } when (decoded_addr(CSRs.vsatp)) { val new_vsatp = wdata.asTypeOf(new PTBR()) val mode_ok = new_vsatp.mode.isOneOf(satp_valid_modes.map(_.U)) when (mode_ok) { reg_vsatp.mode := new_vsatp.mode & satp_valid_modes.reduce(_|_).U } when (mode_ok || !reg_mstatus.v) { reg_vsatp.ppn := new_vsatp.ppn(vpnBits.min(new_vsatp.ppn.getWidth)-1,0) if (asIdBits > 0) reg_vsatp.asid := new_vsatp.asid(asIdBits-1,0) } } when (decoded_addr(CSRs.vsie)) { reg_mie := (reg_mie & ~read_hideleg) | ((wdata << 1) & read_hideleg) } when (decoded_addr(CSRs.vsscratch)) { reg_vsscratch := wdata } when (decoded_addr(CSRs.vsepc)) { reg_vsepc := formEPC(wdata) } when (decoded_addr(CSRs.vstvec)) { reg_vstvec := wdata } when (decoded_addr(CSRs.vscause)) { reg_vscause := wdata & scause_mask } when (decoded_addr(CSRs.vstval)) { reg_vstval := wdata } when (decoded_addr(CSRs.henvcfg)) { reg_henvcfg.write(wdata) } } if (usingUser) { when (decoded_addr(CSRs.mcounteren)) { reg_mcounteren := wdata } when (decoded_addr(CSRs.menvcfg)) { reg_menvcfg.write(wdata) } } if (nBreakpoints > 0) { when (decoded_addr(CSRs.tselect)) { reg_tselect := wdata } for ((bp, i) <- reg_bp.zipWithIndex) { when (i.U === reg_tselect && (!bp.control.dmode || reg_debug)) { when (decoded_addr(CSRs.tdata2)) { bp.address := wdata } when (decoded_addr(CSRs.tdata3)) { if (coreParams.mcontextWidth > 0) { bp.textra.mselect := wdata(bp.textra.mselectPos) bp.textra.mvalue := wdata >> bp.textra.mvaluePos } if (coreParams.scontextWidth > 0) { bp.textra.sselect := wdata(bp.textra.sselectPos) bp.textra.svalue := wdata >> bp.textra.svaluePos } } when (decoded_addr(CSRs.tdata1)) { bp.control := wdata.asTypeOf(bp.control) val prevChain = if (i == 0) false.B else reg_bp(i-1).control.chain val prevDMode = if (i == 0) false.B else reg_bp(i-1).control.dmode val nextChain = if (i >= nBreakpoints-1) true.B else reg_bp(i+1).control.chain val nextDMode = if (i >= nBreakpoints-1) true.B else reg_bp(i+1).control.dmode val newBPC = readModifyWriteCSR(io.rw.cmd, bp.control.asUInt, io.rw.wdata).asTypeOf(bp.control) val dMode = newBPC.dmode && reg_debug && (prevDMode || !prevChain) bp.control.dmode := dMode when (dMode || (newBPC.action > 1.U)) { bp.control.action := newBPC.action }.otherwise { bp.control.action := 0.U } bp.control.chain := newBPC.chain && !(prevChain || nextChain) && (dMode || !nextDMode) } } } } reg_mcontext.foreach { r => when (decoded_addr(CSRs.mcontext)) { r := wdata }} reg_scontext.foreach { r => when (decoded_addr(CSRs.scontext)) { r := wdata }} if (reg_pmp.nonEmpty) for (((pmp, next), i) <- (reg_pmp zip (reg_pmp.tail :+ reg_pmp.last)).zipWithIndex) { require(xLen % pmp.cfg.getWidth == 0) when (decoded_addr(CSRs.pmpcfg0 + pmpCfgIndex(i)) && !pmp.cfgLocked) { val newCfg = (wdata >> ((i * pmp.cfg.getWidth) % xLen)).asTypeOf(new PMPConfig()) pmp.cfg := newCfg // disallow unreadable but writable PMPs pmp.cfg.w := newCfg.w && newCfg.r // can't select a=NA4 with coarse-grained PMPs if (pmpGranularity.log2 > PMP.lgAlign) pmp.cfg.a := Cat(newCfg.a(1), newCfg.a.orR) } when (decoded_addr(CSRs.pmpaddr0 + i) && !pmp.addrLocked(next)) { pmp.addr := wdata } } def writeCustomCSR(io: CustomCSRIO, csr: CustomCSR, reg: UInt) = { val mask = csr.mask.U(xLen.W) when (decoded_addr(csr.id)) { reg := (wdata & mask) | (reg & ~mask) io.wen := true.B } } for ((io, csr, reg) <- (io.customCSRs, customCSRs, reg_custom).zipped) { writeCustomCSR(io, csr, reg) } for ((io, csr, reg) <- (io.roccCSRs, roccCSRs, reg_rocc).zipped) { writeCustomCSR(io, csr, reg) } if (usingVector) { when (decoded_addr(CSRs.vstart)) { set_vs_dirty := true.B; reg_vstart.get := wdata } when (decoded_addr(CSRs.vxrm)) { set_vs_dirty := true.B; reg_vxrm.get := wdata } when (decoded_addr(CSRs.vxsat)) { set_vs_dirty := true.B; reg_vxsat.get := wdata } when (decoded_addr(CSRs.vcsr)) { set_vs_dirty := true.B reg_vxsat.get := wdata reg_vxrm.get := wdata >> 1 } } } def setCustomCSR(io: CustomCSRIO, csr: CustomCSR, reg: UInt) = { val mask = csr.mask.U(xLen.W) when (io.set) { reg := (io.sdata & mask) | (reg & ~mask) } } for ((io, csr, reg) <- (io.customCSRs, customCSRs, reg_custom).zipped) { setCustomCSR(io, csr, reg) } for ((io, csr, reg) <- (io.roccCSRs, roccCSRs, reg_rocc).zipped) { setCustomCSR(io, csr, reg) } io.vector.map { vio => when (vio.set_vconfig.valid) { // user of CSRFile is responsible for set_vs_dirty in this case assert(vio.set_vconfig.bits.vl <= vio.set_vconfig.bits.vtype.vlMax) reg_vconfig.get := vio.set_vconfig.bits } when (vio.set_vstart.valid) { set_vs_dirty := true.B reg_vstart.get := vio.set_vstart.bits } vio.vstart := reg_vstart.get vio.vconfig := reg_vconfig.get vio.vxrm := reg_vxrm.get when (reset.asBool) { reg_vconfig.get.vl := 0.U reg_vconfig.get.vtype := 0.U.asTypeOf(new VType) reg_vconfig.get.vtype.vill := true.B } } when(reset.asBool) { reg_satp.mode := 0.U reg_vsatp.mode := 0.U reg_hgatp.mode := 0.U } if (!usingVM) { reg_satp.mode := 0.U reg_satp.ppn := 0.U reg_satp.asid := 0.U } if (!usingHypervisor) { reg_vsatp.mode := 0.U reg_vsatp.ppn := 0.U reg_vsatp.asid := 0.U reg_hgatp.mode := 0.U reg_hgatp.ppn := 0.U reg_hgatp.asid := 0.U } if (!(asIdBits > 0)) { reg_satp.asid := 0.U reg_vsatp.asid := 0.U } if (!(vmIdBits > 0)) { reg_hgatp.asid := 0.U } reg_vsstatus.xs := (if (usingRoCC) 3.U else 0.U) if (nBreakpoints <= 1) reg_tselect := 0.U for (bpc <- reg_bp map {_.control}) { bpc.ttype := bpc.tType.U bpc.maskmax := bpc.maskMax.U bpc.reserved := 0.U bpc.zero := 0.U bpc.h := false.B if (!usingSupervisor) bpc.s := false.B if (!usingUser) bpc.u := false.B if (!usingSupervisor && !usingUser) bpc.m := true.B when (reset.asBool) { bpc.action := 0.U bpc.dmode := false.B bpc.chain := false.B bpc.r := false.B bpc.w := false.B bpc.x := false.B } } for (bpx <- reg_bp map {_.textra}) { if (coreParams.mcontextWidth == 0) bpx.mselect := false.B if (coreParams.scontextWidth == 0) bpx.sselect := false.B } for (bp <- reg_bp drop nBreakpoints) bp := 0.U.asTypeOf(new BP()) for (pmp <- reg_pmp) { pmp.cfg.res := 0.U when (reset.asBool) { pmp.reset() } } for (((t, insn), i) <- (io.trace zip io.inst).zipWithIndex) { t.exception := io.retire >= i.U && exception t.valid := io.retire > i.U || t.exception t.insn := insn t.iaddr := io.pc t.priv := Cat(reg_debug, reg_mstatus.prv) t.cause := cause t.interrupt := cause(xLen-1) t.tval := io.tval t.wdata.foreach(_ := DontCare) } def chooseInterrupt(masksIn: Seq[UInt]): (Bool, UInt) = { val nonstandard = supported_interrupts.getWidth-1 to 12 by -1 // MEI, MSI, MTI, SEI, SSI, STI, VSEI, VSSI, VSTI, UEI, USI, UTI val standard = Seq(11, 3, 7, 9, 1, 5, 10, 2, 6, 8, 0, 4) val priority = nonstandard ++ standard val masks = masksIn.reverse val any = masks.flatMap(m => priority.filter(_ < m.getWidth).map(i => m(i))).reduce(_||_) val which = PriorityMux(masks.flatMap(m => priority.filter(_ < m.getWidth).map(i => (m(i), i.U)))) (any, which) } def readModifyWriteCSR(cmd: UInt, rdata: UInt, wdata: UInt) = { (Mux(cmd(1), rdata, 0.U) | wdata) & ~Mux(cmd(1,0).andR, wdata, 0.U) } def legalizePrivilege(priv: UInt): UInt = if (usingSupervisor) Mux(priv === PRV.H.U, PRV.U.U, priv) else if (usingUser) Fill(2, priv(0)) else PRV.M.U def trimPrivilege(priv: UInt): UInt = if (usingSupervisor) priv else legalizePrivilege(priv) def writeCounter(lo: Int, ctr: WideCounter, wdata: UInt) = { if (xLen == 32) { val hi = lo + CSRs.mcycleh - CSRs.mcycle when (decoded_addr(lo)) { ctr := Cat(ctr(ctr.getWidth-1, 32), wdata) } when (decoded_addr(hi)) { ctr := Cat(wdata(ctr.getWidth-33, 0), ctr(31, 0)) } } else { when (decoded_addr(lo)) { ctr := wdata(ctr.getWidth-1, 0) } } } def formEPC(x: UInt) = ~(~x | (if (usingCompressed) 1.U else 3.U)) def readEPC(x: UInt) = ~(~x | Mux(reg_misa('c' - 'a'), 1.U, 3.U)) def formTVec(x: UInt) = x andNot Mux(x(0), ((((BigInt(1) << mtvecInterruptAlign) - 1) << mtvecBaseAlign) | 2).U, 2.U) def isaStringToMask(s: String) = s.map(x => 1 << (x - 'A')).foldLeft(0)(_|_) def formFS(fs: UInt) = if (coreParams.haveFSDirty) fs else Fill(2, fs.orR) def formVS(vs: UInt) = if (usingVector) vs else 0.U }
module CSRFile( // @[CSR.scala:377:7] input clock, // @[CSR.scala:377:7] input reset, // @[CSR.scala:377:7] input io_ungated_clock, // @[CSR.scala:384:14] input io_interrupts_debug, // @[CSR.scala:384:14] input io_interrupts_mtip, // @[CSR.scala:384:14] input io_interrupts_msip, // @[CSR.scala:384:14] input io_interrupts_meip, // @[CSR.scala:384:14] input io_interrupts_seip, // @[CSR.scala:384:14] input io_hartid, // @[CSR.scala:384:14] input [11:0] io_rw_addr, // @[CSR.scala:384:14] input [2:0] io_rw_cmd, // @[CSR.scala:384:14] output [63:0] io_rw_rdata, // @[CSR.scala:384:14] input [63:0] io_rw_wdata, // @[CSR.scala:384:14] input [31:0] io_decode_0_inst, // @[CSR.scala:384:14] output io_decode_0_fp_illegal, // @[CSR.scala:384:14] output io_decode_0_fp_csr, // @[CSR.scala:384:14] output io_decode_0_read_illegal, // @[CSR.scala:384:14] output io_decode_0_write_illegal, // @[CSR.scala:384:14] output io_decode_0_write_flush, // @[CSR.scala:384:14] output io_decode_0_system_illegal, // @[CSR.scala:384:14] output io_decode_0_virtual_access_illegal, // @[CSR.scala:384:14] output io_decode_0_virtual_system_illegal, // @[CSR.scala:384:14] input [31:0] io_decode_1_inst, // @[CSR.scala:384:14] output io_decode_1_fp_illegal, // @[CSR.scala:384:14] output io_decode_1_fp_csr, // @[CSR.scala:384:14] output io_decode_1_read_illegal, // @[CSR.scala:384:14] output io_decode_1_write_illegal, // @[CSR.scala:384:14] output io_decode_1_write_flush, // @[CSR.scala:384:14] output io_decode_1_system_illegal, // @[CSR.scala:384:14] output io_decode_1_virtual_access_illegal, // @[CSR.scala:384:14] output io_decode_1_virtual_system_illegal, // @[CSR.scala:384:14] input [31:0] io_decode_2_inst, // @[CSR.scala:384:14] output io_decode_2_fp_illegal, // @[CSR.scala:384:14] output io_decode_2_fp_csr, // @[CSR.scala:384:14] output io_decode_2_read_illegal, // @[CSR.scala:384:14] output io_decode_2_write_illegal, // @[CSR.scala:384:14] output io_decode_2_write_flush, // @[CSR.scala:384:14] output io_decode_2_system_illegal, // @[CSR.scala:384:14] output io_decode_2_virtual_access_illegal, // @[CSR.scala:384:14] output io_decode_2_virtual_system_illegal, // @[CSR.scala:384:14] output io_csr_stall, // @[CSR.scala:384:14] output io_singleStep, // @[CSR.scala:384:14] output io_status_debug, // @[CSR.scala:384:14] output io_status_cease, // @[CSR.scala:384:14] output io_status_wfi, // @[CSR.scala:384:14] output [1:0] io_status_dprv, // @[CSR.scala:384:14] output io_status_dv, // @[CSR.scala:384:14] output [1:0] io_status_prv, // @[CSR.scala:384:14] output io_status_v, // @[CSR.scala:384:14] output io_status_sd, // @[CSR.scala:384:14] output io_status_mpv, // @[CSR.scala:384:14] output io_status_gva, // @[CSR.scala:384:14] output io_status_tsr, // @[CSR.scala:384:14] output io_status_tw, // @[CSR.scala:384:14] output io_status_tvm, // @[CSR.scala:384:14] output io_status_mxr, // @[CSR.scala:384:14] output io_status_sum, // @[CSR.scala:384:14] output io_status_mprv, // @[CSR.scala:384:14] output [1:0] io_status_fs, // @[CSR.scala:384:14] output [1:0] io_status_mpp, // @[CSR.scala:384:14] output io_status_spp, // @[CSR.scala:384:14] output io_status_mpie, // @[CSR.scala:384:14] output io_status_spie, // @[CSR.scala:384:14] output io_status_mie, // @[CSR.scala:384:14] output io_status_sie, // @[CSR.scala:384:14] output [3:0] io_ptbr_mode, // @[CSR.scala:384:14] output [43:0] io_ptbr_ppn, // @[CSR.scala:384:14] output [39:0] io_evec, // @[CSR.scala:384:14] input io_exception, // @[CSR.scala:384:14] input [1:0] io_retire, // @[CSR.scala:384:14] input [63:0] io_cause, // @[CSR.scala:384:14] input [39:0] io_pc, // @[CSR.scala:384:14] input [39:0] io_tval, // @[CSR.scala:384:14] output [63:0] io_time, // @[CSR.scala:384:14] output [2:0] io_fcsr_rm, // @[CSR.scala:384:14] input io_fcsr_flags_valid, // @[CSR.scala:384:14] input [4:0] io_fcsr_flags_bits, // @[CSR.scala:384:14] input io_set_fs_dirty, // @[CSR.scala:384:14] output io_interrupt, // @[CSR.scala:384:14] output [63:0] io_interrupt_cause, // @[CSR.scala:384:14] output io_pmp_0_cfg_l, // @[CSR.scala:384:14] output [1:0] io_pmp_0_cfg_a, // @[CSR.scala:384:14] output io_pmp_0_cfg_x, // @[CSR.scala:384:14] output io_pmp_0_cfg_w, // @[CSR.scala:384:14] output io_pmp_0_cfg_r, // @[CSR.scala:384:14] output [29:0] io_pmp_0_addr, // @[CSR.scala:384:14] output [31:0] io_pmp_0_mask, // @[CSR.scala:384:14] output io_pmp_1_cfg_l, // @[CSR.scala:384:14] output [1:0] io_pmp_1_cfg_a, // @[CSR.scala:384:14] output io_pmp_1_cfg_x, // @[CSR.scala:384:14] output io_pmp_1_cfg_w, // @[CSR.scala:384:14] output io_pmp_1_cfg_r, // @[CSR.scala:384:14] output [29:0] io_pmp_1_addr, // @[CSR.scala:384:14] output [31:0] io_pmp_1_mask, // @[CSR.scala:384:14] output io_pmp_2_cfg_l, // @[CSR.scala:384:14] output [1:0] io_pmp_2_cfg_a, // @[CSR.scala:384:14] output io_pmp_2_cfg_x, // @[CSR.scala:384:14] output io_pmp_2_cfg_w, // @[CSR.scala:384:14] output io_pmp_2_cfg_r, // @[CSR.scala:384:14] output [29:0] io_pmp_2_addr, // @[CSR.scala:384:14] output [31:0] io_pmp_2_mask, // @[CSR.scala:384:14] output io_pmp_3_cfg_l, // @[CSR.scala:384:14] output [1:0] io_pmp_3_cfg_a, // @[CSR.scala:384:14] output io_pmp_3_cfg_x, // @[CSR.scala:384:14] output io_pmp_3_cfg_w, // @[CSR.scala:384:14] output io_pmp_3_cfg_r, // @[CSR.scala:384:14] output [29:0] io_pmp_3_addr, // @[CSR.scala:384:14] output [31:0] io_pmp_3_mask, // @[CSR.scala:384:14] output io_pmp_4_cfg_l, // @[CSR.scala:384:14] output [1:0] io_pmp_4_cfg_a, // @[CSR.scala:384:14] output io_pmp_4_cfg_x, // @[CSR.scala:384:14] output io_pmp_4_cfg_w, // @[CSR.scala:384:14] output io_pmp_4_cfg_r, // @[CSR.scala:384:14] output [29:0] io_pmp_4_addr, // @[CSR.scala:384:14] output [31:0] io_pmp_4_mask, // @[CSR.scala:384:14] output io_pmp_5_cfg_l, // @[CSR.scala:384:14] output [1:0] io_pmp_5_cfg_a, // @[CSR.scala:384:14] output io_pmp_5_cfg_x, // @[CSR.scala:384:14] output io_pmp_5_cfg_w, // @[CSR.scala:384:14] output io_pmp_5_cfg_r, // @[CSR.scala:384:14] output [29:0] io_pmp_5_addr, // @[CSR.scala:384:14] output [31:0] io_pmp_5_mask, // @[CSR.scala:384:14] output io_pmp_6_cfg_l, // @[CSR.scala:384:14] output [1:0] io_pmp_6_cfg_a, // @[CSR.scala:384:14] output io_pmp_6_cfg_x, // @[CSR.scala:384:14] output io_pmp_6_cfg_w, // @[CSR.scala:384:14] output io_pmp_6_cfg_r, // @[CSR.scala:384:14] output [29:0] io_pmp_6_addr, // @[CSR.scala:384:14] output [31:0] io_pmp_6_mask, // @[CSR.scala:384:14] output io_pmp_7_cfg_l, // @[CSR.scala:384:14] output [1:0] io_pmp_7_cfg_a, // @[CSR.scala:384:14] output io_pmp_7_cfg_x, // @[CSR.scala:384:14] output io_pmp_7_cfg_w, // @[CSR.scala:384:14] output io_pmp_7_cfg_r, // @[CSR.scala:384:14] output [29:0] io_pmp_7_addr, // @[CSR.scala:384:14] output [31:0] io_pmp_7_mask, // @[CSR.scala:384:14] output io_customCSRs_0_ren, // @[CSR.scala:384:14] output io_customCSRs_0_wen, // @[CSR.scala:384:14] output [63:0] io_customCSRs_0_wdata, // @[CSR.scala:384:14] output [63:0] io_customCSRs_0_value, // @[CSR.scala:384:14] output io_customCSRs_1_ren, // @[CSR.scala:384:14] output io_customCSRs_1_wen, // @[CSR.scala:384:14] output [63:0] io_customCSRs_1_wdata, // @[CSR.scala:384:14] output [63:0] io_customCSRs_1_value // @[CSR.scala:384:14] ); wire io_status_sie_0; // @[CSR.scala:377:7] wire io_status_spie_0; // @[CSR.scala:377:7] wire io_status_spp_0; // @[CSR.scala:377:7] wire [1:0] io_status_fs_0; // @[CSR.scala:377:7] wire io_status_sum_0; // @[CSR.scala:377:7] wire io_status_mxr_0; // @[CSR.scala:377:7] wire io_status_sd_0; // @[CSR.scala:377:7] wire io_ungated_clock_0 = io_ungated_clock; // @[CSR.scala:377:7] wire io_interrupts_debug_0 = io_interrupts_debug; // @[CSR.scala:377:7] wire io_interrupts_mtip_0 = io_interrupts_mtip; // @[CSR.scala:377:7] wire io_interrupts_msip_0 = io_interrupts_msip; // @[CSR.scala:377:7] wire io_interrupts_meip_0 = io_interrupts_meip; // @[CSR.scala:377:7] wire io_interrupts_seip_0 = io_interrupts_seip; // @[CSR.scala:377:7] wire io_hartid_0 = io_hartid; // @[CSR.scala:377:7] wire [11:0] io_rw_addr_0 = io_rw_addr; // @[CSR.scala:377:7] wire [2:0] io_rw_cmd_0 = io_rw_cmd; // @[CSR.scala:377:7] wire [63:0] io_rw_wdata_0 = io_rw_wdata; // @[CSR.scala:377:7] wire [31:0] io_decode_0_inst_0 = io_decode_0_inst; // @[CSR.scala:377:7] wire [31:0] io_decode_1_inst_0 = io_decode_1_inst; // @[CSR.scala:377:7] wire [31:0] io_decode_2_inst_0 = io_decode_2_inst; // @[CSR.scala:377:7] wire io_exception_0 = io_exception; // @[CSR.scala:377:7] wire [1:0] io_retire_0 = io_retire; // @[CSR.scala:377:7] wire [63:0] io_cause_0 = io_cause; // @[CSR.scala:377:7] wire [39:0] io_pc_0 = io_pc; // @[CSR.scala:377:7] wire [39:0] io_tval_0 = io_tval; // @[CSR.scala:377:7] wire io_fcsr_flags_valid_0 = io_fcsr_flags_valid; // @[CSR.scala:377:7] wire [4:0] io_fcsr_flags_bits_0 = io_fcsr_flags_bits; // @[CSR.scala:377:7] wire io_set_fs_dirty_0 = io_set_fs_dirty; // @[CSR.scala:377:7] wire io_decode_0_vector_illegal = 1'h1; // @[CSR.scala:377:7] wire io_decode_0_rocc_illegal = 1'h1; // @[CSR.scala:377:7] wire io_decode_1_vector_illegal = 1'h1; // @[CSR.scala:377:7] wire io_decode_1_rocc_illegal = 1'h1; // @[CSR.scala:377:7] wire io_decode_2_vector_illegal = 1'h1; // @[CSR.scala:377:7] wire io_decode_2_rocc_illegal = 1'h1; // @[CSR.scala:377:7] wire io_gstatus_sd = 1'h1; // @[CSR.scala:377:7] wire sup_meip = 1'h1; // @[CSR.scala:406:19] wire sup_seip = 1'h1; // @[CSR.scala:406:19] wire sup_mtip = 1'h1; // @[CSR.scala:406:19] wire sup_stip = 1'h1; // @[CSR.scala:406:19] wire sup_msip = 1'h1; // @[CSR.scala:406:19] wire sup_ssip = 1'h1; // @[CSR.scala:406:19] wire del_seip = 1'h1; // @[CSR.scala:426:26] wire del_stip = 1'h1; // @[CSR.scala:426:26] wire del_ssip = 1'h1; // @[CSR.scala:426:26] wire _read_mapping_T_3 = 1'h1; // @[CSR.scala:1665:45] wire _debug_csrs_T_1 = 1'h1; // @[CSR.scala:1665:45] wire read_mnstatus_mie = 1'h1; // @[CSR.scala:675:31] wire sie_mask_sgeip_mask_sgeip = 1'h1; // @[CSR.scala:748:30] wire _allow_wfi_T_4 = 1'h1; // @[CSR.scala:906:112] wire _allow_wfi_T_5 = 1'h1; // @[CSR.scala:906:109] wire allow_hfence_vvma = 1'h1; // @[CSR.scala:908:50] wire allow_hlsv = 1'h1; // @[CSR.scala:909:43] wire _allow_counter_T_11 = 1'h1; // @[CSR.scala:914:8] wire _allow_counter_T_13 = 1'h1; // @[CSR.scala:914:27] wire _allow_counter_T_16 = 1'h1; // @[CSR.scala:914:45] wire _io_decode_0_fp_illegal_T_4 = 1'h1; // @[CSR.scala:915:103] wire _io_decode_0_vector_illegal_T = 1'h1; // @[CSR.scala:916:43] wire _io_decode_0_vector_illegal_T_1 = 1'h1; // @[CSR.scala:916:87] wire _io_decode_0_vector_illegal_T_3 = 1'h1; // @[CSR.scala:916:51] wire _io_decode_0_vector_illegal_T_5 = 1'h1; // @[CSR.scala:916:98] wire _io_decode_0_vector_illegal_T_6 = 1'h1; // @[CSR.scala:916:95] wire _io_decode_0_rocc_illegal_T = 1'h1; // @[CSR.scala:919:41] wire _io_decode_0_rocc_illegal_T_1 = 1'h1; // @[CSR.scala:919:85] wire _io_decode_0_rocc_illegal_T_3 = 1'h1; // @[CSR.scala:919:49] wire _io_decode_0_rocc_illegal_T_5 = 1'h1; // @[CSR.scala:919:96] wire _io_decode_0_rocc_illegal_T_6 = 1'h1; // @[CSR.scala:919:93] wire _allow_wfi_T_11 = 1'h1; // @[CSR.scala:906:112] wire _allow_wfi_T_12 = 1'h1; // @[CSR.scala:906:109] wire allow_hfence_vvma_1 = 1'h1; // @[CSR.scala:908:50] wire allow_hlsv_1 = 1'h1; // @[CSR.scala:909:43] wire _allow_counter_T_28 = 1'h1; // @[CSR.scala:914:8] wire _allow_counter_T_30 = 1'h1; // @[CSR.scala:914:27] wire _allow_counter_T_33 = 1'h1; // @[CSR.scala:914:45] wire _io_decode_1_fp_illegal_T_4 = 1'h1; // @[CSR.scala:915:103] wire _io_decode_1_vector_illegal_T = 1'h1; // @[CSR.scala:916:43] wire _io_decode_1_vector_illegal_T_1 = 1'h1; // @[CSR.scala:916:87] wire _io_decode_1_vector_illegal_T_3 = 1'h1; // @[CSR.scala:916:51] wire _io_decode_1_vector_illegal_T_5 = 1'h1; // @[CSR.scala:916:98] wire _io_decode_1_vector_illegal_T_6 = 1'h1; // @[CSR.scala:916:95] wire _io_decode_1_rocc_illegal_T = 1'h1; // @[CSR.scala:919:41] wire _io_decode_1_rocc_illegal_T_1 = 1'h1; // @[CSR.scala:919:85] wire _io_decode_1_rocc_illegal_T_3 = 1'h1; // @[CSR.scala:919:49] wire _io_decode_1_rocc_illegal_T_5 = 1'h1; // @[CSR.scala:919:96] wire _io_decode_1_rocc_illegal_T_6 = 1'h1; // @[CSR.scala:919:93] wire _allow_wfi_T_18 = 1'h1; // @[CSR.scala:906:112] wire _allow_wfi_T_19 = 1'h1; // @[CSR.scala:906:109] wire allow_hfence_vvma_2 = 1'h1; // @[CSR.scala:908:50] wire allow_hlsv_2 = 1'h1; // @[CSR.scala:909:43] wire _allow_counter_T_45 = 1'h1; // @[CSR.scala:914:8] wire _allow_counter_T_47 = 1'h1; // @[CSR.scala:914:27] wire _allow_counter_T_50 = 1'h1; // @[CSR.scala:914:45] wire _io_decode_2_fp_illegal_T_4 = 1'h1; // @[CSR.scala:915:103] wire _io_decode_2_vector_illegal_T = 1'h1; // @[CSR.scala:916:43] wire _io_decode_2_vector_illegal_T_1 = 1'h1; // @[CSR.scala:916:87] wire _io_decode_2_vector_illegal_T_3 = 1'h1; // @[CSR.scala:916:51] wire _io_decode_2_vector_illegal_T_5 = 1'h1; // @[CSR.scala:916:98] wire _io_decode_2_vector_illegal_T_6 = 1'h1; // @[CSR.scala:916:95] wire _io_decode_2_rocc_illegal_T = 1'h1; // @[CSR.scala:919:41] wire _io_decode_2_rocc_illegal_T_1 = 1'h1; // @[CSR.scala:919:85] wire _io_decode_2_rocc_illegal_T_3 = 1'h1; // @[CSR.scala:919:49] wire _io_decode_2_rocc_illegal_T_5 = 1'h1; // @[CSR.scala:919:96] wire _io_decode_2_rocc_illegal_T_6 = 1'h1; // @[CSR.scala:919:93] wire _io_gstatus_sd_T = 1'h1; // @[CSR.scala:1016:34] wire _io_gstatus_sd_T_2 = 1'h1; // @[CSR.scala:1016:39] wire _io_gstatus_sd_T_4 = 1'h1; // @[CSR.scala:1016:61] wire _en_T_7 = 1'h1; // @[CSR.scala:1096:71] wire delegable_1 = 1'h1; // @[CSR.scala:1097:65] wire _en_T_19 = 1'h1; // @[CSR.scala:1096:71] wire _en_T_31 = 1'h1; // @[CSR.scala:1096:71] wire delegable_5 = 1'h1; // @[CSR.scala:1097:65] wire _en_T_43 = 1'h1; // @[CSR.scala:1096:71] wire _en_T_55 = 1'h1; // @[CSR.scala:1096:71] wire delegable_9 = 1'h1; // @[CSR.scala:1097:65] wire _en_T_67 = 1'h1; // @[CSR.scala:1096:71] wire delegable_17 = 1'h1; // @[CSR.scala:1109:67] wire delegable_18 = 1'h1; // @[CSR.scala:1109:67] wire delegable_19 = 1'h1; // @[CSR.scala:1109:67] wire delegable_21 = 1'h1; // @[CSR.scala:1109:67] wire delegable_23 = 1'h1; // @[CSR.scala:1109:67] wire delegable_26 = 1'h1; // @[CSR.scala:1109:67] wire delegable_27 = 1'h1; // @[CSR.scala:1109:67] wire delegable_28 = 1'h1; // @[CSR.scala:1109:67] wire _io_evec_T_1 = 1'h1; // @[CSR.scala:1665:45] wire _io_evec_T_6 = 1'h1; // @[CSR.scala:1665:45] wire _io_evec_T_11 = 1'h1; // @[CSR.scala:1665:45] wire _io_evec_T_16 = 1'h1; // @[CSR.scala:1665:45] wire _io_evec_T_21 = 1'h1; // @[CSR.scala:1665:45] wire _csr_wen_T_5 = 1'h1; // @[CSR.scala:1222:59] wire _io_trace_0_exception_T = 1'h1; // @[CSR.scala:1620:30] wire [31:0] io_status_isa = 32'h14112D; // @[CSR.scala:377:7] wire [22:0] io_status_zero2 = 23'h0; // @[CSR.scala:377:7] wire [22:0] io_gstatus_zero2 = 23'h0; // @[CSR.scala:377:7] wire [22:0] _reset_mstatus_WIRE_zero2 = 23'h0; // @[CSR.scala:391:47] wire [22:0] reset_mstatus_zero2 = 23'h0; // @[CSR.scala:391:34] wire [22:0] _read_sstatus_WIRE_zero2 = 23'h0; // @[CSR.scala:755:48] wire [22:0] read_sstatus_zero2 = 23'h0; // @[CSR.scala:755:35] wire io_decode_0_vector_csr = 1'h0; // @[CSR.scala:377:7] wire io_decode_1_vector_csr = 1'h0; // @[CSR.scala:377:7] wire io_decode_2_vector_csr = 1'h0; // @[CSR.scala:377:7] wire io_rw_stall = 1'h0; // @[CSR.scala:377:7] wire io_status_mbe = 1'h0; // @[CSR.scala:377:7] wire io_status_sbe = 1'h0; // @[CSR.scala:377:7] wire io_status_sd_rv32 = 1'h0; // @[CSR.scala:377:7] wire io_status_ube = 1'h0; // @[CSR.scala:377:7] wire io_status_upie = 1'h0; // @[CSR.scala:377:7] wire io_status_hie = 1'h0; // @[CSR.scala:377:7] wire io_status_uie = 1'h0; // @[CSR.scala:377:7] wire io_hstatus_vtsr = 1'h0; // @[CSR.scala:377:7] wire io_hstatus_vtw = 1'h0; // @[CSR.scala:377:7] wire io_hstatus_vtvm = 1'h0; // @[CSR.scala:377:7] wire io_hstatus_hu = 1'h0; // @[CSR.scala:377:7] wire io_hstatus_vsbe = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_debug = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_cease = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_wfi = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_dv = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_v = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_mpv = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_gva = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_mbe = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_sbe = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_sd_rv32 = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_tsr = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_tw = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_tvm = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_mxr = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_sum = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_mprv = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_mpie = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_ube = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_upie = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_mie = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_hie = 1'h0; // @[CSR.scala:377:7] wire io_gstatus_uie = 1'h0; // @[CSR.scala:377:7] wire io_mhtinst_read_pseudo = 1'h0; // @[CSR.scala:377:7] wire io_gva = 1'h0; // @[CSR.scala:377:7] wire io_rocc_interrupt = 1'h0; // @[CSR.scala:377:7] wire io_customCSRs_0_stall = 1'h0; // @[CSR.scala:377:7] wire io_customCSRs_0_set = 1'h0; // @[CSR.scala:377:7] wire io_customCSRs_1_stall = 1'h0; // @[CSR.scala:377:7] wire io_customCSRs_1_set = 1'h0; // @[CSR.scala:377:7] wire _reset_mstatus_WIRE_debug = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_cease = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_wfi = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_dv = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_v = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_sd = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_mpv = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_gva = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_mbe = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_sbe = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_sd_rv32 = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_tsr = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_tw = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_tvm = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_mxr = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_sum = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_mprv = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_spp = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_mpie = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_ube = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_spie = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_upie = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_mie = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_hie = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_sie = 1'h0; // @[CSR.scala:391:47] wire _reset_mstatus_WIRE_uie = 1'h0; // @[CSR.scala:391:47] wire reset_mstatus_debug = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_cease = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_wfi = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_dv = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_v = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_sd = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_mpv = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_gva = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_mbe = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_sbe = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_sd_rv32 = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_tsr = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_tw = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_tvm = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_mxr = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_sum = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_mprv = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_spp = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_mpie = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_ube = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_spie = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_upie = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_mie = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_hie = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_sie = 1'h0; // @[CSR.scala:391:34] wire reset_mstatus_uie = 1'h0; // @[CSR.scala:391:34] wire _reset_dcsr_WIRE_ebreakm = 1'h0; // @[CSR.scala:400:44] wire _reset_dcsr_WIRE_ebreakh = 1'h0; // @[CSR.scala:400:44] wire _reset_dcsr_WIRE_ebreaks = 1'h0; // @[CSR.scala:400:44] wire _reset_dcsr_WIRE_ebreaku = 1'h0; // @[CSR.scala:400:44] wire _reset_dcsr_WIRE_zero2 = 1'h0; // @[CSR.scala:400:44] wire _reset_dcsr_WIRE_stopcycle = 1'h0; // @[CSR.scala:400:44] wire _reset_dcsr_WIRE_stoptime = 1'h0; // @[CSR.scala:400:44] wire _reset_dcsr_WIRE_v = 1'h0; // @[CSR.scala:400:44] wire _reset_dcsr_WIRE_step = 1'h0; // @[CSR.scala:400:44] wire reset_dcsr_ebreakm = 1'h0; // @[CSR.scala:400:31] wire reset_dcsr_ebreakh = 1'h0; // @[CSR.scala:400:31] wire reset_dcsr_ebreaks = 1'h0; // @[CSR.scala:400:31] wire reset_dcsr_ebreaku = 1'h0; // @[CSR.scala:400:31] wire reset_dcsr_zero2 = 1'h0; // @[CSR.scala:400:31] wire reset_dcsr_stopcycle = 1'h0; // @[CSR.scala:400:31] wire reset_dcsr_stoptime = 1'h0; // @[CSR.scala:400:31] wire reset_dcsr_v = 1'h0; // @[CSR.scala:400:31] wire reset_dcsr_step = 1'h0; // @[CSR.scala:400:31] wire sup_zero1 = 1'h0; // @[CSR.scala:406:19] wire sup_debug = 1'h0; // @[CSR.scala:406:19] wire sup_rocc = 1'h0; // @[CSR.scala:406:19] wire sup_sgeip = 1'h0; // @[CSR.scala:406:19] wire sup_vseip = 1'h0; // @[CSR.scala:406:19] wire sup_ueip = 1'h0; // @[CSR.scala:406:19] wire sup_vstip = 1'h0; // @[CSR.scala:406:19] wire sup_utip = 1'h0; // @[CSR.scala:406:19] wire sup_vssip = 1'h0; // @[CSR.scala:406:19] wire sup_usip = 1'h0; // @[CSR.scala:406:19] wire del_zero1 = 1'h0; // @[CSR.scala:426:26] wire del_debug = 1'h0; // @[CSR.scala:426:26] wire del_rocc = 1'h0; // @[CSR.scala:426:26] wire del_sgeip = 1'h0; // @[CSR.scala:426:26] wire del_meip = 1'h0; // @[CSR.scala:426:26] wire del_vseip = 1'h0; // @[CSR.scala:426:26] wire del_ueip = 1'h0; // @[CSR.scala:426:26] wire del_mtip = 1'h0; // @[CSR.scala:426:26] wire del_vstip = 1'h0; // @[CSR.scala:426:26] wire del_utip = 1'h0; // @[CSR.scala:426:26] wire del_msip = 1'h0; // @[CSR.scala:426:26] wire del_vssip = 1'h0; // @[CSR.scala:426:26] wire del_usip = 1'h0; // @[CSR.scala:426:26] wire hi_hi_hi_hi = 1'h0; // @[CSR.scala:431:10] wire hi_hi_hi_hi_1 = 1'h0; // @[CSR.scala:431:50] wire _always_WIRE_zero1 = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_debug = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_rocc = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_sgeip = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_meip = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_vseip = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_seip = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_ueip = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_mtip = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_vstip = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_stip = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_utip = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_msip = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_vssip = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_ssip = 1'h0; // @[CSR.scala:471:42] wire _always_WIRE_usip = 1'h0; // @[CSR.scala:471:42] wire always_zero1 = 1'h0; // @[CSR.scala:471:29] wire always_debug = 1'h0; // @[CSR.scala:471:29] wire always_rocc = 1'h0; // @[CSR.scala:471:29] wire always_sgeip = 1'h0; // @[CSR.scala:471:29] wire always_meip = 1'h0; // @[CSR.scala:471:29] wire always_vseip = 1'h0; // @[CSR.scala:471:29] wire always_seip = 1'h0; // @[CSR.scala:471:29] wire always_ueip = 1'h0; // @[CSR.scala:471:29] wire always_mtip = 1'h0; // @[CSR.scala:471:29] wire always_vstip = 1'h0; // @[CSR.scala:471:29] wire always_stip = 1'h0; // @[CSR.scala:471:29] wire always_utip = 1'h0; // @[CSR.scala:471:29] wire always_msip = 1'h0; // @[CSR.scala:471:29] wire always_vssip = 1'h0; // @[CSR.scala:471:29] wire always_ssip = 1'h0; // @[CSR.scala:471:29] wire always_usip = 1'h0; // @[CSR.scala:471:29] wire deleg_zero1 = 1'h0; // @[CSR.scala:476:28] wire deleg_debug = 1'h0; // @[CSR.scala:476:28] wire deleg_rocc = 1'h0; // @[CSR.scala:476:28] wire deleg_sgeip = 1'h0; // @[CSR.scala:476:28] wire deleg_meip = 1'h0; // @[CSR.scala:476:28] wire deleg_vseip = 1'h0; // @[CSR.scala:476:28] wire deleg_seip = 1'h0; // @[CSR.scala:476:28] wire deleg_ueip = 1'h0; // @[CSR.scala:476:28] wire deleg_mtip = 1'h0; // @[CSR.scala:476:28] wire deleg_vstip = 1'h0; // @[CSR.scala:476:28] wire deleg_stip = 1'h0; // @[CSR.scala:476:28] wire deleg_utip = 1'h0; // @[CSR.scala:476:28] wire deleg_msip = 1'h0; // @[CSR.scala:476:28] wire deleg_vssip = 1'h0; // @[CSR.scala:476:28] wire deleg_ssip = 1'h0; // @[CSR.scala:476:28] wire deleg_usip = 1'h0; // @[CSR.scala:476:28] wire hi_hi_hi_hi_2 = 1'h0; // @[CSR.scala:479:12] wire hi_hi_hi_hi_3 = 1'h0; // @[CSR.scala:479:27] wire _reset_mnstatus_WIRE_mpv = 1'h0; // @[CSR.scala:516:48] wire _reset_mnstatus_WIRE_mie = 1'h0; // @[CSR.scala:516:48] wire reset_mnstatus_mpv = 1'h0; // @[CSR.scala:516:35] wire reset_mnstatus_mie = 1'h0; // @[CSR.scala:516:35] wire _reg_menvcfg_WIRE_stce = 1'h0; // @[CSR.scala:525:41] wire _reg_menvcfg_WIRE_pbmte = 1'h0; // @[CSR.scala:525:41] wire _reg_menvcfg_WIRE_cbze = 1'h0; // @[CSR.scala:525:41] wire _reg_menvcfg_WIRE_cbcfe = 1'h0; // @[CSR.scala:525:41] wire _reg_menvcfg_WIRE_fiom = 1'h0; // @[CSR.scala:525:41] wire _reg_senvcfg_WIRE_stce = 1'h0; // @[CSR.scala:526:41] wire _reg_senvcfg_WIRE_pbmte = 1'h0; // @[CSR.scala:526:41] wire _reg_senvcfg_WIRE_cbze = 1'h0; // @[CSR.scala:526:41] wire _reg_senvcfg_WIRE_cbcfe = 1'h0; // @[CSR.scala:526:41] wire _reg_senvcfg_WIRE_fiom = 1'h0; // @[CSR.scala:526:41] wire _reg_henvcfg_WIRE_stce = 1'h0; // @[CSR.scala:527:41] wire _reg_henvcfg_WIRE_pbmte = 1'h0; // @[CSR.scala:527:41] wire _reg_henvcfg_WIRE_cbze = 1'h0; // @[CSR.scala:527:41] wire _reg_henvcfg_WIRE_cbcfe = 1'h0; // @[CSR.scala:527:41] wire _reg_henvcfg_WIRE_fiom = 1'h0; // @[CSR.scala:527:41] wire _reg_hstatus_WIRE_vtsr = 1'h0; // @[CSR.scala:552:41] wire _reg_hstatus_WIRE_vtw = 1'h0; // @[CSR.scala:552:41] wire _reg_hstatus_WIRE_vtvm = 1'h0; // @[CSR.scala:552:41] wire _reg_hstatus_WIRE_hu = 1'h0; // @[CSR.scala:552:41] wire _reg_hstatus_WIRE_spvp = 1'h0; // @[CSR.scala:552:41] wire _reg_hstatus_WIRE_spv = 1'h0; // @[CSR.scala:552:41] wire _reg_hstatus_WIRE_gva = 1'h0; // @[CSR.scala:552:41] wire _reg_hstatus_WIRE_vsbe = 1'h0; // @[CSR.scala:552:41] wire read_hvip_hi_hi_hi_hi = 1'h0; // @[CSR.scala:555:27] wire mip_zero1 = 1'h0; // @[CSR.scala:600:24] wire mip_debug = 1'h0; // @[CSR.scala:600:24] wire mip_rocc = 1'h0; // @[CSR.scala:600:24] wire mip_sgeip = 1'h0; // @[CSR.scala:600:24] wire mip_vseip = 1'h0; // @[CSR.scala:600:24] wire mip_ueip = 1'h0; // @[CSR.scala:600:24] wire mip_vstip = 1'h0; // @[CSR.scala:600:24] wire mip_utip = 1'h0; // @[CSR.scala:600:24] wire mip_vssip = 1'h0; // @[CSR.scala:600:24] wire mip_usip = 1'h0; // @[CSR.scala:600:24] wire _any_T_47 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_48 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_49 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_50 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_51 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_52 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_53 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_54 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_55 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_56 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_57 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_58 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_59 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_60 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_61 = 1'h0; // @[CSR.scala:1637:76] wire _any_T_62 = 1'h0; // @[CSR.scala:1637:76] wire _which_T_47 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_48 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_49 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_50 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_51 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_52 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_53 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_54 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_55 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_56 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_57 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_58 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_59 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_60 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_61 = 1'h0; // @[CSR.scala:1638:91] wire _which_T_62 = 1'h0; // @[CSR.scala:1638:91] wire _io_fiom_T_5 = 1'h0; // @[CSR.scala:631:131] wire _pmp_mask_base_T_2 = 1'h0; // @[PMP.scala:57:62] wire _pmp_mask_base_T_5 = 1'h0; // @[PMP.scala:57:62] wire _pmp_mask_base_T_8 = 1'h0; // @[PMP.scala:57:62] wire _pmp_mask_base_T_11 = 1'h0; // @[PMP.scala:57:62] wire _pmp_mask_base_T_14 = 1'h0; // @[PMP.scala:57:62] wire _pmp_mask_base_T_17 = 1'h0; // @[PMP.scala:57:62] wire _pmp_mask_base_T_20 = 1'h0; // @[PMP.scala:57:62] wire _pmp_mask_base_T_23 = 1'h0; // @[PMP.scala:57:62] wire _read_mapping_T = 1'h0; // @[package.scala:132:38] wire read_mapping_lo_hi_1 = 1'h0; // @[CSR.scala:657:47] wire read_mapping_hi_hi_1 = 1'h0; // @[CSR.scala:657:47] wire _read_mnstatus_WIRE_mpv = 1'h0; // @[CSR.scala:675:44] wire _read_mnstatus_WIRE_mie = 1'h0; // @[CSR.scala:675:44] wire read_mnstatus_mpv = 1'h0; // @[CSR.scala:675:31] wire _sie_mask_sgeip_mask_WIRE_zero1 = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_debug = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_rocc = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_sgeip = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_meip = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_vseip = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_seip = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_ueip = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_mtip = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_vstip = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_stip = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_utip = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_msip = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_vssip = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_ssip = 1'h0; // @[CSR.scala:748:43] wire _sie_mask_sgeip_mask_WIRE_usip = 1'h0; // @[CSR.scala:748:43] wire sie_mask_sgeip_mask_zero1 = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_debug = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_rocc = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_meip = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_vseip = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_seip = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_ueip = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_mtip = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_vstip = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_stip = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_utip = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_msip = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_vssip = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_ssip = 1'h0; // @[CSR.scala:748:30] wire sie_mask_sgeip_mask_usip = 1'h0; // @[CSR.scala:748:30] wire sie_mask_hi_hi_hi_hi = 1'h0; // @[CSR.scala:750:59] wire _read_sstatus_WIRE_debug = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_cease = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_wfi = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_dv = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_v = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_sd = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_mpv = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_gva = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_mbe = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_sbe = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_sd_rv32 = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_tsr = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_tw = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_tvm = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_mxr = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_sum = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_mprv = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_spp = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_mpie = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_ube = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_spie = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_upie = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_mie = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_hie = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_sie = 1'h0; // @[CSR.scala:755:48] wire _read_sstatus_WIRE_uie = 1'h0; // @[CSR.scala:755:48] wire read_sstatus_debug = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_cease = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_wfi = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_dv = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_v = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_mpv = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_gva = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_mbe = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_sbe = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_sd_rv32 = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_tsr = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_tw = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_tvm = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_mprv = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_mpie = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_ube = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_upie = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_mie = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_hie = 1'h0; // @[CSR.scala:755:35] wire read_sstatus_uie = 1'h0; // @[CSR.scala:755:35] wire read_pmp_15_cfg_l = 1'h0; // @[CSR.scala:787:59] wire read_pmp_15_cfg_x = 1'h0; // @[CSR.scala:787:59] wire read_pmp_15_cfg_w = 1'h0; // @[CSR.scala:787:59] wire read_pmp_15_cfg_r = 1'h0; // @[CSR.scala:787:59] wire _reg_custom_T = 1'h0; // @[CSR.scala:801:16] wire _reg_custom_T_1 = 1'h0; // @[CSR.scala:801:16] wire _allow_counter_T_4 = 1'h0; // @[CSR.scala:913:8] wire _io_decode_0_fp_illegal_T_1 = 1'h0; // @[CSR.scala:915:83] wire _io_decode_0_fp_illegal_T_2 = 1'h0; // @[CSR.scala:915:64] wire _io_decode_0_fp_illegal_T_5 = 1'h0; // @[CSR.scala:915:94] wire _io_decode_0_vector_illegal_T_4 = 1'h0; // @[CSR.scala:916:107] wire io_decode_0_vector_csr_plaOutput = 1'h0; // @[pla.scala:81:23] wire _io_decode_0_vector_csr_T = 1'h0; // @[Decode.scala:55:116] wire _io_decode_0_rocc_illegal_T_4 = 1'h0; // @[CSR.scala:919:105] wire _csr_addr_legal_T_3 = 1'h0; // @[CSR.scala:921:25] wire _csr_addr_legal_T_5 = 1'h0; // @[CSR.scala:921:43] wire _csr_addr_legal_T_8 = 1'h0; // @[CSR.scala:921:74] wire io_decode_0_read_illegal_plaOutput_1 = 1'h0; // @[pla.scala:81:23] wire _io_decode_0_read_illegal_T_16 = 1'h0; // @[Decode.scala:55:116] wire _io_decode_0_read_illegal_T_17 = 1'h0; // @[CSR.scala:928:43] wire _io_decode_0_system_illegal_T_20 = 1'h0; // @[CSR.scala:940:25] wire _io_decode_0_system_illegal_T_21 = 1'h0; // @[CSR.scala:940:22] wire _io_decode_0_system_illegal_T_23 = 1'h0; // @[CSR.scala:941:18] wire _io_decode_0_system_illegal_T_24 = 1'h0; // @[CSR.scala:941:15] wire _io_decode_0_virtual_access_illegal_T_27 = 1'h0; // @[CSR.scala:947:50] wire _io_decode_0_virtual_system_illegal_T_5 = 1'h0; // @[CSR.scala:953:57] wire _allow_counter_T_21 = 1'h0; // @[CSR.scala:913:8] wire _io_decode_1_fp_illegal_T_1 = 1'h0; // @[CSR.scala:915:83] wire _io_decode_1_fp_illegal_T_2 = 1'h0; // @[CSR.scala:915:64] wire _io_decode_1_fp_illegal_T_5 = 1'h0; // @[CSR.scala:915:94] wire _io_decode_1_vector_illegal_T_4 = 1'h0; // @[CSR.scala:916:107] wire io_decode_1_vector_csr_plaOutput = 1'h0; // @[pla.scala:81:23] wire _io_decode_1_vector_csr_T = 1'h0; // @[Decode.scala:55:116] wire _io_decode_1_rocc_illegal_T_4 = 1'h0; // @[CSR.scala:919:105] wire _csr_addr_legal_T_12 = 1'h0; // @[CSR.scala:921:25] wire _csr_addr_legal_T_14 = 1'h0; // @[CSR.scala:921:43] wire _csr_addr_legal_T_17 = 1'h0; // @[CSR.scala:921:74] wire io_decode_1_read_illegal_plaOutput_1 = 1'h0; // @[pla.scala:81:23] wire _io_decode_1_read_illegal_T_16 = 1'h0; // @[Decode.scala:55:116] wire _io_decode_1_read_illegal_T_17 = 1'h0; // @[CSR.scala:928:43] wire _io_decode_1_system_illegal_T_20 = 1'h0; // @[CSR.scala:940:25] wire _io_decode_1_system_illegal_T_21 = 1'h0; // @[CSR.scala:940:22] wire _io_decode_1_system_illegal_T_23 = 1'h0; // @[CSR.scala:941:18] wire _io_decode_1_system_illegal_T_24 = 1'h0; // @[CSR.scala:941:15] wire _io_decode_1_virtual_access_illegal_T_27 = 1'h0; // @[CSR.scala:947:50] wire _io_decode_1_virtual_system_illegal_T_5 = 1'h0; // @[CSR.scala:953:57] wire _allow_counter_T_38 = 1'h0; // @[CSR.scala:913:8] wire _io_decode_2_fp_illegal_T_1 = 1'h0; // @[CSR.scala:915:83] wire _io_decode_2_fp_illegal_T_2 = 1'h0; // @[CSR.scala:915:64] wire _io_decode_2_fp_illegal_T_5 = 1'h0; // @[CSR.scala:915:94] wire _io_decode_2_vector_illegal_T_4 = 1'h0; // @[CSR.scala:916:107] wire io_decode_2_vector_csr_plaOutput = 1'h0; // @[pla.scala:81:23] wire _io_decode_2_vector_csr_T = 1'h0; // @[Decode.scala:55:116] wire _io_decode_2_rocc_illegal_T_4 = 1'h0; // @[CSR.scala:919:105] wire _csr_addr_legal_T_21 = 1'h0; // @[CSR.scala:921:25] wire _csr_addr_legal_T_23 = 1'h0; // @[CSR.scala:921:43] wire _csr_addr_legal_T_26 = 1'h0; // @[CSR.scala:921:74] wire io_decode_2_read_illegal_plaOutput_1 = 1'h0; // @[pla.scala:81:23] wire _io_decode_2_read_illegal_T_16 = 1'h0; // @[Decode.scala:55:116] wire _io_decode_2_read_illegal_T_17 = 1'h0; // @[CSR.scala:928:43] wire _io_decode_2_system_illegal_T_20 = 1'h0; // @[CSR.scala:940:25] wire _io_decode_2_system_illegal_T_21 = 1'h0; // @[CSR.scala:940:22] wire _io_decode_2_system_illegal_T_23 = 1'h0; // @[CSR.scala:941:18] wire _io_decode_2_system_illegal_T_24 = 1'h0; // @[CSR.scala:941:15] wire _io_decode_2_virtual_access_illegal_T_27 = 1'h0; // @[CSR.scala:947:50] wire _io_decode_2_virtual_system_illegal_T_5 = 1'h0; // @[CSR.scala:953:57] wire trapToNmiInt = 1'h0; // @[CSR.scala:990:33] wire _trapToNmiXcpt_T = 1'h0; // @[CSR.scala:991:37] wire trapToNmiXcpt = 1'h0; // @[CSR.scala:991:34] wire trapToNmi = 1'h0; // @[CSR.scala:992:32] wire _nmiTVec_T = 1'h0; // @[CSR.scala:993:21] wire _nmiTVec_T_1 = 1'h0; // @[CSR.scala:993:58] wire _io_status_sd_T_1 = 1'h0; // @[CSR.scala:1003:53] wire _io_status_sd_T_3 = 1'h0; // @[CSR.scala:1003:74] wire _io_status_sd_rv32_T = 1'h0; // @[CSR.scala:1010:39] wire _io_gstatus_sd_T_1 = 1'h0; // @[CSR.scala:1016:56] wire _io_gstatus_sd_rv32_T = 1'h0; // @[CSR.scala:1018:40] wire _en_T_1 = 1'h0; // @[CSR.scala:1096:71] wire _en_T_2 = 1'h0; // @[CSR.scala:1096:24] wire en = 1'h0; // @[CSR.scala:1096:79] wire delegable = 1'h0; // @[CSR.scala:1097:65] wire _en_T_13 = 1'h0; // @[CSR.scala:1096:71] wire _en_T_14 = 1'h0; // @[CSR.scala:1096:24] wire en_2 = 1'h0; // @[CSR.scala:1096:79] wire delegable_2 = 1'h0; // @[CSR.scala:1097:65] wire delegable_3 = 1'h0; // @[CSR.scala:1097:65] wire _en_T_25 = 1'h0; // @[CSR.scala:1096:71] wire _en_T_26 = 1'h0; // @[CSR.scala:1096:24] wire en_4 = 1'h0; // @[CSR.scala:1096:79] wire delegable_4 = 1'h0; // @[CSR.scala:1097:65] wire _en_T_37 = 1'h0; // @[CSR.scala:1096:71] wire _en_T_38 = 1'h0; // @[CSR.scala:1096:24] wire en_6 = 1'h0; // @[CSR.scala:1096:79] wire delegable_6 = 1'h0; // @[CSR.scala:1097:65] wire delegable_7 = 1'h0; // @[CSR.scala:1097:65] wire _en_T_49 = 1'h0; // @[CSR.scala:1096:71] wire _en_T_50 = 1'h0; // @[CSR.scala:1096:24] wire en_8 = 1'h0; // @[CSR.scala:1096:79] wire delegable_8 = 1'h0; // @[CSR.scala:1097:65] wire _en_T_61 = 1'h0; // @[CSR.scala:1096:71] wire _en_T_62 = 1'h0; // @[CSR.scala:1096:24] wire en_10 = 1'h0; // @[CSR.scala:1096:79] wire delegable_10 = 1'h0; // @[CSR.scala:1097:65] wire delegable_11 = 1'h0; // @[CSR.scala:1097:65] wire _en_T_73 = 1'h0; // @[CSR.scala:1096:71] wire _en_T_74 = 1'h0; // @[CSR.scala:1096:24] wire en_12 = 1'h0; // @[CSR.scala:1096:79] wire delegable_12 = 1'h0; // @[CSR.scala:1097:65] wire _en_T_79 = 1'h0; // @[CSR.scala:1096:71] wire _en_T_80 = 1'h0; // @[CSR.scala:1096:24] wire en_13 = 1'h0; // @[CSR.scala:1096:79] wire delegable_13 = 1'h0; // @[CSR.scala:1097:65] wire _en_T_85 = 1'h0; // @[CSR.scala:1096:71] wire _en_T_86 = 1'h0; // @[CSR.scala:1096:24] wire en_14 = 1'h0; // @[CSR.scala:1096:79] wire delegable_14 = 1'h0; // @[CSR.scala:1097:65] wire _en_T_91 = 1'h0; // @[CSR.scala:1096:71] wire _en_T_92 = 1'h0; // @[CSR.scala:1096:24] wire en_15 = 1'h0; // @[CSR.scala:1096:79] wire delegable_15 = 1'h0; // @[CSR.scala:1097:65] wire delegable_16 = 1'h0; // @[CSR.scala:1109:67] wire delegable_20 = 1'h0; // @[CSR.scala:1109:67] wire delegable_22 = 1'h0; // @[CSR.scala:1109:67] wire delegable_24 = 1'h0; // @[CSR.scala:1109:67] wire delegable_25 = 1'h0; // @[CSR.scala:1109:67] wire _reg_mstatus_v_T = 1'h0; // @[CSR.scala:1123:44] wire _reg_mstatus_v_T_1 = 1'h0; // @[CSR.scala:1136:42] wire _reg_mstatus_v_T_3 = 1'h0; // @[CSR.scala:1136:56] wire _reg_mstatus_v_T_4 = 1'h0; // @[CSR.scala:1141:42] wire _reg_mstatus_v_T_5 = 1'h0; // @[CSR.scala:1141:82] wire _reg_mstatus_v_T_6 = 1'h0; // @[CSR.scala:1141:62] wire _reg_mstatus_mpp_T = 1'h0; // @[CSR.scala:1647:35] wire _reg_mstatus_mpp_T_1 = 1'h0; // @[CSR.scala:1647:29] wire _reg_mstatus_v_T_7 = 1'h0; // @[CSR.scala:1150:42] wire _reg_mstatus_v_T_9 = 1'h0; // @[CSR.scala:1150:61] wire _io_rw_rdata_T = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_23 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_24 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_25 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_26 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_27 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_28 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_29 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_30 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_31 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_32 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_33 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_34 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_35 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_36 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_37 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_38 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_39 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_40 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_41 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_42 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_43 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_44 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_45 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_46 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_47 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_48 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_49 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_50 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_51 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_52 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_53 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_54 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_55 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_56 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_57 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_58 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_59 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_60 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_61 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_62 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_63 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_64 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_65 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_66 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_67 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_68 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_69 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_70 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_71 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_72 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_73 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_74 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_75 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_76 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_77 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_78 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_79 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_80 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_81 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_82 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_83 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_84 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_85 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_86 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_87 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_88 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_89 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_90 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_91 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_92 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_93 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_94 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_95 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_96 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_97 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_98 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_99 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_100 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_101 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_102 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_103 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_104 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_105 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_106 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_107 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_108 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_109 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_147 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_148 = 1'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_149 = 1'h0; // @[Mux.scala:30:73] wire set_vs_dirty = 1'h0; // @[CSR.scala:1191:33] wire new_mip_hi_hi_hi_hi = 1'h0; // @[CSR.scala:1271:59] wire _reg_bp_0_WIRE_control_dmode = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_0_WIRE_control_action = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_0_WIRE_control_chain = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_0_WIRE_control_m = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_0_WIRE_control_h = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_0_WIRE_control_s = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_0_WIRE_control_u = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_0_WIRE_control_x = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_0_WIRE_control_w = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_0_WIRE_control_r = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_0_WIRE_textra_mselect = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_0_WIRE_textra_pad1 = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_0_WIRE_textra_sselect = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_1_WIRE_control_dmode = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_1_WIRE_control_action = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_1_WIRE_control_chain = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_1_WIRE_control_m = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_1_WIRE_control_h = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_1_WIRE_control_s = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_1_WIRE_control_u = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_1_WIRE_control_x = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_1_WIRE_control_w = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_1_WIRE_control_r = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_1_WIRE_textra_mselect = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_1_WIRE_textra_pad1 = 1'h0; // @[CSR.scala:1613:23] wire _reg_bp_1_WIRE_textra_sselect = 1'h0; // @[CSR.scala:1613:23] wire [7:0] io_status_zero1 = 8'h0; // @[CSR.scala:377:7] wire [7:0] io_gstatus_zero1 = 8'h0; // @[CSR.scala:377:7] wire [7:0] _reset_mstatus_WIRE_zero1 = 8'h0; // @[CSR.scala:391:47] wire [7:0] reset_mstatus_zero1 = 8'h0; // @[CSR.scala:391:34] wire [7:0] lo_2 = 8'h0; // @[CSR.scala:479:12] wire [7:0] hi_2 = 8'h0; // @[CSR.scala:479:12] wire [7:0] lo_3 = 8'h0; // @[CSR.scala:479:27] wire [7:0] hi_3 = 8'h0; // @[CSR.scala:479:27] wire [7:0] sie_mask_lo = 8'h0; // @[CSR.scala:750:59] wire [7:0] _read_sstatus_WIRE_zero1 = 8'h0; // @[CSR.scala:755:48] wire [7:0] read_sstatus_zero1 = 8'h0; // @[CSR.scala:755:35] wire [1:0] io_status_xs = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_status_vs = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_hstatus_zero3 = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_hstatus_zero2 = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_gstatus_dprv = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_gstatus_prv = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_gstatus_sxl = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_gstatus_xs = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_gstatus_mpp = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_gstatus_vs = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_pmp_0_cfg_res = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_pmp_1_cfg_res = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_pmp_2_cfg_res = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_pmp_3_cfg_res = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_pmp_4_cfg_res = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_pmp_5_cfg_res = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_pmp_6_cfg_res = 2'h0; // @[CSR.scala:377:7] wire [1:0] io_pmp_7_cfg_res = 2'h0; // @[CSR.scala:377:7] wire [1:0] _reset_mstatus_WIRE_dprv = 2'h0; // @[CSR.scala:391:47] wire [1:0] _reset_mstatus_WIRE_prv = 2'h0; // @[CSR.scala:391:47] wire [1:0] _reset_mstatus_WIRE_sxl = 2'h0; // @[CSR.scala:391:47] wire [1:0] _reset_mstatus_WIRE_uxl = 2'h0; // @[CSR.scala:391:47] wire [1:0] _reset_mstatus_WIRE_xs = 2'h0; // @[CSR.scala:391:47] wire [1:0] _reset_mstatus_WIRE_fs = 2'h0; // @[CSR.scala:391:47] wire [1:0] _reset_mstatus_WIRE_mpp = 2'h0; // @[CSR.scala:391:47] wire [1:0] _reset_mstatus_WIRE_vs = 2'h0; // @[CSR.scala:391:47] wire [1:0] reset_mstatus_dprv = 2'h0; // @[CSR.scala:391:34] wire [1:0] reset_mstatus_sxl = 2'h0; // @[CSR.scala:391:34] wire [1:0] reset_mstatus_uxl = 2'h0; // @[CSR.scala:391:34] wire [1:0] reset_mstatus_xs = 2'h0; // @[CSR.scala:391:34] wire [1:0] reset_mstatus_fs = 2'h0; // @[CSR.scala:391:34] wire [1:0] reset_mstatus_vs = 2'h0; // @[CSR.scala:391:34] wire [1:0] _reset_dcsr_WIRE_xdebugver = 2'h0; // @[CSR.scala:400:44] wire [1:0] _reset_dcsr_WIRE_zero4 = 2'h0; // @[CSR.scala:400:44] wire [1:0] _reset_dcsr_WIRE_zero1 = 2'h0; // @[CSR.scala:400:44] wire [1:0] _reset_dcsr_WIRE_prv = 2'h0; // @[CSR.scala:400:44] wire [1:0] reset_dcsr_zero4 = 2'h0; // @[CSR.scala:400:31] wire [1:0] reset_dcsr_zero1 = 2'h0; // @[CSR.scala:400:31] wire [1:0] hi_hi_lo = 2'h0; // @[CSR.scala:431:10] wire [1:0] hi_hi_hi = 2'h0; // @[CSR.scala:431:10] wire [1:0] lo_lo_hi_1 = 2'h0; // @[CSR.scala:431:50] wire [1:0] lo_hi_hi_1 = 2'h0; // @[CSR.scala:431:50] wire [1:0] hi_lo_hi_1 = 2'h0; // @[CSR.scala:431:50] wire [1:0] hi_hi_lo_1 = 2'h0; // @[CSR.scala:431:50] wire [1:0] hi_hi_hi_1 = 2'h0; // @[CSR.scala:431:50] wire [1:0] lo_lo_lo_2 = 2'h0; // @[CSR.scala:479:12] wire [1:0] lo_lo_hi_2 = 2'h0; // @[CSR.scala:479:12] wire [1:0] lo_hi_lo_2 = 2'h0; // @[CSR.scala:479:12] wire [1:0] lo_hi_hi_2 = 2'h0; // @[CSR.scala:479:12] wire [1:0] hi_lo_lo_2 = 2'h0; // @[CSR.scala:479:12] wire [1:0] hi_lo_hi_2 = 2'h0; // @[CSR.scala:479:12] wire [1:0] hi_hi_lo_2 = 2'h0; // @[CSR.scala:479:12] wire [1:0] hi_hi_hi_2 = 2'h0; // @[CSR.scala:479:12] wire [1:0] lo_lo_lo_3 = 2'h0; // @[CSR.scala:479:27] wire [1:0] lo_lo_hi_3 = 2'h0; // @[CSR.scala:479:27] wire [1:0] lo_hi_lo_3 = 2'h0; // @[CSR.scala:479:27] wire [1:0] lo_hi_hi_3 = 2'h0; // @[CSR.scala:479:27] wire [1:0] hi_lo_lo_3 = 2'h0; // @[CSR.scala:479:27] wire [1:0] hi_lo_hi_3 = 2'h0; // @[CSR.scala:479:27] wire [1:0] hi_hi_lo_3 = 2'h0; // @[CSR.scala:479:27] wire [1:0] hi_hi_hi_3 = 2'h0; // @[CSR.scala:479:27] wire [1:0] _reset_mnstatus_WIRE_mpp = 2'h0; // @[CSR.scala:516:48] wire [1:0] _reg_menvcfg_WIRE_cbie = 2'h0; // @[CSR.scala:525:41] wire [1:0] _reg_senvcfg_WIRE_cbie = 2'h0; // @[CSR.scala:526:41] wire [1:0] _reg_henvcfg_WIRE_cbie = 2'h0; // @[CSR.scala:527:41] wire [1:0] _reg_hstatus_WIRE_vsxl = 2'h0; // @[CSR.scala:552:41] wire [1:0] _reg_hstatus_WIRE_zero3 = 2'h0; // @[CSR.scala:552:41] wire [1:0] _reg_hstatus_WIRE_zero2 = 2'h0; // @[CSR.scala:552:41] wire [1:0] read_hvip_lo_lo_hi = 2'h0; // @[CSR.scala:555:27] wire [1:0] read_hvip_lo_hi_hi = 2'h0; // @[CSR.scala:555:27] wire [1:0] read_hvip_hi_lo_hi = 2'h0; // @[CSR.scala:555:27] wire [1:0] read_hvip_hi_hi_lo = 2'h0; // @[CSR.scala:555:27] wire [1:0] pmp_cfg_res = 2'h0; // @[PMP.scala:24:19] wire [1:0] pmp_1_cfg_res = 2'h0; // @[PMP.scala:24:19] wire [1:0] pmp_2_cfg_res = 2'h0; // @[PMP.scala:24:19] wire [1:0] pmp_3_cfg_res = 2'h0; // @[PMP.scala:24:19] wire [1:0] pmp_4_cfg_res = 2'h0; // @[PMP.scala:24:19] wire [1:0] pmp_5_cfg_res = 2'h0; // @[PMP.scala:24:19] wire [1:0] pmp_6_cfg_res = 2'h0; // @[PMP.scala:24:19] wire [1:0] pmp_7_cfg_res = 2'h0; // @[PMP.scala:24:19] wire [1:0] read_mapping_lo_lo_hi = 2'h0; // @[CSR.scala:655:48] wire [1:0] read_mapping_lo_hi_lo = 2'h0; // @[CSR.scala:655:48] wire [1:0] read_mapping_lo_hi_hi = 2'h0; // @[CSR.scala:655:48] wire [1:0] read_mapping_hi_lo_hi = 2'h0; // @[CSR.scala:655:48] wire [1:0] read_mapping_lo_1 = 2'h0; // @[CSR.scala:657:47] wire [1:0] debug_csrs_lo_hi_hi = 2'h0; // @[CSR.scala:670:27] wire [1:0] _read_mnstatus_WIRE_mpp = 2'h0; // @[CSR.scala:675:44] wire [1:0] read_vcsr = 2'h0; // @[CSR.scala:695:22] wire [1:0] hi_hi_4 = 2'h0; // @[CSR.scala:742:49] wire [1:0] sie_mask_lo_lo_lo = 2'h0; // @[CSR.scala:750:59] wire [1:0] sie_mask_lo_lo_hi = 2'h0; // @[CSR.scala:750:59] wire [1:0] sie_mask_lo_hi_lo = 2'h0; // @[CSR.scala:750:59] wire [1:0] sie_mask_lo_hi_hi = 2'h0; // @[CSR.scala:750:59] wire [1:0] sie_mask_hi_lo_lo = 2'h0; // @[CSR.scala:750:59] wire [1:0] sie_mask_hi_lo_hi = 2'h0; // @[CSR.scala:750:59] wire [1:0] sie_mask_hi_hi_hi = 2'h0; // @[CSR.scala:750:59] wire [1:0] _read_sstatus_WIRE_dprv = 2'h0; // @[CSR.scala:755:48] wire [1:0] _read_sstatus_WIRE_prv = 2'h0; // @[CSR.scala:755:48] wire [1:0] _read_sstatus_WIRE_sxl = 2'h0; // @[CSR.scala:755:48] wire [1:0] _read_sstatus_WIRE_uxl = 2'h0; // @[CSR.scala:755:48] wire [1:0] _read_sstatus_WIRE_xs = 2'h0; // @[CSR.scala:755:48] wire [1:0] _read_sstatus_WIRE_fs = 2'h0; // @[CSR.scala:755:48] wire [1:0] _read_sstatus_WIRE_mpp = 2'h0; // @[CSR.scala:755:48] wire [1:0] _read_sstatus_WIRE_vs = 2'h0; // @[CSR.scala:755:48] wire [1:0] read_sstatus_dprv = 2'h0; // @[CSR.scala:755:35] wire [1:0] read_sstatus_prv = 2'h0; // @[CSR.scala:755:35] wire [1:0] read_sstatus_sxl = 2'h0; // @[CSR.scala:755:35] wire [1:0] read_sstatus_xs = 2'h0; // @[CSR.scala:755:35] wire [1:0] read_sstatus_mpp = 2'h0; // @[CSR.scala:755:35] wire [1:0] read_sstatus_vs = 2'h0; // @[CSR.scala:755:35] wire [1:0] lo_lo_lo_hi = 2'h0; // @[CSR.scala:768:51] wire [1:0] lo_hi_hi_hi_hi = 2'h0; // @[CSR.scala:768:51] wire [1:0] hi_lo_hi_hi_hi = 2'h0; // @[CSR.scala:768:51] wire [1:0] hi_hi_hi_hi_hi = 2'h0; // @[CSR.scala:768:51] wire [1:0] hi_hi_6 = 2'h0; // @[CSR.scala:780:49] wire [1:0] read_pmp_15_cfg_res = 2'h0; // @[CSR.scala:787:59] wire [1:0] read_pmp_15_cfg_a = 2'h0; // @[CSR.scala:787:59] wire [1:0] lo_hi_16 = 2'h0; // @[package.scala:45:36] wire [1:0] lo_hi_17 = 2'h0; // @[package.scala:45:36] wire [1:0] lo_hi_18 = 2'h0; // @[package.scala:45:36] wire [1:0] lo_hi_19 = 2'h0; // @[package.scala:45:36] wire [1:0] lo_hi_20 = 2'h0; // @[package.scala:45:36] wire [1:0] lo_hi_21 = 2'h0; // @[package.scala:45:36] wire [1:0] lo_hi_22 = 2'h0; // @[package.scala:45:36] wire [1:0] lo_hi_23 = 2'h0; // @[package.scala:45:36] wire [1:0] decoded_orMatrixOutputs_lo_lo = 2'h0; // @[pla.scala:102:36] wire [1:0] decoded_orMatrixOutputs_lo_lo_1 = 2'h0; // @[pla.scala:102:36] wire [1:0] decoded_orMatrixOutputs_lo_lo_2 = 2'h0; // @[pla.scala:102:36] wire [1:0] decoded_orMatrixOutputs_lo_lo_3 = 2'h0; // @[pla.scala:102:36] wire [1:0] nmiTVec = 2'h0; // @[CSR.scala:993:62] wire [1:0] new_mip_lo_lo_hi = 2'h0; // @[CSR.scala:1271:59] wire [1:0] new_mip_lo_hi_hi = 2'h0; // @[CSR.scala:1271:59] wire [1:0] new_mip_hi_lo_hi = 2'h0; // @[CSR.scala:1271:59] wire [1:0] new_mip_hi_hi_lo = 2'h0; // @[CSR.scala:1271:59] wire [1:0] _reg_bp_0_WIRE_control_zero = 2'h0; // @[CSR.scala:1613:23] wire [1:0] _reg_bp_0_WIRE_control_tmatch = 2'h0; // @[CSR.scala:1613:23] wire [1:0] _reg_bp_1_WIRE_control_zero = 2'h0; // @[CSR.scala:1613:23] wire [1:0] _reg_bp_1_WIRE_control_tmatch = 2'h0; // @[CSR.scala:1613:23] wire [15:0] io_ptbr_asid = 16'h0; // @[CSR.scala:377:7] wire [15:0] io_hgatp_asid = 16'h0; // @[CSR.scala:377:7] wire [15:0] io_vsatp_asid = 16'h0; // @[CSR.scala:377:7] wire [15:0] hs_delegable_interrupts = 16'h0; // @[CSR.scala:479:12] wire [15:0] mideleg_always_hs = 16'h0; // @[CSR.scala:479:27] wire [15:0] read_hvip = 16'h0; // @[CSR.scala:555:34] wire [15:0] read_hip = 16'h0; // @[CSR.scala:611:27] wire [15:0] lo_lo_8 = 16'h0; // @[package.scala:45:27] wire [15:0] lo_hi_24 = 16'h0; // @[package.scala:45:27] wire [15:0] hi_lo_8 = 16'h0; // @[package.scala:45:27] wire [15:0] hi_hi_24 = 16'h0; // @[package.scala:45:27] wire [15:0] _en_T = 16'h0; // @[CSR.scala:1096:49] wire [15:0] _delegable_T = 16'h0; // @[CSR.scala:1097:43] wire [15:0] _en_T_12 = 16'h0; // @[CSR.scala:1096:49] wire [15:0] _delegable_T_2 = 16'h0; // @[CSR.scala:1097:43] wire [15:0] _delegable_T_3 = 16'h0; // @[CSR.scala:1097:43] wire [15:0] _en_T_24 = 16'h0; // @[CSR.scala:1096:49] wire [15:0] _delegable_T_4 = 16'h0; // @[CSR.scala:1097:43] wire [15:0] _en_T_36 = 16'h0; // @[CSR.scala:1096:49] wire [15:0] _delegable_T_6 = 16'h0; // @[CSR.scala:1097:43] wire [15:0] _delegable_T_7 = 16'h0; // @[CSR.scala:1097:43] wire [15:0] _en_T_48 = 16'h0; // @[CSR.scala:1096:49] wire [15:0] _delegable_T_8 = 16'h0; // @[CSR.scala:1097:43] wire [15:0] _en_T_60 = 16'h0; // @[CSR.scala:1096:49] wire [15:0] _delegable_T_10 = 16'h0; // @[CSR.scala:1097:43] wire [15:0] _delegable_T_11 = 16'h0; // @[CSR.scala:1097:43] wire [15:0] _en_T_72 = 16'h0; // @[CSR.scala:1096:49] wire [15:0] _delegable_T_12 = 16'h0; // @[CSR.scala:1097:43] wire [15:0] _en_T_78 = 16'h0; // @[CSR.scala:1096:49] wire [15:0] _delegable_T_13 = 16'h0; // @[CSR.scala:1097:43] wire [15:0] _en_T_84 = 16'h0; // @[CSR.scala:1096:49] wire [15:0] _delegable_T_14 = 16'h0; // @[CSR.scala:1097:43] wire [15:0] _en_T_90 = 16'h0; // @[CSR.scala:1096:49] wire [15:0] _delegable_T_15 = 16'h0; // @[CSR.scala:1097:43] wire [15:0] _delegable_T_16 = 16'h0; // @[CSR.scala:1109:45] wire [15:0] _delegable_T_20 = 16'h0; // @[CSR.scala:1109:45] wire [15:0] _delegable_T_22 = 16'h0; // @[CSR.scala:1109:45] wire [15:0] _delegable_T_24 = 16'h0; // @[CSR.scala:1109:45] wire [15:0] _delegable_T_25 = 16'h0; // @[CSR.scala:1109:45] wire [5:0] io_hstatus_vgein = 6'h0; // @[CSR.scala:377:7] wire [5:0] _reg_hstatus_WIRE_vgein = 6'h0; // @[CSR.scala:552:41] wire [5:0] read_mapping_hi_lo = 6'h0; // @[CSR.scala:655:48] wire [5:0] hi_lo_hi_4 = 6'h0; // @[CSR.scala:768:51] wire [5:0] _reg_bp_0_WIRE_control_maskmax = 6'h0; // @[CSR.scala:1613:23] wire [5:0] _reg_bp_1_WIRE_control_maskmax = 6'h0; // @[CSR.scala:1613:23] wire [3:0] io_hgatp_mode = 4'h0; // @[CSR.scala:377:7] wire [3:0] io_vsatp_mode = 4'h0; // @[CSR.scala:377:7] wire [3:0] hi_hi = 4'h0; // @[CSR.scala:431:10] wire [3:0] hi_hi_1 = 4'h0; // @[CSR.scala:431:50] wire [3:0] lo_lo_2 = 4'h0; // @[CSR.scala:479:12] wire [3:0] lo_hi_2 = 4'h0; // @[CSR.scala:479:12] wire [3:0] hi_lo_2 = 4'h0; // @[CSR.scala:479:12] wire [3:0] hi_hi_2 = 4'h0; // @[CSR.scala:479:12] wire [3:0] lo_lo_3 = 4'h0; // @[CSR.scala:479:27] wire [3:0] lo_hi_3 = 4'h0; // @[CSR.scala:479:27] wire [3:0] hi_lo_3 = 4'h0; // @[CSR.scala:479:27] wire [3:0] hi_hi_3 = 4'h0; // @[CSR.scala:479:27] wire [3:0] read_mapping_lo_hi = 4'h0; // @[CSR.scala:655:48] wire [3:0] read_mapping_hi_lo_lo = 4'h0; // @[CSR.scala:655:48] wire [3:0] sie_mask_lo_lo = 4'h0; // @[CSR.scala:750:59] wire [3:0] sie_mask_lo_hi = 4'h0; // @[CSR.scala:750:59] wire [3:0] sie_mask_hi_lo = 4'h0; // @[CSR.scala:750:59] wire [3:0] lo_hi_lo_lo = 4'h0; // @[CSR.scala:768:51] wire [3:0] hi_hi_lo_hi = 4'h0; // @[CSR.scala:768:51] wire [3:0] _reg_bp_0_WIRE_control_ttype = 4'h0; // @[CSR.scala:1613:23] wire [3:0] _reg_bp_1_WIRE_control_ttype = 4'h0; // @[CSR.scala:1613:23] wire [63:0] io_customCSRs_0_sdata = 64'h0; // @[CSR.scala:377:7] wire [63:0] io_customCSRs_1_sdata = 64'h0; // @[CSR.scala:377:7] wire [63:0] read_hideleg = 64'h0; // @[CSR.scala:541:14] wire [63:0] read_hedeleg = 64'h0; // @[CSR.scala:545:14] wire [63:0] read_hie = 64'h0; // @[CSR.scala:556:26] wire [63:0] read_vstvec = 64'h0; // @[package.scala:132:15] wire [63:0] _vs_interrupts_T_6 = 64'h0; // @[CSR.scala:622:153] wire [63:0] vs_interrupts = 64'h0; // @[CSR.scala:622:26] wire [63:0] read_mapping_1_2 = 64'h0; // @[CSR.scala:655:48] wire [63:0] read_mapping_2_2 = 64'h0; // @[package.scala:132:15] wire [63:0] _io_rw_rdata_T_1 = 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_2 = 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_128 = 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_150 = 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_151 = 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_152 = 64'h0; // @[Mux.scala:30:73] wire [63:0] _reg_custom_1_T = 64'h0; // @[CSR.scala:1506:23] wire [63:0] _reg_custom_0_T_4 = 64'h0; // @[CSR.scala:1531:24] wire [63:0] _reg_custom_1_T_4 = 64'h0; // @[CSR.scala:1531:24] wire [29:0] io_hstatus_zero6 = 30'h0; // @[CSR.scala:377:7] wire [29:0] _reg_hstatus_WIRE_zero6 = 30'h0; // @[CSR.scala:552:41] wire [29:0] read_pmp_15_addr = 30'h0; // @[CSR.scala:787:59] wire [29:0] _io_rw_rdata_T_137 = 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_138 = 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_139 = 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_140 = 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_141 = 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_142 = 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_143 = 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_144 = 30'h0; // @[Mux.scala:30:73] wire [50:0] read_mapping_hi_hi = 51'h0; // @[CSR.scala:655:48] wire [50:0] read_mapping_3_2 = 51'h0; // @[CSR.scala:657:47] wire [50:0] _io_rw_rdata_T_3 = 51'h0; // @[Mux.scala:30:73] wire [1:0] reset_dcsr_xdebugver = 2'h1; // @[CSR.scala:400:31] wire [1:0] _read_mapping_T_4 = 2'h1; // @[CSR.scala:1665:36] wire [1:0] _debug_csrs_T_2 = 2'h1; // @[CSR.scala:1665:36] wire [1:0] sie_mask_hi_hi_lo = 2'h1; // @[CSR.scala:750:59] wire [1:0] _io_evec_T_2 = 2'h1; // @[CSR.scala:1665:36] wire [1:0] _io_evec_T_7 = 2'h1; // @[CSR.scala:1665:36] wire [1:0] _io_evec_T_12 = 2'h1; // @[CSR.scala:1665:36] wire [1:0] _io_evec_T_17 = 2'h1; // @[CSR.scala:1665:36] wire [1:0] _io_evec_T_22 = 2'h1; // @[CSR.scala:1665:36] wire [4:0] io_hstatus_zero1 = 5'h0; // @[CSR.scala:377:7] wire [4:0] _reg_hstatus_WIRE_zero1 = 5'h0; // @[CSR.scala:552:41] wire [4:0] read_mapping_hi_hi_hi = 5'h0; // @[CSR.scala:655:48] wire [4:0] hi_19 = 5'h0; // @[package.scala:45:36] wire [4:0] hi_20 = 5'h0; // @[package.scala:45:36] wire [4:0] hi_21 = 5'h0; // @[package.scala:45:36] wire [4:0] hi_22 = 5'h0; // @[package.scala:45:36] wire [4:0] hi_23 = 5'h0; // @[package.scala:45:36] wire [4:0] hi_24 = 5'h0; // @[package.scala:45:36] wire [4:0] hi_25 = 5'h0; // @[package.scala:45:36] wire [4:0] hi_26 = 5'h0; // @[package.scala:45:36] wire [2:0] _reset_dcsr_WIRE_cause = 3'h0; // @[CSR.scala:400:44] wire [2:0] reset_dcsr_cause = 3'h0; // @[CSR.scala:400:31] wire [2:0] _reset_mnstatus_WIRE_zero3 = 3'h0; // @[CSR.scala:516:48] wire [2:0] _reset_mnstatus_WIRE_zero2 = 3'h0; // @[CSR.scala:516:48] wire [2:0] _reset_mnstatus_WIRE_zero1 = 3'h0; // @[CSR.scala:516:48] wire [2:0] reset_mnstatus_zero3 = 3'h0; // @[CSR.scala:516:35] wire [2:0] reset_mnstatus_zero2 = 3'h0; // @[CSR.scala:516:35] wire [2:0] reset_mnstatus_zero1 = 3'h0; // @[CSR.scala:516:35] wire [2:0] _reg_menvcfg_WIRE_zero3 = 3'h0; // @[CSR.scala:525:41] wire [2:0] _reg_senvcfg_WIRE_zero3 = 3'h0; // @[CSR.scala:526:41] wire [2:0] _reg_henvcfg_WIRE_zero3 = 3'h0; // @[CSR.scala:527:41] wire [2:0] read_mapping_lo_lo = 3'h0; // @[CSR.scala:655:48] wire [2:0] _read_mnstatus_WIRE_zero3 = 3'h0; // @[CSR.scala:675:44] wire [2:0] _read_mnstatus_WIRE_zero2 = 3'h0; // @[CSR.scala:675:44] wire [2:0] _read_mnstatus_WIRE_zero1 = 3'h0; // @[CSR.scala:675:44] wire [2:0] read_mnstatus_zero3 = 3'h0; // @[CSR.scala:675:31] wire [2:0] read_mnstatus_zero2 = 3'h0; // @[CSR.scala:675:31] wire [2:0] read_mnstatus_zero1 = 3'h0; // @[CSR.scala:675:31] wire [2:0] lo_hi_4 = 3'h0; // @[CSR.scala:742:49] wire [2:0] hi_lo_hi_lo = 3'h0; // @[CSR.scala:768:51] wire [2:0] hi_lo_hi_hi = 3'h0; // @[CSR.scala:768:51] wire [2:0] hi_hi_lo_hi_hi = 3'h0; // @[CSR.scala:768:51] wire [2:0] hi_hi_hi_hi_4 = 3'h0; // @[CSR.scala:768:51] wire [2:0] lo_hi_6 = 3'h0; // @[CSR.scala:780:49] wire [2:0] lo_16 = 3'h0; // @[package.scala:45:36] wire [2:0] hi_hi_16 = 3'h0; // @[package.scala:45:36] wire [2:0] lo_17 = 3'h0; // @[package.scala:45:36] wire [2:0] hi_hi_17 = 3'h0; // @[package.scala:45:36] wire [2:0] lo_18 = 3'h0; // @[package.scala:45:36] wire [2:0] hi_hi_18 = 3'h0; // @[package.scala:45:36] wire [2:0] lo_19 = 3'h0; // @[package.scala:45:36] wire [2:0] hi_hi_19 = 3'h0; // @[package.scala:45:36] wire [2:0] lo_20 = 3'h0; // @[package.scala:45:36] wire [2:0] hi_hi_20 = 3'h0; // @[package.scala:45:36] wire [2:0] lo_21 = 3'h0; // @[package.scala:45:36] wire [2:0] hi_hi_21 = 3'h0; // @[package.scala:45:36] wire [2:0] lo_22 = 3'h0; // @[package.scala:45:36] wire [2:0] hi_hi_22 = 3'h0; // @[package.scala:45:36] wire [2:0] lo_23 = 3'h0; // @[package.scala:45:36] wire [2:0] hi_hi_23 = 3'h0; // @[package.scala:45:36] wire [56:0] read_mapping_hi = 57'h0; // @[CSR.scala:655:48] wire [56:0] hi_6 = 57'h0; // @[CSR.scala:742:49] wire [56:0] hi_9 = 57'h0; // @[CSR.scala:780:49] wire [54:0] hi_lo_4 = 55'h0; // @[CSR.scala:742:49] wire [54:0] hi_lo_6 = 55'h0; // @[CSR.scala:780:49] wire [8:0] io_hstatus_zero5 = 9'h0; // @[CSR.scala:377:7] wire [8:0] _reg_hstatus_WIRE_zero5 = 9'h0; // @[CSR.scala:552:41] wire [8:0] hi_lo_lo_lo = 9'h0; // @[CSR.scala:768:51] wire [1:0] io_gstatus_fs = 2'h3; // @[CSR.scala:377:7] wire [1:0] reset_mstatus_prv = 2'h3; // @[CSR.scala:391:34] wire [1:0] reset_mstatus_mpp = 2'h3; // @[CSR.scala:391:34] wire [1:0] reset_dcsr_prv = 2'h3; // @[CSR.scala:400:31] wire [1:0] reset_mnstatus_mpp = 2'h3; // @[CSR.scala:516:35] wire [1:0] read_mnstatus_mpp = 2'h3; // @[CSR.scala:675:31] wire [3:0] _which_T_64 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_65 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_66 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_67 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_68 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_69 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_70 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_71 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_72 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_73 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_74 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_75 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_76 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_77 = 4'h4; // @[Mux.scala:50:70] wire [3:0] _which_T_78 = 4'h4; // @[Mux.scala:50:70] wire [3:0] debug_csrs_hi_hi_hi = 4'h4; // @[CSR.scala:670:27] wire [48:0] read_mapping_hi_1 = 49'h0; // @[CSR.scala:657:47] wire [24:0] _read_mapping_T_1 = 25'h0; // @[package.scala:132:20] wire [45:0] read_mapping_hi_hi_lo = 46'h0; // @[CSR.scala:655:48] wire [6:0] read_mapping_lo = 7'h0; // @[CSR.scala:655:48] wire [2:0] read_mstatus_hi_lo_hi_lo = 3'h2; // @[CSR.scala:649:32] wire [43:0] io_hgatp_ppn = 44'h0; // @[CSR.scala:377:7] wire [43:0] io_vsatp_ppn = 44'h0; // @[CSR.scala:377:7] wire [47:0] _reg_bp_0_WIRE_textra_pad2 = 48'h0; // @[CSR.scala:1613:23] wire [47:0] _reg_bp_1_WIRE_textra_pad2 = 48'h0; // @[CSR.scala:1613:23] wire [38:0] _read_stvec_T_2 = 39'h0; // @[package.scala:174:46] wire [38:0] _reg_bp_0_WIRE_address = 39'h0; // @[CSR.scala:1613:23] wire [38:0] _reg_bp_1_WIRE_address = 39'h0; // @[CSR.scala:1613:23] wire [39:0] io_htval = 40'h0; // @[CSR.scala:377:7] wire [39:0] _reg_bp_0_WIRE_control_reserved = 40'h0; // @[CSR.scala:1613:23] wire [39:0] _reg_bp_1_WIRE_control_reserved = 40'h0; // @[CSR.scala:1613:23] wire [1:0] io_status_sxl = 2'h2; // @[CSR.scala:377:7] wire [1:0] io_status_uxl = 2'h2; // @[CSR.scala:377:7] wire [1:0] io_hstatus_vsxl = 2'h2; // @[CSR.scala:377:7] wire [1:0] io_gstatus_uxl = 2'h2; // @[CSR.scala:377:7] wire [1:0] lo_lo_lo = 2'h2; // @[CSR.scala:431:10] wire [1:0] lo_lo_hi = 2'h2; // @[CSR.scala:431:10] wire [1:0] lo_hi_lo = 2'h2; // @[CSR.scala:431:10] wire [1:0] lo_hi_hi = 2'h2; // @[CSR.scala:431:10] wire [1:0] hi_lo_lo = 2'h2; // @[CSR.scala:431:10] wire [1:0] hi_lo_hi = 2'h2; // @[CSR.scala:431:10] wire [1:0] lo_lo_lo_1 = 2'h2; // @[CSR.scala:431:50] wire [1:0] lo_hi_lo_1 = 2'h2; // @[CSR.scala:431:50] wire [1:0] hi_lo_lo_1 = 2'h2; // @[CSR.scala:431:50] wire [1:0] read_sstatus_uxl = 2'h2; // @[CSR.scala:755:35] wire [31:0] io_gstatus_isa = 32'h0; // @[CSR.scala:377:7] wire [31:0] io_inst_0 = 32'h0; // @[CSR.scala:377:7] wire [31:0] io_inst_1 = 32'h0; // @[CSR.scala:377:7] wire [31:0] io_inst_2 = 32'h0; // @[CSR.scala:377:7] wire [31:0] io_trace_0_insn = 32'h0; // @[CSR.scala:377:7] wire [31:0] io_trace_1_insn = 32'h0; // @[CSR.scala:377:7] wire [31:0] io_trace_2_insn = 32'h0; // @[CSR.scala:377:7] wire [31:0] _reset_mstatus_WIRE_isa = 32'h0; // @[CSR.scala:391:47] wire [31:0] reset_mstatus_isa = 32'h0; // @[CSR.scala:391:34] wire [31:0] read_hcounteren = 32'h0; // @[CSR.scala:550:14] wire [31:0] _read_mtvec_T_2 = 32'h0; // @[package.scala:174:46] wire [31:0] _read_sstatus_WIRE_isa = 32'h0; // @[CSR.scala:755:48] wire [31:0] read_sstatus_isa = 32'h0; // @[CSR.scala:755:35] wire [31:0] read_pmp_15_mask = 32'h0; // @[CSR.scala:787:59] wire [31:0] lo_24 = 32'h0; // @[package.scala:45:27] wire [31:0] hi_27 = 32'h0; // @[package.scala:45:27] wire [63:0] _s_interrupts_T_7 = 64'hFFFFFFFFFFFFFFFF; // @[CSR.scala:621:168] wire [63:0] _reg_custom_1_T_1 = 64'hFFFFFFFFFFFFFFFF; // @[CSR.scala:1506:40] wire [63:0] _reg_custom_1_T_5 = 64'hFFFFFFFFFFFFFFFF; // @[CSR.scala:1531:41] wire [63:0] _reg_custom_0_T_1 = 64'hFFFFFFFFFFFFFFF7; // @[CSR.scala:1506:40] wire [63:0] _reg_custom_0_T_5 = 64'hFFFFFFFFFFFFFFF7; // @[CSR.scala:1531:41] wire [63:0] _reg_mcountinhibit_T = 64'hFFFFFFFFFFFFFFFD; // @[CSR.scala:1306:78] wire [15:0] _sie_mask_T = 16'h1000; // @[CSR.scala:750:59] wire [15:0] _sie_mask_T_1 = 16'h1000; // @[CSR.scala:750:46] wire [15:0] _delegable_T_26 = 16'h1000; // @[CSR.scala:1109:45] wire [15:0] _en_T_18 = 16'h8; // @[CSR.scala:1096:49] wire [15:0] _delegable_T_18 = 16'h8; // @[CSR.scala:1109:45] wire [63:0] _en_T_94 = 64'h800000000000000F; // @[CSR.scala:1096:120] wire [63:0] _en_T_88 = 64'h800000000000000E; // @[CSR.scala:1096:120] wire [63:0] _en_T_82 = 64'h800000000000000D; // @[CSR.scala:1096:120] wire [63:0] _en_T_76 = 64'h800000000000000C; // @[CSR.scala:1096:120] wire [63:0] _en_T_70 = 64'h800000000000000B; // @[CSR.scala:1096:120] wire [15:0] _en_T_66 = 16'h800; // @[CSR.scala:1096:49] wire [63:0] _en_T_64 = 64'h800000000000000A; // @[CSR.scala:1096:120] wire [15:0] _en_T_54 = 16'h200; // @[CSR.scala:1096:49] wire [15:0] _delegable_T_9 = 16'h200; // @[CSR.scala:1097:43] wire [63:0] _en_T_58 = 64'h8000000000000009; // @[CSR.scala:1096:120] wire [63:0] _en_T_52 = 64'h8000000000000008; // @[CSR.scala:1096:120] wire [63:0] _en_T_46 = 64'h8000000000000007; // @[CSR.scala:1096:120] wire [15:0] _en_T_42 = 16'h80; // @[CSR.scala:1096:49] wire [63:0] _en_T_40 = 64'h8000000000000006; // @[CSR.scala:1096:120] wire [15:0] _en_T_30 = 16'h20; // @[CSR.scala:1096:49] wire [15:0] _delegable_T_5 = 16'h20; // @[CSR.scala:1097:43] wire [63:0] _en_T_34 = 64'h8000000000000005; // @[CSR.scala:1096:120] wire [63:0] _en_T_28 = 64'h8000000000000004; // @[CSR.scala:1096:120] wire [63:0] _en_T_22 = 64'h8000000000000003; // @[CSR.scala:1096:120] wire [63:0] _en_T_16 = 64'h8000000000000002; // @[CSR.scala:1096:120] wire [15:0] _en_T_6 = 16'h2; // @[CSR.scala:1096:49] wire [15:0] _delegable_T_1 = 16'h2; // @[CSR.scala:1097:43] wire [63:0] _en_T_10 = 64'h8000000000000001; // @[CSR.scala:1096:120] wire [63:0] _interruptCause_T_2 = 64'h8000000000000000; // @[CSR.scala:625:39] wire [63:0] _en_T_4 = 64'h8000000000000000; // @[CSR.scala:1096:120] wire [64:0] _interruptCause_T_1 = 65'h8000000000000000; // @[CSR.scala:625:39] wire [64:0] _en_T_3 = 65'h8000000000000000; // @[CSR.scala:1096:120] wire [9:0] _io_decode_0_write_flush_addr_m_T = 10'h300; // @[CSR.scala:932:36] wire [9:0] _io_decode_1_write_flush_addr_m_T = 10'h300; // @[CSR.scala:932:36] wire [9:0] _io_decode_2_write_flush_addr_m_T = 10'h300; // @[CSR.scala:932:36] wire [36:0] hi_hi_hi_4 = 37'h0; // @[CSR.scala:768:51] wire [33:0] hi_hi_hi_lo = 34'h0; // @[CSR.scala:768:51] wire [17:0] hi_lo_5 = 18'h800; // @[CSR.scala:768:51] wire [11:0] hi_lo_lo_4 = 12'h800; // @[CSR.scala:768:51] wire [2:0] _which_T_63 = 3'h4; // @[Mux.scala:50:70] wire [2:0] read_mstatus_hi_lo_lo_hi = 3'h4; // @[CSR.scala:649:32] wire [2:0] hi_lo_lo_hi = 3'h4; // @[CSR.scala:768:51] wire [15:0] _sie_mask_T_2 = 16'hEFFF; // @[CSR.scala:750:20] wire [7:0] sie_mask_hi = 8'h10; // @[CSR.scala:750:59] wire [3:0] sie_mask_hi_hi = 4'h1; // @[CSR.scala:750:59] wire [53:0] _reg_menvcfg_WIRE_zero54 = 54'h0; // @[CSR.scala:525:41] wire [53:0] _reg_senvcfg_WIRE_zero54 = 54'h0; // @[CSR.scala:526:41] wire [53:0] _reg_henvcfg_WIRE_zero54 = 54'h0; // @[CSR.scala:527:41] wire [15:0] delegable_interrupts = 16'h222; // @[CSR.scala:431:50] wire [7:0] hi_1 = 8'h2; // @[CSR.scala:431:50] wire [3:0] lo_lo_1 = 4'h2; // @[CSR.scala:431:50] wire [3:0] lo_hi_1 = 4'h2; // @[CSR.scala:431:50] wire [3:0] hi_lo_1 = 4'h2; // @[CSR.scala:431:50] wire [7:0] lo_1 = 8'h22; // @[CSR.scala:431:50] wire [15:0] supported_interrupts = 16'hAAA; // @[CSR.scala:431:17] wire [7:0] hi = 8'hA; // @[CSR.scala:431:10] wire [3:0] lo_lo = 4'hA; // @[CSR.scala:431:10] wire [3:0] lo_hi = 4'hA; // @[CSR.scala:431:10] wire [3:0] hi_lo = 4'hA; // @[CSR.scala:431:10] wire [7:0] lo = 8'hAA; // @[CSR.scala:431:10] wire [11:0] _reset_dcsr_WIRE_zero3 = 12'h0; // @[CSR.scala:400:44] wire [11:0] reset_dcsr_zero3 = 12'h0; // @[CSR.scala:400:31] wire [15:0] _delegable_T_27 = 16'h2000; // @[CSR.scala:1109:45] wire [15:0] _delegable_T_23 = 16'h100; // @[CSR.scala:1109:45] wire [15:0] _delegable_T_21 = 16'h40; // @[CSR.scala:1109:45] wire [15:0] _delegable_T_19 = 16'h10; // @[CSR.scala:1109:45] wire [15:0] _delegable_T_17 = 16'h4; // @[CSR.scala:1109:45] wire [64:0] _en_T_93 = 65'h800000000000000F; // @[CSR.scala:1096:120] wire [64:0] _en_T_87 = 65'h800000000000000E; // @[CSR.scala:1096:120] wire [64:0] _en_T_81 = 65'h800000000000000D; // @[CSR.scala:1096:120] wire [64:0] _en_T_75 = 65'h800000000000000C; // @[CSR.scala:1096:120] wire [64:0] _en_T_69 = 65'h800000000000000B; // @[CSR.scala:1096:120] wire [64:0] _en_T_63 = 65'h800000000000000A; // @[CSR.scala:1096:120] wire [64:0] _en_T_57 = 65'h8000000000000009; // @[CSR.scala:1096:120] wire [64:0] _en_T_51 = 65'h8000000000000008; // @[CSR.scala:1096:120] wire [64:0] _en_T_45 = 65'h8000000000000007; // @[CSR.scala:1096:120] wire [64:0] _en_T_39 = 65'h8000000000000006; // @[CSR.scala:1096:120] wire [64:0] _en_T_33 = 65'h8000000000000005; // @[CSR.scala:1096:120] wire [64:0] _en_T_27 = 65'h8000000000000004; // @[CSR.scala:1096:120] wire [64:0] _en_T_21 = 65'h8000000000000003; // @[CSR.scala:1096:120] wire [64:0] _en_T_15 = 65'h8000000000000002; // @[CSR.scala:1096:120] wire [64:0] _en_T_9 = 65'h8000000000000001; // @[CSR.scala:1096:120] wire [62:0] _interruptCause_T = 63'h0; // @[CSR.scala:625:50] wire [15:0] _delegable_T_28 = 16'h8000; // @[CSR.scala:1109:45] wire [39:0] _io_evec_T_15 = 40'hFFFFFFFFFF; // @[CSR.scala:1665:28] wire mip_mtip = io_interrupts_mtip_0; // @[CSR.scala:377:7, :600:24] wire mip_msip = io_interrupts_msip_0; // @[CSR.scala:377:7, :600:24] wire mip_meip = io_interrupts_meip_0; // @[CSR.scala:377:7, :600:24] wire [63:0] _io_rw_rdata_WIRE; // @[Mux.scala:30:73] wire [31:0] decoded_plaInput_1 = io_decode_0_inst_0; // @[pla.scala:77:22] wire _io_decode_0_fp_illegal_T_6; // @[CSR.scala:915:91] wire _io_decode_0_fp_csr_T; // @[Decode.scala:55:116] wire _io_decode_0_read_illegal_T_20; // @[CSR.scala:928:68] wire _io_decode_0_write_illegal_T_1; // @[CSR.scala:930:41] wire _io_decode_0_write_flush_T_3; // @[CSR.scala:933:7] wire _io_decode_0_system_illegal_T_25; // @[CSR.scala:940:44] wire _io_decode_0_virtual_access_illegal_T_29; // @[CSR.scala:943:66] wire _io_decode_0_virtual_system_illegal_T_22; // @[CSR.scala:949:52] wire [31:0] decoded_plaInput_2 = io_decode_1_inst_0; // @[pla.scala:77:22] wire _io_decode_1_fp_illegal_T_6; // @[CSR.scala:915:91] wire _io_decode_1_fp_csr_T; // @[Decode.scala:55:116] wire _io_decode_1_read_illegal_T_20; // @[CSR.scala:928:68] wire _io_decode_1_write_illegal_T_1; // @[CSR.scala:930:41] wire _io_decode_1_write_flush_T_3; // @[CSR.scala:933:7] wire _io_decode_1_system_illegal_T_25; // @[CSR.scala:940:44] wire _io_decode_1_virtual_access_illegal_T_29; // @[CSR.scala:943:66] wire _io_decode_1_virtual_system_illegal_T_22; // @[CSR.scala:949:52] wire [31:0] decoded_plaInput_3 = io_decode_2_inst_0; // @[pla.scala:77:22] wire _io_decode_2_fp_illegal_T_6; // @[CSR.scala:915:91] wire _io_decode_2_fp_csr_T; // @[Decode.scala:55:116] wire _io_decode_2_read_illegal_T_20; // @[CSR.scala:928:68] wire _io_decode_2_write_illegal_T_1; // @[CSR.scala:930:41] wire _io_decode_2_write_flush_T_3; // @[CSR.scala:933:7] wire _io_decode_2_system_illegal_T_25; // @[CSR.scala:940:44] wire _io_decode_2_virtual_access_illegal_T_29; // @[CSR.scala:943:66] wire _io_decode_2_virtual_system_illegal_T_22; // @[CSR.scala:949:52] wire _io_csr_stall_T; // @[CSR.scala:1161:27] wire _io_eret_T_1; // @[CSR.scala:1000:38] wire _io_singleStep_T_1; // @[CSR.scala:1001:34] wire [1:0] _io_status_dprv_T_2; // @[CSR.scala:1008:24] wire _io_status_dv_T_3; // @[CSR.scala:1009:33] wire _io_status_sd_T_4; // @[CSR.scala:1003:58] wire read_sstatus_sd = io_status_sd_0; // @[CSR.scala:377:7, :755:35] wire read_sstatus_mxr = io_status_mxr_0; // @[CSR.scala:377:7, :755:35] wire read_sstatus_sum = io_status_sum_0; // @[CSR.scala:377:7, :755:35] wire [1:0] read_sstatus_fs = io_status_fs_0; // @[CSR.scala:377:7, :755:35] wire read_sstatus_spp = io_status_spp_0; // @[CSR.scala:377:7, :755:35] wire read_sstatus_spie = io_status_spie_0; // @[CSR.scala:377:7, :755:35] wire read_sstatus_sie = io_status_sie_0; // @[CSR.scala:377:7, :755:35] wire [39:0] io_trace_0_iaddr = io_pc_0; // @[CSR.scala:377:7] wire [39:0] io_trace_1_iaddr = io_pc_0; // @[CSR.scala:377:7] wire [39:0] io_trace_2_iaddr = io_pc_0; // @[CSR.scala:377:7] wire [39:0] io_trace_0_tval = io_tval_0; // @[CSR.scala:377:7] wire [39:0] io_trace_1_tval = io_tval_0; // @[CSR.scala:377:7] wire [39:0] io_trace_2_tval = io_tval_0; // @[CSR.scala:377:7] wire [63:0] value_1; // @[Counters.scala:55:30] wire _io_interrupt_T_5; // @[CSR.scala:626:73] wire [63:0] interruptCause; // @[CSR.scala:625:63] wire pmp_cfg_l; // @[PMP.scala:24:19] wire [1:0] pmp_cfg_a; // @[PMP.scala:24:19] wire pmp_cfg_x; // @[PMP.scala:24:19] wire pmp_cfg_w; // @[PMP.scala:24:19] wire pmp_cfg_r; // @[PMP.scala:24:19] wire [29:0] pmp_addr; // @[PMP.scala:24:19] wire [31:0] pmp_mask; // @[PMP.scala:24:19] wire pmp_1_cfg_l; // @[PMP.scala:24:19] wire [1:0] pmp_1_cfg_a; // @[PMP.scala:24:19] wire pmp_1_cfg_x; // @[PMP.scala:24:19] wire pmp_1_cfg_w; // @[PMP.scala:24:19] wire pmp_1_cfg_r; // @[PMP.scala:24:19] wire [29:0] pmp_1_addr; // @[PMP.scala:24:19] wire [31:0] pmp_1_mask; // @[PMP.scala:24:19] wire pmp_2_cfg_l; // @[PMP.scala:24:19] wire [1:0] pmp_2_cfg_a; // @[PMP.scala:24:19] wire pmp_2_cfg_x; // @[PMP.scala:24:19] wire pmp_2_cfg_w; // @[PMP.scala:24:19] wire pmp_2_cfg_r; // @[PMP.scala:24:19] wire [29:0] pmp_2_addr; // @[PMP.scala:24:19] wire [31:0] pmp_2_mask; // @[PMP.scala:24:19] wire pmp_3_cfg_l; // @[PMP.scala:24:19] wire [1:0] pmp_3_cfg_a; // @[PMP.scala:24:19] wire pmp_3_cfg_x; // @[PMP.scala:24:19] wire pmp_3_cfg_w; // @[PMP.scala:24:19] wire pmp_3_cfg_r; // @[PMP.scala:24:19] wire [29:0] pmp_3_addr; // @[PMP.scala:24:19] wire [31:0] pmp_3_mask; // @[PMP.scala:24:19] wire pmp_4_cfg_l; // @[PMP.scala:24:19] wire [1:0] pmp_4_cfg_a; // @[PMP.scala:24:19] wire pmp_4_cfg_x; // @[PMP.scala:24:19] wire pmp_4_cfg_w; // @[PMP.scala:24:19] wire pmp_4_cfg_r; // @[PMP.scala:24:19] wire [29:0] pmp_4_addr; // @[PMP.scala:24:19] wire [31:0] pmp_4_mask; // @[PMP.scala:24:19] wire pmp_5_cfg_l; // @[PMP.scala:24:19] wire [1:0] pmp_5_cfg_a; // @[PMP.scala:24:19] wire pmp_5_cfg_x; // @[PMP.scala:24:19] wire pmp_5_cfg_w; // @[PMP.scala:24:19] wire pmp_5_cfg_r; // @[PMP.scala:24:19] wire [29:0] pmp_5_addr; // @[PMP.scala:24:19] wire [31:0] pmp_5_mask; // @[PMP.scala:24:19] wire pmp_6_cfg_l; // @[PMP.scala:24:19] wire [1:0] pmp_6_cfg_a; // @[PMP.scala:24:19] wire pmp_6_cfg_x; // @[PMP.scala:24:19] wire pmp_6_cfg_w; // @[PMP.scala:24:19] wire pmp_6_cfg_r; // @[PMP.scala:24:19] wire [29:0] pmp_6_addr; // @[PMP.scala:24:19] wire [31:0] pmp_6_mask; // @[PMP.scala:24:19] wire pmp_7_cfg_l; // @[PMP.scala:24:19] wire [1:0] pmp_7_cfg_a; // @[PMP.scala:24:19] wire pmp_7_cfg_x; // @[PMP.scala:24:19] wire pmp_7_cfg_w; // @[PMP.scala:24:19] wire pmp_7_cfg_r; // @[PMP.scala:24:19] wire [29:0] pmp_7_addr; // @[PMP.scala:24:19] wire [31:0] pmp_7_mask; // @[PMP.scala:24:19] wire [31:0] _io_csrw_counter_T_11; // @[CSR.scala:1223:25] wire _io_inhibit_cycle_T; // @[CSR.scala:591:40] wire _io_trace_0_valid_T_1; // @[CSR.scala:1621:32] wire [2:0] _io_trace_0_priv_T; // @[CSR.scala:1624:18] wire _io_trace_0_exception_T_1; // @[CSR.scala:1620:37] wire _io_trace_0_interrupt_T; // @[CSR.scala:1626:25] wire [63:0] cause; // @[CSR.scala:959:8] wire _io_trace_1_valid_T_1; // @[CSR.scala:1621:32] wire [2:0] _io_trace_1_priv_T; // @[CSR.scala:1624:18] wire _io_trace_1_exception_T_1; // @[CSR.scala:1620:37] wire _io_trace_1_interrupt_T; // @[CSR.scala:1626:25] wire _io_trace_2_valid_T_1; // @[CSR.scala:1621:32] wire [2:0] _io_trace_2_priv_T; // @[CSR.scala:1624:18] wire _io_trace_2_exception_T_1; // @[CSR.scala:1620:37] wire _io_trace_2_interrupt_T; // @[CSR.scala:1626:25] wire _io_fiom_T_6; // @[CSR.scala:631:113] wire reg_custom_read; // @[CSR.scala:799:36] wire [63:0] wdata; // @[CSR.scala:1643:39] wire reg_custom_read_1; // @[CSR.scala:799:36] wire [63:0] io_rw_rdata_0; // @[CSR.scala:377:7] wire io_decode_0_fp_illegal_0; // @[CSR.scala:377:7] wire io_decode_0_fp_csr_0; // @[CSR.scala:377:7] wire io_decode_0_read_illegal_0; // @[CSR.scala:377:7] wire io_decode_0_write_illegal_0; // @[CSR.scala:377:7] wire io_decode_0_write_flush_0; // @[CSR.scala:377:7] wire io_decode_0_system_illegal_0; // @[CSR.scala:377:7] wire io_decode_0_virtual_access_illegal_0; // @[CSR.scala:377:7] wire io_decode_0_virtual_system_illegal_0; // @[CSR.scala:377:7] wire io_decode_1_fp_illegal_0; // @[CSR.scala:377:7] wire io_decode_1_fp_csr_0; // @[CSR.scala:377:7] wire io_decode_1_read_illegal_0; // @[CSR.scala:377:7] wire io_decode_1_write_illegal_0; // @[CSR.scala:377:7] wire io_decode_1_write_flush_0; // @[CSR.scala:377:7] wire io_decode_1_system_illegal_0; // @[CSR.scala:377:7] wire io_decode_1_virtual_access_illegal_0; // @[CSR.scala:377:7] wire io_decode_1_virtual_system_illegal_0; // @[CSR.scala:377:7] wire io_decode_2_fp_illegal_0; // @[CSR.scala:377:7] wire io_decode_2_fp_csr_0; // @[CSR.scala:377:7] wire io_decode_2_read_illegal_0; // @[CSR.scala:377:7] wire io_decode_2_write_illegal_0; // @[CSR.scala:377:7] wire io_decode_2_write_flush_0; // @[CSR.scala:377:7] wire io_decode_2_system_illegal_0; // @[CSR.scala:377:7] wire io_decode_2_virtual_access_illegal_0; // @[CSR.scala:377:7] wire io_decode_2_virtual_system_illegal_0; // @[CSR.scala:377:7] wire io_status_debug_0; // @[CSR.scala:377:7] wire io_status_cease_0; // @[CSR.scala:377:7] wire io_status_wfi_0; // @[CSR.scala:377:7] wire [1:0] io_status_dprv_0; // @[CSR.scala:377:7] wire io_status_dv_0; // @[CSR.scala:377:7] wire [1:0] io_status_prv_0; // @[CSR.scala:377:7] wire io_status_v_0; // @[CSR.scala:377:7] wire io_status_mpv_0; // @[CSR.scala:377:7] wire io_status_gva_0; // @[CSR.scala:377:7] wire io_status_tsr_0; // @[CSR.scala:377:7] wire io_status_tw_0; // @[CSR.scala:377:7] wire io_status_tvm_0; // @[CSR.scala:377:7] wire io_status_mprv_0; // @[CSR.scala:377:7] wire [1:0] io_status_mpp_0; // @[CSR.scala:377:7] wire io_status_mpie_0; // @[CSR.scala:377:7] wire io_status_mie_0; // @[CSR.scala:377:7] wire io_hstatus_spvp; // @[CSR.scala:377:7] wire io_hstatus_spv; // @[CSR.scala:377:7] wire io_hstatus_gva; // @[CSR.scala:377:7] wire io_gstatus_spp; // @[CSR.scala:377:7] wire io_gstatus_spie; // @[CSR.scala:377:7] wire io_gstatus_sie; // @[CSR.scala:377:7] wire [3:0] io_ptbr_mode_0; // @[CSR.scala:377:7] wire [43:0] io_ptbr_ppn_0; // @[CSR.scala:377:7] wire io_pmp_0_cfg_l_0; // @[CSR.scala:377:7] wire [1:0] io_pmp_0_cfg_a_0; // @[CSR.scala:377:7] wire io_pmp_0_cfg_x_0; // @[CSR.scala:377:7] wire io_pmp_0_cfg_w_0; // @[CSR.scala:377:7] wire io_pmp_0_cfg_r_0; // @[CSR.scala:377:7] wire [29:0] io_pmp_0_addr_0; // @[CSR.scala:377:7] wire [31:0] io_pmp_0_mask_0; // @[CSR.scala:377:7] wire io_pmp_1_cfg_l_0; // @[CSR.scala:377:7] wire [1:0] io_pmp_1_cfg_a_0; // @[CSR.scala:377:7] wire io_pmp_1_cfg_x_0; // @[CSR.scala:377:7] wire io_pmp_1_cfg_w_0; // @[CSR.scala:377:7] wire io_pmp_1_cfg_r_0; // @[CSR.scala:377:7] wire [29:0] io_pmp_1_addr_0; // @[CSR.scala:377:7] wire [31:0] io_pmp_1_mask_0; // @[CSR.scala:377:7] wire io_pmp_2_cfg_l_0; // @[CSR.scala:377:7] wire [1:0] io_pmp_2_cfg_a_0; // @[CSR.scala:377:7] wire io_pmp_2_cfg_x_0; // @[CSR.scala:377:7] wire io_pmp_2_cfg_w_0; // @[CSR.scala:377:7] wire io_pmp_2_cfg_r_0; // @[CSR.scala:377:7] wire [29:0] io_pmp_2_addr_0; // @[CSR.scala:377:7] wire [31:0] io_pmp_2_mask_0; // @[CSR.scala:377:7] wire io_pmp_3_cfg_l_0; // @[CSR.scala:377:7] wire [1:0] io_pmp_3_cfg_a_0; // @[CSR.scala:377:7] wire io_pmp_3_cfg_x_0; // @[CSR.scala:377:7] wire io_pmp_3_cfg_w_0; // @[CSR.scala:377:7] wire io_pmp_3_cfg_r_0; // @[CSR.scala:377:7] wire [29:0] io_pmp_3_addr_0; // @[CSR.scala:377:7] wire [31:0] io_pmp_3_mask_0; // @[CSR.scala:377:7] wire io_pmp_4_cfg_l_0; // @[CSR.scala:377:7] wire [1:0] io_pmp_4_cfg_a_0; // @[CSR.scala:377:7] wire io_pmp_4_cfg_x_0; // @[CSR.scala:377:7] wire io_pmp_4_cfg_w_0; // @[CSR.scala:377:7] wire io_pmp_4_cfg_r_0; // @[CSR.scala:377:7] wire [29:0] io_pmp_4_addr_0; // @[CSR.scala:377:7] wire [31:0] io_pmp_4_mask_0; // @[CSR.scala:377:7] wire io_pmp_5_cfg_l_0; // @[CSR.scala:377:7] wire [1:0] io_pmp_5_cfg_a_0; // @[CSR.scala:377:7] wire io_pmp_5_cfg_x_0; // @[CSR.scala:377:7] wire io_pmp_5_cfg_w_0; // @[CSR.scala:377:7] wire io_pmp_5_cfg_r_0; // @[CSR.scala:377:7] wire [29:0] io_pmp_5_addr_0; // @[CSR.scala:377:7] wire [31:0] io_pmp_5_mask_0; // @[CSR.scala:377:7] wire io_pmp_6_cfg_l_0; // @[CSR.scala:377:7] wire [1:0] io_pmp_6_cfg_a_0; // @[CSR.scala:377:7] wire io_pmp_6_cfg_x_0; // @[CSR.scala:377:7] wire io_pmp_6_cfg_w_0; // @[CSR.scala:377:7] wire io_pmp_6_cfg_r_0; // @[CSR.scala:377:7] wire [29:0] io_pmp_6_addr_0; // @[CSR.scala:377:7] wire [31:0] io_pmp_6_mask_0; // @[CSR.scala:377:7] wire io_pmp_7_cfg_l_0; // @[CSR.scala:377:7] wire [1:0] io_pmp_7_cfg_a_0; // @[CSR.scala:377:7] wire io_pmp_7_cfg_x_0; // @[CSR.scala:377:7] wire io_pmp_7_cfg_w_0; // @[CSR.scala:377:7] wire io_pmp_7_cfg_r_0; // @[CSR.scala:377:7] wire [29:0] io_pmp_7_addr_0; // @[CSR.scala:377:7] wire [31:0] io_pmp_7_mask_0; // @[CSR.scala:377:7] wire io_trace_0_valid; // @[CSR.scala:377:7] wire [2:0] io_trace_0_priv; // @[CSR.scala:377:7] wire io_trace_0_exception; // @[CSR.scala:377:7] wire io_trace_0_interrupt; // @[CSR.scala:377:7] wire [63:0] io_trace_0_cause; // @[CSR.scala:377:7] wire io_trace_1_valid; // @[CSR.scala:377:7] wire [2:0] io_trace_1_priv; // @[CSR.scala:377:7] wire io_trace_1_exception; // @[CSR.scala:377:7] wire io_trace_1_interrupt; // @[CSR.scala:377:7] wire [63:0] io_trace_1_cause; // @[CSR.scala:377:7] wire io_trace_2_valid; // @[CSR.scala:377:7] wire [2:0] io_trace_2_priv; // @[CSR.scala:377:7] wire io_trace_2_exception; // @[CSR.scala:377:7] wire io_trace_2_interrupt; // @[CSR.scala:377:7] wire [63:0] io_trace_2_cause; // @[CSR.scala:377:7] wire io_customCSRs_0_ren_0; // @[CSR.scala:377:7] wire io_customCSRs_0_wen_0; // @[CSR.scala:377:7] wire [63:0] io_customCSRs_0_wdata_0; // @[CSR.scala:377:7] wire [63:0] io_customCSRs_0_value_0; // @[CSR.scala:377:7] wire io_customCSRs_1_ren_0; // @[CSR.scala:377:7] wire io_customCSRs_1_wen_0; // @[CSR.scala:377:7] wire [63:0] io_customCSRs_1_wdata_0; // @[CSR.scala:377:7] wire [63:0] io_customCSRs_1_value_0; // @[CSR.scala:377:7] wire io_csr_stall_0; // @[CSR.scala:377:7] wire io_eret; // @[CSR.scala:377:7] wire io_singleStep_0; // @[CSR.scala:377:7] wire [39:0] io_evec_0; // @[CSR.scala:377:7] wire [63:0] io_time_0; // @[CSR.scala:377:7] wire [2:0] io_fcsr_rm_0; // @[CSR.scala:377:7] wire io_interrupt_0; // @[CSR.scala:377:7] wire [63:0] io_interrupt_cause_0; // @[CSR.scala:377:7] wire [31:0] io_csrw_counter; // @[CSR.scala:377:7] wire io_inhibit_cycle; // @[CSR.scala:377:7] wire io_fiom; // @[CSR.scala:377:7] reg [1:0] reg_mstatus_prv; // @[CSR.scala:395:28] assign io_status_prv_0 = reg_mstatus_prv; // @[CSR.scala:377:7, :395:28] reg reg_mstatus_v; // @[CSR.scala:395:28] assign io_status_v_0 = reg_mstatus_v; // @[CSR.scala:377:7, :395:28] wire _io_decode_0_rocc_illegal_T_2 = reg_mstatus_v; // @[CSR.scala:395:28, :919:66] wire _io_decode_1_rocc_illegal_T_2 = reg_mstatus_v; // @[CSR.scala:395:28, :919:66] wire _io_decode_2_rocc_illegal_T_2 = reg_mstatus_v; // @[CSR.scala:395:28, :919:66] reg reg_mstatus_mpv; // @[CSR.scala:395:28] assign io_status_mpv_0 = reg_mstatus_mpv; // @[CSR.scala:377:7, :395:28] reg reg_mstatus_gva; // @[CSR.scala:395:28] assign io_status_gva_0 = reg_mstatus_gva; // @[CSR.scala:377:7, :395:28] reg reg_mstatus_tsr; // @[CSR.scala:395:28] assign io_status_tsr_0 = reg_mstatus_tsr; // @[CSR.scala:377:7, :395:28] reg reg_mstatus_tw; // @[CSR.scala:395:28] assign io_status_tw_0 = reg_mstatus_tw; // @[CSR.scala:377:7, :395:28] reg reg_mstatus_tvm; // @[CSR.scala:395:28] assign io_status_tvm_0 = reg_mstatus_tvm; // @[CSR.scala:377:7, :395:28] reg reg_mstatus_mxr; // @[CSR.scala:395:28] assign io_status_mxr_0 = reg_mstatus_mxr; // @[CSR.scala:377:7, :395:28] reg reg_mstatus_sum; // @[CSR.scala:395:28] assign io_status_sum_0 = reg_mstatus_sum; // @[CSR.scala:377:7, :395:28] reg reg_mstatus_mprv; // @[CSR.scala:395:28] assign io_status_mprv_0 = reg_mstatus_mprv; // @[CSR.scala:377:7, :395:28] reg [1:0] reg_mstatus_fs; // @[CSR.scala:395:28] assign io_status_fs_0 = reg_mstatus_fs; // @[CSR.scala:377:7, :395:28] reg [1:0] reg_mstatus_mpp; // @[CSR.scala:395:28] assign io_status_mpp_0 = reg_mstatus_mpp; // @[CSR.scala:377:7, :395:28] reg reg_mstatus_spp; // @[CSR.scala:395:28] assign io_status_spp_0 = reg_mstatus_spp; // @[CSR.scala:377:7, :395:28] reg reg_mstatus_mpie; // @[CSR.scala:395:28] assign io_status_mpie_0 = reg_mstatus_mpie; // @[CSR.scala:377:7, :395:28] reg reg_mstatus_spie; // @[CSR.scala:395:28] assign io_status_spie_0 = reg_mstatus_spie; // @[CSR.scala:377:7, :395:28] reg reg_mstatus_mie; // @[CSR.scala:395:28] assign io_status_mie_0 = reg_mstatus_mie; // @[CSR.scala:377:7, :395:28] reg reg_mstatus_sie; // @[CSR.scala:395:28] assign io_status_sie_0 = reg_mstatus_sie; // @[CSR.scala:377:7, :395:28] wire [1:0] new_prv; // @[CSR.scala:397:28] wire _reg_mstatus_prv_T = new_prv == 2'h2; // @[CSR.scala:397:28, :1647:35] wire [1:0] _reg_mstatus_prv_T_1 = _reg_mstatus_prv_T ? 2'h0 : new_prv; // @[CSR.scala:397:28, :1647:{29,35}] reg reg_dcsr_ebreakm; // @[CSR.scala:403:25] reg reg_dcsr_ebreaks; // @[CSR.scala:403:25] reg reg_dcsr_ebreaku; // @[CSR.scala:403:25] reg [2:0] reg_dcsr_cause; // @[CSR.scala:403:25] reg reg_dcsr_v; // @[CSR.scala:403:25] reg reg_dcsr_step; // @[CSR.scala:403:25] reg [1:0] reg_dcsr_prv; // @[CSR.scala:403:25] reg reg_debug; // @[CSR.scala:482:26] assign io_status_debug_0 = reg_debug; // @[CSR.scala:377:7, :482:26] reg [39:0] reg_dpc; // @[CSR.scala:483:20] reg [63:0] reg_dscratch0; // @[CSR.scala:484:26] reg reg_singleStepped; // @[CSR.scala:486:30] reg reg_pmp_0_cfg_l; // @[CSR.scala:493:20] assign pmp_cfg_l = reg_pmp_0_cfg_l; // @[PMP.scala:24:19] reg [1:0] reg_pmp_0_cfg_a; // @[CSR.scala:493:20] assign pmp_cfg_a = reg_pmp_0_cfg_a; // @[PMP.scala:24:19] reg reg_pmp_0_cfg_x; // @[CSR.scala:493:20] assign pmp_cfg_x = reg_pmp_0_cfg_x; // @[PMP.scala:24:19] reg reg_pmp_0_cfg_w; // @[CSR.scala:493:20] assign pmp_cfg_w = reg_pmp_0_cfg_w; // @[PMP.scala:24:19] reg reg_pmp_0_cfg_r; // @[CSR.scala:493:20] assign pmp_cfg_r = reg_pmp_0_cfg_r; // @[PMP.scala:24:19] reg [29:0] reg_pmp_0_addr; // @[CSR.scala:493:20] assign pmp_addr = reg_pmp_0_addr; // @[PMP.scala:24:19] reg reg_pmp_1_cfg_l; // @[CSR.scala:493:20] assign pmp_1_cfg_l = reg_pmp_1_cfg_l; // @[PMP.scala:24:19] reg [1:0] reg_pmp_1_cfg_a; // @[CSR.scala:493:20] assign pmp_1_cfg_a = reg_pmp_1_cfg_a; // @[PMP.scala:24:19] reg reg_pmp_1_cfg_x; // @[CSR.scala:493:20] assign pmp_1_cfg_x = reg_pmp_1_cfg_x; // @[PMP.scala:24:19] reg reg_pmp_1_cfg_w; // @[CSR.scala:493:20] assign pmp_1_cfg_w = reg_pmp_1_cfg_w; // @[PMP.scala:24:19] reg reg_pmp_1_cfg_r; // @[CSR.scala:493:20] assign pmp_1_cfg_r = reg_pmp_1_cfg_r; // @[PMP.scala:24:19] reg [29:0] reg_pmp_1_addr; // @[CSR.scala:493:20] assign pmp_1_addr = reg_pmp_1_addr; // @[PMP.scala:24:19] reg reg_pmp_2_cfg_l; // @[CSR.scala:493:20] assign pmp_2_cfg_l = reg_pmp_2_cfg_l; // @[PMP.scala:24:19] reg [1:0] reg_pmp_2_cfg_a; // @[CSR.scala:493:20] assign pmp_2_cfg_a = reg_pmp_2_cfg_a; // @[PMP.scala:24:19] reg reg_pmp_2_cfg_x; // @[CSR.scala:493:20] assign pmp_2_cfg_x = reg_pmp_2_cfg_x; // @[PMP.scala:24:19] reg reg_pmp_2_cfg_w; // @[CSR.scala:493:20] assign pmp_2_cfg_w = reg_pmp_2_cfg_w; // @[PMP.scala:24:19] reg reg_pmp_2_cfg_r; // @[CSR.scala:493:20] assign pmp_2_cfg_r = reg_pmp_2_cfg_r; // @[PMP.scala:24:19] reg [29:0] reg_pmp_2_addr; // @[CSR.scala:493:20] assign pmp_2_addr = reg_pmp_2_addr; // @[PMP.scala:24:19] reg reg_pmp_3_cfg_l; // @[CSR.scala:493:20] assign pmp_3_cfg_l = reg_pmp_3_cfg_l; // @[PMP.scala:24:19] reg [1:0] reg_pmp_3_cfg_a; // @[CSR.scala:493:20] assign pmp_3_cfg_a = reg_pmp_3_cfg_a; // @[PMP.scala:24:19] reg reg_pmp_3_cfg_x; // @[CSR.scala:493:20] assign pmp_3_cfg_x = reg_pmp_3_cfg_x; // @[PMP.scala:24:19] reg reg_pmp_3_cfg_w; // @[CSR.scala:493:20] assign pmp_3_cfg_w = reg_pmp_3_cfg_w; // @[PMP.scala:24:19] reg reg_pmp_3_cfg_r; // @[CSR.scala:493:20] assign pmp_3_cfg_r = reg_pmp_3_cfg_r; // @[PMP.scala:24:19] reg [29:0] reg_pmp_3_addr; // @[CSR.scala:493:20] assign pmp_3_addr = reg_pmp_3_addr; // @[PMP.scala:24:19] reg reg_pmp_4_cfg_l; // @[CSR.scala:493:20] assign pmp_4_cfg_l = reg_pmp_4_cfg_l; // @[PMP.scala:24:19] reg [1:0] reg_pmp_4_cfg_a; // @[CSR.scala:493:20] assign pmp_4_cfg_a = reg_pmp_4_cfg_a; // @[PMP.scala:24:19] reg reg_pmp_4_cfg_x; // @[CSR.scala:493:20] assign pmp_4_cfg_x = reg_pmp_4_cfg_x; // @[PMP.scala:24:19] reg reg_pmp_4_cfg_w; // @[CSR.scala:493:20] assign pmp_4_cfg_w = reg_pmp_4_cfg_w; // @[PMP.scala:24:19] reg reg_pmp_4_cfg_r; // @[CSR.scala:493:20] assign pmp_4_cfg_r = reg_pmp_4_cfg_r; // @[PMP.scala:24:19] reg [29:0] reg_pmp_4_addr; // @[CSR.scala:493:20] assign pmp_4_addr = reg_pmp_4_addr; // @[PMP.scala:24:19] reg reg_pmp_5_cfg_l; // @[CSR.scala:493:20] assign pmp_5_cfg_l = reg_pmp_5_cfg_l; // @[PMP.scala:24:19] reg [1:0] reg_pmp_5_cfg_a; // @[CSR.scala:493:20] assign pmp_5_cfg_a = reg_pmp_5_cfg_a; // @[PMP.scala:24:19] reg reg_pmp_5_cfg_x; // @[CSR.scala:493:20] assign pmp_5_cfg_x = reg_pmp_5_cfg_x; // @[PMP.scala:24:19] reg reg_pmp_5_cfg_w; // @[CSR.scala:493:20] assign pmp_5_cfg_w = reg_pmp_5_cfg_w; // @[PMP.scala:24:19] reg reg_pmp_5_cfg_r; // @[CSR.scala:493:20] assign pmp_5_cfg_r = reg_pmp_5_cfg_r; // @[PMP.scala:24:19] reg [29:0] reg_pmp_5_addr; // @[CSR.scala:493:20] assign pmp_5_addr = reg_pmp_5_addr; // @[PMP.scala:24:19] reg reg_pmp_6_cfg_l; // @[CSR.scala:493:20] assign pmp_6_cfg_l = reg_pmp_6_cfg_l; // @[PMP.scala:24:19] reg [1:0] reg_pmp_6_cfg_a; // @[CSR.scala:493:20] assign pmp_6_cfg_a = reg_pmp_6_cfg_a; // @[PMP.scala:24:19] reg reg_pmp_6_cfg_x; // @[CSR.scala:493:20] assign pmp_6_cfg_x = reg_pmp_6_cfg_x; // @[PMP.scala:24:19] reg reg_pmp_6_cfg_w; // @[CSR.scala:493:20] assign pmp_6_cfg_w = reg_pmp_6_cfg_w; // @[PMP.scala:24:19] reg reg_pmp_6_cfg_r; // @[CSR.scala:493:20] assign pmp_6_cfg_r = reg_pmp_6_cfg_r; // @[PMP.scala:24:19] reg [29:0] reg_pmp_6_addr; // @[CSR.scala:493:20] assign pmp_6_addr = reg_pmp_6_addr; // @[PMP.scala:24:19] reg reg_pmp_7_cfg_l; // @[CSR.scala:493:20] assign pmp_7_cfg_l = reg_pmp_7_cfg_l; // @[PMP.scala:24:19] reg [1:0] reg_pmp_7_cfg_a; // @[CSR.scala:493:20] assign pmp_7_cfg_a = reg_pmp_7_cfg_a; // @[PMP.scala:24:19] reg reg_pmp_7_cfg_x; // @[CSR.scala:493:20] assign pmp_7_cfg_x = reg_pmp_7_cfg_x; // @[PMP.scala:24:19] reg reg_pmp_7_cfg_w; // @[CSR.scala:493:20] assign pmp_7_cfg_w = reg_pmp_7_cfg_w; // @[PMP.scala:24:19] reg reg_pmp_7_cfg_r; // @[CSR.scala:493:20] assign pmp_7_cfg_r = reg_pmp_7_cfg_r; // @[PMP.scala:24:19] reg [29:0] reg_pmp_7_addr; // @[CSR.scala:493:20] assign pmp_7_addr = reg_pmp_7_addr; // @[PMP.scala:24:19] reg [63:0] reg_mie; // @[CSR.scala:495:20] reg [63:0] reg_mideleg; // @[CSR.scala:497:18] wire [63:0] read_mideleg = {54'h0, reg_mideleg[9:1] & 9'h111, 1'h0}; // @[CSR.scala:497:18, :498:{14,38,61}] reg [63:0] reg_medeleg; // @[CSR.scala:501:18] wire [63:0] read_medeleg = {48'h0, reg_medeleg[15:0] & 16'hB15D}; // @[CSR.scala:501:18, :502:{14,38}] reg reg_mip_seip; // @[CSR.scala:504:20] reg reg_mip_stip; // @[CSR.scala:504:20] wire mip_stip = reg_mip_stip; // @[CSR.scala:504:20, :600:24] reg reg_mip_ssip; // @[CSR.scala:504:20] wire mip_ssip = reg_mip_ssip; // @[CSR.scala:504:20, :600:24] reg [39:0] reg_mepc; // @[CSR.scala:505:21] reg [63:0] reg_mcause; // @[CSR.scala:506:27] reg [39:0] reg_mtval; // @[CSR.scala:507:22] reg [39:0] reg_mtval2; // @[CSR.scala:508:23] reg [63:0] reg_mscratch; // @[CSR.scala:509:25] reg [31:0] reg_mtvec; // @[CSR.scala:512:31] reg reg_menvcfg_fiom; // @[CSR.scala:525:28] reg reg_senvcfg_fiom; // @[CSR.scala:526:28] reg [31:0] reg_mcounteren; // @[CSR.scala:531:18] wire [31:0] read_mcounteren = {29'h0, reg_mcounteren[2:0]}; // @[CSR.scala:531:18, :532:{14,32}] reg [31:0] reg_scounteren; // @[CSR.scala:535:18] wire [31:0] read_scounteren = {29'h0, reg_scounteren[2:0]}; // @[CSR.scala:535:18, :536:{14,38}] reg reg_hstatus_spvp; // @[CSR.scala:552:28] assign io_hstatus_spvp = reg_hstatus_spvp; // @[CSR.scala:377:7, :552:28] reg reg_hstatus_spv; // @[CSR.scala:552:28] assign io_hstatus_spv = reg_hstatus_spv; // @[CSR.scala:377:7, :552:28] reg reg_hstatus_gva; // @[CSR.scala:552:28] assign io_hstatus_gva = reg_hstatus_gva; // @[CSR.scala:377:7, :552:28] reg [39:0] reg_htval; // @[CSR.scala:554:22] wire [1:0] _GEN = {reg_mip_ssip, 1'h0}; // @[CSR.scala:504:20, :555:27] wire [1:0] read_hvip_lo_lo_lo; // @[CSR.scala:555:27] assign read_hvip_lo_lo_lo = _GEN; // @[CSR.scala:555:27] wire [1:0] new_mip_lo_lo_lo; // @[CSR.scala:1271:59] assign new_mip_lo_lo_lo = _GEN; // @[CSR.scala:555:27, :1271:59] wire [3:0] read_hvip_lo_lo = {read_hvip_lo_lo_hi, read_hvip_lo_lo_lo}; // @[CSR.scala:555:27] wire [1:0] _GEN_0 = {reg_mip_stip, 1'h0}; // @[CSR.scala:504:20, :555:27] wire [1:0] read_hvip_lo_hi_lo; // @[CSR.scala:555:27] assign read_hvip_lo_hi_lo = _GEN_0; // @[CSR.scala:555:27] wire [1:0] new_mip_lo_hi_lo; // @[CSR.scala:1271:59] assign new_mip_lo_hi_lo = _GEN_0; // @[CSR.scala:555:27, :1271:59] wire [3:0] read_hvip_lo_hi = {read_hvip_lo_hi_hi, read_hvip_lo_hi_lo}; // @[CSR.scala:555:27] wire [7:0] read_hvip_lo = {read_hvip_lo_hi, read_hvip_lo_lo}; // @[CSR.scala:555:27] wire [1:0] _GEN_1 = {reg_mip_seip, 1'h0}; // @[CSR.scala:504:20, :555:27] wire [1:0] read_hvip_hi_lo_lo; // @[CSR.scala:555:27] assign read_hvip_hi_lo_lo = _GEN_1; // @[CSR.scala:555:27] wire [1:0] new_mip_hi_lo_lo; // @[CSR.scala:1271:59] assign new_mip_hi_lo_lo = _GEN_1; // @[CSR.scala:555:27, :1271:59] wire [3:0] read_hvip_hi_lo = {read_hvip_hi_lo_hi, read_hvip_hi_lo_lo}; // @[CSR.scala:555:27] wire [1:0] read_hvip_hi_hi_hi = {read_hvip_hi_hi_hi_hi, 1'h0}; // @[CSR.scala:555:27] wire [3:0] read_hvip_hi_hi = {read_hvip_hi_hi_hi, read_hvip_hi_hi_lo}; // @[CSR.scala:555:27] wire [7:0] read_hvip_hi = {read_hvip_hi_hi, read_hvip_hi_lo}; // @[CSR.scala:555:27] wire [15:0] _read_hvip_T = {read_hvip_hi, read_hvip_lo}; // @[CSR.scala:555:27] reg reg_vsstatus_spp; // @[CSR.scala:562:25] assign io_gstatus_spp = reg_vsstatus_spp; // @[CSR.scala:377:7, :562:25] reg reg_vsstatus_spie; // @[CSR.scala:562:25] assign io_gstatus_spie = reg_vsstatus_spie; // @[CSR.scala:377:7, :562:25] reg reg_vsstatus_sie; // @[CSR.scala:562:25] assign io_gstatus_sie = reg_vsstatus_sie; // @[CSR.scala:377:7, :562:25] reg [39:0] reg_vsepc; // @[CSR.scala:564:22] reg [63:0] reg_vscause; // @[CSR.scala:565:24] reg [39:0] reg_vstval; // @[CSR.scala:566:23] reg [39:0] reg_sepc; // @[CSR.scala:569:21] reg [63:0] reg_scause; // @[CSR.scala:570:23] reg [39:0] reg_stval; // @[CSR.scala:571:22] reg [63:0] reg_sscratch; // @[CSR.scala:572:25] reg [38:0] reg_stvec; // @[CSR.scala:573:22] reg [3:0] reg_satp_mode; // @[CSR.scala:574:21] assign io_ptbr_mode_0 = reg_satp_mode; // @[CSR.scala:377:7, :574:21] reg [43:0] reg_satp_ppn; // @[CSR.scala:574:21] assign io_ptbr_ppn_0 = reg_satp_ppn; // @[CSR.scala:377:7, :574:21] reg reg_wfi; // @[CSR.scala:575:54] assign io_status_wfi_0 = reg_wfi; // @[CSR.scala:377:7, :575:54] reg [4:0] reg_fflags; // @[CSR.scala:577:23] reg [2:0] reg_frm; // @[CSR.scala:578:20] assign io_fcsr_rm_0 = reg_frm; // @[CSR.scala:377:7, :578:20] reg reg_mtinst_read_pseudo; // @[CSR.scala:584:35] reg reg_htinst_read_pseudo; // @[CSR.scala:585:35] wire [1:0] hi_4 = {2{reg_mtinst_read_pseudo}}; // @[CSR.scala:584:35, :588:103] wire [13:0] read_mtinst = {hi_4, 12'h0}; // @[CSR.scala:588:103] wire [1:0] hi_5 = {2{reg_htinst_read_pseudo}}; // @[CSR.scala:585:35, :588:103] wire [13:0] read_htinst = {hi_5, 12'h0}; // @[CSR.scala:588:103] reg [2:0] reg_mcountinhibit; // @[CSR.scala:590:34] assign _io_inhibit_cycle_T = reg_mcountinhibit[0]; // @[CSR.scala:590:34, :591:40] wire x11 = reg_mcountinhibit[0]; // @[CSR.scala:590:34, :591:40, :594:98] assign io_inhibit_cycle = _io_inhibit_cycle_T; // @[CSR.scala:377:7, :591:40] wire x3 = reg_mcountinhibit[2]; // @[CSR.scala:590:34, :592:75] reg [5:0] small_0; // @[Counters.scala:45:41] wire [6:0] nextSmall = {1'h0, small_0} + {5'h0, io_retire_0}; // @[Counters.scala:45:41, :46:33] wire _large_T_1 = ~x3; // @[Counters.scala:47:9, :51:36] reg [57:0] large_0; // @[Counters.scala:50:31] wire _large_T = nextSmall[6]; // @[Counters.scala:46:33, :51:20] wire _large_T_2 = _large_T & _large_T_1; // @[Counters.scala:51:{20,33,36}] wire [58:0] _large_r_T = {1'h0, large_0} + 59'h1; // @[Counters.scala:50:31, :51:55] wire [57:0] _large_r_T_1 = _large_r_T[57:0]; // @[Counters.scala:51:55] wire [63:0] value = {large_0, small_0}; // @[Counters.scala:45:41, :50:31, :55:30] wire x10 = ~io_csr_stall_0; // @[CSR.scala:377:7, :594:56] reg [5:0] small_1; // @[Counters.scala:45:41] wire [6:0] nextSmall_1 = {1'h0, small_1} + {6'h0, x10}; // @[Counters.scala:45:41, :46:33] wire _large_T_4 = ~x11; // @[Counters.scala:47:9, :51:36] reg [57:0] large_1; // @[Counters.scala:50:31] wire _large_T_3 = nextSmall_1[6]; // @[Counters.scala:46:33, :51:20] wire _large_T_5 = _large_T_3 & _large_T_4; // @[Counters.scala:51:{20,33,36}] wire [58:0] _large_r_T_2 = {1'h0, large_1} + 59'h1; // @[Counters.scala:50:31, :51:55] wire [57:0] _large_r_T_3 = _large_r_T_2[57:0]; // @[Counters.scala:51:55] assign value_1 = {large_1, small_1}; // @[Counters.scala:45:41, :50:31, :55:30] assign io_time_0 = value_1; // @[Counters.scala:55:30] wire read_mip_hi_hi_hi_hi = mip_zero1; // @[CSR.scala:600:24, :610:22] wire _mip_seip_T; // @[CSR.scala:606:57] wire mip_seip; // @[CSR.scala:600:24] assign _mip_seip_T = reg_mip_seip | io_interrupts_seip_0; // @[CSR.scala:377:7, :504:20, :606:57] assign mip_seip = _mip_seip_T; // @[CSR.scala:600:24, :606:57] wire [1:0] read_mip_lo_lo_lo = {mip_ssip, mip_usip}; // @[CSR.scala:600:24, :610:22] wire [1:0] read_mip_lo_lo_hi = {mip_msip, mip_vssip}; // @[CSR.scala:600:24, :610:22] wire [3:0] read_mip_lo_lo = {read_mip_lo_lo_hi, read_mip_lo_lo_lo}; // @[CSR.scala:610:22] wire [1:0] read_mip_lo_hi_lo = {mip_stip, mip_utip}; // @[CSR.scala:600:24, :610:22] wire [1:0] read_mip_lo_hi_hi = {mip_mtip, mip_vstip}; // @[CSR.scala:600:24, :610:22] wire [3:0] read_mip_lo_hi = {read_mip_lo_hi_hi, read_mip_lo_hi_lo}; // @[CSR.scala:610:22] wire [7:0] read_mip_lo = {read_mip_lo_hi, read_mip_lo_lo}; // @[CSR.scala:610:22] wire [1:0] read_mip_hi_lo_lo = {mip_seip, mip_ueip}; // @[CSR.scala:600:24, :610:22] wire [1:0] read_mip_hi_lo_hi = {mip_meip, mip_vseip}; // @[CSR.scala:600:24, :610:22] wire [3:0] read_mip_hi_lo = {read_mip_hi_lo_hi, read_mip_hi_lo_lo}; // @[CSR.scala:610:22] wire [1:0] read_mip_hi_hi_lo = {1'h0, mip_sgeip}; // @[CSR.scala:600:24, :610:22] wire [1:0] read_mip_hi_hi_hi = {read_mip_hi_hi_hi_hi, mip_debug}; // @[CSR.scala:600:24, :610:22] wire [3:0] read_mip_hi_hi = {read_mip_hi_hi_hi, read_mip_hi_hi_lo}; // @[CSR.scala:610:22] wire [7:0] read_mip_hi = {read_mip_hi_hi, read_mip_hi_lo}; // @[CSR.scala:610:22] wire [15:0] _read_mip_T = {read_mip_hi, read_mip_lo}; // @[CSR.scala:610:22] wire [15:0] read_mip = _read_mip_T & 16'hAAA; // @[CSR.scala:610:{22,29}] wire [63:0] _pending_interrupts_T = {48'h0, reg_mie[15:0] & read_mip}; // @[CSR.scala:495:20, :610:29, :614:56] wire [63:0] pending_interrupts = _pending_interrupts_T; // @[CSR.scala:614:{44,56}] wire [14:0] d_interrupts = {io_interrupts_debug_0, 14'h0}; // @[CSR.scala:377:7, :615:42] wire _allow_wfi_T = reg_mstatus_prv[1]; // @[CSR.scala:395:28, :620:51, :906:61] wire _allow_sfence_vma_T = reg_mstatus_prv[1]; // @[CSR.scala:395:28, :620:51, :907:60] wire _allow_sret_T = reg_mstatus_prv[1]; // @[CSR.scala:395:28, :620:51, :910:62] wire _allow_counter_T = reg_mstatus_prv[1]; // @[CSR.scala:395:28, :620:51, :912:42] wire _allow_wfi_T_7 = reg_mstatus_prv[1]; // @[CSR.scala:395:28, :620:51, :906:61] wire _allow_sfence_vma_T_4 = reg_mstatus_prv[1]; // @[CSR.scala:395:28, :620:51, :907:60] wire _allow_sret_T_4 = reg_mstatus_prv[1]; // @[CSR.scala:395:28, :620:51, :910:62] wire _allow_counter_T_17 = reg_mstatus_prv[1]; // @[CSR.scala:395:28, :620:51, :912:42] wire _allow_wfi_T_14 = reg_mstatus_prv[1]; // @[CSR.scala:395:28, :620:51, :906:61] wire _allow_sfence_vma_T_8 = reg_mstatus_prv[1]; // @[CSR.scala:395:28, :620:51, :907:60] wire _allow_sret_T_8 = reg_mstatus_prv[1]; // @[CSR.scala:395:28, :620:51, :910:62] wire _allow_counter_T_34 = reg_mstatus_prv[1]; // @[CSR.scala:395:28, :620:51, :912:42] wire _m_interrupts_T = ~(reg_mstatus_prv[1]); // @[CSR.scala:395:28, :620:51] wire _m_interrupts_T_1 = _m_interrupts_T | reg_mstatus_mie; // @[CSR.scala:395:28, :620:{51,62}] wire _m_interrupts_T_2 = _m_interrupts_T_1; // @[CSR.scala:620:{31,62}] wire [63:0] _m_interrupts_T_3 = ~pending_interrupts; // @[CSR.scala:614:44, :620:85] wire [63:0] _m_interrupts_T_4 = _m_interrupts_T_3 | read_mideleg; // @[CSR.scala:498:14, :620:{85,105}] wire [63:0] _m_interrupts_T_5 = ~_m_interrupts_T_4; // @[CSR.scala:620:{83,105}] wire [63:0] m_interrupts = _m_interrupts_T_2 ? _m_interrupts_T_5 : 64'h0; // @[CSR.scala:620:{25,31,83}] wire _GEN_2 = reg_mstatus_prv == 2'h0; // @[CSR.scala:395:28, :621:68] wire _s_interrupts_T; // @[CSR.scala:621:68] assign _s_interrupts_T = _GEN_2; // @[CSR.scala:621:68] wire _vs_interrupts_T; // @[CSR.scala:622:70] assign _vs_interrupts_T = _GEN_2; // @[CSR.scala:621:68, :622:70] wire _io_fiom_T_2; // @[CSR.scala:631:82] assign _io_fiom_T_2 = _GEN_2; // @[CSR.scala:621:68, :631:82] wire _s_interrupts_T_1 = reg_mstatus_v | _s_interrupts_T; // @[CSR.scala:395:28, :621:{49,68}] wire _GEN_3 = reg_mstatus_prv == 2'h1; // @[CSR.scala:395:28, :621:98] wire _s_interrupts_T_2; // @[CSR.scala:621:98] assign _s_interrupts_T_2 = _GEN_3; // @[CSR.scala:621:98] wire _vs_interrupts_T_1; // @[CSR.scala:622:99] assign _vs_interrupts_T_1 = _GEN_3; // @[CSR.scala:621:98, :622:99] wire _csr_addr_legal_T_4; // @[CSR.scala:921:62] assign _csr_addr_legal_T_4 = _GEN_3; // @[CSR.scala:621:98, :921:62] wire _csr_addr_legal_T_13; // @[CSR.scala:921:62] assign _csr_addr_legal_T_13 = _GEN_3; // @[CSR.scala:621:98, :921:62] wire _csr_addr_legal_T_22; // @[CSR.scala:921:62] assign _csr_addr_legal_T_22 = _GEN_3; // @[CSR.scala:621:98, :921:62] wire _s_interrupts_T_3 = _s_interrupts_T_2 & reg_mstatus_sie; // @[CSR.scala:395:28, :621:{98,110}] wire _s_interrupts_T_4 = _s_interrupts_T_1 | _s_interrupts_T_3; // @[CSR.scala:621:{49,78,110}] wire _s_interrupts_T_5 = _s_interrupts_T_4; // @[CSR.scala:621:{31,78}] wire [63:0] _s_interrupts_T_6 = pending_interrupts & read_mideleg; // @[CSR.scala:498:14, :614:44, :621:151] wire [63:0] _s_interrupts_T_8 = _s_interrupts_T_6; // @[CSR.scala:621:{151,166}] wire [63:0] s_interrupts = _s_interrupts_T_5 ? _s_interrupts_T_8 : 64'h0; // @[CSR.scala:621:{25,31,166}] wire _vs_interrupts_T_2 = _vs_interrupts_T_1 & reg_vsstatus_sie; // @[CSR.scala:562:25, :622:{99,111}] wire _vs_interrupts_T_3 = _vs_interrupts_T | _vs_interrupts_T_2; // @[CSR.scala:622:{70,80,111}] wire _vs_interrupts_T_4 = reg_mstatus_v & _vs_interrupts_T_3; // @[CSR.scala:395:28, :622:{50,80}] wire _vs_interrupts_T_5 = _vs_interrupts_T_4; // @[CSR.scala:622:{32,50}] wire _any_T = d_interrupts[14]; // @[CSR.scala:615:42, :1637:76] wire _which_T = d_interrupts[14]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_1 = d_interrupts[13]; // @[CSR.scala:615:42, :1637:76] wire _which_T_1 = d_interrupts[13]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_2 = d_interrupts[12]; // @[CSR.scala:615:42, :1637:76] wire _which_T_2 = d_interrupts[12]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_3 = d_interrupts[11]; // @[CSR.scala:615:42, :1637:76] wire _which_T_3 = d_interrupts[11]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_4 = d_interrupts[3]; // @[CSR.scala:615:42, :1637:76] wire _which_T_4 = d_interrupts[3]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_5 = d_interrupts[7]; // @[CSR.scala:615:42, :1637:76] wire _which_T_5 = d_interrupts[7]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_6 = d_interrupts[9]; // @[CSR.scala:615:42, :1637:76] wire _which_T_6 = d_interrupts[9]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_7 = d_interrupts[1]; // @[CSR.scala:615:42, :1637:76] wire _which_T_7 = d_interrupts[1]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_8 = d_interrupts[5]; // @[CSR.scala:615:42, :1637:76] wire _which_T_8 = d_interrupts[5]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_9 = d_interrupts[10]; // @[CSR.scala:615:42, :1637:76] wire _which_T_9 = d_interrupts[10]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_10 = d_interrupts[2]; // @[CSR.scala:615:42, :1637:76] wire _which_T_10 = d_interrupts[2]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_11 = d_interrupts[6]; // @[CSR.scala:615:42, :1637:76] wire _which_T_11 = d_interrupts[6]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_12 = d_interrupts[8]; // @[CSR.scala:615:42, :1637:76] wire _which_T_12 = d_interrupts[8]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_13 = d_interrupts[0]; // @[CSR.scala:615:42, :1637:76] wire _which_T_13 = d_interrupts[0]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_14 = d_interrupts[4]; // @[CSR.scala:615:42, :1637:76] wire _which_T_14 = d_interrupts[4]; // @[CSR.scala:615:42, :1637:76, :1638:91] wire _any_T_15 = m_interrupts[15]; // @[CSR.scala:620:25, :1637:76] wire _which_T_15 = m_interrupts[15]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_16 = m_interrupts[14]; // @[CSR.scala:620:25, :1637:76] wire _which_T_16 = m_interrupts[14]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_17 = m_interrupts[13]; // @[CSR.scala:620:25, :1637:76] wire _which_T_17 = m_interrupts[13]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_18 = m_interrupts[12]; // @[CSR.scala:620:25, :1637:76] wire _which_T_18 = m_interrupts[12]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_19 = m_interrupts[11]; // @[CSR.scala:620:25, :1637:76] wire _which_T_19 = m_interrupts[11]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_20 = m_interrupts[3]; // @[CSR.scala:620:25, :1637:76] wire _which_T_20 = m_interrupts[3]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_21 = m_interrupts[7]; // @[CSR.scala:620:25, :1637:76] wire _which_T_21 = m_interrupts[7]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_22 = m_interrupts[9]; // @[CSR.scala:620:25, :1637:76] wire _which_T_22 = m_interrupts[9]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_23 = m_interrupts[1]; // @[CSR.scala:620:25, :1637:76] wire _which_T_23 = m_interrupts[1]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_24 = m_interrupts[5]; // @[CSR.scala:620:25, :1637:76] wire _which_T_24 = m_interrupts[5]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_25 = m_interrupts[10]; // @[CSR.scala:620:25, :1637:76] wire _which_T_25 = m_interrupts[10]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_26 = m_interrupts[2]; // @[CSR.scala:620:25, :1637:76] wire _which_T_26 = m_interrupts[2]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_27 = m_interrupts[6]; // @[CSR.scala:620:25, :1637:76] wire _which_T_27 = m_interrupts[6]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_28 = m_interrupts[8]; // @[CSR.scala:620:25, :1637:76] wire _which_T_28 = m_interrupts[8]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_29 = m_interrupts[0]; // @[CSR.scala:620:25, :1637:76] wire _which_T_29 = m_interrupts[0]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_30 = m_interrupts[4]; // @[CSR.scala:620:25, :1637:76] wire _which_T_30 = m_interrupts[4]; // @[CSR.scala:620:25, :1637:76, :1638:91] wire _any_T_31 = s_interrupts[15]; // @[CSR.scala:621:25, :1637:76] wire _which_T_31 = s_interrupts[15]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_32 = s_interrupts[14]; // @[CSR.scala:621:25, :1637:76] wire _which_T_32 = s_interrupts[14]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_33 = s_interrupts[13]; // @[CSR.scala:621:25, :1637:76] wire _which_T_33 = s_interrupts[13]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_34 = s_interrupts[12]; // @[CSR.scala:621:25, :1637:76] wire _which_T_34 = s_interrupts[12]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_35 = s_interrupts[11]; // @[CSR.scala:621:25, :1637:76] wire _which_T_35 = s_interrupts[11]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_36 = s_interrupts[3]; // @[CSR.scala:621:25, :1637:76] wire _which_T_36 = s_interrupts[3]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_37 = s_interrupts[7]; // @[CSR.scala:621:25, :1637:76] wire _which_T_37 = s_interrupts[7]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_38 = s_interrupts[9]; // @[CSR.scala:621:25, :1637:76] wire _which_T_38 = s_interrupts[9]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_39 = s_interrupts[1]; // @[CSR.scala:621:25, :1637:76] wire _which_T_39 = s_interrupts[1]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_40 = s_interrupts[5]; // @[CSR.scala:621:25, :1637:76] wire _which_T_40 = s_interrupts[5]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_41 = s_interrupts[10]; // @[CSR.scala:621:25, :1637:76] wire _which_T_41 = s_interrupts[10]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_42 = s_interrupts[2]; // @[CSR.scala:621:25, :1637:76] wire _which_T_42 = s_interrupts[2]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_43 = s_interrupts[6]; // @[CSR.scala:621:25, :1637:76] wire _which_T_43 = s_interrupts[6]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_44 = s_interrupts[8]; // @[CSR.scala:621:25, :1637:76] wire _which_T_44 = s_interrupts[8]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_45 = s_interrupts[0]; // @[CSR.scala:621:25, :1637:76] wire _which_T_45 = s_interrupts[0]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_46 = s_interrupts[4]; // @[CSR.scala:621:25, :1637:76] wire _which_T_46 = s_interrupts[4]; // @[CSR.scala:621:25, :1637:76, :1638:91] wire _any_T_63 = _any_T | _any_T_1; // @[CSR.scala:1637:{76,90}] wire _any_T_64 = _any_T_63 | _any_T_2; // @[CSR.scala:1637:{76,90}] wire _any_T_65 = _any_T_64 | _any_T_3; // @[CSR.scala:1637:{76,90}] wire _any_T_66 = _any_T_65 | _any_T_4; // @[CSR.scala:1637:{76,90}] wire _any_T_67 = _any_T_66 | _any_T_5; // @[CSR.scala:1637:{76,90}] wire _any_T_68 = _any_T_67 | _any_T_6; // @[CSR.scala:1637:{76,90}] wire _any_T_69 = _any_T_68 | _any_T_7; // @[CSR.scala:1637:{76,90}] wire _any_T_70 = _any_T_69 | _any_T_8; // @[CSR.scala:1637:{76,90}] wire _any_T_71 = _any_T_70 | _any_T_9; // @[CSR.scala:1637:{76,90}] wire _any_T_72 = _any_T_71 | _any_T_10; // @[CSR.scala:1637:{76,90}] wire _any_T_73 = _any_T_72 | _any_T_11; // @[CSR.scala:1637:{76,90}] wire _any_T_74 = _any_T_73 | _any_T_12; // @[CSR.scala:1637:{76,90}] wire _any_T_75 = _any_T_74 | _any_T_13; // @[CSR.scala:1637:{76,90}] wire _any_T_76 = _any_T_75 | _any_T_14; // @[CSR.scala:1637:{76,90}] wire _any_T_77 = _any_T_76; // @[CSR.scala:1637:90] wire _any_T_78 = _any_T_77 | _any_T_15; // @[CSR.scala:1637:{76,90}] wire _any_T_79 = _any_T_78 | _any_T_16; // @[CSR.scala:1637:{76,90}] wire _any_T_80 = _any_T_79 | _any_T_17; // @[CSR.scala:1637:{76,90}] wire _any_T_81 = _any_T_80 | _any_T_18; // @[CSR.scala:1637:{76,90}] wire _any_T_82 = _any_T_81 | _any_T_19; // @[CSR.scala:1637:{76,90}] wire _any_T_83 = _any_T_82 | _any_T_20; // @[CSR.scala:1637:{76,90}] wire _any_T_84 = _any_T_83 | _any_T_21; // @[CSR.scala:1637:{76,90}] wire _any_T_85 = _any_T_84 | _any_T_22; // @[CSR.scala:1637:{76,90}] wire _any_T_86 = _any_T_85 | _any_T_23; // @[CSR.scala:1637:{76,90}] wire _any_T_87 = _any_T_86 | _any_T_24; // @[CSR.scala:1637:{76,90}] wire _any_T_88 = _any_T_87 | _any_T_25; // @[CSR.scala:1637:{76,90}] wire _any_T_89 = _any_T_88 | _any_T_26; // @[CSR.scala:1637:{76,90}] wire _any_T_90 = _any_T_89 | _any_T_27; // @[CSR.scala:1637:{76,90}] wire _any_T_91 = _any_T_90 | _any_T_28; // @[CSR.scala:1637:{76,90}] wire _any_T_92 = _any_T_91 | _any_T_29; // @[CSR.scala:1637:{76,90}] wire _any_T_93 = _any_T_92 | _any_T_30; // @[CSR.scala:1637:{76,90}] wire _any_T_94 = _any_T_93 | _any_T_31; // @[CSR.scala:1637:{76,90}] wire _any_T_95 = _any_T_94 | _any_T_32; // @[CSR.scala:1637:{76,90}] wire _any_T_96 = _any_T_95 | _any_T_33; // @[CSR.scala:1637:{76,90}] wire _any_T_97 = _any_T_96 | _any_T_34; // @[CSR.scala:1637:{76,90}] wire _any_T_98 = _any_T_97 | _any_T_35; // @[CSR.scala:1637:{76,90}] wire _any_T_99 = _any_T_98 | _any_T_36; // @[CSR.scala:1637:{76,90}] wire _any_T_100 = _any_T_99 | _any_T_37; // @[CSR.scala:1637:{76,90}] wire _any_T_101 = _any_T_100 | _any_T_38; // @[CSR.scala:1637:{76,90}] wire _any_T_102 = _any_T_101 | _any_T_39; // @[CSR.scala:1637:{76,90}] wire _any_T_103 = _any_T_102 | _any_T_40; // @[CSR.scala:1637:{76,90}] wire _any_T_104 = _any_T_103 | _any_T_41; // @[CSR.scala:1637:{76,90}] wire _any_T_105 = _any_T_104 | _any_T_42; // @[CSR.scala:1637:{76,90}] wire _any_T_106 = _any_T_105 | _any_T_43; // @[CSR.scala:1637:{76,90}] wire _any_T_107 = _any_T_106 | _any_T_44; // @[CSR.scala:1637:{76,90}] wire _any_T_108 = _any_T_107 | _any_T_45; // @[CSR.scala:1637:{76,90}] wire _any_T_109 = _any_T_108 | _any_T_46; // @[CSR.scala:1637:{76,90}] wire _any_T_110 = _any_T_109; // @[CSR.scala:1637:90] wire _any_T_111 = _any_T_110; // @[CSR.scala:1637:90] wire _any_T_112 = _any_T_111; // @[CSR.scala:1637:90] wire _any_T_113 = _any_T_112; // @[CSR.scala:1637:90] wire _any_T_114 = _any_T_113; // @[CSR.scala:1637:90] wire _any_T_115 = _any_T_114; // @[CSR.scala:1637:90] wire _any_T_116 = _any_T_115; // @[CSR.scala:1637:90] wire _any_T_117 = _any_T_116; // @[CSR.scala:1637:90] wire _any_T_118 = _any_T_117; // @[CSR.scala:1637:90] wire _any_T_119 = _any_T_118; // @[CSR.scala:1637:90] wire _any_T_120 = _any_T_119; // @[CSR.scala:1637:90] wire _any_T_121 = _any_T_120; // @[CSR.scala:1637:90] wire _any_T_122 = _any_T_121; // @[CSR.scala:1637:90] wire _any_T_123 = _any_T_122; // @[CSR.scala:1637:90] wire _any_T_124 = _any_T_123; // @[CSR.scala:1637:90] wire anyInterrupt = _any_T_124; // @[CSR.scala:1637:90] wire [3:0] _which_T_79 = {1'h0, ~_which_T_45, 2'h0}; // @[Mux.scala:50:70] wire [3:0] _which_T_80 = _which_T_44 ? 4'h8 : _which_T_79; // @[Mux.scala:50:70] wire [3:0] _which_T_81 = _which_T_43 ? 4'h6 : _which_T_80; // @[Mux.scala:50:70] wire [3:0] _which_T_82 = _which_T_42 ? 4'h2 : _which_T_81; // @[Mux.scala:50:70] wire [3:0] _which_T_83 = _which_T_41 ? 4'hA : _which_T_82; // @[Mux.scala:50:70] wire [3:0] _which_T_84 = _which_T_40 ? 4'h5 : _which_T_83; // @[Mux.scala:50:70] wire [3:0] _which_T_85 = _which_T_39 ? 4'h1 : _which_T_84; // @[Mux.scala:50:70] wire [3:0] _which_T_86 = _which_T_38 ? 4'h9 : _which_T_85; // @[Mux.scala:50:70] wire [3:0] _which_T_87 = _which_T_37 ? 4'h7 : _which_T_86; // @[Mux.scala:50:70] wire [3:0] _which_T_88 = _which_T_36 ? 4'h3 : _which_T_87; // @[Mux.scala:50:70] wire [3:0] _which_T_89 = _which_T_35 ? 4'hB : _which_T_88; // @[Mux.scala:50:70] wire [3:0] _which_T_90 = _which_T_34 ? 4'hC : _which_T_89; // @[Mux.scala:50:70] wire [3:0] _which_T_91 = _which_T_33 ? 4'hD : _which_T_90; // @[Mux.scala:50:70] wire [3:0] _which_T_92 = _which_T_32 ? 4'hE : _which_T_91; // @[Mux.scala:50:70] wire [3:0] _which_T_93 = _which_T_31 ? 4'hF : _which_T_92; // @[Mux.scala:50:70] wire [3:0] _which_T_94 = _which_T_30 ? 4'h4 : _which_T_93; // @[Mux.scala:50:70] wire [3:0] _which_T_95 = _which_T_29 ? 4'h0 : _which_T_94; // @[Mux.scala:50:70] wire [3:0] _which_T_96 = _which_T_28 ? 4'h8 : _which_T_95; // @[Mux.scala:50:70] wire [3:0] _which_T_97 = _which_T_27 ? 4'h6 : _which_T_96; // @[Mux.scala:50:70] wire [3:0] _which_T_98 = _which_T_26 ? 4'h2 : _which_T_97; // @[Mux.scala:50:70] wire [3:0] _which_T_99 = _which_T_25 ? 4'hA : _which_T_98; // @[Mux.scala:50:70] wire [3:0] _which_T_100 = _which_T_24 ? 4'h5 : _which_T_99; // @[Mux.scala:50:70] wire [3:0] _which_T_101 = _which_T_23 ? 4'h1 : _which_T_100; // @[Mux.scala:50:70] wire [3:0] _which_T_102 = _which_T_22 ? 4'h9 : _which_T_101; // @[Mux.scala:50:70] wire [3:0] _which_T_103 = _which_T_21 ? 4'h7 : _which_T_102; // @[Mux.scala:50:70] wire [3:0] _which_T_104 = _which_T_20 ? 4'h3 : _which_T_103; // @[Mux.scala:50:70] wire [3:0] _which_T_105 = _which_T_19 ? 4'hB : _which_T_104; // @[Mux.scala:50:70] wire [3:0] _which_T_106 = _which_T_18 ? 4'hC : _which_T_105; // @[Mux.scala:50:70] wire [3:0] _which_T_107 = _which_T_17 ? 4'hD : _which_T_106; // @[Mux.scala:50:70] wire [3:0] _which_T_108 = _which_T_16 ? 4'hE : _which_T_107; // @[Mux.scala:50:70] wire [3:0] _which_T_109 = _which_T_15 ? 4'hF : _which_T_108; // @[Mux.scala:50:70] wire [3:0] _which_T_110 = _which_T_109; // @[Mux.scala:50:70] wire [3:0] _which_T_111 = _which_T_14 ? 4'h4 : _which_T_110; // @[Mux.scala:50:70] wire [3:0] _which_T_112 = _which_T_13 ? 4'h0 : _which_T_111; // @[Mux.scala:50:70] wire [3:0] _which_T_113 = _which_T_12 ? 4'h8 : _which_T_112; // @[Mux.scala:50:70] wire [3:0] _which_T_114 = _which_T_11 ? 4'h6 : _which_T_113; // @[Mux.scala:50:70] wire [3:0] _which_T_115 = _which_T_10 ? 4'h2 : _which_T_114; // @[Mux.scala:50:70] wire [3:0] _which_T_116 = _which_T_9 ? 4'hA : _which_T_115; // @[Mux.scala:50:70] wire [3:0] _which_T_117 = _which_T_8 ? 4'h5 : _which_T_116; // @[Mux.scala:50:70] wire [3:0] _which_T_118 = _which_T_7 ? 4'h1 : _which_T_117; // @[Mux.scala:50:70] wire [3:0] _which_T_119 = _which_T_6 ? 4'h9 : _which_T_118; // @[Mux.scala:50:70] wire [3:0] _which_T_120 = _which_T_5 ? 4'h7 : _which_T_119; // @[Mux.scala:50:70] wire [3:0] _which_T_121 = _which_T_4 ? 4'h3 : _which_T_120; // @[Mux.scala:50:70] wire [3:0] _which_T_122 = _which_T_3 ? 4'hB : _which_T_121; // @[Mux.scala:50:70] wire [3:0] _which_T_123 = _which_T_2 ? 4'hC : _which_T_122; // @[Mux.scala:50:70] wire [3:0] _which_T_124 = _which_T_1 ? 4'hD : _which_T_123; // @[Mux.scala:50:70] wire [3:0] whichInterrupt = _which_T ? 4'hE : _which_T_124; // @[Mux.scala:50:70] wire [64:0] _interruptCause_T_3 = {61'h0, whichInterrupt} + 65'h8000000000000000; // @[Mux.scala:50:70] assign interruptCause = _interruptCause_T_3[63:0]; // @[CSR.scala:625:63] assign io_interrupt_cause_0 = interruptCause; // @[CSR.scala:377:7, :625:63] wire _io_interrupt_T = ~io_singleStep_0; // @[CSR.scala:377:7, :626:36] wire _io_interrupt_T_1 = anyInterrupt & _io_interrupt_T; // @[CSR.scala:626:{33,36}, :1637:90] wire _io_interrupt_T_2 = _io_interrupt_T_1 | reg_singleStepped; // @[CSR.scala:486:30, :626:{33,51}] wire _io_interrupt_T_3 = reg_debug | io_status_cease_0; // @[CSR.scala:377:7, :482:26, :626:88] wire _io_interrupt_T_4 = ~_io_interrupt_T_3; // @[CSR.scala:626:{76,88}] assign _io_interrupt_T_5 = _io_interrupt_T_2 & _io_interrupt_T_4; // @[CSR.scala:626:{51,73,76}] assign io_interrupt_0 = _io_interrupt_T_5; // @[CSR.scala:377:7, :626:73] wire _io_fiom_T = reg_mstatus_prv != 2'h3; // @[CSR.scala:395:28, :631:31] wire _io_fiom_T_1 = _io_fiom_T & reg_menvcfg_fiom; // @[CSR.scala:525:28, :631:{31,41}] wire _io_fiom_T_3 = _io_fiom_T_2 & reg_senvcfg_fiom; // @[CSR.scala:526:28, :631:{82,92}] wire _io_fiom_T_4 = _io_fiom_T_1 | _io_fiom_T_3; // @[CSR.scala:631:{41,62,92}] assign _io_fiom_T_6 = _io_fiom_T_4; // @[CSR.scala:631:{62,113}] assign io_fiom = _io_fiom_T_6; // @[CSR.scala:377:7, :631:113] assign io_pmp_0_cfg_l_0 = pmp_cfg_l; // @[PMP.scala:24:19] assign io_pmp_0_cfg_a_0 = pmp_cfg_a; // @[PMP.scala:24:19] assign io_pmp_0_cfg_x_0 = pmp_cfg_x; // @[PMP.scala:24:19] assign io_pmp_0_cfg_w_0 = pmp_cfg_w; // @[PMP.scala:24:19] assign io_pmp_0_cfg_r_0 = pmp_cfg_r; // @[PMP.scala:24:19] assign io_pmp_0_addr_0 = pmp_addr; // @[PMP.scala:24:19] assign io_pmp_0_mask_0 = pmp_mask; // @[PMP.scala:24:19] wire _pmp_mask_base_T = pmp_cfg_a[0]; // @[PMP.scala:24:19, :57:31] wire [30:0] _pmp_mask_base_T_1 = {pmp_addr, _pmp_mask_base_T}; // @[PMP.scala:24:19, :57:{19,31}] wire [30:0] pmp_mask_base = _pmp_mask_base_T_1; // @[PMP.scala:57:{19,36}] wire [31:0] _pmp_mask_T = {1'h0, pmp_mask_base} + 32'h1; // @[PMP.scala:57:36, :58:23] wire [30:0] _pmp_mask_T_1 = _pmp_mask_T[30:0]; // @[PMP.scala:58:23] wire [30:0] _pmp_mask_T_2 = ~_pmp_mask_T_1; // @[PMP.scala:58:{16,23}] wire [30:0] _pmp_mask_T_3 = pmp_mask_base & _pmp_mask_T_2; // @[PMP.scala:57:36, :58:{14,16}] wire [32:0] _pmp_mask_T_4 = {_pmp_mask_T_3, 2'h3}; // @[PMP.scala:58:{8,14}] assign pmp_mask = _pmp_mask_T_4[31:0]; // @[PMP.scala:24:19, :27:14, :58:8] assign io_pmp_1_cfg_l_0 = pmp_1_cfg_l; // @[PMP.scala:24:19] assign io_pmp_1_cfg_a_0 = pmp_1_cfg_a; // @[PMP.scala:24:19] assign io_pmp_1_cfg_x_0 = pmp_1_cfg_x; // @[PMP.scala:24:19] assign io_pmp_1_cfg_w_0 = pmp_1_cfg_w; // @[PMP.scala:24:19] assign io_pmp_1_cfg_r_0 = pmp_1_cfg_r; // @[PMP.scala:24:19] assign io_pmp_1_addr_0 = pmp_1_addr; // @[PMP.scala:24:19] assign io_pmp_1_mask_0 = pmp_1_mask; // @[PMP.scala:24:19] wire _pmp_mask_base_T_3 = pmp_1_cfg_a[0]; // @[PMP.scala:24:19, :57:31] wire [30:0] _pmp_mask_base_T_4 = {pmp_1_addr, _pmp_mask_base_T_3}; // @[PMP.scala:24:19, :57:{19,31}] wire [30:0] pmp_mask_base_1 = _pmp_mask_base_T_4; // @[PMP.scala:57:{19,36}] wire [31:0] _pmp_mask_T_5 = {1'h0, pmp_mask_base_1} + 32'h1; // @[PMP.scala:57:36, :58:23] wire [30:0] _pmp_mask_T_6 = _pmp_mask_T_5[30:0]; // @[PMP.scala:58:23] wire [30:0] _pmp_mask_T_7 = ~_pmp_mask_T_6; // @[PMP.scala:58:{16,23}] wire [30:0] _pmp_mask_T_8 = pmp_mask_base_1 & _pmp_mask_T_7; // @[PMP.scala:57:36, :58:{14,16}] wire [32:0] _pmp_mask_T_9 = {_pmp_mask_T_8, 2'h3}; // @[PMP.scala:58:{8,14}] assign pmp_1_mask = _pmp_mask_T_9[31:0]; // @[PMP.scala:24:19, :27:14, :58:8] assign io_pmp_2_cfg_l_0 = pmp_2_cfg_l; // @[PMP.scala:24:19] assign io_pmp_2_cfg_a_0 = pmp_2_cfg_a; // @[PMP.scala:24:19] assign io_pmp_2_cfg_x_0 = pmp_2_cfg_x; // @[PMP.scala:24:19] assign io_pmp_2_cfg_w_0 = pmp_2_cfg_w; // @[PMP.scala:24:19] assign io_pmp_2_cfg_r_0 = pmp_2_cfg_r; // @[PMP.scala:24:19] assign io_pmp_2_addr_0 = pmp_2_addr; // @[PMP.scala:24:19] assign io_pmp_2_mask_0 = pmp_2_mask; // @[PMP.scala:24:19] wire _pmp_mask_base_T_6 = pmp_2_cfg_a[0]; // @[PMP.scala:24:19, :57:31] wire [30:0] _pmp_mask_base_T_7 = {pmp_2_addr, _pmp_mask_base_T_6}; // @[PMP.scala:24:19, :57:{19,31}] wire [30:0] pmp_mask_base_2 = _pmp_mask_base_T_7; // @[PMP.scala:57:{19,36}] wire [31:0] _pmp_mask_T_10 = {1'h0, pmp_mask_base_2} + 32'h1; // @[PMP.scala:57:36, :58:23] wire [30:0] _pmp_mask_T_11 = _pmp_mask_T_10[30:0]; // @[PMP.scala:58:23] wire [30:0] _pmp_mask_T_12 = ~_pmp_mask_T_11; // @[PMP.scala:58:{16,23}] wire [30:0] _pmp_mask_T_13 = pmp_mask_base_2 & _pmp_mask_T_12; // @[PMP.scala:57:36, :58:{14,16}] wire [32:0] _pmp_mask_T_14 = {_pmp_mask_T_13, 2'h3}; // @[PMP.scala:58:{8,14}] assign pmp_2_mask = _pmp_mask_T_14[31:0]; // @[PMP.scala:24:19, :27:14, :58:8] assign io_pmp_3_cfg_l_0 = pmp_3_cfg_l; // @[PMP.scala:24:19] assign io_pmp_3_cfg_a_0 = pmp_3_cfg_a; // @[PMP.scala:24:19] assign io_pmp_3_cfg_x_0 = pmp_3_cfg_x; // @[PMP.scala:24:19] assign io_pmp_3_cfg_w_0 = pmp_3_cfg_w; // @[PMP.scala:24:19] assign io_pmp_3_cfg_r_0 = pmp_3_cfg_r; // @[PMP.scala:24:19] assign io_pmp_3_addr_0 = pmp_3_addr; // @[PMP.scala:24:19] assign io_pmp_3_mask_0 = pmp_3_mask; // @[PMP.scala:24:19] wire _pmp_mask_base_T_9 = pmp_3_cfg_a[0]; // @[PMP.scala:24:19, :57:31] wire [30:0] _pmp_mask_base_T_10 = {pmp_3_addr, _pmp_mask_base_T_9}; // @[PMP.scala:24:19, :57:{19,31}] wire [30:0] pmp_mask_base_3 = _pmp_mask_base_T_10; // @[PMP.scala:57:{19,36}] wire [31:0] _pmp_mask_T_15 = {1'h0, pmp_mask_base_3} + 32'h1; // @[PMP.scala:57:36, :58:23] wire [30:0] _pmp_mask_T_16 = _pmp_mask_T_15[30:0]; // @[PMP.scala:58:23] wire [30:0] _pmp_mask_T_17 = ~_pmp_mask_T_16; // @[PMP.scala:58:{16,23}] wire [30:0] _pmp_mask_T_18 = pmp_mask_base_3 & _pmp_mask_T_17; // @[PMP.scala:57:36, :58:{14,16}] wire [32:0] _pmp_mask_T_19 = {_pmp_mask_T_18, 2'h3}; // @[PMP.scala:58:{8,14}] assign pmp_3_mask = _pmp_mask_T_19[31:0]; // @[PMP.scala:24:19, :27:14, :58:8] assign io_pmp_4_cfg_l_0 = pmp_4_cfg_l; // @[PMP.scala:24:19] assign io_pmp_4_cfg_a_0 = pmp_4_cfg_a; // @[PMP.scala:24:19] assign io_pmp_4_cfg_x_0 = pmp_4_cfg_x; // @[PMP.scala:24:19] assign io_pmp_4_cfg_w_0 = pmp_4_cfg_w; // @[PMP.scala:24:19] assign io_pmp_4_cfg_r_0 = pmp_4_cfg_r; // @[PMP.scala:24:19] assign io_pmp_4_addr_0 = pmp_4_addr; // @[PMP.scala:24:19] assign io_pmp_4_mask_0 = pmp_4_mask; // @[PMP.scala:24:19] wire _pmp_mask_base_T_12 = pmp_4_cfg_a[0]; // @[PMP.scala:24:19, :57:31] wire [30:0] _pmp_mask_base_T_13 = {pmp_4_addr, _pmp_mask_base_T_12}; // @[PMP.scala:24:19, :57:{19,31}] wire [30:0] pmp_mask_base_4 = _pmp_mask_base_T_13; // @[PMP.scala:57:{19,36}] wire [31:0] _pmp_mask_T_20 = {1'h0, pmp_mask_base_4} + 32'h1; // @[PMP.scala:57:36, :58:23] wire [30:0] _pmp_mask_T_21 = _pmp_mask_T_20[30:0]; // @[PMP.scala:58:23] wire [30:0] _pmp_mask_T_22 = ~_pmp_mask_T_21; // @[PMP.scala:58:{16,23}] wire [30:0] _pmp_mask_T_23 = pmp_mask_base_4 & _pmp_mask_T_22; // @[PMP.scala:57:36, :58:{14,16}] wire [32:0] _pmp_mask_T_24 = {_pmp_mask_T_23, 2'h3}; // @[PMP.scala:58:{8,14}] assign pmp_4_mask = _pmp_mask_T_24[31:0]; // @[PMP.scala:24:19, :27:14, :58:8] assign io_pmp_5_cfg_l_0 = pmp_5_cfg_l; // @[PMP.scala:24:19] assign io_pmp_5_cfg_a_0 = pmp_5_cfg_a; // @[PMP.scala:24:19] assign io_pmp_5_cfg_x_0 = pmp_5_cfg_x; // @[PMP.scala:24:19] assign io_pmp_5_cfg_w_0 = pmp_5_cfg_w; // @[PMP.scala:24:19] assign io_pmp_5_cfg_r_0 = pmp_5_cfg_r; // @[PMP.scala:24:19] assign io_pmp_5_addr_0 = pmp_5_addr; // @[PMP.scala:24:19] assign io_pmp_5_mask_0 = pmp_5_mask; // @[PMP.scala:24:19] wire _pmp_mask_base_T_15 = pmp_5_cfg_a[0]; // @[PMP.scala:24:19, :57:31] wire [30:0] _pmp_mask_base_T_16 = {pmp_5_addr, _pmp_mask_base_T_15}; // @[PMP.scala:24:19, :57:{19,31}] wire [30:0] pmp_mask_base_5 = _pmp_mask_base_T_16; // @[PMP.scala:57:{19,36}] wire [31:0] _pmp_mask_T_25 = {1'h0, pmp_mask_base_5} + 32'h1; // @[PMP.scala:57:36, :58:23] wire [30:0] _pmp_mask_T_26 = _pmp_mask_T_25[30:0]; // @[PMP.scala:58:23] wire [30:0] _pmp_mask_T_27 = ~_pmp_mask_T_26; // @[PMP.scala:58:{16,23}] wire [30:0] _pmp_mask_T_28 = pmp_mask_base_5 & _pmp_mask_T_27; // @[PMP.scala:57:36, :58:{14,16}] wire [32:0] _pmp_mask_T_29 = {_pmp_mask_T_28, 2'h3}; // @[PMP.scala:58:{8,14}] assign pmp_5_mask = _pmp_mask_T_29[31:0]; // @[PMP.scala:24:19, :27:14, :58:8] assign io_pmp_6_cfg_l_0 = pmp_6_cfg_l; // @[PMP.scala:24:19] assign io_pmp_6_cfg_a_0 = pmp_6_cfg_a; // @[PMP.scala:24:19] assign io_pmp_6_cfg_x_0 = pmp_6_cfg_x; // @[PMP.scala:24:19] assign io_pmp_6_cfg_w_0 = pmp_6_cfg_w; // @[PMP.scala:24:19] assign io_pmp_6_cfg_r_0 = pmp_6_cfg_r; // @[PMP.scala:24:19] assign io_pmp_6_addr_0 = pmp_6_addr; // @[PMP.scala:24:19] assign io_pmp_6_mask_0 = pmp_6_mask; // @[PMP.scala:24:19] wire _pmp_mask_base_T_18 = pmp_6_cfg_a[0]; // @[PMP.scala:24:19, :57:31] wire [30:0] _pmp_mask_base_T_19 = {pmp_6_addr, _pmp_mask_base_T_18}; // @[PMP.scala:24:19, :57:{19,31}] wire [30:0] pmp_mask_base_6 = _pmp_mask_base_T_19; // @[PMP.scala:57:{19,36}] wire [31:0] _pmp_mask_T_30 = {1'h0, pmp_mask_base_6} + 32'h1; // @[PMP.scala:57:36, :58:23] wire [30:0] _pmp_mask_T_31 = _pmp_mask_T_30[30:0]; // @[PMP.scala:58:23] wire [30:0] _pmp_mask_T_32 = ~_pmp_mask_T_31; // @[PMP.scala:58:{16,23}] wire [30:0] _pmp_mask_T_33 = pmp_mask_base_6 & _pmp_mask_T_32; // @[PMP.scala:57:36, :58:{14,16}] wire [32:0] _pmp_mask_T_34 = {_pmp_mask_T_33, 2'h3}; // @[PMP.scala:58:{8,14}] assign pmp_6_mask = _pmp_mask_T_34[31:0]; // @[PMP.scala:24:19, :27:14, :58:8] assign io_pmp_7_cfg_l_0 = pmp_7_cfg_l; // @[PMP.scala:24:19] assign io_pmp_7_cfg_a_0 = pmp_7_cfg_a; // @[PMP.scala:24:19] assign io_pmp_7_cfg_x_0 = pmp_7_cfg_x; // @[PMP.scala:24:19] assign io_pmp_7_cfg_w_0 = pmp_7_cfg_w; // @[PMP.scala:24:19] assign io_pmp_7_cfg_r_0 = pmp_7_cfg_r; // @[PMP.scala:24:19] assign io_pmp_7_addr_0 = pmp_7_addr; // @[PMP.scala:24:19] assign io_pmp_7_mask_0 = pmp_7_mask; // @[PMP.scala:24:19] wire _pmp_mask_base_T_21 = pmp_7_cfg_a[0]; // @[PMP.scala:24:19, :57:31] wire [30:0] _pmp_mask_base_T_22 = {pmp_7_addr, _pmp_mask_base_T_21}; // @[PMP.scala:24:19, :57:{19,31}] wire [30:0] pmp_mask_base_7 = _pmp_mask_base_T_22; // @[PMP.scala:57:{19,36}] wire [31:0] _pmp_mask_T_35 = {1'h0, pmp_mask_base_7} + 32'h1; // @[PMP.scala:57:36, :58:23] wire [30:0] _pmp_mask_T_36 = _pmp_mask_T_35[30:0]; // @[PMP.scala:58:23] wire [30:0] _pmp_mask_T_37 = ~_pmp_mask_T_36; // @[PMP.scala:58:{16,23}] wire [30:0] _pmp_mask_T_38 = pmp_mask_base_7 & _pmp_mask_T_37; // @[PMP.scala:57:36, :58:{14,16}] wire [32:0] _pmp_mask_T_39 = {_pmp_mask_T_38, 2'h3}; // @[PMP.scala:58:{8,14}] assign pmp_7_mask = _pmp_mask_T_39[31:0]; // @[PMP.scala:24:19, :27:14, :58:8] wire [1:0] read_mstatus_lo_lo_lo_lo = {io_status_sie_0, 1'h0}; // @[CSR.scala:377:7, :649:32] wire [1:0] read_mstatus_lo_lo_lo_hi = {io_status_mie_0, 1'h0}; // @[CSR.scala:377:7, :649:32] wire [3:0] read_mstatus_lo_lo_lo = {read_mstatus_lo_lo_lo_hi, read_mstatus_lo_lo_lo_lo}; // @[CSR.scala:649:32] wire [1:0] read_mstatus_lo_lo_hi_lo = {io_status_spie_0, 1'h0}; // @[CSR.scala:377:7, :649:32] wire [1:0] read_mstatus_lo_lo_hi_hi_hi = {io_status_spp_0, io_status_mpie_0}; // @[CSR.scala:377:7, :649:32] wire [2:0] read_mstatus_lo_lo_hi_hi = {read_mstatus_lo_lo_hi_hi_hi, 1'h0}; // @[CSR.scala:649:32] wire [4:0] read_mstatus_lo_lo_hi = {read_mstatus_lo_lo_hi_hi, read_mstatus_lo_lo_hi_lo}; // @[CSR.scala:649:32] wire [8:0] read_mstatus_lo_lo = {read_mstatus_lo_lo_hi, read_mstatus_lo_lo_lo}; // @[CSR.scala:649:32] wire [3:0] read_mstatus_lo_hi_lo_lo = {io_status_mpp_0, 2'h0}; // @[CSR.scala:377:7, :649:32] wire [3:0] read_mstatus_lo_hi_lo_hi = {2'h0, io_status_fs_0}; // @[CSR.scala:377:7, :649:32] wire [7:0] read_mstatus_lo_hi_lo = {read_mstatus_lo_hi_lo_hi, read_mstatus_lo_hi_lo_lo}; // @[CSR.scala:649:32] wire [1:0] read_mstatus_lo_hi_hi_lo = {io_status_sum_0, io_status_mprv_0}; // @[CSR.scala:377:7, :649:32] wire [1:0] read_mstatus_lo_hi_hi_hi_hi = {io_status_tw_0, io_status_tvm_0}; // @[CSR.scala:377:7, :649:32] wire [2:0] read_mstatus_lo_hi_hi_hi = {read_mstatus_lo_hi_hi_hi_hi, io_status_mxr_0}; // @[CSR.scala:377:7, :649:32] wire [4:0] read_mstatus_lo_hi_hi = {read_mstatus_lo_hi_hi_hi, read_mstatus_lo_hi_hi_lo}; // @[CSR.scala:649:32] wire [12:0] read_mstatus_lo_hi = {read_mstatus_lo_hi_hi, read_mstatus_lo_hi_lo}; // @[CSR.scala:649:32] wire [21:0] read_mstatus_lo = {read_mstatus_lo_hi, read_mstatus_lo_lo}; // @[CSR.scala:649:32] wire [8:0] read_mstatus_hi_lo_lo_lo = {8'h0, io_status_tsr_0}; // @[CSR.scala:377:7, :649:32] wire [11:0] read_mstatus_hi_lo_lo = {3'h4, read_mstatus_hi_lo_lo_lo}; // @[CSR.scala:649:32] wire [1:0] read_mstatus_hi_lo_hi_hi_hi = {io_status_mpv_0, io_status_gva_0}; // @[CSR.scala:377:7, :649:32] wire [2:0] read_mstatus_hi_lo_hi_hi = {read_mstatus_hi_lo_hi_hi_hi, 1'h0}; // @[CSR.scala:649:32] wire [5:0] read_mstatus_hi_lo_hi = {read_mstatus_hi_lo_hi_hi, 3'h2}; // @[CSR.scala:649:32] wire [17:0] read_mstatus_hi_lo = {read_mstatus_hi_lo_hi, read_mstatus_hi_lo_lo}; // @[CSR.scala:649:32] wire [23:0] read_mstatus_hi_hi_lo_lo = {io_status_sd_0, 23'h0}; // @[CSR.scala:377:7, :649:32] wire [2:0] read_mstatus_hi_hi_lo_hi_hi = {io_status_dv_0, io_status_prv_0}; // @[CSR.scala:377:7, :649:32] wire [3:0] read_mstatus_hi_hi_lo_hi = {read_mstatus_hi_hi_lo_hi_hi, io_status_v_0}; // @[CSR.scala:377:7, :649:32] wire [27:0] read_mstatus_hi_hi_lo = {read_mstatus_hi_hi_lo_hi, read_mstatus_hi_hi_lo_lo}; // @[CSR.scala:649:32] wire [33:0] read_mstatus_hi_hi_hi_lo = {32'h14112D, io_status_dprv_0}; // @[CSR.scala:377:7, :649:32] wire [1:0] read_mstatus_hi_hi_hi_hi_hi = {io_status_debug_0, io_status_cease_0}; // @[CSR.scala:377:7, :649:32] wire [2:0] read_mstatus_hi_hi_hi_hi = {read_mstatus_hi_hi_hi_hi_hi, io_status_wfi_0}; // @[CSR.scala:377:7, :649:32] wire [36:0] read_mstatus_hi_hi_hi = {read_mstatus_hi_hi_hi_hi, read_mstatus_hi_hi_hi_lo}; // @[CSR.scala:649:32] wire [64:0] read_mstatus_hi_hi = {read_mstatus_hi_hi_hi, read_mstatus_hi_hi_lo}; // @[CSR.scala:649:32] wire [82:0] read_mstatus_hi = {read_mstatus_hi_hi, read_mstatus_hi_lo}; // @[CSR.scala:649:32] wire [104:0] _read_mstatus_T = {read_mstatus_hi, read_mstatus_lo}; // @[CSR.scala:649:32] wire [63:0] read_mstatus = _read_mstatus_T[63:0]; // @[package.scala:163:13] wire _read_mtvec_T = reg_mtvec[0]; // @[CSR.scala:512:31, :1666:41] wire [7:0] _read_mtvec_T_1 = _read_mtvec_T ? 8'hFE : 8'h2; // @[CSR.scala:1666:{39,41}] wire [31:0] _read_mtvec_T_3 = {24'h0, _read_mtvec_T_1}; // @[package.scala:174:41] wire [31:0] _read_mtvec_T_4 = ~_read_mtvec_T_3; // @[package.scala:174:{37,41}] wire [31:0] _read_mtvec_T_5 = reg_mtvec & _read_mtvec_T_4; // @[package.scala:174:{35,37}] wire [63:0] read_mtvec = {32'h0, _read_mtvec_T_5}; // @[package.scala:138:15, :174:35] wire _read_stvec_T = reg_stvec[0]; // @[CSR.scala:573:22, :1666:41] wire [7:0] _read_stvec_T_1 = _read_stvec_T ? 8'hFE : 8'h2; // @[CSR.scala:1666:{39,41}] wire [38:0] _read_stvec_T_3 = {31'h0, _read_stvec_T_1}; // @[package.scala:174:41] wire [38:0] _read_stvec_T_4 = ~_read_stvec_T_3; // @[package.scala:174:{37,41}] wire [38:0] _read_stvec_T_5 = reg_stvec & _read_stvec_T_4; // @[package.scala:174:{35,37}] wire _read_stvec_T_6 = _read_stvec_T_5[38]; // @[package.scala:132:38, :174:35] wire [24:0] _read_stvec_T_7 = {25{_read_stvec_T_6}}; // @[package.scala:132:{20,38}] wire [63:0] read_stvec = {_read_stvec_T_7, _read_stvec_T_5}; // @[package.scala:132:{15,20}, :174:35] wire [39:0] _read_mapping_T_2 = ~reg_mepc; // @[CSR.scala:505:21, :1665:28] wire [39:0] _read_mapping_T_5 = {_read_mapping_T_2[39:2], _read_mapping_T_2[1:0] | 2'h1}; // @[CSR.scala:1665:{28,31}] wire [39:0] _read_mapping_T_6 = ~_read_mapping_T_5; // @[CSR.scala:1665:{26,31}] wire _read_mapping_T_7 = _read_mapping_T_6[39]; // @[package.scala:132:38] wire [23:0] _read_mapping_T_8 = {24{_read_mapping_T_7}}; // @[package.scala:132:{20,38}] wire [63:0] read_mapping_10_2 = {_read_mapping_T_8, _read_mapping_T_6}; // @[package.scala:132:{15,20}] wire _read_mapping_T_9 = reg_mtval[39]; // @[package.scala:132:38] wire [23:0] _read_mapping_T_10 = {24{_read_mapping_T_9}}; // @[package.scala:132:{20,38}] wire [63:0] read_mapping_11_2 = {_read_mapping_T_10, reg_mtval}; // @[package.scala:132:{15,20}] wire [2:0] debug_csrs_lo_lo_hi = {2'h0, reg_dcsr_step}; // @[CSR.scala:403:25, :670:27] wire [4:0] debug_csrs_lo_lo = {debug_csrs_lo_lo_hi, reg_dcsr_prv}; // @[CSR.scala:403:25, :670:27] wire [3:0] debug_csrs_lo_hi_lo = {reg_dcsr_cause, reg_dcsr_v}; // @[CSR.scala:403:25, :670:27] wire [5:0] debug_csrs_lo_hi = {2'h0, debug_csrs_lo_hi_lo}; // @[CSR.scala:670:27] wire [10:0] debug_csrs_lo = {debug_csrs_lo_hi, debug_csrs_lo_lo}; // @[CSR.scala:670:27] wire [1:0] debug_csrs_hi_lo_lo = {reg_dcsr_ebreaku, 1'h0}; // @[CSR.scala:403:25, :670:27] wire [1:0] debug_csrs_hi_lo_hi = {1'h0, reg_dcsr_ebreaks}; // @[CSR.scala:403:25, :670:27] wire [3:0] debug_csrs_hi_lo = {debug_csrs_hi_lo_hi, debug_csrs_hi_lo_lo}; // @[CSR.scala:670:27] wire [12:0] debug_csrs_hi_hi_lo = {12'h0, reg_dcsr_ebreakm}; // @[CSR.scala:403:25, :670:27] wire [16:0] debug_csrs_hi_hi = {4'h4, debug_csrs_hi_hi_lo}; // @[CSR.scala:670:27] wire [20:0] debug_csrs_hi = {debug_csrs_hi_hi, debug_csrs_hi_lo}; // @[CSR.scala:670:27] wire [31:0] debug_csrs_0_2 = {debug_csrs_hi, debug_csrs_lo}; // @[CSR.scala:670:27] wire [39:0] _debug_csrs_T = ~reg_dpc; // @[CSR.scala:483:20, :1665:28] wire [39:0] _debug_csrs_T_3 = {_debug_csrs_T[39:2], _debug_csrs_T[1:0] | 2'h1}; // @[CSR.scala:1665:{28,31}] wire [39:0] _debug_csrs_T_4 = ~_debug_csrs_T_3; // @[CSR.scala:1665:{26,31}] wire _debug_csrs_T_5 = _debug_csrs_T_4[39]; // @[package.scala:132:38] wire [23:0] _debug_csrs_T_6 = {24{_debug_csrs_T_5}}; // @[package.scala:132:{20,38}] wire [63:0] debug_csrs_1_2 = {_debug_csrs_T_6, _debug_csrs_T_4}; // @[package.scala:132:{15,20}] wire [7:0] read_fcsr = {reg_frm, reg_fflags}; // @[CSR.scala:577:23, :578:20, :689:22] wire [3:0] lo_lo_4 = {3'h0, reg_menvcfg_fiom}; // @[CSR.scala:525:28, :742:49] wire [6:0] lo_4 = {3'h0, lo_lo_4}; // @[CSR.scala:742:49] wire [63:0] sie_mask = {48'h0, read_mideleg[15:0] & 16'hEFFF}; // @[CSR.scala:498:14, :750:18] wire [63:0] read_sie = reg_mie & sie_mask; // @[CSR.scala:495:20, :750:18, :753:28] wire [63:0] read_sip = {48'h0, sie_mask[15:0] & read_mip}; // @[CSR.scala:610:29, :750:18, :754:29] wire [1:0] lo_lo_lo_lo = {read_sstatus_sie, 1'h0}; // @[CSR.scala:755:35, :768:51] wire [3:0] lo_lo_lo_4 = {2'h0, lo_lo_lo_lo}; // @[CSR.scala:768:51] wire [1:0] lo_lo_hi_lo = {read_sstatus_spie, 1'h0}; // @[CSR.scala:755:35, :768:51] wire [1:0] lo_lo_hi_hi_hi = {read_sstatus_spp, 1'h0}; // @[CSR.scala:755:35, :768:51] wire [2:0] lo_lo_hi_hi = {lo_lo_hi_hi_hi, 1'h0}; // @[CSR.scala:768:51] wire [4:0] lo_lo_hi_4 = {lo_lo_hi_hi, lo_lo_hi_lo}; // @[CSR.scala:768:51] wire [8:0] lo_lo_5 = {lo_lo_hi_4, lo_lo_lo_4}; // @[CSR.scala:768:51] wire [3:0] lo_hi_lo_hi = {2'h0, read_sstatus_fs}; // @[CSR.scala:755:35, :768:51] wire [7:0] lo_hi_lo_4 = {lo_hi_lo_hi, 4'h0}; // @[CSR.scala:768:51] wire [1:0] lo_hi_hi_lo = {read_sstatus_sum, 1'h0}; // @[CSR.scala:755:35, :768:51] wire [2:0] lo_hi_hi_hi = {2'h0, read_sstatus_mxr}; // @[CSR.scala:755:35, :768:51] wire [4:0] lo_hi_hi_4 = {lo_hi_hi_hi, lo_hi_hi_lo}; // @[CSR.scala:768:51] wire [12:0] lo_hi_5 = {lo_hi_hi_4, lo_hi_lo_4}; // @[CSR.scala:768:51] wire [21:0] lo_5 = {lo_hi_5, lo_lo_5}; // @[CSR.scala:768:51] wire [23:0] hi_hi_lo_lo = {read_sstatus_sd, 23'h0}; // @[CSR.scala:755:35, :768:51] wire [27:0] hi_hi_lo_4 = {4'h0, hi_hi_lo_lo}; // @[CSR.scala:768:51] wire [64:0] hi_hi_5 = {37'h0, hi_hi_lo_4}; // @[CSR.scala:768:51] wire [82:0] hi_7 = {hi_hi_5, 18'h800}; // @[CSR.scala:768:51] wire [19:0] hi_8 = {reg_satp_mode, 16'h0}; // @[CSR.scala:574:21, :774:43] wire [39:0] _io_evec_T = ~reg_sepc; // @[CSR.scala:569:21, :1665:28] wire [39:0] _T_30 = ~{_io_evec_T[39:2], _io_evec_T[1:0] | 2'h1}; // @[CSR.scala:1665:{26,28,31}] wire [3:0] lo_lo_6 = {3'h0, reg_senvcfg_fiom}; // @[CSR.scala:526:28, :780:49] wire [6:0] lo_6 = {3'h0, lo_lo_6}; // @[CSR.scala:780:49] wire [1:0] lo_hi_7 = {reg_pmp_0_cfg_x, reg_pmp_0_cfg_w}; // @[package.scala:45:36] wire [2:0] lo_7 = {lo_hi_7, reg_pmp_0_cfg_r}; // @[package.scala:45:36] wire [2:0] hi_hi_7 = {reg_pmp_0_cfg_l, 2'h0}; // @[package.scala:45:36] wire [4:0] hi_10 = {hi_hi_7, reg_pmp_0_cfg_a}; // @[package.scala:45:36] wire [1:0] lo_hi_8 = {reg_pmp_1_cfg_x, reg_pmp_1_cfg_w}; // @[package.scala:45:36] wire [2:0] lo_8 = {lo_hi_8, reg_pmp_1_cfg_r}; // @[package.scala:45:36] wire [2:0] hi_hi_8 = {reg_pmp_1_cfg_l, 2'h0}; // @[package.scala:45:36] wire [4:0] hi_11 = {hi_hi_8, reg_pmp_1_cfg_a}; // @[package.scala:45:36] wire [1:0] lo_hi_9 = {reg_pmp_2_cfg_x, reg_pmp_2_cfg_w}; // @[package.scala:45:36] wire [2:0] lo_9 = {lo_hi_9, reg_pmp_2_cfg_r}; // @[package.scala:45:36] wire [2:0] hi_hi_9 = {reg_pmp_2_cfg_l, 2'h0}; // @[package.scala:45:36] wire [4:0] hi_12 = {hi_hi_9, reg_pmp_2_cfg_a}; // @[package.scala:45:36] wire [1:0] lo_hi_10 = {reg_pmp_3_cfg_x, reg_pmp_3_cfg_w}; // @[package.scala:45:36] wire [2:0] lo_10 = {lo_hi_10, reg_pmp_3_cfg_r}; // @[package.scala:45:36] wire [2:0] hi_hi_10 = {reg_pmp_3_cfg_l, 2'h0}; // @[package.scala:45:36] wire [4:0] hi_13 = {hi_hi_10, reg_pmp_3_cfg_a}; // @[package.scala:45:36] wire [1:0] lo_hi_11 = {reg_pmp_4_cfg_x, reg_pmp_4_cfg_w}; // @[package.scala:45:36] wire [2:0] lo_11 = {lo_hi_11, reg_pmp_4_cfg_r}; // @[package.scala:45:36] wire [2:0] hi_hi_11 = {reg_pmp_4_cfg_l, 2'h0}; // @[package.scala:45:36] wire [4:0] hi_14 = {hi_hi_11, reg_pmp_4_cfg_a}; // @[package.scala:45:36] wire [1:0] lo_hi_12 = {reg_pmp_5_cfg_x, reg_pmp_5_cfg_w}; // @[package.scala:45:36] wire [2:0] lo_12 = {lo_hi_12, reg_pmp_5_cfg_r}; // @[package.scala:45:36] wire [2:0] hi_hi_12 = {reg_pmp_5_cfg_l, 2'h0}; // @[package.scala:45:36] wire [4:0] hi_15 = {hi_hi_12, reg_pmp_5_cfg_a}; // @[package.scala:45:36] wire [1:0] lo_hi_13 = {reg_pmp_6_cfg_x, reg_pmp_6_cfg_w}; // @[package.scala:45:36] wire [2:0] lo_13 = {lo_hi_13, reg_pmp_6_cfg_r}; // @[package.scala:45:36] wire [2:0] hi_hi_13 = {reg_pmp_6_cfg_l, 2'h0}; // @[package.scala:45:36] wire [4:0] hi_16 = {hi_hi_13, reg_pmp_6_cfg_a}; // @[package.scala:45:36] wire [1:0] lo_hi_14 = {reg_pmp_7_cfg_x, reg_pmp_7_cfg_w}; // @[package.scala:45:36] wire [2:0] lo_14 = {lo_hi_14, reg_pmp_7_cfg_r}; // @[package.scala:45:36] wire [2:0] hi_hi_14 = {reg_pmp_7_cfg_l, 2'h0}; // @[package.scala:45:36] wire [4:0] hi_17 = {hi_hi_14, reg_pmp_7_cfg_a}; // @[package.scala:45:36] wire [15:0] lo_lo_7 = {hi_11, lo_8, hi_10, lo_7}; // @[package.scala:45:{27,36}] wire [15:0] lo_hi_15 = {hi_13, lo_10, hi_12, lo_9}; // @[package.scala:45:{27,36}] wire [31:0] lo_15 = {lo_hi_15, lo_lo_7}; // @[package.scala:45:27] wire [15:0] hi_lo_7 = {hi_15, lo_12, hi_14, lo_11}; // @[package.scala:45:{27,36}] wire [15:0] hi_hi_15 = {hi_17, lo_14, hi_16, lo_13}; // @[package.scala:45:{27,36}] wire [31:0] hi_18 = {hi_hi_15, hi_lo_7}; // @[package.scala:45:27] reg [63:0] reg_custom_0; // @[CSR.scala:798:43] assign io_customCSRs_0_value_0 = reg_custom_0; // @[CSR.scala:377:7, :798:43] wire _reg_custom_read_T = |io_rw_cmd_0; // @[CSR.scala:377:7, :799:26] wire _reg_custom_read_T_1 = io_rw_addr_0 == 12'h7C1; // @[CSR.scala:377:7, :799:50] assign reg_custom_read = _reg_custom_read_T & _reg_custom_read_T_1; // @[CSR.scala:799:{26,36,50}] assign io_customCSRs_0_ren_0 = reg_custom_read; // @[CSR.scala:377:7, :799:36] reg [63:0] reg_custom_1; // @[CSR.scala:798:43] assign io_customCSRs_1_value_0 = reg_custom_1; // @[CSR.scala:377:7, :798:43] wire [63:0] _reg_custom_1_T_2 = reg_custom_1; // @[CSR.scala:798:43, :1506:38] wire [63:0] _reg_custom_1_T_6 = reg_custom_1; // @[CSR.scala:798:43, :1531:39] wire _reg_custom_read_T_2 = |io_rw_cmd_0; // @[CSR.scala:377:7, :799:26] wire _reg_custom_read_T_3 = io_rw_addr_0 == 12'hF12; // @[CSR.scala:377:7, :799:50] assign reg_custom_read_1 = _reg_custom_read_T_2 & _reg_custom_read_T_3; // @[CSR.scala:799:{26,36,50}] assign io_customCSRs_1_ren_0 = reg_custom_read_1; // @[CSR.scala:377:7, :799:36] wire [12:0] decoded_addr_addr = {io_status_v_0, io_rw_addr_0}; // @[CSR.scala:377:7, :851:19] wire [11:0] decoded_addr_decoded_decoded_plaInput; // @[pla.scala:77:22] wire [11:0] decoded_addr_decoded_decoded_invInputs = ~decoded_addr_decoded_decoded_plaInput; // @[pla.scala:77:22, :78:21] wire [149:0] decoded_addr_decoded_decoded_invMatrixOutputs; // @[pla.scala:120:37] wire [149:0] decoded_addr_decoded_decoded; // @[pla.scala:81:23] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_4 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_5 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_8 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_9 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_14 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_15 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_18 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_19 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_22 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_24 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_25 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_28 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_29 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_32 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_33 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_36 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_37 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_40 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_41 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_44 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_45 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_48 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_49 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_52 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_53 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_57 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_59 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_60 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_63 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_64 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_67 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_68 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_71 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_72 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_75 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_76 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_79 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_80 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_83 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_86 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_87 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_90 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_91 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_94 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_95 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_98 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_99 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_102 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_103 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_106 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_107 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_110 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_111 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_114 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_117 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_118 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_121 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_122 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_125 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_126 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_129 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_130 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_133 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_134 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_137 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_138 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_141 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_142 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_145 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_148 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_149 = decoded_addr_decoded_decoded_invInputs[1]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_1 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_2 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_3 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_8 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_9 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_10 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_11 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_14 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_15 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_16 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_17 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_22 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_23 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_28 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_29 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_30 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_31 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_36 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_37 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_38 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_39 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_44 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_45 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_46 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_47 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_52 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_53 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_54 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_55 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_57 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_58 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_59 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_60 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_61 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_62 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_67 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_68 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_69 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_70 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_75 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_76 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_77 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_78 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_79 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_80 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_81 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_83 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_84 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_85 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_90 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_91 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_92 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_93 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_98 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_99 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_100 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_101 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_106 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_107 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_108 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_109 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_114 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_115 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_116 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_121 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_122 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_123 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_124 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_129 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_130 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_131 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_132 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_137 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_138 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_139 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_140 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_145 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_146 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_147 = decoded_addr_decoded_decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_1 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_2 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_3 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_4 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_5 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_6 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_8 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_9 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_10 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_11 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_12 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_14 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_15 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_16 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_17 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_18 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_19 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_20 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_22 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_23 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_24 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_25 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_26 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_27 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_36 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_37 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_38 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_39 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_40 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_41 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_42 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_43 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_52 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_53 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_54 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_55 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_56 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_57 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_58 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_59 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_60 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_61 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_62 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_63 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_64 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_65 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_66 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_75 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_76 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_77 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_78 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_79 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_80 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_81 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_83 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_84 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_85 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_86 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_87 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_88 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_89 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_98 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_99 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_100 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_101 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_102 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_103 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_104 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_105 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_114 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_115 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_116 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_117 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_118 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_119 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_120 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_129 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_130 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_131 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_132 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_133 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_134 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_135 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_136 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_145 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_146 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_147 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_148 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_149 = decoded_addr_decoded_decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_1 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_2 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_3 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_4 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_5 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_6 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_7 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_8 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_9 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_10 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_11 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_12 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_14 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_15 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_16 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_17 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_18 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_19 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_20 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_21 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_22 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_23 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_24 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_25 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_26 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_27 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_28 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_29 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_30 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_31 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_32 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_33 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_34 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_35 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_52 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_53 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_54 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_55 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_56 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_57 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_58 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_75 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_76 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_77 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_78 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_83 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_84 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_85 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_86 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_87 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_88 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_89 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_90 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_91 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_92 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_93 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_94 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_95 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_96 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_97 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_114 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_115 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_116 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_117 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_118 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_119 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_120 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_121 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_122 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_123 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_124 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_125 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_126 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_127 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_128 = decoded_addr_decoded_decoded_invInputs[4]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_1 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_2 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_3 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_4 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_5 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_6 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_7 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_8 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_9 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_10 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_11 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_12 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_13 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_14 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_15 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_16 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_17 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_18 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_20 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_21 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_51 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_52 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_53 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_54 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_56 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_83 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_83 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_84 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_85 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_86 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_87 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_88 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_89 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_90 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_91 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_92 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_93 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_94 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_95 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_96 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_97 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_98 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_99 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_100 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_101 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_102 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_103 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_104 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_105 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_106 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_107 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_108 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_109 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_110 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_111 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_112 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_114 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_114 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_115 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_116 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_117 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_118 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_119 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_120 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_121 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_122 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_123 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_124 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_125 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_126 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_127 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_128 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_129 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_130 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_131 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_132 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_133 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_134 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_135 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_136 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_137 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_138 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_139 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_140 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_141 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_142 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_143 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_145 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_145 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_146 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_147 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_148 = decoded_addr_decoded_decoded_invInputs[5]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_1 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_2 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_3 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_4 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_5 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_6 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_7 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_13 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_14 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_15 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_16 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_17 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_18 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_19 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_21 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_21 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_22 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_23 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_24 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_25 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_26 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_27 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_28 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_29 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_30 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_31 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_32 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_33 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_34 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_35 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_36 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_37 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_38 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_39 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_40 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_41 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_42 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_43 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_44 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_45 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_46 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_47 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_48 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_49 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_50 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_56 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_57 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_58 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_59 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_60 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_61 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_62 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_63 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_64 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_65 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_66 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_67 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_68 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_69 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_70 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_71 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_72 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_73 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_74 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_75 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_76 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_77 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_78 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_79 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_80 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_82 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_82 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_83 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_84 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_85 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_86 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_87 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_88 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_89 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_90 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_91 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_92 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_93 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_94 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_95 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_96 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_97 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_98 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_99 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_100 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_101 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_102 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_103 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_104 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_105 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_106 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_107 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_108 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_109 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_110 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_111 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_113 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_113 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_114 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_115 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_116 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_117 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_118 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_119 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_120 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_121 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_122 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_123 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_124 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_125 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_126 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_127 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_128 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_129 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_130 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_131 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_132 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_133 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_134 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_135 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_136 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_137 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_138 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_139 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_140 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_141 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_142 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_144 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_144 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_145 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_146 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_147 = decoded_addr_decoded_decoded_invInputs[6]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_1 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_2 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_3 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_4 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_5 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_6 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_7 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_8 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_9 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_10 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_11 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_12 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_13 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_14 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_15 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_16 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_17 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_18 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_19 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_21 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_21 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_22 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_23 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_24 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_25 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_26 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_27 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_28 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_29 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_30 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_31 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_32 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_33 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_34 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_35 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_36 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_37 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_38 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_39 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_40 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_41 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_42 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_43 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_44 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_45 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_46 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_47 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_48 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_49 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_50 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_51 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_52 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_53 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_54 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_55 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_81 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_82 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_83 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_84 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_85 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_86 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_87 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_88 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_89 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_90 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_91 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_92 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_93 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_94 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_95 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_96 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_97 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_98 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_99 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_100 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_101 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_102 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_103 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_104 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_105 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_106 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_107 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_108 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_109 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_110 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_111 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_112 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_113 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_114 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_115 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_116 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_117 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_118 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_119 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_120 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_121 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_122 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_123 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_124 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_125 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_126 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_127 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_128 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_129 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_130 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_131 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_132 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_133 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_134 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_135 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_136 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_137 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_138 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_139 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_140 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_141 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_142 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_143 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_144 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_145 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_146 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_147 = decoded_addr_decoded_decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_1 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_2 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_112 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_113 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_114 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_115 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_116 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_117 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_118 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_119 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_120 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_121 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_122 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_123 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_124 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_125 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_126 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_127 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_128 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_129 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_130 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_131 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_132 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_133 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_134 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_135 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_136 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_137 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_138 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_139 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_140 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_141 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_142 = decoded_addr_decoded_decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_1 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_2 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_3 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_4 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_5 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_6 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_7 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_7 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_8 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_9 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_10 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_12 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_13 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_112 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_111 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_112 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_113 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_114 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_115 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_116 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_117 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_118 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_119 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_120 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_121 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_122 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_123 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_124 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_125 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_126 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_127 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_128 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_129 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_130 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_131 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_132 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_133 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_134 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_135 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_136 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_137 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_138 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_139 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_140 = decoded_addr_decoded_decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_1 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_2 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_3 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_3 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_4 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_6 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_7 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_6 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_7 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_8 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_9 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_12 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_13 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_10 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_11 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_12 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_13 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_14 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_15 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_18 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_20 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_19 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_20 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_19 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_20 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_21 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_22 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_23 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_24 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_25 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_26 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_27 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_28 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_29 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_30 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_31 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_32 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_33 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_34 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_35 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_36 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_37 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_38 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_39 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_40 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_41 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_42 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_43 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_44 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_45 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_46 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_47 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_48 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_49 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_50 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_55 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_54 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_55 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_53 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_54 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_55 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_56 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_57 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_58 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_59 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_60 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_61 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_62 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_63 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_64 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_65 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_66 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_67 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_68 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_79 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_77 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_78 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_79 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_80 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_81 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_82 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_83 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_84 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_85 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_86 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_87 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_88 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_89 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_90 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_91 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_92 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_93 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_94 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_95 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_96 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_97 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_98 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_99 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_100 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_101 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_102 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_103 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_104 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_105 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_106 = decoded_addr_decoded_decoded_invInputs[10]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_1 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_3 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_2 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_3 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_5 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_7 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_4 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_5 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_6 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_7 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_11 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_13 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_8 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_9 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_10 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_11 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_12 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_13 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_16 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_20 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_17 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_18 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_14 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_15 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_16 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_17 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_18 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_19 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_20 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_21 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_22 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_23 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_24 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_25 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_26 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_27 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_28 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_29 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_30 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_31 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_32 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_33 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_34 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_35 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_36 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_37 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_38 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_39 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_40 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_41 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_42 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_43 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_44 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_45 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_53 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_51 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_52 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_46 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_47 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_48 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_49 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_50 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_51 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_52 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_53 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_54 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_55 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_56 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_57 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_58 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_59 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_60 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_61 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_62 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_63 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_64 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_65 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_66 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_67 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_75 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_81 = decoded_addr_decoded_decoded_invInputs[11]; // @[pla.scala:78:21, :91:29] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo}; // @[pla.scala:98:53] wire [10:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T = {decoded_addr_decoded_decoded_andMatrixOutputs_hi, decoded_addr_decoded_decoded_andMatrixOutputs_lo}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_138_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_132 = decoded_addr_decoded_decoded_andMatrixOutputs_138_2; // @[pla.scala:98:70, :114:36] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_1 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_4 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_8 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_10 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_14 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_16 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_18 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_24 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_26 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_28 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_30 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_32 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_34 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_36 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_38 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_40 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_42 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_44 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_46 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_48 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_50 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_52 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_54 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_59 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_61 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_63 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_65 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_67 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_69 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_71 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_73 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_75 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_77 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_79 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_84 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_86 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_88 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_90 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_92 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_94 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_96 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_98 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_100 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_102 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_104 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_106 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_108 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_110 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_112 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_115 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_117 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_119 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_121 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_123 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_125 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_127 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_129 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_131 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_133 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_135 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_137 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_139 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_141 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_143 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_146 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_148 = decoded_addr_decoded_decoded_invInputs[0]; // @[pla.scala:78:21, :91:29] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_1 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_2 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_6 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_10 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_11 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_16 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_17 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_20 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_23 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_26 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_27 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_30 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_31 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_34 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_35 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_38 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_39 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_42 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_43 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_46 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_47 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_50 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_51 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_54 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_55 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_58 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_61 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_62 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_65 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_66 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_69 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_70 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_73 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_74 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_77 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_78 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_81 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_84 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_85 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_88 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_89 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_92 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_93 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_96 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_97 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_100 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_101 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_104 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_105 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_108 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_109 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_112 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_113 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_115 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_116 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_119 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_120 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_123 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_124 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_127 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_128 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_131 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_132 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_135 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_136 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_139 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_140 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_143 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_144 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_146 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_147 = decoded_addr_decoded_decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_1, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_1}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_1 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_1 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_1, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_1}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_1 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_1, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_1}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_1 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_1, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_1}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_1 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_1, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_1}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_1 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_1, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_1}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_1 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_1, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_1}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_1 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_1, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_1}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_1 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_1, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_1}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_1 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_1, decoded_addr_decoded_decoded_andMatrixOutputs_lo_1}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_134_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_1; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_131 = decoded_addr_decoded_decoded_andMatrixOutputs_134_2; // @[pla.scala:98:70, :114:36] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_2 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_5 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_9 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_11 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_15 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_17 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_19 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_25 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_27 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_29 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_31 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_33 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_35 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_37 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_39 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_41 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_43 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_45 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_47 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_49 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_51 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_53 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_55 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_60 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_62 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_64 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_66 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_68 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_70 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_72 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_74 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_76 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_78 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_80 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_85 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_87 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_89 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_91 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_93 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_95 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_97 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_99 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_101 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_103 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_105 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_107 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_109 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_111 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_113 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_116 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_118 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_120 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_122 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_124 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_126 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_128 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_130 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_132 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_134 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_136 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_138 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_140 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_142 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_144 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_147 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_149 = decoded_addr_decoded_decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_1 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_2, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_2}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_2 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_1, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_1}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_2 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_2, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_2}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_2 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_2, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_2}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_2 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_2, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_2}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_2 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_2, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_2}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_2 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_2, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_2}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_2 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_2, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_2}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_2 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_2, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_2}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_2 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_2, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_2}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_2 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_2, decoded_addr_decoded_decoded_andMatrixOutputs_lo_2}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_41_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_2; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_130 = decoded_addr_decoded_decoded_andMatrixOutputs_41_2; // @[pla.scala:98:70, :114:36] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_3 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_4 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_5 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_6 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_7 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_8 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_9 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_10 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_11 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_12 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_13 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_13 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_14 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_15 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_16 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_17 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_18 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_19 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_20 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_21 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_22 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_23 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_24 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_25 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_26 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_27 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_28 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_29 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_30 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_31 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_32 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_33 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_34 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_35 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_36 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_37 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_38 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_39 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_40 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_41 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_42 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_43 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_44 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_45 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_46 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_47 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_48 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_49 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_50 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_51 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_52 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_53 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_54 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_55 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_56 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_57 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_58 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_59 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_60 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_61 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_62 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_63 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_64 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_65 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_66 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_67 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_68 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_69 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_70 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_71 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_72 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_73 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_74 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_75 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_76 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_77 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_78 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_79 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_80 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_82 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_81 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_82 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_83 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_84 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_85 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_86 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_87 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_88 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_89 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_90 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_91 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_92 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_93 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_94 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_95 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_96 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_97 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_98 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_99 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_100 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_101 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_102 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_103 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_104 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_105 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_106 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_107 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_108 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_109 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_110 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_111 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_143 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_144 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_145 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_146 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_147 = decoded_addr_decoded_decoded_plaInput[8]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_3 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_3, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_3}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_3 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_3, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_3}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_3 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_3, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_3}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_3 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_3, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_3}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_3 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_3, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_3}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_3 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_3, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_3}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_3 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_3, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_3}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_3 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_3, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_3}; // @[pla.scala:98:53] wire [9:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_3 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_3, decoded_addr_decoded_decoded_andMatrixOutputs_lo_3}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_1_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_3; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_35 = decoded_addr_decoded_decoded_andMatrixOutputs_1_2; // @[pla.scala:98:70, :114:36] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_4 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_5 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_6 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_12 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_18 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_19 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_20 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_24 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_25 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_26 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_27 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_32 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_33 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_34 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_35 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_40 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_41 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_42 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_43 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_48 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_49 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_50 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_51 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_56 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_63 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_64 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_65 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_66 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_71 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_72 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_73 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_74 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_86 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_87 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_88 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_89 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_94 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_95 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_96 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_97 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_102 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_103 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_104 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_105 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_110 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_111 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_112 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_113 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_117 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_118 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_119 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_120 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_125 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_126 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_127 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_128 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_133 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_134 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_135 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_136 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_141 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_142 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_143 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_144 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_148 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_149 = decoded_addr_decoded_decoded_plaInput[2]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_2 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_4, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_3}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_4 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_2, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_2}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_4 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_4, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_4}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_4 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_4, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_4}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_4 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_4, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_4}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_3 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_4, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_4}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_4 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_3, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_4}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_4 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_4, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_4}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_4 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_4, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_4}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_4 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_4, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_4}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_4 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_4, decoded_addr_decoded_decoded_andMatrixOutputs_lo_4}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_89_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_4; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_33 = decoded_addr_decoded_decoded_andMatrixOutputs_89_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_3 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_5, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_4}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_5 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_3, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_3}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_5 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_5, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_5}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_5 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_5, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_5}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_5 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_5, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_5}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_4 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_5, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_5}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_5 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_4, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_5}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_5 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_5, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_5}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_5 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_5, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_5}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_5 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_5, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_5}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_5 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_5, decoded_addr_decoded_decoded_andMatrixOutputs_lo_5}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_123_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_5; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_27 = decoded_addr_decoded_decoded_andMatrixOutputs_123_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_6 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_6, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_5}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_6 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_6, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_6}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_6 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_6, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_6}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_6 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_6, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_6}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_5 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_6, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_6}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_6 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_5, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_6}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_6 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_6, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_6}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_6 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_6, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_6}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_6 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_6, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_6}; // @[pla.scala:98:53] wire [10:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_6 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_6, decoded_addr_decoded_decoded_andMatrixOutputs_lo_6}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_27_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_6; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_26 = decoded_addr_decoded_decoded_andMatrixOutputs_27_2; // @[pla.scala:98:70, :114:36] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_7 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_21 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_28 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_29 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_30 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_31 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_32 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_33 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_34 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_35 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_44 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_45 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_46 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_47 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_48 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_49 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_50 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_51 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_67 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_68 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_69 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_70 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_71 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_72 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_73 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_74 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_90 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_91 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_92 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_93 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_94 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_95 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_96 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_97 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_106 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_107 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_108 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_109 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_110 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_111 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_112 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_113 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_121 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_122 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_123 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_124 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_125 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_126 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_127 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_128 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_137 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_138 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_139 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_140 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_141 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_142 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_143 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_144 = decoded_addr_decoded_decoded_plaInput[3]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_7 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_7, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_7}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_7 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_7, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_7}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_7 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_7, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_7}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_7 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_7, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_7}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_7 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_7, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_7}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_7 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_7, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_7}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_7 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_7, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_7}; // @[pla.scala:98:53] wire [8:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_7 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_7, decoded_addr_decoded_decoded_andMatrixOutputs_lo_7}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_0_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_7; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_23 = decoded_addr_decoded_decoded_andMatrixOutputs_0_2; // @[pla.scala:98:70, :114:36] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_8 = decoded_addr_decoded_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_9 = decoded_addr_decoded_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_10 = decoded_addr_decoded_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_11 = decoded_addr_decoded_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_12 = decoded_addr_decoded_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_51 = decoded_addr_decoded_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_52 = decoded_addr_decoded_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_53 = decoded_addr_decoded_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_54 = decoded_addr_decoded_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_56 = decoded_addr_decoded_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_82 = decoded_addr_decoded_decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_4 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_7, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_6}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_8 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_4, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_4}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_7 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_8, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_8}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_8 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_7, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_8}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_8 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_8, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_8}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_6 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_8, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_8}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_8 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_6, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_8}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_8 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_8, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_8}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_8 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_8, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_8}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_8 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_8, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_8}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_8 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_8, decoded_addr_decoded_decoded_andMatrixOutputs_lo_8}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_92_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_8; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_32 = decoded_addr_decoded_decoded_andMatrixOutputs_92_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_5 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_8, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_7}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_9 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_5, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_5}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_8 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_9, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_9}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_9 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_8, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_9}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_9 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_9, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_9}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_7 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_9, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_9}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_9 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_7, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_9}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_9 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_9, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_9}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_9 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_9, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_9}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_9 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_9, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_9}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_9 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_9, decoded_addr_decoded_decoded_andMatrixOutputs_lo_9}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_59_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_9; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_28 = decoded_addr_decoded_decoded_andMatrixOutputs_59_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_6 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_9, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_8}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_10 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_6, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_6}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_9 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_10, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_10}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_10 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_9, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_10}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_10 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_10, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_10}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_8 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_10, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_10}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_10 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_8, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_10}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_10 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_10, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_10}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_10 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_10, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_10}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_10 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_10, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_10}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_10 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_10, decoded_addr_decoded_decoded_andMatrixOutputs_lo_10}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_24_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_10; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_31 = decoded_addr_decoded_decoded_andMatrixOutputs_24_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_7 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_10, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_9}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_11 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_7, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_7}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_10 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_11, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_11}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_11 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_10, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_11}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_11 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_11, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_11}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_9 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_11, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_11}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_11 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_9, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_11}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_11 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_11, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_11}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_11 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_11, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_11}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_11 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_11, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_11}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_11 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_11, decoded_addr_decoded_decoded_andMatrixOutputs_lo_11}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_116_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_11; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_30 = decoded_addr_decoded_decoded_andMatrixOutputs_116_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_12 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_12, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_11}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_11 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_12, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_12}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_12 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_11, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_12}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_12 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_12, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_12}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_12 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_12, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_12}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_12 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_12, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_12}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_12 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_12, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_12}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_12 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_12, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_12}; // @[pla.scala:98:53] wire [9:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_12 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_12, decoded_addr_decoded_decoded_andMatrixOutputs_lo_12}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_121_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_12; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_34 = decoded_addr_decoded_decoded_andMatrixOutputs_121_2; // @[pla.scala:98:70, :114:36] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_13 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_56 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_57 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_58 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_59 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_60 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_61 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_62 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_63 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_64 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_65 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_66 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_67 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_68 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_69 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_70 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_71 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_72 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_73 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_74 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_75 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_76 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_77 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_78 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_79 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_80 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_82 = decoded_addr_decoded_decoded_plaInput[7]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_13 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_13, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_13}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_13 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_13, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_13}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_13 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_13, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_13}; // @[pla.scala:91:29, :98:53] wire [4:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_13 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_13, decoded_addr_decoded_decoded_andMatrixOutputs_lo_13}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_74_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_13; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_29 = decoded_addr_decoded_decoded_andMatrixOutputs_74_2; // @[pla.scala:98:70, :114:36] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_12 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_13 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_14 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_15 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_16 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_17 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_19 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_20 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_21 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_22 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_21 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_22 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_23 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_24 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_25 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_26 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_27 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_28 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_29 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_30 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_31 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_32 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_33 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_34 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_35 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_36 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_37 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_38 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_39 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_40 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_41 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_42 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_43 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_44 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_45 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_46 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_47 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_48 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_49 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_50 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_51 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_52 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_55 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_56 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_57 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_56 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_57 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_58 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_59 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_60 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_61 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_62 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_63 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_64 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_65 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_66 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_67 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_68 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_69 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_70 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_71 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_72 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_73 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_74 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_75 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_76 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_77 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_80 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_82 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_81 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_80 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_81 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_82 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_83 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_84 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_85 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_86 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_87 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_88 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_89 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_90 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_91 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_92 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_93 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_94 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_95 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_96 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_97 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_98 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_99 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_100 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_101 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_102 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_103 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_104 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_105 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_106 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_107 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_108 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_109 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_143 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_142 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_143 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_144 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_145 = decoded_addr_decoded_decoded_plaInput[9]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_8 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_12, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_10}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_13 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_8, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_8}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_12 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_13, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_13}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_13 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_12, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_13}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_14 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_13, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_13}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_10 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_14, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_14}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_13 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_10, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_13}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_13 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_14, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_14}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_14 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_13, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_14}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_14 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_14, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_13}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_14 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_14, decoded_addr_decoded_decoded_andMatrixOutputs_lo_14}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_114_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_14; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_144 = decoded_addr_decoded_decoded_andMatrixOutputs_114_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_9 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_13, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_11}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_14 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_9, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_9}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_13 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_14, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_14}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_14 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_13, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_14}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_15 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_14, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_14}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_11 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_15, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_15}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_14 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_11, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_14}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_14 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_15, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_15}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_15 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_14, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_15}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_15 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_15, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_14}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_15 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_15, decoded_addr_decoded_decoded_andMatrixOutputs_lo_15}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_104_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_15; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_145 = decoded_addr_decoded_decoded_andMatrixOutputs_104_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_10 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_14, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_12}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_15 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_10, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_10}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_14 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_15, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_15}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_15 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_14, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_15}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_16 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_15, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_15}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_12 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_16, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_16}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_15 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_12, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_15}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_15 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_16, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_16}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_16 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_15, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_16}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_16 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_16, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_15}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_16 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_16, decoded_addr_decoded_decoded_andMatrixOutputs_lo_16}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_82_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_16; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_24 = decoded_addr_decoded_decoded_andMatrixOutputs_82_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_11 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_15, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_13}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_16 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_11, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_11}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_15 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_16, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_16}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_16 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_15, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_16}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_17 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_16, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_16}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_13 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_17, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_17}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_16 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_13, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_16}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_16 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_17, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_17}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_17 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_16, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_17}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_17 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_17, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_16}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_17 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_17, decoded_addr_decoded_decoded_andMatrixOutputs_lo_17}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_28_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_17; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_25 = decoded_addr_decoded_decoded_andMatrixOutputs_28_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_12 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_16, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_14}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_17 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_12, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_12}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_16 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_17, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_17}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_17 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_16, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_17}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_18 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_17, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_17}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_14 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_18, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_18}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_17 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_14, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_17}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_17 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_18, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_18}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_18 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_17, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_18}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_18 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_18, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_17}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_18 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_18, decoded_addr_decoded_decoded_andMatrixOutputs_lo_18}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_91_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_18; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_141 = decoded_addr_decoded_decoded_andMatrixOutputs_91_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_13 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_17, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_15}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_18 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_13, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_13}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_17 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_18, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_18}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_18 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_17, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_18}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_19 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_18, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_18}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_15 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_19, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_19}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_18 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_15, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_18}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_18 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_19, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_19}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_19 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_18, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_19}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_19 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_19, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_18}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_19 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_19, decoded_addr_decoded_decoded_andMatrixOutputs_lo_19}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_68_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_19; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_143 = decoded_addr_decoded_decoded_andMatrixOutputs_68_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_19 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_18, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_16}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_18 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_19, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_19}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_19 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_18, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_19}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_20 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_19, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_19}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_16 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_20, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_20}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_19 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_16, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_19}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_19 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_20, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_20}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_20 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_19, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_20}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_20 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_20, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_19}; // @[pla.scala:98:53] wire [10:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_20 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_20, decoded_addr_decoded_decoded_andMatrixOutputs_lo_20}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_84_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_20; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_39 = decoded_addr_decoded_decoded_andMatrixOutputs_84_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_20 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_20, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_20}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_20 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_20, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_20}; // @[pla.scala:90:45, :98:53] wire [3:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_21 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_20, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_20}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_20 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_21, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_21}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_20 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_21, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_21}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_21 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_20, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_21}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_21 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_21, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_20}; // @[pla.scala:98:53] wire [8:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_21 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_21, decoded_addr_decoded_decoded_andMatrixOutputs_lo_21}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_40_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_21; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_36 = decoded_addr_decoded_decoded_andMatrixOutputs_40_2; // @[pla.scala:98:70, :114:36] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_22 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_23 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_23 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_24 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_25 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_26 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_27 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_28 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_29 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_30 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_31 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_32 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_33 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_34 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_35 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_36 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_37 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_38 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_39 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_40 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_41 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_42 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_43 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_44 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_45 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_46 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_47 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_48 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_49 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_50 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_57 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_58 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_58 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_59 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_60 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_61 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_62 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_63 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_64 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_65 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_66 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_67 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_68 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_69 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_70 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_71 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_72 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_73 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_74 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_75 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_76 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_77 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_78 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_79 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_81 = decoded_addr_decoded_decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_21 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_19, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_17}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_19 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_21, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_21}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_21 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_19, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_21}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_22 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_21, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_21}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_17 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_22, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_22}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_21 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_17, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_21}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_21 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_22, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_22}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_22 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_21, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_22}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_22 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_22, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_21}; // @[pla.scala:98:53] wire [10:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_22 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_22, decoded_addr_decoded_decoded_andMatrixOutputs_lo_22}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_34_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_22; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_129 = decoded_addr_decoded_decoded_andMatrixOutputs_34_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_22 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_20, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_18}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_20 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_22, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_22}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_22 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_20, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_22}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_23 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_22, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_22}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_18 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_23, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_23}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_22 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_18, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_22}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_22 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_23, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_23}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_23 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_22, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_23}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_23 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_23, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_22}; // @[pla.scala:98:53] wire [10:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_23 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_23, decoded_addr_decoded_decoded_andMatrixOutputs_lo_23}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_136_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_23; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_126 = decoded_addr_decoded_decoded_andMatrixOutputs_136_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_14 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_21, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_19}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_23 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_14, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_14}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_21 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_23, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_23}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_23 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_21, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_23}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_24 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_23, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_23}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_19 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_24, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_24}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_23 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_19, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_23}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_23 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_24, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_24}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_24 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_23, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_24}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_24 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_24, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_23}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_24 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_24, decoded_addr_decoded_decoded_andMatrixOutputs_lo_24}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_55_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_24; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_123 = decoded_addr_decoded_decoded_andMatrixOutputs_55_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_15 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_22, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_20}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_24 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_15, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_15}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_22 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_24, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_24}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_24 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_22, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_24}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_25 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_24, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_24}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_20 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_25, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_25}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_24 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_20, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_24}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_24 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_25, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_25}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_25 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_24, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_25}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_25 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_25, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_24}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_25 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_25, decoded_addr_decoded_decoded_andMatrixOutputs_lo_25}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_105_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_25; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_120 = decoded_addr_decoded_decoded_andMatrixOutputs_105_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_16 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_23, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_21}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_25 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_16, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_16}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_23 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_25, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_25}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_25 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_23, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_25}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_26 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_25, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_25}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_21 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_26, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_26}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_25 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_21, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_25}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_25 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_26, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_26}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_26 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_25, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_26}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_26 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_26, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_25}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_26 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_26, decoded_addr_decoded_decoded_andMatrixOutputs_lo_26}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_109_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_26; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_117 = decoded_addr_decoded_decoded_andMatrixOutputs_109_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_17 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_24, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_22}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_26 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_17, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_17}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_24 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_26, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_26}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_26 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_24, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_26}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_27 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_26, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_26}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_22 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_27, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_27}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_26 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_22, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_26}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_26 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_27, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_27}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_27 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_26, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_27}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_27 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_27, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_26}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_27 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_27, decoded_addr_decoded_decoded_andMatrixOutputs_lo_27}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_7_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_27; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_114 = decoded_addr_decoded_decoded_andMatrixOutputs_7_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_18 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_25, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_23}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_27 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_18, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_18}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_25 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_27, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_27}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_27 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_25, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_27}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_28 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_27, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_27}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_23 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_28, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_28}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_27 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_23, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_27}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_27 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_28, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_28}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_28 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_27, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_28}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_28 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_28, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_27}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_28 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_28, decoded_addr_decoded_decoded_andMatrixOutputs_lo_28}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_47_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_28; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_111 = decoded_addr_decoded_decoded_andMatrixOutputs_47_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_19 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_26, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_24}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_28 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_19, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_19}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_26 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_28, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_28}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_28 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_26, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_28}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_29 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_28, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_28}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_24 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_29, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_29}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_28 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_24, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_28}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_28 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_29, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_29}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_29 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_28, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_29}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_29 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_29, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_28}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_29 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_29, decoded_addr_decoded_decoded_andMatrixOutputs_lo_29}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_141_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_29; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_108 = decoded_addr_decoded_decoded_andMatrixOutputs_141_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_20 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_27, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_25}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_29 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_20, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_20}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_27 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_29, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_29}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_29 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_27, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_29}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_30 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_29, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_29}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_25 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_30, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_30}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_29 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_25, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_29}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_29 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_30, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_30}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_30 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_29, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_30}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_30 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_30, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_29}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_30 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_30, decoded_addr_decoded_decoded_andMatrixOutputs_lo_30}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_11_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_30; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_105 = decoded_addr_decoded_decoded_andMatrixOutputs_11_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_21 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_28, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_26}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_30 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_21, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_21}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_28 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_30, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_30}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_30 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_28, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_30}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_31 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_30, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_30}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_26 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_31, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_31}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_30 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_26, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_30}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_30 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_31, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_31}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_31 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_30, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_31}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_31 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_31, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_30}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_31 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_31, decoded_addr_decoded_decoded_andMatrixOutputs_lo_31}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_118_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_31; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_102 = decoded_addr_decoded_decoded_andMatrixOutputs_118_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_22 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_29, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_27}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_31 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_22, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_22}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_29 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_31, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_31}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_31 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_29, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_31}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_32 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_31, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_31}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_27 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_32, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_32}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_31 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_27, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_31}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_31 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_32, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_32}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_32 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_31, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_32}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_32 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_32, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_31}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_32 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_32, decoded_addr_decoded_decoded_andMatrixOutputs_lo_32}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_120_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_32; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_99 = decoded_addr_decoded_decoded_andMatrixOutputs_120_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_23 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_30, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_28}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_32 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_23, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_23}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_30 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_32, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_32}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_32 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_30, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_32}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_33 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_32, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_32}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_28 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_33, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_33}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_32 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_28, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_32}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_32 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_33, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_33}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_33 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_32, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_33}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_33 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_33, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_32}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_33 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_33, decoded_addr_decoded_decoded_andMatrixOutputs_lo_33}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_139_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_33; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_96 = decoded_addr_decoded_decoded_andMatrixOutputs_139_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_24 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_31, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_29}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_33 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_24, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_24}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_31 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_33, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_33}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_33 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_31, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_33}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_34 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_33, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_33}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_29 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_34, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_34}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_33 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_29, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_33}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_33 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_34, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_34}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_34 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_33, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_34}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_34 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_34, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_33}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_34 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_34, decoded_addr_decoded_decoded_andMatrixOutputs_lo_34}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_86_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_34; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_93 = decoded_addr_decoded_decoded_andMatrixOutputs_86_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_25 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_32, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_30}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_34 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_25, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_25}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_32 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_34, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_34}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_34 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_32, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_34}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_35 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_34, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_34}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_30 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_35, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_35}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_34 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_30, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_34}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_34 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_35, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_35}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_35 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_34, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_35}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_35 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_35, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_34}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_35 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_35, decoded_addr_decoded_decoded_andMatrixOutputs_lo_35}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_8_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_35; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_90 = decoded_addr_decoded_decoded_andMatrixOutputs_8_2; // @[pla.scala:98:70, :114:36] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_36 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_37 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_38 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_39 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_40 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_41 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_42 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_43 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_44 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_45 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_46 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_47 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_48 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_49 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_50 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_51 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_59 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_60 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_61 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_62 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_63 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_64 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_65 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_66 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_67 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_68 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_69 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_70 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_71 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_72 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_73 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_74 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_79 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_80 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_81 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_98 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_99 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_100 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_101 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_102 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_103 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_104 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_105 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_106 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_107 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_108 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_109 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_110 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_111 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_112 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_113 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_129 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_130 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_131 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_132 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_133 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_134 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_135 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_136 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_137 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_138 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_139 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_140 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_141 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_142 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_143 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_144 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_145 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_146 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_147 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_148 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_149 = decoded_addr_decoded_decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_26 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_33, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_31}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_35 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_26, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_26}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_33 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_35, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_35}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_35 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_33, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_35}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_36 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_35, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_35}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_31 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_36, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_36}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_35 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_31, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_35}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_35 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_36, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_36}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_36 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_35, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_36}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_36 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_36, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_35}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_36 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_36, decoded_addr_decoded_decoded_andMatrixOutputs_lo_36}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_61_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_36; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_87 = decoded_addr_decoded_decoded_andMatrixOutputs_61_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_27 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_34, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_32}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_36 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_27, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_27}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_34 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_36, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_36}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_36 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_34, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_36}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_37 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_36, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_36}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_32 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_37, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_37}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_36 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_32, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_36}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_36 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_37, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_37}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_37 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_36, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_37}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_37 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_37, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_36}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_37 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_37, decoded_addr_decoded_decoded_andMatrixOutputs_lo_37}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_83_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_37; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_84 = decoded_addr_decoded_decoded_andMatrixOutputs_83_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_28 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_35, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_33}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_37 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_28, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_28}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_35 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_37, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_37}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_37 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_35, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_37}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_38 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_37, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_37}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_33 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_38, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_38}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_37 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_33, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_37}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_37 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_38, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_38}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_38 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_37, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_38}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_38 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_38, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_37}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_38 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_38, decoded_addr_decoded_decoded_andMatrixOutputs_lo_38}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_129_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_38; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_81 = decoded_addr_decoded_decoded_andMatrixOutputs_129_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_29 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_36, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_34}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_38 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_29, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_29}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_36 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_38, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_38}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_38 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_36, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_38}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_39 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_38, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_38}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_34 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_39, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_39}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_38 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_34, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_38}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_38 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_39, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_39}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_39 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_38, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_39}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_39 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_39, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_38}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_39 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_39, decoded_addr_decoded_decoded_andMatrixOutputs_lo_39}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_17_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_39; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_78 = decoded_addr_decoded_decoded_andMatrixOutputs_17_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_30 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_37, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_35}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_39 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_30, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_30}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_37 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_39, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_39}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_39 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_37, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_39}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_40 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_39, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_39}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_35 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_40, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_40}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_39 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_35, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_39}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_39 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_40, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_40}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_40 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_39, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_40}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_40 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_40, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_39}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_40 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_40, decoded_addr_decoded_decoded_andMatrixOutputs_lo_40}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_87_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_40; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_75 = decoded_addr_decoded_decoded_andMatrixOutputs_87_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_31 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_38, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_36}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_40 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_31, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_31}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_38 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_40, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_40}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_40 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_38, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_40}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_41 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_40, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_40}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_36 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_41, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_41}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_40 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_36, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_40}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_40 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_41, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_41}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_41 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_40, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_41}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_41 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_41, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_40}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_41 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_41, decoded_addr_decoded_decoded_andMatrixOutputs_lo_41}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_133_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_41; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_72 = decoded_addr_decoded_decoded_andMatrixOutputs_133_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_32 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_39, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_37}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_41 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_32, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_32}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_39 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_41, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_41}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_41 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_39, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_41}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_42 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_41, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_41}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_37 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_42, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_42}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_41 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_37, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_41}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_41 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_42, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_42}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_42 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_41, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_42}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_42 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_42, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_41}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_42 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_42, decoded_addr_decoded_decoded_andMatrixOutputs_lo_42}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_142_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_42; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_69 = decoded_addr_decoded_decoded_andMatrixOutputs_142_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_33 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_40, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_38}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_42 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_33, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_33}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_40 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_42, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_42}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_42 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_40, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_42}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_43 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_42, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_42}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_38 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_43, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_43}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_42 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_38, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_42}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_42 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_43, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_43}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_43 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_42, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_43}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_43 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_43, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_42}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_43 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_43, decoded_addr_decoded_decoded_andMatrixOutputs_lo_43}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_22_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_43; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_66 = decoded_addr_decoded_decoded_andMatrixOutputs_22_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_34 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_41, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_39}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_43 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_34, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_34}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_41 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_43, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_43}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_43 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_41, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_43}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_44 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_43, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_43}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_39 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_44, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_44}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_43 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_39, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_43}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_43 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_44, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_44}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_44 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_43, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_44}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_44 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_44, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_43}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_44 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_44, decoded_addr_decoded_decoded_andMatrixOutputs_lo_44}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_94_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_44; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_63 = decoded_addr_decoded_decoded_andMatrixOutputs_94_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_35 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_42, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_40}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_44 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_35, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_35}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_42 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_44, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_44}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_44 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_42, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_44}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_45 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_44, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_44}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_40 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_45, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_45}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_44 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_40, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_44}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_44 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_45, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_45}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_45 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_44, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_45}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_45 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_45, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_44}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_45 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_45, decoded_addr_decoded_decoded_andMatrixOutputs_lo_45}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_65_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_45; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_60 = decoded_addr_decoded_decoded_andMatrixOutputs_65_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_36 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_43, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_41}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_45 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_36, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_36}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_43 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_45, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_45}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_45 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_43, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_45}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_46 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_45, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_45}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_41 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_46, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_46}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_45 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_41, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_45}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_45 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_46, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_46}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_46 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_45, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_46}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_46 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_46, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_45}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_46 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_46, decoded_addr_decoded_decoded_andMatrixOutputs_lo_46}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_36_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_46; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_57 = decoded_addr_decoded_decoded_andMatrixOutputs_36_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_37 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_44, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_42}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_46 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_37, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_37}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_44 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_46, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_46}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_46 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_44, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_46}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_47 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_46, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_46}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_42 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_47, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_47}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_46 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_42, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_46}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_46 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_47, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_47}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_47 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_46, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_47}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_47 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_47, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_46}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_47 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_47, decoded_addr_decoded_decoded_andMatrixOutputs_lo_47}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_33_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_47; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_54 = decoded_addr_decoded_decoded_andMatrixOutputs_33_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_38 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_45, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_43}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_47 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_38, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_38}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_45 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_47, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_47}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_47 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_45, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_47}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_48 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_47, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_47}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_43 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_48, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_48}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_47 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_43, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_47}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_47 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_48, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_48}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_48 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_47, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_48}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_48 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_48, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_47}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_48 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_48, decoded_addr_decoded_decoded_andMatrixOutputs_lo_48}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_63_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_48; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_51 = decoded_addr_decoded_decoded_andMatrixOutputs_63_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_39 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_46, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_44}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_48 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_39, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_39}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_46 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_48, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_48}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_48 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_46, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_48}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_49 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_48, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_48}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_44 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_49, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_49}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_48 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_44, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_48}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_48 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_49, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_49}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_49 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_48, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_49}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_49 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_49, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_48}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_49 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_49, decoded_addr_decoded_decoded_andMatrixOutputs_lo_49}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_39_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_49; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_48 = decoded_addr_decoded_decoded_andMatrixOutputs_39_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_40 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_47, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_45}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_49 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_40, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_40}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_47 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_49, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_49}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_49 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_47, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_49}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_50 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_49, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_49}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_45 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_50, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_50}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_49 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_45, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_49}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_49 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_50, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_50}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_50 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_49, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_50}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_50 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_50, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_49}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_50 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_50, decoded_addr_decoded_decoded_andMatrixOutputs_lo_50}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_32_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_50; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_45 = decoded_addr_decoded_decoded_andMatrixOutputs_32_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_41 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_48, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_46}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_50 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_41, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_41}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_48 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_50, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_50}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_50 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_48, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_50}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_51 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_50, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_50}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_46 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_51, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_51}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_50 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_46, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_50}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_50 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_51, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_51}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_51 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_50, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_51}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_51 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_51, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_50}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_51 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_51, decoded_addr_decoded_decoded_andMatrixOutputs_lo_51}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_144_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_51; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_42 = decoded_addr_decoded_decoded_andMatrixOutputs_144_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_42 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_49, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_47}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_51 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_42, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_42}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_49 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_51, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_51}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_51 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_49, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_51}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_52 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_51, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_51}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_47 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_52, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_52}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_51 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_47, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_51}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_51 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_52, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_52}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_52 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_51, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_52}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_52 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_52, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_51}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_52 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_52, decoded_addr_decoded_decoded_andMatrixOutputs_lo_52}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_66_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_52; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_140 = decoded_addr_decoded_decoded_andMatrixOutputs_66_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_43 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_50, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_48}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_52 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_43, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_43}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_50 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_52, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_52}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_52 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_50, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_52}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_53 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_52, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_52}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_48 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_53, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_53}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_52 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_48, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_52}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_52 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_53, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_53}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_53 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_52, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_53}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_53 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_53, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_52}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_53 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_53, decoded_addr_decoded_decoded_andMatrixOutputs_lo_53}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_106_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_53; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_139 = decoded_addr_decoded_decoded_andMatrixOutputs_106_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_44 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_51, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_49}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_53 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_44, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_44}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_51 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_53, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_53}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_53 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_51, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_53}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_54 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_53, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_53}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_49 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_54, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_54}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_53 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_49, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_53}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_53 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_54, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_54}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_54 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_53, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_54}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_54 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_54, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_53}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_54 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_54, decoded_addr_decoded_decoded_andMatrixOutputs_lo_54}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_80_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_54; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_137 = decoded_addr_decoded_decoded_andMatrixOutputs_80_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_45 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_52, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_50}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_54 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_45, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_45}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_52 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_54, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_54}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_54 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_52, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_54}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_55 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_54, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_54}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_50 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_55, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_55}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_54 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_50, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_54}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_54 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_55, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_55}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_55 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_54, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_55}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_55 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_55, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_54}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_55 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_55, decoded_addr_decoded_decoded_andMatrixOutputs_lo_55}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_122_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_55; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_138 = decoded_addr_decoded_decoded_andMatrixOutputs_122_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_55 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_55, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_53}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_53 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_55, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_55}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_55 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_53, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_55}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_56 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_55, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_55}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_55 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_56, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_56}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_55 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_56, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_56}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_56 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_55, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_56}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_56 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_56, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_55}; // @[pla.scala:98:53] wire [9:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_56 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_56, decoded_addr_decoded_decoded_andMatrixOutputs_lo_56}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_119_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_56; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_142 = decoded_addr_decoded_decoded_andMatrixOutputs_119_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_56 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_54, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_51}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_54 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_56, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_56}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_56 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_54, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_56}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_57 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_56, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_56}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_51 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_57, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_57}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_56 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_51, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_56}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_56 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_57, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_57}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_57 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_56, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_57}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_57 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_57, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_56}; // @[pla.scala:98:53] wire [10:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_57 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_57, decoded_addr_decoded_decoded_andMatrixOutputs_lo_57}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_67_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_57; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_22 = decoded_addr_decoded_decoded_andMatrixOutputs_67_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_57 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_55, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_52}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_55 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_57, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_57}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_57 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_55, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_57}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_58 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_57, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_57}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_52 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_58, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_58}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_57 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_52, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_57}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_57 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_58, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_58}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_58 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_57, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_58}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_58 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_58, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_57}; // @[pla.scala:98:53] wire [10:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_58 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_58, decoded_addr_decoded_decoded_andMatrixOutputs_lo_58}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_48_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_58; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_21 = decoded_addr_decoded_decoded_andMatrixOutputs_48_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_46 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_56, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_53}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_58 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_46, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_46}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_56 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_58, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_58}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_58 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_56, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_58}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_59 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_58, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_58}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_53 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_59, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_59}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_58 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_53, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_58}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_58 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_59, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_59}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_59 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_58, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_59}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_59 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_59, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_58}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_59 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_59, decoded_addr_decoded_decoded_andMatrixOutputs_lo_59}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_10_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_59; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_20 = decoded_addr_decoded_decoded_andMatrixOutputs_10_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_47 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_57, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_54}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_59 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_47, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_47}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_57 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_59, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_59}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_59 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_57, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_59}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_60 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_59, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_59}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_54 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_60, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_60}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_59 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_54, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_59}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_59 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_60, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_60}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_60 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_59, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_60}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_60 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_60, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_59}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_60 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_60, decoded_addr_decoded_decoded_andMatrixOutputs_lo_60}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_45_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_60; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_19 = decoded_addr_decoded_decoded_andMatrixOutputs_45_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_48 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_58, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_55}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_60 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_48, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_48}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_58 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_60, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_60}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_60 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_58, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_60}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_61 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_60, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_60}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_55 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_61, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_61}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_60 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_55, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_60}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_60 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_61, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_61}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_61 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_60, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_61}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_61 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_61, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_60}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_61 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_61, decoded_addr_decoded_decoded_andMatrixOutputs_lo_61}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_18_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_61; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_18 = decoded_addr_decoded_decoded_andMatrixOutputs_18_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_49 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_59, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_56}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_61 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_49, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_49}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_59 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_61, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_61}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_61 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_59, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_61}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_62 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_61, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_61}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_56 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_62, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_62}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_61 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_56, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_61}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_61 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_62, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_62}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_62 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_61, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_62}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_62 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_62, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_61}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_62 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_62, decoded_addr_decoded_decoded_andMatrixOutputs_lo_62}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_88_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_62; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_17 = decoded_addr_decoded_decoded_andMatrixOutputs_88_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_50 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_60, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_57}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_62 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_50, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_50}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_60 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_62, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_62}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_62 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_60, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_62}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_63 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_62, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_62}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_57 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_63, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_63}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_62 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_57, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_62}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_62 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_63, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_63}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_63 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_62, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_63}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_63 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_63, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_62}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_63 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_63, decoded_addr_decoded_decoded_andMatrixOutputs_lo_63}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_57_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_63; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_16 = decoded_addr_decoded_decoded_andMatrixOutputs_57_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_51 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_61, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_58}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_63 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_51, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_51}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_61 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_63, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_63}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_63 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_61, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_63}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_64 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_63, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_63}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_58 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_64, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_64}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_63 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_58, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_63}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_63 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_64, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_64}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_64 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_63, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_64}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_64 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_64, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_63}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_64 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_64, decoded_addr_decoded_decoded_andMatrixOutputs_lo_64}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_85_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_64; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_15 = decoded_addr_decoded_decoded_andMatrixOutputs_85_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_52 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_62, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_59}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_64 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_52, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_52}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_62 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_64, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_64}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_64 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_62, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_64}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_65 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_64, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_64}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_59 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_65, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_65}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_64 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_59, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_64}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_64 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_65, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_65}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_65 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_64, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_65}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_65 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_65, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_64}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_65 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_65, decoded_addr_decoded_decoded_andMatrixOutputs_lo_65}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_100_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_65; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_14 = decoded_addr_decoded_decoded_andMatrixOutputs_100_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_53 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_63, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_60}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_65 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_53, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_53}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_63 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_65, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_65}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_65 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_63, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_65}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_66 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_65, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_65}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_60 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_66, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_66}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_65 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_60, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_65}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_65 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_66, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_66}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_66 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_65, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_66}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_66 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_66, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_65}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_66 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_66, decoded_addr_decoded_decoded_andMatrixOutputs_lo_66}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_111_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_66; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_13 = decoded_addr_decoded_decoded_andMatrixOutputs_111_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_54 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_64, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_61}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_66 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_54, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_54}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_64 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_66, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_66}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_66 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_64, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_66}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_67 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_66, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_66}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_61 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_67, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_67}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_66 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_61, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_66}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_66 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_67, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_67}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_67 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_66, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_67}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_67 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_67, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_66}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_67 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_67, decoded_addr_decoded_decoded_andMatrixOutputs_lo_67}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_93_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_67; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_12 = decoded_addr_decoded_decoded_andMatrixOutputs_93_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_55 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_65, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_62}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_67 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_55, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_55}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_65 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_67, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_67}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_67 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_65, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_67}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_68 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_67, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_67}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_62 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_68, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_68}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_67 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_62, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_67}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_67 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_68, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_68}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_68 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_67, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_68}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_68 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_68, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_67}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_68 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_68, decoded_addr_decoded_decoded_andMatrixOutputs_lo_68}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_137_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_68; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_11 = decoded_addr_decoded_decoded_andMatrixOutputs_137_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_56 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_66, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_63}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_68 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_56, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_56}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_66 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_68, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_68}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_68 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_66, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_68}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_69 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_68, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_68}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_63 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_69, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_69}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_68 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_63, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_68}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_68 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_69, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_69}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_69 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_68, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_69}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_69 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_69, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_68}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_69 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_69, decoded_addr_decoded_decoded_andMatrixOutputs_lo_69}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_72_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_69; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_10 = decoded_addr_decoded_decoded_andMatrixOutputs_72_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_57 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_67, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_64}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_69 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_57, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_57}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_67 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_69, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_69}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_69 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_67, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_69}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_70 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_69, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_69}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_64 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_70, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_70}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_69 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_64, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_69}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_69 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_70, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_70}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_70 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_69, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_70}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_70 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_70, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_69}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_70 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_70, decoded_addr_decoded_decoded_andMatrixOutputs_lo_70}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_42_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_70; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_9 = decoded_addr_decoded_decoded_andMatrixOutputs_42_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_58 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_68, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_65}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_70 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_58, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_58}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_68 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_70, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_70}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_70 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_68, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_70}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_71 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_70, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_70}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_65 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_71, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_71}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_70 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_65, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_70}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_70 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_71, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_71}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_71 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_70, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_71}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_71 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_71, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_70}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_71 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_71, decoded_addr_decoded_decoded_andMatrixOutputs_lo_71}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_145_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_71; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_8 = decoded_addr_decoded_decoded_andMatrixOutputs_145_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_59 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_69, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_66}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_71 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_59, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_59}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_69 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_71, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_71}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_71 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_69, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_71}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_72 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_71, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_71}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_66 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_72, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_72}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_71 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_66, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_71}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_71 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_72, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_72}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_72 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_71, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_72}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_72 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_72, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_71}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_72 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_72, decoded_addr_decoded_decoded_andMatrixOutputs_lo_72}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_98_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_72; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_7 = decoded_addr_decoded_decoded_andMatrixOutputs_98_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_60 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_70, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_67}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_72 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_60, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_60}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_70 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_72, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_72}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_72 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_70, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_72}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_73 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_72, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_72}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_67 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_73, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_73}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_72 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_67, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_72}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_72 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_73, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_73}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_73 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_72, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_73}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_73 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_73, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_72}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_73 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_73, decoded_addr_decoded_decoded_andMatrixOutputs_lo_73}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_113_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_73; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_6 = decoded_addr_decoded_decoded_andMatrixOutputs_113_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_61 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_71, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_68}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_73 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_61, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_61}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_71 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_73, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_73}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_73 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_71, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_73}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_74 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_73, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_73}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_68 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_74, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_74}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_73 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_68, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_73}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_73 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_74, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_74}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_74 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_73, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_74}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_74 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_74, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_73}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_74 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_74, decoded_addr_decoded_decoded_andMatrixOutputs_lo_74}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_149_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_74; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_5 = decoded_addr_decoded_decoded_andMatrixOutputs_149_2; // @[pla.scala:98:70, :114:36] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_69 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_70 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_71 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_72 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_73 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_74 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_78 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_82 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_110 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_108 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_109 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_110 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_111 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_112 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_113 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_114 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_115 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_116 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_117 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_118 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_119 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_120 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_121 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_122 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_123 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_124 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_125 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_126 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_127 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_128 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_129 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_130 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_131 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_132 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_133 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_134 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_135 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_136 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_137 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_141 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_139 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_140 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_141 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_142 = decoded_addr_decoded_decoded_plaInput[10]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_62 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_72, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_69}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_74 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_62, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_62}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_72 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_74, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_74}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_74 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_72, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_74}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_75 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_74, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_74}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_69 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_75, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_75}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_74 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_69, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_74}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_74 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_75, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_75}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_75 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_74, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_75}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_75 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_75, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_74}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_75 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_75, decoded_addr_decoded_decoded_andMatrixOutputs_lo_75}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_2_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_75; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_149 = decoded_addr_decoded_decoded_andMatrixOutputs_2_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_63 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_73, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_70}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_75 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_63, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_63}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_73 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_75, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_75}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_75 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_73, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_75}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_76 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_75, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_75}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_70 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_76, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_76}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_75 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_70, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_75}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_75 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_76, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_76}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_76 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_75, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_76}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_76 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_76, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_75}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_76 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_76, decoded_addr_decoded_decoded_andMatrixOutputs_lo_76}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_146_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_76; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_148 = decoded_addr_decoded_decoded_andMatrixOutputs_146_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_64 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_74, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_71}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_76 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_64, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_64}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_74 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_76, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_76}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_76 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_74, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_76}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_77 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_76, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_76}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_71 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_77, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_77}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_76 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_71, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_76}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_76 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_77, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_77}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_77 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_76, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_77}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_77 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_77, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_76}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_77 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_77, decoded_addr_decoded_decoded_andMatrixOutputs_lo_77}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_128_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_77; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_147 = decoded_addr_decoded_decoded_andMatrixOutputs_128_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_65 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_75, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_72}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_77 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_65, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_65}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_75 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_77, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_77}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_77 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_75, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_77}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_78 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_77, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_77}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_72 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_78, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_78}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_77 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_72, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_77}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_77 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_78, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_78}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_78 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_77, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_78}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_78 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_78, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_77}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_78 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_78, decoded_addr_decoded_decoded_andMatrixOutputs_lo_78}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_56_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_78; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_146 = decoded_addr_decoded_decoded_andMatrixOutputs_56_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_66 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_76, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_73}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_78 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_66, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_66}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_76 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_78, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_78}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_78 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_76, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_78}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_79 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_78, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_78}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_73 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_79, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_79}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_78 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_73, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_78}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_78 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_79, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_79}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_79 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_78, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_79}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_79 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_79, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_78}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_79 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_79, decoded_addr_decoded_decoded_andMatrixOutputs_lo_79}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_3_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_79; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_135 = decoded_addr_decoded_decoded_andMatrixOutputs_3_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_67 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_77, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_74}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_79 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_67, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_67}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_77 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_79, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_79}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_79 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_77, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_79}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_80 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_79, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_79}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_74 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_80, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_80}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_79 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_74, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_79}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_79 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_80, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_80}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_80 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_79, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_80}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_80 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_80, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_79}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_80 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_80, decoded_addr_decoded_decoded_andMatrixOutputs_lo_80}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_50_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_80; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_134 = decoded_addr_decoded_decoded_andMatrixOutputs_50_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_80 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_78, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_75}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_78 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_80, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_80}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_80 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_78, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_80}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_81 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_80, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_80}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_75 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_81, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_81}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_80 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_75, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_80}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_80 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_81, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_81}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_81 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_80, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_81}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_81 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_81, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_80}; // @[pla.scala:98:53] wire [10:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_81 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_81, decoded_addr_decoded_decoded_andMatrixOutputs_lo_81}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_23_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_81; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_133 = decoded_addr_decoded_decoded_andMatrixOutputs_23_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_81 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_82, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_82}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_82 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_81, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_81}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_82 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_82, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_82}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_82 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_82, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_82}; // @[pla.scala:90:45, :98:53] wire [5:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_82 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_82, decoded_addr_decoded_decoded_andMatrixOutputs_lo_82}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_12_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_82; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_4 = decoded_addr_decoded_decoded_andMatrixOutputs_12_2; // @[pla.scala:98:70, :114:36] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_76 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_68 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_69 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_70 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_71 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_72 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_73 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_74 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_75 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_76 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_77 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_78 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_79 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_80 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_81 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_82 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_83 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_84 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_85 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_86 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_87 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_88 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_89 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_90 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_91 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_92 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_93 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_94 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_95 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_96 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_97 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_107 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_98 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_99 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_100 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_101 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_102 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_103 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_104 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_105 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_106 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_107 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_108 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_109 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_110 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_111 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_112 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_113 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_114 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_115 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_116 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_117 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_118 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_119 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_120 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_121 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_122 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_123 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_124 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_125 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_126 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_127 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_138 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_128 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_129 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_130 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_131 = decoded_addr_decoded_decoded_plaInput[11]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_81 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_79, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_76}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_79 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_81, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_81}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_82 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_79, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_81}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_83 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_82, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_81}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_76 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_83, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_83}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_81 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_76, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_82}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_81 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_83, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_83}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_83 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_81, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_83}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_83 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_83, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_81}; // @[pla.scala:98:53] wire [10:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_83 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_83, decoded_addr_decoded_decoded_andMatrixOutputs_lo_83}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_76_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_83; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_128 = decoded_addr_decoded_decoded_andMatrixOutputs_76_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_68 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_80, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_77}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_82 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_68, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_68}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_80 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_82, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_82}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_83 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_80, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_82}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_84 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_83, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_82}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_77 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_84, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_84}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_82 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_77, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_83}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_82 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_84, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_84}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_84 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_82, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_84}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_84 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_84, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_82}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_84 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_84, decoded_addr_decoded_decoded_andMatrixOutputs_lo_84}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_79_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_84; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_127 = decoded_addr_decoded_decoded_andMatrixOutputs_79_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_69 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_81, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_78}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_83 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_69, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_69}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_81 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_83, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_83}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_84 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_81, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_83}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_85 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_84, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_83}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_78 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_85, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_85}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_83 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_78, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_84}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_83 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_85, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_85}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_85 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_83, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_85}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_85 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_85, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_83}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_85 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_85, decoded_addr_decoded_decoded_andMatrixOutputs_lo_85}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_95_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_85; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_125 = decoded_addr_decoded_decoded_andMatrixOutputs_95_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_70 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_82, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_79}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_84 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_70, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_70}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_82 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_84, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_84}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_85 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_82, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_84}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_86 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_85, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_84}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_79 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_86, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_86}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_84 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_79, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_85}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_84 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_86, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_86}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_86 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_84, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_86}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_86 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_86, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_84}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_86 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_86, decoded_addr_decoded_decoded_andMatrixOutputs_lo_86}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_26_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_86; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_122 = decoded_addr_decoded_decoded_andMatrixOutputs_26_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_71 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_83, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_80}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_85 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_71, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_71}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_83 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_85, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_85}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_86 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_83, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_85}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_87 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_86, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_85}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_80 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_87, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_87}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_85 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_80, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_86}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_85 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_87, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_87}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_87 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_85, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_87}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_87 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_87, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_85}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_87 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_87, decoded_addr_decoded_decoded_andMatrixOutputs_lo_87}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_124_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_87; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_119 = decoded_addr_decoded_decoded_andMatrixOutputs_124_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_72 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_84, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_81}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_86 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_72, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_72}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_84 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_86, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_86}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_87 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_84, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_86}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_88 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_87, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_86}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_81 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_88, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_88}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_86 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_81, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_87}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_86 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_88, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_88}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_88 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_86, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_88}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_88 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_88, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_86}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_88 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_88, decoded_addr_decoded_decoded_andMatrixOutputs_lo_88}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_147_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_88; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_116 = decoded_addr_decoded_decoded_andMatrixOutputs_147_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_73 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_85, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_82}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_87 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_73, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_73}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_85 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_87, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_87}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_88 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_85, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_87}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_89 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_88, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_87}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_82 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_89, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_89}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_87 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_82, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_88}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_87 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_89, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_89}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_89 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_87, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_89}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_89 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_89, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_87}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_89 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_89, decoded_addr_decoded_decoded_andMatrixOutputs_lo_89}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_77_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_89; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_113 = decoded_addr_decoded_decoded_andMatrixOutputs_77_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_74 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_86, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_83}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_88 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_74, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_74}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_86 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_88, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_88}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_89 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_86, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_88}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_90 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_89, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_88}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_83 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_90, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_90}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_88 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_83, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_89}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_88 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_90, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_90}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_90 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_88, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_90}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_90 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_90, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_88}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_90 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_90, decoded_addr_decoded_decoded_andMatrixOutputs_lo_90}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_140_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_90; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_110 = decoded_addr_decoded_decoded_andMatrixOutputs_140_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_75 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_87, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_84}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_89 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_75, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_75}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_87 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_89, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_89}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_90 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_87, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_89}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_91 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_90, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_89}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_84 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_91, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_91}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_89 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_84, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_90}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_89 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_91, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_91}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_91 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_89, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_91}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_91 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_91, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_89}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_91 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_91, decoded_addr_decoded_decoded_andMatrixOutputs_lo_91}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_44_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_91; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_107 = decoded_addr_decoded_decoded_andMatrixOutputs_44_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_76 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_88, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_85}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_90 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_76, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_76}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_88 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_90, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_90}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_91 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_88, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_90}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_92 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_91, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_90}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_85 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_92, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_92}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_90 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_85, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_91}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_90 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_92, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_92}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_92 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_90, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_92}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_92 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_92, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_90}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_92 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_92, decoded_addr_decoded_decoded_andMatrixOutputs_lo_92}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_31_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_92; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_104 = decoded_addr_decoded_decoded_andMatrixOutputs_31_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_77 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_89, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_86}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_91 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_77, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_77}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_89 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_91, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_91}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_92 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_89, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_91}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_93 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_92, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_91}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_86 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_93, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_93}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_91 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_86, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_92}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_91 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_93, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_93}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_93 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_91, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_93}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_93 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_93, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_91}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_93 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_93, decoded_addr_decoded_decoded_andMatrixOutputs_lo_93}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_62_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_93; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_101 = decoded_addr_decoded_decoded_andMatrixOutputs_62_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_78 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_90, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_87}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_92 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_78, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_78}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_90 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_92, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_92}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_93 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_90, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_92}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_94 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_93, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_92}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_87 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_94, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_94}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_92 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_87, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_93}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_92 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_94, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_94}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_94 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_92, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_94}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_94 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_94, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_92}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_94 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_94, decoded_addr_decoded_decoded_andMatrixOutputs_lo_94}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_58_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_94; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_98 = decoded_addr_decoded_decoded_andMatrixOutputs_58_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_79 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_91, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_88}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_93 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_79, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_79}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_91 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_93, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_93}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_94 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_91, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_93}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_95 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_94, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_93}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_88 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_95, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_95}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_93 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_88, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_94}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_93 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_95, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_95}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_95 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_93, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_95}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_95 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_95, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_93}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_95 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_95, decoded_addr_decoded_decoded_andMatrixOutputs_lo_95}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_132_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_95; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_95 = decoded_addr_decoded_decoded_andMatrixOutputs_132_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_80 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_92, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_89}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_94 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_80, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_80}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_92 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_94, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_94}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_95 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_92, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_94}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_96 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_95, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_94}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_89 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_96, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_96}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_94 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_89, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_95}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_94 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_96, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_96}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_96 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_94, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_96}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_96 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_96, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_94}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_96 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_96, decoded_addr_decoded_decoded_andMatrixOutputs_lo_96}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_9_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_96; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_92 = decoded_addr_decoded_decoded_andMatrixOutputs_9_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_81 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_93, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_90}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_95 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_81, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_81}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_93 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_95, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_95}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_96 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_93, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_95}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_97 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_96, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_95}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_90 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_97, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_97}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_95 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_90, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_96}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_95 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_97, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_97}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_97 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_95, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_97}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_97 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_97, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_95}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_97 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_97, decoded_addr_decoded_decoded_andMatrixOutputs_lo_97}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_115_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_97; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_89 = decoded_addr_decoded_decoded_andMatrixOutputs_115_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_82 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_94, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_91}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_96 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_82, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_82}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_94 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_96, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_96}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_97 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_94, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_96}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_98 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_97, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_96}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_91 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_98, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_98}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_96 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_91, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_97}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_96 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_98, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_98}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_98 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_96, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_98}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_98 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_98, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_96}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_98 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_98, decoded_addr_decoded_decoded_andMatrixOutputs_lo_98}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_5_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_98; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_86 = decoded_addr_decoded_decoded_andMatrixOutputs_5_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_83 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_95, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_92}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_97 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_83, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_83}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_95 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_97, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_97}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_98 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_95, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_97}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_99 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_98, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_97}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_92 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_99, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_99}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_97 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_92, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_98}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_97 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_99, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_99}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_99 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_97, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_99}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_99 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_99, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_97}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_99 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_99, decoded_addr_decoded_decoded_andMatrixOutputs_lo_99}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_71_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_99; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_83 = decoded_addr_decoded_decoded_andMatrixOutputs_71_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_84 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_96, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_93}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_98 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_84, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_84}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_96 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_98, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_98}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_99 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_96, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_98}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_100 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_99, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_98}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_93 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_100, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_100}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_98 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_93, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_99}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_98 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_100, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_100}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_100 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_98, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_100}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_100 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_100, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_98}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_100 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_100, decoded_addr_decoded_decoded_andMatrixOutputs_lo_100}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_130_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_100; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_80 = decoded_addr_decoded_decoded_andMatrixOutputs_130_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_85 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_97, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_94}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_99 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_85, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_85}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_97 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_99, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_99}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_100 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_97, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_99}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_101 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_100, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_99}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_94 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_101, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_101}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_99 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_94, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_100}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_99 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_101, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_101}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_101 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_99, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_101}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_101 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_101, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_99}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_101 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_101, decoded_addr_decoded_decoded_andMatrixOutputs_lo_101}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_102_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_101; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_77 = decoded_addr_decoded_decoded_andMatrixOutputs_102_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_86 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_98, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_95}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_100 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_86, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_86}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_98 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_100, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_100}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_101 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_98, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_100}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_102 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_101, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_100}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_95 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_102, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_102}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_100 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_95, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_101}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_100 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_102, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_102}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_102 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_100, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_102}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_102 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_102, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_100}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_102 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_102, decoded_addr_decoded_decoded_andMatrixOutputs_lo_102}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_4_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_102; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_74 = decoded_addr_decoded_decoded_andMatrixOutputs_4_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_87 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_99, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_96}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_101 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_87, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_87}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_99 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_101, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_101}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_102 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_99, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_101}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_103 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_102, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_101}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_96 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_103, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_103}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_101 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_96, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_102}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_101 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_103, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_103}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_103 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_101, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_103}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_103 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_103, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_101}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_103 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_103, decoded_addr_decoded_decoded_andMatrixOutputs_lo_103}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_29_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_103; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_71 = decoded_addr_decoded_decoded_andMatrixOutputs_29_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_88 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_100, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_97}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_102 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_88, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_88}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_100 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_102, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_102}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_103 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_100, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_102}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_104 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_103, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_102}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_97 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_104, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_104}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_102 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_97, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_103}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_102 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_104, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_104}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_104 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_102, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_104}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_104 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_104, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_102}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_104 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_104, decoded_addr_decoded_decoded_andMatrixOutputs_lo_104}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_16_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_104; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_68 = decoded_addr_decoded_decoded_andMatrixOutputs_16_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_89 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_101, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_98}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_103 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_89, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_89}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_101 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_103, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_103}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_104 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_101, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_103}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_105 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_104, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_103}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_98 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_105, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_105}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_103 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_98, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_104}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_103 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_105, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_105}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_105 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_103, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_105}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_105 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_105, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_103}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_105 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_105, decoded_addr_decoded_decoded_andMatrixOutputs_lo_105}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_143_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_105; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_65 = decoded_addr_decoded_decoded_andMatrixOutputs_143_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_90 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_102, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_99}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_104 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_90, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_90}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_102 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_104, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_104}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_105 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_102, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_104}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_106 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_105, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_104}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_99 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_106, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_106}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_104 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_99, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_105}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_104 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_106, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_106}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_106 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_104, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_106}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_106 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_106, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_104}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_106 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_106, decoded_addr_decoded_decoded_andMatrixOutputs_lo_106}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_131_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_106; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_62 = decoded_addr_decoded_decoded_andMatrixOutputs_131_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_91 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_103, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_100}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_105 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_91, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_91}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_103 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_105, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_105}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_106 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_103, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_105}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_107 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_106, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_105}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_100 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_107, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_107}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_105 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_100, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_106}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_105 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_107, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_107}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_107 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_105, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_107}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_107 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_107, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_105}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_107 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_107, decoded_addr_decoded_decoded_andMatrixOutputs_lo_107}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_14_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_107; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_59 = decoded_addr_decoded_decoded_andMatrixOutputs_14_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_92 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_104, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_101}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_106 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_92, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_92}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_104 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_106, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_106}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_107 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_104, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_106}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_108 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_107, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_106}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_101 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_108, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_108}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_106 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_101, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_107}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_106 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_108, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_108}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_108 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_106, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_108}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_108 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_108, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_106}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_108 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_108, decoded_addr_decoded_decoded_andMatrixOutputs_lo_108}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_90_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_108; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_56 = decoded_addr_decoded_decoded_andMatrixOutputs_90_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_93 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_105, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_102}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_107 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_93, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_93}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_105 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_107, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_107}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_108 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_105, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_107}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_109 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_108, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_107}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_102 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_109, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_109}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_107 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_102, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_108}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_107 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_109, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_109}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_109 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_107, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_109}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_109 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_109, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_107}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_109 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_109, decoded_addr_decoded_decoded_andMatrixOutputs_lo_109}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_97_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_109; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_53 = decoded_addr_decoded_decoded_andMatrixOutputs_97_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_94 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_106, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_103}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_108 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_94, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_94}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_106 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_108, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_108}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_109 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_106, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_108}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_110 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_109, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_108}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_103 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_110, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_110}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_108 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_103, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_109}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_108 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_110, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_110}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_110 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_108, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_110}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_110 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_110, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_108}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_110 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_110, decoded_addr_decoded_decoded_andMatrixOutputs_lo_110}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_60_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_110; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_50 = decoded_addr_decoded_decoded_andMatrixOutputs_60_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_95 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_107, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_104}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_109 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_95, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_95}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_107 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_109, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_109}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_110 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_107, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_109}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_111 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_110, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_109}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_104 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_111, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_111}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_109 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_104, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_110}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_109 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_111, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_111}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_111 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_109, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_111}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_111 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_111, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_109}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_111 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_111, decoded_addr_decoded_decoded_andMatrixOutputs_lo_111}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_96_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_111; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_47 = decoded_addr_decoded_decoded_andMatrixOutputs_96_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_96 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_108, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_105}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_110 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_96, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_96}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_108 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_110, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_110}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_111 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_108, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_110}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_112 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_111, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_110}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_105 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_112, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_112}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_110 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_105, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_111}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_110 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_112, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_112}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_112 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_110, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_112}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_112 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_112, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_110}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_112 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_112, decoded_addr_decoded_decoded_andMatrixOutputs_lo_112}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_54_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_112; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_44 = decoded_addr_decoded_decoded_andMatrixOutputs_54_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_97 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_109, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_106}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_111 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_97, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_97}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_109 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_111, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_111}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_112 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_109, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_111}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_113 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_112, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_111}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_106 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_113, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_113}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_111 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_106, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_112}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_111 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_113, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_113}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_113 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_111, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_113}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_113 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_113, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_111}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_113 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_113, decoded_addr_decoded_decoded_andMatrixOutputs_lo_113}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_126_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_113; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_41 = decoded_addr_decoded_decoded_andMatrixOutputs_126_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_112 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_110, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_107}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_110 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_112, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_112}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_113 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_110, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_112}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_114 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_113, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_112}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_107 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_114, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_114}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_112 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_107, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_113}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_112 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_114, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_114}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_114 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_112, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_114}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_114 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_114, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_112}; // @[pla.scala:98:53] wire [10:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_114 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_114, decoded_addr_decoded_decoded_andMatrixOutputs_lo_114}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_49_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_114; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_38 = decoded_addr_decoded_decoded_andMatrixOutputs_49_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_98 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_111, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_108}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_113 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_98, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_98}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_111 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_113, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_113}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_114 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_111, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_113}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_115 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_114, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_113}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_108 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_115, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_115}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_113 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_108, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_114}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_113 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_115, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_115}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_115 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_113, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_115}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_115 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_115, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_113}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_115 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_115, decoded_addr_decoded_decoded_andMatrixOutputs_lo_115}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_52_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_115; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_37 = decoded_addr_decoded_decoded_andMatrixOutputs_52_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_99 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_112, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_109}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_114 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_99, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_99}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_112 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_114, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_114}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_115 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_112, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_114}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_116 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_115, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_114}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_109 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_116, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_116}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_114 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_109, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_115}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_114 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_116, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_116}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_116 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_114, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_116}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_116 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_116, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_114}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_116 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_116, decoded_addr_decoded_decoded_andMatrixOutputs_lo_116}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_20_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_116; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_124 = decoded_addr_decoded_decoded_andMatrixOutputs_20_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_100 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_113, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_110}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_115 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_100, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_100}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_113 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_115, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_115}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_116 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_113, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_115}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_117 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_116, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_115}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_110 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_117, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_117}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_115 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_110, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_116}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_115 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_117, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_117}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_117 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_115, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_117}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_117 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_117, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_115}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_117 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_117, decoded_addr_decoded_decoded_andMatrixOutputs_lo_117}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_107_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_117; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_121 = decoded_addr_decoded_decoded_andMatrixOutputs_107_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_101 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_114, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_111}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_116 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_101, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_101}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_114 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_116, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_116}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_117 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_114, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_116}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_118 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_117, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_116}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_111 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_118, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_118}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_116 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_111, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_117}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_116 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_118, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_118}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_118 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_116, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_118}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_118 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_118, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_116}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_118 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_118, decoded_addr_decoded_decoded_andMatrixOutputs_lo_118}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_6_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_118; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_118 = decoded_addr_decoded_decoded_andMatrixOutputs_6_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_102 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_115, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_112}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_117 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_102, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_102}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_115 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_117, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_117}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_118 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_115, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_117}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_119 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_118, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_117}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_112 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_119, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_119}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_117 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_112, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_118}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_117 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_119, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_119}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_119 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_117, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_119}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_119 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_119, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_117}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_119 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_119, decoded_addr_decoded_decoded_andMatrixOutputs_lo_119}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_21_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_119; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_115 = decoded_addr_decoded_decoded_andMatrixOutputs_21_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_103 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_116, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_113}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_118 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_103, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_103}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_116 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_118, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_118}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_119 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_116, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_118}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_120 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_119, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_118}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_113 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_120, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_120}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_118 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_113, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_119}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_118 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_120, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_120}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_120 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_118, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_120}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_120 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_120, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_118}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_120 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_120, decoded_addr_decoded_decoded_andMatrixOutputs_lo_120}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_30_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_120; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_112 = decoded_addr_decoded_decoded_andMatrixOutputs_30_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_104 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_117, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_114}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_119 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_104, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_104}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_117 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_119, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_119}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_120 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_117, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_119}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_121 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_120, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_119}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_114 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_121, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_121}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_119 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_114, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_120}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_119 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_121, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_121}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_121 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_119, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_121}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_121 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_121, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_119}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_121 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_121, decoded_addr_decoded_decoded_andMatrixOutputs_lo_121}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_127_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_121; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_109 = decoded_addr_decoded_decoded_andMatrixOutputs_127_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_105 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_118, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_115}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_120 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_105, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_105}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_118 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_120, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_120}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_121 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_118, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_120}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_122 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_121, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_120}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_115 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_122, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_122}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_120 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_115, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_121}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_120 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_122, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_122}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_122 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_120, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_122}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_122 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_122, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_120}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_122 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_122, decoded_addr_decoded_decoded_andMatrixOutputs_lo_122}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_35_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_122; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_106 = decoded_addr_decoded_decoded_andMatrixOutputs_35_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_106 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_119, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_116}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_121 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_106, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_106}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_119 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_121, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_121}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_122 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_119, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_121}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_123 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_122, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_121}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_116 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_123, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_123}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_121 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_116, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_122}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_121 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_123, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_123}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_123 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_121, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_123}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_123 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_123, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_121}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_123 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_123, decoded_addr_decoded_decoded_andMatrixOutputs_lo_123}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_73_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_123; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_103 = decoded_addr_decoded_decoded_andMatrixOutputs_73_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_107 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_120, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_117}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_122 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_107, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_107}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_120 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_122, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_122}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_123 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_120, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_122}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_124 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_123, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_122}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_117 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_124, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_124}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_122 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_117, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_123}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_122 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_124, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_124}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_124 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_122, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_124}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_124 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_124, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_122}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_124 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_124, decoded_addr_decoded_decoded_andMatrixOutputs_lo_124}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_53_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_124; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_100 = decoded_addr_decoded_decoded_andMatrixOutputs_53_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_108 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_121, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_118}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_123 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_108, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_108}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_121 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_123, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_123}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_124 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_121, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_123}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_125 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_124, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_123}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_118 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_125, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_125}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_123 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_118, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_124}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_123 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_125, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_125}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_125 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_123, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_125}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_125 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_125, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_123}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_125 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_125, decoded_addr_decoded_decoded_andMatrixOutputs_lo_125}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_135_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_125; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_97 = decoded_addr_decoded_decoded_andMatrixOutputs_135_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_109 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_122, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_119}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_124 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_109, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_109}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_122 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_124, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_124}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_125 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_122, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_124}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_126 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_125, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_124}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_119 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_126, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_126}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_124 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_119, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_125}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_124 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_126, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_126}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_126 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_124, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_126}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_126 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_126, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_124}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_126 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_126, decoded_addr_decoded_decoded_andMatrixOutputs_lo_126}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_37_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_126; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_94 = decoded_addr_decoded_decoded_andMatrixOutputs_37_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_110 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_123, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_120}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_125 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_110, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_110}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_123 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_125, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_125}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_126 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_123, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_125}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_127 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_126, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_125}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_120 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_127, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_127}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_125 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_120, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_126}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_125 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_127, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_127}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_127 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_125, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_127}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_127 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_127, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_125}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_127 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_127, decoded_addr_decoded_decoded_andMatrixOutputs_lo_127}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_25_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_127; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_91 = decoded_addr_decoded_decoded_andMatrixOutputs_25_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_111 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_124, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_121}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_126 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_111, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_111}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_124 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_126, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_126}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_127 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_124, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_126}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_128 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_127, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_126}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_121 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_128, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_128}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_126 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_121, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_127}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_126 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_128, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_128}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_128 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_126, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_128}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_128 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_128, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_126}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_128 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_128, decoded_addr_decoded_decoded_andMatrixOutputs_lo_128}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_64_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_128; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_88 = decoded_addr_decoded_decoded_andMatrixOutputs_64_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_112 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_125, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_122}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_127 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_112, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_112}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_125 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_127, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_127}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_128 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_125, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_127}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_129 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_128, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_127}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_122 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_129, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_129}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_127 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_122, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_128}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_127 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_129, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_129}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_129 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_127, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_129}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_129 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_129, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_127}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_129 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_129, decoded_addr_decoded_decoded_andMatrixOutputs_lo_129}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_19_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_129; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_85 = decoded_addr_decoded_decoded_andMatrixOutputs_19_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_113 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_126, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_123}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_128 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_113, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_113}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_126 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_128, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_128}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_129 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_126, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_128}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_130 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_129, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_128}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_123 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_130, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_130}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_128 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_123, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_129}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_128 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_130, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_130}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_130 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_128, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_130}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_130 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_130, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_128}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_130 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_130, decoded_addr_decoded_decoded_andMatrixOutputs_lo_130}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_112_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_130; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_82 = decoded_addr_decoded_decoded_andMatrixOutputs_112_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_114 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_127, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_124}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_129 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_114, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_114}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_127 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_129, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_129}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_130 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_127, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_129}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_131 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_130, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_129}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_124 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_131, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_131}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_129 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_124, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_130}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_129 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_131, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_131}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_131 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_129, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_131}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_131 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_131, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_129}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_131 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_131, decoded_addr_decoded_decoded_andMatrixOutputs_lo_131}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_108_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_131; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_79 = decoded_addr_decoded_decoded_andMatrixOutputs_108_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_115 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_128, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_125}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_130 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_115, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_115}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_128 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_130, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_130}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_131 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_128, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_130}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_132 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_131, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_130}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_125 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_132, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_132}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_130 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_125, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_131}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_130 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_132, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_132}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_132 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_130, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_132}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_132 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_132, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_130}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_132 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_132, decoded_addr_decoded_decoded_andMatrixOutputs_lo_132}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_148_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_132; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_76 = decoded_addr_decoded_decoded_andMatrixOutputs_148_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_116 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_129, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_126}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_131 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_116, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_116}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_129 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_131, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_131}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_132 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_129, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_131}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_133 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_132, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_131}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_126 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_133, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_133}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_131 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_126, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_132}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_131 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_133, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_133}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_133 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_131, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_133}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_133 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_133, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_131}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_133 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_133, decoded_addr_decoded_decoded_andMatrixOutputs_lo_133}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_69_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_133; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_73 = decoded_addr_decoded_decoded_andMatrixOutputs_69_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_117 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_130, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_127}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_132 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_117, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_117}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_130 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_132, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_132}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_133 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_130, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_132}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_134 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_133, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_132}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_127 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_134, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_134}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_132 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_127, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_133}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_132 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_134, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_134}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_134 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_132, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_134}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_134 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_134, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_132}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_134 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_134, decoded_addr_decoded_decoded_andMatrixOutputs_lo_134}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_103_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_134; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_70 = decoded_addr_decoded_decoded_andMatrixOutputs_103_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_118 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_131, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_128}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_133 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_118, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_118}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_131 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_133, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_133}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_134 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_131, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_133}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_135 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_134, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_133}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_128 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_135, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_135}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_133 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_128, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_134}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_133 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_135, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_135}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_135 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_133, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_135}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_135 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_135, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_133}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_135 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_135, decoded_addr_decoded_decoded_andMatrixOutputs_lo_135}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_99_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_135; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_67 = decoded_addr_decoded_decoded_andMatrixOutputs_99_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_119 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_132, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_129}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_134 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_119, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_119}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_132 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_134, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_134}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_135 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_132, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_134}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_136 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_135, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_134}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_129 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_136, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_136}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_134 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_129, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_135}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_134 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_136, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_136}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_136 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_134, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_136}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_136 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_136, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_134}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_136 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_136, decoded_addr_decoded_decoded_andMatrixOutputs_lo_136}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_125_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_136; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_64 = decoded_addr_decoded_decoded_andMatrixOutputs_125_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_120 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_133, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_130}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_135 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_120, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_120}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_133 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_135, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_135}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_136 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_133, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_135}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_137 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_136, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_135}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_130 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_137, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_137}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_135 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_130, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_136}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_135 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_137, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_137}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_137 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_135, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_137}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_137 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_137, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_135}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_137 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_137, decoded_addr_decoded_decoded_andMatrixOutputs_lo_137}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_117_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_137; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_61 = decoded_addr_decoded_decoded_andMatrixOutputs_117_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_121 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_134, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_131}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_136 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_121, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_121}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_134 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_136, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_136}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_137 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_134, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_136}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_138 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_137, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_136}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_131 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_138, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_138}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_136 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_131, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_137}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_136 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_138, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_138}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_138 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_136, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_138}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_138 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_138, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_136}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_138 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_138, decoded_addr_decoded_decoded_andMatrixOutputs_lo_138}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_46_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_138; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_58 = decoded_addr_decoded_decoded_andMatrixOutputs_46_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_122 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_135, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_132}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_137 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_122, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_122}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_135 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_137, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_137}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_138 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_135, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_137}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_139 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_138, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_137}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_132 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_139, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_139}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_137 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_132, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_138}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_137 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_139, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_139}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_139 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_137, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_139}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_139 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_139, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_137}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_139 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_139, decoded_addr_decoded_decoded_andMatrixOutputs_lo_139}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_15_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_139; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_55 = decoded_addr_decoded_decoded_andMatrixOutputs_15_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_123 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_136, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_133}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_138 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_123, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_123}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_136 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_138, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_138}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_139 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_136, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_138}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_140 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_139, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_138}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_133 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_140, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_140}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_138 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_133, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_139}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_138 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_140, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_140}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_140 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_138, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_140}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_140 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_140, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_138}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_140 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_140, decoded_addr_decoded_decoded_andMatrixOutputs_lo_140}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_51_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_140; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_52 = decoded_addr_decoded_decoded_andMatrixOutputs_51_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_124 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_137, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_134}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_139 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_124, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_124}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_137 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_139, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_139}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_140 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_137, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_139}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_141 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_140, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_139}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_134 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_141, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_141}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_139 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_134, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_140}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_139 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_141, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_141}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_141 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_139, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_141}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_141 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_141, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_139}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_141 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_141, decoded_addr_decoded_decoded_andMatrixOutputs_lo_141}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_43_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_141; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_49 = decoded_addr_decoded_decoded_andMatrixOutputs_43_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_125 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_138, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_135}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_140 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_125, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_125}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_138 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_140, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_140}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_141 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_138, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_140}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_142 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_141, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_140}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_135 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_142, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_142}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_140 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_135, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_141}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_140 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_142, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_142}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_142 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_140, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_142}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_142 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_142, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_140}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_142 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_142, decoded_addr_decoded_decoded_andMatrixOutputs_lo_142}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_70_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_142; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_46 = decoded_addr_decoded_decoded_andMatrixOutputs_70_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_126 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_139, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_136}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_141 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_126, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_126}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_139 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_141, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_141}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_142 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_139, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_141}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_143 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_142, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_141}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_136 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_143, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_143}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_141 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_136, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_142}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_141 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_143, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_143}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_143 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_141, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_143}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_143 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_143, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_141}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_143 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_143, decoded_addr_decoded_decoded_andMatrixOutputs_lo_143}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_78_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_143; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_43 = decoded_addr_decoded_decoded_andMatrixOutputs_78_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_127 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_140, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_137}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_142 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_127, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_127}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_140 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_142, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_142}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_143 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_140, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_142}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_144 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_143, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_142}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_137 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_144, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_144}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_142 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_137, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_143}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_142 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_144, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_144}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_144 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_142, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_144}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_144 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_144, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_142}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_144 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_144, decoded_addr_decoded_decoded_andMatrixOutputs_lo_144}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_110_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_144; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_40 = decoded_addr_decoded_decoded_andMatrixOutputs_110_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_143 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_141, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_138}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_141 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_143, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_143}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_144 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_141, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_143}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_145 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_144, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_143}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_138 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_145, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_145}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_143 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_138, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_144}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_143 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_145, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_145}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_145 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_143, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_145}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_145 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_145, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_143}; // @[pla.scala:98:53] wire [10:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_145 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_145, decoded_addr_decoded_decoded_andMatrixOutputs_lo_145}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_101_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_145; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_1 = decoded_addr_decoded_decoded_andMatrixOutputs_101_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_128 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_142, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_139}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_144 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_128, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_128}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_142 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_144, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_144}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_145 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_142, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_144}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_146 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_145, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_144}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_139 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_146, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_146}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_144 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_139, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_145}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_144 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_146, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_146}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_146 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_144, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_146}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_146 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_146, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_144}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_146 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_146, decoded_addr_decoded_decoded_andMatrixOutputs_lo_146}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_38_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_146; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_3 = decoded_addr_decoded_decoded_andMatrixOutputs_38_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_129 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_143, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_140}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_145 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_129, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_129}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_143 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_145, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_145}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_146 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_143, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_145}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_147 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_146, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_145}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_140 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_147, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_147}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_145 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_140, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_146}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_145 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_147, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_147}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_147 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_145, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_147}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_147 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_147, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_145}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_147 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_147, decoded_addr_decoded_decoded_andMatrixOutputs_lo_147}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_13_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_147; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_2 = decoded_addr_decoded_decoded_andMatrixOutputs_13_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_130 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_144, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_141}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_146 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_130, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_130}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_144 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_146, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_146}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_147 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_144, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_146}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_148 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_147, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_146}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_141 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_148, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_148}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_146 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_141, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_147}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_146 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_148, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_148}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_148 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_146, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_148}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_148 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_148, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_146}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_148 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_148, decoded_addr_decoded_decoded_andMatrixOutputs_lo_148}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_81_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_148; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T_136 = decoded_addr_decoded_decoded_andMatrixOutputs_81_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_131 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_9_145, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_10_142}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_147 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_hi_131, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_11_131}; // @[pla.scala:90:45, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_145 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_6_147, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_7_147}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_148 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_hi_145, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_8_147}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_lo_149 = {decoded_addr_decoded_decoded_andMatrixOutputs_lo_hi_148, decoded_addr_decoded_decoded_andMatrixOutputs_lo_lo_147}; // @[pla.scala:98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_142 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_3_149, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_4_149}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_147 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_hi_142, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_5_148}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_147 = {decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_0_149, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_1_149}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_149 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_hi_147, decoded_addr_decoded_decoded_andMatrixOutputs_andMatrixInput_2_149}; // @[pla.scala:90:45, :98:53] wire [5:0] decoded_addr_decoded_decoded_andMatrixOutputs_hi_149 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_hi_149, decoded_addr_decoded_decoded_andMatrixOutputs_hi_lo_147}; // @[pla.scala:98:53] wire [11:0] _decoded_addr_decoded_decoded_andMatrixOutputs_T_149 = {decoded_addr_decoded_decoded_andMatrixOutputs_hi_149, decoded_addr_decoded_decoded_andMatrixOutputs_lo_149}; // @[pla.scala:98:53] wire decoded_addr_decoded_decoded_andMatrixOutputs_75_2 = &_decoded_addr_decoded_decoded_andMatrixOutputs_T_149; // @[pla.scala:98:{53,70}] wire _decoded_addr_decoded_decoded_orMatrixOutputs_T = decoded_addr_decoded_decoded_andMatrixOutputs_75_2; // @[pla.scala:98:70, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_1, _decoded_addr_decoded_decoded_orMatrixOutputs_T}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_lo_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_3, _decoded_addr_decoded_decoded_orMatrixOutputs_T_2}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_5, _decoded_addr_decoded_decoded_orMatrixOutputs_T_4}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_8, _decoded_addr_decoded_decoded_orMatrixOutputs_T_7}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_6}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_hi_lo}; // @[pla.scala:102:36] wire [8:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_10, _decoded_addr_decoded_decoded_orMatrixOutputs_T_9}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_lo_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_12, _decoded_addr_decoded_decoded_orMatrixOutputs_T_11}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_14, _decoded_addr_decoded_decoded_orMatrixOutputs_T_13}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_17, _decoded_addr_decoded_decoded_orMatrixOutputs_T_16}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_15}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_hi_lo}; // @[pla.scala:102:36] wire [8:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi_lo}; // @[pla.scala:102:36] wire [17:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_19, _decoded_addr_decoded_decoded_orMatrixOutputs_T_18}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_lo_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_21, _decoded_addr_decoded_decoded_orMatrixOutputs_T_20}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_23, _decoded_addr_decoded_decoded_orMatrixOutputs_T_22}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_26, _decoded_addr_decoded_decoded_orMatrixOutputs_T_25}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_24}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_hi_lo}; // @[pla.scala:102:36] wire [8:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_28, _decoded_addr_decoded_decoded_orMatrixOutputs_T_27}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_lo_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_31, _decoded_addr_decoded_decoded_orMatrixOutputs_T_30}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_lo_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_29}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_33, _decoded_addr_decoded_decoded_orMatrixOutputs_T_32}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_36, _decoded_addr_decoded_decoded_orMatrixOutputs_T_35}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_34}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_hi_lo}; // @[pla.scala:102:36] wire [9:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi_lo}; // @[pla.scala:102:36] wire [18:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi_lo}; // @[pla.scala:102:36] wire [36:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_38, _decoded_addr_decoded_decoded_orMatrixOutputs_T_37}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_lo_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_40, _decoded_addr_decoded_decoded_orMatrixOutputs_T_39}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_42, _decoded_addr_decoded_decoded_orMatrixOutputs_T_41}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_45, _decoded_addr_decoded_decoded_orMatrixOutputs_T_44}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_43}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_hi_lo}; // @[pla.scala:102:36] wire [8:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_47, _decoded_addr_decoded_decoded_orMatrixOutputs_T_46}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_lo_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_50, _decoded_addr_decoded_decoded_orMatrixOutputs_T_49}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_lo_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_48}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_52, _decoded_addr_decoded_decoded_orMatrixOutputs_T_51}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_55, _decoded_addr_decoded_decoded_orMatrixOutputs_T_54}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_53}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_hi_lo}; // @[pla.scala:102:36] wire [9:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi_lo}; // @[pla.scala:102:36] wire [18:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_57, _decoded_addr_decoded_decoded_orMatrixOutputs_T_56}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_lo_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_59, _decoded_addr_decoded_decoded_orMatrixOutputs_T_58}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_61, _decoded_addr_decoded_decoded_orMatrixOutputs_T_60}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_64, _decoded_addr_decoded_decoded_orMatrixOutputs_T_63}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_62}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_hi_lo}; // @[pla.scala:102:36] wire [8:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_66, _decoded_addr_decoded_decoded_orMatrixOutputs_T_65}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_lo_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_69, _decoded_addr_decoded_decoded_orMatrixOutputs_T_68}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_lo_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_67}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_71, _decoded_addr_decoded_decoded_orMatrixOutputs_T_70}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_74, _decoded_addr_decoded_decoded_orMatrixOutputs_T_73}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_72}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_hi_lo}; // @[pla.scala:102:36] wire [9:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi_lo}; // @[pla.scala:102:36] wire [18:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi_lo}; // @[pla.scala:102:36] wire [37:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi_lo}; // @[pla.scala:102:36] wire [74:0] decoded_addr_decoded_decoded_orMatrixOutputs_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_76, _decoded_addr_decoded_decoded_orMatrixOutputs_T_75}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_lo_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_78, _decoded_addr_decoded_decoded_orMatrixOutputs_T_77}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_80, _decoded_addr_decoded_decoded_orMatrixOutputs_T_79}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_83, _decoded_addr_decoded_decoded_orMatrixOutputs_T_82}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_81}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_hi_lo}; // @[pla.scala:102:36] wire [8:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_85, _decoded_addr_decoded_decoded_orMatrixOutputs_T_84}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_lo_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_87, _decoded_addr_decoded_decoded_orMatrixOutputs_T_86}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_89, _decoded_addr_decoded_decoded_orMatrixOutputs_T_88}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_92, _decoded_addr_decoded_decoded_orMatrixOutputs_T_91}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_90}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_hi_lo}; // @[pla.scala:102:36] wire [8:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi_lo}; // @[pla.scala:102:36] wire [17:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_94, _decoded_addr_decoded_decoded_orMatrixOutputs_T_93}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_lo_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_96, _decoded_addr_decoded_decoded_orMatrixOutputs_T_95}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_98, _decoded_addr_decoded_decoded_orMatrixOutputs_T_97}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_101, _decoded_addr_decoded_decoded_orMatrixOutputs_T_100}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_99}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_hi_lo}; // @[pla.scala:102:36] wire [8:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_103, _decoded_addr_decoded_decoded_orMatrixOutputs_T_102}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_lo_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_106, _decoded_addr_decoded_decoded_orMatrixOutputs_T_105}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_lo_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_104}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_108, _decoded_addr_decoded_decoded_orMatrixOutputs_T_107}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_111, _decoded_addr_decoded_decoded_orMatrixOutputs_T_110}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_109}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_hi_lo}; // @[pla.scala:102:36] wire [9:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi_lo}; // @[pla.scala:102:36] wire [18:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi_lo}; // @[pla.scala:102:36] wire [36:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_113, _decoded_addr_decoded_decoded_orMatrixOutputs_T_112}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_lo_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_115, _decoded_addr_decoded_decoded_orMatrixOutputs_T_114}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_117, _decoded_addr_decoded_decoded_orMatrixOutputs_T_116}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_120, _decoded_addr_decoded_decoded_orMatrixOutputs_T_119}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_118}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_hi_lo}; // @[pla.scala:102:36] wire [8:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_122, _decoded_addr_decoded_decoded_orMatrixOutputs_T_121}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_lo_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_125, _decoded_addr_decoded_decoded_orMatrixOutputs_T_124}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_lo_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_123}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_127, _decoded_addr_decoded_decoded_orMatrixOutputs_T_126}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_130, _decoded_addr_decoded_decoded_orMatrixOutputs_T_129}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_128}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_hi_lo}; // @[pla.scala:102:36] wire [9:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi_lo}; // @[pla.scala:102:36] wire [18:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_132, _decoded_addr_decoded_decoded_orMatrixOutputs_T_131}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_lo_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_134, _decoded_addr_decoded_decoded_orMatrixOutputs_T_133}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_136, _decoded_addr_decoded_decoded_orMatrixOutputs_T_135}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_139, _decoded_addr_decoded_decoded_orMatrixOutputs_T_138}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_137}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_hi_lo}; // @[pla.scala:102:36] wire [8:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_lo_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_141, _decoded_addr_decoded_decoded_orMatrixOutputs_T_140}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_lo_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_144, _decoded_addr_decoded_decoded_orMatrixOutputs_T_143}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_lo_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_lo_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_142}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_lo = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_lo_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_lo_lo}; // @[pla.scala:102:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_lo = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_146, _decoded_addr_decoded_decoded_orMatrixOutputs_T_145}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_orMatrixOutputs_T_149, _decoded_addr_decoded_decoded_orMatrixOutputs_T_148}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_hi_hi, _decoded_addr_decoded_decoded_orMatrixOutputs_T_147}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_hi_lo}; // @[pla.scala:102:36] wire [9:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi_lo}; // @[pla.scala:102:36] wire [18:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi_lo}; // @[pla.scala:102:36] wire [37:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi_lo}; // @[pla.scala:102:36] wire [74:0] decoded_addr_decoded_decoded_orMatrixOutputs_hi = {decoded_addr_decoded_decoded_orMatrixOutputs_hi_hi, decoded_addr_decoded_decoded_orMatrixOutputs_hi_lo}; // @[pla.scala:102:36] wire [149:0] decoded_addr_decoded_decoded_orMatrixOutputs = {decoded_addr_decoded_decoded_orMatrixOutputs_hi, decoded_addr_decoded_decoded_orMatrixOutputs_lo}; // @[pla.scala:102:36] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T = decoded_addr_decoded_decoded_orMatrixOutputs[0]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_1 = decoded_addr_decoded_decoded_orMatrixOutputs[1]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_2 = decoded_addr_decoded_decoded_orMatrixOutputs[2]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_3 = decoded_addr_decoded_decoded_orMatrixOutputs[3]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_4 = decoded_addr_decoded_decoded_orMatrixOutputs[4]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_5 = decoded_addr_decoded_decoded_orMatrixOutputs[5]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_6 = decoded_addr_decoded_decoded_orMatrixOutputs[6]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_7 = decoded_addr_decoded_decoded_orMatrixOutputs[7]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_8 = decoded_addr_decoded_decoded_orMatrixOutputs[8]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_9 = decoded_addr_decoded_decoded_orMatrixOutputs[9]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_10 = decoded_addr_decoded_decoded_orMatrixOutputs[10]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_11 = decoded_addr_decoded_decoded_orMatrixOutputs[11]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_12 = decoded_addr_decoded_decoded_orMatrixOutputs[12]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_13 = decoded_addr_decoded_decoded_orMatrixOutputs[13]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_14 = decoded_addr_decoded_decoded_orMatrixOutputs[14]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_15 = decoded_addr_decoded_decoded_orMatrixOutputs[15]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_16 = decoded_addr_decoded_decoded_orMatrixOutputs[16]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_17 = decoded_addr_decoded_decoded_orMatrixOutputs[17]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_18 = decoded_addr_decoded_decoded_orMatrixOutputs[18]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_19 = decoded_addr_decoded_decoded_orMatrixOutputs[19]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_20 = decoded_addr_decoded_decoded_orMatrixOutputs[20]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_21 = decoded_addr_decoded_decoded_orMatrixOutputs[21]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_22 = decoded_addr_decoded_decoded_orMatrixOutputs[22]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_23 = decoded_addr_decoded_decoded_orMatrixOutputs[23]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_24 = decoded_addr_decoded_decoded_orMatrixOutputs[24]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_25 = decoded_addr_decoded_decoded_orMatrixOutputs[25]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_26 = decoded_addr_decoded_decoded_orMatrixOutputs[26]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_27 = decoded_addr_decoded_decoded_orMatrixOutputs[27]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_28 = decoded_addr_decoded_decoded_orMatrixOutputs[28]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_29 = decoded_addr_decoded_decoded_orMatrixOutputs[29]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_30 = decoded_addr_decoded_decoded_orMatrixOutputs[30]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_31 = decoded_addr_decoded_decoded_orMatrixOutputs[31]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_32 = decoded_addr_decoded_decoded_orMatrixOutputs[32]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_33 = decoded_addr_decoded_decoded_orMatrixOutputs[33]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_34 = decoded_addr_decoded_decoded_orMatrixOutputs[34]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_35 = decoded_addr_decoded_decoded_orMatrixOutputs[35]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_36 = decoded_addr_decoded_decoded_orMatrixOutputs[36]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_37 = decoded_addr_decoded_decoded_orMatrixOutputs[37]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_38 = decoded_addr_decoded_decoded_orMatrixOutputs[38]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_39 = decoded_addr_decoded_decoded_orMatrixOutputs[39]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_40 = decoded_addr_decoded_decoded_orMatrixOutputs[40]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_41 = decoded_addr_decoded_decoded_orMatrixOutputs[41]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_42 = decoded_addr_decoded_decoded_orMatrixOutputs[42]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_43 = decoded_addr_decoded_decoded_orMatrixOutputs[43]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_44 = decoded_addr_decoded_decoded_orMatrixOutputs[44]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_45 = decoded_addr_decoded_decoded_orMatrixOutputs[45]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_46 = decoded_addr_decoded_decoded_orMatrixOutputs[46]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_47 = decoded_addr_decoded_decoded_orMatrixOutputs[47]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_48 = decoded_addr_decoded_decoded_orMatrixOutputs[48]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_49 = decoded_addr_decoded_decoded_orMatrixOutputs[49]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_50 = decoded_addr_decoded_decoded_orMatrixOutputs[50]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_51 = decoded_addr_decoded_decoded_orMatrixOutputs[51]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_52 = decoded_addr_decoded_decoded_orMatrixOutputs[52]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_53 = decoded_addr_decoded_decoded_orMatrixOutputs[53]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_54 = decoded_addr_decoded_decoded_orMatrixOutputs[54]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_55 = decoded_addr_decoded_decoded_orMatrixOutputs[55]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_56 = decoded_addr_decoded_decoded_orMatrixOutputs[56]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_57 = decoded_addr_decoded_decoded_orMatrixOutputs[57]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_58 = decoded_addr_decoded_decoded_orMatrixOutputs[58]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_59 = decoded_addr_decoded_decoded_orMatrixOutputs[59]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_60 = decoded_addr_decoded_decoded_orMatrixOutputs[60]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_61 = decoded_addr_decoded_decoded_orMatrixOutputs[61]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_62 = decoded_addr_decoded_decoded_orMatrixOutputs[62]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_63 = decoded_addr_decoded_decoded_orMatrixOutputs[63]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_64 = decoded_addr_decoded_decoded_orMatrixOutputs[64]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_65 = decoded_addr_decoded_decoded_orMatrixOutputs[65]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_66 = decoded_addr_decoded_decoded_orMatrixOutputs[66]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_67 = decoded_addr_decoded_decoded_orMatrixOutputs[67]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_68 = decoded_addr_decoded_decoded_orMatrixOutputs[68]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_69 = decoded_addr_decoded_decoded_orMatrixOutputs[69]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_70 = decoded_addr_decoded_decoded_orMatrixOutputs[70]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_71 = decoded_addr_decoded_decoded_orMatrixOutputs[71]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_72 = decoded_addr_decoded_decoded_orMatrixOutputs[72]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_73 = decoded_addr_decoded_decoded_orMatrixOutputs[73]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_74 = decoded_addr_decoded_decoded_orMatrixOutputs[74]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_75 = decoded_addr_decoded_decoded_orMatrixOutputs[75]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_76 = decoded_addr_decoded_decoded_orMatrixOutputs[76]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_77 = decoded_addr_decoded_decoded_orMatrixOutputs[77]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_78 = decoded_addr_decoded_decoded_orMatrixOutputs[78]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_79 = decoded_addr_decoded_decoded_orMatrixOutputs[79]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_80 = decoded_addr_decoded_decoded_orMatrixOutputs[80]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_81 = decoded_addr_decoded_decoded_orMatrixOutputs[81]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_82 = decoded_addr_decoded_decoded_orMatrixOutputs[82]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_83 = decoded_addr_decoded_decoded_orMatrixOutputs[83]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_84 = decoded_addr_decoded_decoded_orMatrixOutputs[84]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_85 = decoded_addr_decoded_decoded_orMatrixOutputs[85]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_86 = decoded_addr_decoded_decoded_orMatrixOutputs[86]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_87 = decoded_addr_decoded_decoded_orMatrixOutputs[87]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_88 = decoded_addr_decoded_decoded_orMatrixOutputs[88]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_89 = decoded_addr_decoded_decoded_orMatrixOutputs[89]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_90 = decoded_addr_decoded_decoded_orMatrixOutputs[90]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_91 = decoded_addr_decoded_decoded_orMatrixOutputs[91]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_92 = decoded_addr_decoded_decoded_orMatrixOutputs[92]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_93 = decoded_addr_decoded_decoded_orMatrixOutputs[93]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_94 = decoded_addr_decoded_decoded_orMatrixOutputs[94]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_95 = decoded_addr_decoded_decoded_orMatrixOutputs[95]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_96 = decoded_addr_decoded_decoded_orMatrixOutputs[96]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_97 = decoded_addr_decoded_decoded_orMatrixOutputs[97]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_98 = decoded_addr_decoded_decoded_orMatrixOutputs[98]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_99 = decoded_addr_decoded_decoded_orMatrixOutputs[99]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_100 = decoded_addr_decoded_decoded_orMatrixOutputs[100]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_101 = decoded_addr_decoded_decoded_orMatrixOutputs[101]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_102 = decoded_addr_decoded_decoded_orMatrixOutputs[102]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_103 = decoded_addr_decoded_decoded_orMatrixOutputs[103]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_104 = decoded_addr_decoded_decoded_orMatrixOutputs[104]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_105 = decoded_addr_decoded_decoded_orMatrixOutputs[105]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_106 = decoded_addr_decoded_decoded_orMatrixOutputs[106]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_107 = decoded_addr_decoded_decoded_orMatrixOutputs[107]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_108 = decoded_addr_decoded_decoded_orMatrixOutputs[108]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_109 = decoded_addr_decoded_decoded_orMatrixOutputs[109]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_110 = decoded_addr_decoded_decoded_orMatrixOutputs[110]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_111 = decoded_addr_decoded_decoded_orMatrixOutputs[111]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_112 = decoded_addr_decoded_decoded_orMatrixOutputs[112]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_113 = decoded_addr_decoded_decoded_orMatrixOutputs[113]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_114 = decoded_addr_decoded_decoded_orMatrixOutputs[114]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_115 = decoded_addr_decoded_decoded_orMatrixOutputs[115]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_116 = decoded_addr_decoded_decoded_orMatrixOutputs[116]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_117 = decoded_addr_decoded_decoded_orMatrixOutputs[117]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_118 = decoded_addr_decoded_decoded_orMatrixOutputs[118]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_119 = decoded_addr_decoded_decoded_orMatrixOutputs[119]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_120 = decoded_addr_decoded_decoded_orMatrixOutputs[120]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_121 = decoded_addr_decoded_decoded_orMatrixOutputs[121]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_122 = decoded_addr_decoded_decoded_orMatrixOutputs[122]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_123 = decoded_addr_decoded_decoded_orMatrixOutputs[123]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_124 = decoded_addr_decoded_decoded_orMatrixOutputs[124]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_125 = decoded_addr_decoded_decoded_orMatrixOutputs[125]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_126 = decoded_addr_decoded_decoded_orMatrixOutputs[126]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_127 = decoded_addr_decoded_decoded_orMatrixOutputs[127]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_128 = decoded_addr_decoded_decoded_orMatrixOutputs[128]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_129 = decoded_addr_decoded_decoded_orMatrixOutputs[129]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_130 = decoded_addr_decoded_decoded_orMatrixOutputs[130]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_131 = decoded_addr_decoded_decoded_orMatrixOutputs[131]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_132 = decoded_addr_decoded_decoded_orMatrixOutputs[132]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_133 = decoded_addr_decoded_decoded_orMatrixOutputs[133]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_134 = decoded_addr_decoded_decoded_orMatrixOutputs[134]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_135 = decoded_addr_decoded_decoded_orMatrixOutputs[135]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_136 = decoded_addr_decoded_decoded_orMatrixOutputs[136]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_137 = decoded_addr_decoded_decoded_orMatrixOutputs[137]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_138 = decoded_addr_decoded_decoded_orMatrixOutputs[138]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_139 = decoded_addr_decoded_decoded_orMatrixOutputs[139]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_140 = decoded_addr_decoded_decoded_orMatrixOutputs[140]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_141 = decoded_addr_decoded_decoded_orMatrixOutputs[141]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_142 = decoded_addr_decoded_decoded_orMatrixOutputs[142]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_143 = decoded_addr_decoded_decoded_orMatrixOutputs[143]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_144 = decoded_addr_decoded_decoded_orMatrixOutputs[144]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_145 = decoded_addr_decoded_decoded_orMatrixOutputs[145]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_146 = decoded_addr_decoded_decoded_orMatrixOutputs[146]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_147 = decoded_addr_decoded_decoded_orMatrixOutputs[147]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_148 = decoded_addr_decoded_decoded_orMatrixOutputs[148]; // @[pla.scala:102:36, :124:31] wire _decoded_addr_decoded_decoded_invMatrixOutputs_T_149 = decoded_addr_decoded_decoded_orMatrixOutputs[149]; // @[pla.scala:102:36, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_1, _decoded_addr_decoded_decoded_invMatrixOutputs_T}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_lo_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_3, _decoded_addr_decoded_decoded_invMatrixOutputs_T_2}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_5, _decoded_addr_decoded_decoded_invMatrixOutputs_T_4}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_8, _decoded_addr_decoded_decoded_invMatrixOutputs_T_7}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_6}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_hi_lo}; // @[pla.scala:120:37] wire [8:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_10, _decoded_addr_decoded_decoded_invMatrixOutputs_T_9}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_lo_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_12, _decoded_addr_decoded_decoded_invMatrixOutputs_T_11}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_14, _decoded_addr_decoded_decoded_invMatrixOutputs_T_13}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_17, _decoded_addr_decoded_decoded_invMatrixOutputs_T_16}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_15}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_hi_lo}; // @[pla.scala:120:37] wire [8:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi_lo}; // @[pla.scala:120:37] wire [17:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_19, _decoded_addr_decoded_decoded_invMatrixOutputs_T_18}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_lo_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_21, _decoded_addr_decoded_decoded_invMatrixOutputs_T_20}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_23, _decoded_addr_decoded_decoded_invMatrixOutputs_T_22}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_26, _decoded_addr_decoded_decoded_invMatrixOutputs_T_25}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_24}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_hi_lo}; // @[pla.scala:120:37] wire [8:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_28, _decoded_addr_decoded_decoded_invMatrixOutputs_T_27}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_lo_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_31, _decoded_addr_decoded_decoded_invMatrixOutputs_T_30}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_lo_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_29}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_33, _decoded_addr_decoded_decoded_invMatrixOutputs_T_32}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_36, _decoded_addr_decoded_decoded_invMatrixOutputs_T_35}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_34}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_hi_lo}; // @[pla.scala:120:37] wire [9:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi_lo}; // @[pla.scala:120:37] wire [18:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi_lo}; // @[pla.scala:120:37] wire [36:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_38, _decoded_addr_decoded_decoded_invMatrixOutputs_T_37}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_lo_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_40, _decoded_addr_decoded_decoded_invMatrixOutputs_T_39}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_42, _decoded_addr_decoded_decoded_invMatrixOutputs_T_41}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_45, _decoded_addr_decoded_decoded_invMatrixOutputs_T_44}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_43}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_hi_lo}; // @[pla.scala:120:37] wire [8:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_47, _decoded_addr_decoded_decoded_invMatrixOutputs_T_46}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_lo_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_50, _decoded_addr_decoded_decoded_invMatrixOutputs_T_49}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_lo_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_48}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_52, _decoded_addr_decoded_decoded_invMatrixOutputs_T_51}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_55, _decoded_addr_decoded_decoded_invMatrixOutputs_T_54}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_53}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_hi_lo}; // @[pla.scala:120:37] wire [9:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi_lo}; // @[pla.scala:120:37] wire [18:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_57, _decoded_addr_decoded_decoded_invMatrixOutputs_T_56}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_lo_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_59, _decoded_addr_decoded_decoded_invMatrixOutputs_T_58}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_61, _decoded_addr_decoded_decoded_invMatrixOutputs_T_60}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_64, _decoded_addr_decoded_decoded_invMatrixOutputs_T_63}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_62}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_hi_lo}; // @[pla.scala:120:37] wire [8:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_66, _decoded_addr_decoded_decoded_invMatrixOutputs_T_65}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_lo_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_69, _decoded_addr_decoded_decoded_invMatrixOutputs_T_68}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_lo_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_67}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_71, _decoded_addr_decoded_decoded_invMatrixOutputs_T_70}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_74, _decoded_addr_decoded_decoded_invMatrixOutputs_T_73}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_72}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_hi_lo}; // @[pla.scala:120:37] wire [9:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi_lo}; // @[pla.scala:120:37] wire [18:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi_lo}; // @[pla.scala:120:37] wire [37:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi_lo}; // @[pla.scala:120:37] wire [74:0] decoded_addr_decoded_decoded_invMatrixOutputs_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_76, _decoded_addr_decoded_decoded_invMatrixOutputs_T_75}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_lo_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_78, _decoded_addr_decoded_decoded_invMatrixOutputs_T_77}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_80, _decoded_addr_decoded_decoded_invMatrixOutputs_T_79}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_83, _decoded_addr_decoded_decoded_invMatrixOutputs_T_82}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_81}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_hi_lo}; // @[pla.scala:120:37] wire [8:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_85, _decoded_addr_decoded_decoded_invMatrixOutputs_T_84}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_lo_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_87, _decoded_addr_decoded_decoded_invMatrixOutputs_T_86}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_89, _decoded_addr_decoded_decoded_invMatrixOutputs_T_88}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_92, _decoded_addr_decoded_decoded_invMatrixOutputs_T_91}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_90}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_hi_lo}; // @[pla.scala:120:37] wire [8:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi_lo}; // @[pla.scala:120:37] wire [17:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_94, _decoded_addr_decoded_decoded_invMatrixOutputs_T_93}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_lo_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_96, _decoded_addr_decoded_decoded_invMatrixOutputs_T_95}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_98, _decoded_addr_decoded_decoded_invMatrixOutputs_T_97}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_101, _decoded_addr_decoded_decoded_invMatrixOutputs_T_100}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_99}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_hi_lo}; // @[pla.scala:120:37] wire [8:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_103, _decoded_addr_decoded_decoded_invMatrixOutputs_T_102}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_lo_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_106, _decoded_addr_decoded_decoded_invMatrixOutputs_T_105}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_lo_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_104}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_108, _decoded_addr_decoded_decoded_invMatrixOutputs_T_107}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_111, _decoded_addr_decoded_decoded_invMatrixOutputs_T_110}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_109}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_hi_lo}; // @[pla.scala:120:37] wire [9:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi_lo}; // @[pla.scala:120:37] wire [18:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi_lo}; // @[pla.scala:120:37] wire [36:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_113, _decoded_addr_decoded_decoded_invMatrixOutputs_T_112}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_lo_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_115, _decoded_addr_decoded_decoded_invMatrixOutputs_T_114}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_117, _decoded_addr_decoded_decoded_invMatrixOutputs_T_116}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_120, _decoded_addr_decoded_decoded_invMatrixOutputs_T_119}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_118}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_hi_lo}; // @[pla.scala:120:37] wire [8:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_122, _decoded_addr_decoded_decoded_invMatrixOutputs_T_121}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_lo_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_125, _decoded_addr_decoded_decoded_invMatrixOutputs_T_124}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_lo_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_123}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_127, _decoded_addr_decoded_decoded_invMatrixOutputs_T_126}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_130, _decoded_addr_decoded_decoded_invMatrixOutputs_T_129}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_128}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_hi_lo}; // @[pla.scala:120:37] wire [9:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi_lo}; // @[pla.scala:120:37] wire [18:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_132, _decoded_addr_decoded_decoded_invMatrixOutputs_T_131}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_lo_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_134, _decoded_addr_decoded_decoded_invMatrixOutputs_T_133}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_136, _decoded_addr_decoded_decoded_invMatrixOutputs_T_135}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_139, _decoded_addr_decoded_decoded_invMatrixOutputs_T_138}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_137}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_hi_lo}; // @[pla.scala:120:37] wire [8:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_lo_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_141, _decoded_addr_decoded_decoded_invMatrixOutputs_T_140}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_lo_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_144, _decoded_addr_decoded_decoded_invMatrixOutputs_T_143}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_lo_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_lo_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_142}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_lo = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_lo_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_hi_lo = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_146, _decoded_addr_decoded_decoded_invMatrixOutputs_T_145}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_hi_hi_hi = {_decoded_addr_decoded_decoded_invMatrixOutputs_T_149, _decoded_addr_decoded_decoded_invMatrixOutputs_T_148}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_hi_hi_hi, _decoded_addr_decoded_decoded_invMatrixOutputs_T_147}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_hi_lo}; // @[pla.scala:120:37] wire [9:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi_lo}; // @[pla.scala:120:37] wire [18:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi_lo}; // @[pla.scala:120:37] wire [37:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi_lo}; // @[pla.scala:120:37] wire [74:0] decoded_addr_decoded_decoded_invMatrixOutputs_hi = {decoded_addr_decoded_decoded_invMatrixOutputs_hi_hi, decoded_addr_decoded_decoded_invMatrixOutputs_hi_lo}; // @[pla.scala:120:37] assign decoded_addr_decoded_decoded_invMatrixOutputs = {decoded_addr_decoded_decoded_invMatrixOutputs_hi, decoded_addr_decoded_decoded_invMatrixOutputs_lo}; // @[pla.scala:120:37] assign decoded_addr_decoded_decoded = decoded_addr_decoded_decoded_invMatrixOutputs; // @[pla.scala:81:23, :120:37] assign decoded_addr_decoded_decoded_plaInput = decoded_addr_addr[11:0]; // @[pla.scala:77:22] wire decoded_addr_decoded_0 = decoded_addr_decoded_decoded[149]; // @[pla.scala:81:23] wire decoded_addr_97_2 = decoded_addr_decoded_0; // @[Decode.scala:50:77] wire decoded_addr_decoded_1 = decoded_addr_decoded_decoded[148]; // @[pla.scala:81:23] wire decoded_addr_55_2 = decoded_addr_decoded_1; // @[Decode.scala:50:77] wire decoded_addr_decoded_2 = decoded_addr_decoded_decoded[147]; // @[pla.scala:81:23] wire decoded_addr_10_2 = decoded_addr_decoded_2; // @[Decode.scala:50:77] wire decoded_addr_decoded_3 = decoded_addr_decoded_decoded[146]; // @[pla.scala:81:23] wire decoded_addr_118_2 = decoded_addr_decoded_3; // @[Decode.scala:50:77] wire decoded_addr_decoded_4 = decoded_addr_decoded_decoded[145]; // @[pla.scala:81:23] wire decoded_addr_94_2 = decoded_addr_decoded_4; // @[Decode.scala:50:77] wire decoded_addr_decoded_5 = decoded_addr_decoded_decoded[144]; // @[pla.scala:81:23] wire decoded_addr_100_2 = decoded_addr_decoded_5; // @[Decode.scala:50:77] wire decoded_addr_decoded_6 = decoded_addr_decoded_decoded[143]; // @[pla.scala:81:23] wire decoded_addr_72_2 = decoded_addr_decoded_6; // @[Decode.scala:50:77] wire decoded_addr_decoded_7 = decoded_addr_decoded_decoded[142]; // @[pla.scala:81:23] wire decoded_addr_108_2 = decoded_addr_decoded_7; // @[Decode.scala:50:77] wire decoded_addr_decoded_8 = decoded_addr_decoded_decoded[141]; // @[pla.scala:81:23] wire decoded_addr_76_2 = decoded_addr_decoded_8; // @[Decode.scala:50:77] wire decoded_addr_decoded_9 = decoded_addr_decoded_decoded[140]; // @[pla.scala:81:23] wire decoded_addr_129_2 = decoded_addr_decoded_9; // @[Decode.scala:50:77] wire decoded_addr_decoded_10 = decoded_addr_decoded_decoded[139]; // @[pla.scala:81:23] wire decoded_addr_132_2 = decoded_addr_decoded_10; // @[Decode.scala:50:77] wire decoded_addr_decoded_11 = decoded_addr_decoded_decoded[138]; // @[pla.scala:81:23] wire decoded_addr_136_2 = decoded_addr_decoded_11; // @[Decode.scala:50:77] wire decoded_addr_decoded_12 = decoded_addr_decoded_decoded[137]; // @[pla.scala:81:23] wire decoded_addr_29_2 = decoded_addr_decoded_12; // @[Decode.scala:50:77] wire decoded_addr_decoded_13 = decoded_addr_decoded_decoded[136]; // @[pla.scala:81:23] wire decoded_addr_131_2 = decoded_addr_decoded_13; // @[Decode.scala:50:77] wire decoded_addr_decoded_14 = decoded_addr_decoded_decoded[135]; // @[pla.scala:81:23] wire decoded_addr_49_2 = decoded_addr_decoded_14; // @[Decode.scala:50:77] wire decoded_addr_decoded_15 = decoded_addr_decoded_decoded[134]; // @[pla.scala:81:23] wire decoded_addr_89_2 = decoded_addr_decoded_15; // @[Decode.scala:50:77] wire decoded_addr_decoded_16 = decoded_addr_decoded_decoded[133]; // @[pla.scala:81:23] wire decoded_addr_57_2 = decoded_addr_decoded_16; // @[Decode.scala:50:77] wire decoded_addr_decoded_17 = decoded_addr_decoded_decoded[132]; // @[pla.scala:81:23] wire decoded_addr_36_2 = decoded_addr_decoded_17; // @[Decode.scala:50:77] wire decoded_addr_decoded_18 = decoded_addr_decoded_decoded[131]; // @[pla.scala:81:23] wire decoded_addr_68_2 = decoded_addr_decoded_18; // @[Decode.scala:50:77] wire decoded_addr_decoded_19 = decoded_addr_decoded_decoded[130]; // @[pla.scala:81:23] wire decoded_addr_99_2 = decoded_addr_decoded_19; // @[Decode.scala:50:77] wire decoded_addr_decoded_20 = decoded_addr_decoded_decoded[129]; // @[pla.scala:81:23] wire decoded_addr_130_2 = decoded_addr_decoded_20; // @[Decode.scala:50:77] wire decoded_addr_decoded_21 = decoded_addr_decoded_decoded[128]; // @[pla.scala:81:23] wire decoded_addr_103_2 = decoded_addr_decoded_21; // @[Decode.scala:50:77] wire decoded_addr_decoded_22 = decoded_addr_decoded_decoded[127]; // @[pla.scala:81:23] wire decoded_addr_121_2 = decoded_addr_decoded_22; // @[Decode.scala:50:77] wire decoded_addr_decoded_23 = decoded_addr_decoded_decoded[126]; // @[pla.scala:81:23] wire decoded_addr_146_2 = decoded_addr_decoded_23; // @[Decode.scala:50:77] wire decoded_addr_decoded_24 = decoded_addr_decoded_decoded[125]; // @[pla.scala:81:23] wire decoded_addr_17_2 = decoded_addr_decoded_24; // @[Decode.scala:50:77] wire decoded_addr_decoded_25 = decoded_addr_decoded_decoded[124]; // @[pla.scala:81:23] wire decoded_addr_27_2 = decoded_addr_decoded_25; // @[Decode.scala:50:77] wire decoded_addr_decoded_26 = decoded_addr_decoded_decoded[123]; // @[pla.scala:81:23] wire decoded_addr_83_2 = decoded_addr_decoded_26; // @[Decode.scala:50:77] wire decoded_addr_decoded_27 = decoded_addr_decoded_decoded[122]; // @[pla.scala:81:23] wire decoded_addr_52_2 = decoded_addr_decoded_27; // @[Decode.scala:50:77] wire decoded_addr_decoded_28 = decoded_addr_decoded_decoded[121]; // @[pla.scala:81:23] wire decoded_addr_144_2 = decoded_addr_decoded_28; // @[Decode.scala:50:77] wire decoded_addr_decoded_29 = decoded_addr_decoded_decoded[120]; // @[pla.scala:81:23] wire decoded_addr_70_2 = decoded_addr_decoded_29; // @[Decode.scala:50:77] wire decoded_addr_decoded_30 = decoded_addr_decoded_decoded[119]; // @[pla.scala:81:23] wire decoded_addr_111_2 = decoded_addr_decoded_30; // @[Decode.scala:50:77] wire decoded_addr_decoded_31 = decoded_addr_decoded_decoded[118]; // @[pla.scala:81:23] wire decoded_addr_82_2 = decoded_addr_decoded_31; // @[Decode.scala:50:77] wire decoded_addr_decoded_32 = decoded_addr_decoded_decoded[117]; // @[pla.scala:81:23] wire decoded_addr_31_2 = decoded_addr_decoded_32; // @[Decode.scala:50:77] wire decoded_addr_decoded_33 = decoded_addr_decoded_decoded[116]; // @[pla.scala:81:23] wire decoded_addr_0_2 = decoded_addr_decoded_33; // @[Decode.scala:50:77] wire decoded_addr_decoded_34 = decoded_addr_decoded_decoded[115]; // @[pla.scala:81:23] wire decoded_addr_59_2 = decoded_addr_decoded_34; // @[Decode.scala:50:77] wire decoded_addr_decoded_35 = decoded_addr_decoded_decoded[114]; // @[pla.scala:81:23] wire decoded_addr_138_2 = decoded_addr_decoded_35; // @[Decode.scala:50:77] wire decoded_addr_decoded_36 = decoded_addr_decoded_decoded[113]; // @[pla.scala:81:23] wire decoded_addr_126_2 = decoded_addr_decoded_36; // @[Decode.scala:50:77] wire decoded_addr_decoded_37 = decoded_addr_decoded_decoded[112]; // @[pla.scala:81:23] wire decoded_addr_74_2 = decoded_addr_decoded_37; // @[Decode.scala:50:77] wire decoded_addr_decoded_38 = decoded_addr_decoded_decoded[111]; // @[pla.scala:81:23] wire decoded_addr_116_2 = decoded_addr_decoded_38; // @[Decode.scala:50:77] wire decoded_addr_decoded_39 = decoded_addr_decoded_decoded[110]; // @[pla.scala:81:23] wire decoded_addr_90_2 = decoded_addr_decoded_39; // @[Decode.scala:50:77] wire decoded_addr_decoded_40 = decoded_addr_decoded_decoded[109]; // @[pla.scala:81:23] wire decoded_addr_113_2 = decoded_addr_decoded_40; // @[Decode.scala:50:77] wire decoded_addr_decoded_41 = decoded_addr_decoded_decoded[108]; // @[pla.scala:81:23] wire decoded_addr_1_2 = decoded_addr_decoded_41; // @[Decode.scala:50:77] wire decoded_addr_decoded_42 = decoded_addr_decoded_decoded[107]; // @[pla.scala:81:23] wire decoded_addr_16_2 = decoded_addr_decoded_42; // @[Decode.scala:50:77] wire decoded_addr_decoded_43 = decoded_addr_decoded_decoded[106]; // @[pla.scala:81:23] wire decoded_addr_78_2 = decoded_addr_decoded_43; // @[Decode.scala:50:77] wire decoded_addr_decoded_44 = decoded_addr_decoded_decoded[105]; // @[pla.scala:81:23] wire decoded_addr_39_2 = decoded_addr_decoded_44; // @[Decode.scala:50:77] wire decoded_addr_decoded_45 = decoded_addr_decoded_decoded[104]; // @[pla.scala:81:23] wire decoded_addr_51_2 = decoded_addr_decoded_45; // @[Decode.scala:50:77] wire decoded_addr_decoded_46 = decoded_addr_decoded_decoded[103]; // @[pla.scala:81:23] wire decoded_addr_109_2 = decoded_addr_decoded_46; // @[Decode.scala:50:77] wire decoded_addr_decoded_47 = decoded_addr_decoded_decoded[102]; // @[pla.scala:81:23] wire decoded_addr_91_2 = decoded_addr_decoded_47; // @[Decode.scala:50:77] wire decoded_addr_decoded_48 = decoded_addr_decoded_decoded[101]; // @[pla.scala:81:23] wire decoded_addr_81_2 = decoded_addr_decoded_48; // @[Decode.scala:50:77] wire decoded_addr_decoded_49 = decoded_addr_decoded_decoded[100]; // @[pla.scala:81:23] wire decoded_addr_67_2 = decoded_addr_decoded_49; // @[Decode.scala:50:77] wire decoded_addr_decoded_50 = decoded_addr_decoded_decoded[99]; // @[pla.scala:81:23] wire decoded_addr_105_2 = decoded_addr_decoded_50; // @[Decode.scala:50:77] wire decoded_addr_decoded_51 = decoded_addr_decoded_decoded[98]; // @[pla.scala:81:23] wire decoded_addr_122_2 = decoded_addr_decoded_51; // @[Decode.scala:50:77] wire decoded_addr_decoded_52 = decoded_addr_decoded_decoded[97]; // @[pla.scala:81:23] wire decoded_addr_24_2 = decoded_addr_decoded_52; // @[Decode.scala:50:77] wire decoded_addr_decoded_53 = decoded_addr_decoded_decoded[96]; // @[pla.scala:81:23] wire decoded_addr_124_2 = decoded_addr_decoded_53; // @[Decode.scala:50:77] wire decoded_addr_decoded_54 = decoded_addr_decoded_decoded[95]; // @[pla.scala:81:23] wire decoded_addr_26_2 = decoded_addr_decoded_54; // @[Decode.scala:50:77] wire decoded_addr_decoded_55 = decoded_addr_decoded_decoded[94]; // @[pla.scala:81:23] wire decoded_addr_128_2 = decoded_addr_decoded_55; // @[Decode.scala:50:77] wire decoded_addr_decoded_56 = decoded_addr_decoded_decoded[93]; // @[pla.scala:81:23] wire decoded_addr_7_2 = decoded_addr_decoded_56; // @[Decode.scala:50:77] wire decoded_addr_decoded_57 = decoded_addr_decoded_decoded[92]; // @[pla.scala:81:23] wire decoded_addr_62_2 = decoded_addr_decoded_57; // @[Decode.scala:50:77] wire decoded_addr_decoded_58 = decoded_addr_decoded_decoded[91]; // @[pla.scala:81:23] wire decoded_addr_77_2 = decoded_addr_decoded_58; // @[Decode.scala:50:77] wire decoded_addr_decoded_59 = decoded_addr_decoded_decoded[90]; // @[pla.scala:81:23] wire decoded_addr_46_2 = decoded_addr_decoded_59; // @[Decode.scala:50:77] wire decoded_addr_decoded_60 = decoded_addr_decoded_decoded[89]; // @[pla.scala:81:23] wire decoded_addr_112_2 = decoded_addr_decoded_60; // @[Decode.scala:50:77] wire decoded_addr_decoded_61 = decoded_addr_decoded_decoded[88]; // @[pla.scala:81:23] wire decoded_addr_60_2 = decoded_addr_decoded_61; // @[Decode.scala:50:77] wire decoded_addr_decoded_62 = decoded_addr_decoded_decoded[87]; // @[pla.scala:81:23] wire decoded_addr_92_2 = decoded_addr_decoded_62; // @[Decode.scala:50:77] wire decoded_addr_decoded_63 = decoded_addr_decoded_decoded[86]; // @[pla.scala:81:23] wire decoded_addr_148_2 = decoded_addr_decoded_63; // @[Decode.scala:50:77] wire decoded_addr_decoded_64 = decoded_addr_decoded_decoded[85]; // @[pla.scala:81:23] wire decoded_addr_14_2 = decoded_addr_decoded_64; // @[Decode.scala:50:77] wire decoded_addr_decoded_65 = decoded_addr_decoded_decoded[84]; // @[pla.scala:81:23] wire decoded_addr_21_2 = decoded_addr_decoded_65; // @[Decode.scala:50:77] wire decoded_addr_decoded_66 = decoded_addr_decoded_decoded[83]; // @[pla.scala:81:23] wire decoded_addr_33_2 = decoded_addr_decoded_66; // @[Decode.scala:50:77] wire decoded_addr_decoded_67 = decoded_addr_decoded_decoded[82]; // @[pla.scala:81:23] wire decoded_addr_19_2 = decoded_addr_decoded_67; // @[Decode.scala:50:77] wire decoded_addr_decoded_68 = decoded_addr_decoded_decoded[81]; // @[pla.scala:81:23] wire decoded_addr_133_2 = decoded_addr_decoded_68; // @[Decode.scala:50:77] wire decoded_addr_decoded_69 = decoded_addr_decoded_decoded[80]; // @[pla.scala:81:23] wire decoded_addr_149_2 = decoded_addr_decoded_69; // @[Decode.scala:50:77] wire decoded_addr_decoded_70 = decoded_addr_decoded_decoded[79]; // @[pla.scala:81:23] wire decoded_addr_50_2 = decoded_addr_decoded_70; // @[Decode.scala:50:77] wire decoded_addr_decoded_71 = decoded_addr_decoded_decoded[78]; // @[pla.scala:81:23] wire decoded_addr_75_2 = decoded_addr_decoded_71; // @[Decode.scala:50:77] wire decoded_addr_decoded_72 = decoded_addr_decoded_decoded[77]; // @[pla.scala:81:23] wire decoded_addr_102_2 = decoded_addr_decoded_72; // @[Decode.scala:50:77] wire decoded_addr_decoded_73 = decoded_addr_decoded_decoded[76]; // @[pla.scala:81:23] wire decoded_addr_84_2 = decoded_addr_decoded_73; // @[Decode.scala:50:77] wire decoded_addr_decoded_74 = decoded_addr_decoded_decoded[75]; // @[pla.scala:81:23] wire decoded_addr_45_2 = decoded_addr_decoded_74; // @[Decode.scala:50:77] wire decoded_addr_decoded_75 = decoded_addr_decoded_decoded[74]; // @[pla.scala:81:23] wire decoded_addr_64_2 = decoded_addr_decoded_75; // @[Decode.scala:50:77] wire decoded_addr_decoded_76 = decoded_addr_decoded_decoded[73]; // @[pla.scala:81:23] wire decoded_addr_120_2 = decoded_addr_decoded_76; // @[Decode.scala:50:77] wire decoded_addr_decoded_77 = decoded_addr_decoded_decoded[72]; // @[pla.scala:81:23] wire decoded_addr_30_2 = decoded_addr_decoded_77; // @[Decode.scala:50:77] wire decoded_addr_decoded_78 = decoded_addr_decoded_decoded[71]; // @[pla.scala:81:23] wire decoded_addr_5_2 = decoded_addr_decoded_78; // @[Decode.scala:50:77] wire decoded_addr_decoded_79 = decoded_addr_decoded_decoded[70]; // @[pla.scala:81:23] wire decoded_addr_32_2 = decoded_addr_decoded_79; // @[Decode.scala:50:77] wire decoded_addr_decoded_80 = decoded_addr_decoded_decoded[69]; // @[pla.scala:81:23] wire decoded_addr_143_2 = decoded_addr_decoded_80; // @[Decode.scala:50:77] wire decoded_addr_decoded_81 = decoded_addr_decoded_decoded[68]; // @[pla.scala:81:23] wire decoded_addr_117_2 = decoded_addr_decoded_81; // @[Decode.scala:50:77] wire decoded_addr_decoded_82 = decoded_addr_decoded_decoded[67]; // @[pla.scala:81:23] wire decoded_addr_63_2 = decoded_addr_decoded_82; // @[Decode.scala:50:77] wire decoded_addr_decoded_83 = decoded_addr_decoded_decoded[66]; // @[pla.scala:81:23] wire decoded_addr_107_2 = decoded_addr_decoded_83; // @[Decode.scala:50:77] wire decoded_addr_decoded_84 = decoded_addr_decoded_decoded[65]; // @[pla.scala:81:23] wire decoded_addr_88_2 = decoded_addr_decoded_84; // @[Decode.scala:50:77] wire decoded_addr_decoded_85 = decoded_addr_decoded_decoded[64]; // @[pla.scala:81:23] wire decoded_addr_114_2 = decoded_addr_decoded_85; // @[Decode.scala:50:77] wire decoded_addr_decoded_86 = decoded_addr_decoded_decoded[63]; // @[pla.scala:81:23] wire decoded_addr_73_2 = decoded_addr_decoded_86; // @[Decode.scala:50:77] wire decoded_addr_decoded_87 = decoded_addr_decoded_decoded[62]; // @[pla.scala:81:23] wire decoded_addr_53_2 = decoded_addr_decoded_87; // @[Decode.scala:50:77] wire decoded_addr_decoded_88 = decoded_addr_decoded_decoded[61]; // @[pla.scala:81:23] wire decoded_addr_147_2 = decoded_addr_decoded_88; // @[Decode.scala:50:77] wire decoded_addr_decoded_89 = decoded_addr_decoded_decoded[60]; // @[pla.scala:81:23] wire decoded_addr_41_2 = decoded_addr_decoded_89; // @[Decode.scala:50:77] wire decoded_addr_decoded_90 = decoded_addr_decoded_decoded[59]; // @[pla.scala:81:23] wire decoded_addr_56_2 = decoded_addr_decoded_90; // @[Decode.scala:50:77] wire decoded_addr_decoded_91 = decoded_addr_decoded_decoded[58]; // @[pla.scala:81:23] wire decoded_addr_37_2 = decoded_addr_decoded_91; // @[Decode.scala:50:77] wire decoded_addr_decoded_92 = decoded_addr_decoded_decoded[57]; // @[pla.scala:81:23] wire decoded_addr_79_2 = decoded_addr_decoded_92; // @[Decode.scala:50:77] wire decoded_addr_decoded_93 = decoded_addr_decoded_decoded[56]; // @[pla.scala:81:23] wire decoded_addr_96_2 = decoded_addr_decoded_93; // @[Decode.scala:50:77] wire decoded_addr_decoded_94 = decoded_addr_decoded_decoded[55]; // @[pla.scala:81:23] wire decoded_addr_4_2 = decoded_addr_decoded_94; // @[Decode.scala:50:77] wire decoded_addr_decoded_95 = decoded_addr_decoded_decoded[54]; // @[pla.scala:81:23] wire decoded_addr_101_2 = decoded_addr_decoded_95; // @[Decode.scala:50:77] wire decoded_addr_decoded_96 = decoded_addr_decoded_decoded[53]; // @[pla.scala:81:23] wire decoded_addr_119_2 = decoded_addr_decoded_96; // @[Decode.scala:50:77] wire decoded_addr_decoded_97 = decoded_addr_decoded_decoded[52]; // @[pla.scala:81:23] wire decoded_addr_22_2 = decoded_addr_decoded_97; // @[Decode.scala:50:77] wire decoded_addr_decoded_98 = decoded_addr_decoded_decoded[51]; // @[pla.scala:81:23] wire decoded_addr_139_2 = decoded_addr_decoded_98; // @[Decode.scala:50:77] wire decoded_addr_decoded_99 = decoded_addr_decoded_decoded[50]; // @[pla.scala:81:23] wire decoded_addr_11_2 = decoded_addr_decoded_99; // @[Decode.scala:50:77] wire decoded_addr_decoded_100 = decoded_addr_decoded_decoded[49]; // @[pla.scala:81:23] wire decoded_addr_134_2 = decoded_addr_decoded_100; // @[Decode.scala:50:77] wire decoded_addr_decoded_101 = decoded_addr_decoded_decoded[48]; // @[pla.scala:81:23] wire decoded_addr_12_2 = decoded_addr_decoded_101; // @[Decode.scala:50:77] wire decoded_addr_decoded_102 = decoded_addr_decoded_decoded[47]; // @[pla.scala:81:23] wire decoded_addr_65_2 = decoded_addr_decoded_102; // @[Decode.scala:50:77] wire decoded_addr_decoded_103 = decoded_addr_decoded_decoded[46]; // @[pla.scala:81:23] wire decoded_addr_86_2 = decoded_addr_decoded_103; // @[Decode.scala:50:77] wire decoded_addr_decoded_104 = decoded_addr_decoded_decoded[45]; // @[pla.scala:81:23] wire decoded_addr_47_2 = decoded_addr_decoded_104; // @[Decode.scala:50:77] wire decoded_addr_decoded_105 = decoded_addr_decoded_decoded[44]; // @[pla.scala:81:23] wire decoded_addr_106_2 = decoded_addr_decoded_105; // @[Decode.scala:50:77] wire decoded_addr_decoded_106 = decoded_addr_decoded_decoded[43]; // @[pla.scala:81:23] wire decoded_addr_58_2 = decoded_addr_decoded_106; // @[Decode.scala:50:77] wire decoded_addr_decoded_107 = decoded_addr_decoded_decoded[42]; // @[pla.scala:81:23] wire decoded_addr_87_2 = decoded_addr_decoded_107; // @[Decode.scala:50:77] wire decoded_addr_decoded_108 = decoded_addr_decoded_decoded[41]; // @[pla.scala:81:23] wire decoded_addr_142_2 = decoded_addr_decoded_108; // @[Decode.scala:50:77] wire decoded_addr_decoded_109 = decoded_addr_decoded_decoded[40]; // @[pla.scala:81:23] wire decoded_addr_13_2 = decoded_addr_decoded_109; // @[Decode.scala:50:77] wire decoded_addr_decoded_110 = decoded_addr_decoded_decoded[39]; // @[pla.scala:81:23] wire decoded_addr_35_2 = decoded_addr_decoded_110; // @[Decode.scala:50:77] wire decoded_addr_decoded_111 = decoded_addr_decoded_decoded[38]; // @[pla.scala:81:23] wire decoded_addr_2_2 = decoded_addr_decoded_111; // @[Decode.scala:50:77] wire decoded_addr_decoded_112 = decoded_addr_decoded_decoded[37]; // @[pla.scala:81:23] wire decoded_addr_66_2 = decoded_addr_decoded_112; // @[Decode.scala:50:77] wire decoded_addr_decoded_113 = decoded_addr_decoded_decoded[36]; // @[pla.scala:81:23] wire decoded_addr_42_2 = decoded_addr_decoded_113; // @[Decode.scala:50:77] wire decoded_addr_decoded_114 = decoded_addr_decoded_decoded[35]; // @[pla.scala:81:23] wire decoded_addr_61_2 = decoded_addr_decoded_114; // @[Decode.scala:50:77] wire decoded_addr_decoded_115 = decoded_addr_decoded_decoded[34]; // @[pla.scala:81:23] wire decoded_addr_48_2 = decoded_addr_decoded_115; // @[Decode.scala:50:77] wire decoded_addr_decoded_116 = decoded_addr_decoded_decoded[33]; // @[pla.scala:81:23] wire decoded_addr_44_2 = decoded_addr_decoded_116; // @[Decode.scala:50:77] wire decoded_addr_decoded_117 = decoded_addr_decoded_decoded[32]; // @[pla.scala:81:23] wire decoded_addr_15_2 = decoded_addr_decoded_117; // @[Decode.scala:50:77] wire decoded_addr_decoded_118 = decoded_addr_decoded_decoded[31]; // @[pla.scala:81:23] wire decoded_addr_145_2 = decoded_addr_decoded_118; // @[Decode.scala:50:77] wire decoded_addr_decoded_119 = decoded_addr_decoded_decoded[30]; // @[pla.scala:81:23] wire decoded_addr_93_2 = decoded_addr_decoded_119; // @[Decode.scala:50:77] wire decoded_addr_decoded_120 = decoded_addr_decoded_decoded[29]; // @[pla.scala:81:23] wire decoded_addr_6_2 = decoded_addr_decoded_120; // @[Decode.scala:50:77] wire decoded_addr_decoded_121 = decoded_addr_decoded_decoded[28]; // @[pla.scala:81:23] wire decoded_addr_28_2 = decoded_addr_decoded_121; // @[Decode.scala:50:77] wire decoded_addr_decoded_122 = decoded_addr_decoded_decoded[27]; // @[pla.scala:81:23] wire decoded_addr_25_2 = decoded_addr_decoded_122; // @[Decode.scala:50:77] wire decoded_addr_decoded_123 = decoded_addr_decoded_decoded[26]; // @[pla.scala:81:23] wire decoded_addr_137_2 = decoded_addr_decoded_123; // @[Decode.scala:50:77] wire decoded_addr_decoded_124 = decoded_addr_decoded_decoded[25]; // @[pla.scala:81:23] wire decoded_addr_123_2 = decoded_addr_decoded_124; // @[Decode.scala:50:77] wire decoded_addr_decoded_125 = decoded_addr_decoded_decoded[24]; // @[pla.scala:81:23] wire decoded_addr_23_2 = decoded_addr_decoded_125; // @[Decode.scala:50:77] wire decoded_addr_decoded_126 = decoded_addr_decoded_decoded[23]; // @[pla.scala:81:23] wire decoded_addr_69_2 = decoded_addr_decoded_126; // @[Decode.scala:50:77] wire decoded_addr_decoded_127 = decoded_addr_decoded_decoded[22]; // @[pla.scala:81:23] wire decoded_addr_141_2 = decoded_addr_decoded_127; // @[Decode.scala:50:77] wire decoded_addr_decoded_128 = decoded_addr_decoded_decoded[21]; // @[pla.scala:81:23] wire decoded_addr_9_2 = decoded_addr_decoded_128; // @[Decode.scala:50:77] wire decoded_addr_decoded_129 = decoded_addr_decoded_decoded[20]; // @[pla.scala:81:23] wire decoded_addr_104_2 = decoded_addr_decoded_129; // @[Decode.scala:50:77] wire decoded_addr_decoded_130 = decoded_addr_decoded_decoded[19]; // @[pla.scala:81:23] wire decoded_addr_8_2 = decoded_addr_decoded_130; // @[Decode.scala:50:77] wire decoded_addr_decoded_131 = decoded_addr_decoded_decoded[18]; // @[pla.scala:81:23] wire decoded_addr_125_2 = decoded_addr_decoded_131; // @[Decode.scala:50:77] wire decoded_addr_decoded_132 = decoded_addr_decoded_decoded[17]; // @[pla.scala:81:23] wire decoded_addr_85_2 = decoded_addr_decoded_132; // @[Decode.scala:50:77] wire decoded_addr_decoded_133 = decoded_addr_decoded_decoded[16]; // @[pla.scala:81:23] wire decoded_addr_54_2 = decoded_addr_decoded_133; // @[Decode.scala:50:77] wire decoded_addr_decoded_134 = decoded_addr_decoded_decoded[15]; // @[pla.scala:81:23] wire decoded_addr_20_2 = decoded_addr_decoded_134; // @[Decode.scala:50:77] wire decoded_addr_decoded_135 = decoded_addr_decoded_decoded[14]; // @[pla.scala:81:23] wire decoded_addr_135_2 = decoded_addr_decoded_135; // @[Decode.scala:50:77] wire decoded_addr_decoded_136 = decoded_addr_decoded_decoded[13]; // @[pla.scala:81:23] wire decoded_addr_115_2 = decoded_addr_decoded_136; // @[Decode.scala:50:77] wire decoded_addr_decoded_137 = decoded_addr_decoded_decoded[12]; // @[pla.scala:81:23] wire decoded_addr_43_2 = decoded_addr_decoded_137; // @[Decode.scala:50:77] wire decoded_addr_decoded_138 = decoded_addr_decoded_decoded[11]; // @[pla.scala:81:23] wire decoded_addr_71_2 = decoded_addr_decoded_138; // @[Decode.scala:50:77] wire decoded_addr_decoded_139 = decoded_addr_decoded_decoded[10]; // @[pla.scala:81:23] wire decoded_addr_110_2 = decoded_addr_decoded_139; // @[Decode.scala:50:77] wire decoded_addr_decoded_140 = decoded_addr_decoded_decoded[9]; // @[pla.scala:81:23] wire decoded_addr_140_2 = decoded_addr_decoded_140; // @[Decode.scala:50:77] wire decoded_addr_decoded_141 = decoded_addr_decoded_decoded[8]; // @[pla.scala:81:23] wire decoded_addr_34_2 = decoded_addr_decoded_141; // @[Decode.scala:50:77] wire decoded_addr_decoded_142 = decoded_addr_decoded_decoded[7]; // @[pla.scala:81:23] wire decoded_addr_40_2 = decoded_addr_decoded_142; // @[Decode.scala:50:77] wire decoded_addr_decoded_143 = decoded_addr_decoded_decoded[6]; // @[pla.scala:81:23] wire decoded_addr_80_2 = decoded_addr_decoded_143; // @[Decode.scala:50:77] wire decoded_addr_decoded_144 = decoded_addr_decoded_decoded[5]; // @[pla.scala:81:23] wire decoded_addr_98_2 = decoded_addr_decoded_144; // @[Decode.scala:50:77] wire decoded_addr_decoded_145 = decoded_addr_decoded_decoded[4]; // @[pla.scala:81:23] wire decoded_addr_18_2 = decoded_addr_decoded_145; // @[Decode.scala:50:77] wire decoded_addr_decoded_146 = decoded_addr_decoded_decoded[3]; // @[pla.scala:81:23] wire decoded_addr_3_2 = decoded_addr_decoded_146; // @[Decode.scala:50:77] wire decoded_addr_decoded_147 = decoded_addr_decoded_decoded[2]; // @[pla.scala:81:23] wire decoded_addr_127_2 = decoded_addr_decoded_147; // @[Decode.scala:50:77] wire decoded_addr_decoded_148 = decoded_addr_decoded_decoded[1]; // @[pla.scala:81:23] wire decoded_addr_38_2 = decoded_addr_decoded_148; // @[Decode.scala:50:77] wire decoded_addr_decoded_149 = decoded_addr_decoded_decoded[0]; // @[pla.scala:81:23] wire decoded_addr_95_2 = decoded_addr_decoded_149; // @[Decode.scala:50:77] wire _wdata_T = io_rw_cmd_0[1]; // @[CSR.scala:377:7, :1643:13] wire _new_mip_T_1 = io_rw_cmd_0[1]; // @[CSR.scala:377:7, :1643:13] wire [63:0] _wdata_T_1 = _wdata_T ? io_rw_rdata_0 : 64'h0; // @[CSR.scala:377:7, :1643:{9,13}] wire [63:0] _wdata_T_2 = _wdata_T_1 | io_rw_wdata_0; // @[CSR.scala:377:7, :1643:{9,30}] wire [1:0] _wdata_T_3 = io_rw_cmd_0[1:0]; // @[CSR.scala:377:7, :1643:49] wire [1:0] _new_mip_T_4 = io_rw_cmd_0[1:0]; // @[CSR.scala:377:7, :1643:49] wire _wdata_T_4 = &_wdata_T_3; // @[CSR.scala:1643:{49,55}] wire [63:0] _wdata_T_5 = _wdata_T_4 ? io_rw_wdata_0 : 64'h0; // @[CSR.scala:377:7, :1643:{45,55}] wire [63:0] _wdata_T_6 = ~_wdata_T_5; // @[CSR.scala:1643:{41,45}] assign wdata = _wdata_T_2 & _wdata_T_6; // @[CSR.scala:1643:{30,39,41}] assign io_customCSRs_0_wdata_0 = wdata; // @[CSR.scala:377:7, :1643:39] assign io_customCSRs_1_wdata_0 = wdata; // @[CSR.scala:377:7, :1643:39] wire [63:0] _new_satp_WIRE = wdata; // @[CSR.scala:1355:40, :1643:39] wire [63:0] _new_envcfg_WIRE = wdata; // @[CSR.scala:137:36, :1643:39] wire [63:0] _new_envcfg_WIRE_1 = wdata; // @[CSR.scala:137:36, :1643:39] wire [63:0] _newCfg_T = wdata; // @[CSR.scala:1491:29, :1643:39] wire system_insn = io_rw_cmd_0 == 3'h4; // @[CSR.scala:377:7, :876:31] wire [31:0] _insn_T = {io_rw_addr_0, 20'h0}; // @[CSR.scala:377:7, :892:44] wire [31:0] insn = {_insn_T[31:7], _insn_T[6:0] | 7'h73}; // @[CSR.scala:892:{30,44}] wire [31:0] decoded_plaInput = insn; // @[pla.scala:77:22] wire [31:0] decoded_invInputs = ~decoded_plaInput; // @[pla.scala:77:22, :78:21] wire [8:0] decoded_invMatrixOutputs; // @[pla.scala:120:37] wire [8:0] decoded; // @[pla.scala:81:23] wire decoded_andMatrixOutputs_andMatrixInput_0 = decoded_invInputs[20]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1 = decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_1 = decoded_invInputs[21]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2 = decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_1 = decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_2 = decoded_invInputs[22]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3 = decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_1 = decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_2 = decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_3 = decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_5 = decoded_invInputs[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4 = decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_1 = decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_2 = decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_3 = decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_5 = decoded_invInputs[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5 = decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_1 = decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_2 = decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_3 = decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_5 = decoded_invInputs[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_6 = decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_6_1 = decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_2 = decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_3 = decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_11_2 = decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_5 = decoded_invInputs[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_7 = decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_7_1 = decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_6_2 = decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_3 = decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_12 = decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_5 = decoded_invInputs[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8 = decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_1 = decoded_invInputs[28]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9 = decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_1 = decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_7_3 = decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_14 = decoded_invInputs[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_10 = decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_10_1 = decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_2 = decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_3 = decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_15 = decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_5 = decoded_invInputs[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_11 = decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_11_1 = decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_2 = decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_3 = decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_16 = decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_5 = decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_6 = decoded_invInputs[31]; // @[pla.scala:78:21, :91:29] wire [1:0] decoded_andMatrixOutputs_lo_lo_hi = {decoded_andMatrixOutputs_andMatrixInput_9, decoded_andMatrixOutputs_andMatrixInput_10}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_lo = {decoded_andMatrixOutputs_lo_lo_hi, decoded_andMatrixOutputs_andMatrixInput_11}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi = {decoded_andMatrixOutputs_andMatrixInput_6, decoded_andMatrixOutputs_andMatrixInput_7}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi = {decoded_andMatrixOutputs_lo_hi_hi, decoded_andMatrixOutputs_andMatrixInput_8}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_lo = {decoded_andMatrixOutputs_lo_hi, decoded_andMatrixOutputs_lo_lo}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_hi = {decoded_andMatrixOutputs_andMatrixInput_3, decoded_andMatrixOutputs_andMatrixInput_4}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_lo = {decoded_andMatrixOutputs_hi_lo_hi, decoded_andMatrixOutputs_andMatrixInput_5}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi = {decoded_andMatrixOutputs_andMatrixInput_0, decoded_andMatrixOutputs_andMatrixInput_1}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi = {decoded_andMatrixOutputs_hi_hi_hi, decoded_andMatrixOutputs_andMatrixInput_2}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_hi = {decoded_andMatrixOutputs_hi_hi, decoded_andMatrixOutputs_hi_lo}; // @[pla.scala:98:53] wire [11:0] _decoded_andMatrixOutputs_T = {decoded_andMatrixOutputs_hi, decoded_andMatrixOutputs_lo}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_6_2 = &_decoded_andMatrixOutputs_T; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_6 = decoded_andMatrixOutputs_6_2; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_0_1 = decoded_plaInput[20]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_hi_1 = {decoded_andMatrixOutputs_andMatrixInput_9_1, decoded_andMatrixOutputs_andMatrixInput_10_1}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_lo_1 = {decoded_andMatrixOutputs_lo_lo_hi_1, decoded_andMatrixOutputs_andMatrixInput_11_1}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_1 = {decoded_andMatrixOutputs_andMatrixInput_6_1, decoded_andMatrixOutputs_andMatrixInput_7_1}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_1 = {decoded_andMatrixOutputs_lo_hi_hi_1, decoded_andMatrixOutputs_andMatrixInput_8_1}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_lo_1 = {decoded_andMatrixOutputs_lo_hi_1, decoded_andMatrixOutputs_lo_lo_1}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_hi_1 = {decoded_andMatrixOutputs_andMatrixInput_3_1, decoded_andMatrixOutputs_andMatrixInput_4_1}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_lo_1 = {decoded_andMatrixOutputs_hi_lo_hi_1, decoded_andMatrixOutputs_andMatrixInput_5_1}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_1 = {decoded_andMatrixOutputs_andMatrixInput_0_1, decoded_andMatrixOutputs_andMatrixInput_1_1}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_1 = {decoded_andMatrixOutputs_hi_hi_hi_1, decoded_andMatrixOutputs_andMatrixInput_2_1}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_hi_1 = {decoded_andMatrixOutputs_hi_hi_1, decoded_andMatrixOutputs_hi_lo_1}; // @[pla.scala:98:53] wire [11:0] _decoded_andMatrixOutputs_T_1 = {decoded_andMatrixOutputs_hi_1, decoded_andMatrixOutputs_lo_1}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_4_2 = &_decoded_andMatrixOutputs_T_1; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_5 = decoded_andMatrixOutputs_4_2; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_0_2 = decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_0_4 = decoded_plaInput[0]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_7_2 = decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_6_3 = decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_13 = decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_6_5 = decoded_plaInput[28]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_2 = {decoded_andMatrixOutputs_andMatrixInput_8_2, decoded_andMatrixOutputs_andMatrixInput_9_2}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_2 = {decoded_andMatrixOutputs_andMatrixInput_5_2, decoded_andMatrixOutputs_andMatrixInput_6_2}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_2 = {decoded_andMatrixOutputs_lo_hi_hi_2, decoded_andMatrixOutputs_andMatrixInput_7_2}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_andMatrixOutputs_lo_2 = {decoded_andMatrixOutputs_lo_hi_2, decoded_andMatrixOutputs_lo_lo_2}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_2 = {decoded_andMatrixOutputs_andMatrixInput_3_2, decoded_andMatrixOutputs_andMatrixInput_4_2}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_2 = {decoded_andMatrixOutputs_andMatrixInput_0_2, decoded_andMatrixOutputs_andMatrixInput_1_2}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_2 = {decoded_andMatrixOutputs_hi_hi_hi_2, decoded_andMatrixOutputs_andMatrixInput_2_2}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_2 = {decoded_andMatrixOutputs_hi_hi_2, decoded_andMatrixOutputs_hi_lo_2}; // @[pla.scala:98:53] wire [9:0] _decoded_andMatrixOutputs_T_2 = {decoded_andMatrixOutputs_hi_2, decoded_andMatrixOutputs_lo_2}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_3_2 = &_decoded_andMatrixOutputs_T_2; // @[pla.scala:98:{53,70}] wire decoded_andMatrixOutputs_andMatrixInput_0_3 = decoded_plaInput[22]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_0_5 = decoded_plaInput[22]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_3 = {decoded_andMatrixOutputs_andMatrixInput_8_3, decoded_andMatrixOutputs_andMatrixInput_9_3}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_3 = {decoded_andMatrixOutputs_andMatrixInput_5_3, decoded_andMatrixOutputs_andMatrixInput_6_3}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_3 = {decoded_andMatrixOutputs_lo_hi_hi_3, decoded_andMatrixOutputs_andMatrixInput_7_3}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_lo_3 = {decoded_andMatrixOutputs_lo_hi_3, decoded_andMatrixOutputs_lo_lo_3}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_3 = {decoded_andMatrixOutputs_andMatrixInput_3_3, decoded_andMatrixOutputs_andMatrixInput_4_3}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_3 = {decoded_andMatrixOutputs_andMatrixInput_0_3, decoded_andMatrixOutputs_andMatrixInput_1_3}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_3 = {decoded_andMatrixOutputs_hi_hi_hi_3, decoded_andMatrixOutputs_andMatrixInput_2_3}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_3 = {decoded_andMatrixOutputs_hi_hi_3, decoded_andMatrixOutputs_hi_lo_3}; // @[pla.scala:98:53] wire [9:0] _decoded_andMatrixOutputs_T_3 = {decoded_andMatrixOutputs_hi_3, decoded_andMatrixOutputs_lo_3}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_1_2 = &_decoded_andMatrixOutputs_T_3; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_1 = decoded_andMatrixOutputs_1_2; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_1_4 = decoded_plaInput[1]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_2_4 = decoded_invInputs[2]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_4 = decoded_invInputs[3]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_4 = decoded_plaInput[4]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_5_4 = decoded_plaInput[5]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_6_4 = decoded_plaInput[6]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_7_4 = decoded_invInputs[7]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_4 = decoded_invInputs[8]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_4 = decoded_invInputs[9]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_10_2 = decoded_plaInput[25]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_lo = {decoded_andMatrixOutputs_andMatrixInput_15, decoded_andMatrixOutputs_andMatrixInput_16}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_lo_hi_2 = {decoded_andMatrixOutputs_andMatrixInput_13, decoded_andMatrixOutputs_andMatrixInput_14}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] decoded_andMatrixOutputs_lo_lo_4 = {decoded_andMatrixOutputs_lo_lo_hi_2, decoded_andMatrixOutputs_lo_lo_lo}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_lo = {decoded_andMatrixOutputs_andMatrixInput_11_2, decoded_andMatrixOutputs_andMatrixInput_12}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_4 = {decoded_andMatrixOutputs_andMatrixInput_9_4, decoded_andMatrixOutputs_andMatrixInput_10_2}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] decoded_andMatrixOutputs_lo_hi_4 = {decoded_andMatrixOutputs_lo_hi_hi_4, decoded_andMatrixOutputs_lo_hi_lo}; // @[pla.scala:98:53] wire [7:0] decoded_andMatrixOutputs_lo_4 = {decoded_andMatrixOutputs_lo_hi_4, decoded_andMatrixOutputs_lo_lo_4}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_lo = {decoded_andMatrixOutputs_andMatrixInput_7_4, decoded_andMatrixOutputs_andMatrixInput_8_4}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_hi_2 = {decoded_andMatrixOutputs_andMatrixInput_5_4, decoded_andMatrixOutputs_andMatrixInput_6_4}; // @[pla.scala:90:45, :98:53] wire [3:0] decoded_andMatrixOutputs_hi_lo_4 = {decoded_andMatrixOutputs_hi_lo_hi_2, decoded_andMatrixOutputs_hi_lo_lo}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_lo = {decoded_andMatrixOutputs_andMatrixInput_3_4, decoded_andMatrixOutputs_andMatrixInput_4_4}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_hi = {decoded_andMatrixOutputs_andMatrixInput_0_4, decoded_andMatrixOutputs_andMatrixInput_1_4}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_hi_4 = {decoded_andMatrixOutputs_hi_hi_hi_hi, decoded_andMatrixOutputs_andMatrixInput_2_4}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_hi_4 = {decoded_andMatrixOutputs_hi_hi_hi_4, decoded_andMatrixOutputs_hi_hi_lo}; // @[pla.scala:98:53] wire [8:0] decoded_andMatrixOutputs_hi_4 = {decoded_andMatrixOutputs_hi_hi_4, decoded_andMatrixOutputs_hi_lo_4}; // @[pla.scala:98:53] wire [16:0] _decoded_andMatrixOutputs_T_4 = {decoded_andMatrixOutputs_hi_4, decoded_andMatrixOutputs_lo_4}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_0_2 = &_decoded_andMatrixOutputs_T_4; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T = decoded_andMatrixOutputs_0_2; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_7_5 = decoded_plaInput[29]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_5 = {decoded_andMatrixOutputs_andMatrixInput_8_5, decoded_andMatrixOutputs_andMatrixInput_9_5}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_5 = {decoded_andMatrixOutputs_andMatrixInput_5_5, decoded_andMatrixOutputs_andMatrixInput_6_5}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_5 = {decoded_andMatrixOutputs_lo_hi_hi_5, decoded_andMatrixOutputs_andMatrixInput_7_5}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_andMatrixOutputs_lo_5 = {decoded_andMatrixOutputs_lo_hi_5, decoded_andMatrixOutputs_lo_lo_5}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_5 = {decoded_andMatrixOutputs_andMatrixInput_3_5, decoded_andMatrixOutputs_andMatrixInput_4_5}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_5 = {decoded_andMatrixOutputs_andMatrixInput_0_5, decoded_andMatrixOutputs_andMatrixInput_1_5}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_5 = {decoded_andMatrixOutputs_hi_hi_hi_5, decoded_andMatrixOutputs_andMatrixInput_2_5}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_5 = {decoded_andMatrixOutputs_hi_hi_5, decoded_andMatrixOutputs_hi_lo_5}; // @[pla.scala:98:53] wire [9:0] _decoded_andMatrixOutputs_T_5 = {decoded_andMatrixOutputs_hi_5, decoded_andMatrixOutputs_lo_5}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_5_2 = &_decoded_andMatrixOutputs_T_5; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_2 = decoded_andMatrixOutputs_5_2; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_0_6 = decoded_plaInput[30]; // @[pla.scala:77:22, :90:45] wire [1:0] _decoded_andMatrixOutputs_T_6 = {decoded_andMatrixOutputs_andMatrixInput_0_6, decoded_andMatrixOutputs_andMatrixInput_1_6}; // @[pla.scala:90:45, :91:29, :98:53] wire decoded_andMatrixOutputs_2_2 = &_decoded_andMatrixOutputs_T_6; // @[pla.scala:98:{53,70}] wire [1:0] _decoded_orMatrixOutputs_T_3 = {decoded_andMatrixOutputs_3_2, decoded_andMatrixOutputs_2_2}; // @[pla.scala:98:70, :114:19] wire _decoded_orMatrixOutputs_T_4 = |_decoded_orMatrixOutputs_T_3; // @[pla.scala:114:{19,36}] wire [1:0] decoded_orMatrixOutputs_lo_hi = {_decoded_orMatrixOutputs_T, 1'h0}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_orMatrixOutputs_lo = {decoded_orMatrixOutputs_lo_hi, 2'h0}; // @[pla.scala:102:36] wire [1:0] decoded_orMatrixOutputs_hi_lo = {_decoded_orMatrixOutputs_T_2, _decoded_orMatrixOutputs_T_1}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_orMatrixOutputs_hi_hi_hi = {_decoded_orMatrixOutputs_T_6, _decoded_orMatrixOutputs_T_5}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_orMatrixOutputs_hi_hi = {decoded_orMatrixOutputs_hi_hi_hi, _decoded_orMatrixOutputs_T_4}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_orMatrixOutputs_hi = {decoded_orMatrixOutputs_hi_hi, decoded_orMatrixOutputs_hi_lo}; // @[pla.scala:102:36] wire [8:0] decoded_orMatrixOutputs = {decoded_orMatrixOutputs_hi, decoded_orMatrixOutputs_lo}; // @[pla.scala:102:36] wire _decoded_invMatrixOutputs_T = decoded_orMatrixOutputs[0]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_1 = decoded_orMatrixOutputs[1]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_2 = decoded_orMatrixOutputs[2]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_3 = decoded_orMatrixOutputs[3]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_4 = decoded_orMatrixOutputs[4]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_5 = decoded_orMatrixOutputs[5]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_6 = decoded_orMatrixOutputs[6]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_7 = decoded_orMatrixOutputs[7]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_8 = decoded_orMatrixOutputs[8]; // @[pla.scala:102:36, :124:31] wire [1:0] decoded_invMatrixOutputs_lo_lo = {_decoded_invMatrixOutputs_T_1, _decoded_invMatrixOutputs_T}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_invMatrixOutputs_lo_hi = {_decoded_invMatrixOutputs_T_3, _decoded_invMatrixOutputs_T_2}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_invMatrixOutputs_lo = {decoded_invMatrixOutputs_lo_hi, decoded_invMatrixOutputs_lo_lo}; // @[pla.scala:120:37] wire [1:0] decoded_invMatrixOutputs_hi_lo = {_decoded_invMatrixOutputs_T_5, _decoded_invMatrixOutputs_T_4}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_invMatrixOutputs_hi_hi_hi = {_decoded_invMatrixOutputs_T_8, _decoded_invMatrixOutputs_T_7}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_invMatrixOutputs_hi_hi = {decoded_invMatrixOutputs_hi_hi_hi, _decoded_invMatrixOutputs_T_6}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_invMatrixOutputs_hi = {decoded_invMatrixOutputs_hi_hi, decoded_invMatrixOutputs_hi_lo}; // @[pla.scala:120:37] assign decoded_invMatrixOutputs = {decoded_invMatrixOutputs_hi, decoded_invMatrixOutputs_lo}; // @[pla.scala:120:37] assign decoded = decoded_invMatrixOutputs; // @[pla.scala:81:23, :120:37] wire insn_call = system_insn & decoded[8]; // @[pla.scala:81:23] wire insn_break = system_insn & decoded[7]; // @[pla.scala:81:23] wire insn_ret = system_insn & decoded[6]; // @[pla.scala:81:23] wire insn_cease = system_insn & decoded[5]; // @[pla.scala:81:23] wire insn_wfi = system_insn & decoded[4]; // @[pla.scala:81:23] wire [11:0] addr = io_decode_0_inst_0[31:20]; // @[CSR.scala:377:7, :897:27] wire [11:0] io_decode_0_fp_csr_plaInput = addr; // @[pla.scala:77:22] wire [11:0] io_decode_0_vector_csr_plaInput = addr; // @[pla.scala:77:22] wire [11:0] io_decode_0_read_illegal_plaInput = addr; // @[pla.scala:77:22] wire [11:0] io_decode_0_read_illegal_plaInput_1 = addr; // @[pla.scala:77:22] wire [31:0] decoded_invInputs_1 = ~decoded_plaInput_1; // @[pla.scala:77:22, :78:21] wire [8:0] decoded_invMatrixOutputs_1; // @[pla.scala:120:37] wire [8:0] decoded_1; // @[pla.scala:81:23] wire decoded_andMatrixOutputs_andMatrixInput_0_7 = decoded_invInputs_1[20]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_7 = decoded_invInputs_1[21]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_8 = decoded_invInputs_1[21]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_6 = decoded_invInputs_1[22]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_7 = decoded_invInputs_1[22]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_9 = decoded_invInputs_1[22]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_6 = decoded_invInputs_1[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_7 = decoded_invInputs_1[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_8 = decoded_invInputs_1[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_10 = decoded_invInputs_1[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_12 = decoded_invInputs_1[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_6 = decoded_invInputs_1[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_7 = decoded_invInputs_1[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_8 = decoded_invInputs_1[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_9 = decoded_invInputs_1[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_11 = decoded_invInputs_1[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_6 = decoded_invInputs_1[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_7 = decoded_invInputs_1[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_8 = decoded_invInputs_1[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_9 = decoded_invInputs_1[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_11 = decoded_invInputs_1[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_6_6 = decoded_invInputs_1[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_6_7 = decoded_invInputs_1[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_8 = decoded_invInputs_1[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_9 = decoded_invInputs_1[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_11_5 = decoded_invInputs_1[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_11 = decoded_invInputs_1[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_7_6 = decoded_invInputs_1[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_7_7 = decoded_invInputs_1[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_6_8 = decoded_invInputs_1[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_9 = decoded_invInputs_1[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_12_1 = decoded_invInputs_1[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_11 = decoded_invInputs_1[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_6 = decoded_invInputs_1[28]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_7 = decoded_invInputs_1[28]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_6 = decoded_invInputs_1[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_7 = decoded_invInputs_1[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_7_9 = decoded_invInputs_1[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_14_1 = decoded_invInputs_1[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_10_3 = decoded_invInputs_1[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_10_4 = decoded_invInputs_1[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_8 = decoded_invInputs_1[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_9 = decoded_invInputs_1[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_15_1 = decoded_invInputs_1[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_11 = decoded_invInputs_1[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_11_3 = decoded_invInputs_1[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_11_4 = decoded_invInputs_1[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_8 = decoded_invInputs_1[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_9 = decoded_invInputs_1[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_16_1 = decoded_invInputs_1[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_11 = decoded_invInputs_1[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_13 = decoded_invInputs_1[31]; // @[pla.scala:78:21, :91:29] wire [1:0] decoded_andMatrixOutputs_lo_lo_hi_3 = {decoded_andMatrixOutputs_andMatrixInput_9_6, decoded_andMatrixOutputs_andMatrixInput_10_3}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_lo_6 = {decoded_andMatrixOutputs_lo_lo_hi_3, decoded_andMatrixOutputs_andMatrixInput_11_3}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_6 = {decoded_andMatrixOutputs_andMatrixInput_6_6, decoded_andMatrixOutputs_andMatrixInput_7_6}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_6 = {decoded_andMatrixOutputs_lo_hi_hi_6, decoded_andMatrixOutputs_andMatrixInput_8_6}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_lo_6 = {decoded_andMatrixOutputs_lo_hi_6, decoded_andMatrixOutputs_lo_lo_6}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_hi_3 = {decoded_andMatrixOutputs_andMatrixInput_3_6, decoded_andMatrixOutputs_andMatrixInput_4_6}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_lo_6 = {decoded_andMatrixOutputs_hi_lo_hi_3, decoded_andMatrixOutputs_andMatrixInput_5_6}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_6 = {decoded_andMatrixOutputs_andMatrixInput_0_7, decoded_andMatrixOutputs_andMatrixInput_1_7}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_6 = {decoded_andMatrixOutputs_hi_hi_hi_6, decoded_andMatrixOutputs_andMatrixInput_2_6}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_hi_6 = {decoded_andMatrixOutputs_hi_hi_6, decoded_andMatrixOutputs_hi_lo_6}; // @[pla.scala:98:53] wire [11:0] _decoded_andMatrixOutputs_T_7 = {decoded_andMatrixOutputs_hi_6, decoded_andMatrixOutputs_lo_6}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_6_2_1 = &_decoded_andMatrixOutputs_T_7; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_13 = decoded_andMatrixOutputs_6_2_1; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_0_8 = decoded_plaInput_1[20]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_hi_4 = {decoded_andMatrixOutputs_andMatrixInput_9_7, decoded_andMatrixOutputs_andMatrixInput_10_4}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_lo_7 = {decoded_andMatrixOutputs_lo_lo_hi_4, decoded_andMatrixOutputs_andMatrixInput_11_4}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_7 = {decoded_andMatrixOutputs_andMatrixInput_6_7, decoded_andMatrixOutputs_andMatrixInput_7_7}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_7 = {decoded_andMatrixOutputs_lo_hi_hi_7, decoded_andMatrixOutputs_andMatrixInput_8_7}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_lo_7 = {decoded_andMatrixOutputs_lo_hi_7, decoded_andMatrixOutputs_lo_lo_7}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_hi_4 = {decoded_andMatrixOutputs_andMatrixInput_3_7, decoded_andMatrixOutputs_andMatrixInput_4_7}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_lo_7 = {decoded_andMatrixOutputs_hi_lo_hi_4, decoded_andMatrixOutputs_andMatrixInput_5_7}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_7 = {decoded_andMatrixOutputs_andMatrixInput_0_8, decoded_andMatrixOutputs_andMatrixInput_1_8}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_7 = {decoded_andMatrixOutputs_hi_hi_hi_7, decoded_andMatrixOutputs_andMatrixInput_2_7}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_hi_7 = {decoded_andMatrixOutputs_hi_hi_7, decoded_andMatrixOutputs_hi_lo_7}; // @[pla.scala:98:53] wire [11:0] _decoded_andMatrixOutputs_T_8 = {decoded_andMatrixOutputs_hi_7, decoded_andMatrixOutputs_lo_7}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_4_2_1 = &_decoded_andMatrixOutputs_T_8; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_12 = decoded_andMatrixOutputs_4_2_1; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_0_9 = decoded_plaInput_1[0]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_0_11 = decoded_plaInput_1[0]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_7_8 = decoded_plaInput_1[28]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_6_9 = decoded_plaInput_1[28]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_13_1 = decoded_plaInput_1[28]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_6_11 = decoded_plaInput_1[28]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_8 = {decoded_andMatrixOutputs_andMatrixInput_8_8, decoded_andMatrixOutputs_andMatrixInput_9_8}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_8 = {decoded_andMatrixOutputs_andMatrixInput_5_8, decoded_andMatrixOutputs_andMatrixInput_6_8}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_8 = {decoded_andMatrixOutputs_lo_hi_hi_8, decoded_andMatrixOutputs_andMatrixInput_7_8}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_andMatrixOutputs_lo_8 = {decoded_andMatrixOutputs_lo_hi_8, decoded_andMatrixOutputs_lo_lo_8}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_8 = {decoded_andMatrixOutputs_andMatrixInput_3_8, decoded_andMatrixOutputs_andMatrixInput_4_8}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_8 = {decoded_andMatrixOutputs_andMatrixInput_0_9, decoded_andMatrixOutputs_andMatrixInput_1_9}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_8 = {decoded_andMatrixOutputs_hi_hi_hi_8, decoded_andMatrixOutputs_andMatrixInput_2_8}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_8 = {decoded_andMatrixOutputs_hi_hi_8, decoded_andMatrixOutputs_hi_lo_8}; // @[pla.scala:98:53] wire [9:0] _decoded_andMatrixOutputs_T_9 = {decoded_andMatrixOutputs_hi_8, decoded_andMatrixOutputs_lo_8}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_3_2_1 = &_decoded_andMatrixOutputs_T_9; // @[pla.scala:98:{53,70}] wire decoded_andMatrixOutputs_andMatrixInput_0_10 = decoded_plaInput_1[22]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_0_12 = decoded_plaInput_1[22]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_9 = {decoded_andMatrixOutputs_andMatrixInput_8_9, decoded_andMatrixOutputs_andMatrixInput_9_9}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_9 = {decoded_andMatrixOutputs_andMatrixInput_5_9, decoded_andMatrixOutputs_andMatrixInput_6_9}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_9 = {decoded_andMatrixOutputs_lo_hi_hi_9, decoded_andMatrixOutputs_andMatrixInput_7_9}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_lo_9 = {decoded_andMatrixOutputs_lo_hi_9, decoded_andMatrixOutputs_lo_lo_9}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_9 = {decoded_andMatrixOutputs_andMatrixInput_3_9, decoded_andMatrixOutputs_andMatrixInput_4_9}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_9 = {decoded_andMatrixOutputs_andMatrixInput_0_10, decoded_andMatrixOutputs_andMatrixInput_1_10}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_9 = {decoded_andMatrixOutputs_hi_hi_hi_9, decoded_andMatrixOutputs_andMatrixInput_2_9}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_9 = {decoded_andMatrixOutputs_hi_hi_9, decoded_andMatrixOutputs_hi_lo_9}; // @[pla.scala:98:53] wire [9:0] _decoded_andMatrixOutputs_T_10 = {decoded_andMatrixOutputs_hi_9, decoded_andMatrixOutputs_lo_9}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_1_2_1 = &_decoded_andMatrixOutputs_T_10; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_8 = decoded_andMatrixOutputs_1_2_1; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_1_11 = decoded_plaInput_1[1]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_2_10 = decoded_invInputs_1[2]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_10 = decoded_invInputs_1[3]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_10 = decoded_plaInput_1[4]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_5_10 = decoded_plaInput_1[5]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_6_10 = decoded_plaInput_1[6]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_7_10 = decoded_invInputs_1[7]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_10 = decoded_invInputs_1[8]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_10 = decoded_invInputs_1[9]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_10_5 = decoded_plaInput_1[25]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_lo_1 = {decoded_andMatrixOutputs_andMatrixInput_15_1, decoded_andMatrixOutputs_andMatrixInput_16_1}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_lo_hi_5 = {decoded_andMatrixOutputs_andMatrixInput_13_1, decoded_andMatrixOutputs_andMatrixInput_14_1}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] decoded_andMatrixOutputs_lo_lo_10 = {decoded_andMatrixOutputs_lo_lo_hi_5, decoded_andMatrixOutputs_lo_lo_lo_1}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_lo_1 = {decoded_andMatrixOutputs_andMatrixInput_11_5, decoded_andMatrixOutputs_andMatrixInput_12_1}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_10 = {decoded_andMatrixOutputs_andMatrixInput_9_10, decoded_andMatrixOutputs_andMatrixInput_10_5}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] decoded_andMatrixOutputs_lo_hi_10 = {decoded_andMatrixOutputs_lo_hi_hi_10, decoded_andMatrixOutputs_lo_hi_lo_1}; // @[pla.scala:98:53] wire [7:0] decoded_andMatrixOutputs_lo_10 = {decoded_andMatrixOutputs_lo_hi_10, decoded_andMatrixOutputs_lo_lo_10}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_lo_1 = {decoded_andMatrixOutputs_andMatrixInput_7_10, decoded_andMatrixOutputs_andMatrixInput_8_10}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_hi_5 = {decoded_andMatrixOutputs_andMatrixInput_5_10, decoded_andMatrixOutputs_andMatrixInput_6_10}; // @[pla.scala:90:45, :98:53] wire [3:0] decoded_andMatrixOutputs_hi_lo_10 = {decoded_andMatrixOutputs_hi_lo_hi_5, decoded_andMatrixOutputs_hi_lo_lo_1}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_lo_1 = {decoded_andMatrixOutputs_andMatrixInput_3_10, decoded_andMatrixOutputs_andMatrixInput_4_10}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_hi_1 = {decoded_andMatrixOutputs_andMatrixInput_0_11, decoded_andMatrixOutputs_andMatrixInput_1_11}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_hi_10 = {decoded_andMatrixOutputs_hi_hi_hi_hi_1, decoded_andMatrixOutputs_andMatrixInput_2_10}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_hi_10 = {decoded_andMatrixOutputs_hi_hi_hi_10, decoded_andMatrixOutputs_hi_hi_lo_1}; // @[pla.scala:98:53] wire [8:0] decoded_andMatrixOutputs_hi_10 = {decoded_andMatrixOutputs_hi_hi_10, decoded_andMatrixOutputs_hi_lo_10}; // @[pla.scala:98:53] wire [16:0] _decoded_andMatrixOutputs_T_11 = {decoded_andMatrixOutputs_hi_10, decoded_andMatrixOutputs_lo_10}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_0_2_1 = &_decoded_andMatrixOutputs_T_11; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_7 = decoded_andMatrixOutputs_0_2_1; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_7_11 = decoded_plaInput_1[29]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_11 = {decoded_andMatrixOutputs_andMatrixInput_8_11, decoded_andMatrixOutputs_andMatrixInput_9_11}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_11 = {decoded_andMatrixOutputs_andMatrixInput_5_11, decoded_andMatrixOutputs_andMatrixInput_6_11}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_11 = {decoded_andMatrixOutputs_lo_hi_hi_11, decoded_andMatrixOutputs_andMatrixInput_7_11}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_andMatrixOutputs_lo_11 = {decoded_andMatrixOutputs_lo_hi_11, decoded_andMatrixOutputs_lo_lo_11}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_11 = {decoded_andMatrixOutputs_andMatrixInput_3_11, decoded_andMatrixOutputs_andMatrixInput_4_11}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_11 = {decoded_andMatrixOutputs_andMatrixInput_0_12, decoded_andMatrixOutputs_andMatrixInput_1_12}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_11 = {decoded_andMatrixOutputs_hi_hi_hi_11, decoded_andMatrixOutputs_andMatrixInput_2_11}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_11 = {decoded_andMatrixOutputs_hi_hi_11, decoded_andMatrixOutputs_hi_lo_11}; // @[pla.scala:98:53] wire [9:0] _decoded_andMatrixOutputs_T_12 = {decoded_andMatrixOutputs_hi_11, decoded_andMatrixOutputs_lo_11}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_5_2_1 = &_decoded_andMatrixOutputs_T_12; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_9 = decoded_andMatrixOutputs_5_2_1; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_0_13 = decoded_plaInput_1[30]; // @[pla.scala:77:22, :90:45] wire [1:0] _decoded_andMatrixOutputs_T_13 = {decoded_andMatrixOutputs_andMatrixInput_0_13, decoded_andMatrixOutputs_andMatrixInput_1_13}; // @[pla.scala:90:45, :91:29, :98:53] wire decoded_andMatrixOutputs_2_2_1 = &_decoded_andMatrixOutputs_T_13; // @[pla.scala:98:{53,70}] wire [1:0] _decoded_orMatrixOutputs_T_10 = {decoded_andMatrixOutputs_3_2_1, decoded_andMatrixOutputs_2_2_1}; // @[pla.scala:98:70, :114:19] wire _decoded_orMatrixOutputs_T_11 = |_decoded_orMatrixOutputs_T_10; // @[pla.scala:114:{19,36}] wire [1:0] decoded_orMatrixOutputs_lo_hi_1 = {_decoded_orMatrixOutputs_T_7, 1'h0}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_orMatrixOutputs_lo_1 = {decoded_orMatrixOutputs_lo_hi_1, 2'h0}; // @[pla.scala:102:36] wire [1:0] decoded_orMatrixOutputs_hi_lo_1 = {_decoded_orMatrixOutputs_T_9, _decoded_orMatrixOutputs_T_8}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_orMatrixOutputs_hi_hi_hi_1 = {_decoded_orMatrixOutputs_T_13, _decoded_orMatrixOutputs_T_12}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_orMatrixOutputs_hi_hi_1 = {decoded_orMatrixOutputs_hi_hi_hi_1, _decoded_orMatrixOutputs_T_11}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_orMatrixOutputs_hi_1 = {decoded_orMatrixOutputs_hi_hi_1, decoded_orMatrixOutputs_hi_lo_1}; // @[pla.scala:102:36] wire [8:0] decoded_orMatrixOutputs_1 = {decoded_orMatrixOutputs_hi_1, decoded_orMatrixOutputs_lo_1}; // @[pla.scala:102:36] wire _decoded_invMatrixOutputs_T_9 = decoded_orMatrixOutputs_1[0]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_10 = decoded_orMatrixOutputs_1[1]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_11 = decoded_orMatrixOutputs_1[2]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_12 = decoded_orMatrixOutputs_1[3]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_13 = decoded_orMatrixOutputs_1[4]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_14 = decoded_orMatrixOutputs_1[5]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_15 = decoded_orMatrixOutputs_1[6]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_16 = decoded_orMatrixOutputs_1[7]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_17 = decoded_orMatrixOutputs_1[8]; // @[pla.scala:102:36, :124:31] wire [1:0] decoded_invMatrixOutputs_lo_lo_1 = {_decoded_invMatrixOutputs_T_10, _decoded_invMatrixOutputs_T_9}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_invMatrixOutputs_lo_hi_1 = {_decoded_invMatrixOutputs_T_12, _decoded_invMatrixOutputs_T_11}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_invMatrixOutputs_lo_1 = {decoded_invMatrixOutputs_lo_hi_1, decoded_invMatrixOutputs_lo_lo_1}; // @[pla.scala:120:37] wire [1:0] decoded_invMatrixOutputs_hi_lo_1 = {_decoded_invMatrixOutputs_T_14, _decoded_invMatrixOutputs_T_13}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_invMatrixOutputs_hi_hi_hi_1 = {_decoded_invMatrixOutputs_T_17, _decoded_invMatrixOutputs_T_16}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_invMatrixOutputs_hi_hi_1 = {decoded_invMatrixOutputs_hi_hi_hi_1, _decoded_invMatrixOutputs_T_15}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_invMatrixOutputs_hi_1 = {decoded_invMatrixOutputs_hi_hi_1, decoded_invMatrixOutputs_hi_lo_1}; // @[pla.scala:120:37] assign decoded_invMatrixOutputs_1 = {decoded_invMatrixOutputs_hi_1, decoded_invMatrixOutputs_lo_1}; // @[pla.scala:120:37] assign decoded_1 = decoded_invMatrixOutputs_1; // @[pla.scala:81:23, :120:37] wire is_break = decoded_1[7]; // @[pla.scala:81:23] wire is_ret = decoded_1[6]; // @[pla.scala:81:23] wire is_wfi = decoded_1[4]; // @[pla.scala:81:23] wire is_sfence = decoded_1[3]; // @[pla.scala:81:23] wire is_hfence_vvma = decoded_1[2]; // @[pla.scala:81:23] wire is_hfence_gvma = decoded_1[1]; // @[pla.scala:81:23] wire is_hlsv = decoded_1[0]; // @[pla.scala:81:23] wire _is_counter_T = addr > 12'hBFF; // @[package.scala:213:47] wire _is_counter_T_1 = addr < 12'hC20; // @[package.scala:213:60] wire _is_counter_T_2 = _is_counter_T & _is_counter_T_1; // @[package.scala:213:{47,55,60}] wire _is_counter_T_3 = addr > 12'hC7F; // @[package.scala:213:47] wire _is_counter_T_4 = addr < 12'hCA0; // @[package.scala:213:60] wire _is_counter_T_5 = _is_counter_T_3 & _is_counter_T_4; // @[package.scala:213:{47,55,60}] wire is_counter = _is_counter_T_2 | _is_counter_T_5; // @[package.scala:213:55] wire _allow_wfi_T_1 = _allow_wfi_T; // @[CSR.scala:906:{42,61}] wire _allow_wfi_T_2 = ~reg_mstatus_tw; // @[CSR.scala:395:28, :906:74] wire _allow_wfi_T_6 = _allow_wfi_T_2; // @[CSR.scala:906:{74,90}] wire _allow_wfi_T_3 = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94] wire allow_wfi = _allow_wfi_T_1 | _allow_wfi_T_6; // @[CSR.scala:906:{42,71,90}] wire _allow_sfence_vma_T_1 = _allow_sfence_vma_T; // @[CSR.scala:907:{41,60}] wire _GEN_4 = ~reg_mstatus_v & reg_mstatus_tvm; // @[CSR.scala:395:28, :907:77] wire _allow_sfence_vma_T_2; // @[CSR.scala:907:77] assign _allow_sfence_vma_T_2 = _GEN_4; // @[CSR.scala:907:77] wire _allow_sfence_vma_T_6; // @[CSR.scala:907:77] assign _allow_sfence_vma_T_6 = _GEN_4; // @[CSR.scala:907:77] wire _allow_sfence_vma_T_10; // @[CSR.scala:907:77] assign _allow_sfence_vma_T_10 = _GEN_4; // @[CSR.scala:907:77] wire _allow_sfence_vma_T_3 = ~_allow_sfence_vma_T_2; // @[CSR.scala:907:{73,77}] wire allow_sfence_vma = _allow_sfence_vma_T_1 | _allow_sfence_vma_T_3; // @[CSR.scala:907:{41,70,73}] wire _allow_hfence_vvma_T = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94, :908:53] wire _allow_hfence_vvma_T_1 = |reg_mstatus_prv; // @[CSR.scala:395:28, :908:88] wire _allow_hfence_vvma_T_2 = _allow_hfence_vvma_T & _allow_hfence_vvma_T_1; // @[CSR.scala:908:{53,68,88}] wire _allow_hlsv_T = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94, :909:46] wire _allow_hlsv_T_1 = |reg_mstatus_prv; // @[CSR.scala:395:28, :908:88, :909:81] wire _allow_hlsv_T_2 = _allow_hlsv_T_1; // @[CSR.scala:909:{81,92}] wire _allow_hlsv_T_3 = _allow_hlsv_T & _allow_hlsv_T_2; // @[CSR.scala:909:{46,61,92}] wire _allow_sret_T_1 = _allow_sret_T; // @[CSR.scala:910:{43,62}] wire _GEN_5 = ~reg_mstatus_v & reg_mstatus_tsr; // @[CSR.scala:395:28, :907:77, :910:79] wire _allow_sret_T_2; // @[CSR.scala:910:79] assign _allow_sret_T_2 = _GEN_5; // @[CSR.scala:910:79] wire _allow_sret_T_6; // @[CSR.scala:910:79] assign _allow_sret_T_6 = _GEN_5; // @[CSR.scala:910:79] wire _allow_sret_T_10; // @[CSR.scala:910:79] assign _allow_sret_T_10 = _GEN_5; // @[CSR.scala:910:79] wire _allow_sret_T_3 = ~_allow_sret_T_2; // @[CSR.scala:910:{75,79}] wire allow_sret = _allow_sret_T_1 | _allow_sret_T_3; // @[CSR.scala:910:{43,72,75}] wire [4:0] counter_addr = addr[4:0]; // @[CSR.scala:897:27, :911:28] wire [31:0] _GEN_6 = {27'h0, counter_addr}; // @[CSR.scala:911:28, :912:70] wire [31:0] _GEN_7 = read_mcounteren >> _GEN_6; // @[CSR.scala:532:14, :912:70] wire [31:0] _allow_counter_T_1; // @[CSR.scala:912:70] assign _allow_counter_T_1 = _GEN_7; // @[CSR.scala:912:70] wire [31:0] _io_decode_0_virtual_access_illegal_T_3; // @[CSR.scala:945:36] assign _io_decode_0_virtual_access_illegal_T_3 = _GEN_7; // @[CSR.scala:912:70, :945:36] wire _allow_counter_T_2 = _allow_counter_T_1[0]; // @[CSR.scala:912:70] wire _allow_counter_T_3 = _allow_counter_T | _allow_counter_T_2; // @[CSR.scala:912:{42,52,70}] wire _allow_counter_T_5 = |reg_mstatus_prv; // @[CSR.scala:395:28, :908:88, :913:46] wire _allow_counter_T_6 = _allow_counter_T_5; // @[CSR.scala:913:{27,46}] wire [31:0] _GEN_8 = read_scounteren >> _GEN_6; // @[CSR.scala:536:14, :912:70, :913:75] wire [31:0] _allow_counter_T_7; // @[CSR.scala:913:75] assign _allow_counter_T_7 = _GEN_8; // @[CSR.scala:913:75] wire [31:0] _io_decode_0_virtual_access_illegal_T_11; // @[CSR.scala:945:128] assign _io_decode_0_virtual_access_illegal_T_11 = _GEN_8; // @[CSR.scala:913:75, :945:128] wire _allow_counter_T_8 = _allow_counter_T_7[0]; // @[CSR.scala:913:75] wire _allow_counter_T_9 = _allow_counter_T_6 | _allow_counter_T_8; // @[CSR.scala:913:{27,57,75}] wire _allow_counter_T_10 = _allow_counter_T_3 & _allow_counter_T_9; // @[CSR.scala:912:{52,86}, :913:57] wire allow_counter = _allow_counter_T_10; // @[CSR.scala:912:86, :913:91] wire _allow_counter_T_12 = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94, :914:30] wire [31:0] _GEN_9 = 32'h0 >> _GEN_6; // @[CSR.scala:912:70, :914:63] wire [31:0] _allow_counter_T_14; // @[CSR.scala:914:63] assign _allow_counter_T_14 = _GEN_9; // @[CSR.scala:914:63] wire [31:0] _io_decode_0_virtual_access_illegal_T_6; // @[CSR.scala:945:71] assign _io_decode_0_virtual_access_illegal_T_6 = _GEN_9; // @[CSR.scala:914:63, :945:71] wire _allow_counter_T_15 = _allow_counter_T_14[0]; // @[CSR.scala:914:63] wire _GEN_10 = io_status_fs_0 == 2'h0; // @[CSR.scala:377:7, :915:39] wire _io_decode_0_fp_illegal_T; // @[CSR.scala:915:39] assign _io_decode_0_fp_illegal_T = _GEN_10; // @[CSR.scala:915:39] wire _io_decode_1_fp_illegal_T; // @[CSR.scala:915:39] assign _io_decode_1_fp_illegal_T = _GEN_10; // @[CSR.scala:915:39] wire _io_decode_2_fp_illegal_T; // @[CSR.scala:915:39] assign _io_decode_2_fp_illegal_T = _GEN_10; // @[CSR.scala:915:39] wire _io_decode_0_fp_illegal_T_3 = _io_decode_0_fp_illegal_T; // @[CSR.scala:915:{39,47}] assign _io_decode_0_fp_illegal_T_6 = _io_decode_0_fp_illegal_T_3; // @[CSR.scala:915:{47,91}] assign io_decode_0_fp_illegal_0 = _io_decode_0_fp_illegal_T_6; // @[CSR.scala:377:7, :915:91] wire _io_decode_0_vector_illegal_T_2 = reg_mstatus_v & _io_decode_0_vector_illegal_T_1; // @[CSR.scala:395:28, :916:{68,87}] wire [11:0] io_decode_0_fp_csr_invInputs = ~io_decode_0_fp_csr_plaInput; // @[pla.scala:77:22, :78:21] wire io_decode_0_fp_csr_invMatrixOutputs; // @[pla.scala:124:31] wire io_decode_0_fp_csr_plaOutput; // @[pla.scala:81:23] assign _io_decode_0_fp_csr_T = io_decode_0_fp_csr_plaOutput; // @[pla.scala:81:23] wire io_decode_0_fp_csr_andMatrixOutputs_andMatrixInput_0 = io_decode_0_fp_csr_invInputs[8]; // @[pla.scala:78:21, :91:29] wire io_decode_0_fp_csr_andMatrixOutputs_andMatrixInput_1 = io_decode_0_fp_csr_invInputs[9]; // @[pla.scala:78:21, :91:29] wire io_decode_0_fp_csr_andMatrixOutputs_andMatrixInput_2 = io_decode_0_fp_csr_invInputs[10]; // @[pla.scala:78:21, :91:29] wire io_decode_0_fp_csr_andMatrixOutputs_andMatrixInput_3 = io_decode_0_fp_csr_invInputs[11]; // @[pla.scala:78:21, :91:29] wire [1:0] io_decode_0_fp_csr_andMatrixOutputs_lo = {io_decode_0_fp_csr_andMatrixOutputs_andMatrixInput_2, io_decode_0_fp_csr_andMatrixOutputs_andMatrixInput_3}; // @[pla.scala:91:29, :98:53] wire [1:0] io_decode_0_fp_csr_andMatrixOutputs_hi = {io_decode_0_fp_csr_andMatrixOutputs_andMatrixInput_0, io_decode_0_fp_csr_andMatrixOutputs_andMatrixInput_1}; // @[pla.scala:91:29, :98:53] wire [3:0] _io_decode_0_fp_csr_andMatrixOutputs_T = {io_decode_0_fp_csr_andMatrixOutputs_hi, io_decode_0_fp_csr_andMatrixOutputs_lo}; // @[pla.scala:98:53] wire io_decode_0_fp_csr_andMatrixOutputs_0_2 = &_io_decode_0_fp_csr_andMatrixOutputs_T; // @[pla.scala:98:{53,70}] wire io_decode_0_fp_csr_orMatrixOutputs = io_decode_0_fp_csr_andMatrixOutputs_0_2; // @[pla.scala:98:70, :114:36] assign io_decode_0_fp_csr_invMatrixOutputs = io_decode_0_fp_csr_orMatrixOutputs; // @[pla.scala:114:36, :124:31] assign io_decode_0_fp_csr_plaOutput = io_decode_0_fp_csr_invMatrixOutputs; // @[pla.scala:81:23, :124:31] assign io_decode_0_fp_csr_0 = _io_decode_0_fp_csr_T; // @[Decode.scala:55:116] wire [11:0] io_decode_0_vector_csr_invInputs = ~io_decode_0_vector_csr_plaInput; // @[pla.scala:77:22, :78:21] wire [1:0] _csr_addr_legal_T = addr[9:8]; // @[CSR.scala:190:36, :897:27] wire [1:0] _csr_addr_legal_T_6 = addr[9:8]; // @[CSR.scala:190:36, :897:27] wire [1:0] _io_decode_0_virtual_access_illegal_T_1 = addr[9:8]; // @[CSR.scala:190:36, :897:27] wire [1:0] _io_decode_0_virtual_access_illegal_T_18 = addr[9:8]; // @[CSR.scala:190:36, :897:27] wire [1:0] _io_decode_0_virtual_system_illegal_T_9 = addr[9:8]; // @[CSR.scala:190:36, :897:27] wire _csr_addr_legal_T_1 = reg_mstatus_prv >= _csr_addr_legal_T; // @[CSR.scala:190:36, :395:28, :920:42] wire csr_addr_legal = _csr_addr_legal_T_1; // @[CSR.scala:920:{42,60}] wire _csr_addr_legal_T_2 = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94, :921:28] wire _csr_addr_legal_T_7 = _csr_addr_legal_T_6 == 2'h2; // @[CSR.scala:190:36, :921:92] wire _csr_exists_T = addr == 12'h7A0; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_1 = addr == 12'h7A1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_2 = addr == 12'h7A2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_3 = addr == 12'h7A3; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_4 = addr == 12'h301; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_5 = addr == 12'h300; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_6 = addr == 12'h305; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_7 = addr == 12'h344; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_8 = addr == 12'h304; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_9 = addr == 12'h340; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_10 = addr == 12'h341; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_11 = addr == 12'h343; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_12 = addr == 12'h342; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_13 = addr == 12'hF14; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_14 = addr == 12'h7B0; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_15 = addr == 12'h7B1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_16 = addr == 12'h7B2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_17 = addr == 12'h1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_18 = addr == 12'h2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_19 = addr == 12'h3; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_20 = addr == 12'h320; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_21 = addr == 12'hB00; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_22 = addr == 12'hB02; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_23 = addr == 12'h323; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_24 = addr == 12'hB03; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_25 = addr == 12'hC03; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_26 = addr == 12'h324; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_27 = addr == 12'hB04; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_28 = addr == 12'hC04; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_29 = addr == 12'h325; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_30 = addr == 12'hB05; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_31 = addr == 12'hC05; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_32 = addr == 12'h326; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_33 = addr == 12'hB06; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_34 = addr == 12'hC06; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_35 = addr == 12'h327; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_36 = addr == 12'hB07; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_37 = addr == 12'hC07; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_38 = addr == 12'h328; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_39 = addr == 12'hB08; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_40 = addr == 12'hC08; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_41 = addr == 12'h329; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_42 = addr == 12'hB09; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_43 = addr == 12'hC09; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_44 = addr == 12'h32A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_45 = addr == 12'hB0A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_46 = addr == 12'hC0A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_47 = addr == 12'h32B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_48 = addr == 12'hB0B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_49 = addr == 12'hC0B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_50 = addr == 12'h32C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_51 = addr == 12'hB0C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_52 = addr == 12'hC0C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_53 = addr == 12'h32D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_54 = addr == 12'hB0D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_55 = addr == 12'hC0D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_56 = addr == 12'h32E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_57 = addr == 12'hB0E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_58 = addr == 12'hC0E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_59 = addr == 12'h32F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_60 = addr == 12'hB0F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_61 = addr == 12'hC0F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_62 = addr == 12'h330; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_63 = addr == 12'hB10; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_64 = addr == 12'hC10; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_65 = addr == 12'h331; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_66 = addr == 12'hB11; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_67 = addr == 12'hC11; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_68 = addr == 12'h332; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_69 = addr == 12'hB12; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_70 = addr == 12'hC12; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_71 = addr == 12'h333; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_72 = addr == 12'hB13; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_73 = addr == 12'hC13; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_74 = addr == 12'h334; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_75 = addr == 12'hB14; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_76 = addr == 12'hC14; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_77 = addr == 12'h335; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_78 = addr == 12'hB15; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_79 = addr == 12'hC15; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_80 = addr == 12'h336; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_81 = addr == 12'hB16; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_82 = addr == 12'hC16; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_83 = addr == 12'h337; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_84 = addr == 12'hB17; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_85 = addr == 12'hC17; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_86 = addr == 12'h338; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_87 = addr == 12'hB18; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_88 = addr == 12'hC18; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_89 = addr == 12'h339; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_90 = addr == 12'hB19; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_91 = addr == 12'hC19; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_92 = addr == 12'h33A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_93 = addr == 12'hB1A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_94 = addr == 12'hC1A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_95 = addr == 12'h33B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_96 = addr == 12'hB1B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_97 = addr == 12'hC1B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_98 = addr == 12'h33C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_99 = addr == 12'hB1C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_100 = addr == 12'hC1C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_101 = addr == 12'h33D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_102 = addr == 12'hB1D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_103 = addr == 12'hC1D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_104 = addr == 12'h33E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_105 = addr == 12'hB1E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_106 = addr == 12'hC1E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_107 = addr == 12'h33F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_108 = addr == 12'hB1F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_109 = addr == 12'hC1F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_110 = addr == 12'h306; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_111 = addr == 12'hC00; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_112 = addr == 12'hC02; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_113 = addr == 12'h30A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_114 = addr == 12'h100; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_115 = addr == 12'h144; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_116 = addr == 12'h104; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_117 = addr == 12'h140; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_118 = addr == 12'h142; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_119 = addr == 12'h143; // @[CSR.scala:897:27, :899:93] wire _GEN_11 = addr == 12'h180; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_120; // @[CSR.scala:899:93] assign _csr_exists_T_120 = _GEN_11; // @[CSR.scala:899:93] wire _io_decode_0_read_illegal_T_3; // @[CSR.scala:925:14] assign _io_decode_0_read_illegal_T_3 = _GEN_11; // @[CSR.scala:899:93, :925:14] wire _io_decode_0_virtual_access_illegal_T_24; // @[CSR.scala:947:12] assign _io_decode_0_virtual_access_illegal_T_24 = _GEN_11; // @[CSR.scala:899:93, :947:12] wire _csr_exists_T_121 = addr == 12'h141; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_122 = addr == 12'h105; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_123 = addr == 12'h106; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_124 = addr == 12'h303; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_125 = addr == 12'h302; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_126 = addr == 12'h10A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_127 = addr == 12'h3A0; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_128 = addr == 12'h3A2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_129 = addr == 12'h3B0; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_130 = addr == 12'h3B1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_131 = addr == 12'h3B2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_132 = addr == 12'h3B3; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_133 = addr == 12'h3B4; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_134 = addr == 12'h3B5; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_135 = addr == 12'h3B6; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_136 = addr == 12'h3B7; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_137 = addr == 12'h3B8; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_138 = addr == 12'h3B9; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_139 = addr == 12'h3BA; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_140 = addr == 12'h3BB; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_141 = addr == 12'h3BC; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_142 = addr == 12'h3BD; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_143 = addr == 12'h3BE; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_144 = addr == 12'h3BF; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_145 = addr == 12'h7C1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_146 = addr == 12'hF12; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_147 = addr == 12'hF13; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_148 = addr == 12'hF11; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_149 = addr == 12'hF15; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_150 = _csr_exists_T | _csr_exists_T_1; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_151 = _csr_exists_T_150 | _csr_exists_T_2; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_152 = _csr_exists_T_151 | _csr_exists_T_3; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_153 = _csr_exists_T_152 | _csr_exists_T_4; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_154 = _csr_exists_T_153 | _csr_exists_T_5; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_155 = _csr_exists_T_154 | _csr_exists_T_6; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_156 = _csr_exists_T_155 | _csr_exists_T_7; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_157 = _csr_exists_T_156 | _csr_exists_T_8; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_158 = _csr_exists_T_157 | _csr_exists_T_9; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_159 = _csr_exists_T_158 | _csr_exists_T_10; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_160 = _csr_exists_T_159 | _csr_exists_T_11; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_161 = _csr_exists_T_160 | _csr_exists_T_12; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_162 = _csr_exists_T_161 | _csr_exists_T_13; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_163 = _csr_exists_T_162 | _csr_exists_T_14; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_164 = _csr_exists_T_163 | _csr_exists_T_15; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_165 = _csr_exists_T_164 | _csr_exists_T_16; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_166 = _csr_exists_T_165 | _csr_exists_T_17; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_167 = _csr_exists_T_166 | _csr_exists_T_18; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_168 = _csr_exists_T_167 | _csr_exists_T_19; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_169 = _csr_exists_T_168 | _csr_exists_T_20; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_170 = _csr_exists_T_169 | _csr_exists_T_21; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_171 = _csr_exists_T_170 | _csr_exists_T_22; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_172 = _csr_exists_T_171 | _csr_exists_T_23; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_173 = _csr_exists_T_172 | _csr_exists_T_24; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_174 = _csr_exists_T_173 | _csr_exists_T_25; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_175 = _csr_exists_T_174 | _csr_exists_T_26; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_176 = _csr_exists_T_175 | _csr_exists_T_27; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_177 = _csr_exists_T_176 | _csr_exists_T_28; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_178 = _csr_exists_T_177 | _csr_exists_T_29; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_179 = _csr_exists_T_178 | _csr_exists_T_30; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_180 = _csr_exists_T_179 | _csr_exists_T_31; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_181 = _csr_exists_T_180 | _csr_exists_T_32; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_182 = _csr_exists_T_181 | _csr_exists_T_33; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_183 = _csr_exists_T_182 | _csr_exists_T_34; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_184 = _csr_exists_T_183 | _csr_exists_T_35; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_185 = _csr_exists_T_184 | _csr_exists_T_36; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_186 = _csr_exists_T_185 | _csr_exists_T_37; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_187 = _csr_exists_T_186 | _csr_exists_T_38; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_188 = _csr_exists_T_187 | _csr_exists_T_39; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_189 = _csr_exists_T_188 | _csr_exists_T_40; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_190 = _csr_exists_T_189 | _csr_exists_T_41; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_191 = _csr_exists_T_190 | _csr_exists_T_42; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_192 = _csr_exists_T_191 | _csr_exists_T_43; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_193 = _csr_exists_T_192 | _csr_exists_T_44; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_194 = _csr_exists_T_193 | _csr_exists_T_45; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_195 = _csr_exists_T_194 | _csr_exists_T_46; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_196 = _csr_exists_T_195 | _csr_exists_T_47; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_197 = _csr_exists_T_196 | _csr_exists_T_48; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_198 = _csr_exists_T_197 | _csr_exists_T_49; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_199 = _csr_exists_T_198 | _csr_exists_T_50; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_200 = _csr_exists_T_199 | _csr_exists_T_51; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_201 = _csr_exists_T_200 | _csr_exists_T_52; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_202 = _csr_exists_T_201 | _csr_exists_T_53; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_203 = _csr_exists_T_202 | _csr_exists_T_54; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_204 = _csr_exists_T_203 | _csr_exists_T_55; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_205 = _csr_exists_T_204 | _csr_exists_T_56; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_206 = _csr_exists_T_205 | _csr_exists_T_57; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_207 = _csr_exists_T_206 | _csr_exists_T_58; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_208 = _csr_exists_T_207 | _csr_exists_T_59; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_209 = _csr_exists_T_208 | _csr_exists_T_60; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_210 = _csr_exists_T_209 | _csr_exists_T_61; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_211 = _csr_exists_T_210 | _csr_exists_T_62; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_212 = _csr_exists_T_211 | _csr_exists_T_63; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_213 = _csr_exists_T_212 | _csr_exists_T_64; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_214 = _csr_exists_T_213 | _csr_exists_T_65; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_215 = _csr_exists_T_214 | _csr_exists_T_66; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_216 = _csr_exists_T_215 | _csr_exists_T_67; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_217 = _csr_exists_T_216 | _csr_exists_T_68; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_218 = _csr_exists_T_217 | _csr_exists_T_69; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_219 = _csr_exists_T_218 | _csr_exists_T_70; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_220 = _csr_exists_T_219 | _csr_exists_T_71; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_221 = _csr_exists_T_220 | _csr_exists_T_72; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_222 = _csr_exists_T_221 | _csr_exists_T_73; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_223 = _csr_exists_T_222 | _csr_exists_T_74; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_224 = _csr_exists_T_223 | _csr_exists_T_75; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_225 = _csr_exists_T_224 | _csr_exists_T_76; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_226 = _csr_exists_T_225 | _csr_exists_T_77; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_227 = _csr_exists_T_226 | _csr_exists_T_78; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_228 = _csr_exists_T_227 | _csr_exists_T_79; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_229 = _csr_exists_T_228 | _csr_exists_T_80; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_230 = _csr_exists_T_229 | _csr_exists_T_81; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_231 = _csr_exists_T_230 | _csr_exists_T_82; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_232 = _csr_exists_T_231 | _csr_exists_T_83; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_233 = _csr_exists_T_232 | _csr_exists_T_84; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_234 = _csr_exists_T_233 | _csr_exists_T_85; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_235 = _csr_exists_T_234 | _csr_exists_T_86; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_236 = _csr_exists_T_235 | _csr_exists_T_87; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_237 = _csr_exists_T_236 | _csr_exists_T_88; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_238 = _csr_exists_T_237 | _csr_exists_T_89; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_239 = _csr_exists_T_238 | _csr_exists_T_90; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_240 = _csr_exists_T_239 | _csr_exists_T_91; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_241 = _csr_exists_T_240 | _csr_exists_T_92; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_242 = _csr_exists_T_241 | _csr_exists_T_93; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_243 = _csr_exists_T_242 | _csr_exists_T_94; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_244 = _csr_exists_T_243 | _csr_exists_T_95; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_245 = _csr_exists_T_244 | _csr_exists_T_96; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_246 = _csr_exists_T_245 | _csr_exists_T_97; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_247 = _csr_exists_T_246 | _csr_exists_T_98; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_248 = _csr_exists_T_247 | _csr_exists_T_99; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_249 = _csr_exists_T_248 | _csr_exists_T_100; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_250 = _csr_exists_T_249 | _csr_exists_T_101; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_251 = _csr_exists_T_250 | _csr_exists_T_102; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_252 = _csr_exists_T_251 | _csr_exists_T_103; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_253 = _csr_exists_T_252 | _csr_exists_T_104; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_254 = _csr_exists_T_253 | _csr_exists_T_105; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_255 = _csr_exists_T_254 | _csr_exists_T_106; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_256 = _csr_exists_T_255 | _csr_exists_T_107; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_257 = _csr_exists_T_256 | _csr_exists_T_108; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_258 = _csr_exists_T_257 | _csr_exists_T_109; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_259 = _csr_exists_T_258 | _csr_exists_T_110; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_260 = _csr_exists_T_259 | _csr_exists_T_111; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_261 = _csr_exists_T_260 | _csr_exists_T_112; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_262 = _csr_exists_T_261 | _csr_exists_T_113; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_263 = _csr_exists_T_262 | _csr_exists_T_114; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_264 = _csr_exists_T_263 | _csr_exists_T_115; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_265 = _csr_exists_T_264 | _csr_exists_T_116; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_266 = _csr_exists_T_265 | _csr_exists_T_117; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_267 = _csr_exists_T_266 | _csr_exists_T_118; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_268 = _csr_exists_T_267 | _csr_exists_T_119; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_269 = _csr_exists_T_268 | _csr_exists_T_120; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_270 = _csr_exists_T_269 | _csr_exists_T_121; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_271 = _csr_exists_T_270 | _csr_exists_T_122; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_272 = _csr_exists_T_271 | _csr_exists_T_123; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_273 = _csr_exists_T_272 | _csr_exists_T_124; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_274 = _csr_exists_T_273 | _csr_exists_T_125; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_275 = _csr_exists_T_274 | _csr_exists_T_126; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_276 = _csr_exists_T_275 | _csr_exists_T_127; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_277 = _csr_exists_T_276 | _csr_exists_T_128; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_278 = _csr_exists_T_277 | _csr_exists_T_129; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_279 = _csr_exists_T_278 | _csr_exists_T_130; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_280 = _csr_exists_T_279 | _csr_exists_T_131; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_281 = _csr_exists_T_280 | _csr_exists_T_132; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_282 = _csr_exists_T_281 | _csr_exists_T_133; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_283 = _csr_exists_T_282 | _csr_exists_T_134; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_284 = _csr_exists_T_283 | _csr_exists_T_135; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_285 = _csr_exists_T_284 | _csr_exists_T_136; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_286 = _csr_exists_T_285 | _csr_exists_T_137; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_287 = _csr_exists_T_286 | _csr_exists_T_138; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_288 = _csr_exists_T_287 | _csr_exists_T_139; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_289 = _csr_exists_T_288 | _csr_exists_T_140; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_290 = _csr_exists_T_289 | _csr_exists_T_141; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_291 = _csr_exists_T_290 | _csr_exists_T_142; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_292 = _csr_exists_T_291 | _csr_exists_T_143; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_293 = _csr_exists_T_292 | _csr_exists_T_144; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_294 = _csr_exists_T_293 | _csr_exists_T_145; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_295 = _csr_exists_T_294 | _csr_exists_T_146; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_296 = _csr_exists_T_295 | _csr_exists_T_147; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_297 = _csr_exists_T_296 | _csr_exists_T_148; // @[CSR.scala:899:{93,111}] wire csr_exists = _csr_exists_T_297 | _csr_exists_T_149; // @[CSR.scala:899:{93,111}] wire _io_decode_0_read_illegal_T = ~csr_addr_legal; // @[CSR.scala:920:60, :923:28] wire _io_decode_0_read_illegal_T_1 = ~csr_exists; // @[CSR.scala:899:111, :924:7] wire _io_decode_0_read_illegal_T_2 = _io_decode_0_read_illegal_T | _io_decode_0_read_illegal_T_1; // @[CSR.scala:923:{28,44}, :924:7] wire _io_decode_0_read_illegal_T_4 = addr == 12'h680; // @[CSR.scala:897:27, :925:38] wire _io_decode_0_read_illegal_T_5 = _io_decode_0_read_illegal_T_3 | _io_decode_0_read_illegal_T_4; // @[CSR.scala:925:{14,30,38}] wire _io_decode_0_read_illegal_T_6 = ~allow_sfence_vma; // @[CSR.scala:907:70, :925:59] wire _io_decode_0_read_illegal_T_7 = _io_decode_0_read_illegal_T_5 & _io_decode_0_read_illegal_T_6; // @[CSR.scala:925:{30,56,59}] wire _io_decode_0_read_illegal_T_8 = _io_decode_0_read_illegal_T_2 | _io_decode_0_read_illegal_T_7; // @[CSR.scala:923:44, :924:19, :925:56] wire _io_decode_0_read_illegal_T_9 = ~allow_counter; // @[CSR.scala:913:91, :926:21] wire _io_decode_0_read_illegal_T_10 = is_counter & _io_decode_0_read_illegal_T_9; // @[CSR.scala:904:81, :926:{18,21}] wire _io_decode_0_read_illegal_T_11 = _io_decode_0_read_illegal_T_8 | _io_decode_0_read_illegal_T_10; // @[CSR.scala:924:19, :925:78, :926:18] wire [11:0] io_decode_0_read_illegal_invInputs = ~io_decode_0_read_illegal_plaInput; // @[pla.scala:77:22, :78:21] wire io_decode_0_read_illegal_invMatrixOutputs; // @[pla.scala:124:31] wire io_decode_0_read_illegal_plaOutput; // @[pla.scala:81:23] wire _io_decode_0_read_illegal_T_12 = io_decode_0_read_illegal_plaOutput; // @[pla.scala:81:23] wire io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_0 = io_decode_0_read_illegal_plaInput[4]; // @[pla.scala:77:22, :90:45] wire io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_1 = io_decode_0_read_illegal_plaInput[5]; // @[pla.scala:77:22, :90:45] wire io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_2 = io_decode_0_read_illegal_invInputs[6]; // @[pla.scala:78:21, :91:29] wire io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_3 = io_decode_0_read_illegal_plaInput[7]; // @[pla.scala:77:22, :90:45] wire io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_4 = io_decode_0_read_illegal_plaInput[8]; // @[pla.scala:77:22, :90:45] wire io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_5 = io_decode_0_read_illegal_plaInput[9]; // @[pla.scala:77:22, :90:45] wire io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_6 = io_decode_0_read_illegal_plaInput[10]; // @[pla.scala:77:22, :90:45] wire io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_7 = io_decode_0_read_illegal_invInputs[11]; // @[pla.scala:78:21, :91:29] wire [1:0] io_decode_0_read_illegal_andMatrixOutputs_lo_lo = {io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_6, io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_7}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] io_decode_0_read_illegal_andMatrixOutputs_lo_hi = {io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_4, io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_5}; // @[pla.scala:90:45, :98:53] wire [3:0] io_decode_0_read_illegal_andMatrixOutputs_lo = {io_decode_0_read_illegal_andMatrixOutputs_lo_hi, io_decode_0_read_illegal_andMatrixOutputs_lo_lo}; // @[pla.scala:98:53] wire [1:0] io_decode_0_read_illegal_andMatrixOutputs_hi_lo = {io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_2, io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_3}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] io_decode_0_read_illegal_andMatrixOutputs_hi_hi = {io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_0, io_decode_0_read_illegal_andMatrixOutputs_andMatrixInput_1}; // @[pla.scala:90:45, :98:53] wire [3:0] io_decode_0_read_illegal_andMatrixOutputs_hi = {io_decode_0_read_illegal_andMatrixOutputs_hi_hi, io_decode_0_read_illegal_andMatrixOutputs_hi_lo}; // @[pla.scala:98:53] wire [7:0] _io_decode_0_read_illegal_andMatrixOutputs_T = {io_decode_0_read_illegal_andMatrixOutputs_hi, io_decode_0_read_illegal_andMatrixOutputs_lo}; // @[pla.scala:98:53] wire io_decode_0_read_illegal_andMatrixOutputs_0_2 = &_io_decode_0_read_illegal_andMatrixOutputs_T; // @[pla.scala:98:{53,70}] wire io_decode_0_read_illegal_orMatrixOutputs = io_decode_0_read_illegal_andMatrixOutputs_0_2; // @[pla.scala:98:70, :114:36] assign io_decode_0_read_illegal_invMatrixOutputs = io_decode_0_read_illegal_orMatrixOutputs; // @[pla.scala:114:36, :124:31] assign io_decode_0_read_illegal_plaOutput = io_decode_0_read_illegal_invMatrixOutputs; // @[pla.scala:81:23, :124:31] wire _io_decode_0_read_illegal_T_13 = ~reg_debug; // @[CSR.scala:482:26, :927:45] wire _io_decode_0_read_illegal_T_14 = _io_decode_0_read_illegal_T_12 & _io_decode_0_read_illegal_T_13; // @[Decode.scala:55:116] wire _io_decode_0_read_illegal_T_15 = _io_decode_0_read_illegal_T_11 | _io_decode_0_read_illegal_T_14; // @[CSR.scala:925:78, :926:36, :927:42] wire _io_decode_0_read_illegal_T_18 = _io_decode_0_read_illegal_T_15; // @[CSR.scala:926:36, :927:56] wire [11:0] io_decode_0_read_illegal_invInputs_1 = ~io_decode_0_read_illegal_plaInput_1; // @[pla.scala:77:22, :78:21] wire _io_decode_0_read_illegal_T_19 = io_decode_0_fp_csr_0 & io_decode_0_fp_illegal_0; // @[CSR.scala:377:7, :929:21] assign _io_decode_0_read_illegal_T_20 = _io_decode_0_read_illegal_T_18 | _io_decode_0_read_illegal_T_19; // @[CSR.scala:927:56, :928:68, :929:21] assign io_decode_0_read_illegal_0 = _io_decode_0_read_illegal_T_20; // @[CSR.scala:377:7, :928:68] wire [1:0] _io_decode_0_write_illegal_T = addr[11:10]; // @[CSR.scala:897:27, :930:33] assign _io_decode_0_write_illegal_T_1 = &_io_decode_0_write_illegal_T; // @[CSR.scala:930:{33,41}] assign io_decode_0_write_illegal_0 = _io_decode_0_write_illegal_T_1; // @[CSR.scala:377:7, :930:41] wire [11:0] io_decode_0_write_flush_addr_m = {_io_decode_0_write_illegal_T, addr[9:0] | 10'h300}; // @[CSR.scala:897:27, :930:33, :932:25] wire _io_decode_0_write_flush_T = io_decode_0_write_flush_addr_m > 12'h33F; // @[CSR.scala:932:25, :933:16] wire _io_decode_0_write_flush_T_1 = io_decode_0_write_flush_addr_m < 12'h344; // @[CSR.scala:932:25, :933:45] wire _io_decode_0_write_flush_T_2 = _io_decode_0_write_flush_T & _io_decode_0_write_flush_T_1; // @[CSR.scala:933:{16,35,45}] assign _io_decode_0_write_flush_T_3 = ~_io_decode_0_write_flush_T_2; // @[CSR.scala:933:{7,35}] assign io_decode_0_write_flush_0 = _io_decode_0_write_flush_T_3; // @[CSR.scala:377:7, :933:7] wire _io_decode_0_system_illegal_T = ~csr_addr_legal; // @[CSR.scala:920:60, :923:28, :935:30] wire _io_decode_0_system_illegal_T_1 = ~is_hlsv; // @[CSR.scala:903:82, :935:49] wire _io_decode_0_system_illegal_T_2 = _io_decode_0_system_illegal_T & _io_decode_0_system_illegal_T_1; // @[CSR.scala:935:{30,46,49}] wire _io_decode_0_system_illegal_T_3 = ~allow_wfi; // @[CSR.scala:906:71, :936:17] wire _io_decode_0_system_illegal_T_4 = is_wfi & _io_decode_0_system_illegal_T_3; // @[CSR.scala:903:82, :936:{14,17}] wire _io_decode_0_system_illegal_T_5 = _io_decode_0_system_illegal_T_2 | _io_decode_0_system_illegal_T_4; // @[CSR.scala:935:{46,58}, :936:14] wire _io_decode_0_system_illegal_T_6 = ~allow_sret; // @[CSR.scala:910:72, :937:17] wire _io_decode_0_system_illegal_T_7 = is_ret & _io_decode_0_system_illegal_T_6; // @[CSR.scala:903:82, :937:{14,17}] wire _io_decode_0_system_illegal_T_8 = _io_decode_0_system_illegal_T_5 | _io_decode_0_system_illegal_T_7; // @[CSR.scala:935:58, :936:28, :937:14] wire _io_decode_0_system_illegal_T_9 = addr[10]; // @[CSR.scala:897:27, :938:21] wire _io_decode_0_system_illegal_T_10 = is_ret & _io_decode_0_system_illegal_T_9; // @[CSR.scala:903:82, :938:{14,21}] wire _io_decode_0_system_illegal_T_11 = addr[7]; // @[CSR.scala:897:27, :938:33] wire _io_decode_0_system_illegal_T_12 = _io_decode_0_system_illegal_T_10 & _io_decode_0_system_illegal_T_11; // @[CSR.scala:938:{14,26,33}] wire _io_decode_0_system_illegal_T_13 = ~reg_debug; // @[CSR.scala:482:26, :927:45, :938:40] wire _io_decode_0_system_illegal_T_14 = _io_decode_0_system_illegal_T_12 & _io_decode_0_system_illegal_T_13; // @[CSR.scala:938:{26,37,40}] wire _io_decode_0_system_illegal_T_15 = _io_decode_0_system_illegal_T_8 | _io_decode_0_system_illegal_T_14; // @[CSR.scala:936:28, :937:29, :938:37] wire _io_decode_0_system_illegal_T_16 = is_sfence | is_hfence_gvma; // @[CSR.scala:903:82, :939:18] wire _io_decode_0_system_illegal_T_17 = ~allow_sfence_vma; // @[CSR.scala:907:70, :925:59, :939:40] wire _io_decode_0_system_illegal_T_18 = _io_decode_0_system_illegal_T_16 & _io_decode_0_system_illegal_T_17; // @[CSR.scala:939:{18,37,40}] wire _io_decode_0_system_illegal_T_19 = _io_decode_0_system_illegal_T_15 | _io_decode_0_system_illegal_T_18; // @[CSR.scala:937:29, :938:51, :939:37] wire _io_decode_0_system_illegal_T_22 = _io_decode_0_system_illegal_T_19; // @[CSR.scala:938:51, :939:58] assign _io_decode_0_system_illegal_T_25 = _io_decode_0_system_illegal_T_22; // @[CSR.scala:939:58, :940:44] assign io_decode_0_system_illegal_0 = _io_decode_0_system_illegal_T_25; // @[CSR.scala:377:7, :940:44] wire _io_decode_0_virtual_access_illegal_T = reg_mstatus_v & csr_exists; // @[CSR.scala:395:28, :899:111, :943:52] wire _io_decode_0_virtual_access_illegal_T_2 = _io_decode_0_virtual_access_illegal_T_1 == 2'h2; // @[CSR.scala:190:36, :944:22] wire _io_decode_0_virtual_access_illegal_T_4 = _io_decode_0_virtual_access_illegal_T_3[0]; // @[CSR.scala:945:36] wire _io_decode_0_virtual_access_illegal_T_5 = is_counter & _io_decode_0_virtual_access_illegal_T_4; // @[CSR.scala:904:81, :945:{18,36}] wire _io_decode_0_virtual_access_illegal_T_7 = _io_decode_0_virtual_access_illegal_T_6[0]; // @[CSR.scala:945:71] wire _io_decode_0_virtual_access_illegal_T_8 = ~_io_decode_0_virtual_access_illegal_T_7; // @[CSR.scala:945:{55,71}] wire _io_decode_0_virtual_access_illegal_T_9 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105] wire _io_decode_0_virtual_access_illegal_T_20 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :946:53] wire _io_decode_0_virtual_access_illegal_T_25 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :947:46] wire _io_decode_0_virtual_system_illegal_T_2 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :953:34] wire _io_decode_0_virtual_system_illegal_T_12 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :954:64] wire _io_decode_0_virtual_system_illegal_T_17 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :955:37] wire _io_decode_1_virtual_access_illegal_T_9 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105] wire _io_decode_1_virtual_access_illegal_T_20 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :946:53] wire _io_decode_1_virtual_access_illegal_T_25 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :947:46] wire _io_decode_1_virtual_system_illegal_T_2 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :953:34] wire _io_decode_1_virtual_system_illegal_T_12 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :954:64] wire _io_decode_1_virtual_system_illegal_T_17 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :955:37] wire _io_decode_2_virtual_access_illegal_T_9 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105] wire _io_decode_2_virtual_access_illegal_T_20 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :946:53] wire _io_decode_2_virtual_access_illegal_T_25 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :947:46] wire _io_decode_2_virtual_system_illegal_T_2 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :953:34] wire _io_decode_2_virtual_system_illegal_T_12 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :954:64] wire _io_decode_2_virtual_system_illegal_T_17 = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :955:37] wire _cause_T = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :959:61] wire _reg_hstatus_spvp_T = reg_mstatus_prv[0]; // @[CSR.scala:395:28, :945:105, :1067:61] wire _io_decode_0_virtual_access_illegal_T_10 = ~_io_decode_0_virtual_access_illegal_T_9; // @[CSR.scala:945:{89,105}] wire _io_decode_0_virtual_access_illegal_T_12 = _io_decode_0_virtual_access_illegal_T_11[0]; // @[CSR.scala:945:128] wire _io_decode_0_virtual_access_illegal_T_13 = ~_io_decode_0_virtual_access_illegal_T_12; // @[CSR.scala:945:{112,128}] wire _io_decode_0_virtual_access_illegal_T_14 = _io_decode_0_virtual_access_illegal_T_10 & _io_decode_0_virtual_access_illegal_T_13; // @[CSR.scala:945:{89,109,112}] wire _io_decode_0_virtual_access_illegal_T_15 = _io_decode_0_virtual_access_illegal_T_8 | _io_decode_0_virtual_access_illegal_T_14; // @[CSR.scala:945:{55,86,109}] wire _io_decode_0_virtual_access_illegal_T_16 = _io_decode_0_virtual_access_illegal_T_5 & _io_decode_0_virtual_access_illegal_T_15; // @[CSR.scala:945:{18,51,86}] wire _io_decode_0_virtual_access_illegal_T_17 = _io_decode_0_virtual_access_illegal_T_2 | _io_decode_0_virtual_access_illegal_T_16; // @[CSR.scala:944:{22,34}, :945:51] wire _io_decode_0_virtual_access_illegal_T_19 = _io_decode_0_virtual_access_illegal_T_18 == 2'h1; // @[CSR.scala:190:36, :946:22] wire _io_decode_0_virtual_access_illegal_T_21 = ~_io_decode_0_virtual_access_illegal_T_20; // @[CSR.scala:946:{37,53}] wire _io_decode_0_virtual_access_illegal_T_22 = _io_decode_0_virtual_access_illegal_T_19 & _io_decode_0_virtual_access_illegal_T_21; // @[CSR.scala:946:{22,34,37}] wire _io_decode_0_virtual_access_illegal_T_23 = _io_decode_0_virtual_access_illegal_T_17 | _io_decode_0_virtual_access_illegal_T_22; // @[CSR.scala:944:34, :945:144, :946:34] wire _io_decode_0_virtual_access_illegal_T_28 = _io_decode_0_virtual_access_illegal_T_23; // @[CSR.scala:945:144, :946:57] wire _io_decode_0_virtual_access_illegal_T_26 = _io_decode_0_virtual_access_illegal_T_24 & _io_decode_0_virtual_access_illegal_T_25; // @[CSR.scala:947:{12,28,46}] assign _io_decode_0_virtual_access_illegal_T_29 = _io_decode_0_virtual_access_illegal_T & _io_decode_0_virtual_access_illegal_T_28; // @[CSR.scala:943:{52,66}, :946:57] assign io_decode_0_virtual_access_illegal_0 = _io_decode_0_virtual_access_illegal_T_29; // @[CSR.scala:377:7, :943:66] wire _io_decode_0_virtual_system_illegal_T = is_hfence_vvma | is_hfence_gvma; // @[CSR.scala:903:82, :950:22] wire _io_decode_0_virtual_system_illegal_T_1 = _io_decode_0_virtual_system_illegal_T | is_hlsv; // @[CSR.scala:903:82, :950:22, :951:22] wire _io_decode_0_virtual_system_illegal_T_3 = ~_io_decode_0_virtual_system_illegal_T_2; // @[CSR.scala:953:{18,34}] wire _io_decode_0_virtual_system_illegal_T_6 = _io_decode_0_virtual_system_illegal_T_3; // @[CSR.scala:953:{18,38}] wire _io_decode_0_virtual_system_illegal_T_4 = ~reg_mstatus_tw; // @[CSR.scala:395:28, :906:74, :953:41] wire _io_decode_0_virtual_system_illegal_T_7 = is_wfi & _io_decode_0_virtual_system_illegal_T_6; // @[CSR.scala:903:82, :953:{14,38}] wire _io_decode_0_virtual_system_illegal_T_8 = _io_decode_0_virtual_system_illegal_T_1 | _io_decode_0_virtual_system_illegal_T_7; // @[CSR.scala:951:22, :952:15, :953:14] wire _io_decode_0_virtual_system_illegal_T_10 = _io_decode_0_virtual_system_illegal_T_9 == 2'h1; // @[CSR.scala:190:36, :954:32] wire _io_decode_0_virtual_system_illegal_T_11 = is_ret & _io_decode_0_virtual_system_illegal_T_10; // @[CSR.scala:903:82, :954:{14,32}] wire _io_decode_0_virtual_system_illegal_T_13 = ~_io_decode_0_virtual_system_illegal_T_12; // @[CSR.scala:954:{48,64}] wire _io_decode_0_virtual_system_illegal_T_14 = _io_decode_0_virtual_system_illegal_T_13; // @[CSR.scala:954:{48,68}] wire _io_decode_0_virtual_system_illegal_T_15 = _io_decode_0_virtual_system_illegal_T_11 & _io_decode_0_virtual_system_illegal_T_14; // @[CSR.scala:954:{14,44,68}] wire _io_decode_0_virtual_system_illegal_T_16 = _io_decode_0_virtual_system_illegal_T_8 | _io_decode_0_virtual_system_illegal_T_15; // @[CSR.scala:952:15, :953:77, :954:44] wire _io_decode_0_virtual_system_illegal_T_18 = ~_io_decode_0_virtual_system_illegal_T_17; // @[CSR.scala:955:{21,37}] wire _io_decode_0_virtual_system_illegal_T_19 = _io_decode_0_virtual_system_illegal_T_18; // @[CSR.scala:955:{21,41}] wire _io_decode_0_virtual_system_illegal_T_20 = is_sfence & _io_decode_0_virtual_system_illegal_T_19; // @[CSR.scala:903:82, :955:{17,41}] wire _io_decode_0_virtual_system_illegal_T_21 = _io_decode_0_virtual_system_illegal_T_16 | _io_decode_0_virtual_system_illegal_T_20; // @[CSR.scala:953:77, :954:89, :955:17] assign _io_decode_0_virtual_system_illegal_T_22 = reg_mstatus_v & _io_decode_0_virtual_system_illegal_T_21; // @[CSR.scala:395:28, :949:52, :954:89] assign io_decode_0_virtual_system_illegal_0 = _io_decode_0_virtual_system_illegal_T_22; // @[CSR.scala:377:7, :949:52] wire [11:0] addr_1 = io_decode_1_inst_0[31:20]; // @[CSR.scala:377:7, :897:27] wire [11:0] io_decode_1_fp_csr_plaInput = addr_1; // @[pla.scala:77:22] wire [11:0] io_decode_1_vector_csr_plaInput = addr_1; // @[pla.scala:77:22] wire [11:0] io_decode_1_read_illegal_plaInput = addr_1; // @[pla.scala:77:22] wire [11:0] io_decode_1_read_illegal_plaInput_1 = addr_1; // @[pla.scala:77:22] wire [31:0] decoded_invInputs_2 = ~decoded_plaInput_2; // @[pla.scala:77:22, :78:21] wire [8:0] decoded_invMatrixOutputs_2; // @[pla.scala:120:37] wire [8:0] decoded_2; // @[pla.scala:81:23] wire decoded_andMatrixOutputs_andMatrixInput_0_14 = decoded_invInputs_2[20]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_14 = decoded_invInputs_2[21]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_15 = decoded_invInputs_2[21]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_12 = decoded_invInputs_2[22]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_13 = decoded_invInputs_2[22]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_16 = decoded_invInputs_2[22]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_12 = decoded_invInputs_2[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_13 = decoded_invInputs_2[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_14 = decoded_invInputs_2[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_17 = decoded_invInputs_2[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_19 = decoded_invInputs_2[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_12 = decoded_invInputs_2[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_13 = decoded_invInputs_2[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_14 = decoded_invInputs_2[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_15 = decoded_invInputs_2[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_17 = decoded_invInputs_2[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_12 = decoded_invInputs_2[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_13 = decoded_invInputs_2[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_14 = decoded_invInputs_2[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_15 = decoded_invInputs_2[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_17 = decoded_invInputs_2[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_6_12 = decoded_invInputs_2[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_6_13 = decoded_invInputs_2[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_14 = decoded_invInputs_2[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_15 = decoded_invInputs_2[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_11_8 = decoded_invInputs_2[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_17 = decoded_invInputs_2[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_7_12 = decoded_invInputs_2[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_7_13 = decoded_invInputs_2[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_6_14 = decoded_invInputs_2[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_15 = decoded_invInputs_2[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_12_2 = decoded_invInputs_2[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_17 = decoded_invInputs_2[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_12 = decoded_invInputs_2[28]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_13 = decoded_invInputs_2[28]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_12 = decoded_invInputs_2[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_13 = decoded_invInputs_2[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_7_15 = decoded_invInputs_2[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_14_2 = decoded_invInputs_2[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_10_6 = decoded_invInputs_2[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_10_7 = decoded_invInputs_2[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_14 = decoded_invInputs_2[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_15 = decoded_invInputs_2[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_15_2 = decoded_invInputs_2[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_17 = decoded_invInputs_2[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_11_6 = decoded_invInputs_2[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_11_7 = decoded_invInputs_2[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_14 = decoded_invInputs_2[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_15 = decoded_invInputs_2[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_16_2 = decoded_invInputs_2[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_17 = decoded_invInputs_2[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_20 = decoded_invInputs_2[31]; // @[pla.scala:78:21, :91:29] wire [1:0] decoded_andMatrixOutputs_lo_lo_hi_6 = {decoded_andMatrixOutputs_andMatrixInput_9_12, decoded_andMatrixOutputs_andMatrixInput_10_6}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_lo_12 = {decoded_andMatrixOutputs_lo_lo_hi_6, decoded_andMatrixOutputs_andMatrixInput_11_6}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_12 = {decoded_andMatrixOutputs_andMatrixInput_6_12, decoded_andMatrixOutputs_andMatrixInput_7_12}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_12 = {decoded_andMatrixOutputs_lo_hi_hi_12, decoded_andMatrixOutputs_andMatrixInput_8_12}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_lo_12 = {decoded_andMatrixOutputs_lo_hi_12, decoded_andMatrixOutputs_lo_lo_12}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_hi_6 = {decoded_andMatrixOutputs_andMatrixInput_3_12, decoded_andMatrixOutputs_andMatrixInput_4_12}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_lo_12 = {decoded_andMatrixOutputs_hi_lo_hi_6, decoded_andMatrixOutputs_andMatrixInput_5_12}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_12 = {decoded_andMatrixOutputs_andMatrixInput_0_14, decoded_andMatrixOutputs_andMatrixInput_1_14}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_12 = {decoded_andMatrixOutputs_hi_hi_hi_12, decoded_andMatrixOutputs_andMatrixInput_2_12}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_hi_12 = {decoded_andMatrixOutputs_hi_hi_12, decoded_andMatrixOutputs_hi_lo_12}; // @[pla.scala:98:53] wire [11:0] _decoded_andMatrixOutputs_T_14 = {decoded_andMatrixOutputs_hi_12, decoded_andMatrixOutputs_lo_12}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_6_2_2 = &_decoded_andMatrixOutputs_T_14; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_20 = decoded_andMatrixOutputs_6_2_2; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_0_15 = decoded_plaInput_2[20]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_hi_7 = {decoded_andMatrixOutputs_andMatrixInput_9_13, decoded_andMatrixOutputs_andMatrixInput_10_7}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_lo_13 = {decoded_andMatrixOutputs_lo_lo_hi_7, decoded_andMatrixOutputs_andMatrixInput_11_7}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_13 = {decoded_andMatrixOutputs_andMatrixInput_6_13, decoded_andMatrixOutputs_andMatrixInput_7_13}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_13 = {decoded_andMatrixOutputs_lo_hi_hi_13, decoded_andMatrixOutputs_andMatrixInput_8_13}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_lo_13 = {decoded_andMatrixOutputs_lo_hi_13, decoded_andMatrixOutputs_lo_lo_13}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_hi_7 = {decoded_andMatrixOutputs_andMatrixInput_3_13, decoded_andMatrixOutputs_andMatrixInput_4_13}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_lo_13 = {decoded_andMatrixOutputs_hi_lo_hi_7, decoded_andMatrixOutputs_andMatrixInput_5_13}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_13 = {decoded_andMatrixOutputs_andMatrixInput_0_15, decoded_andMatrixOutputs_andMatrixInput_1_15}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_13 = {decoded_andMatrixOutputs_hi_hi_hi_13, decoded_andMatrixOutputs_andMatrixInput_2_13}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_hi_13 = {decoded_andMatrixOutputs_hi_hi_13, decoded_andMatrixOutputs_hi_lo_13}; // @[pla.scala:98:53] wire [11:0] _decoded_andMatrixOutputs_T_15 = {decoded_andMatrixOutputs_hi_13, decoded_andMatrixOutputs_lo_13}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_4_2_2 = &_decoded_andMatrixOutputs_T_15; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_19 = decoded_andMatrixOutputs_4_2_2; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_0_16 = decoded_plaInput_2[0]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_0_18 = decoded_plaInput_2[0]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_7_14 = decoded_plaInput_2[28]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_6_15 = decoded_plaInput_2[28]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_13_2 = decoded_plaInput_2[28]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_6_17 = decoded_plaInput_2[28]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_14 = {decoded_andMatrixOutputs_andMatrixInput_8_14, decoded_andMatrixOutputs_andMatrixInput_9_14}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_14 = {decoded_andMatrixOutputs_andMatrixInput_5_14, decoded_andMatrixOutputs_andMatrixInput_6_14}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_14 = {decoded_andMatrixOutputs_lo_hi_hi_14, decoded_andMatrixOutputs_andMatrixInput_7_14}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_andMatrixOutputs_lo_14 = {decoded_andMatrixOutputs_lo_hi_14, decoded_andMatrixOutputs_lo_lo_14}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_14 = {decoded_andMatrixOutputs_andMatrixInput_3_14, decoded_andMatrixOutputs_andMatrixInput_4_14}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_14 = {decoded_andMatrixOutputs_andMatrixInput_0_16, decoded_andMatrixOutputs_andMatrixInput_1_16}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_14 = {decoded_andMatrixOutputs_hi_hi_hi_14, decoded_andMatrixOutputs_andMatrixInput_2_14}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_14 = {decoded_andMatrixOutputs_hi_hi_14, decoded_andMatrixOutputs_hi_lo_14}; // @[pla.scala:98:53] wire [9:0] _decoded_andMatrixOutputs_T_16 = {decoded_andMatrixOutputs_hi_14, decoded_andMatrixOutputs_lo_14}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_3_2_2 = &_decoded_andMatrixOutputs_T_16; // @[pla.scala:98:{53,70}] wire decoded_andMatrixOutputs_andMatrixInput_0_17 = decoded_plaInput_2[22]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_0_19 = decoded_plaInput_2[22]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_15 = {decoded_andMatrixOutputs_andMatrixInput_8_15, decoded_andMatrixOutputs_andMatrixInput_9_15}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_15 = {decoded_andMatrixOutputs_andMatrixInput_5_15, decoded_andMatrixOutputs_andMatrixInput_6_15}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_15 = {decoded_andMatrixOutputs_lo_hi_hi_15, decoded_andMatrixOutputs_andMatrixInput_7_15}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_lo_15 = {decoded_andMatrixOutputs_lo_hi_15, decoded_andMatrixOutputs_lo_lo_15}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_15 = {decoded_andMatrixOutputs_andMatrixInput_3_15, decoded_andMatrixOutputs_andMatrixInput_4_15}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_15 = {decoded_andMatrixOutputs_andMatrixInput_0_17, decoded_andMatrixOutputs_andMatrixInput_1_17}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_15 = {decoded_andMatrixOutputs_hi_hi_hi_15, decoded_andMatrixOutputs_andMatrixInput_2_15}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_15 = {decoded_andMatrixOutputs_hi_hi_15, decoded_andMatrixOutputs_hi_lo_15}; // @[pla.scala:98:53] wire [9:0] _decoded_andMatrixOutputs_T_17 = {decoded_andMatrixOutputs_hi_15, decoded_andMatrixOutputs_lo_15}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_1_2_2 = &_decoded_andMatrixOutputs_T_17; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_15 = decoded_andMatrixOutputs_1_2_2; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_1_18 = decoded_plaInput_2[1]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_2_16 = decoded_invInputs_2[2]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_16 = decoded_invInputs_2[3]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_16 = decoded_plaInput_2[4]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_5_16 = decoded_plaInput_2[5]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_6_16 = decoded_plaInput_2[6]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_7_16 = decoded_invInputs_2[7]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_16 = decoded_invInputs_2[8]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_16 = decoded_invInputs_2[9]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_10_8 = decoded_plaInput_2[25]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_lo_2 = {decoded_andMatrixOutputs_andMatrixInput_15_2, decoded_andMatrixOutputs_andMatrixInput_16_2}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_lo_hi_8 = {decoded_andMatrixOutputs_andMatrixInput_13_2, decoded_andMatrixOutputs_andMatrixInput_14_2}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] decoded_andMatrixOutputs_lo_lo_16 = {decoded_andMatrixOutputs_lo_lo_hi_8, decoded_andMatrixOutputs_lo_lo_lo_2}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_lo_2 = {decoded_andMatrixOutputs_andMatrixInput_11_8, decoded_andMatrixOutputs_andMatrixInput_12_2}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_16 = {decoded_andMatrixOutputs_andMatrixInput_9_16, decoded_andMatrixOutputs_andMatrixInput_10_8}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] decoded_andMatrixOutputs_lo_hi_16 = {decoded_andMatrixOutputs_lo_hi_hi_16, decoded_andMatrixOutputs_lo_hi_lo_2}; // @[pla.scala:98:53] wire [7:0] decoded_andMatrixOutputs_lo_16 = {decoded_andMatrixOutputs_lo_hi_16, decoded_andMatrixOutputs_lo_lo_16}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_lo_2 = {decoded_andMatrixOutputs_andMatrixInput_7_16, decoded_andMatrixOutputs_andMatrixInput_8_16}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_hi_8 = {decoded_andMatrixOutputs_andMatrixInput_5_16, decoded_andMatrixOutputs_andMatrixInput_6_16}; // @[pla.scala:90:45, :98:53] wire [3:0] decoded_andMatrixOutputs_hi_lo_16 = {decoded_andMatrixOutputs_hi_lo_hi_8, decoded_andMatrixOutputs_hi_lo_lo_2}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_lo_2 = {decoded_andMatrixOutputs_andMatrixInput_3_16, decoded_andMatrixOutputs_andMatrixInput_4_16}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_hi_2 = {decoded_andMatrixOutputs_andMatrixInput_0_18, decoded_andMatrixOutputs_andMatrixInput_1_18}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_hi_16 = {decoded_andMatrixOutputs_hi_hi_hi_hi_2, decoded_andMatrixOutputs_andMatrixInput_2_16}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_hi_16 = {decoded_andMatrixOutputs_hi_hi_hi_16, decoded_andMatrixOutputs_hi_hi_lo_2}; // @[pla.scala:98:53] wire [8:0] decoded_andMatrixOutputs_hi_16 = {decoded_andMatrixOutputs_hi_hi_16, decoded_andMatrixOutputs_hi_lo_16}; // @[pla.scala:98:53] wire [16:0] _decoded_andMatrixOutputs_T_18 = {decoded_andMatrixOutputs_hi_16, decoded_andMatrixOutputs_lo_16}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_0_2_2 = &_decoded_andMatrixOutputs_T_18; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_14 = decoded_andMatrixOutputs_0_2_2; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_7_17 = decoded_plaInput_2[29]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_17 = {decoded_andMatrixOutputs_andMatrixInput_8_17, decoded_andMatrixOutputs_andMatrixInput_9_17}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_17 = {decoded_andMatrixOutputs_andMatrixInput_5_17, decoded_andMatrixOutputs_andMatrixInput_6_17}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_17 = {decoded_andMatrixOutputs_lo_hi_hi_17, decoded_andMatrixOutputs_andMatrixInput_7_17}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_andMatrixOutputs_lo_17 = {decoded_andMatrixOutputs_lo_hi_17, decoded_andMatrixOutputs_lo_lo_17}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_17 = {decoded_andMatrixOutputs_andMatrixInput_3_17, decoded_andMatrixOutputs_andMatrixInput_4_17}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_17 = {decoded_andMatrixOutputs_andMatrixInput_0_19, decoded_andMatrixOutputs_andMatrixInput_1_19}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_17 = {decoded_andMatrixOutputs_hi_hi_hi_17, decoded_andMatrixOutputs_andMatrixInput_2_17}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_17 = {decoded_andMatrixOutputs_hi_hi_17, decoded_andMatrixOutputs_hi_lo_17}; // @[pla.scala:98:53] wire [9:0] _decoded_andMatrixOutputs_T_19 = {decoded_andMatrixOutputs_hi_17, decoded_andMatrixOutputs_lo_17}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_5_2_2 = &_decoded_andMatrixOutputs_T_19; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_16 = decoded_andMatrixOutputs_5_2_2; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_0_20 = decoded_plaInput_2[30]; // @[pla.scala:77:22, :90:45] wire [1:0] _decoded_andMatrixOutputs_T_20 = {decoded_andMatrixOutputs_andMatrixInput_0_20, decoded_andMatrixOutputs_andMatrixInput_1_20}; // @[pla.scala:90:45, :91:29, :98:53] wire decoded_andMatrixOutputs_2_2_2 = &_decoded_andMatrixOutputs_T_20; // @[pla.scala:98:{53,70}] wire [1:0] _decoded_orMatrixOutputs_T_17 = {decoded_andMatrixOutputs_3_2_2, decoded_andMatrixOutputs_2_2_2}; // @[pla.scala:98:70, :114:19] wire _decoded_orMatrixOutputs_T_18 = |_decoded_orMatrixOutputs_T_17; // @[pla.scala:114:{19,36}] wire [1:0] decoded_orMatrixOutputs_lo_hi_2 = {_decoded_orMatrixOutputs_T_14, 1'h0}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_orMatrixOutputs_lo_2 = {decoded_orMatrixOutputs_lo_hi_2, 2'h0}; // @[pla.scala:102:36] wire [1:0] decoded_orMatrixOutputs_hi_lo_2 = {_decoded_orMatrixOutputs_T_16, _decoded_orMatrixOutputs_T_15}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_orMatrixOutputs_hi_hi_hi_2 = {_decoded_orMatrixOutputs_T_20, _decoded_orMatrixOutputs_T_19}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_orMatrixOutputs_hi_hi_2 = {decoded_orMatrixOutputs_hi_hi_hi_2, _decoded_orMatrixOutputs_T_18}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_orMatrixOutputs_hi_2 = {decoded_orMatrixOutputs_hi_hi_2, decoded_orMatrixOutputs_hi_lo_2}; // @[pla.scala:102:36] wire [8:0] decoded_orMatrixOutputs_2 = {decoded_orMatrixOutputs_hi_2, decoded_orMatrixOutputs_lo_2}; // @[pla.scala:102:36] wire _decoded_invMatrixOutputs_T_18 = decoded_orMatrixOutputs_2[0]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_19 = decoded_orMatrixOutputs_2[1]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_20 = decoded_orMatrixOutputs_2[2]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_21 = decoded_orMatrixOutputs_2[3]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_22 = decoded_orMatrixOutputs_2[4]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_23 = decoded_orMatrixOutputs_2[5]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_24 = decoded_orMatrixOutputs_2[6]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_25 = decoded_orMatrixOutputs_2[7]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_26 = decoded_orMatrixOutputs_2[8]; // @[pla.scala:102:36, :124:31] wire [1:0] decoded_invMatrixOutputs_lo_lo_2 = {_decoded_invMatrixOutputs_T_19, _decoded_invMatrixOutputs_T_18}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_invMatrixOutputs_lo_hi_2 = {_decoded_invMatrixOutputs_T_21, _decoded_invMatrixOutputs_T_20}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_invMatrixOutputs_lo_2 = {decoded_invMatrixOutputs_lo_hi_2, decoded_invMatrixOutputs_lo_lo_2}; // @[pla.scala:120:37] wire [1:0] decoded_invMatrixOutputs_hi_lo_2 = {_decoded_invMatrixOutputs_T_23, _decoded_invMatrixOutputs_T_22}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_invMatrixOutputs_hi_hi_hi_2 = {_decoded_invMatrixOutputs_T_26, _decoded_invMatrixOutputs_T_25}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_invMatrixOutputs_hi_hi_2 = {decoded_invMatrixOutputs_hi_hi_hi_2, _decoded_invMatrixOutputs_T_24}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_invMatrixOutputs_hi_2 = {decoded_invMatrixOutputs_hi_hi_2, decoded_invMatrixOutputs_hi_lo_2}; // @[pla.scala:120:37] assign decoded_invMatrixOutputs_2 = {decoded_invMatrixOutputs_hi_2, decoded_invMatrixOutputs_lo_2}; // @[pla.scala:120:37] assign decoded_2 = decoded_invMatrixOutputs_2; // @[pla.scala:81:23, :120:37] wire is_break_1 = decoded_2[7]; // @[pla.scala:81:23] wire is_ret_1 = decoded_2[6]; // @[pla.scala:81:23] wire is_wfi_1 = decoded_2[4]; // @[pla.scala:81:23] wire is_sfence_1 = decoded_2[3]; // @[pla.scala:81:23] wire is_hfence_vvma_1 = decoded_2[2]; // @[pla.scala:81:23] wire is_hfence_gvma_1 = decoded_2[1]; // @[pla.scala:81:23] wire is_hlsv_1 = decoded_2[0]; // @[pla.scala:81:23] wire _is_counter_T_6 = addr_1 > 12'hBFF; // @[package.scala:213:47] wire _is_counter_T_7 = addr_1 < 12'hC20; // @[package.scala:213:60] wire _is_counter_T_8 = _is_counter_T_6 & _is_counter_T_7; // @[package.scala:213:{47,55,60}] wire _is_counter_T_9 = addr_1 > 12'hC7F; // @[package.scala:213:47] wire _is_counter_T_10 = addr_1 < 12'hCA0; // @[package.scala:213:60] wire _is_counter_T_11 = _is_counter_T_9 & _is_counter_T_10; // @[package.scala:213:{47,55,60}] wire is_counter_1 = _is_counter_T_8 | _is_counter_T_11; // @[package.scala:213:55] wire _allow_wfi_T_8 = _allow_wfi_T_7; // @[CSR.scala:906:{42,61}] wire _allow_wfi_T_9 = ~reg_mstatus_tw; // @[CSR.scala:395:28, :906:74] wire _allow_wfi_T_13 = _allow_wfi_T_9; // @[CSR.scala:906:{74,90}] wire _allow_wfi_T_10 = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94] wire allow_wfi_1 = _allow_wfi_T_8 | _allow_wfi_T_13; // @[CSR.scala:906:{42,71,90}] wire _allow_sfence_vma_T_5 = _allow_sfence_vma_T_4; // @[CSR.scala:907:{41,60}] wire _allow_sfence_vma_T_7 = ~_allow_sfence_vma_T_6; // @[CSR.scala:907:{73,77}] wire allow_sfence_vma_1 = _allow_sfence_vma_T_5 | _allow_sfence_vma_T_7; // @[CSR.scala:907:{41,70,73}] wire _allow_hfence_vvma_T_3 = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94, :908:53] wire _allow_hfence_vvma_T_4 = |reg_mstatus_prv; // @[CSR.scala:395:28, :908:88] wire _allow_hfence_vvma_T_5 = _allow_hfence_vvma_T_3 & _allow_hfence_vvma_T_4; // @[CSR.scala:908:{53,68,88}] wire _allow_hlsv_T_4 = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94, :909:46] wire _allow_hlsv_T_5 = |reg_mstatus_prv; // @[CSR.scala:395:28, :908:88, :909:81] wire _allow_hlsv_T_6 = _allow_hlsv_T_5; // @[CSR.scala:909:{81,92}] wire _allow_hlsv_T_7 = _allow_hlsv_T_4 & _allow_hlsv_T_6; // @[CSR.scala:909:{46,61,92}] wire _allow_sret_T_5 = _allow_sret_T_4; // @[CSR.scala:910:{43,62}] wire _allow_sret_T_7 = ~_allow_sret_T_6; // @[CSR.scala:910:{75,79}] wire allow_sret_1 = _allow_sret_T_5 | _allow_sret_T_7; // @[CSR.scala:910:{43,72,75}] wire [4:0] counter_addr_1 = addr_1[4:0]; // @[CSR.scala:897:27, :911:28] wire [31:0] _GEN_12 = {27'h0, counter_addr_1}; // @[CSR.scala:911:28, :912:70] wire [31:0] _GEN_13 = read_mcounteren >> _GEN_12; // @[CSR.scala:532:14, :912:70] wire [31:0] _allow_counter_T_18; // @[CSR.scala:912:70] assign _allow_counter_T_18 = _GEN_13; // @[CSR.scala:912:70] wire [31:0] _io_decode_1_virtual_access_illegal_T_3; // @[CSR.scala:945:36] assign _io_decode_1_virtual_access_illegal_T_3 = _GEN_13; // @[CSR.scala:912:70, :945:36] wire _allow_counter_T_19 = _allow_counter_T_18[0]; // @[CSR.scala:912:70] wire _allow_counter_T_20 = _allow_counter_T_17 | _allow_counter_T_19; // @[CSR.scala:912:{42,52,70}] wire _allow_counter_T_22 = |reg_mstatus_prv; // @[CSR.scala:395:28, :908:88, :913:46] wire _allow_counter_T_23 = _allow_counter_T_22; // @[CSR.scala:913:{27,46}] wire [31:0] _GEN_14 = read_scounteren >> _GEN_12; // @[CSR.scala:536:14, :912:70, :913:75] wire [31:0] _allow_counter_T_24; // @[CSR.scala:913:75] assign _allow_counter_T_24 = _GEN_14; // @[CSR.scala:913:75] wire [31:0] _io_decode_1_virtual_access_illegal_T_11; // @[CSR.scala:945:128] assign _io_decode_1_virtual_access_illegal_T_11 = _GEN_14; // @[CSR.scala:913:75, :945:128] wire _allow_counter_T_25 = _allow_counter_T_24[0]; // @[CSR.scala:913:75] wire _allow_counter_T_26 = _allow_counter_T_23 | _allow_counter_T_25; // @[CSR.scala:913:{27,57,75}] wire _allow_counter_T_27 = _allow_counter_T_20 & _allow_counter_T_26; // @[CSR.scala:912:{52,86}, :913:57] wire allow_counter_1 = _allow_counter_T_27; // @[CSR.scala:912:86, :913:91] wire _allow_counter_T_29 = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94, :914:30] wire [31:0] _GEN_15 = 32'h0 >> _GEN_12; // @[CSR.scala:912:70, :914:63] wire [31:0] _allow_counter_T_31; // @[CSR.scala:914:63] assign _allow_counter_T_31 = _GEN_15; // @[CSR.scala:914:63] wire [31:0] _io_decode_1_virtual_access_illegal_T_6; // @[CSR.scala:945:71] assign _io_decode_1_virtual_access_illegal_T_6 = _GEN_15; // @[CSR.scala:914:63, :945:71] wire _allow_counter_T_32 = _allow_counter_T_31[0]; // @[CSR.scala:914:63] wire _io_decode_1_fp_illegal_T_3 = _io_decode_1_fp_illegal_T; // @[CSR.scala:915:{39,47}] assign _io_decode_1_fp_illegal_T_6 = _io_decode_1_fp_illegal_T_3; // @[CSR.scala:915:{47,91}] assign io_decode_1_fp_illegal_0 = _io_decode_1_fp_illegal_T_6; // @[CSR.scala:377:7, :915:91] wire _io_decode_1_vector_illegal_T_2 = reg_mstatus_v & _io_decode_1_vector_illegal_T_1; // @[CSR.scala:395:28, :916:{68,87}] wire [11:0] io_decode_1_fp_csr_invInputs = ~io_decode_1_fp_csr_plaInput; // @[pla.scala:77:22, :78:21] wire io_decode_1_fp_csr_invMatrixOutputs; // @[pla.scala:124:31] wire io_decode_1_fp_csr_plaOutput; // @[pla.scala:81:23] assign _io_decode_1_fp_csr_T = io_decode_1_fp_csr_plaOutput; // @[pla.scala:81:23] wire io_decode_1_fp_csr_andMatrixOutputs_andMatrixInput_0 = io_decode_1_fp_csr_invInputs[8]; // @[pla.scala:78:21, :91:29] wire io_decode_1_fp_csr_andMatrixOutputs_andMatrixInput_1 = io_decode_1_fp_csr_invInputs[9]; // @[pla.scala:78:21, :91:29] wire io_decode_1_fp_csr_andMatrixOutputs_andMatrixInput_2 = io_decode_1_fp_csr_invInputs[10]; // @[pla.scala:78:21, :91:29] wire io_decode_1_fp_csr_andMatrixOutputs_andMatrixInput_3 = io_decode_1_fp_csr_invInputs[11]; // @[pla.scala:78:21, :91:29] wire [1:0] io_decode_1_fp_csr_andMatrixOutputs_lo = {io_decode_1_fp_csr_andMatrixOutputs_andMatrixInput_2, io_decode_1_fp_csr_andMatrixOutputs_andMatrixInput_3}; // @[pla.scala:91:29, :98:53] wire [1:0] io_decode_1_fp_csr_andMatrixOutputs_hi = {io_decode_1_fp_csr_andMatrixOutputs_andMatrixInput_0, io_decode_1_fp_csr_andMatrixOutputs_andMatrixInput_1}; // @[pla.scala:91:29, :98:53] wire [3:0] _io_decode_1_fp_csr_andMatrixOutputs_T = {io_decode_1_fp_csr_andMatrixOutputs_hi, io_decode_1_fp_csr_andMatrixOutputs_lo}; // @[pla.scala:98:53] wire io_decode_1_fp_csr_andMatrixOutputs_0_2 = &_io_decode_1_fp_csr_andMatrixOutputs_T; // @[pla.scala:98:{53,70}] wire io_decode_1_fp_csr_orMatrixOutputs = io_decode_1_fp_csr_andMatrixOutputs_0_2; // @[pla.scala:98:70, :114:36] assign io_decode_1_fp_csr_invMatrixOutputs = io_decode_1_fp_csr_orMatrixOutputs; // @[pla.scala:114:36, :124:31] assign io_decode_1_fp_csr_plaOutput = io_decode_1_fp_csr_invMatrixOutputs; // @[pla.scala:81:23, :124:31] assign io_decode_1_fp_csr_0 = _io_decode_1_fp_csr_T; // @[Decode.scala:55:116] wire [11:0] io_decode_1_vector_csr_invInputs = ~io_decode_1_vector_csr_plaInput; // @[pla.scala:77:22, :78:21] wire [1:0] _csr_addr_legal_T_9 = addr_1[9:8]; // @[CSR.scala:190:36, :897:27] wire [1:0] _csr_addr_legal_T_15 = addr_1[9:8]; // @[CSR.scala:190:36, :897:27] wire [1:0] _io_decode_1_virtual_access_illegal_T_1 = addr_1[9:8]; // @[CSR.scala:190:36, :897:27] wire [1:0] _io_decode_1_virtual_access_illegal_T_18 = addr_1[9:8]; // @[CSR.scala:190:36, :897:27] wire [1:0] _io_decode_1_virtual_system_illegal_T_9 = addr_1[9:8]; // @[CSR.scala:190:36, :897:27] wire _csr_addr_legal_T_10 = reg_mstatus_prv >= _csr_addr_legal_T_9; // @[CSR.scala:190:36, :395:28, :920:42] wire csr_addr_legal_1 = _csr_addr_legal_T_10; // @[CSR.scala:920:{42,60}] wire _csr_addr_legal_T_11 = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94, :921:28] wire _csr_addr_legal_T_16 = _csr_addr_legal_T_15 == 2'h2; // @[CSR.scala:190:36, :921:92] wire _csr_exists_T_298 = addr_1 == 12'h7A0; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_299 = addr_1 == 12'h7A1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_300 = addr_1 == 12'h7A2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_301 = addr_1 == 12'h7A3; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_302 = addr_1 == 12'h301; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_303 = addr_1 == 12'h300; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_304 = addr_1 == 12'h305; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_305 = addr_1 == 12'h344; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_306 = addr_1 == 12'h304; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_307 = addr_1 == 12'h340; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_308 = addr_1 == 12'h341; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_309 = addr_1 == 12'h343; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_310 = addr_1 == 12'h342; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_311 = addr_1 == 12'hF14; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_312 = addr_1 == 12'h7B0; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_313 = addr_1 == 12'h7B1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_314 = addr_1 == 12'h7B2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_315 = addr_1 == 12'h1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_316 = addr_1 == 12'h2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_317 = addr_1 == 12'h3; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_318 = addr_1 == 12'h320; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_319 = addr_1 == 12'hB00; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_320 = addr_1 == 12'hB02; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_321 = addr_1 == 12'h323; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_322 = addr_1 == 12'hB03; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_323 = addr_1 == 12'hC03; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_324 = addr_1 == 12'h324; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_325 = addr_1 == 12'hB04; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_326 = addr_1 == 12'hC04; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_327 = addr_1 == 12'h325; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_328 = addr_1 == 12'hB05; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_329 = addr_1 == 12'hC05; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_330 = addr_1 == 12'h326; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_331 = addr_1 == 12'hB06; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_332 = addr_1 == 12'hC06; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_333 = addr_1 == 12'h327; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_334 = addr_1 == 12'hB07; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_335 = addr_1 == 12'hC07; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_336 = addr_1 == 12'h328; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_337 = addr_1 == 12'hB08; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_338 = addr_1 == 12'hC08; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_339 = addr_1 == 12'h329; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_340 = addr_1 == 12'hB09; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_341 = addr_1 == 12'hC09; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_342 = addr_1 == 12'h32A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_343 = addr_1 == 12'hB0A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_344 = addr_1 == 12'hC0A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_345 = addr_1 == 12'h32B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_346 = addr_1 == 12'hB0B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_347 = addr_1 == 12'hC0B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_348 = addr_1 == 12'h32C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_349 = addr_1 == 12'hB0C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_350 = addr_1 == 12'hC0C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_351 = addr_1 == 12'h32D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_352 = addr_1 == 12'hB0D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_353 = addr_1 == 12'hC0D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_354 = addr_1 == 12'h32E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_355 = addr_1 == 12'hB0E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_356 = addr_1 == 12'hC0E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_357 = addr_1 == 12'h32F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_358 = addr_1 == 12'hB0F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_359 = addr_1 == 12'hC0F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_360 = addr_1 == 12'h330; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_361 = addr_1 == 12'hB10; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_362 = addr_1 == 12'hC10; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_363 = addr_1 == 12'h331; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_364 = addr_1 == 12'hB11; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_365 = addr_1 == 12'hC11; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_366 = addr_1 == 12'h332; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_367 = addr_1 == 12'hB12; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_368 = addr_1 == 12'hC12; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_369 = addr_1 == 12'h333; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_370 = addr_1 == 12'hB13; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_371 = addr_1 == 12'hC13; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_372 = addr_1 == 12'h334; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_373 = addr_1 == 12'hB14; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_374 = addr_1 == 12'hC14; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_375 = addr_1 == 12'h335; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_376 = addr_1 == 12'hB15; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_377 = addr_1 == 12'hC15; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_378 = addr_1 == 12'h336; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_379 = addr_1 == 12'hB16; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_380 = addr_1 == 12'hC16; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_381 = addr_1 == 12'h337; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_382 = addr_1 == 12'hB17; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_383 = addr_1 == 12'hC17; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_384 = addr_1 == 12'h338; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_385 = addr_1 == 12'hB18; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_386 = addr_1 == 12'hC18; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_387 = addr_1 == 12'h339; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_388 = addr_1 == 12'hB19; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_389 = addr_1 == 12'hC19; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_390 = addr_1 == 12'h33A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_391 = addr_1 == 12'hB1A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_392 = addr_1 == 12'hC1A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_393 = addr_1 == 12'h33B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_394 = addr_1 == 12'hB1B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_395 = addr_1 == 12'hC1B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_396 = addr_1 == 12'h33C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_397 = addr_1 == 12'hB1C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_398 = addr_1 == 12'hC1C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_399 = addr_1 == 12'h33D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_400 = addr_1 == 12'hB1D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_401 = addr_1 == 12'hC1D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_402 = addr_1 == 12'h33E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_403 = addr_1 == 12'hB1E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_404 = addr_1 == 12'hC1E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_405 = addr_1 == 12'h33F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_406 = addr_1 == 12'hB1F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_407 = addr_1 == 12'hC1F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_408 = addr_1 == 12'h306; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_409 = addr_1 == 12'hC00; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_410 = addr_1 == 12'hC02; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_411 = addr_1 == 12'h30A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_412 = addr_1 == 12'h100; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_413 = addr_1 == 12'h144; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_414 = addr_1 == 12'h104; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_415 = addr_1 == 12'h140; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_416 = addr_1 == 12'h142; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_417 = addr_1 == 12'h143; // @[CSR.scala:897:27, :899:93] wire _GEN_16 = addr_1 == 12'h180; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_418; // @[CSR.scala:899:93] assign _csr_exists_T_418 = _GEN_16; // @[CSR.scala:899:93] wire _io_decode_1_read_illegal_T_3; // @[CSR.scala:925:14] assign _io_decode_1_read_illegal_T_3 = _GEN_16; // @[CSR.scala:899:93, :925:14] wire _io_decode_1_virtual_access_illegal_T_24; // @[CSR.scala:947:12] assign _io_decode_1_virtual_access_illegal_T_24 = _GEN_16; // @[CSR.scala:899:93, :947:12] wire _csr_exists_T_419 = addr_1 == 12'h141; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_420 = addr_1 == 12'h105; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_421 = addr_1 == 12'h106; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_422 = addr_1 == 12'h303; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_423 = addr_1 == 12'h302; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_424 = addr_1 == 12'h10A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_425 = addr_1 == 12'h3A0; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_426 = addr_1 == 12'h3A2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_427 = addr_1 == 12'h3B0; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_428 = addr_1 == 12'h3B1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_429 = addr_1 == 12'h3B2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_430 = addr_1 == 12'h3B3; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_431 = addr_1 == 12'h3B4; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_432 = addr_1 == 12'h3B5; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_433 = addr_1 == 12'h3B6; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_434 = addr_1 == 12'h3B7; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_435 = addr_1 == 12'h3B8; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_436 = addr_1 == 12'h3B9; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_437 = addr_1 == 12'h3BA; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_438 = addr_1 == 12'h3BB; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_439 = addr_1 == 12'h3BC; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_440 = addr_1 == 12'h3BD; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_441 = addr_1 == 12'h3BE; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_442 = addr_1 == 12'h3BF; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_443 = addr_1 == 12'h7C1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_444 = addr_1 == 12'hF12; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_445 = addr_1 == 12'hF13; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_446 = addr_1 == 12'hF11; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_447 = addr_1 == 12'hF15; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_448 = _csr_exists_T_298 | _csr_exists_T_299; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_449 = _csr_exists_T_448 | _csr_exists_T_300; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_450 = _csr_exists_T_449 | _csr_exists_T_301; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_451 = _csr_exists_T_450 | _csr_exists_T_302; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_452 = _csr_exists_T_451 | _csr_exists_T_303; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_453 = _csr_exists_T_452 | _csr_exists_T_304; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_454 = _csr_exists_T_453 | _csr_exists_T_305; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_455 = _csr_exists_T_454 | _csr_exists_T_306; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_456 = _csr_exists_T_455 | _csr_exists_T_307; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_457 = _csr_exists_T_456 | _csr_exists_T_308; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_458 = _csr_exists_T_457 | _csr_exists_T_309; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_459 = _csr_exists_T_458 | _csr_exists_T_310; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_460 = _csr_exists_T_459 | _csr_exists_T_311; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_461 = _csr_exists_T_460 | _csr_exists_T_312; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_462 = _csr_exists_T_461 | _csr_exists_T_313; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_463 = _csr_exists_T_462 | _csr_exists_T_314; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_464 = _csr_exists_T_463 | _csr_exists_T_315; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_465 = _csr_exists_T_464 | _csr_exists_T_316; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_466 = _csr_exists_T_465 | _csr_exists_T_317; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_467 = _csr_exists_T_466 | _csr_exists_T_318; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_468 = _csr_exists_T_467 | _csr_exists_T_319; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_469 = _csr_exists_T_468 | _csr_exists_T_320; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_470 = _csr_exists_T_469 | _csr_exists_T_321; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_471 = _csr_exists_T_470 | _csr_exists_T_322; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_472 = _csr_exists_T_471 | _csr_exists_T_323; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_473 = _csr_exists_T_472 | _csr_exists_T_324; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_474 = _csr_exists_T_473 | _csr_exists_T_325; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_475 = _csr_exists_T_474 | _csr_exists_T_326; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_476 = _csr_exists_T_475 | _csr_exists_T_327; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_477 = _csr_exists_T_476 | _csr_exists_T_328; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_478 = _csr_exists_T_477 | _csr_exists_T_329; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_479 = _csr_exists_T_478 | _csr_exists_T_330; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_480 = _csr_exists_T_479 | _csr_exists_T_331; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_481 = _csr_exists_T_480 | _csr_exists_T_332; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_482 = _csr_exists_T_481 | _csr_exists_T_333; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_483 = _csr_exists_T_482 | _csr_exists_T_334; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_484 = _csr_exists_T_483 | _csr_exists_T_335; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_485 = _csr_exists_T_484 | _csr_exists_T_336; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_486 = _csr_exists_T_485 | _csr_exists_T_337; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_487 = _csr_exists_T_486 | _csr_exists_T_338; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_488 = _csr_exists_T_487 | _csr_exists_T_339; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_489 = _csr_exists_T_488 | _csr_exists_T_340; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_490 = _csr_exists_T_489 | _csr_exists_T_341; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_491 = _csr_exists_T_490 | _csr_exists_T_342; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_492 = _csr_exists_T_491 | _csr_exists_T_343; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_493 = _csr_exists_T_492 | _csr_exists_T_344; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_494 = _csr_exists_T_493 | _csr_exists_T_345; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_495 = _csr_exists_T_494 | _csr_exists_T_346; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_496 = _csr_exists_T_495 | _csr_exists_T_347; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_497 = _csr_exists_T_496 | _csr_exists_T_348; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_498 = _csr_exists_T_497 | _csr_exists_T_349; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_499 = _csr_exists_T_498 | _csr_exists_T_350; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_500 = _csr_exists_T_499 | _csr_exists_T_351; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_501 = _csr_exists_T_500 | _csr_exists_T_352; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_502 = _csr_exists_T_501 | _csr_exists_T_353; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_503 = _csr_exists_T_502 | _csr_exists_T_354; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_504 = _csr_exists_T_503 | _csr_exists_T_355; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_505 = _csr_exists_T_504 | _csr_exists_T_356; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_506 = _csr_exists_T_505 | _csr_exists_T_357; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_507 = _csr_exists_T_506 | _csr_exists_T_358; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_508 = _csr_exists_T_507 | _csr_exists_T_359; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_509 = _csr_exists_T_508 | _csr_exists_T_360; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_510 = _csr_exists_T_509 | _csr_exists_T_361; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_511 = _csr_exists_T_510 | _csr_exists_T_362; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_512 = _csr_exists_T_511 | _csr_exists_T_363; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_513 = _csr_exists_T_512 | _csr_exists_T_364; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_514 = _csr_exists_T_513 | _csr_exists_T_365; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_515 = _csr_exists_T_514 | _csr_exists_T_366; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_516 = _csr_exists_T_515 | _csr_exists_T_367; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_517 = _csr_exists_T_516 | _csr_exists_T_368; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_518 = _csr_exists_T_517 | _csr_exists_T_369; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_519 = _csr_exists_T_518 | _csr_exists_T_370; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_520 = _csr_exists_T_519 | _csr_exists_T_371; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_521 = _csr_exists_T_520 | _csr_exists_T_372; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_522 = _csr_exists_T_521 | _csr_exists_T_373; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_523 = _csr_exists_T_522 | _csr_exists_T_374; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_524 = _csr_exists_T_523 | _csr_exists_T_375; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_525 = _csr_exists_T_524 | _csr_exists_T_376; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_526 = _csr_exists_T_525 | _csr_exists_T_377; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_527 = _csr_exists_T_526 | _csr_exists_T_378; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_528 = _csr_exists_T_527 | _csr_exists_T_379; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_529 = _csr_exists_T_528 | _csr_exists_T_380; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_530 = _csr_exists_T_529 | _csr_exists_T_381; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_531 = _csr_exists_T_530 | _csr_exists_T_382; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_532 = _csr_exists_T_531 | _csr_exists_T_383; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_533 = _csr_exists_T_532 | _csr_exists_T_384; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_534 = _csr_exists_T_533 | _csr_exists_T_385; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_535 = _csr_exists_T_534 | _csr_exists_T_386; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_536 = _csr_exists_T_535 | _csr_exists_T_387; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_537 = _csr_exists_T_536 | _csr_exists_T_388; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_538 = _csr_exists_T_537 | _csr_exists_T_389; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_539 = _csr_exists_T_538 | _csr_exists_T_390; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_540 = _csr_exists_T_539 | _csr_exists_T_391; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_541 = _csr_exists_T_540 | _csr_exists_T_392; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_542 = _csr_exists_T_541 | _csr_exists_T_393; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_543 = _csr_exists_T_542 | _csr_exists_T_394; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_544 = _csr_exists_T_543 | _csr_exists_T_395; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_545 = _csr_exists_T_544 | _csr_exists_T_396; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_546 = _csr_exists_T_545 | _csr_exists_T_397; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_547 = _csr_exists_T_546 | _csr_exists_T_398; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_548 = _csr_exists_T_547 | _csr_exists_T_399; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_549 = _csr_exists_T_548 | _csr_exists_T_400; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_550 = _csr_exists_T_549 | _csr_exists_T_401; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_551 = _csr_exists_T_550 | _csr_exists_T_402; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_552 = _csr_exists_T_551 | _csr_exists_T_403; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_553 = _csr_exists_T_552 | _csr_exists_T_404; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_554 = _csr_exists_T_553 | _csr_exists_T_405; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_555 = _csr_exists_T_554 | _csr_exists_T_406; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_556 = _csr_exists_T_555 | _csr_exists_T_407; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_557 = _csr_exists_T_556 | _csr_exists_T_408; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_558 = _csr_exists_T_557 | _csr_exists_T_409; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_559 = _csr_exists_T_558 | _csr_exists_T_410; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_560 = _csr_exists_T_559 | _csr_exists_T_411; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_561 = _csr_exists_T_560 | _csr_exists_T_412; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_562 = _csr_exists_T_561 | _csr_exists_T_413; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_563 = _csr_exists_T_562 | _csr_exists_T_414; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_564 = _csr_exists_T_563 | _csr_exists_T_415; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_565 = _csr_exists_T_564 | _csr_exists_T_416; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_566 = _csr_exists_T_565 | _csr_exists_T_417; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_567 = _csr_exists_T_566 | _csr_exists_T_418; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_568 = _csr_exists_T_567 | _csr_exists_T_419; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_569 = _csr_exists_T_568 | _csr_exists_T_420; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_570 = _csr_exists_T_569 | _csr_exists_T_421; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_571 = _csr_exists_T_570 | _csr_exists_T_422; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_572 = _csr_exists_T_571 | _csr_exists_T_423; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_573 = _csr_exists_T_572 | _csr_exists_T_424; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_574 = _csr_exists_T_573 | _csr_exists_T_425; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_575 = _csr_exists_T_574 | _csr_exists_T_426; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_576 = _csr_exists_T_575 | _csr_exists_T_427; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_577 = _csr_exists_T_576 | _csr_exists_T_428; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_578 = _csr_exists_T_577 | _csr_exists_T_429; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_579 = _csr_exists_T_578 | _csr_exists_T_430; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_580 = _csr_exists_T_579 | _csr_exists_T_431; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_581 = _csr_exists_T_580 | _csr_exists_T_432; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_582 = _csr_exists_T_581 | _csr_exists_T_433; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_583 = _csr_exists_T_582 | _csr_exists_T_434; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_584 = _csr_exists_T_583 | _csr_exists_T_435; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_585 = _csr_exists_T_584 | _csr_exists_T_436; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_586 = _csr_exists_T_585 | _csr_exists_T_437; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_587 = _csr_exists_T_586 | _csr_exists_T_438; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_588 = _csr_exists_T_587 | _csr_exists_T_439; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_589 = _csr_exists_T_588 | _csr_exists_T_440; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_590 = _csr_exists_T_589 | _csr_exists_T_441; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_591 = _csr_exists_T_590 | _csr_exists_T_442; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_592 = _csr_exists_T_591 | _csr_exists_T_443; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_593 = _csr_exists_T_592 | _csr_exists_T_444; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_594 = _csr_exists_T_593 | _csr_exists_T_445; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_595 = _csr_exists_T_594 | _csr_exists_T_446; // @[CSR.scala:899:{93,111}] wire csr_exists_1 = _csr_exists_T_595 | _csr_exists_T_447; // @[CSR.scala:899:{93,111}] wire _io_decode_1_read_illegal_T = ~csr_addr_legal_1; // @[CSR.scala:920:60, :923:28] wire _io_decode_1_read_illegal_T_1 = ~csr_exists_1; // @[CSR.scala:899:111, :924:7] wire _io_decode_1_read_illegal_T_2 = _io_decode_1_read_illegal_T | _io_decode_1_read_illegal_T_1; // @[CSR.scala:923:{28,44}, :924:7] wire _io_decode_1_read_illegal_T_4 = addr_1 == 12'h680; // @[CSR.scala:897:27, :925:38] wire _io_decode_1_read_illegal_T_5 = _io_decode_1_read_illegal_T_3 | _io_decode_1_read_illegal_T_4; // @[CSR.scala:925:{14,30,38}] wire _io_decode_1_read_illegal_T_6 = ~allow_sfence_vma_1; // @[CSR.scala:907:70, :925:59] wire _io_decode_1_read_illegal_T_7 = _io_decode_1_read_illegal_T_5 & _io_decode_1_read_illegal_T_6; // @[CSR.scala:925:{30,56,59}] wire _io_decode_1_read_illegal_T_8 = _io_decode_1_read_illegal_T_2 | _io_decode_1_read_illegal_T_7; // @[CSR.scala:923:44, :924:19, :925:56] wire _io_decode_1_read_illegal_T_9 = ~allow_counter_1; // @[CSR.scala:913:91, :926:21] wire _io_decode_1_read_illegal_T_10 = is_counter_1 & _io_decode_1_read_illegal_T_9; // @[CSR.scala:904:81, :926:{18,21}] wire _io_decode_1_read_illegal_T_11 = _io_decode_1_read_illegal_T_8 | _io_decode_1_read_illegal_T_10; // @[CSR.scala:924:19, :925:78, :926:18] wire [11:0] io_decode_1_read_illegal_invInputs = ~io_decode_1_read_illegal_plaInput; // @[pla.scala:77:22, :78:21] wire io_decode_1_read_illegal_invMatrixOutputs; // @[pla.scala:124:31] wire io_decode_1_read_illegal_plaOutput; // @[pla.scala:81:23] wire _io_decode_1_read_illegal_T_12 = io_decode_1_read_illegal_plaOutput; // @[pla.scala:81:23] wire io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_0 = io_decode_1_read_illegal_plaInput[4]; // @[pla.scala:77:22, :90:45] wire io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_1 = io_decode_1_read_illegal_plaInput[5]; // @[pla.scala:77:22, :90:45] wire io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_2 = io_decode_1_read_illegal_invInputs[6]; // @[pla.scala:78:21, :91:29] wire io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_3 = io_decode_1_read_illegal_plaInput[7]; // @[pla.scala:77:22, :90:45] wire io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_4 = io_decode_1_read_illegal_plaInput[8]; // @[pla.scala:77:22, :90:45] wire io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_5 = io_decode_1_read_illegal_plaInput[9]; // @[pla.scala:77:22, :90:45] wire io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_6 = io_decode_1_read_illegal_plaInput[10]; // @[pla.scala:77:22, :90:45] wire io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_7 = io_decode_1_read_illegal_invInputs[11]; // @[pla.scala:78:21, :91:29] wire [1:0] io_decode_1_read_illegal_andMatrixOutputs_lo_lo = {io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_6, io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_7}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] io_decode_1_read_illegal_andMatrixOutputs_lo_hi = {io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_4, io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_5}; // @[pla.scala:90:45, :98:53] wire [3:0] io_decode_1_read_illegal_andMatrixOutputs_lo = {io_decode_1_read_illegal_andMatrixOutputs_lo_hi, io_decode_1_read_illegal_andMatrixOutputs_lo_lo}; // @[pla.scala:98:53] wire [1:0] io_decode_1_read_illegal_andMatrixOutputs_hi_lo = {io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_2, io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_3}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] io_decode_1_read_illegal_andMatrixOutputs_hi_hi = {io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_0, io_decode_1_read_illegal_andMatrixOutputs_andMatrixInput_1}; // @[pla.scala:90:45, :98:53] wire [3:0] io_decode_1_read_illegal_andMatrixOutputs_hi = {io_decode_1_read_illegal_andMatrixOutputs_hi_hi, io_decode_1_read_illegal_andMatrixOutputs_hi_lo}; // @[pla.scala:98:53] wire [7:0] _io_decode_1_read_illegal_andMatrixOutputs_T = {io_decode_1_read_illegal_andMatrixOutputs_hi, io_decode_1_read_illegal_andMatrixOutputs_lo}; // @[pla.scala:98:53] wire io_decode_1_read_illegal_andMatrixOutputs_0_2 = &_io_decode_1_read_illegal_andMatrixOutputs_T; // @[pla.scala:98:{53,70}] wire io_decode_1_read_illegal_orMatrixOutputs = io_decode_1_read_illegal_andMatrixOutputs_0_2; // @[pla.scala:98:70, :114:36] assign io_decode_1_read_illegal_invMatrixOutputs = io_decode_1_read_illegal_orMatrixOutputs; // @[pla.scala:114:36, :124:31] assign io_decode_1_read_illegal_plaOutput = io_decode_1_read_illegal_invMatrixOutputs; // @[pla.scala:81:23, :124:31] wire _io_decode_1_read_illegal_T_13 = ~reg_debug; // @[CSR.scala:482:26, :927:45] wire _io_decode_1_read_illegal_T_14 = _io_decode_1_read_illegal_T_12 & _io_decode_1_read_illegal_T_13; // @[Decode.scala:55:116] wire _io_decode_1_read_illegal_T_15 = _io_decode_1_read_illegal_T_11 | _io_decode_1_read_illegal_T_14; // @[CSR.scala:925:78, :926:36, :927:42] wire _io_decode_1_read_illegal_T_18 = _io_decode_1_read_illegal_T_15; // @[CSR.scala:926:36, :927:56] wire [11:0] io_decode_1_read_illegal_invInputs_1 = ~io_decode_1_read_illegal_plaInput_1; // @[pla.scala:77:22, :78:21] wire _io_decode_1_read_illegal_T_19 = io_decode_1_fp_csr_0 & io_decode_1_fp_illegal_0; // @[CSR.scala:377:7, :929:21] assign _io_decode_1_read_illegal_T_20 = _io_decode_1_read_illegal_T_18 | _io_decode_1_read_illegal_T_19; // @[CSR.scala:927:56, :928:68, :929:21] assign io_decode_1_read_illegal_0 = _io_decode_1_read_illegal_T_20; // @[CSR.scala:377:7, :928:68] wire [1:0] _io_decode_1_write_illegal_T = addr_1[11:10]; // @[CSR.scala:897:27, :930:33] assign _io_decode_1_write_illegal_T_1 = &_io_decode_1_write_illegal_T; // @[CSR.scala:930:{33,41}] assign io_decode_1_write_illegal_0 = _io_decode_1_write_illegal_T_1; // @[CSR.scala:377:7, :930:41] wire [11:0] io_decode_1_write_flush_addr_m = {_io_decode_1_write_illegal_T, addr_1[9:0] | 10'h300}; // @[CSR.scala:897:27, :930:33, :932:25] wire _io_decode_1_write_flush_T = io_decode_1_write_flush_addr_m > 12'h33F; // @[CSR.scala:932:25, :933:16] wire _io_decode_1_write_flush_T_1 = io_decode_1_write_flush_addr_m < 12'h344; // @[CSR.scala:932:25, :933:45] wire _io_decode_1_write_flush_T_2 = _io_decode_1_write_flush_T & _io_decode_1_write_flush_T_1; // @[CSR.scala:933:{16,35,45}] assign _io_decode_1_write_flush_T_3 = ~_io_decode_1_write_flush_T_2; // @[CSR.scala:933:{7,35}] assign io_decode_1_write_flush_0 = _io_decode_1_write_flush_T_3; // @[CSR.scala:377:7, :933:7] wire _io_decode_1_system_illegal_T = ~csr_addr_legal_1; // @[CSR.scala:920:60, :923:28, :935:30] wire _io_decode_1_system_illegal_T_1 = ~is_hlsv_1; // @[CSR.scala:903:82, :935:49] wire _io_decode_1_system_illegal_T_2 = _io_decode_1_system_illegal_T & _io_decode_1_system_illegal_T_1; // @[CSR.scala:935:{30,46,49}] wire _io_decode_1_system_illegal_T_3 = ~allow_wfi_1; // @[CSR.scala:906:71, :936:17] wire _io_decode_1_system_illegal_T_4 = is_wfi_1 & _io_decode_1_system_illegal_T_3; // @[CSR.scala:903:82, :936:{14,17}] wire _io_decode_1_system_illegal_T_5 = _io_decode_1_system_illegal_T_2 | _io_decode_1_system_illegal_T_4; // @[CSR.scala:935:{46,58}, :936:14] wire _io_decode_1_system_illegal_T_6 = ~allow_sret_1; // @[CSR.scala:910:72, :937:17] wire _io_decode_1_system_illegal_T_7 = is_ret_1 & _io_decode_1_system_illegal_T_6; // @[CSR.scala:903:82, :937:{14,17}] wire _io_decode_1_system_illegal_T_8 = _io_decode_1_system_illegal_T_5 | _io_decode_1_system_illegal_T_7; // @[CSR.scala:935:58, :936:28, :937:14] wire _io_decode_1_system_illegal_T_9 = addr_1[10]; // @[CSR.scala:897:27, :938:21] wire _io_decode_1_system_illegal_T_10 = is_ret_1 & _io_decode_1_system_illegal_T_9; // @[CSR.scala:903:82, :938:{14,21}] wire _io_decode_1_system_illegal_T_11 = addr_1[7]; // @[CSR.scala:897:27, :938:33] wire _io_decode_1_system_illegal_T_12 = _io_decode_1_system_illegal_T_10 & _io_decode_1_system_illegal_T_11; // @[CSR.scala:938:{14,26,33}] wire _io_decode_1_system_illegal_T_13 = ~reg_debug; // @[CSR.scala:482:26, :927:45, :938:40] wire _io_decode_1_system_illegal_T_14 = _io_decode_1_system_illegal_T_12 & _io_decode_1_system_illegal_T_13; // @[CSR.scala:938:{26,37,40}] wire _io_decode_1_system_illegal_T_15 = _io_decode_1_system_illegal_T_8 | _io_decode_1_system_illegal_T_14; // @[CSR.scala:936:28, :937:29, :938:37] wire _io_decode_1_system_illegal_T_16 = is_sfence_1 | is_hfence_gvma_1; // @[CSR.scala:903:82, :939:18] wire _io_decode_1_system_illegal_T_17 = ~allow_sfence_vma_1; // @[CSR.scala:907:70, :925:59, :939:40] wire _io_decode_1_system_illegal_T_18 = _io_decode_1_system_illegal_T_16 & _io_decode_1_system_illegal_T_17; // @[CSR.scala:939:{18,37,40}] wire _io_decode_1_system_illegal_T_19 = _io_decode_1_system_illegal_T_15 | _io_decode_1_system_illegal_T_18; // @[CSR.scala:937:29, :938:51, :939:37] wire _io_decode_1_system_illegal_T_22 = _io_decode_1_system_illegal_T_19; // @[CSR.scala:938:51, :939:58] assign _io_decode_1_system_illegal_T_25 = _io_decode_1_system_illegal_T_22; // @[CSR.scala:939:58, :940:44] assign io_decode_1_system_illegal_0 = _io_decode_1_system_illegal_T_25; // @[CSR.scala:377:7, :940:44] wire _io_decode_1_virtual_access_illegal_T = reg_mstatus_v & csr_exists_1; // @[CSR.scala:395:28, :899:111, :943:52] wire _io_decode_1_virtual_access_illegal_T_2 = _io_decode_1_virtual_access_illegal_T_1 == 2'h2; // @[CSR.scala:190:36, :944:22] wire _io_decode_1_virtual_access_illegal_T_4 = _io_decode_1_virtual_access_illegal_T_3[0]; // @[CSR.scala:945:36] wire _io_decode_1_virtual_access_illegal_T_5 = is_counter_1 & _io_decode_1_virtual_access_illegal_T_4; // @[CSR.scala:904:81, :945:{18,36}] wire _io_decode_1_virtual_access_illegal_T_7 = _io_decode_1_virtual_access_illegal_T_6[0]; // @[CSR.scala:945:71] wire _io_decode_1_virtual_access_illegal_T_8 = ~_io_decode_1_virtual_access_illegal_T_7; // @[CSR.scala:945:{55,71}] wire _io_decode_1_virtual_access_illegal_T_10 = ~_io_decode_1_virtual_access_illegal_T_9; // @[CSR.scala:945:{89,105}] wire _io_decode_1_virtual_access_illegal_T_12 = _io_decode_1_virtual_access_illegal_T_11[0]; // @[CSR.scala:945:128] wire _io_decode_1_virtual_access_illegal_T_13 = ~_io_decode_1_virtual_access_illegal_T_12; // @[CSR.scala:945:{112,128}] wire _io_decode_1_virtual_access_illegal_T_14 = _io_decode_1_virtual_access_illegal_T_10 & _io_decode_1_virtual_access_illegal_T_13; // @[CSR.scala:945:{89,109,112}] wire _io_decode_1_virtual_access_illegal_T_15 = _io_decode_1_virtual_access_illegal_T_8 | _io_decode_1_virtual_access_illegal_T_14; // @[CSR.scala:945:{55,86,109}] wire _io_decode_1_virtual_access_illegal_T_16 = _io_decode_1_virtual_access_illegal_T_5 & _io_decode_1_virtual_access_illegal_T_15; // @[CSR.scala:945:{18,51,86}] wire _io_decode_1_virtual_access_illegal_T_17 = _io_decode_1_virtual_access_illegal_T_2 | _io_decode_1_virtual_access_illegal_T_16; // @[CSR.scala:944:{22,34}, :945:51] wire _io_decode_1_virtual_access_illegal_T_19 = _io_decode_1_virtual_access_illegal_T_18 == 2'h1; // @[CSR.scala:190:36, :946:22] wire _io_decode_1_virtual_access_illegal_T_21 = ~_io_decode_1_virtual_access_illegal_T_20; // @[CSR.scala:946:{37,53}] wire _io_decode_1_virtual_access_illegal_T_22 = _io_decode_1_virtual_access_illegal_T_19 & _io_decode_1_virtual_access_illegal_T_21; // @[CSR.scala:946:{22,34,37}] wire _io_decode_1_virtual_access_illegal_T_23 = _io_decode_1_virtual_access_illegal_T_17 | _io_decode_1_virtual_access_illegal_T_22; // @[CSR.scala:944:34, :945:144, :946:34] wire _io_decode_1_virtual_access_illegal_T_28 = _io_decode_1_virtual_access_illegal_T_23; // @[CSR.scala:945:144, :946:57] wire _io_decode_1_virtual_access_illegal_T_26 = _io_decode_1_virtual_access_illegal_T_24 & _io_decode_1_virtual_access_illegal_T_25; // @[CSR.scala:947:{12,28,46}] assign _io_decode_1_virtual_access_illegal_T_29 = _io_decode_1_virtual_access_illegal_T & _io_decode_1_virtual_access_illegal_T_28; // @[CSR.scala:943:{52,66}, :946:57] assign io_decode_1_virtual_access_illegal_0 = _io_decode_1_virtual_access_illegal_T_29; // @[CSR.scala:377:7, :943:66] wire _io_decode_1_virtual_system_illegal_T = is_hfence_vvma_1 | is_hfence_gvma_1; // @[CSR.scala:903:82, :950:22] wire _io_decode_1_virtual_system_illegal_T_1 = _io_decode_1_virtual_system_illegal_T | is_hlsv_1; // @[CSR.scala:903:82, :950:22, :951:22] wire _io_decode_1_virtual_system_illegal_T_3 = ~_io_decode_1_virtual_system_illegal_T_2; // @[CSR.scala:953:{18,34}] wire _io_decode_1_virtual_system_illegal_T_6 = _io_decode_1_virtual_system_illegal_T_3; // @[CSR.scala:953:{18,38}] wire _io_decode_1_virtual_system_illegal_T_4 = ~reg_mstatus_tw; // @[CSR.scala:395:28, :906:74, :953:41] wire _io_decode_1_virtual_system_illegal_T_7 = is_wfi_1 & _io_decode_1_virtual_system_illegal_T_6; // @[CSR.scala:903:82, :953:{14,38}] wire _io_decode_1_virtual_system_illegal_T_8 = _io_decode_1_virtual_system_illegal_T_1 | _io_decode_1_virtual_system_illegal_T_7; // @[CSR.scala:951:22, :952:15, :953:14] wire _io_decode_1_virtual_system_illegal_T_10 = _io_decode_1_virtual_system_illegal_T_9 == 2'h1; // @[CSR.scala:190:36, :954:32] wire _io_decode_1_virtual_system_illegal_T_11 = is_ret_1 & _io_decode_1_virtual_system_illegal_T_10; // @[CSR.scala:903:82, :954:{14,32}] wire _io_decode_1_virtual_system_illegal_T_13 = ~_io_decode_1_virtual_system_illegal_T_12; // @[CSR.scala:954:{48,64}] wire _io_decode_1_virtual_system_illegal_T_14 = _io_decode_1_virtual_system_illegal_T_13; // @[CSR.scala:954:{48,68}] wire _io_decode_1_virtual_system_illegal_T_15 = _io_decode_1_virtual_system_illegal_T_11 & _io_decode_1_virtual_system_illegal_T_14; // @[CSR.scala:954:{14,44,68}] wire _io_decode_1_virtual_system_illegal_T_16 = _io_decode_1_virtual_system_illegal_T_8 | _io_decode_1_virtual_system_illegal_T_15; // @[CSR.scala:952:15, :953:77, :954:44] wire _io_decode_1_virtual_system_illegal_T_18 = ~_io_decode_1_virtual_system_illegal_T_17; // @[CSR.scala:955:{21,37}] wire _io_decode_1_virtual_system_illegal_T_19 = _io_decode_1_virtual_system_illegal_T_18; // @[CSR.scala:955:{21,41}] wire _io_decode_1_virtual_system_illegal_T_20 = is_sfence_1 & _io_decode_1_virtual_system_illegal_T_19; // @[CSR.scala:903:82, :955:{17,41}] wire _io_decode_1_virtual_system_illegal_T_21 = _io_decode_1_virtual_system_illegal_T_16 | _io_decode_1_virtual_system_illegal_T_20; // @[CSR.scala:953:77, :954:89, :955:17] assign _io_decode_1_virtual_system_illegal_T_22 = reg_mstatus_v & _io_decode_1_virtual_system_illegal_T_21; // @[CSR.scala:395:28, :949:52, :954:89] assign io_decode_1_virtual_system_illegal_0 = _io_decode_1_virtual_system_illegal_T_22; // @[CSR.scala:377:7, :949:52] wire [11:0] addr_2 = io_decode_2_inst_0[31:20]; // @[CSR.scala:377:7, :897:27] wire [11:0] io_decode_2_fp_csr_plaInput = addr_2; // @[pla.scala:77:22] wire [11:0] io_decode_2_vector_csr_plaInput = addr_2; // @[pla.scala:77:22] wire [11:0] io_decode_2_read_illegal_plaInput = addr_2; // @[pla.scala:77:22] wire [11:0] io_decode_2_read_illegal_plaInput_1 = addr_2; // @[pla.scala:77:22] wire [31:0] decoded_invInputs_3 = ~decoded_plaInput_3; // @[pla.scala:77:22, :78:21] wire [8:0] decoded_invMatrixOutputs_3; // @[pla.scala:120:37] wire [8:0] decoded_3; // @[pla.scala:81:23] wire decoded_andMatrixOutputs_andMatrixInput_0_21 = decoded_invInputs_3[20]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_21 = decoded_invInputs_3[21]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_22 = decoded_invInputs_3[21]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_18 = decoded_invInputs_3[22]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_19 = decoded_invInputs_3[22]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_23 = decoded_invInputs_3[22]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_18 = decoded_invInputs_3[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_19 = decoded_invInputs_3[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_20 = decoded_invInputs_3[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_24 = decoded_invInputs_3[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_26 = decoded_invInputs_3[23]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_18 = decoded_invInputs_3[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_19 = decoded_invInputs_3[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_20 = decoded_invInputs_3[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_21 = decoded_invInputs_3[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_2_23 = decoded_invInputs_3[24]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_18 = decoded_invInputs_3[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_19 = decoded_invInputs_3[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_20 = decoded_invInputs_3[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_21 = decoded_invInputs_3[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_23 = decoded_invInputs_3[25]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_6_18 = decoded_invInputs_3[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_6_19 = decoded_invInputs_3[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_20 = decoded_invInputs_3[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_21 = decoded_invInputs_3[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_11_11 = decoded_invInputs_3[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_23 = decoded_invInputs_3[26]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_7_18 = decoded_invInputs_3[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_7_19 = decoded_invInputs_3[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_6_20 = decoded_invInputs_3[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_21 = decoded_invInputs_3[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_12_3 = decoded_invInputs_3[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_5_23 = decoded_invInputs_3[27]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_18 = decoded_invInputs_3[28]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_19 = decoded_invInputs_3[28]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_18 = decoded_invInputs_3[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_19 = decoded_invInputs_3[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_7_21 = decoded_invInputs_3[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_14_3 = decoded_invInputs_3[29]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_10_9 = decoded_invInputs_3[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_10_10 = decoded_invInputs_3[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_20 = decoded_invInputs_3[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_21 = decoded_invInputs_3[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_15_3 = decoded_invInputs_3[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_23 = decoded_invInputs_3[30]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_11_9 = decoded_invInputs_3[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_11_10 = decoded_invInputs_3[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_20 = decoded_invInputs_3[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_21 = decoded_invInputs_3[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_16_3 = decoded_invInputs_3[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_23 = decoded_invInputs_3[31]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_1_27 = decoded_invInputs_3[31]; // @[pla.scala:78:21, :91:29] wire [1:0] decoded_andMatrixOutputs_lo_lo_hi_9 = {decoded_andMatrixOutputs_andMatrixInput_9_18, decoded_andMatrixOutputs_andMatrixInput_10_9}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_lo_18 = {decoded_andMatrixOutputs_lo_lo_hi_9, decoded_andMatrixOutputs_andMatrixInput_11_9}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_18 = {decoded_andMatrixOutputs_andMatrixInput_6_18, decoded_andMatrixOutputs_andMatrixInput_7_18}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_18 = {decoded_andMatrixOutputs_lo_hi_hi_18, decoded_andMatrixOutputs_andMatrixInput_8_18}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_lo_18 = {decoded_andMatrixOutputs_lo_hi_18, decoded_andMatrixOutputs_lo_lo_18}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_hi_9 = {decoded_andMatrixOutputs_andMatrixInput_3_18, decoded_andMatrixOutputs_andMatrixInput_4_18}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_lo_18 = {decoded_andMatrixOutputs_hi_lo_hi_9, decoded_andMatrixOutputs_andMatrixInput_5_18}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_18 = {decoded_andMatrixOutputs_andMatrixInput_0_21, decoded_andMatrixOutputs_andMatrixInput_1_21}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_18 = {decoded_andMatrixOutputs_hi_hi_hi_18, decoded_andMatrixOutputs_andMatrixInput_2_18}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_hi_18 = {decoded_andMatrixOutputs_hi_hi_18, decoded_andMatrixOutputs_hi_lo_18}; // @[pla.scala:98:53] wire [11:0] _decoded_andMatrixOutputs_T_21 = {decoded_andMatrixOutputs_hi_18, decoded_andMatrixOutputs_lo_18}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_6_2_3 = &_decoded_andMatrixOutputs_T_21; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_27 = decoded_andMatrixOutputs_6_2_3; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_0_22 = decoded_plaInput_3[20]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_hi_10 = {decoded_andMatrixOutputs_andMatrixInput_9_19, decoded_andMatrixOutputs_andMatrixInput_10_10}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_lo_19 = {decoded_andMatrixOutputs_lo_lo_hi_10, decoded_andMatrixOutputs_andMatrixInput_11_10}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_19 = {decoded_andMatrixOutputs_andMatrixInput_6_19, decoded_andMatrixOutputs_andMatrixInput_7_19}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_19 = {decoded_andMatrixOutputs_lo_hi_hi_19, decoded_andMatrixOutputs_andMatrixInput_8_19}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_lo_19 = {decoded_andMatrixOutputs_lo_hi_19, decoded_andMatrixOutputs_lo_lo_19}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_hi_10 = {decoded_andMatrixOutputs_andMatrixInput_3_19, decoded_andMatrixOutputs_andMatrixInput_4_19}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_lo_19 = {decoded_andMatrixOutputs_hi_lo_hi_10, decoded_andMatrixOutputs_andMatrixInput_5_19}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_19 = {decoded_andMatrixOutputs_andMatrixInput_0_22, decoded_andMatrixOutputs_andMatrixInput_1_22}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_19 = {decoded_andMatrixOutputs_hi_hi_hi_19, decoded_andMatrixOutputs_andMatrixInput_2_19}; // @[pla.scala:91:29, :98:53] wire [5:0] decoded_andMatrixOutputs_hi_19 = {decoded_andMatrixOutputs_hi_hi_19, decoded_andMatrixOutputs_hi_lo_19}; // @[pla.scala:98:53] wire [11:0] _decoded_andMatrixOutputs_T_22 = {decoded_andMatrixOutputs_hi_19, decoded_andMatrixOutputs_lo_19}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_4_2_3 = &_decoded_andMatrixOutputs_T_22; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_26 = decoded_andMatrixOutputs_4_2_3; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_0_23 = decoded_plaInput_3[0]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_0_25 = decoded_plaInput_3[0]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_7_20 = decoded_plaInput_3[28]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_6_21 = decoded_plaInput_3[28]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_13_3 = decoded_plaInput_3[28]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_6_23 = decoded_plaInput_3[28]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_20 = {decoded_andMatrixOutputs_andMatrixInput_8_20, decoded_andMatrixOutputs_andMatrixInput_9_20}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_20 = {decoded_andMatrixOutputs_andMatrixInput_5_20, decoded_andMatrixOutputs_andMatrixInput_6_20}; // @[pla.scala:91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_20 = {decoded_andMatrixOutputs_lo_hi_hi_20, decoded_andMatrixOutputs_andMatrixInput_7_20}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_andMatrixOutputs_lo_20 = {decoded_andMatrixOutputs_lo_hi_20, decoded_andMatrixOutputs_lo_lo_20}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_20 = {decoded_andMatrixOutputs_andMatrixInput_3_20, decoded_andMatrixOutputs_andMatrixInput_4_20}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_20 = {decoded_andMatrixOutputs_andMatrixInput_0_23, decoded_andMatrixOutputs_andMatrixInput_1_23}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_20 = {decoded_andMatrixOutputs_hi_hi_hi_20, decoded_andMatrixOutputs_andMatrixInput_2_20}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_20 = {decoded_andMatrixOutputs_hi_hi_20, decoded_andMatrixOutputs_hi_lo_20}; // @[pla.scala:98:53] wire [9:0] _decoded_andMatrixOutputs_T_23 = {decoded_andMatrixOutputs_hi_20, decoded_andMatrixOutputs_lo_20}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_3_2_3 = &_decoded_andMatrixOutputs_T_23; // @[pla.scala:98:{53,70}] wire decoded_andMatrixOutputs_andMatrixInput_0_24 = decoded_plaInput_3[22]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_0_26 = decoded_plaInput_3[22]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_21 = {decoded_andMatrixOutputs_andMatrixInput_8_21, decoded_andMatrixOutputs_andMatrixInput_9_21}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_21 = {decoded_andMatrixOutputs_andMatrixInput_5_21, decoded_andMatrixOutputs_andMatrixInput_6_21}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_21 = {decoded_andMatrixOutputs_lo_hi_hi_21, decoded_andMatrixOutputs_andMatrixInput_7_21}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_lo_21 = {decoded_andMatrixOutputs_lo_hi_21, decoded_andMatrixOutputs_lo_lo_21}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_21 = {decoded_andMatrixOutputs_andMatrixInput_3_21, decoded_andMatrixOutputs_andMatrixInput_4_21}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_21 = {decoded_andMatrixOutputs_andMatrixInput_0_24, decoded_andMatrixOutputs_andMatrixInput_1_24}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_21 = {decoded_andMatrixOutputs_hi_hi_hi_21, decoded_andMatrixOutputs_andMatrixInput_2_21}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_21 = {decoded_andMatrixOutputs_hi_hi_21, decoded_andMatrixOutputs_hi_lo_21}; // @[pla.scala:98:53] wire [9:0] _decoded_andMatrixOutputs_T_24 = {decoded_andMatrixOutputs_hi_21, decoded_andMatrixOutputs_lo_21}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_1_2_3 = &_decoded_andMatrixOutputs_T_24; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_22 = decoded_andMatrixOutputs_1_2_3; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_1_25 = decoded_plaInput_3[1]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_2_22 = decoded_invInputs_3[2]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_3_22 = decoded_invInputs_3[3]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_4_22 = decoded_plaInput_3[4]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_5_22 = decoded_plaInput_3[5]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_6_22 = decoded_plaInput_3[6]; // @[pla.scala:77:22, :90:45] wire decoded_andMatrixOutputs_andMatrixInput_7_22 = decoded_invInputs_3[7]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_8_22 = decoded_invInputs_3[8]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_9_22 = decoded_invInputs_3[9]; // @[pla.scala:78:21, :91:29] wire decoded_andMatrixOutputs_andMatrixInput_10_11 = decoded_plaInput_3[25]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_lo_3 = {decoded_andMatrixOutputs_andMatrixInput_15_3, decoded_andMatrixOutputs_andMatrixInput_16_3}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_lo_hi_11 = {decoded_andMatrixOutputs_andMatrixInput_13_3, decoded_andMatrixOutputs_andMatrixInput_14_3}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] decoded_andMatrixOutputs_lo_lo_22 = {decoded_andMatrixOutputs_lo_lo_hi_11, decoded_andMatrixOutputs_lo_lo_lo_3}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_lo_3 = {decoded_andMatrixOutputs_andMatrixInput_11_11, decoded_andMatrixOutputs_andMatrixInput_12_3}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_22 = {decoded_andMatrixOutputs_andMatrixInput_9_22, decoded_andMatrixOutputs_andMatrixInput_10_11}; // @[pla.scala:90:45, :91:29, :98:53] wire [3:0] decoded_andMatrixOutputs_lo_hi_22 = {decoded_andMatrixOutputs_lo_hi_hi_22, decoded_andMatrixOutputs_lo_hi_lo_3}; // @[pla.scala:98:53] wire [7:0] decoded_andMatrixOutputs_lo_22 = {decoded_andMatrixOutputs_lo_hi_22, decoded_andMatrixOutputs_lo_lo_22}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_lo_3 = {decoded_andMatrixOutputs_andMatrixInput_7_22, decoded_andMatrixOutputs_andMatrixInput_8_22}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_hi_11 = {decoded_andMatrixOutputs_andMatrixInput_5_22, decoded_andMatrixOutputs_andMatrixInput_6_22}; // @[pla.scala:90:45, :98:53] wire [3:0] decoded_andMatrixOutputs_hi_lo_22 = {decoded_andMatrixOutputs_hi_lo_hi_11, decoded_andMatrixOutputs_hi_lo_lo_3}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_lo_3 = {decoded_andMatrixOutputs_andMatrixInput_3_22, decoded_andMatrixOutputs_andMatrixInput_4_22}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_hi_3 = {decoded_andMatrixOutputs_andMatrixInput_0_25, decoded_andMatrixOutputs_andMatrixInput_1_25}; // @[pla.scala:90:45, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_hi_22 = {decoded_andMatrixOutputs_hi_hi_hi_hi_3, decoded_andMatrixOutputs_andMatrixInput_2_22}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_hi_22 = {decoded_andMatrixOutputs_hi_hi_hi_22, decoded_andMatrixOutputs_hi_hi_lo_3}; // @[pla.scala:98:53] wire [8:0] decoded_andMatrixOutputs_hi_22 = {decoded_andMatrixOutputs_hi_hi_22, decoded_andMatrixOutputs_hi_lo_22}; // @[pla.scala:98:53] wire [16:0] _decoded_andMatrixOutputs_T_25 = {decoded_andMatrixOutputs_hi_22, decoded_andMatrixOutputs_lo_22}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_0_2_3 = &_decoded_andMatrixOutputs_T_25; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_21 = decoded_andMatrixOutputs_0_2_3; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_7_23 = decoded_plaInput_3[29]; // @[pla.scala:77:22, :90:45] wire [1:0] decoded_andMatrixOutputs_lo_lo_23 = {decoded_andMatrixOutputs_andMatrixInput_8_23, decoded_andMatrixOutputs_andMatrixInput_9_23}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_lo_hi_hi_23 = {decoded_andMatrixOutputs_andMatrixInput_5_23, decoded_andMatrixOutputs_andMatrixInput_6_23}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_lo_hi_23 = {decoded_andMatrixOutputs_lo_hi_hi_23, decoded_andMatrixOutputs_andMatrixInput_7_23}; // @[pla.scala:90:45, :98:53] wire [4:0] decoded_andMatrixOutputs_lo_23 = {decoded_andMatrixOutputs_lo_hi_23, decoded_andMatrixOutputs_lo_lo_23}; // @[pla.scala:98:53] wire [1:0] decoded_andMatrixOutputs_hi_lo_23 = {decoded_andMatrixOutputs_andMatrixInput_3_23, decoded_andMatrixOutputs_andMatrixInput_4_23}; // @[pla.scala:91:29, :98:53] wire [1:0] decoded_andMatrixOutputs_hi_hi_hi_23 = {decoded_andMatrixOutputs_andMatrixInput_0_26, decoded_andMatrixOutputs_andMatrixInput_1_26}; // @[pla.scala:90:45, :91:29, :98:53] wire [2:0] decoded_andMatrixOutputs_hi_hi_23 = {decoded_andMatrixOutputs_hi_hi_hi_23, decoded_andMatrixOutputs_andMatrixInput_2_23}; // @[pla.scala:91:29, :98:53] wire [4:0] decoded_andMatrixOutputs_hi_23 = {decoded_andMatrixOutputs_hi_hi_23, decoded_andMatrixOutputs_hi_lo_23}; // @[pla.scala:98:53] wire [9:0] _decoded_andMatrixOutputs_T_26 = {decoded_andMatrixOutputs_hi_23, decoded_andMatrixOutputs_lo_23}; // @[pla.scala:98:53] wire decoded_andMatrixOutputs_5_2_3 = &_decoded_andMatrixOutputs_T_26; // @[pla.scala:98:{53,70}] wire _decoded_orMatrixOutputs_T_23 = decoded_andMatrixOutputs_5_2_3; // @[pla.scala:98:70, :114:36] wire decoded_andMatrixOutputs_andMatrixInput_0_27 = decoded_plaInput_3[30]; // @[pla.scala:77:22, :90:45] wire [1:0] _decoded_andMatrixOutputs_T_27 = {decoded_andMatrixOutputs_andMatrixInput_0_27, decoded_andMatrixOutputs_andMatrixInput_1_27}; // @[pla.scala:90:45, :91:29, :98:53] wire decoded_andMatrixOutputs_2_2_3 = &_decoded_andMatrixOutputs_T_27; // @[pla.scala:98:{53,70}] wire [1:0] _decoded_orMatrixOutputs_T_24 = {decoded_andMatrixOutputs_3_2_3, decoded_andMatrixOutputs_2_2_3}; // @[pla.scala:98:70, :114:19] wire _decoded_orMatrixOutputs_T_25 = |_decoded_orMatrixOutputs_T_24; // @[pla.scala:114:{19,36}] wire [1:0] decoded_orMatrixOutputs_lo_hi_3 = {_decoded_orMatrixOutputs_T_21, 1'h0}; // @[pla.scala:102:36, :114:36] wire [3:0] decoded_orMatrixOutputs_lo_3 = {decoded_orMatrixOutputs_lo_hi_3, 2'h0}; // @[pla.scala:102:36] wire [1:0] decoded_orMatrixOutputs_hi_lo_3 = {_decoded_orMatrixOutputs_T_23, _decoded_orMatrixOutputs_T_22}; // @[pla.scala:102:36, :114:36] wire [1:0] decoded_orMatrixOutputs_hi_hi_hi_3 = {_decoded_orMatrixOutputs_T_27, _decoded_orMatrixOutputs_T_26}; // @[pla.scala:102:36, :114:36] wire [2:0] decoded_orMatrixOutputs_hi_hi_3 = {decoded_orMatrixOutputs_hi_hi_hi_3, _decoded_orMatrixOutputs_T_25}; // @[pla.scala:102:36, :114:36] wire [4:0] decoded_orMatrixOutputs_hi_3 = {decoded_orMatrixOutputs_hi_hi_3, decoded_orMatrixOutputs_hi_lo_3}; // @[pla.scala:102:36] wire [8:0] decoded_orMatrixOutputs_3 = {decoded_orMatrixOutputs_hi_3, decoded_orMatrixOutputs_lo_3}; // @[pla.scala:102:36] wire _decoded_invMatrixOutputs_T_27 = decoded_orMatrixOutputs_3[0]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_28 = decoded_orMatrixOutputs_3[1]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_29 = decoded_orMatrixOutputs_3[2]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_30 = decoded_orMatrixOutputs_3[3]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_31 = decoded_orMatrixOutputs_3[4]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_32 = decoded_orMatrixOutputs_3[5]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_33 = decoded_orMatrixOutputs_3[6]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_34 = decoded_orMatrixOutputs_3[7]; // @[pla.scala:102:36, :124:31] wire _decoded_invMatrixOutputs_T_35 = decoded_orMatrixOutputs_3[8]; // @[pla.scala:102:36, :124:31] wire [1:0] decoded_invMatrixOutputs_lo_lo_3 = {_decoded_invMatrixOutputs_T_28, _decoded_invMatrixOutputs_T_27}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_invMatrixOutputs_lo_hi_3 = {_decoded_invMatrixOutputs_T_30, _decoded_invMatrixOutputs_T_29}; // @[pla.scala:120:37, :124:31] wire [3:0] decoded_invMatrixOutputs_lo_3 = {decoded_invMatrixOutputs_lo_hi_3, decoded_invMatrixOutputs_lo_lo_3}; // @[pla.scala:120:37] wire [1:0] decoded_invMatrixOutputs_hi_lo_3 = {_decoded_invMatrixOutputs_T_32, _decoded_invMatrixOutputs_T_31}; // @[pla.scala:120:37, :124:31] wire [1:0] decoded_invMatrixOutputs_hi_hi_hi_3 = {_decoded_invMatrixOutputs_T_35, _decoded_invMatrixOutputs_T_34}; // @[pla.scala:120:37, :124:31] wire [2:0] decoded_invMatrixOutputs_hi_hi_3 = {decoded_invMatrixOutputs_hi_hi_hi_3, _decoded_invMatrixOutputs_T_33}; // @[pla.scala:120:37, :124:31] wire [4:0] decoded_invMatrixOutputs_hi_3 = {decoded_invMatrixOutputs_hi_hi_3, decoded_invMatrixOutputs_hi_lo_3}; // @[pla.scala:120:37] assign decoded_invMatrixOutputs_3 = {decoded_invMatrixOutputs_hi_3, decoded_invMatrixOutputs_lo_3}; // @[pla.scala:120:37] assign decoded_3 = decoded_invMatrixOutputs_3; // @[pla.scala:81:23, :120:37] wire is_break_2 = decoded_3[7]; // @[pla.scala:81:23] wire is_ret_2 = decoded_3[6]; // @[pla.scala:81:23] wire is_wfi_2 = decoded_3[4]; // @[pla.scala:81:23] wire is_sfence_2 = decoded_3[3]; // @[pla.scala:81:23] wire is_hfence_vvma_2 = decoded_3[2]; // @[pla.scala:81:23] wire is_hfence_gvma_2 = decoded_3[1]; // @[pla.scala:81:23] wire is_hlsv_2 = decoded_3[0]; // @[pla.scala:81:23] wire _is_counter_T_12 = addr_2 > 12'hBFF; // @[package.scala:213:47] wire _is_counter_T_13 = addr_2 < 12'hC20; // @[package.scala:213:60] wire _is_counter_T_14 = _is_counter_T_12 & _is_counter_T_13; // @[package.scala:213:{47,55,60}] wire _is_counter_T_15 = addr_2 > 12'hC7F; // @[package.scala:213:47] wire _is_counter_T_16 = addr_2 < 12'hCA0; // @[package.scala:213:60] wire _is_counter_T_17 = _is_counter_T_15 & _is_counter_T_16; // @[package.scala:213:{47,55,60}] wire is_counter_2 = _is_counter_T_14 | _is_counter_T_17; // @[package.scala:213:55] wire _allow_wfi_T_15 = _allow_wfi_T_14; // @[CSR.scala:906:{42,61}] wire _allow_wfi_T_16 = ~reg_mstatus_tw; // @[CSR.scala:395:28, :906:74] wire _allow_wfi_T_20 = _allow_wfi_T_16; // @[CSR.scala:906:{74,90}] wire _allow_wfi_T_17 = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94] wire allow_wfi_2 = _allow_wfi_T_15 | _allow_wfi_T_20; // @[CSR.scala:906:{42,71,90}] wire _allow_sfence_vma_T_9 = _allow_sfence_vma_T_8; // @[CSR.scala:907:{41,60}] wire _allow_sfence_vma_T_11 = ~_allow_sfence_vma_T_10; // @[CSR.scala:907:{73,77}] wire allow_sfence_vma_2 = _allow_sfence_vma_T_9 | _allow_sfence_vma_T_11; // @[CSR.scala:907:{41,70,73}] wire _allow_hfence_vvma_T_6 = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94, :908:53] wire _allow_hfence_vvma_T_7 = |reg_mstatus_prv; // @[CSR.scala:395:28, :908:88] wire _allow_hfence_vvma_T_8 = _allow_hfence_vvma_T_6 & _allow_hfence_vvma_T_7; // @[CSR.scala:908:{53,68,88}] wire _allow_hlsv_T_8 = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94, :909:46] wire _allow_hlsv_T_9 = |reg_mstatus_prv; // @[CSR.scala:395:28, :908:88, :909:81] wire _allow_hlsv_T_10 = _allow_hlsv_T_9; // @[CSR.scala:909:{81,92}] wire _allow_hlsv_T_11 = _allow_hlsv_T_8 & _allow_hlsv_T_10; // @[CSR.scala:909:{46,61,92}] wire _allow_sret_T_9 = _allow_sret_T_8; // @[CSR.scala:910:{43,62}] wire _allow_sret_T_11 = ~_allow_sret_T_10; // @[CSR.scala:910:{75,79}] wire allow_sret_2 = _allow_sret_T_9 | _allow_sret_T_11; // @[CSR.scala:910:{43,72,75}] wire [4:0] counter_addr_2 = addr_2[4:0]; // @[CSR.scala:897:27, :911:28] wire [31:0] _GEN_17 = {27'h0, counter_addr_2}; // @[CSR.scala:911:28, :912:70] wire [31:0] _GEN_18 = read_mcounteren >> _GEN_17; // @[CSR.scala:532:14, :912:70] wire [31:0] _allow_counter_T_35; // @[CSR.scala:912:70] assign _allow_counter_T_35 = _GEN_18; // @[CSR.scala:912:70] wire [31:0] _io_decode_2_virtual_access_illegal_T_3; // @[CSR.scala:945:36] assign _io_decode_2_virtual_access_illegal_T_3 = _GEN_18; // @[CSR.scala:912:70, :945:36] wire _allow_counter_T_36 = _allow_counter_T_35[0]; // @[CSR.scala:912:70] wire _allow_counter_T_37 = _allow_counter_T_34 | _allow_counter_T_36; // @[CSR.scala:912:{42,52,70}] wire _allow_counter_T_39 = |reg_mstatus_prv; // @[CSR.scala:395:28, :908:88, :913:46] wire _allow_counter_T_40 = _allow_counter_T_39; // @[CSR.scala:913:{27,46}] wire [31:0] _GEN_19 = read_scounteren >> _GEN_17; // @[CSR.scala:536:14, :912:70, :913:75] wire [31:0] _allow_counter_T_41; // @[CSR.scala:913:75] assign _allow_counter_T_41 = _GEN_19; // @[CSR.scala:913:75] wire [31:0] _io_decode_2_virtual_access_illegal_T_11; // @[CSR.scala:945:128] assign _io_decode_2_virtual_access_illegal_T_11 = _GEN_19; // @[CSR.scala:913:75, :945:128] wire _allow_counter_T_42 = _allow_counter_T_41[0]; // @[CSR.scala:913:75] wire _allow_counter_T_43 = _allow_counter_T_40 | _allow_counter_T_42; // @[CSR.scala:913:{27,57,75}] wire _allow_counter_T_44 = _allow_counter_T_37 & _allow_counter_T_43; // @[CSR.scala:912:{52,86}, :913:57] wire allow_counter_2 = _allow_counter_T_44; // @[CSR.scala:912:86, :913:91] wire _allow_counter_T_46 = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94, :914:30] wire [31:0] _GEN_20 = 32'h0 >> _GEN_17; // @[CSR.scala:912:70, :914:63] wire [31:0] _allow_counter_T_48; // @[CSR.scala:914:63] assign _allow_counter_T_48 = _GEN_20; // @[CSR.scala:914:63] wire [31:0] _io_decode_2_virtual_access_illegal_T_6; // @[CSR.scala:945:71] assign _io_decode_2_virtual_access_illegal_T_6 = _GEN_20; // @[CSR.scala:914:63, :945:71] wire _allow_counter_T_49 = _allow_counter_T_48[0]; // @[CSR.scala:914:63] wire _io_decode_2_fp_illegal_T_3 = _io_decode_2_fp_illegal_T; // @[CSR.scala:915:{39,47}] assign _io_decode_2_fp_illegal_T_6 = _io_decode_2_fp_illegal_T_3; // @[CSR.scala:915:{47,91}] assign io_decode_2_fp_illegal_0 = _io_decode_2_fp_illegal_T_6; // @[CSR.scala:377:7, :915:91] wire _io_decode_2_vector_illegal_T_2 = reg_mstatus_v & _io_decode_2_vector_illegal_T_1; // @[CSR.scala:395:28, :916:{68,87}] wire [11:0] io_decode_2_fp_csr_invInputs = ~io_decode_2_fp_csr_plaInput; // @[pla.scala:77:22, :78:21] wire io_decode_2_fp_csr_invMatrixOutputs; // @[pla.scala:124:31] wire io_decode_2_fp_csr_plaOutput; // @[pla.scala:81:23] assign _io_decode_2_fp_csr_T = io_decode_2_fp_csr_plaOutput; // @[pla.scala:81:23] wire io_decode_2_fp_csr_andMatrixOutputs_andMatrixInput_0 = io_decode_2_fp_csr_invInputs[8]; // @[pla.scala:78:21, :91:29] wire io_decode_2_fp_csr_andMatrixOutputs_andMatrixInput_1 = io_decode_2_fp_csr_invInputs[9]; // @[pla.scala:78:21, :91:29] wire io_decode_2_fp_csr_andMatrixOutputs_andMatrixInput_2 = io_decode_2_fp_csr_invInputs[10]; // @[pla.scala:78:21, :91:29] wire io_decode_2_fp_csr_andMatrixOutputs_andMatrixInput_3 = io_decode_2_fp_csr_invInputs[11]; // @[pla.scala:78:21, :91:29] wire [1:0] io_decode_2_fp_csr_andMatrixOutputs_lo = {io_decode_2_fp_csr_andMatrixOutputs_andMatrixInput_2, io_decode_2_fp_csr_andMatrixOutputs_andMatrixInput_3}; // @[pla.scala:91:29, :98:53] wire [1:0] io_decode_2_fp_csr_andMatrixOutputs_hi = {io_decode_2_fp_csr_andMatrixOutputs_andMatrixInput_0, io_decode_2_fp_csr_andMatrixOutputs_andMatrixInput_1}; // @[pla.scala:91:29, :98:53] wire [3:0] _io_decode_2_fp_csr_andMatrixOutputs_T = {io_decode_2_fp_csr_andMatrixOutputs_hi, io_decode_2_fp_csr_andMatrixOutputs_lo}; // @[pla.scala:98:53] wire io_decode_2_fp_csr_andMatrixOutputs_0_2 = &_io_decode_2_fp_csr_andMatrixOutputs_T; // @[pla.scala:98:{53,70}] wire io_decode_2_fp_csr_orMatrixOutputs = io_decode_2_fp_csr_andMatrixOutputs_0_2; // @[pla.scala:98:70, :114:36] assign io_decode_2_fp_csr_invMatrixOutputs = io_decode_2_fp_csr_orMatrixOutputs; // @[pla.scala:114:36, :124:31] assign io_decode_2_fp_csr_plaOutput = io_decode_2_fp_csr_invMatrixOutputs; // @[pla.scala:81:23, :124:31] assign io_decode_2_fp_csr_0 = _io_decode_2_fp_csr_T; // @[Decode.scala:55:116] wire [11:0] io_decode_2_vector_csr_invInputs = ~io_decode_2_vector_csr_plaInput; // @[pla.scala:77:22, :78:21] wire [1:0] _csr_addr_legal_T_18 = addr_2[9:8]; // @[CSR.scala:190:36, :897:27] wire [1:0] _csr_addr_legal_T_24 = addr_2[9:8]; // @[CSR.scala:190:36, :897:27] wire [1:0] _io_decode_2_virtual_access_illegal_T_1 = addr_2[9:8]; // @[CSR.scala:190:36, :897:27] wire [1:0] _io_decode_2_virtual_access_illegal_T_18 = addr_2[9:8]; // @[CSR.scala:190:36, :897:27] wire [1:0] _io_decode_2_virtual_system_illegal_T_9 = addr_2[9:8]; // @[CSR.scala:190:36, :897:27] wire _csr_addr_legal_T_19 = reg_mstatus_prv >= _csr_addr_legal_T_18; // @[CSR.scala:190:36, :395:28, :920:42] wire csr_addr_legal_2 = _csr_addr_legal_T_19; // @[CSR.scala:920:{42,60}] wire _csr_addr_legal_T_20 = ~reg_mstatus_v; // @[CSR.scala:395:28, :906:94, :921:28] wire _csr_addr_legal_T_25 = _csr_addr_legal_T_24 == 2'h2; // @[CSR.scala:190:36, :921:92] wire _csr_exists_T_596 = addr_2 == 12'h7A0; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_597 = addr_2 == 12'h7A1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_598 = addr_2 == 12'h7A2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_599 = addr_2 == 12'h7A3; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_600 = addr_2 == 12'h301; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_601 = addr_2 == 12'h300; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_602 = addr_2 == 12'h305; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_603 = addr_2 == 12'h344; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_604 = addr_2 == 12'h304; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_605 = addr_2 == 12'h340; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_606 = addr_2 == 12'h341; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_607 = addr_2 == 12'h343; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_608 = addr_2 == 12'h342; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_609 = addr_2 == 12'hF14; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_610 = addr_2 == 12'h7B0; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_611 = addr_2 == 12'h7B1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_612 = addr_2 == 12'h7B2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_613 = addr_2 == 12'h1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_614 = addr_2 == 12'h2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_615 = addr_2 == 12'h3; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_616 = addr_2 == 12'h320; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_617 = addr_2 == 12'hB00; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_618 = addr_2 == 12'hB02; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_619 = addr_2 == 12'h323; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_620 = addr_2 == 12'hB03; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_621 = addr_2 == 12'hC03; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_622 = addr_2 == 12'h324; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_623 = addr_2 == 12'hB04; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_624 = addr_2 == 12'hC04; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_625 = addr_2 == 12'h325; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_626 = addr_2 == 12'hB05; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_627 = addr_2 == 12'hC05; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_628 = addr_2 == 12'h326; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_629 = addr_2 == 12'hB06; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_630 = addr_2 == 12'hC06; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_631 = addr_2 == 12'h327; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_632 = addr_2 == 12'hB07; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_633 = addr_2 == 12'hC07; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_634 = addr_2 == 12'h328; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_635 = addr_2 == 12'hB08; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_636 = addr_2 == 12'hC08; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_637 = addr_2 == 12'h329; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_638 = addr_2 == 12'hB09; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_639 = addr_2 == 12'hC09; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_640 = addr_2 == 12'h32A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_641 = addr_2 == 12'hB0A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_642 = addr_2 == 12'hC0A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_643 = addr_2 == 12'h32B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_644 = addr_2 == 12'hB0B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_645 = addr_2 == 12'hC0B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_646 = addr_2 == 12'h32C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_647 = addr_2 == 12'hB0C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_648 = addr_2 == 12'hC0C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_649 = addr_2 == 12'h32D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_650 = addr_2 == 12'hB0D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_651 = addr_2 == 12'hC0D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_652 = addr_2 == 12'h32E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_653 = addr_2 == 12'hB0E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_654 = addr_2 == 12'hC0E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_655 = addr_2 == 12'h32F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_656 = addr_2 == 12'hB0F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_657 = addr_2 == 12'hC0F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_658 = addr_2 == 12'h330; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_659 = addr_2 == 12'hB10; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_660 = addr_2 == 12'hC10; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_661 = addr_2 == 12'h331; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_662 = addr_2 == 12'hB11; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_663 = addr_2 == 12'hC11; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_664 = addr_2 == 12'h332; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_665 = addr_2 == 12'hB12; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_666 = addr_2 == 12'hC12; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_667 = addr_2 == 12'h333; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_668 = addr_2 == 12'hB13; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_669 = addr_2 == 12'hC13; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_670 = addr_2 == 12'h334; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_671 = addr_2 == 12'hB14; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_672 = addr_2 == 12'hC14; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_673 = addr_2 == 12'h335; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_674 = addr_2 == 12'hB15; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_675 = addr_2 == 12'hC15; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_676 = addr_2 == 12'h336; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_677 = addr_2 == 12'hB16; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_678 = addr_2 == 12'hC16; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_679 = addr_2 == 12'h337; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_680 = addr_2 == 12'hB17; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_681 = addr_2 == 12'hC17; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_682 = addr_2 == 12'h338; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_683 = addr_2 == 12'hB18; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_684 = addr_2 == 12'hC18; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_685 = addr_2 == 12'h339; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_686 = addr_2 == 12'hB19; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_687 = addr_2 == 12'hC19; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_688 = addr_2 == 12'h33A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_689 = addr_2 == 12'hB1A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_690 = addr_2 == 12'hC1A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_691 = addr_2 == 12'h33B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_692 = addr_2 == 12'hB1B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_693 = addr_2 == 12'hC1B; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_694 = addr_2 == 12'h33C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_695 = addr_2 == 12'hB1C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_696 = addr_2 == 12'hC1C; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_697 = addr_2 == 12'h33D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_698 = addr_2 == 12'hB1D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_699 = addr_2 == 12'hC1D; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_700 = addr_2 == 12'h33E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_701 = addr_2 == 12'hB1E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_702 = addr_2 == 12'hC1E; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_703 = addr_2 == 12'h33F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_704 = addr_2 == 12'hB1F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_705 = addr_2 == 12'hC1F; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_706 = addr_2 == 12'h306; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_707 = addr_2 == 12'hC00; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_708 = addr_2 == 12'hC02; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_709 = addr_2 == 12'h30A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_710 = addr_2 == 12'h100; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_711 = addr_2 == 12'h144; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_712 = addr_2 == 12'h104; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_713 = addr_2 == 12'h140; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_714 = addr_2 == 12'h142; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_715 = addr_2 == 12'h143; // @[CSR.scala:897:27, :899:93] wire _GEN_21 = addr_2 == 12'h180; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_716; // @[CSR.scala:899:93] assign _csr_exists_T_716 = _GEN_21; // @[CSR.scala:899:93] wire _io_decode_2_read_illegal_T_3; // @[CSR.scala:925:14] assign _io_decode_2_read_illegal_T_3 = _GEN_21; // @[CSR.scala:899:93, :925:14] wire _io_decode_2_virtual_access_illegal_T_24; // @[CSR.scala:947:12] assign _io_decode_2_virtual_access_illegal_T_24 = _GEN_21; // @[CSR.scala:899:93, :947:12] wire _csr_exists_T_717 = addr_2 == 12'h141; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_718 = addr_2 == 12'h105; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_719 = addr_2 == 12'h106; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_720 = addr_2 == 12'h303; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_721 = addr_2 == 12'h302; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_722 = addr_2 == 12'h10A; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_723 = addr_2 == 12'h3A0; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_724 = addr_2 == 12'h3A2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_725 = addr_2 == 12'h3B0; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_726 = addr_2 == 12'h3B1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_727 = addr_2 == 12'h3B2; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_728 = addr_2 == 12'h3B3; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_729 = addr_2 == 12'h3B4; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_730 = addr_2 == 12'h3B5; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_731 = addr_2 == 12'h3B6; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_732 = addr_2 == 12'h3B7; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_733 = addr_2 == 12'h3B8; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_734 = addr_2 == 12'h3B9; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_735 = addr_2 == 12'h3BA; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_736 = addr_2 == 12'h3BB; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_737 = addr_2 == 12'h3BC; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_738 = addr_2 == 12'h3BD; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_739 = addr_2 == 12'h3BE; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_740 = addr_2 == 12'h3BF; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_741 = addr_2 == 12'h7C1; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_742 = addr_2 == 12'hF12; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_743 = addr_2 == 12'hF13; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_744 = addr_2 == 12'hF11; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_745 = addr_2 == 12'hF15; // @[CSR.scala:897:27, :899:93] wire _csr_exists_T_746 = _csr_exists_T_596 | _csr_exists_T_597; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_747 = _csr_exists_T_746 | _csr_exists_T_598; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_748 = _csr_exists_T_747 | _csr_exists_T_599; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_749 = _csr_exists_T_748 | _csr_exists_T_600; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_750 = _csr_exists_T_749 | _csr_exists_T_601; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_751 = _csr_exists_T_750 | _csr_exists_T_602; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_752 = _csr_exists_T_751 | _csr_exists_T_603; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_753 = _csr_exists_T_752 | _csr_exists_T_604; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_754 = _csr_exists_T_753 | _csr_exists_T_605; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_755 = _csr_exists_T_754 | _csr_exists_T_606; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_756 = _csr_exists_T_755 | _csr_exists_T_607; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_757 = _csr_exists_T_756 | _csr_exists_T_608; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_758 = _csr_exists_T_757 | _csr_exists_T_609; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_759 = _csr_exists_T_758 | _csr_exists_T_610; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_760 = _csr_exists_T_759 | _csr_exists_T_611; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_761 = _csr_exists_T_760 | _csr_exists_T_612; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_762 = _csr_exists_T_761 | _csr_exists_T_613; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_763 = _csr_exists_T_762 | _csr_exists_T_614; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_764 = _csr_exists_T_763 | _csr_exists_T_615; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_765 = _csr_exists_T_764 | _csr_exists_T_616; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_766 = _csr_exists_T_765 | _csr_exists_T_617; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_767 = _csr_exists_T_766 | _csr_exists_T_618; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_768 = _csr_exists_T_767 | _csr_exists_T_619; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_769 = _csr_exists_T_768 | _csr_exists_T_620; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_770 = _csr_exists_T_769 | _csr_exists_T_621; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_771 = _csr_exists_T_770 | _csr_exists_T_622; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_772 = _csr_exists_T_771 | _csr_exists_T_623; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_773 = _csr_exists_T_772 | _csr_exists_T_624; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_774 = _csr_exists_T_773 | _csr_exists_T_625; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_775 = _csr_exists_T_774 | _csr_exists_T_626; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_776 = _csr_exists_T_775 | _csr_exists_T_627; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_777 = _csr_exists_T_776 | _csr_exists_T_628; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_778 = _csr_exists_T_777 | _csr_exists_T_629; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_779 = _csr_exists_T_778 | _csr_exists_T_630; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_780 = _csr_exists_T_779 | _csr_exists_T_631; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_781 = _csr_exists_T_780 | _csr_exists_T_632; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_782 = _csr_exists_T_781 | _csr_exists_T_633; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_783 = _csr_exists_T_782 | _csr_exists_T_634; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_784 = _csr_exists_T_783 | _csr_exists_T_635; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_785 = _csr_exists_T_784 | _csr_exists_T_636; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_786 = _csr_exists_T_785 | _csr_exists_T_637; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_787 = _csr_exists_T_786 | _csr_exists_T_638; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_788 = _csr_exists_T_787 | _csr_exists_T_639; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_789 = _csr_exists_T_788 | _csr_exists_T_640; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_790 = _csr_exists_T_789 | _csr_exists_T_641; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_791 = _csr_exists_T_790 | _csr_exists_T_642; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_792 = _csr_exists_T_791 | _csr_exists_T_643; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_793 = _csr_exists_T_792 | _csr_exists_T_644; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_794 = _csr_exists_T_793 | _csr_exists_T_645; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_795 = _csr_exists_T_794 | _csr_exists_T_646; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_796 = _csr_exists_T_795 | _csr_exists_T_647; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_797 = _csr_exists_T_796 | _csr_exists_T_648; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_798 = _csr_exists_T_797 | _csr_exists_T_649; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_799 = _csr_exists_T_798 | _csr_exists_T_650; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_800 = _csr_exists_T_799 | _csr_exists_T_651; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_801 = _csr_exists_T_800 | _csr_exists_T_652; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_802 = _csr_exists_T_801 | _csr_exists_T_653; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_803 = _csr_exists_T_802 | _csr_exists_T_654; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_804 = _csr_exists_T_803 | _csr_exists_T_655; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_805 = _csr_exists_T_804 | _csr_exists_T_656; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_806 = _csr_exists_T_805 | _csr_exists_T_657; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_807 = _csr_exists_T_806 | _csr_exists_T_658; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_808 = _csr_exists_T_807 | _csr_exists_T_659; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_809 = _csr_exists_T_808 | _csr_exists_T_660; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_810 = _csr_exists_T_809 | _csr_exists_T_661; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_811 = _csr_exists_T_810 | _csr_exists_T_662; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_812 = _csr_exists_T_811 | _csr_exists_T_663; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_813 = _csr_exists_T_812 | _csr_exists_T_664; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_814 = _csr_exists_T_813 | _csr_exists_T_665; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_815 = _csr_exists_T_814 | _csr_exists_T_666; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_816 = _csr_exists_T_815 | _csr_exists_T_667; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_817 = _csr_exists_T_816 | _csr_exists_T_668; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_818 = _csr_exists_T_817 | _csr_exists_T_669; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_819 = _csr_exists_T_818 | _csr_exists_T_670; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_820 = _csr_exists_T_819 | _csr_exists_T_671; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_821 = _csr_exists_T_820 | _csr_exists_T_672; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_822 = _csr_exists_T_821 | _csr_exists_T_673; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_823 = _csr_exists_T_822 | _csr_exists_T_674; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_824 = _csr_exists_T_823 | _csr_exists_T_675; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_825 = _csr_exists_T_824 | _csr_exists_T_676; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_826 = _csr_exists_T_825 | _csr_exists_T_677; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_827 = _csr_exists_T_826 | _csr_exists_T_678; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_828 = _csr_exists_T_827 | _csr_exists_T_679; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_829 = _csr_exists_T_828 | _csr_exists_T_680; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_830 = _csr_exists_T_829 | _csr_exists_T_681; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_831 = _csr_exists_T_830 | _csr_exists_T_682; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_832 = _csr_exists_T_831 | _csr_exists_T_683; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_833 = _csr_exists_T_832 | _csr_exists_T_684; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_834 = _csr_exists_T_833 | _csr_exists_T_685; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_835 = _csr_exists_T_834 | _csr_exists_T_686; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_836 = _csr_exists_T_835 | _csr_exists_T_687; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_837 = _csr_exists_T_836 | _csr_exists_T_688; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_838 = _csr_exists_T_837 | _csr_exists_T_689; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_839 = _csr_exists_T_838 | _csr_exists_T_690; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_840 = _csr_exists_T_839 | _csr_exists_T_691; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_841 = _csr_exists_T_840 | _csr_exists_T_692; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_842 = _csr_exists_T_841 | _csr_exists_T_693; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_843 = _csr_exists_T_842 | _csr_exists_T_694; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_844 = _csr_exists_T_843 | _csr_exists_T_695; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_845 = _csr_exists_T_844 | _csr_exists_T_696; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_846 = _csr_exists_T_845 | _csr_exists_T_697; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_847 = _csr_exists_T_846 | _csr_exists_T_698; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_848 = _csr_exists_T_847 | _csr_exists_T_699; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_849 = _csr_exists_T_848 | _csr_exists_T_700; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_850 = _csr_exists_T_849 | _csr_exists_T_701; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_851 = _csr_exists_T_850 | _csr_exists_T_702; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_852 = _csr_exists_T_851 | _csr_exists_T_703; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_853 = _csr_exists_T_852 | _csr_exists_T_704; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_854 = _csr_exists_T_853 | _csr_exists_T_705; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_855 = _csr_exists_T_854 | _csr_exists_T_706; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_856 = _csr_exists_T_855 | _csr_exists_T_707; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_857 = _csr_exists_T_856 | _csr_exists_T_708; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_858 = _csr_exists_T_857 | _csr_exists_T_709; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_859 = _csr_exists_T_858 | _csr_exists_T_710; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_860 = _csr_exists_T_859 | _csr_exists_T_711; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_861 = _csr_exists_T_860 | _csr_exists_T_712; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_862 = _csr_exists_T_861 | _csr_exists_T_713; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_863 = _csr_exists_T_862 | _csr_exists_T_714; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_864 = _csr_exists_T_863 | _csr_exists_T_715; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_865 = _csr_exists_T_864 | _csr_exists_T_716; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_866 = _csr_exists_T_865 | _csr_exists_T_717; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_867 = _csr_exists_T_866 | _csr_exists_T_718; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_868 = _csr_exists_T_867 | _csr_exists_T_719; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_869 = _csr_exists_T_868 | _csr_exists_T_720; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_870 = _csr_exists_T_869 | _csr_exists_T_721; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_871 = _csr_exists_T_870 | _csr_exists_T_722; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_872 = _csr_exists_T_871 | _csr_exists_T_723; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_873 = _csr_exists_T_872 | _csr_exists_T_724; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_874 = _csr_exists_T_873 | _csr_exists_T_725; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_875 = _csr_exists_T_874 | _csr_exists_T_726; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_876 = _csr_exists_T_875 | _csr_exists_T_727; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_877 = _csr_exists_T_876 | _csr_exists_T_728; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_878 = _csr_exists_T_877 | _csr_exists_T_729; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_879 = _csr_exists_T_878 | _csr_exists_T_730; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_880 = _csr_exists_T_879 | _csr_exists_T_731; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_881 = _csr_exists_T_880 | _csr_exists_T_732; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_882 = _csr_exists_T_881 | _csr_exists_T_733; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_883 = _csr_exists_T_882 | _csr_exists_T_734; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_884 = _csr_exists_T_883 | _csr_exists_T_735; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_885 = _csr_exists_T_884 | _csr_exists_T_736; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_886 = _csr_exists_T_885 | _csr_exists_T_737; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_887 = _csr_exists_T_886 | _csr_exists_T_738; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_888 = _csr_exists_T_887 | _csr_exists_T_739; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_889 = _csr_exists_T_888 | _csr_exists_T_740; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_890 = _csr_exists_T_889 | _csr_exists_T_741; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_891 = _csr_exists_T_890 | _csr_exists_T_742; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_892 = _csr_exists_T_891 | _csr_exists_T_743; // @[CSR.scala:899:{93,111}] wire _csr_exists_T_893 = _csr_exists_T_892 | _csr_exists_T_744; // @[CSR.scala:899:{93,111}] wire csr_exists_2 = _csr_exists_T_893 | _csr_exists_T_745; // @[CSR.scala:899:{93,111}] wire _io_decode_2_read_illegal_T = ~csr_addr_legal_2; // @[CSR.scala:920:60, :923:28] wire _io_decode_2_read_illegal_T_1 = ~csr_exists_2; // @[CSR.scala:899:111, :924:7] wire _io_decode_2_read_illegal_T_2 = _io_decode_2_read_illegal_T | _io_decode_2_read_illegal_T_1; // @[CSR.scala:923:{28,44}, :924:7] wire _io_decode_2_read_illegal_T_4 = addr_2 == 12'h680; // @[CSR.scala:897:27, :925:38] wire _io_decode_2_read_illegal_T_5 = _io_decode_2_read_illegal_T_3 | _io_decode_2_read_illegal_T_4; // @[CSR.scala:925:{14,30,38}] wire _io_decode_2_read_illegal_T_6 = ~allow_sfence_vma_2; // @[CSR.scala:907:70, :925:59] wire _io_decode_2_read_illegal_T_7 = _io_decode_2_read_illegal_T_5 & _io_decode_2_read_illegal_T_6; // @[CSR.scala:925:{30,56,59}] wire _io_decode_2_read_illegal_T_8 = _io_decode_2_read_illegal_T_2 | _io_decode_2_read_illegal_T_7; // @[CSR.scala:923:44, :924:19, :925:56] wire _io_decode_2_read_illegal_T_9 = ~allow_counter_2; // @[CSR.scala:913:91, :926:21] wire _io_decode_2_read_illegal_T_10 = is_counter_2 & _io_decode_2_read_illegal_T_9; // @[CSR.scala:904:81, :926:{18,21}] wire _io_decode_2_read_illegal_T_11 = _io_decode_2_read_illegal_T_8 | _io_decode_2_read_illegal_T_10; // @[CSR.scala:924:19, :925:78, :926:18] wire [11:0] io_decode_2_read_illegal_invInputs = ~io_decode_2_read_illegal_plaInput; // @[pla.scala:77:22, :78:21] wire io_decode_2_read_illegal_invMatrixOutputs; // @[pla.scala:124:31] wire io_decode_2_read_illegal_plaOutput; // @[pla.scala:81:23] wire _io_decode_2_read_illegal_T_12 = io_decode_2_read_illegal_plaOutput; // @[pla.scala:81:23] wire io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_0 = io_decode_2_read_illegal_plaInput[4]; // @[pla.scala:77:22, :90:45] wire io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_1 = io_decode_2_read_illegal_plaInput[5]; // @[pla.scala:77:22, :90:45] wire io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_2 = io_decode_2_read_illegal_invInputs[6]; // @[pla.scala:78:21, :91:29] wire io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_3 = io_decode_2_read_illegal_plaInput[7]; // @[pla.scala:77:22, :90:45] wire io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_4 = io_decode_2_read_illegal_plaInput[8]; // @[pla.scala:77:22, :90:45] wire io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_5 = io_decode_2_read_illegal_plaInput[9]; // @[pla.scala:77:22, :90:45] wire io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_6 = io_decode_2_read_illegal_plaInput[10]; // @[pla.scala:77:22, :90:45] wire io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_7 = io_decode_2_read_illegal_invInputs[11]; // @[pla.scala:78:21, :91:29] wire [1:0] io_decode_2_read_illegal_andMatrixOutputs_lo_lo = {io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_6, io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_7}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] io_decode_2_read_illegal_andMatrixOutputs_lo_hi = {io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_4, io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_5}; // @[pla.scala:90:45, :98:53] wire [3:0] io_decode_2_read_illegal_andMatrixOutputs_lo = {io_decode_2_read_illegal_andMatrixOutputs_lo_hi, io_decode_2_read_illegal_andMatrixOutputs_lo_lo}; // @[pla.scala:98:53] wire [1:0] io_decode_2_read_illegal_andMatrixOutputs_hi_lo = {io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_2, io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_3}; // @[pla.scala:90:45, :91:29, :98:53] wire [1:0] io_decode_2_read_illegal_andMatrixOutputs_hi_hi = {io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_0, io_decode_2_read_illegal_andMatrixOutputs_andMatrixInput_1}; // @[pla.scala:90:45, :98:53] wire [3:0] io_decode_2_read_illegal_andMatrixOutputs_hi = {io_decode_2_read_illegal_andMatrixOutputs_hi_hi, io_decode_2_read_illegal_andMatrixOutputs_hi_lo}; // @[pla.scala:98:53] wire [7:0] _io_decode_2_read_illegal_andMatrixOutputs_T = {io_decode_2_read_illegal_andMatrixOutputs_hi, io_decode_2_read_illegal_andMatrixOutputs_lo}; // @[pla.scala:98:53] wire io_decode_2_read_illegal_andMatrixOutputs_0_2 = &_io_decode_2_read_illegal_andMatrixOutputs_T; // @[pla.scala:98:{53,70}] wire io_decode_2_read_illegal_orMatrixOutputs = io_decode_2_read_illegal_andMatrixOutputs_0_2; // @[pla.scala:98:70, :114:36] assign io_decode_2_read_illegal_invMatrixOutputs = io_decode_2_read_illegal_orMatrixOutputs; // @[pla.scala:114:36, :124:31] assign io_decode_2_read_illegal_plaOutput = io_decode_2_read_illegal_invMatrixOutputs; // @[pla.scala:81:23, :124:31] wire _io_decode_2_read_illegal_T_13 = ~reg_debug; // @[CSR.scala:482:26, :927:45] wire _io_decode_2_read_illegal_T_14 = _io_decode_2_read_illegal_T_12 & _io_decode_2_read_illegal_T_13; // @[Decode.scala:55:116] wire _io_decode_2_read_illegal_T_15 = _io_decode_2_read_illegal_T_11 | _io_decode_2_read_illegal_T_14; // @[CSR.scala:925:78, :926:36, :927:42] wire _io_decode_2_read_illegal_T_18 = _io_decode_2_read_illegal_T_15; // @[CSR.scala:926:36, :927:56] wire [11:0] io_decode_2_read_illegal_invInputs_1 = ~io_decode_2_read_illegal_plaInput_1; // @[pla.scala:77:22, :78:21] wire _io_decode_2_read_illegal_T_19 = io_decode_2_fp_csr_0 & io_decode_2_fp_illegal_0; // @[CSR.scala:377:7, :929:21] assign _io_decode_2_read_illegal_T_20 = _io_decode_2_read_illegal_T_18 | _io_decode_2_read_illegal_T_19; // @[CSR.scala:927:56, :928:68, :929:21] assign io_decode_2_read_illegal_0 = _io_decode_2_read_illegal_T_20; // @[CSR.scala:377:7, :928:68] wire [1:0] _io_decode_2_write_illegal_T = addr_2[11:10]; // @[CSR.scala:897:27, :930:33] assign _io_decode_2_write_illegal_T_1 = &_io_decode_2_write_illegal_T; // @[CSR.scala:930:{33,41}] assign io_decode_2_write_illegal_0 = _io_decode_2_write_illegal_T_1; // @[CSR.scala:377:7, :930:41] wire [11:0] io_decode_2_write_flush_addr_m = {_io_decode_2_write_illegal_T, addr_2[9:0] | 10'h300}; // @[CSR.scala:897:27, :930:33, :932:25] wire _io_decode_2_write_flush_T = io_decode_2_write_flush_addr_m > 12'h33F; // @[CSR.scala:932:25, :933:16] wire _io_decode_2_write_flush_T_1 = io_decode_2_write_flush_addr_m < 12'h344; // @[CSR.scala:932:25, :933:45] wire _io_decode_2_write_flush_T_2 = _io_decode_2_write_flush_T & _io_decode_2_write_flush_T_1; // @[CSR.scala:933:{16,35,45}] assign _io_decode_2_write_flush_T_3 = ~_io_decode_2_write_flush_T_2; // @[CSR.scala:933:{7,35}] assign io_decode_2_write_flush_0 = _io_decode_2_write_flush_T_3; // @[CSR.scala:377:7, :933:7] wire _io_decode_2_system_illegal_T = ~csr_addr_legal_2; // @[CSR.scala:920:60, :923:28, :935:30] wire _io_decode_2_system_illegal_T_1 = ~is_hlsv_2; // @[CSR.scala:903:82, :935:49] wire _io_decode_2_system_illegal_T_2 = _io_decode_2_system_illegal_T & _io_decode_2_system_illegal_T_1; // @[CSR.scala:935:{30,46,49}] wire _io_decode_2_system_illegal_T_3 = ~allow_wfi_2; // @[CSR.scala:906:71, :936:17] wire _io_decode_2_system_illegal_T_4 = is_wfi_2 & _io_decode_2_system_illegal_T_3; // @[CSR.scala:903:82, :936:{14,17}] wire _io_decode_2_system_illegal_T_5 = _io_decode_2_system_illegal_T_2 | _io_decode_2_system_illegal_T_4; // @[CSR.scala:935:{46,58}, :936:14] wire _io_decode_2_system_illegal_T_6 = ~allow_sret_2; // @[CSR.scala:910:72, :937:17] wire _io_decode_2_system_illegal_T_7 = is_ret_2 & _io_decode_2_system_illegal_T_6; // @[CSR.scala:903:82, :937:{14,17}] wire _io_decode_2_system_illegal_T_8 = _io_decode_2_system_illegal_T_5 | _io_decode_2_system_illegal_T_7; // @[CSR.scala:935:58, :936:28, :937:14] wire _io_decode_2_system_illegal_T_9 = addr_2[10]; // @[CSR.scala:897:27, :938:21] wire _io_decode_2_system_illegal_T_10 = is_ret_2 & _io_decode_2_system_illegal_T_9; // @[CSR.scala:903:82, :938:{14,21}] wire _io_decode_2_system_illegal_T_11 = addr_2[7]; // @[CSR.scala:897:27, :938:33] wire _io_decode_2_system_illegal_T_12 = _io_decode_2_system_illegal_T_10 & _io_decode_2_system_illegal_T_11; // @[CSR.scala:938:{14,26,33}] wire _io_decode_2_system_illegal_T_13 = ~reg_debug; // @[CSR.scala:482:26, :927:45, :938:40] wire _io_decode_2_system_illegal_T_14 = _io_decode_2_system_illegal_T_12 & _io_decode_2_system_illegal_T_13; // @[CSR.scala:938:{26,37,40}] wire _io_decode_2_system_illegal_T_15 = _io_decode_2_system_illegal_T_8 | _io_decode_2_system_illegal_T_14; // @[CSR.scala:936:28, :937:29, :938:37] wire _io_decode_2_system_illegal_T_16 = is_sfence_2 | is_hfence_gvma_2; // @[CSR.scala:903:82, :939:18] wire _io_decode_2_system_illegal_T_17 = ~allow_sfence_vma_2; // @[CSR.scala:907:70, :925:59, :939:40] wire _io_decode_2_system_illegal_T_18 = _io_decode_2_system_illegal_T_16 & _io_decode_2_system_illegal_T_17; // @[CSR.scala:939:{18,37,40}] wire _io_decode_2_system_illegal_T_19 = _io_decode_2_system_illegal_T_15 | _io_decode_2_system_illegal_T_18; // @[CSR.scala:937:29, :938:51, :939:37] wire _io_decode_2_system_illegal_T_22 = _io_decode_2_system_illegal_T_19; // @[CSR.scala:938:51, :939:58] assign _io_decode_2_system_illegal_T_25 = _io_decode_2_system_illegal_T_22; // @[CSR.scala:939:58, :940:44] assign io_decode_2_system_illegal_0 = _io_decode_2_system_illegal_T_25; // @[CSR.scala:377:7, :940:44] wire _io_decode_2_virtual_access_illegal_T = reg_mstatus_v & csr_exists_2; // @[CSR.scala:395:28, :899:111, :943:52] wire _io_decode_2_virtual_access_illegal_T_2 = _io_decode_2_virtual_access_illegal_T_1 == 2'h2; // @[CSR.scala:190:36, :944:22] wire _io_decode_2_virtual_access_illegal_T_4 = _io_decode_2_virtual_access_illegal_T_3[0]; // @[CSR.scala:945:36] wire _io_decode_2_virtual_access_illegal_T_5 = is_counter_2 & _io_decode_2_virtual_access_illegal_T_4; // @[CSR.scala:904:81, :945:{18,36}] wire _io_decode_2_virtual_access_illegal_T_7 = _io_decode_2_virtual_access_illegal_T_6[0]; // @[CSR.scala:945:71] wire _io_decode_2_virtual_access_illegal_T_8 = ~_io_decode_2_virtual_access_illegal_T_7; // @[CSR.scala:945:{55,71}] wire _io_decode_2_virtual_access_illegal_T_10 = ~_io_decode_2_virtual_access_illegal_T_9; // @[CSR.scala:945:{89,105}] wire _io_decode_2_virtual_access_illegal_T_12 = _io_decode_2_virtual_access_illegal_T_11[0]; // @[CSR.scala:945:128] wire _io_decode_2_virtual_access_illegal_T_13 = ~_io_decode_2_virtual_access_illegal_T_12; // @[CSR.scala:945:{112,128}] wire _io_decode_2_virtual_access_illegal_T_14 = _io_decode_2_virtual_access_illegal_T_10 & _io_decode_2_virtual_access_illegal_T_13; // @[CSR.scala:945:{89,109,112}] wire _io_decode_2_virtual_access_illegal_T_15 = _io_decode_2_virtual_access_illegal_T_8 | _io_decode_2_virtual_access_illegal_T_14; // @[CSR.scala:945:{55,86,109}] wire _io_decode_2_virtual_access_illegal_T_16 = _io_decode_2_virtual_access_illegal_T_5 & _io_decode_2_virtual_access_illegal_T_15; // @[CSR.scala:945:{18,51,86}] wire _io_decode_2_virtual_access_illegal_T_17 = _io_decode_2_virtual_access_illegal_T_2 | _io_decode_2_virtual_access_illegal_T_16; // @[CSR.scala:944:{22,34}, :945:51] wire _io_decode_2_virtual_access_illegal_T_19 = _io_decode_2_virtual_access_illegal_T_18 == 2'h1; // @[CSR.scala:190:36, :946:22] wire _io_decode_2_virtual_access_illegal_T_21 = ~_io_decode_2_virtual_access_illegal_T_20; // @[CSR.scala:946:{37,53}] wire _io_decode_2_virtual_access_illegal_T_22 = _io_decode_2_virtual_access_illegal_T_19 & _io_decode_2_virtual_access_illegal_T_21; // @[CSR.scala:946:{22,34,37}] wire _io_decode_2_virtual_access_illegal_T_23 = _io_decode_2_virtual_access_illegal_T_17 | _io_decode_2_virtual_access_illegal_T_22; // @[CSR.scala:944:34, :945:144, :946:34] wire _io_decode_2_virtual_access_illegal_T_28 = _io_decode_2_virtual_access_illegal_T_23; // @[CSR.scala:945:144, :946:57] wire _io_decode_2_virtual_access_illegal_T_26 = _io_decode_2_virtual_access_illegal_T_24 & _io_decode_2_virtual_access_illegal_T_25; // @[CSR.scala:947:{12,28,46}] assign _io_decode_2_virtual_access_illegal_T_29 = _io_decode_2_virtual_access_illegal_T & _io_decode_2_virtual_access_illegal_T_28; // @[CSR.scala:943:{52,66}, :946:57] assign io_decode_2_virtual_access_illegal_0 = _io_decode_2_virtual_access_illegal_T_29; // @[CSR.scala:377:7, :943:66] wire _io_decode_2_virtual_system_illegal_T = is_hfence_vvma_2 | is_hfence_gvma_2; // @[CSR.scala:903:82, :950:22] wire _io_decode_2_virtual_system_illegal_T_1 = _io_decode_2_virtual_system_illegal_T | is_hlsv_2; // @[CSR.scala:903:82, :950:22, :951:22] wire _io_decode_2_virtual_system_illegal_T_3 = ~_io_decode_2_virtual_system_illegal_T_2; // @[CSR.scala:953:{18,34}] wire _io_decode_2_virtual_system_illegal_T_6 = _io_decode_2_virtual_system_illegal_T_3; // @[CSR.scala:953:{18,38}] wire _io_decode_2_virtual_system_illegal_T_4 = ~reg_mstatus_tw; // @[CSR.scala:395:28, :906:74, :953:41] wire _io_decode_2_virtual_system_illegal_T_7 = is_wfi_2 & _io_decode_2_virtual_system_illegal_T_6; // @[CSR.scala:903:82, :953:{14,38}] wire _io_decode_2_virtual_system_illegal_T_8 = _io_decode_2_virtual_system_illegal_T_1 | _io_decode_2_virtual_system_illegal_T_7; // @[CSR.scala:951:22, :952:15, :953:14] wire _io_decode_2_virtual_system_illegal_T_10 = _io_decode_2_virtual_system_illegal_T_9 == 2'h1; // @[CSR.scala:190:36, :954:32] wire _io_decode_2_virtual_system_illegal_T_11 = is_ret_2 & _io_decode_2_virtual_system_illegal_T_10; // @[CSR.scala:903:82, :954:{14,32}] wire _io_decode_2_virtual_system_illegal_T_13 = ~_io_decode_2_virtual_system_illegal_T_12; // @[CSR.scala:954:{48,64}] wire _io_decode_2_virtual_system_illegal_T_14 = _io_decode_2_virtual_system_illegal_T_13; // @[CSR.scala:954:{48,68}] wire _io_decode_2_virtual_system_illegal_T_15 = _io_decode_2_virtual_system_illegal_T_11 & _io_decode_2_virtual_system_illegal_T_14; // @[CSR.scala:954:{14,44,68}] wire _io_decode_2_virtual_system_illegal_T_16 = _io_decode_2_virtual_system_illegal_T_8 | _io_decode_2_virtual_system_illegal_T_15; // @[CSR.scala:952:15, :953:77, :954:44] wire _io_decode_2_virtual_system_illegal_T_18 = ~_io_decode_2_virtual_system_illegal_T_17; // @[CSR.scala:955:{21,37}] wire _io_decode_2_virtual_system_illegal_T_19 = _io_decode_2_virtual_system_illegal_T_18; // @[CSR.scala:955:{21,41}] wire _io_decode_2_virtual_system_illegal_T_20 = is_sfence_2 & _io_decode_2_virtual_system_illegal_T_19; // @[CSR.scala:903:82, :955:{17,41}] wire _io_decode_2_virtual_system_illegal_T_21 = _io_decode_2_virtual_system_illegal_T_16 | _io_decode_2_virtual_system_illegal_T_20; // @[CSR.scala:953:77, :954:89, :955:17] assign _io_decode_2_virtual_system_illegal_T_22 = reg_mstatus_v & _io_decode_2_virtual_system_illegal_T_21; // @[CSR.scala:395:28, :949:52, :954:89] assign io_decode_2_virtual_system_illegal_0 = _io_decode_2_virtual_system_illegal_T_22; // @[CSR.scala:377:7, :949:52] wire _cause_T_1 = _cause_T & reg_mstatus_v; // @[CSR.scala:395:28, :959:{61,65}] wire [1:0] _cause_T_2 = _cause_T_1 ? 2'h2 : reg_mstatus_prv; // @[CSR.scala:395:28, :959:{45,65}] wire [4:0] _cause_T_3 = {3'h0, _cause_T_2} + 5'h8; // @[CSR.scala:959:{40,45}] wire [3:0] _cause_T_4 = _cause_T_3[3:0]; // @[CSR.scala:959:40] wire [63:0] _cause_T_5 = insn_break ? 64'h3 : io_cause_0; // @[CSR.scala:377:7, :893:83, :960:14] assign cause = insn_call ? {60'h0, _cause_T_4} : _cause_T_5; // @[CSR.scala:893:83, :959:{8,40}, :960:14] assign io_trace_0_cause = cause; // @[CSR.scala:377:7, :959:8] assign io_trace_1_cause = cause; // @[CSR.scala:377:7, :959:8] assign io_trace_2_cause = cause; // @[CSR.scala:377:7, :959:8] wire [7:0] cause_lsbs = cause[7:0]; // @[CSR.scala:959:8, :961:25] wire [5:0] cause_deleg_lsbs = cause[5:0]; // @[CSR.scala:959:8, :962:31] wire [5:0] _notDebugTVec_interruptOffset_T = cause[5:0]; // @[CSR.scala:959:8, :962:31, :979:32] wire _causeIsDebugInt_T = cause[63]; // @[CSR.scala:959:8, :963:30] wire _causeIsDebugTrigger_T = cause[63]; // @[CSR.scala:959:8, :963:30, :964:35] wire _causeIsDebugBreak_T = cause[63]; // @[CSR.scala:959:8, :963:30, :965:33] wire _delegate_T_2 = cause[63]; // @[CSR.scala:959:8, :963:30, :970:78] wire _delegateVS_T_1 = cause[63]; // @[CSR.scala:959:8, :963:30, :971:58] wire _notDebugTVec_doVector_T_1 = cause[63]; // @[CSR.scala:959:8, :963:30, :981:36] wire _causeIsRnmiInt_T = cause[63]; // @[CSR.scala:959:8, :963:30, :985:29] wire _causeIsRnmiBEU_T = cause[63]; // @[CSR.scala:959:8, :963:30, :986:29] wire _reg_vscause_T = cause[63]; // @[CSR.scala:959:8, :963:30, :1060:31] assign _io_trace_0_interrupt_T = cause[63]; // @[CSR.scala:959:8, :963:30, :1626:25] assign _io_trace_1_interrupt_T = cause[63]; // @[CSR.scala:959:8, :963:30, :1626:25] assign _io_trace_2_interrupt_T = cause[63]; // @[CSR.scala:959:8, :963:30, :1626:25] wire _GEN_22 = cause_lsbs == 8'hE; // @[CSR.scala:961:25, :963:53] wire _causeIsDebugInt_T_1; // @[CSR.scala:963:53] assign _causeIsDebugInt_T_1 = _GEN_22; // @[CSR.scala:963:53] wire _causeIsDebugTrigger_T_2; // @[CSR.scala:964:58] assign _causeIsDebugTrigger_T_2 = _GEN_22; // @[CSR.scala:963:53, :964:58] wire causeIsDebugInt = _causeIsDebugInt_T & _causeIsDebugInt_T_1; // @[CSR.scala:963:{30,39,53}] wire _causeIsDebugTrigger_T_1 = ~_causeIsDebugTrigger_T; // @[CSR.scala:964:{29,35}] wire causeIsDebugTrigger = _causeIsDebugTrigger_T_1 & _causeIsDebugTrigger_T_2; // @[CSR.scala:964:{29,44,58}] wire _causeIsDebugBreak_T_1 = ~_causeIsDebugBreak_T; // @[CSR.scala:965:{27,33}] wire _causeIsDebugBreak_T_2 = _causeIsDebugBreak_T_1 & insn_break; // @[CSR.scala:893:83, :965:{27,42}] wire [1:0] causeIsDebugBreak_lo = {reg_dcsr_ebreaks, reg_dcsr_ebreaku}; // @[CSR.scala:403:25, :965:62] wire [1:0] causeIsDebugBreak_hi = {reg_dcsr_ebreakm, 1'h0}; // @[CSR.scala:403:25, :965:62] wire [3:0] _causeIsDebugBreak_T_3 = {causeIsDebugBreak_hi, causeIsDebugBreak_lo}; // @[CSR.scala:965:62] wire [3:0] _causeIsDebugBreak_T_4 = _causeIsDebugBreak_T_3 >> reg_mstatus_prv; // @[CSR.scala:395:28, :965:{62,134}] wire _causeIsDebugBreak_T_5 = _causeIsDebugBreak_T_4[0]; // @[CSR.scala:965:134] wire causeIsDebugBreak = _causeIsDebugBreak_T_2 & _causeIsDebugBreak_T_5; // @[CSR.scala:965:{42,56,134}] wire _trapToDebug_T = reg_singleStepped | causeIsDebugInt; // @[CSR.scala:486:30, :963:39, :966:56] wire _trapToDebug_T_1 = _trapToDebug_T | causeIsDebugTrigger; // @[CSR.scala:964:44, :966:{56,75}] wire _trapToDebug_T_2 = _trapToDebug_T_1 | causeIsDebugBreak; // @[CSR.scala:965:56, :966:{75,98}] wire _trapToDebug_T_3 = _trapToDebug_T_2 | reg_debug; // @[CSR.scala:482:26, :966:{98,119}] wire trapToDebug = _trapToDebug_T_3; // @[CSR.scala:966:{34,119}] wire [11:0] _debugTVec_T = {8'h80, ~insn_break, 3'h0}; // @[CSR.scala:893:83, :969:37] wire [11:0] debugTVec = reg_debug ? _debugTVec_T : 12'h800; // @[CSR.scala:482:26, :969:{22,37}] wire _delegate_T = ~(reg_mstatus_prv[1]); // @[CSR.scala:395:28, :620:51, :970:55] wire _delegate_T_1 = _delegate_T; // @[CSR.scala:970:{36,55}] wire [63:0] _GEN_23 = {58'h0, cause_deleg_lsbs}; // @[CSR.scala:962:31, :970:100] wire [63:0] _delegate_T_3 = read_mideleg >> _GEN_23; // @[CSR.scala:498:14, :970:100] wire _delegate_T_4 = _delegate_T_3[0]; // @[CSR.scala:970:100] wire [63:0] _delegate_T_5 = read_medeleg >> _GEN_23; // @[CSR.scala:502:14, :970:{100,132}] wire _delegate_T_6 = _delegate_T_5[0]; // @[CSR.scala:970:132] wire _delegate_T_7 = _delegate_T_2 ? _delegate_T_4 : _delegate_T_6; // @[CSR.scala:970:{72,78,100,132}] wire delegate = _delegate_T_1 & _delegate_T_7; // @[CSR.scala:970:{36,66,72}] wire _delegateVS_T = reg_mstatus_v & delegate; // @[CSR.scala:395:28, :970:66, :971:34] wire [63:0] _GEN_24 = 64'h0 >> _GEN_23; // @[CSR.scala:970:100, :971:80] wire [63:0] _delegateVS_T_2; // @[CSR.scala:971:80] assign _delegateVS_T_2 = _GEN_24; // @[CSR.scala:971:80] wire [63:0] _delegateVS_T_4; // @[CSR.scala:971:112] assign _delegateVS_T_4 = _GEN_24; // @[CSR.scala:971:{80,112}] wire _delegateVS_T_3 = _delegateVS_T_2[0]; // @[CSR.scala:971:80] wire _delegateVS_T_5 = _delegateVS_T_4[0]; // @[CSR.scala:971:112] wire _delegateVS_T_6 = _delegateVS_T_1 ? _delegateVS_T_3 : _delegateVS_T_5; // @[CSR.scala:971:{52,58,80,112}] wire delegateVS = _delegateVS_T & _delegateVS_T_6; // @[CSR.scala:971:{34,46,52}] wire [63:0] _notDebugTVec_base_T = delegateVS ? read_vstvec : read_stvec; // @[package.scala:132:15] wire [63:0] notDebugTVec_base = delegate ? _notDebugTVec_base_T : read_mtvec; // @[package.scala:138:15] wire [7:0] notDebugTVec_interruptOffset = {_notDebugTVec_interruptOffset_T, 2'h0}; // @[CSR.scala:979:{32,59}] wire [55:0] _notDebugTVec_interruptVec_T = notDebugTVec_base[63:8]; // @[CSR.scala:978:19, :980:33] wire [63:0] notDebugTVec_interruptVec = {_notDebugTVec_interruptVec_T, notDebugTVec_interruptOffset}; // @[CSR.scala:979:59, :980:{27,33}] wire _notDebugTVec_doVector_T = notDebugTVec_base[0]; // @[CSR.scala:978:19, :981:24] wire _notDebugTVec_doVector_T_2 = _notDebugTVec_doVector_T & _notDebugTVec_doVector_T_1; // @[CSR.scala:981:{24,28,36}] wire [1:0] _notDebugTVec_doVector_T_3 = cause_lsbs[7:6]; // @[CSR.scala:961:25, :981:70] wire _notDebugTVec_doVector_T_4 = _notDebugTVec_doVector_T_3 == 2'h0; // @[CSR.scala:981:{70,94}] wire notDebugTVec_doVector = _notDebugTVec_doVector_T_2 & _notDebugTVec_doVector_T_4; // @[CSR.scala:981:{28,55,94}] wire [61:0] _notDebugTVec_T = notDebugTVec_base[63:2]; // @[CSR.scala:978:19, :982:38] wire [63:0] _notDebugTVec_T_1 = {_notDebugTVec_T, 2'h0}; // @[CSR.scala:982:{38,56}] wire [63:0] notDebugTVec = notDebugTVec_doVector ? notDebugTVec_interruptVec : _notDebugTVec_T_1; // @[CSR.scala:980:27, :981:55, :982:{8,56}] wire [63:0] _tvec_T = notDebugTVec; // @[CSR.scala:982:8, :995:45] wire _causeIsRnmiInt_T_1 = cause[62]; // @[CSR.scala:959:8, :985:46] wire _causeIsRnmiBEU_T_1 = cause[62]; // @[CSR.scala:959:8, :985:46, :986:46] wire _causeIsRnmiInt_T_2 = _causeIsRnmiInt_T & _causeIsRnmiInt_T_1; // @[CSR.scala:985:{29,38,46}] wire _causeIsRnmiInt_T_3 = cause_lsbs == 8'hD; // @[CSR.scala:961:25, :985:70] wire _GEN_25 = cause_lsbs == 8'hC; // @[CSR.scala:961:25, :985:107] wire _causeIsRnmiInt_T_4; // @[CSR.scala:985:107] assign _causeIsRnmiInt_T_4 = _GEN_25; // @[CSR.scala:985:107] wire _causeIsRnmiBEU_T_3; // @[CSR.scala:986:69] assign _causeIsRnmiBEU_T_3 = _GEN_25; // @[CSR.scala:985:107, :986:69] wire _causeIsRnmiInt_T_5 = _causeIsRnmiInt_T_3 | _causeIsRnmiInt_T_4; // @[CSR.scala:985:{70,93,107}] wire causeIsRnmiInt = _causeIsRnmiInt_T_2 & _causeIsRnmiInt_T_5; // @[CSR.scala:985:{38,55,93}] wire _causeIsRnmiBEU_T_2 = _causeIsRnmiBEU_T & _causeIsRnmiBEU_T_1; // @[CSR.scala:986:{29,38,46}] wire causeIsRnmiBEU = _causeIsRnmiBEU_T_2 & _causeIsRnmiBEU_T_3; // @[CSR.scala:986:{38,55,69}] wire [63:0] tvec = trapToDebug ? {52'h0, debugTVec} : _tvec_T; // @[CSR.scala:966:34, :969:22, :995:{17,45}] wire _GEN_26 = insn_call | insn_break; // @[CSR.scala:893:83, :1000:24] wire _io_eret_T; // @[CSR.scala:1000:24] assign _io_eret_T = _GEN_26; // @[CSR.scala:1000:24] wire _exception_T; // @[CSR.scala:1020:29] assign _exception_T = _GEN_26; // @[CSR.scala:1000:24, :1020:29] assign _io_eret_T_1 = _io_eret_T | insn_ret; // @[CSR.scala:893:83, :1000:{24,38}] assign io_eret = _io_eret_T_1; // @[CSR.scala:377:7, :1000:38] wire _io_singleStep_T = ~reg_debug; // @[CSR.scala:482:26, :927:45, :1001:37] assign _io_singleStep_T_1 = reg_dcsr_step & _io_singleStep_T; // @[CSR.scala:403:25, :1001:{34,37}] assign io_singleStep_0 = _io_singleStep_T_1; // @[CSR.scala:377:7, :1001:34] wire _io_status_sd_T = &io_status_fs_0; // @[CSR.scala:377:7, :1003:32] wire _io_status_sd_T_2 = _io_status_sd_T; // @[CSR.scala:1003:{32,37}] assign _io_status_sd_T_4 = _io_status_sd_T_2; // @[CSR.scala:1003:{37,58}] assign io_status_sd_0 = _io_status_sd_T_4; // @[CSR.scala:377:7, :1003:58] wire _io_status_dprv_T = ~reg_debug; // @[CSR.scala:482:26, :927:45, :1008:45] wire _io_status_dprv_T_1 = reg_mstatus_mprv & _io_status_dprv_T; // @[CSR.scala:395:28, :1008:{42,45}] assign _io_status_dprv_T_2 = _io_status_dprv_T_1 ? reg_mstatus_mpp : reg_mstatus_prv; // @[CSR.scala:395:28, :1008:{24,42}] assign io_status_dprv_0 = _io_status_dprv_T_2; // @[CSR.scala:377:7, :1008:24] wire _io_status_dv_T = ~reg_debug; // @[CSR.scala:482:26, :927:45, :1009:60] wire _io_status_dv_T_1 = reg_mstatus_mprv & _io_status_dv_T; // @[CSR.scala:395:28, :1009:{57,60}] wire _io_status_dv_T_2 = _io_status_dv_T_1 & reg_mstatus_mpv; // @[CSR.scala:395:28, :1009:{39,57}] assign _io_status_dv_T_3 = reg_mstatus_v | _io_status_dv_T_2; // @[CSR.scala:395:28, :1009:{33,39}] assign io_status_dv_0 = _io_status_dv_T_3; // @[CSR.scala:377:7, :1009:33] wire _io_gstatus_sd_T_3 = &io_gstatus_vs; // @[CSR.scala:377:7, :1016:78] wire exception = _exception_T | io_exception_0; // @[CSR.scala:377:7, :1020:{29,43}] wire _en_T_8 = exception; // @[CSR.scala:1020:43, :1096:24] wire _en_T_20 = exception; // @[CSR.scala:1020:43, :1096:24] wire _en_T_32 = exception; // @[CSR.scala:1020:43, :1096:24] wire _en_T_44 = exception; // @[CSR.scala:1020:43, :1096:24] wire _en_T_56 = exception; // @[CSR.scala:1020:43, :1096:24] wire _en_T_68 = exception; // @[CSR.scala:1020:43, :1096:24] assign _io_trace_0_exception_T_1 = exception; // @[CSR.scala:1020:43, :1620:37] wire _io_trace_1_valid_T = io_retire_0[1]; // @[CSR.scala:377:7, :1029:38, :1621:26] wire _io_trace_2_exception_T = io_retire_0[1]; // @[CSR.scala:377:7, :1029:38, :1620:30] wire [39:0] _epc_T = ~io_pc_0; // @[CSR.scala:377:7, :1664:28] wire [39:0] _epc_T_1 = {_epc_T[39:1], 1'h1}; // @[CSR.scala:1664:{28,31}] wire [39:0] epc = ~_epc_T_1; // @[CSR.scala:1664:{26,31}] wire [39:0] tval = insn_break ? epc : io_tval_0; // @[CSR.scala:377:7, :893:83, :1033:17, :1664:26] wire [1:0] _reg_dcsr_cause_T = causeIsDebugTrigger ? 2'h2 : 2'h1; // @[CSR.scala:964:44, :1041:90] wire [1:0] _reg_dcsr_cause_T_1 = causeIsDebugInt ? 2'h3 : _reg_dcsr_cause_T; // @[CSR.scala:963:39, :1041:{58,90}] wire [2:0] _reg_dcsr_cause_T_2 = reg_singleStepped ? 3'h4 : {1'h0, _reg_dcsr_cause_T_1}; // @[CSR.scala:486:30, :1041:{30,58}] wire [1:0] _reg_mncause_T = {1'h1, causeIsRnmiBEU}; // @[CSR.scala:986:55, :1052:55] wire [63:0] _reg_mncause_T_1 = {62'h2000000000000000, _reg_mncause_T}; // @[CSR.scala:1052:{50,55}] wire [61:0] _reg_vscause_T_1 = cause[63:2]; // @[CSR.scala:959:8, :1060:50] wire [63:0] _reg_vscause_T_2 = {_reg_vscause_T_1, 2'h1}; // @[CSR.scala:1060:{44,50}] wire [63:0] _reg_vscause_T_3 = _reg_vscause_T ? _reg_vscause_T_2 : cause; // @[CSR.scala:959:8, :1060:{25,31,44}] wire _reg_hstatus_spvp_T_1 = reg_mstatus_v ? _reg_hstatus_spvp_T : reg_hstatus_spvp; // @[CSR.scala:395:28, :552:28, :1067:{30,61}] wire _GEN_27 = delegateVS | delegate; // @[CSR.scala:395:28, :970:66, :971:46, :1056:37, :1065:35, :1081:23] wire _en_T_5 = cause == 64'h8000000000000000; // @[CSR.scala:959:8, :1096:88] wire _en_T_11 = cause == 64'h8000000000000001; // @[CSR.scala:959:8, :1096:88] wire en_1 = _en_T_8 & _en_T_11; // @[CSR.scala:1096:{24,79,88}] wire _en_T_17 = cause == 64'h8000000000000002; // @[CSR.scala:959:8, :1096:88] wire _en_T_23 = cause == 64'h8000000000000003; // @[CSR.scala:959:8, :1096:88] wire en_3 = _en_T_20 & _en_T_23; // @[CSR.scala:1096:{24,79,88}] wire _en_T_29 = cause == 64'h8000000000000004; // @[CSR.scala:959:8, :1096:88] wire _en_T_35 = cause == 64'h8000000000000005; // @[CSR.scala:959:8, :1096:88] wire en_5 = _en_T_32 & _en_T_35; // @[CSR.scala:1096:{24,79,88}] wire _en_T_41 = cause == 64'h8000000000000006; // @[CSR.scala:959:8, :1096:88] wire _en_T_47 = cause == 64'h8000000000000007; // @[CSR.scala:959:8, :1096:88] wire en_7 = _en_T_44 & _en_T_47; // @[CSR.scala:1096:{24,79,88}] wire _en_T_53 = cause == 64'h8000000000000008; // @[CSR.scala:959:8, :1096:88] wire _en_T_59 = cause == 64'h8000000000000009; // @[CSR.scala:959:8, :1096:88] wire en_9 = _en_T_56 & _en_T_59; // @[CSR.scala:1096:{24,79,88}] wire _en_T_65 = cause == 64'h800000000000000A; // @[CSR.scala:959:8, :1096:88] wire _en_T_71 = cause == 64'h800000000000000B; // @[CSR.scala:959:8, :1096:88] wire en_11 = _en_T_68 & _en_T_71; // @[CSR.scala:1096:{24,79,88}] wire _en_T_77 = cause == 64'h800000000000000C; // @[CSR.scala:959:8, :1096:88] wire _en_T_83 = cause == 64'h800000000000000D; // @[CSR.scala:959:8, :1096:88] wire _en_T_89 = cause == 64'h800000000000000E; // @[CSR.scala:959:8, :1096:88] wire _en_T_95 = cause == 64'h800000000000000F; // @[CSR.scala:959:8, :1096:88] wire _en_T_96 = cause == 64'h1; // @[CSR.scala:959:8, :1108:35] wire en_16 = exception & _en_T_96; // @[CSR.scala:1020:43, :1108:{26,35}] wire _en_T_97 = cause == 64'h2; // @[CSR.scala:959:8, :1108:35] wire en_17 = exception & _en_T_97; // @[CSR.scala:1020:43, :1108:{26,35}] wire _en_T_98 = cause == 64'h3; // @[CSR.scala:959:8, :1108:35] wire en_18 = exception & _en_T_98; // @[CSR.scala:1020:43, :1108:{26,35}] wire _en_T_99 = cause == 64'h4; // @[CSR.scala:959:8, :1108:35] wire en_19 = exception & _en_T_99; // @[CSR.scala:1020:43, :1108:{26,35}] wire _en_T_100 = cause == 64'h5; // @[CSR.scala:959:8, :1108:35] wire en_20 = exception & _en_T_100; // @[CSR.scala:1020:43, :1108:{26,35}] wire _en_T_101 = cause == 64'h6; // @[CSR.scala:959:8, :1108:35] wire en_21 = exception & _en_T_101; // @[CSR.scala:1020:43, :1108:{26,35}] wire _en_T_102 = cause == 64'h7; // @[CSR.scala:959:8, :1108:35] wire en_22 = exception & _en_T_102; // @[CSR.scala:1020:43, :1108:{26,35}] wire _en_T_103 = cause == 64'h8; // @[CSR.scala:959:8, :1108:35] wire en_23 = exception & _en_T_103; // @[CSR.scala:1020:43, :1108:{26,35}] wire _en_T_104 = cause == 64'h9; // @[CSR.scala:959:8, :1108:35] wire en_24 = exception & _en_T_104; // @[CSR.scala:1020:43, :1108:{26,35}] wire _en_T_105 = cause == 64'hB; // @[CSR.scala:959:8, :1108:35] wire en_25 = exception & _en_T_105; // @[CSR.scala:1020:43, :1108:{26,35}] wire _en_T_106 = cause == 64'hC; // @[CSR.scala:959:8, :1108:35] wire en_26 = exception & _en_T_106; // @[CSR.scala:1020:43, :1108:{26,35}] wire _en_T_107 = cause == 64'hD; // @[CSR.scala:959:8, :1108:35] wire en_27 = exception & _en_T_107; // @[CSR.scala:1020:43, :1108:{26,35}] wire _en_T_108 = cause == 64'hF; // @[CSR.scala:959:8, :1108:35] wire en_28 = exception & _en_T_108; // @[CSR.scala:1020:43, :1108:{26,35}] wire [1:0] ret_prv; // @[CSR.scala:1116:27] wire [39:0] _io_evec_T_3 = {_io_evec_T[39:2], _io_evec_T[1:0] | 2'h1}; // @[CSR.scala:1665:{28,31}] wire [39:0] _io_evec_T_4 = ~_io_evec_T_3; // @[CSR.scala:1665:{26,31}] wire [39:0] _io_evec_T_5 = ~reg_vsepc; // @[CSR.scala:564:22, :1665:28] wire [39:0] _io_evec_T_8 = {_io_evec_T_5[39:2], _io_evec_T_5[1:0] | 2'h1}; // @[CSR.scala:1665:{28,31}] wire [39:0] _io_evec_T_9 = ~_io_evec_T_8; // @[CSR.scala:1665:{26,31}] wire _T_266 = io_rw_addr_0[10] & io_rw_addr_0[7]; // @[CSR.scala:377:7, :1134:{43,48,61}] wire _reg_mstatus_v_T_2 = ~(reg_dcsr_prv[1]); // @[CSR.scala:403:25, :1136:72] wire [39:0] _io_evec_T_10 = ~reg_dpc; // @[CSR.scala:483:20, :1665:28] wire [39:0] _io_evec_T_13 = {_io_evec_T_10[39:2], _io_evec_T_10[1:0] | 2'h1}; // @[CSR.scala:1665:{28,31}] wire [39:0] _io_evec_T_14 = ~_io_evec_T_13; // @[CSR.scala:1665:{26,31}] wire [39:0] _io_evec_T_18 = {_io_evec_T_15[39:2], _io_evec_T_15[1:0] | 2'h1}; // @[CSR.scala:1665:{28,31}] wire [39:0] _io_evec_T_19 = ~_io_evec_T_18; // @[CSR.scala:1665:{26,31}] assign ret_prv = io_rw_addr_0[9] ? (_T_266 ? reg_dcsr_prv : reg_mstatus_mpp) : {1'h0, reg_mstatus_v ? reg_vsstatus_spp : reg_mstatus_spp}; // @[CSR.scala:377:7, :395:28, :403:25, :562:25, :1116:27, :1117:{43,48}, :1118:29, :1122:17, :1130:17, :1134:{48,66}, :1135:15, :1139:65] wire _reg_mstatus_v_T_8 = ~(reg_mstatus_mpp[1]); // @[CSR.scala:395:28, :1150:80] wire [39:0] _io_evec_T_20 = ~reg_mepc; // @[CSR.scala:505:21, :1665:28] wire [39:0] _io_evec_T_23 = {_io_evec_T_20[39:2], _io_evec_T_20[1:0] | 2'h1}; // @[CSR.scala:1665:{28,31}] wire [39:0] _io_evec_T_24 = ~_io_evec_T_23; // @[CSR.scala:1665:{26,31}] assign io_evec_0 = insn_ret ? (io_rw_addr_0[9] ? (_T_266 ? _io_evec_T_14 : _io_evec_T_24) : reg_mstatus_v ? _io_evec_T_9 : _io_evec_T_4) : tvec[39:0]; // @[CSR.scala:377:7, :395:28, :893:83, :995:17, :996:11, :1115:19, :1117:{43,48}, :1118:29, :1124:17, :1132:17, :1134:{48,66}, :1138:15, :1139:65, :1665:26] assign new_prv = insn_ret ? ret_prv : exception ? (trapToDebug ? (reg_debug ? reg_mstatus_prv : 2'h3) : {~_GEN_27, 1'h1}) : reg_mstatus_prv; // @[CSR.scala:395:28, :397:28, :482:26, :893:83, :966:34, :1020:43, :1035:20, :1036:24, :1037:25, :1044:17, :1046:31, :1056:37, :1064:15, :1065:35, :1078:15, :1081:23, :1091:15, :1115:19, :1116:27, :1154:13] assign _io_csr_stall_T = reg_wfi | io_status_cease_0; // @[CSR.scala:377:7, :575:54, :1161:27] assign io_csr_stall_0 = _io_csr_stall_T; // @[CSR.scala:377:7, :1161:27] reg io_status_cease_r; // @[CSR.scala:1162:31] assign io_status_cease_0 = io_status_cease_r; // @[CSR.scala:377:7, :1162:31] wire [63:0] _io_rw_rdata_T_4 = decoded_addr_94_2 ? 64'h800000000014112D : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_153 = _io_rw_rdata_T_4; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_5 = decoded_addr_100_2 ? read_mstatus : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_6 = decoded_addr_72_2 ? read_mtvec : 64'h0; // @[Mux.scala:30:73] wire [15:0] _io_rw_rdata_T_7 = decoded_addr_108_2 ? read_mip : 16'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_8 = decoded_addr_76_2 ? reg_mie : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_9 = decoded_addr_129_2 ? reg_mscratch : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_10 = decoded_addr_132_2 ? read_mapping_10_2 : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_11 = decoded_addr_136_2 ? read_mapping_11_2 : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_12 = decoded_addr_29_2 ? reg_mcause : 64'h0; // @[Mux.scala:30:73] wire _io_rw_rdata_T_13 = decoded_addr_131_2 & io_hartid_0; // @[Mux.scala:30:73] wire [31:0] _io_rw_rdata_T_14 = decoded_addr_49_2 ? debug_csrs_0_2 : 32'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_15 = decoded_addr_89_2 ? debug_csrs_1_2 : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_16 = decoded_addr_57_2 ? reg_dscratch0 : 64'h0; // @[Mux.scala:30:73] wire [4:0] _io_rw_rdata_T_17 = decoded_addr_36_2 ? reg_fflags : 5'h0; // @[Mux.scala:30:73] wire [2:0] _io_rw_rdata_T_18 = decoded_addr_68_2 ? reg_frm : 3'h0; // @[Mux.scala:30:73] wire [7:0] _io_rw_rdata_T_19 = decoded_addr_99_2 ? read_fcsr : 8'h0; // @[Mux.scala:30:73] wire [2:0] _io_rw_rdata_T_20 = decoded_addr_130_2 ? reg_mcountinhibit : 3'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_21 = decoded_addr_103_2 ? value_1 : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_22 = decoded_addr_121_2 ? value : 64'h0; // @[Mux.scala:30:73] wire [31:0] _io_rw_rdata_T_110 = decoded_addr_35_2 ? read_mcounteren : 32'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_111 = decoded_addr_2_2 ? value_1 : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_112 = decoded_addr_66_2 ? value : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_113 = decoded_addr_42_2 ? {57'h0, lo_4} : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_114 = decoded_addr_61_2 ? {hi_7[41:0], lo_5} : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_115 = decoded_addr_48_2 ? read_sip : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_116 = decoded_addr_44_2 ? read_sie : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_117 = decoded_addr_15_2 ? reg_sscratch : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_118 = decoded_addr_145_2 ? reg_scause : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_119 = decoded_addr_93_2 ? {{24{reg_stval[39]}}, reg_stval} : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_120 = decoded_addr_6_2 ? {hi_8, reg_satp_ppn} : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_121 = decoded_addr_28_2 ? {{24{_T_30[39]}}, _T_30} : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_122 = decoded_addr_25_2 ? read_stvec : 64'h0; // @[Mux.scala:30:73] wire [31:0] _io_rw_rdata_T_123 = decoded_addr_137_2 ? read_scounteren : 32'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_124 = decoded_addr_123_2 ? read_mideleg : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_125 = decoded_addr_23_2 ? read_medeleg : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_126 = decoded_addr_69_2 ? {57'h0, lo_6} : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_127 = decoded_addr_141_2 ? {hi_18, lo_15} : 64'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_129 = decoded_addr_104_2 ? reg_pmp_0_addr : 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_130 = decoded_addr_8_2 ? reg_pmp_1_addr : 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_131 = decoded_addr_125_2 ? reg_pmp_2_addr : 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_132 = decoded_addr_85_2 ? reg_pmp_3_addr : 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_133 = decoded_addr_54_2 ? reg_pmp_4_addr : 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_134 = decoded_addr_20_2 ? reg_pmp_5_addr : 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_135 = decoded_addr_135_2 ? reg_pmp_6_addr : 30'h0; // @[Mux.scala:30:73] wire [29:0] _io_rw_rdata_T_136 = decoded_addr_115_2 ? reg_pmp_7_addr : 30'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_145 = decoded_addr_18_2 ? reg_custom_0 : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_146 = decoded_addr_3_2 ? reg_custom_1 : 64'h0; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_154 = _io_rw_rdata_T_153 | _io_rw_rdata_T_5; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_155 = _io_rw_rdata_T_154 | _io_rw_rdata_T_6; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_156 = {_io_rw_rdata_T_155[63:16], _io_rw_rdata_T_155[15:0] | _io_rw_rdata_T_7}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_157 = _io_rw_rdata_T_156 | _io_rw_rdata_T_8; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_158 = _io_rw_rdata_T_157 | _io_rw_rdata_T_9; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_159 = _io_rw_rdata_T_158 | _io_rw_rdata_T_10; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_160 = _io_rw_rdata_T_159 | _io_rw_rdata_T_11; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_161 = _io_rw_rdata_T_160 | _io_rw_rdata_T_12; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_162 = {_io_rw_rdata_T_161[63:1], _io_rw_rdata_T_161[0] | _io_rw_rdata_T_13}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_163 = {_io_rw_rdata_T_162[63:32], _io_rw_rdata_T_162[31:0] | _io_rw_rdata_T_14}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_164 = _io_rw_rdata_T_163 | _io_rw_rdata_T_15; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_165 = _io_rw_rdata_T_164 | _io_rw_rdata_T_16; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_166 = {_io_rw_rdata_T_165[63:5], _io_rw_rdata_T_165[4:0] | _io_rw_rdata_T_17}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_167 = {_io_rw_rdata_T_166[63:3], _io_rw_rdata_T_166[2:0] | _io_rw_rdata_T_18}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_168 = {_io_rw_rdata_T_167[63:8], _io_rw_rdata_T_167[7:0] | _io_rw_rdata_T_19}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_169 = {_io_rw_rdata_T_168[63:3], _io_rw_rdata_T_168[2:0] | _io_rw_rdata_T_20}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_170 = _io_rw_rdata_T_169 | _io_rw_rdata_T_21; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_171 = _io_rw_rdata_T_170 | _io_rw_rdata_T_22; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_172 = _io_rw_rdata_T_171; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_173 = _io_rw_rdata_T_172; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_174 = _io_rw_rdata_T_173; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_175 = _io_rw_rdata_T_174; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_176 = _io_rw_rdata_T_175; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_177 = _io_rw_rdata_T_176; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_178 = _io_rw_rdata_T_177; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_179 = _io_rw_rdata_T_178; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_180 = _io_rw_rdata_T_179; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_181 = _io_rw_rdata_T_180; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_182 = _io_rw_rdata_T_181; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_183 = _io_rw_rdata_T_182; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_184 = _io_rw_rdata_T_183; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_185 = _io_rw_rdata_T_184; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_186 = _io_rw_rdata_T_185; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_187 = _io_rw_rdata_T_186; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_188 = _io_rw_rdata_T_187; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_189 = _io_rw_rdata_T_188; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_190 = _io_rw_rdata_T_189; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_191 = _io_rw_rdata_T_190; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_192 = _io_rw_rdata_T_191; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_193 = _io_rw_rdata_T_192; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_194 = _io_rw_rdata_T_193; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_195 = _io_rw_rdata_T_194; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_196 = _io_rw_rdata_T_195; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_197 = _io_rw_rdata_T_196; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_198 = _io_rw_rdata_T_197; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_199 = _io_rw_rdata_T_198; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_200 = _io_rw_rdata_T_199; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_201 = _io_rw_rdata_T_200; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_202 = _io_rw_rdata_T_201; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_203 = _io_rw_rdata_T_202; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_204 = _io_rw_rdata_T_203; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_205 = _io_rw_rdata_T_204; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_206 = _io_rw_rdata_T_205; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_207 = _io_rw_rdata_T_206; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_208 = _io_rw_rdata_T_207; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_209 = _io_rw_rdata_T_208; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_210 = _io_rw_rdata_T_209; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_211 = _io_rw_rdata_T_210; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_212 = _io_rw_rdata_T_211; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_213 = _io_rw_rdata_T_212; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_214 = _io_rw_rdata_T_213; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_215 = _io_rw_rdata_T_214; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_216 = _io_rw_rdata_T_215; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_217 = _io_rw_rdata_T_216; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_218 = _io_rw_rdata_T_217; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_219 = _io_rw_rdata_T_218; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_220 = _io_rw_rdata_T_219; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_221 = _io_rw_rdata_T_220; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_222 = _io_rw_rdata_T_221; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_223 = _io_rw_rdata_T_222; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_224 = _io_rw_rdata_T_223; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_225 = _io_rw_rdata_T_224; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_226 = _io_rw_rdata_T_225; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_227 = _io_rw_rdata_T_226; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_228 = _io_rw_rdata_T_227; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_229 = _io_rw_rdata_T_228; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_230 = _io_rw_rdata_T_229; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_231 = _io_rw_rdata_T_230; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_232 = _io_rw_rdata_T_231; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_233 = _io_rw_rdata_T_232; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_234 = _io_rw_rdata_T_233; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_235 = _io_rw_rdata_T_234; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_236 = _io_rw_rdata_T_235; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_237 = _io_rw_rdata_T_236; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_238 = _io_rw_rdata_T_237; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_239 = _io_rw_rdata_T_238; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_240 = _io_rw_rdata_T_239; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_241 = _io_rw_rdata_T_240; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_242 = _io_rw_rdata_T_241; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_243 = _io_rw_rdata_T_242; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_244 = _io_rw_rdata_T_243; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_245 = _io_rw_rdata_T_244; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_246 = _io_rw_rdata_T_245; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_247 = _io_rw_rdata_T_246; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_248 = _io_rw_rdata_T_247; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_249 = _io_rw_rdata_T_248; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_250 = _io_rw_rdata_T_249; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_251 = _io_rw_rdata_T_250; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_252 = _io_rw_rdata_T_251; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_253 = _io_rw_rdata_T_252; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_254 = _io_rw_rdata_T_253; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_255 = _io_rw_rdata_T_254; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_256 = _io_rw_rdata_T_255; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_257 = _io_rw_rdata_T_256; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_258 = _io_rw_rdata_T_257; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_259 = {_io_rw_rdata_T_258[63:32], _io_rw_rdata_T_258[31:0] | _io_rw_rdata_T_110}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_260 = _io_rw_rdata_T_259 | _io_rw_rdata_T_111; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_261 = _io_rw_rdata_T_260 | _io_rw_rdata_T_112; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_262 = _io_rw_rdata_T_261 | _io_rw_rdata_T_113; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_263 = _io_rw_rdata_T_262 | _io_rw_rdata_T_114; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_264 = _io_rw_rdata_T_263 | _io_rw_rdata_T_115; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_265 = _io_rw_rdata_T_264 | _io_rw_rdata_T_116; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_266 = _io_rw_rdata_T_265 | _io_rw_rdata_T_117; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_267 = _io_rw_rdata_T_266 | _io_rw_rdata_T_118; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_268 = _io_rw_rdata_T_267 | _io_rw_rdata_T_119; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_269 = _io_rw_rdata_T_268 | _io_rw_rdata_T_120; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_270 = _io_rw_rdata_T_269 | _io_rw_rdata_T_121; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_271 = _io_rw_rdata_T_270 | _io_rw_rdata_T_122; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_272 = {_io_rw_rdata_T_271[63:32], _io_rw_rdata_T_271[31:0] | _io_rw_rdata_T_123}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_273 = _io_rw_rdata_T_272 | _io_rw_rdata_T_124; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_274 = _io_rw_rdata_T_273 | _io_rw_rdata_T_125; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_275 = _io_rw_rdata_T_274 | _io_rw_rdata_T_126; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_276 = _io_rw_rdata_T_275 | _io_rw_rdata_T_127; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_277 = _io_rw_rdata_T_276; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_278 = {_io_rw_rdata_T_277[63:30], _io_rw_rdata_T_277[29:0] | _io_rw_rdata_T_129}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_279 = {_io_rw_rdata_T_278[63:30], _io_rw_rdata_T_278[29:0] | _io_rw_rdata_T_130}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_280 = {_io_rw_rdata_T_279[63:30], _io_rw_rdata_T_279[29:0] | _io_rw_rdata_T_131}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_281 = {_io_rw_rdata_T_280[63:30], _io_rw_rdata_T_280[29:0] | _io_rw_rdata_T_132}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_282 = {_io_rw_rdata_T_281[63:30], _io_rw_rdata_T_281[29:0] | _io_rw_rdata_T_133}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_283 = {_io_rw_rdata_T_282[63:30], _io_rw_rdata_T_282[29:0] | _io_rw_rdata_T_134}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_284 = {_io_rw_rdata_T_283[63:30], _io_rw_rdata_T_283[29:0] | _io_rw_rdata_T_135}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_285 = {_io_rw_rdata_T_284[63:30], _io_rw_rdata_T_284[29:0] | _io_rw_rdata_T_136}; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_286 = _io_rw_rdata_T_285; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_287 = _io_rw_rdata_T_286; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_288 = _io_rw_rdata_T_287; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_289 = _io_rw_rdata_T_288; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_290 = _io_rw_rdata_T_289; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_291 = _io_rw_rdata_T_290; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_292 = _io_rw_rdata_T_291; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_293 = _io_rw_rdata_T_292; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_294 = _io_rw_rdata_T_293 | _io_rw_rdata_T_145; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_295 = _io_rw_rdata_T_294 | _io_rw_rdata_T_146; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_296 = _io_rw_rdata_T_295; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_297 = _io_rw_rdata_T_296; // @[Mux.scala:30:73] wire [63:0] _io_rw_rdata_T_298 = _io_rw_rdata_T_297; // @[Mux.scala:30:73] assign _io_rw_rdata_WIRE = _io_rw_rdata_T_298; // @[Mux.scala:30:73] assign io_rw_rdata_0 = _io_rw_rdata_WIRE; // @[Mux.scala:30:73] wire set_fs_dirty; // @[CSR.scala:1200:33]
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File AsyncQueue.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ case class AsyncQueueParams( depth: Int = 8, sync: Int = 3, safe: Boolean = true, // If safe is true, then effort is made to resynchronize the crossing indices when either side is reset. // This makes it safe/possible to reset one side of the crossing (but not the other) when the queue is empty. narrow: Boolean = false) // If narrow is true then the read mux is moved to the source side of the crossing. // This reduces the number of level shifters in the case where the clock crossing is also a voltage crossing, // at the expense of a combinational path from the sink to the source and back to the sink. { require (depth > 0 && isPow2(depth)) require (sync >= 2) val bits = log2Ceil(depth) val wires = if (narrow) 1 else depth } object AsyncQueueParams { // When there is only one entry, we don't need narrow. def singleton(sync: Int = 3, safe: Boolean = true) = AsyncQueueParams(1, sync, safe, false) } class AsyncBundleSafety extends Bundle { val ridx_valid = Input (Bool()) val widx_valid = Output(Bool()) val source_reset_n = Output(Bool()) val sink_reset_n = Input (Bool()) } class AsyncBundle[T <: Data](private val gen: T, val params: AsyncQueueParams = AsyncQueueParams()) extends Bundle { // Data-path synchronization val mem = Output(Vec(params.wires, gen)) val ridx = Input (UInt((params.bits+1).W)) val widx = Output(UInt((params.bits+1).W)) val index = params.narrow.option(Input(UInt(params.bits.W))) // Signals used to self-stabilize a safe AsyncQueue val safe = params.safe.option(new AsyncBundleSafety) } object GrayCounter { def apply(bits: Int, increment: Bool = true.B, clear: Bool = false.B, name: String = "binary"): UInt = { val incremented = Wire(UInt(bits.W)) val binary = RegNext(next=incremented, init=0.U).suggestName(name) incremented := Mux(clear, 0.U, binary + increment.asUInt) incremented ^ (incremented >> 1) } } class AsyncValidSync(sync: Int, desc: String) extends RawModule { val io = IO(new Bundle { val in = Input(Bool()) val out = Output(Bool()) }) val clock = IO(Input(Clock())) val reset = IO(Input(AsyncReset())) withClockAndReset(clock, reset){ io.out := AsyncResetSynchronizerShiftReg(io.in, sync, Some(desc)) } } class AsyncQueueSource[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSource_${gen.typeName}" val io = IO(new Bundle { // These come from the source domain val enq = Flipped(Decoupled(gen)) // These cross to the sink clock domain val async = new AsyncBundle(gen, params) }) val bits = params.bits val sink_ready = WireInit(true.B) val mem = Reg(Vec(params.depth, gen)) // This does NOT need to be reset at all. val widx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.enq.fire, !sink_ready, "widx_bin")) val ridx = AsyncResetSynchronizerShiftReg(io.async.ridx, params.sync, Some("ridx_gray")) val ready = sink_ready && widx =/= (ridx ^ (params.depth | params.depth >> 1).U) val index = if (bits == 0) 0.U else io.async.widx(bits-1, 0) ^ (io.async.widx(bits, bits) << (bits-1)) when (io.enq.fire) { mem(index) := io.enq.bits } val ready_reg = withReset(reset.asAsyncReset)(RegNext(next=ready, init=false.B).suggestName("ready_reg")) io.enq.ready := ready_reg && sink_ready val widx_reg = withReset(reset.asAsyncReset)(RegNext(next=widx, init=0.U).suggestName("widx_gray")) io.async.widx := widx_reg io.async.index match { case Some(index) => io.async.mem(0) := mem(index) case None => io.async.mem := mem } io.async.safe.foreach { sio => val source_valid_0 = Module(new AsyncValidSync(params.sync, "source_valid_0")) val source_valid_1 = Module(new AsyncValidSync(params.sync, "source_valid_1")) val sink_extend = Module(new AsyncValidSync(params.sync, "sink_extend")) val sink_valid = Module(new AsyncValidSync(params.sync, "sink_valid")) source_valid_0.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset source_valid_1.reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_extend .reset := (reset.asBool || !sio.sink_reset_n).asAsyncReset sink_valid .reset := reset.asAsyncReset source_valid_0.clock := clock source_valid_1.clock := clock sink_extend .clock := clock sink_valid .clock := clock source_valid_0.io.in := true.B source_valid_1.io.in := source_valid_0.io.out sio.widx_valid := source_valid_1.io.out sink_extend.io.in := sio.ridx_valid sink_valid.io.in := sink_extend.io.out sink_ready := sink_valid.io.out sio.source_reset_n := !reset.asBool // Assert that if there is stuff in the queue, then reset cannot happen // Impossible to write because dequeue can occur on the receiving side, // then reset allowed to happen, but write side cannot know that dequeue // occurred. // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // assert (!(reset || !sio.sink_reset_n) || !io.enq.valid, "Enqueue while sink is reset and AsyncQueueSource is unprotected") // assert (!reset_rise || prev_idx_match.asBool, "Sink reset while AsyncQueueSource not empty") } } class AsyncQueueSink[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Module { override def desiredName = s"AsyncQueueSink_${gen.typeName}" val io = IO(new Bundle { // These come from the sink domain val deq = Decoupled(gen) // These cross to the source clock domain val async = Flipped(new AsyncBundle(gen, params)) }) val bits = params.bits val source_ready = WireInit(true.B) val ridx = withReset(reset.asAsyncReset)(GrayCounter(bits+1, io.deq.fire, !source_ready, "ridx_bin")) val widx = AsyncResetSynchronizerShiftReg(io.async.widx, params.sync, Some("widx_gray")) val valid = source_ready && ridx =/= widx // The mux is safe because timing analysis ensures ridx has reached the register // On an ASIC, changes to the unread location cannot affect the selected value // On an FPGA, only one input changes at a time => mem updates don't cause glitches // The register only latches when the selected valued is not being written val index = if (bits == 0) 0.U else ridx(bits-1, 0) ^ (ridx(bits, bits) << (bits-1)) io.async.index.foreach { _ := index } // This register does not NEED to be reset, as its contents will not // be considered unless the asynchronously reset deq valid register is set. // It is possible that bits latches when the source domain is reset / has power cut // This is safe, because isolation gates brought mem low before the zeroed widx reached us val deq_bits_nxt = io.async.mem(if (params.narrow) 0.U else index) io.deq.bits := ClockCrossingReg(deq_bits_nxt, en = valid, doInit = false, name = Some("deq_bits_reg")) val valid_reg = withReset(reset.asAsyncReset)(RegNext(next=valid, init=false.B).suggestName("valid_reg")) io.deq.valid := valid_reg && source_ready val ridx_reg = withReset(reset.asAsyncReset)(RegNext(next=ridx, init=0.U).suggestName("ridx_gray")) io.async.ridx := ridx_reg io.async.safe.foreach { sio => val sink_valid_0 = Module(new AsyncValidSync(params.sync, "sink_valid_0")) val sink_valid_1 = Module(new AsyncValidSync(params.sync, "sink_valid_1")) val source_extend = Module(new AsyncValidSync(params.sync, "source_extend")) val source_valid = Module(new AsyncValidSync(params.sync, "source_valid")) sink_valid_0 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset sink_valid_1 .reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_extend.reset := (reset.asBool || !sio.source_reset_n).asAsyncReset source_valid .reset := reset.asAsyncReset sink_valid_0 .clock := clock sink_valid_1 .clock := clock source_extend.clock := clock source_valid .clock := clock sink_valid_0.io.in := true.B sink_valid_1.io.in := sink_valid_0.io.out sio.ridx_valid := sink_valid_1.io.out source_extend.io.in := sio.widx_valid source_valid.io.in := source_extend.io.out source_ready := source_valid.io.out sio.sink_reset_n := !reset.asBool // TODO: write some sort of sanity check assertion for users // that denote don't reset when there is activity // // val reset_and_extend = !source_ready || !sio.source_reset_n || reset.asBool // val reset_and_extend_prev = RegNext(reset_and_extend, true.B) // val reset_rise = !reset_and_extend_prev && reset_and_extend // val prev_idx_match = AsyncResetReg(updateData=(io.async.widx===io.async.ridx), resetData=0) // assert (!reset_rise || prev_idx_match.asBool, "Source reset while AsyncQueueSink not empty") } } object FromAsyncBundle { // Sometimes it makes sense for the sink to have different sync than the source def apply[T <: Data](x: AsyncBundle[T]): DecoupledIO[T] = apply(x, x.params.sync) def apply[T <: Data](x: AsyncBundle[T], sync: Int): DecoupledIO[T] = { val sink = Module(new AsyncQueueSink(chiselTypeOf(x.mem(0)), x.params.copy(sync = sync))) sink.io.async <> x sink.io.deq } } object ToAsyncBundle { def apply[T <: Data](x: ReadyValidIO[T], params: AsyncQueueParams = AsyncQueueParams()): AsyncBundle[T] = { val source = Module(new AsyncQueueSource(chiselTypeOf(x.bits), params)) source.io.enq <> x source.io.async } } class AsyncQueue[T <: Data](gen: T, params: AsyncQueueParams = AsyncQueueParams()) extends Crossing[T] { val io = IO(new CrossingIO(gen)) val source = withClockAndReset(io.enq_clock, io.enq_reset) { Module(new AsyncQueueSource(gen, params)) } val sink = withClockAndReset(io.deq_clock, io.deq_reset) { Module(new AsyncQueueSink (gen, params)) } source.io.enq <> io.enq io.deq <> sink.io.deq sink.io.async <> source.io.async }
module AsyncValidSync_146( // @[AsyncQueue.scala:58:7] input io_in, // @[AsyncQueue.scala:59:14] output io_out, // @[AsyncQueue.scala:59:14] input clock, // @[AsyncQueue.scala:63:17] input reset // @[AsyncQueue.scala:64:17] ); wire io_in_0 = io_in; // @[AsyncQueue.scala:58:7] wire _io_out_WIRE; // @[ShiftReg.scala:48:24] wire io_out_0; // @[AsyncQueue.scala:58:7] assign io_out_0 = _io_out_WIRE; // @[ShiftReg.scala:48:24] AsyncResetSynchronizerShiftReg_w1_d3_i0_167 io_out_sink_extend ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (reset), .io_d (io_in_0), // @[AsyncQueue.scala:58:7] .io_q (_io_out_WIRE) ); // @[ShiftReg.scala:45:23] assign io_out = io_out_0; // @[AsyncQueue.scala:58:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceLine import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import freechips.rocketchip.diplomacy.EnableMonitors import freechips.rocketchip.formal.{MonitorDirection, IfThen, Property, PropertyClass, TestplanTestType, TLMonitorStrictMode} import freechips.rocketchip.util.PlusArg case class TLMonitorArgs(edge: TLEdge) abstract class TLMonitorBase(args: TLMonitorArgs) extends Module { val io = IO(new Bundle { val in = Input(new TLBundle(args.edge.bundle)) }) def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit legalize(io.in, args.edge, reset) } object TLMonitor { def apply(enable: Boolean, node: TLNode)(implicit p: Parameters): TLNode = { if (enable) { EnableMonitors { implicit p => node := TLEphemeralNode()(ValName("monitor")) } } else { node } } } class TLMonitor(args: TLMonitorArgs, monitorDir: MonitorDirection = MonitorDirection.Monitor) extends TLMonitorBase(args) { require (args.edge.params(TLMonitorStrictMode) || (! args.edge.params(TestplanTestType).formal)) val cover_prop_class = PropertyClass.Default //Like assert but can flip to being an assumption for formal verification def monAssert(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir, cond, message, PropertyClass.Default) } def assume(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir.flip, cond, message, PropertyClass.Default) } def extra = { args.edge.sourceInfo match { case SourceLine(filename, line, col) => s" (connected at $filename:$line:$col)" case _ => "" } } def visible(address: UInt, source: UInt, edge: TLEdge) = edge.client.clients.map { c => !c.sourceId.contains(source) || c.visibility.map(_.contains(address)).reduce(_ || _) }.reduce(_ && _) def legalizeFormatA(bundle: TLBundleA, edge: TLEdge): Unit = { //switch this flag to turn on diplomacy in error messages def diplomacyInfo = if (true) "" else "\nThe diplomacy information for the edge is as follows:\n" + edge.formatEdge + "\n" monAssert (TLMessages.isA(bundle.opcode), "'A' channel has invalid opcode" + extra) // Reuse these subexpressions to save some firrtl lines val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) monAssert (visible(edge.address(bundle), bundle.source, edge), "'A' channel carries an address illegal for the specified bank visibility") //The monitor doesn’t check for acquire T vs acquire B, it assumes that acquire B implies acquire T and only checks for acquire B //TODO: check for acquireT? when (bundle.opcode === TLMessages.AcquireBlock) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquireBlock carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquireBlock smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquireBlock address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquireBlock carries invalid grow param" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquireBlock contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquireBlock is corrupt" + extra) } when (bundle.opcode === TLMessages.AcquirePerm) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquirePerm carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquirePerm smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquirePerm address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquirePerm carries invalid grow param" + extra) monAssert (bundle.param =/= TLPermissions.NtoB, "'A' channel AcquirePerm requests NtoB" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquirePerm contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquirePerm is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.emitsGet(bundle.source, bundle.size), "'A' channel carries Get type which master claims it can't emit" + diplomacyInfo + extra) monAssert (edge.slave.supportsGetSafe(edge.address(bundle), bundle.size, None), "'A' channel carries Get type which slave claims it can't support" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel Get carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.emitsPutFull(bundle.source, bundle.size) && edge.slave.supportsPutFullSafe(edge.address(bundle), bundle.size), "'A' channel carries PutFull type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel PutFull carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.emitsPutPartial(bundle.source, bundle.size) && edge.slave.supportsPutPartialSafe(edge.address(bundle), bundle.size), "'A' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel PutPartial carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'A' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.emitsArithmetic(bundle.source, bundle.size) && edge.slave.supportsArithmeticSafe(edge.address(bundle), bundle.size), "'A' channel carries Arithmetic type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Arithmetic carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'A' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.emitsLogical(bundle.source, bundle.size) && edge.slave.supportsLogicalSafe(edge.address(bundle), bundle.size), "'A' channel carries Logical type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Logical carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'A' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.emitsHint(bundle.source, bundle.size) && edge.slave.supportsHintSafe(edge.address(bundle), bundle.size), "'A' channel carries Hint type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Hint carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Hint address not aligned to size" + extra) monAssert (TLHints.isHints(bundle.param), "'A' channel Hint carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Hint is corrupt" + extra) } } def legalizeFormatB(bundle: TLBundleB, edge: TLEdge): Unit = { monAssert (TLMessages.isB(bundle.opcode), "'B' channel has invalid opcode" + extra) monAssert (visible(edge.address(bundle), bundle.source, edge), "'B' channel carries an address illegal for the specified bank visibility") // Reuse these subexpressions to save some firrtl lines val address_ok = edge.manager.containsSafe(edge.address(bundle)) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) val legal_source = Mux1H(edge.client.find(bundle.source), edge.client.clients.map(c => c.sourceId.start.U)) === bundle.source when (bundle.opcode === TLMessages.Probe) { assume (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'B' channel carries Probe type which is unexpected using diplomatic parameters" + extra) assume (address_ok, "'B' channel Probe carries unmanaged address" + extra) assume (legal_source, "'B' channel Probe carries source that is not first source" + extra) assume (is_aligned, "'B' channel Probe address not aligned to size" + extra) assume (TLPermissions.isCap(bundle.param), "'B' channel Probe carries invalid cap param" + extra) assume (bundle.mask === mask, "'B' channel Probe contains invalid mask" + extra) assume (!bundle.corrupt, "'B' channel Probe is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.supportsGet(edge.source(bundle), bundle.size) && edge.slave.emitsGetSafe(edge.address(bundle), bundle.size), "'B' channel carries Get type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel Get carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Get carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.supportsPutFull(edge.source(bundle), bundle.size) && edge.slave.emitsPutFullSafe(edge.address(bundle), bundle.size), "'B' channel carries PutFull type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutFull carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutFull carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.supportsPutPartial(edge.source(bundle), bundle.size) && edge.slave.emitsPutPartialSafe(edge.address(bundle), bundle.size), "'B' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutPartial carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutPartial carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'B' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.supportsArithmetic(edge.source(bundle), bundle.size) && edge.slave.emitsArithmeticSafe(edge.address(bundle), bundle.size), "'B' channel carries Arithmetic type unsupported by master" + extra) monAssert (address_ok, "'B' channel Arithmetic carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Arithmetic carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'B' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.supportsLogical(edge.source(bundle), bundle.size) && edge.slave.emitsLogicalSafe(edge.address(bundle), bundle.size), "'B' channel carries Logical type unsupported by client" + extra) monAssert (address_ok, "'B' channel Logical carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Logical carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'B' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.supportsHint(edge.source(bundle), bundle.size) && edge.slave.emitsHintSafe(edge.address(bundle), bundle.size), "'B' channel carries Hint type unsupported by client" + extra) monAssert (address_ok, "'B' channel Hint carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Hint carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Hint address not aligned to size" + extra) monAssert (bundle.mask === mask, "'B' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Hint is corrupt" + extra) } } def legalizeFormatC(bundle: TLBundleC, edge: TLEdge): Unit = { monAssert (TLMessages.isC(bundle.opcode), "'C' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val address_ok = edge.manager.containsSafe(edge.address(bundle)) monAssert (visible(edge.address(bundle), bundle.source, edge), "'C' channel carries an address illegal for the specified bank visibility") when (bundle.opcode === TLMessages.ProbeAck) { monAssert (address_ok, "'C' channel ProbeAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAck carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAck smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAck address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAck carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel ProbeAck is corrupt" + extra) } when (bundle.opcode === TLMessages.ProbeAckData) { monAssert (address_ok, "'C' channel ProbeAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAckData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAckData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAckData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAckData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.Release) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries Release type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel Release carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel Release smaller than a beat" + extra) monAssert (is_aligned, "'C' channel Release address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel Release carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel Release is corrupt" + extra) } when (bundle.opcode === TLMessages.ReleaseData) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries ReleaseData type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel ReleaseData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ReleaseData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ReleaseData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ReleaseData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.AccessAck) { monAssert (address_ok, "'C' channel AccessAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel AccessAck is corrupt" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { monAssert (address_ok, "'C' channel AccessAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAckData carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAckData address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAckData carries invalid param" + extra) } when (bundle.opcode === TLMessages.HintAck) { monAssert (address_ok, "'C' channel HintAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel HintAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel HintAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel HintAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel HintAck is corrupt" + extra) } } def legalizeFormatD(bundle: TLBundleD, edge: TLEdge): Unit = { assume (TLMessages.isD(bundle.opcode), "'D' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val sink_ok = bundle.sink < edge.manager.endSinkId.U val deny_put_ok = edge.manager.mayDenyPut.B val deny_get_ok = edge.manager.mayDenyGet.B when (bundle.opcode === TLMessages.ReleaseAck) { assume (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel ReleaseAck smaller than a beat" + extra) assume (bundle.param === 0.U, "'D' channel ReleaseeAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel ReleaseAck is corrupt" + extra) assume (!bundle.denied, "'D' channel ReleaseAck is denied" + extra) } when (bundle.opcode === TLMessages.Grant) { assume (source_ok, "'D' channel Grant carries invalid source ID" + extra) assume (sink_ok, "'D' channel Grant carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel Grant smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel Grant carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel Grant carries toN param" + extra) assume (!bundle.corrupt, "'D' channel Grant is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel Grant is denied" + extra) } when (bundle.opcode === TLMessages.GrantData) { assume (source_ok, "'D' channel GrantData carries invalid source ID" + extra) assume (sink_ok, "'D' channel GrantData carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel GrantData smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel GrantData carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel GrantData carries toN param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel GrantData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel GrantData is denied" + extra) } when (bundle.opcode === TLMessages.AccessAck) { assume (source_ok, "'D' channel AccessAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel AccessAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel AccessAck is denied" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { assume (source_ok, "'D' channel AccessAckData carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAckData carries invalid param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel AccessAckData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel AccessAckData is denied" + extra) } when (bundle.opcode === TLMessages.HintAck) { assume (source_ok, "'D' channel HintAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel HintAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel HintAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel HintAck is denied" + extra) } } def legalizeFormatE(bundle: TLBundleE, edge: TLEdge): Unit = { val sink_ok = bundle.sink < edge.manager.endSinkId.U monAssert (sink_ok, "'E' channels carries invalid sink ID" + extra) } def legalizeFormat(bundle: TLBundle, edge: TLEdge) = { when (bundle.a.valid) { legalizeFormatA(bundle.a.bits, edge) } when (bundle.d.valid) { legalizeFormatD(bundle.d.bits, edge) } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { when (bundle.b.valid) { legalizeFormatB(bundle.b.bits, edge) } when (bundle.c.valid) { legalizeFormatC(bundle.c.bits, edge) } when (bundle.e.valid) { legalizeFormatE(bundle.e.bits, edge) } } else { monAssert (!bundle.b.valid, "'B' channel valid and not TL-C" + extra) monAssert (!bundle.c.valid, "'C' channel valid and not TL-C" + extra) monAssert (!bundle.e.valid, "'E' channel valid and not TL-C" + extra) } } def legalizeMultibeatA(a: DecoupledIO[TLBundleA], edge: TLEdge): Unit = { val a_first = edge.first(a.bits, a.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (a.valid && !a_first) { monAssert (a.bits.opcode === opcode, "'A' channel opcode changed within multibeat operation" + extra) monAssert (a.bits.param === param, "'A' channel param changed within multibeat operation" + extra) monAssert (a.bits.size === size, "'A' channel size changed within multibeat operation" + extra) monAssert (a.bits.source === source, "'A' channel source changed within multibeat operation" + extra) monAssert (a.bits.address=== address,"'A' channel address changed with multibeat operation" + extra) } when (a.fire && a_first) { opcode := a.bits.opcode param := a.bits.param size := a.bits.size source := a.bits.source address := a.bits.address } } def legalizeMultibeatB(b: DecoupledIO[TLBundleB], edge: TLEdge): Unit = { val b_first = edge.first(b.bits, b.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (b.valid && !b_first) { monAssert (b.bits.opcode === opcode, "'B' channel opcode changed within multibeat operation" + extra) monAssert (b.bits.param === param, "'B' channel param changed within multibeat operation" + extra) monAssert (b.bits.size === size, "'B' channel size changed within multibeat operation" + extra) monAssert (b.bits.source === source, "'B' channel source changed within multibeat operation" + extra) monAssert (b.bits.address=== address,"'B' channel addresss changed with multibeat operation" + extra) } when (b.fire && b_first) { opcode := b.bits.opcode param := b.bits.param size := b.bits.size source := b.bits.source address := b.bits.address } } def legalizeADSourceFormal(bundle: TLBundle, edge: TLEdge): Unit = { // Symbolic variable val sym_source = Wire(UInt(edge.client.endSourceId.W)) // TODO: Connect sym_source to a fixed value for simulation and to a // free wire in formal sym_source := 0.U // Type casting Int to UInt val maxSourceId = Wire(UInt(edge.client.endSourceId.W)) maxSourceId := edge.client.endSourceId.U // Delayed verison of sym_source val sym_source_d = Reg(UInt(edge.client.endSourceId.W)) sym_source_d := sym_source // These will be constraints for FV setup Property( MonitorDirection.Monitor, (sym_source === sym_source_d), "sym_source should remain stable", PropertyClass.Default) Property( MonitorDirection.Monitor, (sym_source <= maxSourceId), "sym_source should take legal value", PropertyClass.Default) val my_resp_pend = RegInit(false.B) val my_opcode = Reg(UInt()) val my_size = Reg(UInt()) val a_first = bundle.a.valid && edge.first(bundle.a.bits, bundle.a.fire) val d_first = bundle.d.valid && edge.first(bundle.d.bits, bundle.d.fire) val my_a_first_beat = a_first && (bundle.a.bits.source === sym_source) val my_d_first_beat = d_first && (bundle.d.bits.source === sym_source) val my_clr_resp_pend = (bundle.d.fire && my_d_first_beat) val my_set_resp_pend = (bundle.a.fire && my_a_first_beat && !my_clr_resp_pend) when (my_set_resp_pend) { my_resp_pend := true.B } .elsewhen (my_clr_resp_pend) { my_resp_pend := false.B } when (my_a_first_beat) { my_opcode := bundle.a.bits.opcode my_size := bundle.a.bits.size } val my_resp_size = Mux(my_a_first_beat, bundle.a.bits.size, my_size) val my_resp_opcode = Mux(my_a_first_beat, bundle.a.bits.opcode, my_opcode) val my_resp_opcode_legal = Wire(Bool()) when ((my_resp_opcode === TLMessages.Get) || (my_resp_opcode === TLMessages.ArithmeticData) || (my_resp_opcode === TLMessages.LogicalData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAckData) } .elsewhen ((my_resp_opcode === TLMessages.PutFullData) || (my_resp_opcode === TLMessages.PutPartialData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAck) } .otherwise { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.HintAck) } monAssert (IfThen(my_resp_pend, !my_a_first_beat), "Request message should not be sent with a source ID, for which a response message" + "is already pending (not received until current cycle) for a prior request message" + "with the same source ID" + extra) assume (IfThen(my_clr_resp_pend, (my_set_resp_pend || my_resp_pend)), "Response message should be accepted with a source ID only if a request message with the" + "same source ID has been accepted or is being accepted in the current cycle" + extra) assume (IfThen(my_d_first_beat, (my_a_first_beat || my_resp_pend)), "Response message should be sent with a source ID only if a request message with the" + "same source ID has been accepted or is being sent in the current cycle" + extra) assume (IfThen(my_d_first_beat, (bundle.d.bits.size === my_resp_size)), "If d_valid is 1, then d_size should be same as a_size of the corresponding request" + "message" + extra) assume (IfThen(my_d_first_beat, my_resp_opcode_legal), "If d_valid is 1, then d_opcode should correspond with a_opcode of the corresponding" + "request message" + extra) } def legalizeMultibeatC(c: DecoupledIO[TLBundleC], edge: TLEdge): Unit = { val c_first = edge.first(c.bits, c.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (c.valid && !c_first) { monAssert (c.bits.opcode === opcode, "'C' channel opcode changed within multibeat operation" + extra) monAssert (c.bits.param === param, "'C' channel param changed within multibeat operation" + extra) monAssert (c.bits.size === size, "'C' channel size changed within multibeat operation" + extra) monAssert (c.bits.source === source, "'C' channel source changed within multibeat operation" + extra) monAssert (c.bits.address=== address,"'C' channel address changed with multibeat operation" + extra) } when (c.fire && c_first) { opcode := c.bits.opcode param := c.bits.param size := c.bits.size source := c.bits.source address := c.bits.address } } def legalizeMultibeatD(d: DecoupledIO[TLBundleD], edge: TLEdge): Unit = { val d_first = edge.first(d.bits, d.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val sink = Reg(UInt()) val denied = Reg(Bool()) when (d.valid && !d_first) { assume (d.bits.opcode === opcode, "'D' channel opcode changed within multibeat operation" + extra) assume (d.bits.param === param, "'D' channel param changed within multibeat operation" + extra) assume (d.bits.size === size, "'D' channel size changed within multibeat operation" + extra) assume (d.bits.source === source, "'D' channel source changed within multibeat operation" + extra) assume (d.bits.sink === sink, "'D' channel sink changed with multibeat operation" + extra) assume (d.bits.denied === denied, "'D' channel denied changed with multibeat operation" + extra) } when (d.fire && d_first) { opcode := d.bits.opcode param := d.bits.param size := d.bits.size source := d.bits.source sink := d.bits.sink denied := d.bits.denied } } def legalizeMultibeat(bundle: TLBundle, edge: TLEdge): Unit = { legalizeMultibeatA(bundle.a, edge) legalizeMultibeatD(bundle.d, edge) if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { legalizeMultibeatB(bundle.b, edge) legalizeMultibeatC(bundle.c, edge) } } //This is left in for almond which doesn't adhere to the tilelink protocol @deprecated("Use legalizeADSource instead if possible","") def legalizeADSourceOld(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.client.endSourceId.W)) val a_first = edge.first(bundle.a.bits, bundle.a.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val a_set = WireInit(0.U(edge.client.endSourceId.W)) when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) assert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) assume((a_set | inflight)(bundle.d.bits.source), "'D' channel acknowledged for nothing inflight" + extra) } if (edge.manager.minLatency > 0) { assume(a_set =/= d_clr || !a_set.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") assert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeADSource(bundle: TLBundle, edge: TLEdge): Unit = { val a_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val a_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_a_opcode_bus_size = log2Ceil(a_opcode_bus_size) val log_a_size_bus_size = log2Ceil(a_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) // size up to avoid width error inflight.suggestName("inflight") val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) inflight_opcodes.suggestName("inflight_opcodes") val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) inflight_sizes.suggestName("inflight_sizes") val a_first = edge.first(bundle.a.bits, bundle.a.fire) a_first.suggestName("a_first") val d_first = edge.first(bundle.d.bits, bundle.d.fire) d_first.suggestName("d_first") val a_set = WireInit(0.U(edge.client.endSourceId.W)) val a_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) a_set.suggestName("a_set") a_set_wo_ready.suggestName("a_set_wo_ready") val a_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) a_opcodes_set.suggestName("a_opcodes_set") val a_sizes_set = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) a_sizes_set.suggestName("a_sizes_set") val a_opcode_lookup = WireInit(0.U((a_opcode_bus_size - 1).W)) a_opcode_lookup.suggestName("a_opcode_lookup") a_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_a_opcode_bus_size.U) & size_to_numfullbits(1.U << log_a_opcode_bus_size.U)) >> 1.U val a_size_lookup = WireInit(0.U((1 << log_a_size_bus_size).W)) a_size_lookup.suggestName("a_size_lookup") a_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_a_size_bus_size.U) & size_to_numfullbits(1.U << log_a_size_bus_size.U)) >> 1.U val responseMap = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.Grant, TLMessages.Grant)) val responseMapSecondOption = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.GrantData, TLMessages.Grant)) val a_opcodes_set_interm = WireInit(0.U(a_opcode_bus_size.W)) a_opcodes_set_interm.suggestName("a_opcodes_set_interm") val a_sizes_set_interm = WireInit(0.U(a_size_bus_size.W)) a_sizes_set_interm.suggestName("a_sizes_set_interm") when (bundle.a.valid && a_first && edge.isRequest(bundle.a.bits)) { a_set_wo_ready := UIntToOH(bundle.a.bits.source) } when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) a_opcodes_set_interm := (bundle.a.bits.opcode << 1.U) | 1.U a_sizes_set_interm := (bundle.a.bits.size << 1.U) | 1.U a_opcodes_set := (a_opcodes_set_interm) << (bundle.a.bits.source << log_a_opcode_bus_size.U) a_sizes_set := (a_sizes_set_interm) << (bundle.a.bits.source << log_a_size_bus_size.U) monAssert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) d_opcodes_clr.suggestName("d_opcodes_clr") val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_a_opcode_bus_size.U) << (bundle.d.bits.source << log_a_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_a_size_bus_size.U) << (bundle.d.bits.source << log_a_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { val same_cycle_resp = bundle.a.valid && a_first && edge.isRequest(bundle.a.bits) && (bundle.a.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.opcode === responseMap(bundle.a.bits.opcode)) || (bundle.d.bits.opcode === responseMapSecondOption(bundle.a.bits.opcode)), "'D' channel contains improper opcode response" + extra) assume((bundle.a.bits.size === bundle.d.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.opcode === responseMap(a_opcode_lookup)) || (bundle.d.bits.opcode === responseMapSecondOption(a_opcode_lookup)), "'D' channel contains improper opcode response" + extra) assume((bundle.d.bits.size === a_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && a_first && bundle.a.valid && (bundle.a.bits.source === bundle.d.bits.source) && !d_release_ack) { assume((!bundle.d.ready) || bundle.a.ready, "ready check") } if (edge.manager.minLatency > 0) { assume(a_set_wo_ready =/= d_clr_wo_ready || !a_set_wo_ready.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr inflight_opcodes := (inflight_opcodes | a_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | a_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeCDSource(bundle: TLBundle, edge: TLEdge): Unit = { val c_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val c_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_c_opcode_bus_size = log2Ceil(c_opcode_bus_size) val log_c_size_bus_size = log2Ceil(c_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) inflight.suggestName("inflight") inflight_opcodes.suggestName("inflight_opcodes") inflight_sizes.suggestName("inflight_sizes") val c_first = edge.first(bundle.c.bits, bundle.c.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) c_first.suggestName("c_first") d_first.suggestName("d_first") val c_set = WireInit(0.U(edge.client.endSourceId.W)) val c_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val c_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val c_sizes_set = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) c_set.suggestName("c_set") c_set_wo_ready.suggestName("c_set_wo_ready") c_opcodes_set.suggestName("c_opcodes_set") c_sizes_set.suggestName("c_sizes_set") val c_opcode_lookup = WireInit(0.U((1 << log_c_opcode_bus_size).W)) val c_size_lookup = WireInit(0.U((1 << log_c_size_bus_size).W)) c_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_c_opcode_bus_size.U) & size_to_numfullbits(1.U << log_c_opcode_bus_size.U)) >> 1.U c_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_c_size_bus_size.U) & size_to_numfullbits(1.U << log_c_size_bus_size.U)) >> 1.U c_opcode_lookup.suggestName("c_opcode_lookup") c_size_lookup.suggestName("c_size_lookup") val c_opcodes_set_interm = WireInit(0.U(c_opcode_bus_size.W)) val c_sizes_set_interm = WireInit(0.U(c_size_bus_size.W)) c_opcodes_set_interm.suggestName("c_opcodes_set_interm") c_sizes_set_interm.suggestName("c_sizes_set_interm") when (bundle.c.valid && c_first && edge.isRequest(bundle.c.bits)) { c_set_wo_ready := UIntToOH(bundle.c.bits.source) } when (bundle.c.fire && c_first && edge.isRequest(bundle.c.bits)) { c_set := UIntToOH(bundle.c.bits.source) c_opcodes_set_interm := (bundle.c.bits.opcode << 1.U) | 1.U c_sizes_set_interm := (bundle.c.bits.size << 1.U) | 1.U c_opcodes_set := (c_opcodes_set_interm) << (bundle.c.bits.source << log_c_opcode_bus_size.U) c_sizes_set := (c_sizes_set_interm) << (bundle.c.bits.source << log_c_size_bus_size.U) monAssert(!inflight(bundle.c.bits.source), "'C' channel re-used a source ID" + extra) } val c_probe_ack = bundle.c.bits.opcode === TLMessages.ProbeAck || bundle.c.bits.opcode === TLMessages.ProbeAckData val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") d_opcodes_clr.suggestName("d_opcodes_clr") d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_c_opcode_bus_size.U) << (bundle.d.bits.source << log_c_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_c_size_bus_size.U) << (bundle.d.bits.source << log_c_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { val same_cycle_resp = bundle.c.valid && c_first && edge.isRequest(bundle.c.bits) && (bundle.c.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.size === bundle.c.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.size === c_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && c_first && bundle.c.valid && (bundle.c.bits.source === bundle.d.bits.source) && d_release_ack && !c_probe_ack) { assume((!bundle.d.ready) || bundle.c.ready, "ready check") } if (edge.manager.minLatency > 0) { when (c_set_wo_ready.orR) { assume(c_set_wo_ready =/= d_clr_wo_ready, s"'C' and 'D' concurrent, despite minlatency > 0" + extra) } } inflight := (inflight | c_set) & ~d_clr inflight_opcodes := (inflight_opcodes | c_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | c_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.c.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeDESink(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.manager.endSinkId.W)) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val e_first = true.B val d_set = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.d.fire && d_first && edge.isRequest(bundle.d.bits)) { d_set := UIntToOH(bundle.d.bits.sink) assume(!inflight(bundle.d.bits.sink), "'D' channel re-used a sink ID" + extra) } val e_clr = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.e.fire && e_first && edge.isResponse(bundle.e.bits)) { e_clr := UIntToOH(bundle.e.bits.sink) monAssert((d_set | inflight)(bundle.e.bits.sink), "'E' channel acknowledged for nothing inflight" + extra) } // edge.client.minLatency applies to BC, not DE inflight := (inflight | d_set) & ~e_clr } def legalizeUnique(bundle: TLBundle, edge: TLEdge): Unit = { val sourceBits = log2Ceil(edge.client.endSourceId) val tooBig = 14 // >16kB worth of flight information gets to be too much if (sourceBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with source bits (${sourceBits}) > ${tooBig}; A=>D transaction flight will not be checked") } else { if (args.edge.params(TestplanTestType).simulation) { if (args.edge.params(TLMonitorStrictMode)) { legalizeADSource(bundle, edge) legalizeCDSource(bundle, edge) } else { legalizeADSourceOld(bundle, edge) } } if (args.edge.params(TestplanTestType).formal) { legalizeADSourceFormal(bundle, edge) } } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { // legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize... val sinkBits = log2Ceil(edge.manager.endSinkId) if (sinkBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with sink bits (${sinkBits}) > ${tooBig}; D=>E transaction flight will not be checked") } else { legalizeDESink(bundle, edge) } } } def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit = { legalizeFormat (bundle, edge) legalizeMultibeat (bundle, edge) legalizeUnique (bundle, edge) } } File Misc.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import scala.math._ class ParameterizedBundle(implicit p: Parameters) extends Bundle trait Clocked extends Bundle { val clock = Clock() val reset = Bool() } object DecoupledHelper { def apply(rvs: Bool*) = new DecoupledHelper(rvs) } class DecoupledHelper(val rvs: Seq[Bool]) { def fire(exclude: Bool, includes: Bool*) = { require(rvs.contains(exclude), "Excluded Bool not present in DecoupledHelper! Note that DecoupledHelper uses referential equality for exclusion! If you don't want to exclude anything, use fire()!") (rvs.filter(_ ne exclude) ++ includes).reduce(_ && _) } def fire() = { rvs.reduce(_ && _) } } object MuxT { def apply[T <: Data, U <: Data](cond: Bool, con: (T, U), alt: (T, U)): (T, U) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2)) def apply[T <: Data, U <: Data, W <: Data](cond: Bool, con: (T, U, W), alt: (T, U, W)): (T, U, W) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3)) def apply[T <: Data, U <: Data, W <: Data, X <: Data](cond: Bool, con: (T, U, W, X), alt: (T, U, W, X)): (T, U, W, X) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3), Mux(cond, con._4, alt._4)) } /** Creates a cascade of n MuxTs to search for a key value. */ object MuxTLookup { def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } } object ValidMux { def apply[T <: Data](v1: ValidIO[T], v2: ValidIO[T]*): ValidIO[T] = { apply(v1 +: v2.toSeq) } def apply[T <: Data](valids: Seq[ValidIO[T]]): ValidIO[T] = { val out = Wire(Valid(valids.head.bits.cloneType)) out.valid := valids.map(_.valid).reduce(_ || _) out.bits := MuxCase(valids.head.bits, valids.map(v => (v.valid -> v.bits))) out } } object Str { def apply(s: String): UInt = { var i = BigInt(0) require(s.forall(validChar _)) for (c <- s) i = (i << 8) | c i.U((s.length*8).W) } def apply(x: Char): UInt = { require(validChar(x)) x.U(8.W) } def apply(x: UInt): UInt = apply(x, 10) def apply(x: UInt, radix: Int): UInt = { val rad = radix.U val w = x.getWidth require(w > 0) var q = x var s = digit(q % rad) for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad s = Cat(Mux((radix == 10).B && q === 0.U, Str(' '), digit(q % rad)), s) } s } def apply(x: SInt): UInt = apply(x, 10) def apply(x: SInt, radix: Int): UInt = { val neg = x < 0.S val abs = x.abs.asUInt if (radix != 10) { Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix)) } else { val rad = radix.U val w = abs.getWidth require(w > 0) var q = abs var s = digit(q % rad) var needSign = neg for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad val placeSpace = q === 0.U val space = Mux(needSign, Str('-'), Str(' ')) needSign = needSign && !placeSpace s = Cat(Mux(placeSpace, space, digit(q % rad)), s) } Cat(Mux(needSign, Str('-'), Str(' ')), s) } } private def digit(d: UInt): UInt = Mux(d < 10.U, Str('0')+d, Str(('a'-10).toChar)+d)(7,0) private def validChar(x: Char) = x == (x & 0xFF) } object Split { def apply(x: UInt, n0: Int) = { val w = x.getWidth (x.extract(w-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n2: Int, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n2), x.extract(n2-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } } object Random { def apply(mod: Int, random: UInt): UInt = { if (isPow2(mod)) random.extract(log2Ceil(mod)-1,0) else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod)) } def apply(mod: Int): UInt = apply(mod, randomizer) def oneHot(mod: Int, random: UInt): UInt = { if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0)) else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).asUInt } def oneHot(mod: Int): UInt = oneHot(mod, randomizer) private def randomizer = LFSR(16) private def partition(value: UInt, slices: Int) = Seq.tabulate(slices)(i => value < (((i + 1) << value.getWidth) / slices).U) } object Majority { def apply(in: Set[Bool]): Bool = { val n = (in.size >> 1) + 1 val clauses = in.subsets(n).map(_.reduce(_ && _)) clauses.reduce(_ || _) } def apply(in: Seq[Bool]): Bool = apply(in.toSet) def apply(in: UInt): Bool = apply(in.asBools.toSet) } object PopCountAtLeast { private def two(x: UInt): (Bool, Bool) = x.getWidth match { case 1 => (x.asBool, false.B) case n => val half = x.getWidth / 2 val (leftOne, leftTwo) = two(x(half - 1, 0)) val (rightOne, rightTwo) = two(x(x.getWidth - 1, half)) (leftOne || rightOne, leftTwo || rightTwo || (leftOne && rightOne)) } def apply(x: UInt, n: Int): Bool = n match { case 0 => true.B case 1 => x.orR case 2 => two(x)._2 case 3 => PopCount(x) >= n.U } } // This gets used everywhere, so make the smallest circuit possible ... // Given an address and size, create a mask of beatBytes size // eg: (0x3, 0, 4) => 0001, (0x3, 1, 4) => 0011, (0x3, 2, 4) => 1111 // groupBy applies an interleaved OR reduction; groupBy=2 take 0010 => 01 object MaskGen { def apply(addr_lo: UInt, lgSize: UInt, beatBytes: Int, groupBy: Int = 1): UInt = { require (groupBy >= 1 && beatBytes >= groupBy) require (isPow2(beatBytes) && isPow2(groupBy)) val lgBytes = log2Ceil(beatBytes) val sizeOH = UIntToOH(lgSize | 0.U(log2Up(beatBytes).W), log2Up(beatBytes)) | (groupBy*2 - 1).U def helper(i: Int): Seq[(Bool, Bool)] = { if (i == 0) { Seq((lgSize >= lgBytes.asUInt, true.B)) } else { val sub = helper(i-1) val size = sizeOH(lgBytes - i) val bit = addr_lo(lgBytes - i) val nbit = !bit Seq.tabulate (1 << i) { j => val (sub_acc, sub_eq) = sub(j/2) val eq = sub_eq && (if (j % 2 == 1) bit else nbit) val acc = sub_acc || (size && eq) (acc, eq) } } } if (groupBy == beatBytes) 1.U else Cat(helper(lgBytes-log2Ceil(groupBy)).map(_._1).reverse) } } File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.diplomacy import chisel3._ import chisel3.util.{DecoupledIO, Queue, ReadyValidIO, isPow2, log2Ceil, log2Floor} import freechips.rocketchip.util.ShiftQueue /** Options for describing the attributes of memory regions */ object RegionType { // Define the 'more relaxed than' ordering val cases = Seq(CACHED, TRACKED, UNCACHED, IDEMPOTENT, VOLATILE, PUT_EFFECTS, GET_EFFECTS) sealed trait T extends Ordered[T] { def compare(that: T): Int = cases.indexOf(that) compare cases.indexOf(this) } case object CACHED extends T // an intermediate agent may have cached a copy of the region for you case object TRACKED extends T // the region may have been cached by another master, but coherence is being provided case object UNCACHED extends T // the region has not been cached yet, but should be cached when possible case object IDEMPOTENT extends T // gets return most recently put content, but content should not be cached case object VOLATILE extends T // content may change without a put, but puts and gets have no side effects case object PUT_EFFECTS extends T // puts produce side effects and so must not be combined/delayed case object GET_EFFECTS extends T // gets produce side effects and so must not be issued speculatively } // A non-empty half-open range; [start, end) case class IdRange(start: Int, end: Int) extends Ordered[IdRange] { require (start >= 0, s"Ids cannot be negative, but got: $start.") require (start <= end, "Id ranges cannot be negative.") def compare(x: IdRange) = { val primary = (this.start - x.start).signum val secondary = (x.end - this.end).signum if (primary != 0) primary else secondary } def overlaps(x: IdRange) = start < x.end && x.start < end def contains(x: IdRange) = start <= x.start && x.end <= end def contains(x: Int) = start <= x && x < end def contains(x: UInt) = if (size == 0) { false.B } else if (size == 1) { // simple comparison x === start.U } else { // find index of largest different bit val largestDeltaBit = log2Floor(start ^ (end-1)) val smallestCommonBit = largestDeltaBit + 1 // may not exist in x val uncommonMask = (1 << smallestCommonBit) - 1 val uncommonBits = (x | 0.U(smallestCommonBit.W))(largestDeltaBit, 0) // the prefix must match exactly (note: may shift ALL bits away) (x >> smallestCommonBit) === (start >> smallestCommonBit).U && // firrtl constant prop range analysis can eliminate these two: (start & uncommonMask).U <= uncommonBits && uncommonBits <= ((end-1) & uncommonMask).U } def shift(x: Int) = IdRange(start+x, end+x) def size = end - start def isEmpty = end == start def range = start until end } object IdRange { def overlaps(s: Seq[IdRange]) = if (s.isEmpty) None else { val ranges = s.sorted (ranges.tail zip ranges.init) find { case (a, b) => a overlaps b } } } // An potentially empty inclusive range of 2-powers [min, max] (in bytes) case class TransferSizes(min: Int, max: Int) { def this(x: Int) = this(x, x) require (min <= max, s"Min transfer $min > max transfer $max") require (min >= 0 && max >= 0, s"TransferSizes must be positive, got: ($min, $max)") require (max == 0 || isPow2(max), s"TransferSizes must be a power of 2, got: $max") require (min == 0 || isPow2(min), s"TransferSizes must be a power of 2, got: $min") require (max == 0 || min != 0, s"TransferSize 0 is forbidden unless (0,0), got: ($min, $max)") def none = min == 0 def contains(x: Int) = isPow2(x) && min <= x && x <= max def containsLg(x: Int) = contains(1 << x) def containsLg(x: UInt) = if (none) false.B else if (min == max) { log2Ceil(min).U === x } else { log2Ceil(min).U <= x && x <= log2Ceil(max).U } def contains(x: TransferSizes) = x.none || (min <= x.min && x.max <= max) def intersect(x: TransferSizes) = if (x.max < min || max < x.min) TransferSizes.none else TransferSizes(scala.math.max(min, x.min), scala.math.min(max, x.max)) // Not a union, because the result may contain sizes contained by neither term // NOT TO BE CONFUSED WITH COVERPOINTS def mincover(x: TransferSizes) = { if (none) { x } else if (x.none) { this } else { TransferSizes(scala.math.min(min, x.min), scala.math.max(max, x.max)) } } override def toString() = "TransferSizes[%d, %d]".format(min, max) } object TransferSizes { def apply(x: Int) = new TransferSizes(x) val none = new TransferSizes(0) def mincover(seq: Seq[TransferSizes]) = seq.foldLeft(none)(_ mincover _) def intersect(seq: Seq[TransferSizes]) = seq.reduce(_ intersect _) implicit def asBool(x: TransferSizes) = !x.none } // AddressSets specify the address space managed by the manager // Base is the base address, and mask are the bits consumed by the manager // e.g: base=0x200, mask=0xff describes a device managing 0x200-0x2ff // e.g: base=0x1000, mask=0xf0f decribes a device managing 0x1000-0x100f, 0x1100-0x110f, ... case class AddressSet(base: BigInt, mask: BigInt) extends Ordered[AddressSet] { // Forbid misaligned base address (and empty sets) require ((base & mask) == 0, s"Mis-aligned AddressSets are forbidden, got: ${this.toString}") require (base >= 0, s"AddressSet negative base is ambiguous: $base") // TL2 address widths are not fixed => negative is ambiguous // We do allow negative mask (=> ignore all high bits) def contains(x: BigInt) = ((x ^ base) & ~mask) == 0 def contains(x: UInt) = ((x ^ base.U).zext & (~mask).S) === 0.S // turn x into an address contained in this set def legalize(x: UInt): UInt = base.U | (mask.U & x) // overlap iff bitwise: both care (~mask0 & ~mask1) => both equal (base0=base1) def overlaps(x: AddressSet) = (~(mask | x.mask) & (base ^ x.base)) == 0 // contains iff bitwise: x.mask => mask && contains(x.base) def contains(x: AddressSet) = ((x.mask | (base ^ x.base)) & ~mask) == 0 // The number of bytes to which the manager must be aligned def alignment = ((mask + 1) & ~mask) // Is this a contiguous memory range def contiguous = alignment == mask+1 def finite = mask >= 0 def max = { require (finite, "Max cannot be calculated on infinite mask"); base | mask } // Widen the match function to ignore all bits in imask def widen(imask: BigInt) = AddressSet(base & ~imask, mask | imask) // Return an AddressSet that only contains the addresses both sets contain def intersect(x: AddressSet): Option[AddressSet] = { if (!overlaps(x)) { None } else { val r_mask = mask & x.mask val r_base = base | x.base Some(AddressSet(r_base, r_mask)) } } def subtract(x: AddressSet): Seq[AddressSet] = { intersect(x) match { case None => Seq(this) case Some(remove) => AddressSet.enumerateBits(mask & ~remove.mask).map { bit => val nmask = (mask & (bit-1)) | remove.mask val nbase = (remove.base ^ bit) & ~nmask AddressSet(nbase, nmask) } } } // AddressSets have one natural Ordering (the containment order, if contiguous) def compare(x: AddressSet) = { val primary = (this.base - x.base).signum // smallest address first val secondary = (x.mask - this.mask).signum // largest mask first if (primary != 0) primary else secondary } // We always want to see things in hex override def toString() = { if (mask >= 0) { "AddressSet(0x%x, 0x%x)".format(base, mask) } else { "AddressSet(0x%x, ~0x%x)".format(base, ~mask) } } def toRanges = { require (finite, "Ranges cannot be calculated on infinite mask") val size = alignment val fragments = mask & ~(size-1) val bits = bitIndexes(fragments) (BigInt(0) until (BigInt(1) << bits.size)).map { i => val off = bitIndexes(i).foldLeft(base) { case (a, b) => a.setBit(bits(b)) } AddressRange(off, size) } } } object AddressSet { val everything = AddressSet(0, -1) def misaligned(base: BigInt, size: BigInt, tail: Seq[AddressSet] = Seq()): Seq[AddressSet] = { if (size == 0) tail.reverse else { val maxBaseAlignment = base & (-base) // 0 for infinite (LSB) val maxSizeAlignment = BigInt(1) << log2Floor(size) // MSB of size val step = if (maxBaseAlignment == 0 || maxBaseAlignment > maxSizeAlignment) maxSizeAlignment else maxBaseAlignment misaligned(base+step, size-step, AddressSet(base, step-1) +: tail) } } def unify(seq: Seq[AddressSet], bit: BigInt): Seq[AddressSet] = { // Pair terms up by ignoring 'bit' seq.distinct.groupBy(x => x.copy(base = x.base & ~bit)).map { case (key, seq) => if (seq.size == 1) { seq.head // singleton -> unaffected } else { key.copy(mask = key.mask | bit) // pair - widen mask by bit } }.toList } def unify(seq: Seq[AddressSet]): Seq[AddressSet] = { val bits = seq.map(_.base).foldLeft(BigInt(0))(_ | _) AddressSet.enumerateBits(bits).foldLeft(seq) { case (acc, bit) => unify(acc, bit) }.sorted } def enumerateMask(mask: BigInt): Seq[BigInt] = { def helper(id: BigInt, tail: Seq[BigInt]): Seq[BigInt] = if (id == mask) (id +: tail).reverse else helper(((~mask | id) + 1) & mask, id +: tail) helper(0, Nil) } def enumerateBits(mask: BigInt): Seq[BigInt] = { def helper(x: BigInt): Seq[BigInt] = { if (x == 0) { Nil } else { val bit = x & (-x) bit +: helper(x & ~bit) } } helper(mask) } } case class BufferParams(depth: Int, flow: Boolean, pipe: Boolean) { require (depth >= 0, "Buffer depth must be >= 0") def isDefined = depth > 0 def latency = if (isDefined && !flow) 1 else 0 def apply[T <: Data](x: DecoupledIO[T]) = if (isDefined) Queue(x, depth, flow=flow, pipe=pipe) else x def irrevocable[T <: Data](x: ReadyValidIO[T]) = if (isDefined) Queue.irrevocable(x, depth, flow=flow, pipe=pipe) else x def sq[T <: Data](x: DecoupledIO[T]) = if (!isDefined) x else { val sq = Module(new ShiftQueue(x.bits, depth, flow=flow, pipe=pipe)) sq.io.enq <> x sq.io.deq } override def toString() = "BufferParams:%d%s%s".format(depth, if (flow) "F" else "", if (pipe) "P" else "") } object BufferParams { implicit def apply(depth: Int): BufferParams = BufferParams(depth, false, false) val default = BufferParams(2) val none = BufferParams(0) val flow = BufferParams(1, true, false) val pipe = BufferParams(1, false, true) } case class TriStateValue(value: Boolean, set: Boolean) { def update(orig: Boolean) = if (set) value else orig } object TriStateValue { implicit def apply(value: Boolean): TriStateValue = TriStateValue(value, true) def unset = TriStateValue(false, false) } trait DirectedBuffers[T] { def copyIn(x: BufferParams): T def copyOut(x: BufferParams): T def copyInOut(x: BufferParams): T } trait IdMapEntry { def name: String def from: IdRange def to: IdRange def isCache: Boolean def requestFifo: Boolean def maxTransactionsInFlight: Option[Int] def pretty(fmt: String) = if (from ne to) { // if the subclass uses the same reference for both from and to, assume its format string has an arity of 5 fmt.format(to.start, to.end, from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } else { fmt.format(from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } } abstract class IdMap[T <: IdMapEntry] { protected val fmt: String val mapping: Seq[T] def pretty: String = mapping.map(_.pretty(fmt)).mkString(",\n") } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module TLMonitor_40( // @[Monitor.scala:36:7] input clock, // @[Monitor.scala:36:7] input reset, // @[Monitor.scala:36:7] input io_in_a_ready, // @[Monitor.scala:20:14] input io_in_a_valid, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_opcode, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_param, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_size, // @[Monitor.scala:20:14] input [7:0] io_in_a_bits_source, // @[Monitor.scala:20:14] input [20:0] io_in_a_bits_address, // @[Monitor.scala:20:14] input [7:0] io_in_a_bits_mask, // @[Monitor.scala:20:14] input io_in_a_bits_corrupt, // @[Monitor.scala:20:14] input io_in_d_ready, // @[Monitor.scala:20:14] input io_in_d_valid, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_opcode, // @[Monitor.scala:20:14] input [1:0] io_in_d_bits_param, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_size, // @[Monitor.scala:20:14] input [7:0] io_in_d_bits_source, // @[Monitor.scala:20:14] input io_in_d_bits_sink, // @[Monitor.scala:20:14] input io_in_d_bits_denied, // @[Monitor.scala:20:14] input io_in_d_bits_corrupt // @[Monitor.scala:20:14] ); wire [31:0] _plusarg_reader_1_out; // @[PlusArg.scala:80:11] wire [31:0] _plusarg_reader_out; // @[PlusArg.scala:80:11] wire [12:0] _GEN = {10'h0, io_in_a_bits_size}; // @[package.scala:243:71] wire _a_first_T_1 = io_in_a_ready & io_in_a_valid; // @[Decoupled.scala:51:35] reg [2:0] a_first_counter; // @[Edges.scala:229:27] reg [2:0] opcode; // @[Monitor.scala:387:22] reg [2:0] param; // @[Monitor.scala:388:22] reg [2:0] size; // @[Monitor.scala:389:22] reg [7:0] source; // @[Monitor.scala:390:22] reg [20:0] address; // @[Monitor.scala:391:22] reg [2:0] d_first_counter; // @[Edges.scala:229:27] reg [2:0] opcode_1; // @[Monitor.scala:538:22] reg [1:0] param_1; // @[Monitor.scala:539:22] reg [2:0] size_1; // @[Monitor.scala:540:22] reg [7:0] source_1; // @[Monitor.scala:541:22] reg sink; // @[Monitor.scala:542:22] reg denied; // @[Monitor.scala:543:22] reg [128:0] inflight; // @[Monitor.scala:614:27] reg [515:0] inflight_opcodes; // @[Monitor.scala:616:35] reg [515:0] inflight_sizes; // @[Monitor.scala:618:33] reg [2:0] a_first_counter_1; // @[Edges.scala:229:27] wire a_first_1 = a_first_counter_1 == 3'h0; // @[Edges.scala:229:27, :231:25] reg [2:0] d_first_counter_1; // @[Edges.scala:229:27] wire d_first_1 = d_first_counter_1 == 3'h0; // @[Edges.scala:229:27, :231:25] wire [255:0] _GEN_0 = {248'h0, io_in_a_bits_source}; // @[OneHot.scala:58:35] wire _GEN_1 = _a_first_T_1 & a_first_1; // @[Decoupled.scala:51:35] wire d_release_ack = io_in_d_bits_opcode == 3'h6; // @[Monitor.scala:673:46] wire _GEN_2 = io_in_d_bits_opcode != 3'h6; // @[Monitor.scala:673:46, :674:74] wire [255:0] _GEN_3 = {248'h0, io_in_d_bits_source}; // @[OneHot.scala:58:35] reg [31:0] watchdog; // @[Monitor.scala:709:27] reg [128:0] inflight_1; // @[Monitor.scala:726:35] reg [515:0] inflight_sizes_1; // @[Monitor.scala:728:35] reg [2:0] d_first_counter_2; // @[Edges.scala:229:27] wire d_first_2 = d_first_counter_2 == 3'h0; // @[Edges.scala:229:27, :231:25] reg [31:0] watchdog_1; // @[Monitor.scala:818:27]
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceLine import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import freechips.rocketchip.diplomacy.EnableMonitors import freechips.rocketchip.formal.{MonitorDirection, IfThen, Property, PropertyClass, TestplanTestType, TLMonitorStrictMode} import freechips.rocketchip.util.PlusArg case class TLMonitorArgs(edge: TLEdge) abstract class TLMonitorBase(args: TLMonitorArgs) extends Module { val io = IO(new Bundle { val in = Input(new TLBundle(args.edge.bundle)) }) def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit legalize(io.in, args.edge, reset) } object TLMonitor { def apply(enable: Boolean, node: TLNode)(implicit p: Parameters): TLNode = { if (enable) { EnableMonitors { implicit p => node := TLEphemeralNode()(ValName("monitor")) } } else { node } } } class TLMonitor(args: TLMonitorArgs, monitorDir: MonitorDirection = MonitorDirection.Monitor) extends TLMonitorBase(args) { require (args.edge.params(TLMonitorStrictMode) || (! args.edge.params(TestplanTestType).formal)) val cover_prop_class = PropertyClass.Default //Like assert but can flip to being an assumption for formal verification def monAssert(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir, cond, message, PropertyClass.Default) } def assume(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir.flip, cond, message, PropertyClass.Default) } def extra = { args.edge.sourceInfo match { case SourceLine(filename, line, col) => s" (connected at $filename:$line:$col)" case _ => "" } } def visible(address: UInt, source: UInt, edge: TLEdge) = edge.client.clients.map { c => !c.sourceId.contains(source) || c.visibility.map(_.contains(address)).reduce(_ || _) }.reduce(_ && _) def legalizeFormatA(bundle: TLBundleA, edge: TLEdge): Unit = { //switch this flag to turn on diplomacy in error messages def diplomacyInfo = if (true) "" else "\nThe diplomacy information for the edge is as follows:\n" + edge.formatEdge + "\n" monAssert (TLMessages.isA(bundle.opcode), "'A' channel has invalid opcode" + extra) // Reuse these subexpressions to save some firrtl lines val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) monAssert (visible(edge.address(bundle), bundle.source, edge), "'A' channel carries an address illegal for the specified bank visibility") //The monitor doesn’t check for acquire T vs acquire B, it assumes that acquire B implies acquire T and only checks for acquire B //TODO: check for acquireT? when (bundle.opcode === TLMessages.AcquireBlock) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquireBlock carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquireBlock smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquireBlock address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquireBlock carries invalid grow param" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquireBlock contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquireBlock is corrupt" + extra) } when (bundle.opcode === TLMessages.AcquirePerm) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquirePerm carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquirePerm smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquirePerm address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquirePerm carries invalid grow param" + extra) monAssert (bundle.param =/= TLPermissions.NtoB, "'A' channel AcquirePerm requests NtoB" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquirePerm contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquirePerm is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.emitsGet(bundle.source, bundle.size), "'A' channel carries Get type which master claims it can't emit" + diplomacyInfo + extra) monAssert (edge.slave.supportsGetSafe(edge.address(bundle), bundle.size, None), "'A' channel carries Get type which slave claims it can't support" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel Get carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.emitsPutFull(bundle.source, bundle.size) && edge.slave.supportsPutFullSafe(edge.address(bundle), bundle.size), "'A' channel carries PutFull type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel PutFull carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.emitsPutPartial(bundle.source, bundle.size) && edge.slave.supportsPutPartialSafe(edge.address(bundle), bundle.size), "'A' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel PutPartial carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'A' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.emitsArithmetic(bundle.source, bundle.size) && edge.slave.supportsArithmeticSafe(edge.address(bundle), bundle.size), "'A' channel carries Arithmetic type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Arithmetic carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'A' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.emitsLogical(bundle.source, bundle.size) && edge.slave.supportsLogicalSafe(edge.address(bundle), bundle.size), "'A' channel carries Logical type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Logical carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'A' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.emitsHint(bundle.source, bundle.size) && edge.slave.supportsHintSafe(edge.address(bundle), bundle.size), "'A' channel carries Hint type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Hint carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Hint address not aligned to size" + extra) monAssert (TLHints.isHints(bundle.param), "'A' channel Hint carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Hint is corrupt" + extra) } } def legalizeFormatB(bundle: TLBundleB, edge: TLEdge): Unit = { monAssert (TLMessages.isB(bundle.opcode), "'B' channel has invalid opcode" + extra) monAssert (visible(edge.address(bundle), bundle.source, edge), "'B' channel carries an address illegal for the specified bank visibility") // Reuse these subexpressions to save some firrtl lines val address_ok = edge.manager.containsSafe(edge.address(bundle)) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) val legal_source = Mux1H(edge.client.find(bundle.source), edge.client.clients.map(c => c.sourceId.start.U)) === bundle.source when (bundle.opcode === TLMessages.Probe) { assume (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'B' channel carries Probe type which is unexpected using diplomatic parameters" + extra) assume (address_ok, "'B' channel Probe carries unmanaged address" + extra) assume (legal_source, "'B' channel Probe carries source that is not first source" + extra) assume (is_aligned, "'B' channel Probe address not aligned to size" + extra) assume (TLPermissions.isCap(bundle.param), "'B' channel Probe carries invalid cap param" + extra) assume (bundle.mask === mask, "'B' channel Probe contains invalid mask" + extra) assume (!bundle.corrupt, "'B' channel Probe is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.supportsGet(edge.source(bundle), bundle.size) && edge.slave.emitsGetSafe(edge.address(bundle), bundle.size), "'B' channel carries Get type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel Get carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Get carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.supportsPutFull(edge.source(bundle), bundle.size) && edge.slave.emitsPutFullSafe(edge.address(bundle), bundle.size), "'B' channel carries PutFull type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutFull carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutFull carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.supportsPutPartial(edge.source(bundle), bundle.size) && edge.slave.emitsPutPartialSafe(edge.address(bundle), bundle.size), "'B' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutPartial carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutPartial carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'B' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.supportsArithmetic(edge.source(bundle), bundle.size) && edge.slave.emitsArithmeticSafe(edge.address(bundle), bundle.size), "'B' channel carries Arithmetic type unsupported by master" + extra) monAssert (address_ok, "'B' channel Arithmetic carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Arithmetic carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'B' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.supportsLogical(edge.source(bundle), bundle.size) && edge.slave.emitsLogicalSafe(edge.address(bundle), bundle.size), "'B' channel carries Logical type unsupported by client" + extra) monAssert (address_ok, "'B' channel Logical carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Logical carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'B' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.supportsHint(edge.source(bundle), bundle.size) && edge.slave.emitsHintSafe(edge.address(bundle), bundle.size), "'B' channel carries Hint type unsupported by client" + extra) monAssert (address_ok, "'B' channel Hint carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Hint carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Hint address not aligned to size" + extra) monAssert (bundle.mask === mask, "'B' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Hint is corrupt" + extra) } } def legalizeFormatC(bundle: TLBundleC, edge: TLEdge): Unit = { monAssert (TLMessages.isC(bundle.opcode), "'C' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val address_ok = edge.manager.containsSafe(edge.address(bundle)) monAssert (visible(edge.address(bundle), bundle.source, edge), "'C' channel carries an address illegal for the specified bank visibility") when (bundle.opcode === TLMessages.ProbeAck) { monAssert (address_ok, "'C' channel ProbeAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAck carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAck smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAck address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAck carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel ProbeAck is corrupt" + extra) } when (bundle.opcode === TLMessages.ProbeAckData) { monAssert (address_ok, "'C' channel ProbeAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAckData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAckData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAckData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAckData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.Release) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries Release type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel Release carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel Release smaller than a beat" + extra) monAssert (is_aligned, "'C' channel Release address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel Release carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel Release is corrupt" + extra) } when (bundle.opcode === TLMessages.ReleaseData) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries ReleaseData type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel ReleaseData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ReleaseData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ReleaseData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ReleaseData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.AccessAck) { monAssert (address_ok, "'C' channel AccessAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel AccessAck is corrupt" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { monAssert (address_ok, "'C' channel AccessAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAckData carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAckData address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAckData carries invalid param" + extra) } when (bundle.opcode === TLMessages.HintAck) { monAssert (address_ok, "'C' channel HintAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel HintAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel HintAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel HintAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel HintAck is corrupt" + extra) } } def legalizeFormatD(bundle: TLBundleD, edge: TLEdge): Unit = { assume (TLMessages.isD(bundle.opcode), "'D' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val sink_ok = bundle.sink < edge.manager.endSinkId.U val deny_put_ok = edge.manager.mayDenyPut.B val deny_get_ok = edge.manager.mayDenyGet.B when (bundle.opcode === TLMessages.ReleaseAck) { assume (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel ReleaseAck smaller than a beat" + extra) assume (bundle.param === 0.U, "'D' channel ReleaseeAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel ReleaseAck is corrupt" + extra) assume (!bundle.denied, "'D' channel ReleaseAck is denied" + extra) } when (bundle.opcode === TLMessages.Grant) { assume (source_ok, "'D' channel Grant carries invalid source ID" + extra) assume (sink_ok, "'D' channel Grant carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel Grant smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel Grant carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel Grant carries toN param" + extra) assume (!bundle.corrupt, "'D' channel Grant is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel Grant is denied" + extra) } when (bundle.opcode === TLMessages.GrantData) { assume (source_ok, "'D' channel GrantData carries invalid source ID" + extra) assume (sink_ok, "'D' channel GrantData carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel GrantData smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel GrantData carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel GrantData carries toN param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel GrantData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel GrantData is denied" + extra) } when (bundle.opcode === TLMessages.AccessAck) { assume (source_ok, "'D' channel AccessAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel AccessAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel AccessAck is denied" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { assume (source_ok, "'D' channel AccessAckData carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAckData carries invalid param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel AccessAckData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel AccessAckData is denied" + extra) } when (bundle.opcode === TLMessages.HintAck) { assume (source_ok, "'D' channel HintAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel HintAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel HintAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel HintAck is denied" + extra) } } def legalizeFormatE(bundle: TLBundleE, edge: TLEdge): Unit = { val sink_ok = bundle.sink < edge.manager.endSinkId.U monAssert (sink_ok, "'E' channels carries invalid sink ID" + extra) } def legalizeFormat(bundle: TLBundle, edge: TLEdge) = { when (bundle.a.valid) { legalizeFormatA(bundle.a.bits, edge) } when (bundle.d.valid) { legalizeFormatD(bundle.d.bits, edge) } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { when (bundle.b.valid) { legalizeFormatB(bundle.b.bits, edge) } when (bundle.c.valid) { legalizeFormatC(bundle.c.bits, edge) } when (bundle.e.valid) { legalizeFormatE(bundle.e.bits, edge) } } else { monAssert (!bundle.b.valid, "'B' channel valid and not TL-C" + extra) monAssert (!bundle.c.valid, "'C' channel valid and not TL-C" + extra) monAssert (!bundle.e.valid, "'E' channel valid and not TL-C" + extra) } } def legalizeMultibeatA(a: DecoupledIO[TLBundleA], edge: TLEdge): Unit = { val a_first = edge.first(a.bits, a.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (a.valid && !a_first) { monAssert (a.bits.opcode === opcode, "'A' channel opcode changed within multibeat operation" + extra) monAssert (a.bits.param === param, "'A' channel param changed within multibeat operation" + extra) monAssert (a.bits.size === size, "'A' channel size changed within multibeat operation" + extra) monAssert (a.bits.source === source, "'A' channel source changed within multibeat operation" + extra) monAssert (a.bits.address=== address,"'A' channel address changed with multibeat operation" + extra) } when (a.fire && a_first) { opcode := a.bits.opcode param := a.bits.param size := a.bits.size source := a.bits.source address := a.bits.address } } def legalizeMultibeatB(b: DecoupledIO[TLBundleB], edge: TLEdge): Unit = { val b_first = edge.first(b.bits, b.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (b.valid && !b_first) { monAssert (b.bits.opcode === opcode, "'B' channel opcode changed within multibeat operation" + extra) monAssert (b.bits.param === param, "'B' channel param changed within multibeat operation" + extra) monAssert (b.bits.size === size, "'B' channel size changed within multibeat operation" + extra) monAssert (b.bits.source === source, "'B' channel source changed within multibeat operation" + extra) monAssert (b.bits.address=== address,"'B' channel addresss changed with multibeat operation" + extra) } when (b.fire && b_first) { opcode := b.bits.opcode param := b.bits.param size := b.bits.size source := b.bits.source address := b.bits.address } } def legalizeADSourceFormal(bundle: TLBundle, edge: TLEdge): Unit = { // Symbolic variable val sym_source = Wire(UInt(edge.client.endSourceId.W)) // TODO: Connect sym_source to a fixed value for simulation and to a // free wire in formal sym_source := 0.U // Type casting Int to UInt val maxSourceId = Wire(UInt(edge.client.endSourceId.W)) maxSourceId := edge.client.endSourceId.U // Delayed verison of sym_source val sym_source_d = Reg(UInt(edge.client.endSourceId.W)) sym_source_d := sym_source // These will be constraints for FV setup Property( MonitorDirection.Monitor, (sym_source === sym_source_d), "sym_source should remain stable", PropertyClass.Default) Property( MonitorDirection.Monitor, (sym_source <= maxSourceId), "sym_source should take legal value", PropertyClass.Default) val my_resp_pend = RegInit(false.B) val my_opcode = Reg(UInt()) val my_size = Reg(UInt()) val a_first = bundle.a.valid && edge.first(bundle.a.bits, bundle.a.fire) val d_first = bundle.d.valid && edge.first(bundle.d.bits, bundle.d.fire) val my_a_first_beat = a_first && (bundle.a.bits.source === sym_source) val my_d_first_beat = d_first && (bundle.d.bits.source === sym_source) val my_clr_resp_pend = (bundle.d.fire && my_d_first_beat) val my_set_resp_pend = (bundle.a.fire && my_a_first_beat && !my_clr_resp_pend) when (my_set_resp_pend) { my_resp_pend := true.B } .elsewhen (my_clr_resp_pend) { my_resp_pend := false.B } when (my_a_first_beat) { my_opcode := bundle.a.bits.opcode my_size := bundle.a.bits.size } val my_resp_size = Mux(my_a_first_beat, bundle.a.bits.size, my_size) val my_resp_opcode = Mux(my_a_first_beat, bundle.a.bits.opcode, my_opcode) val my_resp_opcode_legal = Wire(Bool()) when ((my_resp_opcode === TLMessages.Get) || (my_resp_opcode === TLMessages.ArithmeticData) || (my_resp_opcode === TLMessages.LogicalData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAckData) } .elsewhen ((my_resp_opcode === TLMessages.PutFullData) || (my_resp_opcode === TLMessages.PutPartialData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAck) } .otherwise { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.HintAck) } monAssert (IfThen(my_resp_pend, !my_a_first_beat), "Request message should not be sent with a source ID, for which a response message" + "is already pending (not received until current cycle) for a prior request message" + "with the same source ID" + extra) assume (IfThen(my_clr_resp_pend, (my_set_resp_pend || my_resp_pend)), "Response message should be accepted with a source ID only if a request message with the" + "same source ID has been accepted or is being accepted in the current cycle" + extra) assume (IfThen(my_d_first_beat, (my_a_first_beat || my_resp_pend)), "Response message should be sent with a source ID only if a request message with the" + "same source ID has been accepted or is being sent in the current cycle" + extra) assume (IfThen(my_d_first_beat, (bundle.d.bits.size === my_resp_size)), "If d_valid is 1, then d_size should be same as a_size of the corresponding request" + "message" + extra) assume (IfThen(my_d_first_beat, my_resp_opcode_legal), "If d_valid is 1, then d_opcode should correspond with a_opcode of the corresponding" + "request message" + extra) } def legalizeMultibeatC(c: DecoupledIO[TLBundleC], edge: TLEdge): Unit = { val c_first = edge.first(c.bits, c.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (c.valid && !c_first) { monAssert (c.bits.opcode === opcode, "'C' channel opcode changed within multibeat operation" + extra) monAssert (c.bits.param === param, "'C' channel param changed within multibeat operation" + extra) monAssert (c.bits.size === size, "'C' channel size changed within multibeat operation" + extra) monAssert (c.bits.source === source, "'C' channel source changed within multibeat operation" + extra) monAssert (c.bits.address=== address,"'C' channel address changed with multibeat operation" + extra) } when (c.fire && c_first) { opcode := c.bits.opcode param := c.bits.param size := c.bits.size source := c.bits.source address := c.bits.address } } def legalizeMultibeatD(d: DecoupledIO[TLBundleD], edge: TLEdge): Unit = { val d_first = edge.first(d.bits, d.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val sink = Reg(UInt()) val denied = Reg(Bool()) when (d.valid && !d_first) { assume (d.bits.opcode === opcode, "'D' channel opcode changed within multibeat operation" + extra) assume (d.bits.param === param, "'D' channel param changed within multibeat operation" + extra) assume (d.bits.size === size, "'D' channel size changed within multibeat operation" + extra) assume (d.bits.source === source, "'D' channel source changed within multibeat operation" + extra) assume (d.bits.sink === sink, "'D' channel sink changed with multibeat operation" + extra) assume (d.bits.denied === denied, "'D' channel denied changed with multibeat operation" + extra) } when (d.fire && d_first) { opcode := d.bits.opcode param := d.bits.param size := d.bits.size source := d.bits.source sink := d.bits.sink denied := d.bits.denied } } def legalizeMultibeat(bundle: TLBundle, edge: TLEdge): Unit = { legalizeMultibeatA(bundle.a, edge) legalizeMultibeatD(bundle.d, edge) if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { legalizeMultibeatB(bundle.b, edge) legalizeMultibeatC(bundle.c, edge) } } //This is left in for almond which doesn't adhere to the tilelink protocol @deprecated("Use legalizeADSource instead if possible","") def legalizeADSourceOld(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.client.endSourceId.W)) val a_first = edge.first(bundle.a.bits, bundle.a.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val a_set = WireInit(0.U(edge.client.endSourceId.W)) when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) assert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) assume((a_set | inflight)(bundle.d.bits.source), "'D' channel acknowledged for nothing inflight" + extra) } if (edge.manager.minLatency > 0) { assume(a_set =/= d_clr || !a_set.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") assert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeADSource(bundle: TLBundle, edge: TLEdge): Unit = { val a_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val a_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_a_opcode_bus_size = log2Ceil(a_opcode_bus_size) val log_a_size_bus_size = log2Ceil(a_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) // size up to avoid width error inflight.suggestName("inflight") val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) inflight_opcodes.suggestName("inflight_opcodes") val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) inflight_sizes.suggestName("inflight_sizes") val a_first = edge.first(bundle.a.bits, bundle.a.fire) a_first.suggestName("a_first") val d_first = edge.first(bundle.d.bits, bundle.d.fire) d_first.suggestName("d_first") val a_set = WireInit(0.U(edge.client.endSourceId.W)) val a_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) a_set.suggestName("a_set") a_set_wo_ready.suggestName("a_set_wo_ready") val a_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) a_opcodes_set.suggestName("a_opcodes_set") val a_sizes_set = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) a_sizes_set.suggestName("a_sizes_set") val a_opcode_lookup = WireInit(0.U((a_opcode_bus_size - 1).W)) a_opcode_lookup.suggestName("a_opcode_lookup") a_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_a_opcode_bus_size.U) & size_to_numfullbits(1.U << log_a_opcode_bus_size.U)) >> 1.U val a_size_lookup = WireInit(0.U((1 << log_a_size_bus_size).W)) a_size_lookup.suggestName("a_size_lookup") a_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_a_size_bus_size.U) & size_to_numfullbits(1.U << log_a_size_bus_size.U)) >> 1.U val responseMap = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.Grant, TLMessages.Grant)) val responseMapSecondOption = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.GrantData, TLMessages.Grant)) val a_opcodes_set_interm = WireInit(0.U(a_opcode_bus_size.W)) a_opcodes_set_interm.suggestName("a_opcodes_set_interm") val a_sizes_set_interm = WireInit(0.U(a_size_bus_size.W)) a_sizes_set_interm.suggestName("a_sizes_set_interm") when (bundle.a.valid && a_first && edge.isRequest(bundle.a.bits)) { a_set_wo_ready := UIntToOH(bundle.a.bits.source) } when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) a_opcodes_set_interm := (bundle.a.bits.opcode << 1.U) | 1.U a_sizes_set_interm := (bundle.a.bits.size << 1.U) | 1.U a_opcodes_set := (a_opcodes_set_interm) << (bundle.a.bits.source << log_a_opcode_bus_size.U) a_sizes_set := (a_sizes_set_interm) << (bundle.a.bits.source << log_a_size_bus_size.U) monAssert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) d_opcodes_clr.suggestName("d_opcodes_clr") val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_a_opcode_bus_size.U) << (bundle.d.bits.source << log_a_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_a_size_bus_size.U) << (bundle.d.bits.source << log_a_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { val same_cycle_resp = bundle.a.valid && a_first && edge.isRequest(bundle.a.bits) && (bundle.a.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.opcode === responseMap(bundle.a.bits.opcode)) || (bundle.d.bits.opcode === responseMapSecondOption(bundle.a.bits.opcode)), "'D' channel contains improper opcode response" + extra) assume((bundle.a.bits.size === bundle.d.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.opcode === responseMap(a_opcode_lookup)) || (bundle.d.bits.opcode === responseMapSecondOption(a_opcode_lookup)), "'D' channel contains improper opcode response" + extra) assume((bundle.d.bits.size === a_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && a_first && bundle.a.valid && (bundle.a.bits.source === bundle.d.bits.source) && !d_release_ack) { assume((!bundle.d.ready) || bundle.a.ready, "ready check") } if (edge.manager.minLatency > 0) { assume(a_set_wo_ready =/= d_clr_wo_ready || !a_set_wo_ready.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr inflight_opcodes := (inflight_opcodes | a_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | a_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeCDSource(bundle: TLBundle, edge: TLEdge): Unit = { val c_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val c_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_c_opcode_bus_size = log2Ceil(c_opcode_bus_size) val log_c_size_bus_size = log2Ceil(c_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) inflight.suggestName("inflight") inflight_opcodes.suggestName("inflight_opcodes") inflight_sizes.suggestName("inflight_sizes") val c_first = edge.first(bundle.c.bits, bundle.c.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) c_first.suggestName("c_first") d_first.suggestName("d_first") val c_set = WireInit(0.U(edge.client.endSourceId.W)) val c_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val c_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val c_sizes_set = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) c_set.suggestName("c_set") c_set_wo_ready.suggestName("c_set_wo_ready") c_opcodes_set.suggestName("c_opcodes_set") c_sizes_set.suggestName("c_sizes_set") val c_opcode_lookup = WireInit(0.U((1 << log_c_opcode_bus_size).W)) val c_size_lookup = WireInit(0.U((1 << log_c_size_bus_size).W)) c_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_c_opcode_bus_size.U) & size_to_numfullbits(1.U << log_c_opcode_bus_size.U)) >> 1.U c_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_c_size_bus_size.U) & size_to_numfullbits(1.U << log_c_size_bus_size.U)) >> 1.U c_opcode_lookup.suggestName("c_opcode_lookup") c_size_lookup.suggestName("c_size_lookup") val c_opcodes_set_interm = WireInit(0.U(c_opcode_bus_size.W)) val c_sizes_set_interm = WireInit(0.U(c_size_bus_size.W)) c_opcodes_set_interm.suggestName("c_opcodes_set_interm") c_sizes_set_interm.suggestName("c_sizes_set_interm") when (bundle.c.valid && c_first && edge.isRequest(bundle.c.bits)) { c_set_wo_ready := UIntToOH(bundle.c.bits.source) } when (bundle.c.fire && c_first && edge.isRequest(bundle.c.bits)) { c_set := UIntToOH(bundle.c.bits.source) c_opcodes_set_interm := (bundle.c.bits.opcode << 1.U) | 1.U c_sizes_set_interm := (bundle.c.bits.size << 1.U) | 1.U c_opcodes_set := (c_opcodes_set_interm) << (bundle.c.bits.source << log_c_opcode_bus_size.U) c_sizes_set := (c_sizes_set_interm) << (bundle.c.bits.source << log_c_size_bus_size.U) monAssert(!inflight(bundle.c.bits.source), "'C' channel re-used a source ID" + extra) } val c_probe_ack = bundle.c.bits.opcode === TLMessages.ProbeAck || bundle.c.bits.opcode === TLMessages.ProbeAckData val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") d_opcodes_clr.suggestName("d_opcodes_clr") d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_c_opcode_bus_size.U) << (bundle.d.bits.source << log_c_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_c_size_bus_size.U) << (bundle.d.bits.source << log_c_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { val same_cycle_resp = bundle.c.valid && c_first && edge.isRequest(bundle.c.bits) && (bundle.c.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.size === bundle.c.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.size === c_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && c_first && bundle.c.valid && (bundle.c.bits.source === bundle.d.bits.source) && d_release_ack && !c_probe_ack) { assume((!bundle.d.ready) || bundle.c.ready, "ready check") } if (edge.manager.minLatency > 0) { when (c_set_wo_ready.orR) { assume(c_set_wo_ready =/= d_clr_wo_ready, s"'C' and 'D' concurrent, despite minlatency > 0" + extra) } } inflight := (inflight | c_set) & ~d_clr inflight_opcodes := (inflight_opcodes | c_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | c_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.c.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeDESink(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.manager.endSinkId.W)) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val e_first = true.B val d_set = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.d.fire && d_first && edge.isRequest(bundle.d.bits)) { d_set := UIntToOH(bundle.d.bits.sink) assume(!inflight(bundle.d.bits.sink), "'D' channel re-used a sink ID" + extra) } val e_clr = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.e.fire && e_first && edge.isResponse(bundle.e.bits)) { e_clr := UIntToOH(bundle.e.bits.sink) monAssert((d_set | inflight)(bundle.e.bits.sink), "'E' channel acknowledged for nothing inflight" + extra) } // edge.client.minLatency applies to BC, not DE inflight := (inflight | d_set) & ~e_clr } def legalizeUnique(bundle: TLBundle, edge: TLEdge): Unit = { val sourceBits = log2Ceil(edge.client.endSourceId) val tooBig = 14 // >16kB worth of flight information gets to be too much if (sourceBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with source bits (${sourceBits}) > ${tooBig}; A=>D transaction flight will not be checked") } else { if (args.edge.params(TestplanTestType).simulation) { if (args.edge.params(TLMonitorStrictMode)) { legalizeADSource(bundle, edge) legalizeCDSource(bundle, edge) } else { legalizeADSourceOld(bundle, edge) } } if (args.edge.params(TestplanTestType).formal) { legalizeADSourceFormal(bundle, edge) } } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { // legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize... val sinkBits = log2Ceil(edge.manager.endSinkId) if (sinkBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with sink bits (${sinkBits}) > ${tooBig}; D=>E transaction flight will not be checked") } else { legalizeDESink(bundle, edge) } } } def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit = { legalizeFormat (bundle, edge) legalizeMultibeat (bundle, edge) legalizeUnique (bundle, edge) } } File Misc.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import scala.math._ class ParameterizedBundle(implicit p: Parameters) extends Bundle trait Clocked extends Bundle { val clock = Clock() val reset = Bool() } object DecoupledHelper { def apply(rvs: Bool*) = new DecoupledHelper(rvs) } class DecoupledHelper(val rvs: Seq[Bool]) { def fire(exclude: Bool, includes: Bool*) = { require(rvs.contains(exclude), "Excluded Bool not present in DecoupledHelper! Note that DecoupledHelper uses referential equality for exclusion! If you don't want to exclude anything, use fire()!") (rvs.filter(_ ne exclude) ++ includes).reduce(_ && _) } def fire() = { rvs.reduce(_ && _) } } object MuxT { def apply[T <: Data, U <: Data](cond: Bool, con: (T, U), alt: (T, U)): (T, U) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2)) def apply[T <: Data, U <: Data, W <: Data](cond: Bool, con: (T, U, W), alt: (T, U, W)): (T, U, W) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3)) def apply[T <: Data, U <: Data, W <: Data, X <: Data](cond: Bool, con: (T, U, W, X), alt: (T, U, W, X)): (T, U, W, X) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3), Mux(cond, con._4, alt._4)) } /** Creates a cascade of n MuxTs to search for a key value. */ object MuxTLookup { def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } } object ValidMux { def apply[T <: Data](v1: ValidIO[T], v2: ValidIO[T]*): ValidIO[T] = { apply(v1 +: v2.toSeq) } def apply[T <: Data](valids: Seq[ValidIO[T]]): ValidIO[T] = { val out = Wire(Valid(valids.head.bits.cloneType)) out.valid := valids.map(_.valid).reduce(_ || _) out.bits := MuxCase(valids.head.bits, valids.map(v => (v.valid -> v.bits))) out } } object Str { def apply(s: String): UInt = { var i = BigInt(0) require(s.forall(validChar _)) for (c <- s) i = (i << 8) | c i.U((s.length*8).W) } def apply(x: Char): UInt = { require(validChar(x)) x.U(8.W) } def apply(x: UInt): UInt = apply(x, 10) def apply(x: UInt, radix: Int): UInt = { val rad = radix.U val w = x.getWidth require(w > 0) var q = x var s = digit(q % rad) for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad s = Cat(Mux((radix == 10).B && q === 0.U, Str(' '), digit(q % rad)), s) } s } def apply(x: SInt): UInt = apply(x, 10) def apply(x: SInt, radix: Int): UInt = { val neg = x < 0.S val abs = x.abs.asUInt if (radix != 10) { Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix)) } else { val rad = radix.U val w = abs.getWidth require(w > 0) var q = abs var s = digit(q % rad) var needSign = neg for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad val placeSpace = q === 0.U val space = Mux(needSign, Str('-'), Str(' ')) needSign = needSign && !placeSpace s = Cat(Mux(placeSpace, space, digit(q % rad)), s) } Cat(Mux(needSign, Str('-'), Str(' ')), s) } } private def digit(d: UInt): UInt = Mux(d < 10.U, Str('0')+d, Str(('a'-10).toChar)+d)(7,0) private def validChar(x: Char) = x == (x & 0xFF) } object Split { def apply(x: UInt, n0: Int) = { val w = x.getWidth (x.extract(w-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n2: Int, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n2), x.extract(n2-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } } object Random { def apply(mod: Int, random: UInt): UInt = { if (isPow2(mod)) random.extract(log2Ceil(mod)-1,0) else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod)) } def apply(mod: Int): UInt = apply(mod, randomizer) def oneHot(mod: Int, random: UInt): UInt = { if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0)) else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).asUInt } def oneHot(mod: Int): UInt = oneHot(mod, randomizer) private def randomizer = LFSR(16) private def partition(value: UInt, slices: Int) = Seq.tabulate(slices)(i => value < (((i + 1) << value.getWidth) / slices).U) } object Majority { def apply(in: Set[Bool]): Bool = { val n = (in.size >> 1) + 1 val clauses = in.subsets(n).map(_.reduce(_ && _)) clauses.reduce(_ || _) } def apply(in: Seq[Bool]): Bool = apply(in.toSet) def apply(in: UInt): Bool = apply(in.asBools.toSet) } object PopCountAtLeast { private def two(x: UInt): (Bool, Bool) = x.getWidth match { case 1 => (x.asBool, false.B) case n => val half = x.getWidth / 2 val (leftOne, leftTwo) = two(x(half - 1, 0)) val (rightOne, rightTwo) = two(x(x.getWidth - 1, half)) (leftOne || rightOne, leftTwo || rightTwo || (leftOne && rightOne)) } def apply(x: UInt, n: Int): Bool = n match { case 0 => true.B case 1 => x.orR case 2 => two(x)._2 case 3 => PopCount(x) >= n.U } } // This gets used everywhere, so make the smallest circuit possible ... // Given an address and size, create a mask of beatBytes size // eg: (0x3, 0, 4) => 0001, (0x3, 1, 4) => 0011, (0x3, 2, 4) => 1111 // groupBy applies an interleaved OR reduction; groupBy=2 take 0010 => 01 object MaskGen { def apply(addr_lo: UInt, lgSize: UInt, beatBytes: Int, groupBy: Int = 1): UInt = { require (groupBy >= 1 && beatBytes >= groupBy) require (isPow2(beatBytes) && isPow2(groupBy)) val lgBytes = log2Ceil(beatBytes) val sizeOH = UIntToOH(lgSize | 0.U(log2Up(beatBytes).W), log2Up(beatBytes)) | (groupBy*2 - 1).U def helper(i: Int): Seq[(Bool, Bool)] = { if (i == 0) { Seq((lgSize >= lgBytes.asUInt, true.B)) } else { val sub = helper(i-1) val size = sizeOH(lgBytes - i) val bit = addr_lo(lgBytes - i) val nbit = !bit Seq.tabulate (1 << i) { j => val (sub_acc, sub_eq) = sub(j/2) val eq = sub_eq && (if (j % 2 == 1) bit else nbit) val acc = sub_acc || (size && eq) (acc, eq) } } } if (groupBy == beatBytes) 1.U else Cat(helper(lgBytes-log2Ceil(groupBy)).map(_._1).reverse) } } File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Bundles.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import freechips.rocketchip.util._ import scala.collection.immutable.ListMap import chisel3.util.Decoupled import chisel3.util.DecoupledIO import chisel3.reflect.DataMirror abstract class TLBundleBase(val params: TLBundleParameters) extends Bundle // common combos in lazy policy: // Put + Acquire // Release + AccessAck object TLMessages { // A B C D E def PutFullData = 0.U // . . => AccessAck def PutPartialData = 1.U // . . => AccessAck def ArithmeticData = 2.U // . . => AccessAckData def LogicalData = 3.U // . . => AccessAckData def Get = 4.U // . . => AccessAckData def Hint = 5.U // . . => HintAck def AcquireBlock = 6.U // . => Grant[Data] def AcquirePerm = 7.U // . => Grant[Data] def Probe = 6.U // . => ProbeAck[Data] def AccessAck = 0.U // . . def AccessAckData = 1.U // . . def HintAck = 2.U // . . def ProbeAck = 4.U // . def ProbeAckData = 5.U // . def Release = 6.U // . => ReleaseAck def ReleaseData = 7.U // . => ReleaseAck def Grant = 4.U // . => GrantAck def GrantData = 5.U // . => GrantAck def ReleaseAck = 6.U // . def GrantAck = 0.U // . def isA(x: UInt) = x <= AcquirePerm def isB(x: UInt) = x <= Probe def isC(x: UInt) = x <= ReleaseData def isD(x: UInt) = x <= ReleaseAck def adResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, Grant, Grant) def bcResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, ProbeAck, ProbeAck) def a = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("AcquireBlock",TLPermissions.PermMsgGrow), ("AcquirePerm",TLPermissions.PermMsgGrow)) def b = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("Probe",TLPermissions.PermMsgCap)) def c = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("ProbeAck",TLPermissions.PermMsgReport), ("ProbeAckData",TLPermissions.PermMsgReport), ("Release",TLPermissions.PermMsgReport), ("ReleaseData",TLPermissions.PermMsgReport)) def d = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("Grant",TLPermissions.PermMsgCap), ("GrantData",TLPermissions.PermMsgCap), ("ReleaseAck",TLPermissions.PermMsgReserved)) } /** * The three primary TileLink permissions are: * (T)runk: the agent is (or is on inwards path to) the global point of serialization. * (B)ranch: the agent is on an outwards path to * (N)one: * These permissions are permuted by transfer operations in various ways. * Operations can cap permissions, request for them to be grown or shrunk, * or for a report on their current status. */ object TLPermissions { val aWidth = 2 val bdWidth = 2 val cWidth = 3 // Cap types (Grant = new permissions, Probe = permisions <= target) def toT = 0.U(bdWidth.W) def toB = 1.U(bdWidth.W) def toN = 2.U(bdWidth.W) def isCap(x: UInt) = x <= toN // Grow types (Acquire = permissions >= target) def NtoB = 0.U(aWidth.W) def NtoT = 1.U(aWidth.W) def BtoT = 2.U(aWidth.W) def isGrow(x: UInt) = x <= BtoT // Shrink types (ProbeAck, Release) def TtoB = 0.U(cWidth.W) def TtoN = 1.U(cWidth.W) def BtoN = 2.U(cWidth.W) def isShrink(x: UInt) = x <= BtoN // Report types (ProbeAck, Release) def TtoT = 3.U(cWidth.W) def BtoB = 4.U(cWidth.W) def NtoN = 5.U(cWidth.W) def isReport(x: UInt) = x <= NtoN def PermMsgGrow:Seq[String] = Seq("Grow NtoB", "Grow NtoT", "Grow BtoT") def PermMsgCap:Seq[String] = Seq("Cap toT", "Cap toB", "Cap toN") def PermMsgReport:Seq[String] = Seq("Shrink TtoB", "Shrink TtoN", "Shrink BtoN", "Report TotT", "Report BtoB", "Report NtoN") def PermMsgReserved:Seq[String] = Seq("Reserved") } object TLAtomics { val width = 3 // Arithmetic types def MIN = 0.U(width.W) def MAX = 1.U(width.W) def MINU = 2.U(width.W) def MAXU = 3.U(width.W) def ADD = 4.U(width.W) def isArithmetic(x: UInt) = x <= ADD // Logical types def XOR = 0.U(width.W) def OR = 1.U(width.W) def AND = 2.U(width.W) def SWAP = 3.U(width.W) def isLogical(x: UInt) = x <= SWAP def ArithMsg:Seq[String] = Seq("MIN", "MAX", "MINU", "MAXU", "ADD") def LogicMsg:Seq[String] = Seq("XOR", "OR", "AND", "SWAP") } object TLHints { val width = 1 def PREFETCH_READ = 0.U(width.W) def PREFETCH_WRITE = 1.U(width.W) def isHints(x: UInt) = x <= PREFETCH_WRITE def HintsMsg:Seq[String] = Seq("PrefetchRead", "PrefetchWrite") } sealed trait TLChannel extends TLBundleBase { val channelName: String } sealed trait TLDataChannel extends TLChannel sealed trait TLAddrChannel extends TLDataChannel final class TLBundleA(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleA_${params.shortName}" val channelName = "'A' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(List(TLAtomics.width, TLPermissions.aWidth, TLHints.width).max.W) // amo_opcode || grow perms || hint val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleB(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleB_${params.shortName}" val channelName = "'B' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val address = UInt(params.addressBits.W) // from // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleC(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleC_${params.shortName}" val channelName = "'C' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.cWidth.W) // shrink or report perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleD(params: TLBundleParameters) extends TLBundleBase(params) with TLDataChannel { override def typeName = s"TLBundleD_${params.shortName}" val channelName = "'D' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val sink = UInt(params.sinkBits.W) // from val denied = Bool() // implies corrupt iff *Data val user = BundleMap(params.responseFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleE(params: TLBundleParameters) extends TLBundleBase(params) with TLChannel { override def typeName = s"TLBundleE_${params.shortName}" val channelName = "'E' channel" val sink = UInt(params.sinkBits.W) // to } class TLBundle(val params: TLBundleParameters) extends Record { // Emulate a Bundle with elements abcde or ad depending on params.hasBCE private val optA = Some (Decoupled(new TLBundleA(params))) private val optB = params.hasBCE.option(Flipped(Decoupled(new TLBundleB(params)))) private val optC = params.hasBCE.option(Decoupled(new TLBundleC(params))) private val optD = Some (Flipped(Decoupled(new TLBundleD(params)))) private val optE = params.hasBCE.option(Decoupled(new TLBundleE(params))) def a: DecoupledIO[TLBundleA] = optA.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleA(params))))) def b: DecoupledIO[TLBundleB] = optB.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleB(params))))) def c: DecoupledIO[TLBundleC] = optC.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleC(params))))) def d: DecoupledIO[TLBundleD] = optD.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleD(params))))) def e: DecoupledIO[TLBundleE] = optE.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleE(params))))) val elements = if (params.hasBCE) ListMap("e" -> e, "d" -> d, "c" -> c, "b" -> b, "a" -> a) else ListMap("d" -> d, "a" -> a) def tieoff(): Unit = { DataMirror.specifiedDirectionOf(a.ready) match { case SpecifiedDirection.Input => a.ready := false.B c.ready := false.B e.ready := false.B b.valid := false.B d.valid := false.B case SpecifiedDirection.Output => a.valid := false.B c.valid := false.B e.valid := false.B b.ready := false.B d.ready := false.B case _ => } } } object TLBundle { def apply(params: TLBundleParameters) = new TLBundle(params) } class TLAsyncBundleBase(val params: TLAsyncBundleParameters) extends Bundle class TLAsyncBundle(params: TLAsyncBundleParameters) extends TLAsyncBundleBase(params) { val a = new AsyncBundle(new TLBundleA(params.base), params.async) val b = Flipped(new AsyncBundle(new TLBundleB(params.base), params.async)) val c = new AsyncBundle(new TLBundleC(params.base), params.async) val d = Flipped(new AsyncBundle(new TLBundleD(params.base), params.async)) val e = new AsyncBundle(new TLBundleE(params.base), params.async) } class TLRationalBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = RationalIO(new TLBundleA(params)) val b = Flipped(RationalIO(new TLBundleB(params))) val c = RationalIO(new TLBundleC(params)) val d = Flipped(RationalIO(new TLBundleD(params))) val e = RationalIO(new TLBundleE(params)) } class TLCreditedBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = CreditedIO(new TLBundleA(params)) val b = Flipped(CreditedIO(new TLBundleB(params))) val c = CreditedIO(new TLBundleC(params)) val d = Flipped(CreditedIO(new TLBundleD(params))) val e = CreditedIO(new TLBundleE(params)) } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.diplomacy import chisel3._ import chisel3.util.{DecoupledIO, Queue, ReadyValidIO, isPow2, log2Ceil, log2Floor} import freechips.rocketchip.util.ShiftQueue /** Options for describing the attributes of memory regions */ object RegionType { // Define the 'more relaxed than' ordering val cases = Seq(CACHED, TRACKED, UNCACHED, IDEMPOTENT, VOLATILE, PUT_EFFECTS, GET_EFFECTS) sealed trait T extends Ordered[T] { def compare(that: T): Int = cases.indexOf(that) compare cases.indexOf(this) } case object CACHED extends T // an intermediate agent may have cached a copy of the region for you case object TRACKED extends T // the region may have been cached by another master, but coherence is being provided case object UNCACHED extends T // the region has not been cached yet, but should be cached when possible case object IDEMPOTENT extends T // gets return most recently put content, but content should not be cached case object VOLATILE extends T // content may change without a put, but puts and gets have no side effects case object PUT_EFFECTS extends T // puts produce side effects and so must not be combined/delayed case object GET_EFFECTS extends T // gets produce side effects and so must not be issued speculatively } // A non-empty half-open range; [start, end) case class IdRange(start: Int, end: Int) extends Ordered[IdRange] { require (start >= 0, s"Ids cannot be negative, but got: $start.") require (start <= end, "Id ranges cannot be negative.") def compare(x: IdRange) = { val primary = (this.start - x.start).signum val secondary = (x.end - this.end).signum if (primary != 0) primary else secondary } def overlaps(x: IdRange) = start < x.end && x.start < end def contains(x: IdRange) = start <= x.start && x.end <= end def contains(x: Int) = start <= x && x < end def contains(x: UInt) = if (size == 0) { false.B } else if (size == 1) { // simple comparison x === start.U } else { // find index of largest different bit val largestDeltaBit = log2Floor(start ^ (end-1)) val smallestCommonBit = largestDeltaBit + 1 // may not exist in x val uncommonMask = (1 << smallestCommonBit) - 1 val uncommonBits = (x | 0.U(smallestCommonBit.W))(largestDeltaBit, 0) // the prefix must match exactly (note: may shift ALL bits away) (x >> smallestCommonBit) === (start >> smallestCommonBit).U && // firrtl constant prop range analysis can eliminate these two: (start & uncommonMask).U <= uncommonBits && uncommonBits <= ((end-1) & uncommonMask).U } def shift(x: Int) = IdRange(start+x, end+x) def size = end - start def isEmpty = end == start def range = start until end } object IdRange { def overlaps(s: Seq[IdRange]) = if (s.isEmpty) None else { val ranges = s.sorted (ranges.tail zip ranges.init) find { case (a, b) => a overlaps b } } } // An potentially empty inclusive range of 2-powers [min, max] (in bytes) case class TransferSizes(min: Int, max: Int) { def this(x: Int) = this(x, x) require (min <= max, s"Min transfer $min > max transfer $max") require (min >= 0 && max >= 0, s"TransferSizes must be positive, got: ($min, $max)") require (max == 0 || isPow2(max), s"TransferSizes must be a power of 2, got: $max") require (min == 0 || isPow2(min), s"TransferSizes must be a power of 2, got: $min") require (max == 0 || min != 0, s"TransferSize 0 is forbidden unless (0,0), got: ($min, $max)") def none = min == 0 def contains(x: Int) = isPow2(x) && min <= x && x <= max def containsLg(x: Int) = contains(1 << x) def containsLg(x: UInt) = if (none) false.B else if (min == max) { log2Ceil(min).U === x } else { log2Ceil(min).U <= x && x <= log2Ceil(max).U } def contains(x: TransferSizes) = x.none || (min <= x.min && x.max <= max) def intersect(x: TransferSizes) = if (x.max < min || max < x.min) TransferSizes.none else TransferSizes(scala.math.max(min, x.min), scala.math.min(max, x.max)) // Not a union, because the result may contain sizes contained by neither term // NOT TO BE CONFUSED WITH COVERPOINTS def mincover(x: TransferSizes) = { if (none) { x } else if (x.none) { this } else { TransferSizes(scala.math.min(min, x.min), scala.math.max(max, x.max)) } } override def toString() = "TransferSizes[%d, %d]".format(min, max) } object TransferSizes { def apply(x: Int) = new TransferSizes(x) val none = new TransferSizes(0) def mincover(seq: Seq[TransferSizes]) = seq.foldLeft(none)(_ mincover _) def intersect(seq: Seq[TransferSizes]) = seq.reduce(_ intersect _) implicit def asBool(x: TransferSizes) = !x.none } // AddressSets specify the address space managed by the manager // Base is the base address, and mask are the bits consumed by the manager // e.g: base=0x200, mask=0xff describes a device managing 0x200-0x2ff // e.g: base=0x1000, mask=0xf0f decribes a device managing 0x1000-0x100f, 0x1100-0x110f, ... case class AddressSet(base: BigInt, mask: BigInt) extends Ordered[AddressSet] { // Forbid misaligned base address (and empty sets) require ((base & mask) == 0, s"Mis-aligned AddressSets are forbidden, got: ${this.toString}") require (base >= 0, s"AddressSet negative base is ambiguous: $base") // TL2 address widths are not fixed => negative is ambiguous // We do allow negative mask (=> ignore all high bits) def contains(x: BigInt) = ((x ^ base) & ~mask) == 0 def contains(x: UInt) = ((x ^ base.U).zext & (~mask).S) === 0.S // turn x into an address contained in this set def legalize(x: UInt): UInt = base.U | (mask.U & x) // overlap iff bitwise: both care (~mask0 & ~mask1) => both equal (base0=base1) def overlaps(x: AddressSet) = (~(mask | x.mask) & (base ^ x.base)) == 0 // contains iff bitwise: x.mask => mask && contains(x.base) def contains(x: AddressSet) = ((x.mask | (base ^ x.base)) & ~mask) == 0 // The number of bytes to which the manager must be aligned def alignment = ((mask + 1) & ~mask) // Is this a contiguous memory range def contiguous = alignment == mask+1 def finite = mask >= 0 def max = { require (finite, "Max cannot be calculated on infinite mask"); base | mask } // Widen the match function to ignore all bits in imask def widen(imask: BigInt) = AddressSet(base & ~imask, mask | imask) // Return an AddressSet that only contains the addresses both sets contain def intersect(x: AddressSet): Option[AddressSet] = { if (!overlaps(x)) { None } else { val r_mask = mask & x.mask val r_base = base | x.base Some(AddressSet(r_base, r_mask)) } } def subtract(x: AddressSet): Seq[AddressSet] = { intersect(x) match { case None => Seq(this) case Some(remove) => AddressSet.enumerateBits(mask & ~remove.mask).map { bit => val nmask = (mask & (bit-1)) | remove.mask val nbase = (remove.base ^ bit) & ~nmask AddressSet(nbase, nmask) } } } // AddressSets have one natural Ordering (the containment order, if contiguous) def compare(x: AddressSet) = { val primary = (this.base - x.base).signum // smallest address first val secondary = (x.mask - this.mask).signum // largest mask first if (primary != 0) primary else secondary } // We always want to see things in hex override def toString() = { if (mask >= 0) { "AddressSet(0x%x, 0x%x)".format(base, mask) } else { "AddressSet(0x%x, ~0x%x)".format(base, ~mask) } } def toRanges = { require (finite, "Ranges cannot be calculated on infinite mask") val size = alignment val fragments = mask & ~(size-1) val bits = bitIndexes(fragments) (BigInt(0) until (BigInt(1) << bits.size)).map { i => val off = bitIndexes(i).foldLeft(base) { case (a, b) => a.setBit(bits(b)) } AddressRange(off, size) } } } object AddressSet { val everything = AddressSet(0, -1) def misaligned(base: BigInt, size: BigInt, tail: Seq[AddressSet] = Seq()): Seq[AddressSet] = { if (size == 0) tail.reverse else { val maxBaseAlignment = base & (-base) // 0 for infinite (LSB) val maxSizeAlignment = BigInt(1) << log2Floor(size) // MSB of size val step = if (maxBaseAlignment == 0 || maxBaseAlignment > maxSizeAlignment) maxSizeAlignment else maxBaseAlignment misaligned(base+step, size-step, AddressSet(base, step-1) +: tail) } } def unify(seq: Seq[AddressSet], bit: BigInt): Seq[AddressSet] = { // Pair terms up by ignoring 'bit' seq.distinct.groupBy(x => x.copy(base = x.base & ~bit)).map { case (key, seq) => if (seq.size == 1) { seq.head // singleton -> unaffected } else { key.copy(mask = key.mask | bit) // pair - widen mask by bit } }.toList } def unify(seq: Seq[AddressSet]): Seq[AddressSet] = { val bits = seq.map(_.base).foldLeft(BigInt(0))(_ | _) AddressSet.enumerateBits(bits).foldLeft(seq) { case (acc, bit) => unify(acc, bit) }.sorted } def enumerateMask(mask: BigInt): Seq[BigInt] = { def helper(id: BigInt, tail: Seq[BigInt]): Seq[BigInt] = if (id == mask) (id +: tail).reverse else helper(((~mask | id) + 1) & mask, id +: tail) helper(0, Nil) } def enumerateBits(mask: BigInt): Seq[BigInt] = { def helper(x: BigInt): Seq[BigInt] = { if (x == 0) { Nil } else { val bit = x & (-x) bit +: helper(x & ~bit) } } helper(mask) } } case class BufferParams(depth: Int, flow: Boolean, pipe: Boolean) { require (depth >= 0, "Buffer depth must be >= 0") def isDefined = depth > 0 def latency = if (isDefined && !flow) 1 else 0 def apply[T <: Data](x: DecoupledIO[T]) = if (isDefined) Queue(x, depth, flow=flow, pipe=pipe) else x def irrevocable[T <: Data](x: ReadyValidIO[T]) = if (isDefined) Queue.irrevocable(x, depth, flow=flow, pipe=pipe) else x def sq[T <: Data](x: DecoupledIO[T]) = if (!isDefined) x else { val sq = Module(new ShiftQueue(x.bits, depth, flow=flow, pipe=pipe)) sq.io.enq <> x sq.io.deq } override def toString() = "BufferParams:%d%s%s".format(depth, if (flow) "F" else "", if (pipe) "P" else "") } object BufferParams { implicit def apply(depth: Int): BufferParams = BufferParams(depth, false, false) val default = BufferParams(2) val none = BufferParams(0) val flow = BufferParams(1, true, false) val pipe = BufferParams(1, false, true) } case class TriStateValue(value: Boolean, set: Boolean) { def update(orig: Boolean) = if (set) value else orig } object TriStateValue { implicit def apply(value: Boolean): TriStateValue = TriStateValue(value, true) def unset = TriStateValue(false, false) } trait DirectedBuffers[T] { def copyIn(x: BufferParams): T def copyOut(x: BufferParams): T def copyInOut(x: BufferParams): T } trait IdMapEntry { def name: String def from: IdRange def to: IdRange def isCache: Boolean def requestFifo: Boolean def maxTransactionsInFlight: Option[Int] def pretty(fmt: String) = if (from ne to) { // if the subclass uses the same reference for both from and to, assume its format string has an arity of 5 fmt.format(to.start, to.end, from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } else { fmt.format(from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } } abstract class IdMap[T <: IdMapEntry] { protected val fmt: String val mapping: Seq[T] def pretty: String = mapping.map(_.pretty(fmt)).mkString(",\n") } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module TLMonitor_9( // @[Monitor.scala:36:7] input clock, // @[Monitor.scala:36:7] input reset, // @[Monitor.scala:36:7] input io_in_a_ready, // @[Monitor.scala:20:14] input io_in_a_valid, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_opcode, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_param, // @[Monitor.scala:20:14] input [3:0] io_in_a_bits_size, // @[Monitor.scala:20:14] input [3:0] io_in_a_bits_source, // @[Monitor.scala:20:14] input [31:0] io_in_a_bits_address, // @[Monitor.scala:20:14] input [7:0] io_in_a_bits_mask, // @[Monitor.scala:20:14] input [63:0] io_in_a_bits_data, // @[Monitor.scala:20:14] input io_in_a_bits_corrupt, // @[Monitor.scala:20:14] input io_in_d_ready, // @[Monitor.scala:20:14] input io_in_d_valid, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_opcode, // @[Monitor.scala:20:14] input [1:0] io_in_d_bits_param, // @[Monitor.scala:20:14] input [3:0] io_in_d_bits_size, // @[Monitor.scala:20:14] input [3:0] io_in_d_bits_source, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_sink, // @[Monitor.scala:20:14] input io_in_d_bits_denied, // @[Monitor.scala:20:14] input [63:0] io_in_d_bits_data, // @[Monitor.scala:20:14] input io_in_d_bits_corrupt // @[Monitor.scala:20:14] ); wire [31:0] _plusarg_reader_1_out; // @[PlusArg.scala:80:11] wire [31:0] _plusarg_reader_out; // @[PlusArg.scala:80:11] wire io_in_a_ready_0 = io_in_a_ready; // @[Monitor.scala:36:7] wire io_in_a_valid_0 = io_in_a_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_opcode_0 = io_in_a_bits_opcode; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_param_0 = io_in_a_bits_param; // @[Monitor.scala:36:7] wire [3:0] io_in_a_bits_size_0 = io_in_a_bits_size; // @[Monitor.scala:36:7] wire [3:0] io_in_a_bits_source_0 = io_in_a_bits_source; // @[Monitor.scala:36:7] wire [31:0] io_in_a_bits_address_0 = io_in_a_bits_address; // @[Monitor.scala:36:7] wire [7:0] io_in_a_bits_mask_0 = io_in_a_bits_mask; // @[Monitor.scala:36:7] wire [63:0] io_in_a_bits_data_0 = io_in_a_bits_data; // @[Monitor.scala:36:7] wire io_in_a_bits_corrupt_0 = io_in_a_bits_corrupt; // @[Monitor.scala:36:7] wire io_in_d_ready_0 = io_in_d_ready; // @[Monitor.scala:36:7] wire io_in_d_valid_0 = io_in_d_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_opcode_0 = io_in_d_bits_opcode; // @[Monitor.scala:36:7] wire [1:0] io_in_d_bits_param_0 = io_in_d_bits_param; // @[Monitor.scala:36:7] wire [3:0] io_in_d_bits_size_0 = io_in_d_bits_size; // @[Monitor.scala:36:7] wire [3:0] io_in_d_bits_source_0 = io_in_d_bits_source; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_sink_0 = io_in_d_bits_sink; // @[Monitor.scala:36:7] wire io_in_d_bits_denied_0 = io_in_d_bits_denied; // @[Monitor.scala:36:7] wire [63:0] io_in_d_bits_data_0 = io_in_d_bits_data; // @[Monitor.scala:36:7] wire io_in_d_bits_corrupt_0 = io_in_d_bits_corrupt; // @[Monitor.scala:36:7] wire _c_first_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_T = 1'h0; // @[Decoupled.scala:51:35] wire c_first_beats1_opdata = 1'h0; // @[Edges.scala:102:36] wire _c_first_last_T = 1'h0; // @[Edges.scala:232:25] wire c_first_done = 1'h0; // @[Edges.scala:233:22] wire _c_set_wo_ready_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T = 1'h0; // @[Monitor.scala:772:47] wire _c_probe_ack_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T_1 = 1'h0; // @[Monitor.scala:772:95] wire c_probe_ack = 1'h0; // @[Monitor.scala:772:71] wire _same_cycle_resp_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_3 = 1'h0; // @[Monitor.scala:795:44] wire _same_cycle_resp_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_4 = 1'h0; // @[Edges.scala:68:36] wire _same_cycle_resp_T_5 = 1'h0; // @[Edges.scala:68:51] wire _same_cycle_resp_T_6 = 1'h0; // @[Edges.scala:68:40] wire _same_cycle_resp_T_7 = 1'h0; // @[Monitor.scala:795:55] wire _same_cycle_resp_WIRE_4_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_5_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire same_cycle_resp_1 = 1'h0; // @[Monitor.scala:795:88] wire [8:0] c_first_beats1_decode = 9'h0; // @[Edges.scala:220:59] wire [8:0] c_first_beats1 = 9'h0; // @[Edges.scala:221:14] wire [8:0] _c_first_count_T = 9'h0; // @[Edges.scala:234:27] wire [8:0] c_first_count = 9'h0; // @[Edges.scala:234:25] wire [8:0] _c_first_counter_T = 9'h0; // @[Edges.scala:236:21] wire _source_ok_T_2 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_4 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_8 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_10 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_14 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_16 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_20 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_22 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_28 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_30 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_34 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_36 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_40 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_42 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_46 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_48 = 1'h1; // @[Parameters.scala:57:20] wire sink_ok = 1'h1; // @[Monitor.scala:309:31] wire c_first = 1'h1; // @[Edges.scala:231:25] wire _c_first_last_T_1 = 1'h1; // @[Edges.scala:232:43] wire c_first_last = 1'h1; // @[Edges.scala:232:33] wire [8:0] c_first_counter1 = 9'h1FF; // @[Edges.scala:230:28] wire [9:0] _c_first_counter1_T = 10'h3FF; // @[Edges.scala:230:28] wire [63:0] _c_first_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_first_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] c_opcodes_set = 64'h0; // @[Monitor.scala:740:34] wire [63:0] _c_set_wo_ready_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_wo_ready_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_4_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_5_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [31:0] _c_first_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_first_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_first_WIRE_2_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_first_WIRE_3_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_set_wo_ready_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_set_wo_ready_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_set_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_set_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_opcodes_set_interm_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_opcodes_set_interm_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_sizes_set_interm_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_sizes_set_interm_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_opcodes_set_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_opcodes_set_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_sizes_set_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_sizes_set_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_probe_ack_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_probe_ack_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _c_probe_ack_WIRE_2_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _c_probe_ack_WIRE_3_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _same_cycle_resp_WIRE_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _same_cycle_resp_WIRE_1_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _same_cycle_resp_WIRE_2_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _same_cycle_resp_WIRE_3_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [31:0] _same_cycle_resp_WIRE_4_bits_address = 32'h0; // @[Bundles.scala:265:74] wire [31:0] _same_cycle_resp_WIRE_5_bits_address = 32'h0; // @[Bundles.scala:265:61] wire [3:0] _c_first_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_first_WIRE_bits_source = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_first_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_first_WIRE_1_bits_source = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_first_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_first_WIRE_2_bits_source = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_first_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_first_WIRE_3_bits_source = 4'h0; // @[Bundles.scala:265:61] wire [3:0] c_opcodes_set_interm = 4'h0; // @[Monitor.scala:754:40] wire [3:0] _c_set_wo_ready_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_set_wo_ready_WIRE_bits_source = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_set_wo_ready_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_set_wo_ready_WIRE_1_bits_source = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_set_WIRE_bits_source = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_set_WIRE_1_bits_source = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_interm_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_opcodes_set_interm_WIRE_bits_source = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_opcodes_set_interm_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_interm_WIRE_1_bits_source = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_interm_T = 4'h0; // @[Monitor.scala:765:53] wire [3:0] _c_sizes_set_interm_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_sizes_set_interm_WIRE_bits_source = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_sizes_set_interm_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_sizes_set_interm_WIRE_1_bits_source = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_opcodes_set_WIRE_bits_source = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_opcodes_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_opcodes_set_WIRE_1_bits_source = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_sizes_set_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_sizes_set_WIRE_bits_source = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_sizes_set_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_sizes_set_WIRE_1_bits_source = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_probe_ack_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_probe_ack_WIRE_bits_source = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_probe_ack_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_probe_ack_WIRE_1_bits_source = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_probe_ack_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_probe_ack_WIRE_2_bits_source = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _c_probe_ack_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _c_probe_ack_WIRE_3_bits_source = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_bits_source = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_1_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_1_bits_source = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_2_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_2_bits_source = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_3_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_3_bits_source = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_4_bits_size = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_4_bits_source = 4'h0; // @[Bundles.scala:265:74] wire [3:0] _same_cycle_resp_WIRE_5_bits_size = 4'h0; // @[Bundles.scala:265:61] wire [3:0] _same_cycle_resp_WIRE_5_bits_source = 4'h0; // @[Bundles.scala:265:61] wire [2:0] responseMap_0 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMap_1 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_0 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_1 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] _c_first_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_4_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_4_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_5_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_5_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [15:0] _a_size_lookup_T_5 = 16'hFF; // @[Monitor.scala:612:57] wire [15:0] _d_sizes_clr_T_3 = 16'hFF; // @[Monitor.scala:612:57] wire [15:0] _c_size_lookup_T_5 = 16'hFF; // @[Monitor.scala:724:57] wire [15:0] _d_sizes_clr_T_9 = 16'hFF; // @[Monitor.scala:724:57] wire [16:0] _a_size_lookup_T_4 = 17'hFF; // @[Monitor.scala:612:57] wire [16:0] _d_sizes_clr_T_2 = 17'hFF; // @[Monitor.scala:612:57] wire [16:0] _c_size_lookup_T_4 = 17'hFF; // @[Monitor.scala:724:57] wire [16:0] _d_sizes_clr_T_8 = 17'hFF; // @[Monitor.scala:724:57] wire [15:0] _a_size_lookup_T_3 = 16'h100; // @[Monitor.scala:612:51] wire [15:0] _d_sizes_clr_T_1 = 16'h100; // @[Monitor.scala:612:51] wire [15:0] _c_size_lookup_T_3 = 16'h100; // @[Monitor.scala:724:51] wire [15:0] _d_sizes_clr_T_7 = 16'h100; // @[Monitor.scala:724:51] wire [15:0] _a_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_opcodes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _c_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_opcodes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [16:0] _a_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_opcodes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _c_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_opcodes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [15:0] _a_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_opcodes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _c_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_opcodes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [131:0] _c_sizes_set_T_1 = 132'h0; // @[Monitor.scala:768:52] wire [6:0] _c_opcodes_set_T = 7'h0; // @[Monitor.scala:767:79] wire [6:0] _c_sizes_set_T = 7'h0; // @[Monitor.scala:768:77] wire [130:0] _c_opcodes_set_T_1 = 131'h0; // @[Monitor.scala:767:54] wire [4:0] _c_sizes_set_interm_T_1 = 5'h1; // @[Monitor.scala:766:59] wire [4:0] c_sizes_set_interm = 5'h0; // @[Monitor.scala:755:40] wire [4:0] _c_sizes_set_interm_T = 5'h0; // @[Monitor.scala:766:51] wire [3:0] _c_opcodes_set_interm_T_1 = 4'h1; // @[Monitor.scala:765:61] wire [15:0] _c_set_wo_ready_T = 16'h1; // @[OneHot.scala:58:35] wire [15:0] _c_set_T = 16'h1; // @[OneHot.scala:58:35] wire [127:0] c_sizes_set = 128'h0; // @[Monitor.scala:741:34] wire [15:0] c_set = 16'h0; // @[Monitor.scala:738:34] wire [15:0] c_set_wo_ready = 16'h0; // @[Monitor.scala:739:34] wire [11:0] _c_first_beats1_decode_T_2 = 12'h0; // @[package.scala:243:46] wire [11:0] _c_first_beats1_decode_T_1 = 12'hFFF; // @[package.scala:243:76] wire [26:0] _c_first_beats1_decode_T = 27'hFFF; // @[package.scala:243:71] wire [2:0] responseMap_6 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMap_7 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_7 = 3'h4; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_6 = 3'h5; // @[Monitor.scala:644:42] wire [2:0] responseMap_5 = 3'h2; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_5 = 3'h2; // @[Monitor.scala:644:42] wire [2:0] responseMap_2 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_3 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_4 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_2 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_3 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_4 = 3'h1; // @[Monitor.scala:644:42] wire [3:0] _a_size_lookup_T_2 = 4'h8; // @[Monitor.scala:641:117] wire [3:0] _d_sizes_clr_T = 4'h8; // @[Monitor.scala:681:48] wire [3:0] _c_size_lookup_T_2 = 4'h8; // @[Monitor.scala:750:119] wire [3:0] _d_sizes_clr_T_6 = 4'h8; // @[Monitor.scala:791:48] wire [3:0] _a_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:637:123] wire [3:0] _d_opcodes_clr_T = 4'h4; // @[Monitor.scala:680:48] wire [3:0] _c_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:749:123] wire [3:0] _d_opcodes_clr_T_6 = 4'h4; // @[Monitor.scala:790:48] wire [3:0] _mask_sizeOH_T = io_in_a_bits_size_0; // @[Misc.scala:202:34] wire [3:0] _source_ok_uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _source_ok_uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _source_ok_uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _source_ok_uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_4 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_5 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_6 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_7 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_8 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_9 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_10 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_11 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_12 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_13 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_14 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_15 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_16 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_17 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_18 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_19 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_20 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_21 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_22 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_23 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_24 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_25 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_26 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_27 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_28 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_29 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_30 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_31 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_32 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_33 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_34 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _uncommonBits_T_35 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _source_ok_uncommonBits_T_4 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _source_ok_uncommonBits_T_5 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _source_ok_uncommonBits_T_6 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [3:0] _source_ok_uncommonBits_T_7 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [1:0] source_ok_uncommonBits = _source_ok_uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] _source_ok_T = io_in_a_bits_source_0[3:2]; // @[Monitor.scala:36:7] wire [1:0] _source_ok_T_6 = io_in_a_bits_source_0[3:2]; // @[Monitor.scala:36:7] wire [1:0] _source_ok_T_12 = io_in_a_bits_source_0[3:2]; // @[Monitor.scala:36:7] wire [1:0] _source_ok_T_18 = io_in_a_bits_source_0[3:2]; // @[Monitor.scala:36:7] wire _source_ok_T_1 = _source_ok_T == 2'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_3 = _source_ok_T_1; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_5 = _source_ok_T_3; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_0 = _source_ok_T_5; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_1 = _source_ok_uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_7 = _source_ok_T_6 == 2'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_9 = _source_ok_T_7; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_11 = _source_ok_T_9; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1 = _source_ok_T_11; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_2 = _source_ok_uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_13 = _source_ok_T_12 == 2'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_15 = _source_ok_T_13; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_17 = _source_ok_T_15; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_2 = _source_ok_T_17; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_3 = _source_ok_uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_19 = &_source_ok_T_18; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_21 = _source_ok_T_19; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_23 = _source_ok_T_21; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_3 = _source_ok_T_23; // @[Parameters.scala:1138:31] wire _source_ok_T_24 = _source_ok_WIRE_0 | _source_ok_WIRE_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_25 = _source_ok_T_24 | _source_ok_WIRE_2; // @[Parameters.scala:1138:31, :1139:46] wire source_ok = _source_ok_T_25 | _source_ok_WIRE_3; // @[Parameters.scala:1138:31, :1139:46] wire [26:0] _GEN = 27'hFFF << io_in_a_bits_size_0; // @[package.scala:243:71] wire [26:0] _is_aligned_mask_T; // @[package.scala:243:71] assign _is_aligned_mask_T = _GEN; // @[package.scala:243:71] wire [26:0] _a_first_beats1_decode_T; // @[package.scala:243:71] assign _a_first_beats1_decode_T = _GEN; // @[package.scala:243:71] wire [26:0] _a_first_beats1_decode_T_3; // @[package.scala:243:71] assign _a_first_beats1_decode_T_3 = _GEN; // @[package.scala:243:71] wire [11:0] _is_aligned_mask_T_1 = _is_aligned_mask_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] is_aligned_mask = ~_is_aligned_mask_T_1; // @[package.scala:243:{46,76}] wire [31:0] _is_aligned_T = {20'h0, io_in_a_bits_address_0[11:0] & is_aligned_mask}; // @[package.scala:243:46] wire is_aligned = _is_aligned_T == 32'h0; // @[Edges.scala:21:{16,24}] wire [1:0] mask_sizeOH_shiftAmount = _mask_sizeOH_T[1:0]; // @[OneHot.scala:64:49] wire [3:0] _mask_sizeOH_T_1 = 4'h1 << mask_sizeOH_shiftAmount; // @[OneHot.scala:64:49, :65:12] wire [2:0] _mask_sizeOH_T_2 = _mask_sizeOH_T_1[2:0]; // @[OneHot.scala:65:{12,27}] wire [2:0] mask_sizeOH = {_mask_sizeOH_T_2[2:1], 1'h1}; // @[OneHot.scala:65:27] wire mask_sub_sub_sub_0_1 = io_in_a_bits_size_0 > 4'h2; // @[Misc.scala:206:21] wire mask_sub_sub_size = mask_sizeOH[2]; // @[Misc.scala:202:81, :209:26] wire mask_sub_sub_bit = io_in_a_bits_address_0[2]; // @[Misc.scala:210:26] wire mask_sub_sub_1_2 = mask_sub_sub_bit; // @[Misc.scala:210:26, :214:27] wire mask_sub_sub_nbit = ~mask_sub_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_sub_0_2 = mask_sub_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_sub_acc_T = mask_sub_sub_size & mask_sub_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_0_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T; // @[Misc.scala:206:21, :215:{29,38}] wire _mask_sub_sub_acc_T_1 = mask_sub_sub_size & mask_sub_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_1_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T_1; // @[Misc.scala:206:21, :215:{29,38}] wire mask_sub_size = mask_sizeOH[1]; // @[Misc.scala:202:81, :209:26] wire mask_sub_bit = io_in_a_bits_address_0[1]; // @[Misc.scala:210:26] wire mask_sub_nbit = ~mask_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_0_2 = mask_sub_sub_0_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T = mask_sub_size & mask_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_0_1 = mask_sub_sub_0_1 | _mask_sub_acc_T; // @[Misc.scala:215:{29,38}] wire mask_sub_1_2 = mask_sub_sub_0_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_1 = mask_sub_size & mask_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_1_1 = mask_sub_sub_0_1 | _mask_sub_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_sub_2_2 = mask_sub_sub_1_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T_2 = mask_sub_size & mask_sub_2_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_2_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_sub_3_2 = mask_sub_sub_1_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_3 = mask_sub_size & mask_sub_3_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_3_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_size = mask_sizeOH[0]; // @[Misc.scala:202:81, :209:26] wire mask_bit = io_in_a_bits_address_0[0]; // @[Misc.scala:210:26] wire mask_nbit = ~mask_bit; // @[Misc.scala:210:26, :211:20] wire mask_eq = mask_sub_0_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T = mask_size & mask_eq; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc = mask_sub_0_1 | _mask_acc_T; // @[Misc.scala:215:{29,38}] wire mask_eq_1 = mask_sub_0_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_1 = mask_size & mask_eq_1; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_1 = mask_sub_0_1 | _mask_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_eq_2 = mask_sub_1_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_2 = mask_size & mask_eq_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_2 = mask_sub_1_1 | _mask_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_eq_3 = mask_sub_1_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_3 = mask_size & mask_eq_3; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_3 = mask_sub_1_1 | _mask_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_eq_4 = mask_sub_2_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_4 = mask_size & mask_eq_4; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_4 = mask_sub_2_1 | _mask_acc_T_4; // @[Misc.scala:215:{29,38}] wire mask_eq_5 = mask_sub_2_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_5 = mask_size & mask_eq_5; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_5 = mask_sub_2_1 | _mask_acc_T_5; // @[Misc.scala:215:{29,38}] wire mask_eq_6 = mask_sub_3_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_6 = mask_size & mask_eq_6; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_6 = mask_sub_3_1 | _mask_acc_T_6; // @[Misc.scala:215:{29,38}] wire mask_eq_7 = mask_sub_3_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_7 = mask_size & mask_eq_7; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_7 = mask_sub_3_1 | _mask_acc_T_7; // @[Misc.scala:215:{29,38}] wire [1:0] mask_lo_lo = {mask_acc_1, mask_acc}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_lo_hi = {mask_acc_3, mask_acc_2}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_lo = {mask_lo_hi, mask_lo_lo}; // @[Misc.scala:222:10] wire [1:0] mask_hi_lo = {mask_acc_5, mask_acc_4}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_hi_hi = {mask_acc_7, mask_acc_6}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_hi = {mask_hi_hi, mask_hi_lo}; // @[Misc.scala:222:10] wire [7:0] mask = {mask_hi, mask_lo}; // @[Misc.scala:222:10] wire [1:0] uncommonBits = _uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_1 = _uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_2 = _uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_3 = _uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_4 = _uncommonBits_T_4[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_5 = _uncommonBits_T_5[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_6 = _uncommonBits_T_6[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_7 = _uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_8 = _uncommonBits_T_8[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_9 = _uncommonBits_T_9[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_10 = _uncommonBits_T_10[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_11 = _uncommonBits_T_11[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_12 = _uncommonBits_T_12[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_13 = _uncommonBits_T_13[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_14 = _uncommonBits_T_14[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_15 = _uncommonBits_T_15[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_16 = _uncommonBits_T_16[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_17 = _uncommonBits_T_17[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_18 = _uncommonBits_T_18[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_19 = _uncommonBits_T_19[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_20 = _uncommonBits_T_20[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_21 = _uncommonBits_T_21[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_22 = _uncommonBits_T_22[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_23 = _uncommonBits_T_23[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_24 = _uncommonBits_T_24[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_25 = _uncommonBits_T_25[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_26 = _uncommonBits_T_26[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_27 = _uncommonBits_T_27[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_28 = _uncommonBits_T_28[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_29 = _uncommonBits_T_29[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_30 = _uncommonBits_T_30[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_31 = _uncommonBits_T_31[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_32 = _uncommonBits_T_32[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_33 = _uncommonBits_T_33[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_34 = _uncommonBits_T_34[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_35 = _uncommonBits_T_35[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] source_ok_uncommonBits_4 = _source_ok_uncommonBits_T_4[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] _source_ok_T_26 = io_in_d_bits_source_0[3:2]; // @[Monitor.scala:36:7] wire [1:0] _source_ok_T_32 = io_in_d_bits_source_0[3:2]; // @[Monitor.scala:36:7] wire [1:0] _source_ok_T_38 = io_in_d_bits_source_0[3:2]; // @[Monitor.scala:36:7] wire [1:0] _source_ok_T_44 = io_in_d_bits_source_0[3:2]; // @[Monitor.scala:36:7] wire _source_ok_T_27 = _source_ok_T_26 == 2'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_29 = _source_ok_T_27; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_31 = _source_ok_T_29; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_0 = _source_ok_T_31; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_5 = _source_ok_uncommonBits_T_5[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_33 = _source_ok_T_32 == 2'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_35 = _source_ok_T_33; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_37 = _source_ok_T_35; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_1 = _source_ok_T_37; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_6 = _source_ok_uncommonBits_T_6[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_39 = _source_ok_T_38 == 2'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_41 = _source_ok_T_39; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_43 = _source_ok_T_41; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_2 = _source_ok_T_43; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_7 = _source_ok_uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_45 = &_source_ok_T_44; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_47 = _source_ok_T_45; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_49 = _source_ok_T_47; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_3 = _source_ok_T_49; // @[Parameters.scala:1138:31] wire _source_ok_T_50 = _source_ok_WIRE_1_0 | _source_ok_WIRE_1_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_51 = _source_ok_T_50 | _source_ok_WIRE_1_2; // @[Parameters.scala:1138:31, :1139:46] wire source_ok_1 = _source_ok_T_51 | _source_ok_WIRE_1_3; // @[Parameters.scala:1138:31, :1139:46] wire _T_1467 = io_in_a_ready_0 & io_in_a_valid_0; // @[Decoupled.scala:51:35] wire _a_first_T; // @[Decoupled.scala:51:35] assign _a_first_T = _T_1467; // @[Decoupled.scala:51:35] wire _a_first_T_1; // @[Decoupled.scala:51:35] assign _a_first_T_1 = _T_1467; // @[Decoupled.scala:51:35] wire [11:0] _a_first_beats1_decode_T_1 = _a_first_beats1_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _a_first_beats1_decode_T_2 = ~_a_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] a_first_beats1_decode = _a_first_beats1_decode_T_2[11:3]; // @[package.scala:243:46] wire _a_first_beats1_opdata_T = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire _a_first_beats1_opdata_T_1 = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire a_first_beats1_opdata = ~_a_first_beats1_opdata_T; // @[Edges.scala:92:{28,37}] wire [8:0] a_first_beats1 = a_first_beats1_opdata ? a_first_beats1_decode : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] a_first_counter; // @[Edges.scala:229:27] wire [9:0] _a_first_counter1_T = {1'h0, a_first_counter} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] a_first_counter1 = _a_first_counter1_T[8:0]; // @[Edges.scala:230:28] wire a_first = a_first_counter == 9'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T = a_first_counter == 9'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_1 = a_first_beats1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last = _a_first_last_T | _a_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire a_first_done = a_first_last & _a_first_T; // @[Decoupled.scala:51:35] wire [8:0] _a_first_count_T = ~a_first_counter1; // @[Edges.scala:230:28, :234:27] wire [8:0] a_first_count = a_first_beats1 & _a_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _a_first_counter_T = a_first ? a_first_beats1 : a_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode; // @[Monitor.scala:387:22] reg [2:0] param; // @[Monitor.scala:388:22] reg [3:0] size; // @[Monitor.scala:389:22] reg [3:0] source; // @[Monitor.scala:390:22] reg [31:0] address; // @[Monitor.scala:391:22] wire _T_1540 = io_in_d_ready_0 & io_in_d_valid_0; // @[Decoupled.scala:51:35] wire _d_first_T; // @[Decoupled.scala:51:35] assign _d_first_T = _T_1540; // @[Decoupled.scala:51:35] wire _d_first_T_1; // @[Decoupled.scala:51:35] assign _d_first_T_1 = _T_1540; // @[Decoupled.scala:51:35] wire _d_first_T_2; // @[Decoupled.scala:51:35] assign _d_first_T_2 = _T_1540; // @[Decoupled.scala:51:35] wire [26:0] _GEN_0 = 27'hFFF << io_in_d_bits_size_0; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T; // @[package.scala:243:71] assign _d_first_beats1_decode_T = _GEN_0; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T_3; // @[package.scala:243:71] assign _d_first_beats1_decode_T_3 = _GEN_0; // @[package.scala:243:71] wire [26:0] _d_first_beats1_decode_T_6; // @[package.scala:243:71] assign _d_first_beats1_decode_T_6 = _GEN_0; // @[package.scala:243:71] wire [11:0] _d_first_beats1_decode_T_1 = _d_first_beats1_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_2 = ~_d_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode = _d_first_beats1_decode_T_2[11:3]; // @[package.scala:243:46] wire d_first_beats1_opdata = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_1 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_2 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire [8:0] d_first_beats1 = d_first_beats1_opdata ? d_first_beats1_decode : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T = {1'h0, d_first_counter} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1 = _d_first_counter1_T[8:0]; // @[Edges.scala:230:28] wire d_first = d_first_counter == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T = d_first_counter == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_1 = d_first_beats1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last = _d_first_last_T | _d_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire d_first_done = d_first_last & _d_first_T; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T = ~d_first_counter1; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count = d_first_beats1 & _d_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T = d_first ? d_first_beats1 : d_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode_1; // @[Monitor.scala:538:22] reg [1:0] param_1; // @[Monitor.scala:539:22] reg [3:0] size_1; // @[Monitor.scala:540:22] reg [3:0] source_1; // @[Monitor.scala:541:22] reg [2:0] sink; // @[Monitor.scala:542:22] reg denied; // @[Monitor.scala:543:22] reg [15:0] inflight; // @[Monitor.scala:614:27] reg [63:0] inflight_opcodes; // @[Monitor.scala:616:35] reg [127:0] inflight_sizes; // @[Monitor.scala:618:33] wire [11:0] _a_first_beats1_decode_T_4 = _a_first_beats1_decode_T_3[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _a_first_beats1_decode_T_5 = ~_a_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [8:0] a_first_beats1_decode_1 = _a_first_beats1_decode_T_5[11:3]; // @[package.scala:243:46] wire a_first_beats1_opdata_1 = ~_a_first_beats1_opdata_T_1; // @[Edges.scala:92:{28,37}] wire [8:0] a_first_beats1_1 = a_first_beats1_opdata_1 ? a_first_beats1_decode_1 : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [8:0] a_first_counter_1; // @[Edges.scala:229:27] wire [9:0] _a_first_counter1_T_1 = {1'h0, a_first_counter_1} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] a_first_counter1_1 = _a_first_counter1_T_1[8:0]; // @[Edges.scala:230:28] wire a_first_1 = a_first_counter_1 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T_2 = a_first_counter_1 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_3 = a_first_beats1_1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last_1 = _a_first_last_T_2 | _a_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire a_first_done_1 = a_first_last_1 & _a_first_T_1; // @[Decoupled.scala:51:35] wire [8:0] _a_first_count_T_1 = ~a_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [8:0] a_first_count_1 = a_first_beats1_1 & _a_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _a_first_counter_T_1 = a_first_1 ? a_first_beats1_1 : a_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [11:0] _d_first_beats1_decode_T_4 = _d_first_beats1_decode_T_3[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_5 = ~_d_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode_1 = _d_first_beats1_decode_T_5[11:3]; // @[package.scala:243:46] wire [8:0] d_first_beats1_1 = d_first_beats1_opdata_1 ? d_first_beats1_decode_1 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter_1; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T_1 = {1'h0, d_first_counter_1} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1_1 = _d_first_counter1_T_1[8:0]; // @[Edges.scala:230:28] wire d_first_1 = d_first_counter_1 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_2 = d_first_counter_1 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_3 = d_first_beats1_1 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_1 = _d_first_last_T_2 | _d_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire d_first_done_1 = d_first_last_1 & _d_first_T_1; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T_1 = ~d_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count_1 = d_first_beats1_1 & _d_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T_1 = d_first_1 ? d_first_beats1_1 : d_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [15:0] a_set; // @[Monitor.scala:626:34] wire [15:0] a_set_wo_ready; // @[Monitor.scala:627:34] wire [63:0] a_opcodes_set; // @[Monitor.scala:630:33] wire [127:0] a_sizes_set; // @[Monitor.scala:632:31] wire [2:0] a_opcode_lookup; // @[Monitor.scala:635:35] wire [6:0] _GEN_1 = {1'h0, io_in_d_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :637:69] wire [6:0] _a_opcode_lookup_T; // @[Monitor.scala:637:69] assign _a_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69] wire [6:0] _d_opcodes_clr_T_4; // @[Monitor.scala:680:101] assign _d_opcodes_clr_T_4 = _GEN_1; // @[Monitor.scala:637:69, :680:101] wire [6:0] _c_opcode_lookup_T; // @[Monitor.scala:749:69] assign _c_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :749:69] wire [6:0] _d_opcodes_clr_T_10; // @[Monitor.scala:790:101] assign _d_opcodes_clr_T_10 = _GEN_1; // @[Monitor.scala:637:69, :790:101] wire [63:0] _a_opcode_lookup_T_1 = inflight_opcodes >> _a_opcode_lookup_T; // @[Monitor.scala:616:35, :637:{44,69}] wire [63:0] _a_opcode_lookup_T_6 = {60'h0, _a_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:637:{44,97}] wire [63:0] _a_opcode_lookup_T_7 = {1'h0, _a_opcode_lookup_T_6[63:1]}; // @[Monitor.scala:637:{97,152}] assign a_opcode_lookup = _a_opcode_lookup_T_7[2:0]; // @[Monitor.scala:635:35, :637:{21,152}] wire [7:0] a_size_lookup; // @[Monitor.scala:639:33] wire [6:0] _GEN_2 = {io_in_d_bits_source_0, 3'h0}; // @[Monitor.scala:36:7, :641:65] wire [6:0] _a_size_lookup_T; // @[Monitor.scala:641:65] assign _a_size_lookup_T = _GEN_2; // @[Monitor.scala:641:65] wire [6:0] _d_sizes_clr_T_4; // @[Monitor.scala:681:99] assign _d_sizes_clr_T_4 = _GEN_2; // @[Monitor.scala:641:65, :681:99] wire [6:0] _c_size_lookup_T; // @[Monitor.scala:750:67] assign _c_size_lookup_T = _GEN_2; // @[Monitor.scala:641:65, :750:67] wire [6:0] _d_sizes_clr_T_10; // @[Monitor.scala:791:99] assign _d_sizes_clr_T_10 = _GEN_2; // @[Monitor.scala:641:65, :791:99] wire [127:0] _a_size_lookup_T_1 = inflight_sizes >> _a_size_lookup_T; // @[Monitor.scala:618:33, :641:{40,65}] wire [127:0] _a_size_lookup_T_6 = {120'h0, _a_size_lookup_T_1[7:0]}; // @[Monitor.scala:641:{40,91}] wire [127:0] _a_size_lookup_T_7 = {1'h0, _a_size_lookup_T_6[127:1]}; // @[Monitor.scala:641:{91,144}] assign a_size_lookup = _a_size_lookup_T_7[7:0]; // @[Monitor.scala:639:33, :641:{19,144}] wire [3:0] a_opcodes_set_interm; // @[Monitor.scala:646:40] wire [4:0] a_sizes_set_interm; // @[Monitor.scala:648:38] wire _same_cycle_resp_T = io_in_a_valid_0 & a_first_1; // @[Monitor.scala:36:7, :651:26, :684:44] wire [15:0] _GEN_3 = {12'h0, io_in_a_bits_source_0}; // @[OneHot.scala:58:35] wire [15:0] _GEN_4 = 16'h1 << _GEN_3; // @[OneHot.scala:58:35] wire [15:0] _a_set_wo_ready_T; // @[OneHot.scala:58:35] assign _a_set_wo_ready_T = _GEN_4; // @[OneHot.scala:58:35] wire [15:0] _a_set_T; // @[OneHot.scala:58:35] assign _a_set_T = _GEN_4; // @[OneHot.scala:58:35] assign a_set_wo_ready = _same_cycle_resp_T ? _a_set_wo_ready_T : 16'h0; // @[OneHot.scala:58:35] wire _T_1393 = _T_1467 & a_first_1; // @[Decoupled.scala:51:35] assign a_set = _T_1393 ? _a_set_T : 16'h0; // @[OneHot.scala:58:35] wire [3:0] _a_opcodes_set_interm_T = {io_in_a_bits_opcode_0, 1'h0}; // @[Monitor.scala:36:7, :657:53] wire [3:0] _a_opcodes_set_interm_T_1 = {_a_opcodes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:657:{53,61}] assign a_opcodes_set_interm = _T_1393 ? _a_opcodes_set_interm_T_1 : 4'h0; // @[Monitor.scala:646:40, :655:{25,70}, :657:{28,61}] wire [4:0] _a_sizes_set_interm_T = {io_in_a_bits_size_0, 1'h0}; // @[Monitor.scala:36:7, :658:51] wire [4:0] _a_sizes_set_interm_T_1 = {_a_sizes_set_interm_T[4:1], 1'h1}; // @[Monitor.scala:658:{51,59}] assign a_sizes_set_interm = _T_1393 ? _a_sizes_set_interm_T_1 : 5'h0; // @[Monitor.scala:648:38, :655:{25,70}, :658:{28,59}] wire [6:0] _a_opcodes_set_T = {1'h0, io_in_a_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :659:79] wire [130:0] _a_opcodes_set_T_1 = {127'h0, a_opcodes_set_interm} << _a_opcodes_set_T; // @[Monitor.scala:646:40, :659:{54,79}] assign a_opcodes_set = _T_1393 ? _a_opcodes_set_T_1[63:0] : 64'h0; // @[Monitor.scala:630:33, :655:{25,70}, :659:{28,54}] wire [6:0] _a_sizes_set_T = {io_in_a_bits_source_0, 3'h0}; // @[Monitor.scala:36:7, :660:77] wire [131:0] _a_sizes_set_T_1 = {127'h0, a_sizes_set_interm} << _a_sizes_set_T; // @[Monitor.scala:648:38, :659:54, :660:{52,77}] assign a_sizes_set = _T_1393 ? _a_sizes_set_T_1[127:0] : 128'h0; // @[Monitor.scala:632:31, :655:{25,70}, :660:{28,52}] wire [15:0] d_clr; // @[Monitor.scala:664:34] wire [15:0] d_clr_wo_ready; // @[Monitor.scala:665:34] wire [63:0] d_opcodes_clr; // @[Monitor.scala:668:33] wire [127:0] d_sizes_clr; // @[Monitor.scala:670:31] wire _GEN_5 = io_in_d_bits_opcode_0 == 3'h6; // @[Monitor.scala:36:7, :673:46] wire d_release_ack; // @[Monitor.scala:673:46] assign d_release_ack = _GEN_5; // @[Monitor.scala:673:46] wire d_release_ack_1; // @[Monitor.scala:783:46] assign d_release_ack_1 = _GEN_5; // @[Monitor.scala:673:46, :783:46] wire _T_1439 = io_in_d_valid_0 & d_first_1; // @[Monitor.scala:36:7, :674:26] wire [15:0] _GEN_6 = {12'h0, io_in_d_bits_source_0}; // @[OneHot.scala:58:35] wire [15:0] _GEN_7 = 16'h1 << _GEN_6; // @[OneHot.scala:58:35] wire [15:0] _d_clr_wo_ready_T; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T = _GEN_7; // @[OneHot.scala:58:35] wire [15:0] _d_clr_T; // @[OneHot.scala:58:35] assign _d_clr_T = _GEN_7; // @[OneHot.scala:58:35] wire [15:0] _d_clr_wo_ready_T_1; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T_1 = _GEN_7; // @[OneHot.scala:58:35] wire [15:0] _d_clr_T_1; // @[OneHot.scala:58:35] assign _d_clr_T_1 = _GEN_7; // @[OneHot.scala:58:35] assign d_clr_wo_ready = _T_1439 & ~d_release_ack ? _d_clr_wo_ready_T : 16'h0; // @[OneHot.scala:58:35] wire _T_1408 = _T_1540 & d_first_1 & ~d_release_ack; // @[Decoupled.scala:51:35] assign d_clr = _T_1408 ? _d_clr_T : 16'h0; // @[OneHot.scala:58:35] wire [142:0] _d_opcodes_clr_T_5 = 143'hF << _d_opcodes_clr_T_4; // @[Monitor.scala:680:{76,101}] assign d_opcodes_clr = _T_1408 ? _d_opcodes_clr_T_5[63:0] : 64'h0; // @[Monitor.scala:668:33, :678:{25,70,89}, :680:{21,76}] wire [142:0] _d_sizes_clr_T_5 = 143'hFF << _d_sizes_clr_T_4; // @[Monitor.scala:681:{74,99}] assign d_sizes_clr = _T_1408 ? _d_sizes_clr_T_5[127:0] : 128'h0; // @[Monitor.scala:670:31, :678:{25,70,89}, :681:{21,74}] wire _same_cycle_resp_T_1 = _same_cycle_resp_T; // @[Monitor.scala:684:{44,55}] wire _same_cycle_resp_T_2 = io_in_a_bits_source_0 == io_in_d_bits_source_0; // @[Monitor.scala:36:7, :684:113] wire same_cycle_resp = _same_cycle_resp_T_1 & _same_cycle_resp_T_2; // @[Monitor.scala:684:{55,88,113}] wire [15:0] _inflight_T = inflight | a_set; // @[Monitor.scala:614:27, :626:34, :705:27] wire [15:0] _inflight_T_1 = ~d_clr; // @[Monitor.scala:664:34, :705:38] wire [15:0] _inflight_T_2 = _inflight_T & _inflight_T_1; // @[Monitor.scala:705:{27,36,38}] wire [63:0] _inflight_opcodes_T = inflight_opcodes | a_opcodes_set; // @[Monitor.scala:616:35, :630:33, :706:43] wire [63:0] _inflight_opcodes_T_1 = ~d_opcodes_clr; // @[Monitor.scala:668:33, :706:62] wire [63:0] _inflight_opcodes_T_2 = _inflight_opcodes_T & _inflight_opcodes_T_1; // @[Monitor.scala:706:{43,60,62}] wire [127:0] _inflight_sizes_T = inflight_sizes | a_sizes_set; // @[Monitor.scala:618:33, :632:31, :707:39] wire [127:0] _inflight_sizes_T_1 = ~d_sizes_clr; // @[Monitor.scala:670:31, :707:56] wire [127:0] _inflight_sizes_T_2 = _inflight_sizes_T & _inflight_sizes_T_1; // @[Monitor.scala:707:{39,54,56}] reg [31:0] watchdog; // @[Monitor.scala:709:27] wire [32:0] _watchdog_T = {1'h0, watchdog} + 33'h1; // @[Monitor.scala:709:27, :714:26] wire [31:0] _watchdog_T_1 = _watchdog_T[31:0]; // @[Monitor.scala:714:26] reg [15:0] inflight_1; // @[Monitor.scala:726:35] wire [15:0] _inflight_T_3 = inflight_1; // @[Monitor.scala:726:35, :814:35] reg [63:0] inflight_opcodes_1; // @[Monitor.scala:727:35] wire [63:0] _inflight_opcodes_T_3 = inflight_opcodes_1; // @[Monitor.scala:727:35, :815:43] reg [127:0] inflight_sizes_1; // @[Monitor.scala:728:35] wire [127:0] _inflight_sizes_T_3 = inflight_sizes_1; // @[Monitor.scala:728:35, :816:41] wire [11:0] _d_first_beats1_decode_T_7 = _d_first_beats1_decode_T_6[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _d_first_beats1_decode_T_8 = ~_d_first_beats1_decode_T_7; // @[package.scala:243:{46,76}] wire [8:0] d_first_beats1_decode_2 = _d_first_beats1_decode_T_8[11:3]; // @[package.scala:243:46] wire [8:0] d_first_beats1_2 = d_first_beats1_opdata_2 ? d_first_beats1_decode_2 : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [8:0] d_first_counter_2; // @[Edges.scala:229:27] wire [9:0] _d_first_counter1_T_2 = {1'h0, d_first_counter_2} - 10'h1; // @[Edges.scala:229:27, :230:28] wire [8:0] d_first_counter1_2 = _d_first_counter1_T_2[8:0]; // @[Edges.scala:230:28] wire d_first_2 = d_first_counter_2 == 9'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_4 = d_first_counter_2 == 9'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_5 = d_first_beats1_2 == 9'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_2 = _d_first_last_T_4 | _d_first_last_T_5; // @[Edges.scala:232:{25,33,43}] wire d_first_done_2 = d_first_last_2 & _d_first_T_2; // @[Decoupled.scala:51:35] wire [8:0] _d_first_count_T_2 = ~d_first_counter1_2; // @[Edges.scala:230:28, :234:27] wire [8:0] d_first_count_2 = d_first_beats1_2 & _d_first_count_T_2; // @[Edges.scala:221:14, :234:{25,27}] wire [8:0] _d_first_counter_T_2 = d_first_2 ? d_first_beats1_2 : d_first_counter1_2; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [3:0] c_opcode_lookup; // @[Monitor.scala:747:35] wire [7:0] c_size_lookup; // @[Monitor.scala:748:35] wire [63:0] _c_opcode_lookup_T_1 = inflight_opcodes_1 >> _c_opcode_lookup_T; // @[Monitor.scala:727:35, :749:{44,69}] wire [63:0] _c_opcode_lookup_T_6 = {60'h0, _c_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:749:{44,97}] wire [63:0] _c_opcode_lookup_T_7 = {1'h0, _c_opcode_lookup_T_6[63:1]}; // @[Monitor.scala:749:{97,152}] assign c_opcode_lookup = _c_opcode_lookup_T_7[3:0]; // @[Monitor.scala:747:35, :749:{21,152}] wire [127:0] _c_size_lookup_T_1 = inflight_sizes_1 >> _c_size_lookup_T; // @[Monitor.scala:728:35, :750:{42,67}] wire [127:0] _c_size_lookup_T_6 = {120'h0, _c_size_lookup_T_1[7:0]}; // @[Monitor.scala:750:{42,93}] wire [127:0] _c_size_lookup_T_7 = {1'h0, _c_size_lookup_T_6[127:1]}; // @[Monitor.scala:750:{93,146}] assign c_size_lookup = _c_size_lookup_T_7[7:0]; // @[Monitor.scala:748:35, :750:{21,146}] wire [15:0] d_clr_1; // @[Monitor.scala:774:34] wire [15:0] d_clr_wo_ready_1; // @[Monitor.scala:775:34] wire [63:0] d_opcodes_clr_1; // @[Monitor.scala:776:34] wire [127:0] d_sizes_clr_1; // @[Monitor.scala:777:34] wire _T_1511 = io_in_d_valid_0 & d_first_2; // @[Monitor.scala:36:7, :784:26] assign d_clr_wo_ready_1 = _T_1511 & d_release_ack_1 ? _d_clr_wo_ready_T_1 : 16'h0; // @[OneHot.scala:58:35] wire _T_1493 = _T_1540 & d_first_2 & d_release_ack_1; // @[Decoupled.scala:51:35] assign d_clr_1 = _T_1493 ? _d_clr_T_1 : 16'h0; // @[OneHot.scala:58:35] wire [142:0] _d_opcodes_clr_T_11 = 143'hF << _d_opcodes_clr_T_10; // @[Monitor.scala:790:{76,101}] assign d_opcodes_clr_1 = _T_1493 ? _d_opcodes_clr_T_11[63:0] : 64'h0; // @[Monitor.scala:776:34, :788:{25,70,88}, :790:{21,76}] wire [142:0] _d_sizes_clr_T_11 = 143'hFF << _d_sizes_clr_T_10; // @[Monitor.scala:791:{74,99}] assign d_sizes_clr_1 = _T_1493 ? _d_sizes_clr_T_11[127:0] : 128'h0; // @[Monitor.scala:777:34, :788:{25,70,88}, :791:{21,74}] wire _same_cycle_resp_T_8 = io_in_d_bits_source_0 == 4'h0; // @[Monitor.scala:36:7, :795:113] wire [15:0] _inflight_T_4 = ~d_clr_1; // @[Monitor.scala:774:34, :814:46] wire [15:0] _inflight_T_5 = _inflight_T_3 & _inflight_T_4; // @[Monitor.scala:814:{35,44,46}] wire [63:0] _inflight_opcodes_T_4 = ~d_opcodes_clr_1; // @[Monitor.scala:776:34, :815:62] wire [63:0] _inflight_opcodes_T_5 = _inflight_opcodes_T_3 & _inflight_opcodes_T_4; // @[Monitor.scala:815:{43,60,62}] wire [127:0] _inflight_sizes_T_4 = ~d_sizes_clr_1; // @[Monitor.scala:777:34, :816:58] wire [127:0] _inflight_sizes_T_5 = _inflight_sizes_T_3 & _inflight_sizes_T_4; // @[Monitor.scala:816:{41,56,58}] reg [31:0] watchdog_1; // @[Monitor.scala:818:27]
Generate the Verilog code corresponding to the following Chisel files. File DivSqrtRecFN_small.scala: /*============================================================================ This Chisel source file is part of a pre-release version of the HardFloat IEEE Floating-Point Arithmetic Package, by John R. Hauser (with some contributions from Yunsup Lee and Andrew Waterman, mainly concerning testing). Copyright 2017 SiFive, Inc. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of SiFive nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY SIFIVE AND CONTRIBUTORS "AS IS", AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL SIFIVE OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. =============================================================================*/ /* s = sigWidth c_i = newBit Division: width of a is (s+2) Normal ------ (qi + ci * 2^(-i))*b <= a q0 = 0 r0 = a q(i+1) = qi + ci*2^(-i) ri = a - qi*b r(i+1) = a - q(i+1)*b = a - qi*b - ci*2^(-i)*b r(i+1) = ri - ci*2^(-i)*b ci = ri >= 2^(-i)*b summary_i = ri != 0 i = 0 to s+1 (s+1)th bit plus summary_(i+1) gives enough information for rounding If (a < b), then we need to calculate (s+2)th bit and summary_(i+1) because we need s bits ignoring the leading zero. (This is skipCycle2 part of Hauser's code.) Hauser ------ sig_i = qi rem_i = 2^(i-2)*ri cycle_i = s+3-i sig_0 = 0 rem_0 = a/4 cycle_0 = s+3 bit_0 = 2^0 (= 2^(s+1), since we represent a, b and q with (s+2) bits) sig(i+1) = sig(i) + ci*bit_i rem(i+1) = 2rem_i - ci*b/2 ci = 2rem_i >= b/2 bit_i = 2^-i (=2^(cycle_i-2), since we represent a, b and q with (s+2) bits) cycle(i+1) = cycle_i-1 summary_1 = a <> b summary(i+1) = if ci then 2rem_i-b/2 <> 0 else summary_i, i <> 0 Proof: 2^i*r(i+1) = 2^i*ri - ci*b. Qed ci = 2^i*ri >= b. Qed summary(i+1) = if ci then rem(i+1) else summary_i, i <> 0 Now, note that all of ck's cannot be 0, since that means a is 0. So when you traverse through a chain of 0 ck's, from the end, eventually, you reach a non-zero cj. That is exactly the value of ri as the reminder remains the same. When all ck's are 0 except c0 (which must be 1) then summary_1 is set correctly according to r1 = a-b != 0. So summary(i+1) is always set correctly according to r(i+1) Square root: width of a is (s+1) Normal ------ (xi + ci*2^(-i))^2 <= a xi^2 + ci*2^(-i)*(2xi+ci*2^(-i)) <= a x0 = 0 x(i+1) = xi + ci*2^(-i) ri = a - xi^2 r(i+1) = a - x(i+1)^2 = a - (xi^2 + ci*2^(-i)*(2xi+ci*2^(-i))) = ri - ci*2^(-i)*(2xi+ci*2^(-i)) = ri - ci*2^(-i)*(2xi+2^(-i)) // ci is always 0 or 1 ci = ri >= 2^(-i)*(2xi + 2^(-i)) summary_i = ri != 0 i = 0 to s+1 For odd expression, do 2 steps initially. (s+1)th bit plus summary_(i+1) gives enough information for rounding. Hauser ------ sig_i = xi rem_i = ri*2^(i-1) cycle_i = s+2-i bit_i = 2^(-i) (= 2^(s-i) = 2^(cycle_i-2) in terms of bit representation) sig_0 = 0 rem_0 = a/2 cycle_0 = s+2 bit_0 = 1 (= 2^s in terms of bit representation) sig(i+1) = sig_i + ci * bit_i rem(i+1) = 2rem_i - ci*(2sig_i + bit_i) ci = 2*sig_i + bit_i <= 2*rem_i bit_i = 2^(cycle_i-2) (in terms of bit representation) cycle(i+1) = cycle_i-1 summary_1 = a - (2^s) (in terms of bit representation) summary(i+1) = if ci then rem(i+1) <> 0 else summary_i, i <> 0 Proof: ci = 2*sig_i + bit_i <= 2*rem_i ci = 2xi + 2^(-i) <= ri*2^i. Qed sig(i+1) = sig_i + ci * bit_i x(i+1) = xi + ci*2^(-i). Qed rem(i+1) = 2rem_i - ci*(2sig_i + bit_i) r(i+1)*2^i = ri*2^i - ci*(2xi + 2^(-i)) r(i+1) = ri - ci*2^(-i)*(2xi + 2^(-i)). Qed Same argument as before for summary. ------------------------------ Note that all registers are updated normally until cycle == 2. At cycle == 2, rem is not updated, but all other registers are updated normally. But, cycle == 1 does not read rem to calculate anything (note that final summary is calculated using the values at cycle = 2). */ package hardfloat import chisel3._ import chisel3.util._ import consts._ /*---------------------------------------------------------------------------- | Computes a division or square root for floating-point in recoded form. | Multiple clock cycles are needed for each division or square-root operation, | except possibly in special cases. *----------------------------------------------------------------------------*/ class DivSqrtRawFN_small(expWidth: Int, sigWidth: Int, options: Int) extends Module { override def desiredName = s"DivSqrtRawFN_small_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { /*-------------------------------------------------------------------- *--------------------------------------------------------------------*/ val inReady = Output(Bool()) val inValid = Input(Bool()) val sqrtOp = Input(Bool()) val a = Input(new RawFloat(expWidth, sigWidth)) val b = Input(new RawFloat(expWidth, sigWidth)) val roundingMode = Input(UInt(3.W)) /*-------------------------------------------------------------------- *--------------------------------------------------------------------*/ val rawOutValid_div = Output(Bool()) val rawOutValid_sqrt = Output(Bool()) val roundingModeOut = Output(UInt(3.W)) val invalidExc = Output(Bool()) val infiniteExc = Output(Bool()) val rawOut = Output(new RawFloat(expWidth, sigWidth + 2)) }) /*------------------------------------------------------------------------ *------------------------------------------------------------------------*/ val cycleNum = RegInit(0.U(log2Ceil(sigWidth + 3).W)) val inReady = RegInit(true.B) // <-> (cycleNum <= 1) val rawOutValid = RegInit(false.B) // <-> (cycleNum === 1) val sqrtOp_Z = Reg(Bool()) val majorExc_Z = Reg(Bool()) //*** REDUCE 3 BITS TO 2-BIT CODE: val isNaN_Z = Reg(Bool()) val isInf_Z = Reg(Bool()) val isZero_Z = Reg(Bool()) val sign_Z = Reg(Bool()) val sExp_Z = Reg(SInt((expWidth + 2).W)) val fractB_Z = Reg(UInt(sigWidth.W)) val roundingMode_Z = Reg(UInt(3.W)) /*------------------------------------------------------------------------ | (The most-significant and least-significant bits of 'rem_Z' are needed | only for square roots.) *------------------------------------------------------------------------*/ val rem_Z = Reg(UInt((sigWidth + 2).W)) val notZeroRem_Z = Reg(Bool()) val sigX_Z = Reg(UInt((sigWidth + 2).W)) /*------------------------------------------------------------------------ *------------------------------------------------------------------------*/ val rawA_S = io.a val rawB_S = io.b //*** IMPROVE THESE: val notSigNaNIn_invalidExc_S_div = (rawA_S.isZero && rawB_S.isZero) || (rawA_S.isInf && rawB_S.isInf) val notSigNaNIn_invalidExc_S_sqrt = ! rawA_S.isNaN && ! rawA_S.isZero && rawA_S.sign val majorExc_S = Mux(io.sqrtOp, isSigNaNRawFloat(rawA_S) || notSigNaNIn_invalidExc_S_sqrt, isSigNaNRawFloat(rawA_S) || isSigNaNRawFloat(rawB_S) || notSigNaNIn_invalidExc_S_div || (! rawA_S.isNaN && ! rawA_S.isInf && rawB_S.isZero) ) val isNaN_S = Mux(io.sqrtOp, rawA_S.isNaN || notSigNaNIn_invalidExc_S_sqrt, rawA_S.isNaN || rawB_S.isNaN || notSigNaNIn_invalidExc_S_div ) val isInf_S = Mux(io.sqrtOp, rawA_S.isInf, rawA_S.isInf || rawB_S.isZero) val isZero_S = Mux(io.sqrtOp, rawA_S.isZero, rawA_S.isZero || rawB_S.isInf) val sign_S = rawA_S.sign ^ (! io.sqrtOp && rawB_S.sign) val specialCaseA_S = rawA_S.isNaN || rawA_S.isInf || rawA_S.isZero val specialCaseB_S = rawB_S.isNaN || rawB_S.isInf || rawB_S.isZero val normalCase_S_div = ! specialCaseA_S && ! specialCaseB_S val normalCase_S_sqrt = ! specialCaseA_S && ! rawA_S.sign val normalCase_S = Mux(io.sqrtOp, normalCase_S_sqrt, normalCase_S_div) val sExpQuot_S_div = rawA_S.sExp +& Cat(rawB_S.sExp(expWidth), ~rawB_S.sExp(expWidth - 1, 0)).asSInt //*** IS THIS OPTIMAL?: val sSatExpQuot_S_div = Cat(Mux(((BigInt(7)<<(expWidth - 2)).S <= sExpQuot_S_div), 6.U, sExpQuot_S_div(expWidth + 1, expWidth - 2) ), sExpQuot_S_div(expWidth - 3, 0) ).asSInt val evenSqrt_S = io.sqrtOp && ! rawA_S.sExp(0) val oddSqrt_S = io.sqrtOp && rawA_S.sExp(0) /*------------------------------------------------------------------------ *------------------------------------------------------------------------*/ val idle = cycleNum === 0.U val entering = inReady && io.inValid val entering_normalCase = entering && normalCase_S val processTwoBits = cycleNum >= 3.U && ((options & divSqrtOpt_twoBitsPerCycle) != 0).B val skipCycle2 = cycleNum === 3.U && sigX_Z(sigWidth + 1) && ((options & divSqrtOpt_twoBitsPerCycle) == 0).B when (! idle || entering) { def computeCycleNum(f: UInt => UInt): UInt = { Mux(entering & ! normalCase_S, f(1.U), 0.U) | Mux(entering_normalCase, Mux(io.sqrtOp, Mux(rawA_S.sExp(0), f(sigWidth.U), f((sigWidth + 1).U)), f((sigWidth + 2).U) ), 0.U ) | Mux(! entering && ! skipCycle2, f(cycleNum - Mux(processTwoBits, 2.U, 1.U)), 0.U) | Mux(skipCycle2, f(1.U), 0.U) } inReady := computeCycleNum(_ <= 1.U).asBool rawOutValid := computeCycleNum(_ === 1.U).asBool cycleNum := computeCycleNum(x => x) } io.inReady := inReady /*------------------------------------------------------------------------ *------------------------------------------------------------------------*/ when (entering) { sqrtOp_Z := io.sqrtOp majorExc_Z := majorExc_S isNaN_Z := isNaN_S isInf_Z := isInf_S isZero_Z := isZero_S sign_Z := sign_S sExp_Z := Mux(io.sqrtOp, (rawA_S.sExp>>1) +& (BigInt(1)<<(expWidth - 1)).S, sSatExpQuot_S_div ) roundingMode_Z := io.roundingMode } when (entering || ! inReady && sqrtOp_Z) { fractB_Z := Mux(inReady && ! io.sqrtOp, rawB_S.sig(sigWidth - 2, 0)<<1, 0.U) | Mux(inReady && io.sqrtOp && rawA_S.sExp(0), (BigInt(1)<<(sigWidth - 2)).U, 0.U) | Mux(inReady && io.sqrtOp && ! rawA_S.sExp(0), (BigInt(1)<<(sigWidth - 1)).U, 0.U) | Mux(! inReady /* sqrtOp_Z */ && processTwoBits, fractB_Z>>2, 0.U) | Mux(! inReady /* sqrtOp_Z */ && ! processTwoBits, fractB_Z>>1, 0.U) } /*------------------------------------------------------------------------ *------------------------------------------------------------------------*/ val rem = Mux(inReady && ! oddSqrt_S, rawA_S.sig<<1, 0.U) | Mux(inReady && oddSqrt_S, Cat(rawA_S.sig(sigWidth - 1, sigWidth - 2) - 1.U, rawA_S.sig(sigWidth - 3, 0)<<3 ), 0.U ) | Mux(! inReady, rem_Z<<1, 0.U) val bitMask = (1.U<<cycleNum)>>2 val trialTerm = Mux(inReady && ! io.sqrtOp, rawB_S.sig<<1, 0.U) | Mux(inReady && evenSqrt_S, (BigInt(1)<<sigWidth).U, 0.U) | Mux(inReady && oddSqrt_S, (BigInt(5)<<(sigWidth - 1)).U, 0.U) | Mux(! inReady, fractB_Z, 0.U) | Mux(! inReady && ! sqrtOp_Z, 1.U << sigWidth, 0.U) | Mux(! inReady && sqrtOp_Z, sigX_Z<<1, 0.U) val trialRem = rem.zext -& trialTerm.zext val newBit = (0.S <= trialRem) val nextRem_Z = Mux(newBit, trialRem.asUInt, rem)(sigWidth + 1, 0) val rem2 = nextRem_Z<<1 val trialTerm2_newBit0 = Mux(sqrtOp_Z, fractB_Z>>1 | sigX_Z<<1, fractB_Z | (1.U << sigWidth)) val trialTerm2_newBit1 = trialTerm2_newBit0 | Mux(sqrtOp_Z, fractB_Z<<1, 0.U) val trialRem2 = Mux(newBit, (trialRem<<1) - trialTerm2_newBit1.zext, (rem_Z<<2)(sigWidth+2, 0).zext - trialTerm2_newBit0.zext) val newBit2 = (0.S <= trialRem2) val nextNotZeroRem_Z = Mux(inReady || newBit, trialRem =/= 0.S, notZeroRem_Z) val nextNotZeroRem_Z_2 = // <-> Mux(newBit2, trialRem2 =/= 0.S, nextNotZeroRem_Z) processTwoBits && newBit && (0.S < (trialRem<<1) - trialTerm2_newBit1.zext) || processTwoBits && !newBit && (0.S < (rem_Z<<2)(sigWidth+2, 0).zext - trialTerm2_newBit0.zext) || !(processTwoBits && newBit2) && nextNotZeroRem_Z val nextRem_Z_2 = Mux(processTwoBits && newBit2, trialRem2.asUInt(sigWidth + 1, 0), 0.U) | Mux(processTwoBits && !newBit2, rem2(sigWidth + 1, 0), 0.U) | Mux(!processTwoBits, nextRem_Z, 0.U) when (entering || ! inReady) { notZeroRem_Z := nextNotZeroRem_Z_2 rem_Z := nextRem_Z_2 sigX_Z := Mux(inReady && ! io.sqrtOp, newBit<<(sigWidth + 1), 0.U) | Mux(inReady && io.sqrtOp, (BigInt(1)<<sigWidth).U, 0.U) | Mux(inReady && oddSqrt_S, newBit<<(sigWidth - 1), 0.U) | Mux(! inReady, sigX_Z, 0.U) | Mux(! inReady && newBit, bitMask, 0.U) | Mux(processTwoBits && newBit2, bitMask>>1, 0.U) } /*------------------------------------------------------------------------ *------------------------------------------------------------------------*/ io.rawOutValid_div := rawOutValid && ! sqrtOp_Z io.rawOutValid_sqrt := rawOutValid && sqrtOp_Z io.roundingModeOut := roundingMode_Z io.invalidExc := majorExc_Z && isNaN_Z io.infiniteExc := majorExc_Z && ! isNaN_Z io.rawOut.isNaN := isNaN_Z io.rawOut.isInf := isInf_Z io.rawOut.isZero := isZero_Z io.rawOut.sign := sign_Z io.rawOut.sExp := sExp_Z io.rawOut.sig := sigX_Z<<1 | notZeroRem_Z } /*---------------------------------------------------------------------------- *----------------------------------------------------------------------------*/ class DivSqrtRecFNToRaw_small(expWidth: Int, sigWidth: Int, options: Int) extends Module { override def desiredName = s"DivSqrtRecFMToRaw_small_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { /*-------------------------------------------------------------------- *--------------------------------------------------------------------*/ val inReady = Output(Bool()) val inValid = Input(Bool()) val sqrtOp = Input(Bool()) val a = Input(UInt((expWidth + sigWidth + 1).W)) val b = Input(UInt((expWidth + sigWidth + 1).W)) val roundingMode = Input(UInt(3.W)) /*-------------------------------------------------------------------- *--------------------------------------------------------------------*/ val rawOutValid_div = Output(Bool()) val rawOutValid_sqrt = Output(Bool()) val roundingModeOut = Output(UInt(3.W)) val invalidExc = Output(Bool()) val infiniteExc = Output(Bool()) val rawOut = Output(new RawFloat(expWidth, sigWidth + 2)) }) val divSqrtRawFN = Module(new DivSqrtRawFN_small(expWidth, sigWidth, options)) io.inReady := divSqrtRawFN.io.inReady divSqrtRawFN.io.inValid := io.inValid divSqrtRawFN.io.sqrtOp := io.sqrtOp divSqrtRawFN.io.a := rawFloatFromRecFN(expWidth, sigWidth, io.a) divSqrtRawFN.io.b := rawFloatFromRecFN(expWidth, sigWidth, io.b) divSqrtRawFN.io.roundingMode := io.roundingMode io.rawOutValid_div := divSqrtRawFN.io.rawOutValid_div io.rawOutValid_sqrt := divSqrtRawFN.io.rawOutValid_sqrt io.roundingModeOut := divSqrtRawFN.io.roundingModeOut io.invalidExc := divSqrtRawFN.io.invalidExc io.infiniteExc := divSqrtRawFN.io.infiniteExc io.rawOut := divSqrtRawFN.io.rawOut } /*---------------------------------------------------------------------------- *----------------------------------------------------------------------------*/ class DivSqrtRecFN_small(expWidth: Int, sigWidth: Int, options: Int) extends Module { override def desiredName = s"DivSqrtRecFM_small_e${expWidth}_s${sigWidth}" val io = IO(new Bundle { /*-------------------------------------------------------------------- *--------------------------------------------------------------------*/ val inReady = Output(Bool()) val inValid = Input(Bool()) val sqrtOp = Input(Bool()) val a = Input(UInt((expWidth + sigWidth + 1).W)) val b = Input(UInt((expWidth + sigWidth + 1).W)) val roundingMode = Input(UInt(3.W)) val detectTininess = Input(UInt(1.W)) /*-------------------------------------------------------------------- *--------------------------------------------------------------------*/ val outValid_div = Output(Bool()) val outValid_sqrt = Output(Bool()) val out = Output(UInt((expWidth + sigWidth + 1).W)) val exceptionFlags = Output(UInt(5.W)) }) //------------------------------------------------------------------------ //------------------------------------------------------------------------ val divSqrtRecFNToRaw = Module(new DivSqrtRecFNToRaw_small(expWidth, sigWidth, options)) io.inReady := divSqrtRecFNToRaw.io.inReady divSqrtRecFNToRaw.io.inValid := io.inValid divSqrtRecFNToRaw.io.sqrtOp := io.sqrtOp divSqrtRecFNToRaw.io.a := io.a divSqrtRecFNToRaw.io.b := io.b divSqrtRecFNToRaw.io.roundingMode := io.roundingMode //------------------------------------------------------------------------ //------------------------------------------------------------------------ io.outValid_div := divSqrtRecFNToRaw.io.rawOutValid_div io.outValid_sqrt := divSqrtRecFNToRaw.io.rawOutValid_sqrt val roundRawFNToRecFN = Module(new RoundRawFNToRecFN(expWidth, sigWidth, 0)) roundRawFNToRecFN.io.invalidExc := divSqrtRecFNToRaw.io.invalidExc roundRawFNToRecFN.io.infiniteExc := divSqrtRecFNToRaw.io.infiniteExc roundRawFNToRecFN.io.in := divSqrtRecFNToRaw.io.rawOut roundRawFNToRecFN.io.roundingMode := divSqrtRecFNToRaw.io.roundingModeOut roundRawFNToRecFN.io.detectTininess := io.detectTininess io.out := roundRawFNToRecFN.io.out io.exceptionFlags := roundRawFNToRecFN.io.exceptionFlags }
module DivSqrtRecFM_small_e5_s11_4( // @[DivSqrtRecFN_small.scala:468:5] input clock, // @[DivSqrtRecFN_small.scala:468:5] input reset, // @[DivSqrtRecFN_small.scala:468:5] output io_inReady, // @[DivSqrtRecFN_small.scala:472:16] input io_inValid, // @[DivSqrtRecFN_small.scala:472:16] input io_sqrtOp, // @[DivSqrtRecFN_small.scala:472:16] input [16:0] io_a, // @[DivSqrtRecFN_small.scala:472:16] input [16:0] io_b, // @[DivSqrtRecFN_small.scala:472:16] input [2:0] io_roundingMode, // @[DivSqrtRecFN_small.scala:472:16] output io_outValid_div, // @[DivSqrtRecFN_small.scala:472:16] output io_outValid_sqrt, // @[DivSqrtRecFN_small.scala:472:16] output [16:0] io_out, // @[DivSqrtRecFN_small.scala:472:16] output [4:0] io_exceptionFlags // @[DivSqrtRecFN_small.scala:472:16] ); wire [2:0] _divSqrtRecFNToRaw_io_roundingModeOut; // @[DivSqrtRecFN_small.scala:493:15] wire _divSqrtRecFNToRaw_io_invalidExc; // @[DivSqrtRecFN_small.scala:493:15] wire _divSqrtRecFNToRaw_io_infiniteExc; // @[DivSqrtRecFN_small.scala:493:15] wire _divSqrtRecFNToRaw_io_rawOut_isNaN; // @[DivSqrtRecFN_small.scala:493:15] wire _divSqrtRecFNToRaw_io_rawOut_isInf; // @[DivSqrtRecFN_small.scala:493:15] wire _divSqrtRecFNToRaw_io_rawOut_isZero; // @[DivSqrtRecFN_small.scala:493:15] wire _divSqrtRecFNToRaw_io_rawOut_sign; // @[DivSqrtRecFN_small.scala:493:15] wire [6:0] _divSqrtRecFNToRaw_io_rawOut_sExp; // @[DivSqrtRecFN_small.scala:493:15] wire [13:0] _divSqrtRecFNToRaw_io_rawOut_sig; // @[DivSqrtRecFN_small.scala:493:15] wire io_inValid_0 = io_inValid; // @[DivSqrtRecFN_small.scala:468:5] wire io_sqrtOp_0 = io_sqrtOp; // @[DivSqrtRecFN_small.scala:468:5] wire [16:0] io_a_0 = io_a; // @[DivSqrtRecFN_small.scala:468:5] wire [16:0] io_b_0 = io_b; // @[DivSqrtRecFN_small.scala:468:5] wire [2:0] io_roundingMode_0 = io_roundingMode; // @[DivSqrtRecFN_small.scala:468:5] wire io_detectTininess = 1'h1; // @[DivSqrtRecFN_small.scala:468:5, :472:16, :508:15] wire io_inReady_0; // @[DivSqrtRecFN_small.scala:468:5] wire io_outValid_div_0; // @[DivSqrtRecFN_small.scala:468:5] wire io_outValid_sqrt_0; // @[DivSqrtRecFN_small.scala:468:5] wire [16:0] io_out_0; // @[DivSqrtRecFN_small.scala:468:5] wire [4:0] io_exceptionFlags_0; // @[DivSqrtRecFN_small.scala:468:5] DivSqrtRecFMToRaw_small_e5_s11_4 divSqrtRecFNToRaw ( // @[DivSqrtRecFN_small.scala:493:15] .clock (clock), .reset (reset), .io_inReady (io_inReady_0), .io_inValid (io_inValid_0), // @[DivSqrtRecFN_small.scala:468:5] .io_sqrtOp (io_sqrtOp_0), // @[DivSqrtRecFN_small.scala:468:5] .io_a (io_a_0), // @[DivSqrtRecFN_small.scala:468:5] .io_b (io_b_0), // @[DivSqrtRecFN_small.scala:468:5] .io_roundingMode (io_roundingMode_0), // @[DivSqrtRecFN_small.scala:468:5] .io_rawOutValid_div (io_outValid_div_0), .io_rawOutValid_sqrt (io_outValid_sqrt_0), .io_roundingModeOut (_divSqrtRecFNToRaw_io_roundingModeOut), .io_invalidExc (_divSqrtRecFNToRaw_io_invalidExc), .io_infiniteExc (_divSqrtRecFNToRaw_io_infiniteExc), .io_rawOut_isNaN (_divSqrtRecFNToRaw_io_rawOut_isNaN), .io_rawOut_isInf (_divSqrtRecFNToRaw_io_rawOut_isInf), .io_rawOut_isZero (_divSqrtRecFNToRaw_io_rawOut_isZero), .io_rawOut_sign (_divSqrtRecFNToRaw_io_rawOut_sign), .io_rawOut_sExp (_divSqrtRecFNToRaw_io_rawOut_sExp), .io_rawOut_sig (_divSqrtRecFNToRaw_io_rawOut_sig) ); // @[DivSqrtRecFN_small.scala:493:15] RoundRawFNToRecFN_e5_s11_9 roundRawFNToRecFN ( // @[DivSqrtRecFN_small.scala:508:15] .io_invalidExc (_divSqrtRecFNToRaw_io_invalidExc), // @[DivSqrtRecFN_small.scala:493:15] .io_infiniteExc (_divSqrtRecFNToRaw_io_infiniteExc), // @[DivSqrtRecFN_small.scala:493:15] .io_in_isNaN (_divSqrtRecFNToRaw_io_rawOut_isNaN), // @[DivSqrtRecFN_small.scala:493:15] .io_in_isInf (_divSqrtRecFNToRaw_io_rawOut_isInf), // @[DivSqrtRecFN_small.scala:493:15] .io_in_isZero (_divSqrtRecFNToRaw_io_rawOut_isZero), // @[DivSqrtRecFN_small.scala:493:15] .io_in_sign (_divSqrtRecFNToRaw_io_rawOut_sign), // @[DivSqrtRecFN_small.scala:493:15] .io_in_sExp (_divSqrtRecFNToRaw_io_rawOut_sExp), // @[DivSqrtRecFN_small.scala:493:15] .io_in_sig (_divSqrtRecFNToRaw_io_rawOut_sig), // @[DivSqrtRecFN_small.scala:493:15] .io_roundingMode (_divSqrtRecFNToRaw_io_roundingModeOut), // @[DivSqrtRecFN_small.scala:493:15] .io_out (io_out_0), .io_exceptionFlags (io_exceptionFlags_0) ); // @[DivSqrtRecFN_small.scala:508:15] assign io_inReady = io_inReady_0; // @[DivSqrtRecFN_small.scala:468:5] assign io_outValid_div = io_outValid_div_0; // @[DivSqrtRecFN_small.scala:468:5] assign io_outValid_sqrt = io_outValid_sqrt_0; // @[DivSqrtRecFN_small.scala:468:5] assign io_out = io_out_0; // @[DivSqrtRecFN_small.scala:468:5] assign io_exceptionFlags = io_exceptionFlags_0; // @[DivSqrtRecFN_small.scala:468:5] endmodule
Generate the Verilog code corresponding to the following Chisel files. File WidthWidget.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.AddressSet import freechips.rocketchip.util.{Repeater, UIntToOH1} // innBeatBytes => the new client-facing bus width class TLWidthWidget(innerBeatBytes: Int)(implicit p: Parameters) extends LazyModule { private def noChangeRequired(manager: TLManagerPortParameters) = manager.beatBytes == innerBeatBytes val node = new TLAdapterNode( clientFn = { case c => c }, managerFn = { case m => m.v1copy(beatBytes = innerBeatBytes) }){ override def circuitIdentity = edges.out.map(_.manager).forall(noChangeRequired) } override lazy val desiredName = s"TLWidthWidget$innerBeatBytes" lazy val module = new Impl class Impl extends LazyModuleImp(this) { def merge[T <: TLDataChannel](edgeIn: TLEdge, in: DecoupledIO[T], edgeOut: TLEdge, out: DecoupledIO[T]) = { val inBytes = edgeIn.manager.beatBytes val outBytes = edgeOut.manager.beatBytes val ratio = outBytes / inBytes val keepBits = log2Ceil(outBytes) val dropBits = log2Ceil(inBytes) val countBits = log2Ceil(ratio) val size = edgeIn.size(in.bits) val hasData = edgeIn.hasData(in.bits) val limit = UIntToOH1(size, keepBits) >> dropBits val count = RegInit(0.U(countBits.W)) val first = count === 0.U val last = count === limit || !hasData val enable = Seq.tabulate(ratio) { i => !((count ^ i.U) & limit).orR } val corrupt_reg = RegInit(false.B) val corrupt_in = edgeIn.corrupt(in.bits) val corrupt_out = corrupt_in || corrupt_reg when (in.fire) { count := count + 1.U corrupt_reg := corrupt_out when (last) { count := 0.U corrupt_reg := false.B } } def helper(idata: UInt): UInt = { // rdata is X until the first time a multi-beat write occurs. // Prevent the X from leaking outside by jamming the mux control until // the first time rdata is written (and hence no longer X). val rdata_written_once = RegInit(false.B) val masked_enable = enable.map(_ || !rdata_written_once) val odata = Seq.fill(ratio) { WireInit(idata) } val rdata = Reg(Vec(ratio-1, chiselTypeOf(idata))) val pdata = rdata :+ idata val mdata = (masked_enable zip (odata zip pdata)) map { case (e, (o, p)) => Mux(e, o, p) } when (in.fire && !last) { rdata_written_once := true.B (rdata zip mdata) foreach { case (r, m) => r := m } } Cat(mdata.reverse) } in.ready := out.ready || !last out.valid := in.valid && last out.bits := in.bits // Don't put down hardware if we never carry data edgeOut.data(out.bits) := (if (edgeIn.staticHasData(in.bits) == Some(false)) 0.U else helper(edgeIn.data(in.bits))) edgeOut.corrupt(out.bits) := corrupt_out (out.bits, in.bits) match { case (o: TLBundleA, i: TLBundleA) => o.mask := edgeOut.mask(o.address, o.size) & Mux(hasData, helper(i.mask), ~0.U(outBytes.W)) case (o: TLBundleB, i: TLBundleB) => o.mask := edgeOut.mask(o.address, o.size) & Mux(hasData, helper(i.mask), ~0.U(outBytes.W)) case (o: TLBundleC, i: TLBundleC) => () case (o: TLBundleD, i: TLBundleD) => () case _ => require(false, "Impossible bundle combination in WidthWidget") } } def split[T <: TLDataChannel](edgeIn: TLEdge, in: DecoupledIO[T], edgeOut: TLEdge, out: DecoupledIO[T], sourceMap: UInt => UInt) = { val inBytes = edgeIn.manager.beatBytes val outBytes = edgeOut.manager.beatBytes val ratio = inBytes / outBytes val keepBits = log2Ceil(inBytes) val dropBits = log2Ceil(outBytes) val countBits = log2Ceil(ratio) val size = edgeIn.size(in.bits) val hasData = edgeIn.hasData(in.bits) val limit = UIntToOH1(size, keepBits) >> dropBits val count = RegInit(0.U(countBits.W)) val first = count === 0.U val last = count === limit || !hasData when (out.fire) { count := count + 1.U when (last) { count := 0.U } } // For sub-beat transfer, extract which part matters val sel = in.bits match { case a: TLBundleA => a.address(keepBits-1, dropBits) case b: TLBundleB => b.address(keepBits-1, dropBits) case c: TLBundleC => c.address(keepBits-1, dropBits) case d: TLBundleD => { val sel = sourceMap(d.source) val hold = Mux(first, sel, RegEnable(sel, first)) // a_first is not for whole xfer hold & ~limit // if more than one a_first/xfer, the address must be aligned anyway } } val index = sel | count def helper(idata: UInt, width: Int): UInt = { val mux = VecInit.tabulate(ratio) { i => idata((i+1)*outBytes*width-1, i*outBytes*width) } mux(index) } out.bits := in.bits out.valid := in.valid in.ready := out.ready // Don't put down hardware if we never carry data edgeOut.data(out.bits) := (if (edgeIn.staticHasData(in.bits) == Some(false)) 0.U else helper(edgeIn.data(in.bits), 8)) (out.bits, in.bits) match { case (o: TLBundleA, i: TLBundleA) => o.mask := helper(i.mask, 1) case (o: TLBundleB, i: TLBundleB) => o.mask := helper(i.mask, 1) case (o: TLBundleC, i: TLBundleC) => () // replicating corrupt to all beats is ok case (o: TLBundleD, i: TLBundleD) => () case _ => require(false, "Impossbile bundle combination in WidthWidget") } // Repeat the input if we're not last !last } def splice[T <: TLDataChannel](edgeIn: TLEdge, in: DecoupledIO[T], edgeOut: TLEdge, out: DecoupledIO[T], sourceMap: UInt => UInt) = { if (edgeIn.manager.beatBytes == edgeOut.manager.beatBytes) { // nothing to do; pass it through out.bits := in.bits out.valid := in.valid in.ready := out.ready } else if (edgeIn.manager.beatBytes > edgeOut.manager.beatBytes) { // split input to output val repeat = Wire(Bool()) val repeated = Repeater(in, repeat) val cated = Wire(chiselTypeOf(repeated)) cated <> repeated edgeIn.data(cated.bits) := Cat( edgeIn.data(repeated.bits)(edgeIn.manager.beatBytes*8-1, edgeOut.manager.beatBytes*8), edgeIn.data(in.bits)(edgeOut.manager.beatBytes*8-1, 0)) repeat := split(edgeIn, cated, edgeOut, out, sourceMap) } else { // merge input to output merge(edgeIn, in, edgeOut, out) } } (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => // If the master is narrower than the slave, the D channel must be narrowed. // This is tricky, because the D channel has no address data. // Thus, you don't know which part of a sub-beat transfer to extract. // To fix this, we record the relevant address bits for all sources. // The assumption is that this sort of situation happens only where // you connect a narrow master to the system bus, so there are few sources. def sourceMap(source_bits: UInt) = { val source = if (edgeIn.client.endSourceId == 1) 0.U(0.W) else source_bits require (edgeOut.manager.beatBytes > edgeIn.manager.beatBytes) val keepBits = log2Ceil(edgeOut.manager.beatBytes) val dropBits = log2Ceil(edgeIn.manager.beatBytes) val sources = Reg(Vec(edgeIn.client.endSourceId, UInt((keepBits-dropBits).W))) val a_sel = in.a.bits.address(keepBits-1, dropBits) when (in.a.fire) { if (edgeIn.client.endSourceId == 1) { // avoid extraction-index-width warning sources(0) := a_sel } else { sources(in.a.bits.source) := a_sel } } // depopulate unused source registers: edgeIn.client.unusedSources.foreach { id => sources(id) := 0.U } val bypass = in.a.valid && in.a.bits.source === source if (edgeIn.manager.minLatency > 0) sources(source) else Mux(bypass, a_sel, sources(source)) } splice(edgeIn, in.a, edgeOut, out.a, sourceMap) splice(edgeOut, out.d, edgeIn, in.d, sourceMap) if (edgeOut.manager.anySupportAcquireB && edgeIn.client.anySupportProbe) { splice(edgeOut, out.b, edgeIn, in.b, sourceMap) splice(edgeIn, in.c, edgeOut, out.c, sourceMap) out.e.valid := in.e.valid out.e.bits := in.e.bits in.e.ready := out.e.ready } else { in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } } } } object TLWidthWidget { def apply(innerBeatBytes: Int)(implicit p: Parameters): TLNode = { val widget = LazyModule(new TLWidthWidget(innerBeatBytes)) widget.node } def apply(wrapper: TLBusWrapper)(implicit p: Parameters): TLNode = apply(wrapper.beatBytes) } // Synthesizable unit tests import freechips.rocketchip.unittest._ class TLRAMWidthWidget(first: Int, second: Int, txns: Int)(implicit p: Parameters) extends LazyModule { val fuzz = LazyModule(new TLFuzzer(txns)) val model = LazyModule(new TLRAMModel("WidthWidget")) val ram = LazyModule(new TLRAM(AddressSet(0x0, 0x3ff))) (ram.node := TLDelayer(0.1) := TLFragmenter(4, 256) := TLWidthWidget(second) := TLWidthWidget(first) := TLDelayer(0.1) := model.node := fuzz.node) lazy val module = new Impl class Impl extends LazyModuleImp(this) with UnitTestModule { io.finished := fuzz.module.io.finished } } class TLRAMWidthWidgetTest(little: Int, big: Int, txns: Int = 5000, timeout: Int = 500000)(implicit p: Parameters) extends UnitTest(timeout) { val dut = Module(LazyModule(new TLRAMWidthWidget(little,big,txns)).module) dut.io.start := DontCare io.finished := dut.io.finished } File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File Repeater.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util.{Decoupled, DecoupledIO} // A Repeater passes its input to its output, unless repeat is asserted. // When repeat is asserted, the Repeater copies the input and repeats it next cycle. class Repeater[T <: Data](gen: T) extends Module { override def desiredName = s"Repeater_${gen.typeName}" val io = IO( new Bundle { val repeat = Input(Bool()) val full = Output(Bool()) val enq = Flipped(Decoupled(gen.cloneType)) val deq = Decoupled(gen.cloneType) } ) val full = RegInit(false.B) val saved = Reg(gen.cloneType) // When !full, a repeater is pass-through io.deq.valid := io.enq.valid || full io.enq.ready := io.deq.ready && !full io.deq.bits := Mux(full, saved, io.enq.bits) io.full := full when (io.enq.fire && io.repeat) { full := true.B; saved := io.enq.bits } when (io.deq.fire && !io.repeat) { full := false.B } } object Repeater { def apply[T <: Data](enq: DecoupledIO[T], repeat: Bool): DecoupledIO[T] = { val repeater = Module(new Repeater(chiselTypeOf(enq.bits))) repeater.io.repeat := repeat repeater.io.enq <> enq repeater.io.deq } } File MixedNode.scala: package org.chipsalliance.diplomacy.nodes import chisel3.{Data, DontCare, Wire} import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.{Field, Parameters} import org.chipsalliance.diplomacy.ValName import org.chipsalliance.diplomacy.sourceLine /** One side metadata of a [[Dangle]]. * * Describes one side of an edge going into or out of a [[BaseNode]]. * * @param serial * the global [[BaseNode.serial]] number of the [[BaseNode]] that this [[HalfEdge]] connects to. * @param index * the `index` in the [[BaseNode]]'s input or output port list that this [[HalfEdge]] belongs to. */ case class HalfEdge(serial: Int, index: Int) extends Ordered[HalfEdge] { import scala.math.Ordered.orderingToOrdered def compare(that: HalfEdge): Int = HalfEdge.unapply(this).compare(HalfEdge.unapply(that)) } /** [[Dangle]] captures the `IO` information of a [[LazyModule]] and which two [[BaseNode]]s the [[Edges]]/[[Bundle]] * connects. * * [[Dangle]]s are generated by [[BaseNode.instantiate]] using [[MixedNode.danglesOut]] and [[MixedNode.danglesIn]] , * [[LazyModuleImp.instantiate]] connects those that go to internal or explicit IO connections in a [[LazyModule]]. * * @param source * the source [[HalfEdge]] of this [[Dangle]], which captures the source [[BaseNode]] and the port `index` within * that [[BaseNode]]. * @param sink * sink [[HalfEdge]] of this [[Dangle]], which captures the sink [[BaseNode]] and the port `index` within that * [[BaseNode]]. * @param flipped * flip or not in [[AutoBundle.makeElements]]. If true this corresponds to `danglesOut`, if false it corresponds to * `danglesIn`. * @param dataOpt * actual [[Data]] for the hardware connection. Can be empty if this belongs to a cloned module */ case class Dangle(source: HalfEdge, sink: HalfEdge, flipped: Boolean, name: String, dataOpt: Option[Data]) { def data = dataOpt.get } /** [[Edges]] is a collection of parameters describing the functionality and connection for an interface, which is often * derived from the interconnection protocol and can inform the parameterization of the hardware bundles that actually * implement the protocol. */ case class Edges[EI, EO](in: Seq[EI], out: Seq[EO]) /** A field available in [[Parameters]] used to determine whether [[InwardNodeImp.monitor]] will be called. */ case object MonitorsEnabled extends Field[Boolean](true) /** When rendering the edge in a graphical format, flip the order in which the edges' source and sink are presented. * * For example, when rendering graphML, yEd by default tries to put the source node vertically above the sink node, but * [[RenderFlipped]] inverts this relationship. When a particular [[LazyModule]] contains both source nodes and sink * nodes, flipping the rendering of one node's edge will usual produce a more concise visual layout for the * [[LazyModule]]. */ case object RenderFlipped extends Field[Boolean](false) /** The sealed node class in the package, all node are derived from it. * * @param inner * Sink interface implementation. * @param outer * Source interface implementation. * @param valName * val name of this node. * @tparam DI * Downward-flowing parameters received on the inner side of the node. It is usually a brunch of parameters * describing the protocol parameters from a source. For an [[InwardNode]], it is determined by the connected * [[OutwardNode]]. Since it can be connected to multiple sources, this parameter is always a Seq of source port * parameters. * @tparam UI * Upward-flowing parameters generated by the inner side of the node. It is usually a brunch of parameters describing * the protocol parameters of a sink. For an [[InwardNode]], it is determined itself. * @tparam EI * Edge Parameters describing a connection on the inner side of the node. It is usually a brunch of transfers * specified for a sink according to protocol. * @tparam BI * Bundle type used when connecting to the inner side of the node. It is a hardware interface of this sink interface. * It should extends from [[chisel3.Data]], which represents the real hardware. * @tparam DO * Downward-flowing parameters generated on the outer side of the node. It is usually a brunch of parameters * describing the protocol parameters of a source. For an [[OutwardNode]], it is determined itself. * @tparam UO * Upward-flowing parameters received by the outer side of the node. It is usually a brunch of parameters describing * the protocol parameters from a sink. For an [[OutwardNode]], it is determined by the connected [[InwardNode]]. * Since it can be connected to multiple sinks, this parameter is always a Seq of sink port parameters. * @tparam EO * Edge Parameters describing a connection on the outer side of the node. It is usually a brunch of transfers * specified for a source according to protocol. * @tparam BO * Bundle type used when connecting to the outer side of the node. It is a hardware interface of this source * interface. It should extends from [[chisel3.Data]], which represents the real hardware. * * @note * Call Graph of [[MixedNode]] * - line `─`: source is process by a function and generate pass to others * - Arrow `β†’`: target of arrow is generated by source * * {{{ * (from the other node) * β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€[[InwardNode.uiParams]]─────────────┐ * ↓ β”‚ * (binding node when elaboration) [[OutwardNode.uoParams]]────────────────────────[[MixedNode.mapParamsU]]→──────────┐ β”‚ * [[InwardNode.accPI]] β”‚ β”‚ β”‚ * β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ ↓ β”‚ * ↓ β”‚ β”‚ β”‚ * (immobilize after elaboration) (inward port from [[OutwardNode]]) β”‚ ↓ β”‚ * [[InwardNode.iBindings]]──┐ [[MixedNode.iDirectPorts]]────────────────────→[[MixedNode.iPorts]] [[InwardNode.uiParams]] β”‚ * β”‚ β”‚ ↑ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[OutwardNode.doParams]] β”‚ β”‚ * β”‚ β”‚ β”‚ (from the other node) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ └────────┬─────────────── β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ (from the other node) β”‚ ↓ β”‚ * β”‚ └───[[OutwardNode.oPortMapping]] [[OutwardNode.oStar]] β”‚ [[MixedNode.edgesIn]]───┐ β”‚ * β”‚ ↑ ↑ β”‚ β”‚ ↓ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ [[MixedNode.in]] β”‚ * β”‚ β”‚ β”‚ β”‚ ↓ ↑ β”‚ * β”‚ (solve star connection) β”‚ β”‚ β”‚ [[MixedNode.bundleIn]]β”€β”€β”˜ β”‚ * β”œβ”€β”€β”€[[MixedNode.resolveStar]]→─┼────────────────────────────── └────────────────────────────────────┐ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.bundleOut]]─┐ β”‚ β”‚ * β”‚ β”‚ β”‚ ↑ ↓ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.out]] β”‚ β”‚ * β”‚ ↓ ↓ β”‚ ↑ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€[[InwardNode.iPortMapping]] [[InwardNode.iStar]] [[MixedNode.edgesOut]]β”€β”€β”˜ β”‚ β”‚ * β”‚ β”‚ (from the other node) ↑ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.outer.edgeO]] β”‚ β”‚ * β”‚ β”‚ β”‚ (based on protocol) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * (immobilize after elaboration)β”‚ ↓ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.oBindings]]β”€β”˜ [[MixedNode.oDirectPorts]]───→[[MixedNode.oPorts]] [[OutwardNode.doParams]] β”‚ β”‚ * ↑ (inward port from [[OutwardNode]]) β”‚ β”‚ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.accPO]] β”‚ ↓ β”‚ β”‚ β”‚ * (binding node when elaboration) β”‚ [[InwardNode.diParams]]─────→[[MixedNode.mapParamsD]]β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ β”‚ * β”‚ ↑ β”‚ β”‚ * β”‚ β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ * β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ * }}} */ abstract class MixedNode[DI, UI, EI, BI <: Data, DO, UO, EO, BO <: Data]( val inner: InwardNodeImp[DI, UI, EI, BI], val outer: OutwardNodeImp[DO, UO, EO, BO] )( implicit valName: ValName) extends BaseNode with NodeHandle[DI, UI, EI, BI, DO, UO, EO, BO] with InwardNode[DI, UI, BI] with OutwardNode[DO, UO, BO] { // Generate a [[NodeHandle]] with inward and outward node are both this node. val inward = this val outward = this /** Debug info of nodes binding. */ def bindingInfo: String = s"""$iBindingInfo |$oBindingInfo |""".stripMargin /** Debug info of ports connecting. */ def connectedPortsInfo: String = s"""${oPorts.size} outward ports connected: [${oPorts.map(_._2.name).mkString(",")}] |${iPorts.size} inward ports connected: [${iPorts.map(_._2.name).mkString(",")}] |""".stripMargin /** Debug info of parameters propagations. */ def parametersInfo: String = s"""${doParams.size} downstream outward parameters: [${doParams.mkString(",")}] |${uoParams.size} upstream outward parameters: [${uoParams.mkString(",")}] |${diParams.size} downstream inward parameters: [${diParams.mkString(",")}] |${uiParams.size} upstream inward parameters: [${uiParams.mkString(",")}] |""".stripMargin /** For a given node, converts [[OutwardNode.accPO]] and [[InwardNode.accPI]] to [[MixedNode.oPortMapping]] and * [[MixedNode.iPortMapping]]. * * Given counts of known inward and outward binding and inward and outward star bindings, return the resolved inward * stars and outward stars. * * This method will also validate the arguments and throw a runtime error if the values are unsuitable for this type * of node. * * @param iKnown * Number of known-size ([[BIND_ONCE]]) input bindings. * @param oKnown * Number of known-size ([[BIND_ONCE]]) output bindings. * @param iStar * Number of unknown size ([[BIND_STAR]]) input bindings. * @param oStar * Number of unknown size ([[BIND_STAR]]) output bindings. * @return * A Tuple of the resolved number of input and output connections. */ protected[diplomacy] def resolveStar(iKnown: Int, oKnown: Int, iStar: Int, oStar: Int): (Int, Int) /** Function to generate downward-flowing outward params from the downward-flowing input params and the current output * ports. * * @param n * The size of the output sequence to generate. * @param p * Sequence of downward-flowing input parameters of this node. * @return * A `n`-sized sequence of downward-flowing output edge parameters. */ protected[diplomacy] def mapParamsD(n: Int, p: Seq[DI]): Seq[DO] /** Function to generate upward-flowing input parameters from the upward-flowing output parameters [[uiParams]]. * * @param n * Size of the output sequence. * @param p * Upward-flowing output edge parameters. * @return * A n-sized sequence of upward-flowing input edge parameters. */ protected[diplomacy] def mapParamsU(n: Int, p: Seq[UO]): Seq[UI] /** @return * The sink cardinality of the node, the number of outputs bound with [[BIND_QUERY]] summed with inputs bound with * [[BIND_STAR]]. */ protected[diplomacy] lazy val sinkCard: Int = oBindings.count(_._3 == BIND_QUERY) + iBindings.count(_._3 == BIND_STAR) /** @return * The source cardinality of this node, the number of inputs bound with [[BIND_QUERY]] summed with the number of * output bindings bound with [[BIND_STAR]]. */ protected[diplomacy] lazy val sourceCard: Int = iBindings.count(_._3 == BIND_QUERY) + oBindings.count(_._3 == BIND_STAR) /** @return list of nodes involved in flex bindings with this node. */ protected[diplomacy] lazy val flexes: Seq[BaseNode] = oBindings.filter(_._3 == BIND_FLEX).map(_._2) ++ iBindings.filter(_._3 == BIND_FLEX).map(_._2) /** Resolves the flex to be either source or sink and returns the offset where the [[BIND_STAR]] operators begin * greedily taking up the remaining connections. * * @return * A value >= 0 if it is sink cardinality, a negative value for source cardinality. The magnitude of the return * value is not relevant. */ protected[diplomacy] lazy val flexOffset: Int = { /** Recursively performs a depth-first search of the [[flexes]], [[BaseNode]]s connected to this node with flex * operators. The algorithm bottoms out when we either get to a node we have already visited or when we get to a * connection that is not a flex and can set the direction for us. Otherwise, recurse by visiting the `flexes` of * each node in the current set and decide whether they should be added to the set or not. * * @return * the mapping of [[BaseNode]] indexed by their serial numbers. */ def DFS(v: BaseNode, visited: Map[Int, BaseNode]): Map[Int, BaseNode] = { if (visited.contains(v.serial) || !v.flexibleArityDirection) { visited } else { v.flexes.foldLeft(visited + (v.serial -> v))((sum, n) => DFS(n, sum)) } } /** Determine which [[BaseNode]] are involved in resolving the flex connections to/from this node. * * @example * {{{ * a :*=* b :*=* c * d :*=* b * e :*=* f * }}} * * `flexSet` for `a`, `b`, `c`, or `d` will be `Set(a, b, c, d)` `flexSet` for `e` or `f` will be `Set(e,f)` */ val flexSet = DFS(this, Map()).values /** The total number of :*= operators where we're on the left. */ val allSink = flexSet.map(_.sinkCard).sum /** The total number of :=* operators used when we're on the right. */ val allSource = flexSet.map(_.sourceCard).sum require( allSink == 0 || allSource == 0, s"The nodes ${flexSet.map(_.name)} which are inter-connected by :*=* have ${allSink} :*= operators and ${allSource} :=* operators connected to them, making it impossible to determine cardinality inference direction." ) allSink - allSource } /** @return A value >= 0 if it is sink cardinality, a negative value for source cardinality. */ protected[diplomacy] def edgeArityDirection(n: BaseNode): Int = { if (flexibleArityDirection) flexOffset else if (n.flexibleArityDirection) n.flexOffset else 0 } /** For a node which is connected between two nodes, select the one that will influence the direction of the flex * resolution. */ protected[diplomacy] def edgeAritySelect(n: BaseNode, l: => Int, r: => Int): Int = { val dir = edgeArityDirection(n) if (dir < 0) l else if (dir > 0) r else 1 } /** Ensure that the same node is not visited twice in resolving `:*=`, etc operators. */ private var starCycleGuard = false /** Resolve all the star operators into concrete indicies. As connections are being made, some may be "star" * connections which need to be resolved. In some way to determine how many actual edges they correspond to. We also * need to build up the ranges of edges which correspond to each binding operator, so that We can apply the correct * edge parameters and later build up correct bundle connections. * * [[oPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that oPort (binding * operator). [[iPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that iPort * (binding operator). [[oStar]]: `Int` the value to return for this node `N` for any `N :*= foo` or `N :*=* foo :*= * bar` [[iStar]]: `Int` the value to return for this node `N` for any `foo :=* N` or `bar :=* foo :*=* N` */ protected[diplomacy] lazy val ( oPortMapping: Seq[(Int, Int)], iPortMapping: Seq[(Int, Int)], oStar: Int, iStar: Int ) = { try { if (starCycleGuard) throw StarCycleException() starCycleGuard = true // For a given node N... // Number of foo :=* N // + Number of bar :=* foo :*=* N val oStars = oBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) < 0) } // Number of N :*= foo // + Number of N :*=* foo :*= bar val iStars = iBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) > 0) } // 1 for foo := N // + bar.iStar for bar :*= foo :*=* N // + foo.iStar for foo :*= N // + 0 for foo :=* N val oKnown = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, 0, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => 0 } }.sum // 1 for N := foo // + bar.oStar for N :*=* foo :=* bar // + foo.oStar for N :=* foo // + 0 for N :*= foo val iKnown = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, 0) case BIND_QUERY => n.oStar case BIND_STAR => 0 } }.sum // Resolve star depends on the node subclass to implement the algorithm for this. val (iStar, oStar) = resolveStar(iKnown, oKnown, iStars, oStars) // Cumulative list of resolved outward binding range starting points val oSum = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, oStar, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => oStar } }.scanLeft(0)(_ + _) // Cumulative list of resolved inward binding range starting points val iSum = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, iStar) case BIND_QUERY => n.oStar case BIND_STAR => iStar } }.scanLeft(0)(_ + _) // Create ranges for each binding based on the running sums and return // those along with resolved values for the star operations. (oSum.init.zip(oSum.tail), iSum.init.zip(iSum.tail), oStar, iStar) } catch { case c: StarCycleException => throw c.copy(loop = context +: c.loop) } } /** Sequence of inward ports. * * This should be called after all star bindings are resolved. * * Each element is: `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. * `n` Instance of inward node. `p` View of [[Parameters]] where this connection was made. `s` Source info where this * connection was made in the source code. */ protected[diplomacy] lazy val oDirectPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oBindings.flatMap { case (i, n, _, p, s) => // for each binding operator in this node, look at what it connects to val (start, end) = n.iPortMapping(i) (start until end).map { j => (j, n, p, s) } } /** Sequence of outward ports. * * This should be called after all star bindings are resolved. * * `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. `n` Instance of * outward node. `p` View of [[Parameters]] where this connection was made. `s` [[SourceInfo]] where this connection * was made in the source code. */ protected[diplomacy] lazy val iDirectPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iBindings.flatMap { case (i, n, _, p, s) => // query this port index range of this node in the other side of node. val (start, end) = n.oPortMapping(i) (start until end).map { j => (j, n, p, s) } } // Ephemeral nodes ( which have non-None iForward/oForward) have in_degree = out_degree // Thus, there must exist an Eulerian path and the below algorithms terminate @scala.annotation.tailrec private def oTrace( tuple: (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) ): (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.iForward(i) match { case None => (i, n, p, s) case Some((j, m)) => oTrace((j, m, p, s)) } } @scala.annotation.tailrec private def iTrace( tuple: (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) ): (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.oForward(i) match { case None => (i, n, p, s) case Some((j, m)) => iTrace((j, m, p, s)) } } /** Final output ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - Numeric index of this binding in the [[InwardNode]] on the other end. * - [[InwardNode]] on the other end of this binding. * - A view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val oPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oDirectPorts.map(oTrace) /** Final input ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - numeric index of this binding in [[OutwardNode]] on the other end. * - [[OutwardNode]] on the other end of this binding. * - a view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val iPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iDirectPorts.map(iTrace) private var oParamsCycleGuard = false protected[diplomacy] lazy val diParams: Seq[DI] = iPorts.map { case (i, n, _, _) => n.doParams(i) } protected[diplomacy] lazy val doParams: Seq[DO] = { try { if (oParamsCycleGuard) throw DownwardCycleException() oParamsCycleGuard = true val o = mapParamsD(oPorts.size, diParams) require( o.size == oPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of outward ports should equal the number of produced outward parameters. |$context |$connectedPortsInfo |Downstreamed inward parameters: [${diParams.mkString(",")}] |Produced outward parameters: [${o.mkString(",")}] |""".stripMargin ) o.map(outer.mixO(_, this)) } catch { case c: DownwardCycleException => throw c.copy(loop = context +: c.loop) } } private var iParamsCycleGuard = false protected[diplomacy] lazy val uoParams: Seq[UO] = oPorts.map { case (o, n, _, _) => n.uiParams(o) } protected[diplomacy] lazy val uiParams: Seq[UI] = { try { if (iParamsCycleGuard) throw UpwardCycleException() iParamsCycleGuard = true val i = mapParamsU(iPorts.size, uoParams) require( i.size == iPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of inward ports should equal the number of produced inward parameters. |$context |$connectedPortsInfo |Upstreamed outward parameters: [${uoParams.mkString(",")}] |Produced inward parameters: [${i.mkString(",")}] |""".stripMargin ) i.map(inner.mixI(_, this)) } catch { case c: UpwardCycleException => throw c.copy(loop = context +: c.loop) } } /** Outward edge parameters. */ protected[diplomacy] lazy val edgesOut: Seq[EO] = (oPorts.zip(doParams)).map { case ((i, n, p, s), o) => outer.edgeO(o, n.uiParams(i), p, s) } /** Inward edge parameters. */ protected[diplomacy] lazy val edgesIn: Seq[EI] = (iPorts.zip(uiParams)).map { case ((o, n, p, s), i) => inner.edgeI(n.doParams(o), i, p, s) } /** A tuple of the input edge parameters and output edge parameters for the edges bound to this node. * * If you need to access to the edges of a foreign Node, use this method (in/out create bundles). */ lazy val edges: Edges[EI, EO] = Edges(edgesIn, edgesOut) /** Create actual Wires corresponding to the Bundles parameterized by the outward edges of this node. */ protected[diplomacy] lazy val bundleOut: Seq[BO] = edgesOut.map { e => val x = Wire(outer.bundleO(e)).suggestName(s"${valName.value}Out") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } /** Create actual Wires corresponding to the Bundles parameterized by the inward edges of this node. */ protected[diplomacy] lazy val bundleIn: Seq[BI] = edgesIn.map { e => val x = Wire(inner.bundleI(e)).suggestName(s"${valName.value}In") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } private def emptyDanglesOut: Seq[Dangle] = oPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(serial, i), sink = HalfEdge(n.serial, j), flipped = false, name = wirePrefix + "out", dataOpt = None ) } private def emptyDanglesIn: Seq[Dangle] = iPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(n.serial, j), sink = HalfEdge(serial, i), flipped = true, name = wirePrefix + "in", dataOpt = None ) } /** Create the [[Dangle]]s which describe the connections from this node output to other nodes inputs. */ protected[diplomacy] def danglesOut: Seq[Dangle] = emptyDanglesOut.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleOut(i))) } /** Create the [[Dangle]]s which describe the connections from this node input from other nodes outputs. */ protected[diplomacy] def danglesIn: Seq[Dangle] = emptyDanglesIn.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleIn(i))) } private[diplomacy] var instantiated = false /** Gather Bundle and edge parameters of outward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def out: Seq[(BO, EO)] = { require( instantiated, s"$name.out should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleOut.zip(edgesOut) } /** Gather Bundle and edge parameters of inward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def in: Seq[(BI, EI)] = { require( instantiated, s"$name.in should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleIn.zip(edgesIn) } /** Actually instantiate this node during [[LazyModuleImp]] evaluation. Mark that it's safe to use the Bundle wires, * instantiate monitors on all input ports if appropriate, and return all the dangles of this node. */ protected[diplomacy] def instantiate(): Seq[Dangle] = { instantiated = true if (!circuitIdentity) { (iPorts.zip(in)).foreach { case ((_, _, p, _), (b, e)) => if (p(MonitorsEnabled)) inner.monitor(b, e) } } danglesOut ++ danglesIn } protected[diplomacy] def cloneDangles(): Seq[Dangle] = emptyDanglesOut ++ emptyDanglesIn /** Connects the outward part of a node with the inward part of this node. */ protected[diplomacy] def bind( h: OutwardNode[DI, UI, BI], binding: NodeBinding )( implicit p: Parameters, sourceInfo: SourceInfo ): Unit = { val x = this // x := y val y = h sourceLine(sourceInfo, " at ", "") val i = x.iPushed val o = y.oPushed y.oPush( i, x, binding match { case BIND_ONCE => BIND_ONCE case BIND_FLEX => BIND_FLEX case BIND_STAR => BIND_QUERY case BIND_QUERY => BIND_STAR } ) x.iPush(o, y, binding) } /* Metadata for printing the node graph. */ def inputs: Seq[(OutwardNode[DI, UI, BI], RenderedEdge)] = (iPorts.zip(edgesIn)).map { case ((_, n, p, _), e) => val re = inner.render(e) (n, re.copy(flipped = re.flipped != p(RenderFlipped))) } /** Metadata for printing the node graph */ def outputs: Seq[(InwardNode[DO, UO, BO], RenderedEdge)] = oPorts.map { case (i, n, _, _) => (n, n.inputs(i)._2) } }
module TLWidthWidget8_10( // @[WidthWidget.scala:27:9] input clock, // @[WidthWidget.scala:27:9] input reset, // @[WidthWidget.scala:27:9] output auto_anon_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_anon_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input [6:0] auto_anon_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [21:0] auto_anon_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_anon_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_anon_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_anon_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_anon_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_anon_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output [6:0] auto_anon_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output [63:0] auto_anon_in_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_anon_in_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_anon_out_a_ready, // @[LazyModuleImp.scala:107:25] output auto_anon_out_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_out_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_out_a_bits_param, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_out_a_bits_size, // @[LazyModuleImp.scala:107:25] output [6:0] auto_anon_out_a_bits_source, // @[LazyModuleImp.scala:107:25] output [21:0] auto_anon_out_a_bits_address, // @[LazyModuleImp.scala:107:25] output [3:0] auto_anon_out_a_bits_mask, // @[LazyModuleImp.scala:107:25] output [31:0] auto_anon_out_a_bits_data, // @[LazyModuleImp.scala:107:25] output auto_anon_out_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_anon_out_d_ready, // @[LazyModuleImp.scala:107:25] input auto_anon_out_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_out_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_out_d_bits_size, // @[LazyModuleImp.scala:107:25] input [6:0] auto_anon_out_d_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_anon_out_d_bits_data // @[LazyModuleImp.scala:107:25] ); wire [63:0] _repeated_repeater_io_deq_bits_data; // @[Repeater.scala:36:26] wire auto_anon_in_a_valid_0 = auto_anon_in_a_valid; // @[WidthWidget.scala:27:9] wire [2:0] auto_anon_in_a_bits_opcode_0 = auto_anon_in_a_bits_opcode; // @[WidthWidget.scala:27:9] wire [2:0] auto_anon_in_a_bits_param_0 = auto_anon_in_a_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] auto_anon_in_a_bits_size_0 = auto_anon_in_a_bits_size; // @[WidthWidget.scala:27:9] wire [6:0] auto_anon_in_a_bits_source_0 = auto_anon_in_a_bits_source; // @[WidthWidget.scala:27:9] wire [21:0] auto_anon_in_a_bits_address_0 = auto_anon_in_a_bits_address; // @[WidthWidget.scala:27:9] wire [7:0] auto_anon_in_a_bits_mask_0 = auto_anon_in_a_bits_mask; // @[WidthWidget.scala:27:9] wire [63:0] auto_anon_in_a_bits_data_0 = auto_anon_in_a_bits_data; // @[WidthWidget.scala:27:9] wire auto_anon_in_a_bits_corrupt_0 = auto_anon_in_a_bits_corrupt; // @[WidthWidget.scala:27:9] wire auto_anon_in_d_ready_0 = auto_anon_in_d_ready; // @[WidthWidget.scala:27:9] wire auto_anon_out_a_ready_0 = auto_anon_out_a_ready; // @[WidthWidget.scala:27:9] wire auto_anon_out_d_valid_0 = auto_anon_out_d_valid; // @[WidthWidget.scala:27:9] wire [2:0] auto_anon_out_d_bits_opcode_0 = auto_anon_out_d_bits_opcode; // @[WidthWidget.scala:27:9] wire [2:0] auto_anon_out_d_bits_size_0 = auto_anon_out_d_bits_size; // @[WidthWidget.scala:27:9] wire [6:0] auto_anon_out_d_bits_source_0 = auto_anon_out_d_bits_source; // @[WidthWidget.scala:27:9] wire [31:0] auto_anon_out_d_bits_data_0 = auto_anon_out_d_bits_data; // @[WidthWidget.scala:27:9] wire [1:0] auto_anon_in_d_bits_param = 2'h0; // @[WidthWidget.scala:27:9] wire [1:0] auto_anon_out_d_bits_param = 2'h0; // @[WidthWidget.scala:27:9] wire [1:0] anonIn_d_bits_param = 2'h0; // @[WidthWidget.scala:27:9] wire [1:0] anonOut_d_bits_param = 2'h0; // @[WidthWidget.scala:27:9] wire auto_anon_in_d_bits_sink = 1'h0; // @[WidthWidget.scala:27:9] wire auto_anon_in_d_bits_denied = 1'h0; // @[WidthWidget.scala:27:9] wire auto_anon_out_d_bits_sink = 1'h0; // @[WidthWidget.scala:27:9] wire auto_anon_out_d_bits_denied = 1'h0; // @[WidthWidget.scala:27:9] wire auto_anon_out_d_bits_corrupt = 1'h0; // @[WidthWidget.scala:27:9] wire anonIn_a_ready; // @[MixedNode.scala:551:17] wire anonIn_d_bits_sink = 1'h0; // @[MixedNode.scala:551:17] wire anonIn_d_bits_denied = 1'h0; // @[MixedNode.scala:551:17] wire anonOut_d_bits_sink = 1'h0; // @[MixedNode.scala:542:17] wire anonOut_d_bits_denied = 1'h0; // @[MixedNode.scala:542:17] wire anonOut_d_bits_corrupt = 1'h0; // @[MixedNode.scala:542:17] wire anonIn_a_valid = auto_anon_in_a_valid_0; // @[WidthWidget.scala:27:9] wire [2:0] anonIn_a_bits_opcode = auto_anon_in_a_bits_opcode_0; // @[WidthWidget.scala:27:9] wire [2:0] anonIn_a_bits_param = auto_anon_in_a_bits_param_0; // @[WidthWidget.scala:27:9] wire [2:0] anonIn_a_bits_size = auto_anon_in_a_bits_size_0; // @[WidthWidget.scala:27:9] wire [6:0] anonIn_a_bits_source = auto_anon_in_a_bits_source_0; // @[WidthWidget.scala:27:9] wire [21:0] anonIn_a_bits_address = auto_anon_in_a_bits_address_0; // @[WidthWidget.scala:27:9] wire [7:0] anonIn_a_bits_mask = auto_anon_in_a_bits_mask_0; // @[WidthWidget.scala:27:9] wire [63:0] anonIn_a_bits_data = auto_anon_in_a_bits_data_0; // @[WidthWidget.scala:27:9] wire anonIn_a_bits_corrupt = auto_anon_in_a_bits_corrupt_0; // @[WidthWidget.scala:27:9] wire anonIn_d_ready = auto_anon_in_d_ready_0; // @[WidthWidget.scala:27:9] wire anonIn_d_valid; // @[MixedNode.scala:551:17] wire [2:0] anonIn_d_bits_opcode; // @[MixedNode.scala:551:17] wire [2:0] anonIn_d_bits_size; // @[MixedNode.scala:551:17] wire [6:0] anonIn_d_bits_source; // @[MixedNode.scala:551:17] wire [63:0] anonIn_d_bits_data; // @[MixedNode.scala:551:17] wire anonIn_d_bits_corrupt; // @[MixedNode.scala:551:17] wire anonOut_a_ready = auto_anon_out_a_ready_0; // @[WidthWidget.scala:27:9] wire anonOut_a_valid; // @[MixedNode.scala:542:17] wire [2:0] anonOut_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] anonOut_a_bits_param; // @[MixedNode.scala:542:17] wire [2:0] anonOut_a_bits_size; // @[MixedNode.scala:542:17] wire [6:0] anonOut_a_bits_source; // @[MixedNode.scala:542:17] wire [21:0] anonOut_a_bits_address; // @[MixedNode.scala:542:17] wire [3:0] anonOut_a_bits_mask; // @[MixedNode.scala:542:17] wire [31:0] anonOut_a_bits_data; // @[MixedNode.scala:542:17] wire anonOut_a_bits_corrupt; // @[MixedNode.scala:542:17] wire anonOut_d_ready; // @[MixedNode.scala:542:17] wire anonOut_d_valid = auto_anon_out_d_valid_0; // @[WidthWidget.scala:27:9] wire [2:0] anonOut_d_bits_opcode = auto_anon_out_d_bits_opcode_0; // @[WidthWidget.scala:27:9] wire [2:0] anonOut_d_bits_size = auto_anon_out_d_bits_size_0; // @[WidthWidget.scala:27:9] wire [6:0] anonOut_d_bits_source = auto_anon_out_d_bits_source_0; // @[WidthWidget.scala:27:9] wire [31:0] anonOut_d_bits_data = auto_anon_out_d_bits_data_0; // @[WidthWidget.scala:27:9] wire auto_anon_in_a_ready_0; // @[WidthWidget.scala:27:9] wire [2:0] auto_anon_in_d_bits_opcode_0; // @[WidthWidget.scala:27:9] wire [2:0] auto_anon_in_d_bits_size_0; // @[WidthWidget.scala:27:9] wire [6:0] auto_anon_in_d_bits_source_0; // @[WidthWidget.scala:27:9] wire [63:0] auto_anon_in_d_bits_data_0; // @[WidthWidget.scala:27:9] wire auto_anon_in_d_bits_corrupt_0; // @[WidthWidget.scala:27:9] wire auto_anon_in_d_valid_0; // @[WidthWidget.scala:27:9] wire [2:0] auto_anon_out_a_bits_opcode_0; // @[WidthWidget.scala:27:9] wire [2:0] auto_anon_out_a_bits_param_0; // @[WidthWidget.scala:27:9] wire [2:0] auto_anon_out_a_bits_size_0; // @[WidthWidget.scala:27:9] wire [6:0] auto_anon_out_a_bits_source_0; // @[WidthWidget.scala:27:9] wire [21:0] auto_anon_out_a_bits_address_0; // @[WidthWidget.scala:27:9] wire [3:0] auto_anon_out_a_bits_mask_0; // @[WidthWidget.scala:27:9] wire [31:0] auto_anon_out_a_bits_data_0; // @[WidthWidget.scala:27:9] wire auto_anon_out_a_bits_corrupt_0; // @[WidthWidget.scala:27:9] wire auto_anon_out_a_valid_0; // @[WidthWidget.scala:27:9] wire auto_anon_out_d_ready_0; // @[WidthWidget.scala:27:9] assign auto_anon_in_a_ready_0 = anonIn_a_ready; // @[WidthWidget.scala:27:9] wire _anonIn_d_valid_T; // @[WidthWidget.scala:77:29] assign auto_anon_in_d_valid_0 = anonIn_d_valid; // @[WidthWidget.scala:27:9] assign auto_anon_in_d_bits_opcode_0 = anonIn_d_bits_opcode; // @[WidthWidget.scala:27:9] assign auto_anon_in_d_bits_size_0 = anonIn_d_bits_size; // @[WidthWidget.scala:27:9] assign auto_anon_in_d_bits_source_0 = anonIn_d_bits_source; // @[WidthWidget.scala:27:9] wire [63:0] _anonIn_d_bits_data_T_3; // @[WidthWidget.scala:73:12] assign auto_anon_in_d_bits_data_0 = anonIn_d_bits_data; // @[WidthWidget.scala:27:9] wire corrupt_out; // @[WidthWidget.scala:47:36] assign auto_anon_in_d_bits_corrupt_0 = anonIn_d_bits_corrupt; // @[WidthWidget.scala:27:9] wire cated_ready = anonOut_a_ready; // @[WidthWidget.scala:161:25] wire cated_valid; // @[WidthWidget.scala:161:25] assign auto_anon_out_a_valid_0 = anonOut_a_valid; // @[WidthWidget.scala:27:9] wire [2:0] cated_bits_opcode; // @[WidthWidget.scala:161:25] assign auto_anon_out_a_bits_opcode_0 = anonOut_a_bits_opcode; // @[WidthWidget.scala:27:9] wire [2:0] cated_bits_param; // @[WidthWidget.scala:161:25] assign auto_anon_out_a_bits_param_0 = anonOut_a_bits_param; // @[WidthWidget.scala:27:9] wire [2:0] cated_bits_size; // @[WidthWidget.scala:161:25] assign auto_anon_out_a_bits_size_0 = anonOut_a_bits_size; // @[WidthWidget.scala:27:9] wire [6:0] cated_bits_source; // @[WidthWidget.scala:161:25] assign auto_anon_out_a_bits_source_0 = anonOut_a_bits_source; // @[WidthWidget.scala:27:9] wire [21:0] cated_bits_address; // @[WidthWidget.scala:161:25] assign auto_anon_out_a_bits_address_0 = anonOut_a_bits_address; // @[WidthWidget.scala:27:9] assign auto_anon_out_a_bits_mask_0 = anonOut_a_bits_mask; // @[WidthWidget.scala:27:9] assign auto_anon_out_a_bits_data_0 = anonOut_a_bits_data; // @[WidthWidget.scala:27:9] wire cated_bits_corrupt; // @[WidthWidget.scala:161:25] assign auto_anon_out_a_bits_corrupt_0 = anonOut_a_bits_corrupt; // @[WidthWidget.scala:27:9] wire _anonOut_d_ready_T_1; // @[WidthWidget.scala:76:29] assign auto_anon_out_d_ready_0 = anonOut_d_ready; // @[WidthWidget.scala:27:9] assign anonIn_d_bits_opcode = anonOut_d_bits_opcode; // @[MixedNode.scala:542:17, :551:17] assign anonIn_d_bits_size = anonOut_d_bits_size; // @[MixedNode.scala:542:17, :551:17] assign anonIn_d_bits_source = anonOut_d_bits_source; // @[MixedNode.scala:542:17, :551:17] wire [31:0] anonIn_d_bits_data_odata_0 = anonOut_d_bits_data; // @[WidthWidget.scala:65:47] wire [31:0] anonIn_d_bits_data_odata_1 = anonOut_d_bits_data; // @[WidthWidget.scala:65:47] wire _repeat_T_1; // @[WidthWidget.scala:148:7] wire repeat_0; // @[WidthWidget.scala:159:26] assign anonOut_a_valid = cated_valid; // @[WidthWidget.scala:161:25] assign anonOut_a_bits_opcode = cated_bits_opcode; // @[WidthWidget.scala:161:25] assign anonOut_a_bits_param = cated_bits_param; // @[WidthWidget.scala:161:25] assign anonOut_a_bits_size = cated_bits_size; // @[WidthWidget.scala:161:25] assign anonOut_a_bits_source = cated_bits_source; // @[WidthWidget.scala:161:25] assign anonOut_a_bits_address = cated_bits_address; // @[WidthWidget.scala:161:25] wire [63:0] _cated_bits_data_T_2; // @[WidthWidget.scala:163:39] assign anonOut_a_bits_corrupt = cated_bits_corrupt; // @[WidthWidget.scala:161:25] wire [7:0] cated_bits_mask; // @[WidthWidget.scala:161:25] wire [63:0] cated_bits_data; // @[WidthWidget.scala:161:25] wire [31:0] _cated_bits_data_T = _repeated_repeater_io_deq_bits_data[63:32]; // @[Repeater.scala:36:26] wire [31:0] _cated_bits_data_T_1 = anonIn_a_bits_data[31:0]; // @[WidthWidget.scala:165:31] assign _cated_bits_data_T_2 = {_cated_bits_data_T, _cated_bits_data_T_1}; // @[WidthWidget.scala:163:39, :164:37, :165:31] assign cated_bits_data = _cated_bits_data_T_2; // @[WidthWidget.scala:161:25, :163:39] wire _repeat_hasData_opdata_T = cated_bits_opcode[2]; // @[WidthWidget.scala:161:25] wire repeat_hasData = ~_repeat_hasData_opdata_T; // @[Edges.scala:92:{28,37}] wire [9:0] _repeat_limit_T = 10'h7 << cated_bits_size; // @[package.scala:243:71] wire [2:0] _repeat_limit_T_1 = _repeat_limit_T[2:0]; // @[package.scala:243:{71,76}] wire [2:0] _repeat_limit_T_2 = ~_repeat_limit_T_1; // @[package.scala:243:{46,76}] wire repeat_limit = _repeat_limit_T_2[2]; // @[package.scala:243:46] reg repeat_count; // @[WidthWidget.scala:105:26] wire repeat_first = ~repeat_count; // @[WidthWidget.scala:105:26, :106:25] wire _repeat_last_T = repeat_count == repeat_limit; // @[WidthWidget.scala:103:47, :105:26, :107:25] wire _repeat_last_T_1 = ~repeat_hasData; // @[WidthWidget.scala:107:38] wire repeat_last = _repeat_last_T | _repeat_last_T_1; // @[WidthWidget.scala:107:{25,35,38}] wire _repeat_T = anonOut_a_ready & anonOut_a_valid; // @[Decoupled.scala:51:35] wire [1:0] _repeat_count_T = {1'h0, repeat_count} + 2'h1; // @[WidthWidget.scala:105:26, :110:24] wire _repeat_count_T_1 = _repeat_count_T[0]; // @[WidthWidget.scala:110:24] wire repeat_sel = cated_bits_address[2]; // @[WidthWidget.scala:116:39, :161:25] wire repeat_index = repeat_sel | repeat_count; // @[WidthWidget.scala:105:26, :116:39, :126:24] wire [31:0] _repeat_anonOut_a_bits_data_mux_T = cated_bits_data[31:0]; // @[WidthWidget.scala:128:55, :161:25] wire [31:0] repeat_anonOut_a_bits_data_mux_0 = _repeat_anonOut_a_bits_data_mux_T; // @[WidthWidget.scala:128:{43,55}] wire [31:0] _repeat_anonOut_a_bits_data_mux_T_1 = cated_bits_data[63:32]; // @[WidthWidget.scala:128:55, :161:25] wire [31:0] repeat_anonOut_a_bits_data_mux_1 = _repeat_anonOut_a_bits_data_mux_T_1; // @[WidthWidget.scala:128:{43,55}] assign anonOut_a_bits_data = repeat_index ? repeat_anonOut_a_bits_data_mux_1 : repeat_anonOut_a_bits_data_mux_0; // @[WidthWidget.scala:126:24, :128:43, :137:30] wire [3:0] _repeat_anonOut_a_bits_mask_mux_T = cated_bits_mask[3:0]; // @[WidthWidget.scala:128:55, :161:25] wire [3:0] repeat_anonOut_a_bits_mask_mux_0 = _repeat_anonOut_a_bits_mask_mux_T; // @[WidthWidget.scala:128:{43,55}] wire [3:0] _repeat_anonOut_a_bits_mask_mux_T_1 = cated_bits_mask[7:4]; // @[WidthWidget.scala:128:55, :161:25] wire [3:0] repeat_anonOut_a_bits_mask_mux_1 = _repeat_anonOut_a_bits_mask_mux_T_1; // @[WidthWidget.scala:128:{43,55}] assign anonOut_a_bits_mask = repeat_index ? repeat_anonOut_a_bits_mask_mux_1 : repeat_anonOut_a_bits_mask_mux_0; // @[WidthWidget.scala:126:24, :128:43, :140:53] assign _repeat_T_1 = ~repeat_last; // @[WidthWidget.scala:107:35, :148:7] assign repeat_0 = _repeat_T_1; // @[WidthWidget.scala:148:7, :159:26] wire hasData = anonOut_d_bits_opcode[0]; // @[Edges.scala:106:36] wire [9:0] _limit_T = 10'h7 << anonOut_d_bits_size; // @[package.scala:243:71] wire [2:0] _limit_T_1 = _limit_T[2:0]; // @[package.scala:243:{71,76}] wire [2:0] _limit_T_2 = ~_limit_T_1; // @[package.scala:243:{46,76}] wire limit = _limit_T_2[2]; // @[package.scala:243:46] reg count; // @[WidthWidget.scala:40:27] wire _enable_T = count; // @[WidthWidget.scala:40:27, :43:56] wire first = ~count; // @[WidthWidget.scala:40:27, :41:26] wire _last_T = count == limit; // @[WidthWidget.scala:38:47, :40:27, :42:26] wire _last_T_1 = ~hasData; // @[WidthWidget.scala:42:39] wire last = _last_T | _last_T_1; // @[WidthWidget.scala:42:{26,36,39}] wire _enable_T_1 = _enable_T & limit; // @[WidthWidget.scala:38:47, :43:{56,63}] wire _enable_T_2 = _enable_T_1; // @[WidthWidget.scala:43:{63,72}] wire enable_0 = ~_enable_T_2; // @[WidthWidget.scala:43:{47,72}] wire _enable_T_3 = ~count; // @[WidthWidget.scala:40:27, :41:26, :43:56] wire _enable_T_4 = _enable_T_3 & limit; // @[WidthWidget.scala:38:47, :43:{56,63}] wire _enable_T_5 = _enable_T_4; // @[WidthWidget.scala:43:{63,72}] wire enable_1 = ~_enable_T_5; // @[WidthWidget.scala:43:{47,72}] reg corrupt_reg; // @[WidthWidget.scala:45:32] assign corrupt_out = corrupt_reg; // @[WidthWidget.scala:45:32, :47:36] assign anonIn_d_bits_corrupt = corrupt_out; // @[WidthWidget.scala:47:36] wire _anonIn_d_bits_data_T = anonOut_d_ready & anonOut_d_valid; // @[Decoupled.scala:51:35] wire [1:0] _count_T = {1'h0, count} + 2'h1; // @[WidthWidget.scala:40:27, :50:24] wire _count_T_1 = _count_T[0]; // @[WidthWidget.scala:50:24] wire _anonOut_d_ready_T = ~last; // @[WidthWidget.scala:42:36, :76:32] assign _anonOut_d_ready_T_1 = anonIn_d_ready | _anonOut_d_ready_T; // @[WidthWidget.scala:76:{29,32}] assign anonOut_d_ready = _anonOut_d_ready_T_1; // @[WidthWidget.scala:76:29] assign _anonIn_d_valid_T = anonOut_d_valid & last; // @[WidthWidget.scala:42:36, :77:29] assign anonIn_d_valid = _anonIn_d_valid_T; // @[WidthWidget.scala:77:29] reg anonIn_d_bits_data_rdata_written_once; // @[WidthWidget.scala:62:41] wire _anonIn_d_bits_data_masked_enable_T = ~anonIn_d_bits_data_rdata_written_once; // @[WidthWidget.scala:62:41, :63:45] wire anonIn_d_bits_data_masked_enable_0 = enable_0 | _anonIn_d_bits_data_masked_enable_T; // @[WidthWidget.scala:43:47, :63:{42,45}] wire _anonIn_d_bits_data_masked_enable_T_1 = ~anonIn_d_bits_data_rdata_written_once; // @[WidthWidget.scala:62:41, :63:45] wire anonIn_d_bits_data_masked_enable_1 = enable_1 | _anonIn_d_bits_data_masked_enable_T_1; // @[WidthWidget.scala:43:47, :63:{42,45}] reg [31:0] anonIn_d_bits_data_rdata_0; // @[WidthWidget.scala:66:24] wire [31:0] anonIn_d_bits_data_mdata_0 = anonIn_d_bits_data_masked_enable_0 ? anonIn_d_bits_data_odata_0 : anonIn_d_bits_data_rdata_0; // @[WidthWidget.scala:63:42, :65:47, :66:24, :68:88] wire [31:0] anonIn_d_bits_data_mdata_1 = anonIn_d_bits_data_masked_enable_1 ? anonIn_d_bits_data_odata_1 : anonOut_d_bits_data; // @[WidthWidget.scala:63:42, :65:47, :68:88] wire _anonIn_d_bits_data_T_1 = ~last; // @[WidthWidget.scala:42:36, :69:26, :76:32] wire _anonIn_d_bits_data_T_2 = _anonIn_d_bits_data_T & _anonIn_d_bits_data_T_1; // @[Decoupled.scala:51:35] assign _anonIn_d_bits_data_T_3 = {anonIn_d_bits_data_mdata_1, anonIn_d_bits_data_mdata_0}; // @[WidthWidget.scala:68:88, :73:12] assign anonIn_d_bits_data = _anonIn_d_bits_data_T_3; // @[WidthWidget.scala:73:12] always @(posedge clock) begin // @[WidthWidget.scala:27:9] if (reset) begin // @[WidthWidget.scala:27:9] repeat_count <= 1'h0; // @[WidthWidget.scala:105:26] count <= 1'h0; // @[WidthWidget.scala:40:27] corrupt_reg <= 1'h0; // @[WidthWidget.scala:45:32] anonIn_d_bits_data_rdata_written_once <= 1'h0; // @[WidthWidget.scala:62:41] end else begin // @[WidthWidget.scala:27:9] if (_repeat_T) // @[Decoupled.scala:51:35] repeat_count <= ~repeat_last & _repeat_count_T_1; // @[WidthWidget.scala:105:26, :107:35, :110:{15,24}, :111:{21,29}] if (_anonIn_d_bits_data_T) begin // @[Decoupled.scala:51:35] count <= ~last & _count_T_1; // @[WidthWidget.scala:40:27, :42:36, :50:{15,24}, :52:21, :53:17] corrupt_reg <= ~last & corrupt_out; // @[WidthWidget.scala:42:36, :45:32, :47:36, :50:15, :51:21, :52:21, :53:17, :54:23] end anonIn_d_bits_data_rdata_written_once <= _anonIn_d_bits_data_T_2 | anonIn_d_bits_data_rdata_written_once; // @[WidthWidget.scala:62:41, :69:{23,33}, :70:30] end if (_anonIn_d_bits_data_T_2) // @[WidthWidget.scala:69:23] anonIn_d_bits_data_rdata_0 <= anonIn_d_bits_data_mdata_0; // @[WidthWidget.scala:66:24, :68:88] always @(posedge) Repeater_TLBundleA_a22d64s7k1z3u repeated_repeater ( // @[Repeater.scala:36:26] .clock (clock), .reset (reset), .io_repeat (repeat_0), // @[WidthWidget.scala:159:26] .io_enq_ready (anonIn_a_ready), .io_enq_valid (anonIn_a_valid), // @[MixedNode.scala:551:17] .io_enq_bits_opcode (anonIn_a_bits_opcode), // @[MixedNode.scala:551:17] .io_enq_bits_param (anonIn_a_bits_param), // @[MixedNode.scala:551:17] .io_enq_bits_size (anonIn_a_bits_size), // @[MixedNode.scala:551:17] .io_enq_bits_source (anonIn_a_bits_source), // @[MixedNode.scala:551:17] .io_enq_bits_address (anonIn_a_bits_address), // @[MixedNode.scala:551:17] .io_enq_bits_mask (anonIn_a_bits_mask), // @[MixedNode.scala:551:17] .io_enq_bits_data (anonIn_a_bits_data), // @[MixedNode.scala:551:17] .io_enq_bits_corrupt (anonIn_a_bits_corrupt), // @[MixedNode.scala:551:17] .io_deq_ready (cated_ready), // @[WidthWidget.scala:161:25] .io_deq_valid (cated_valid), .io_deq_bits_opcode (cated_bits_opcode), .io_deq_bits_param (cated_bits_param), .io_deq_bits_size (cated_bits_size), .io_deq_bits_source (cated_bits_source), .io_deq_bits_address (cated_bits_address), .io_deq_bits_mask (cated_bits_mask), .io_deq_bits_data (_repeated_repeater_io_deq_bits_data), .io_deq_bits_corrupt (cated_bits_corrupt) ); // @[Repeater.scala:36:26] assign auto_anon_in_a_ready = auto_anon_in_a_ready_0; // @[WidthWidget.scala:27:9] assign auto_anon_in_d_valid = auto_anon_in_d_valid_0; // @[WidthWidget.scala:27:9] assign auto_anon_in_d_bits_opcode = auto_anon_in_d_bits_opcode_0; // @[WidthWidget.scala:27:9] assign auto_anon_in_d_bits_size = auto_anon_in_d_bits_size_0; // @[WidthWidget.scala:27:9] assign auto_anon_in_d_bits_source = auto_anon_in_d_bits_source_0; // @[WidthWidget.scala:27:9] assign auto_anon_in_d_bits_data = auto_anon_in_d_bits_data_0; // @[WidthWidget.scala:27:9] assign auto_anon_in_d_bits_corrupt = auto_anon_in_d_bits_corrupt_0; // @[WidthWidget.scala:27:9] assign auto_anon_out_a_valid = auto_anon_out_a_valid_0; // @[WidthWidget.scala:27:9] assign auto_anon_out_a_bits_opcode = auto_anon_out_a_bits_opcode_0; // @[WidthWidget.scala:27:9] assign auto_anon_out_a_bits_param = auto_anon_out_a_bits_param_0; // @[WidthWidget.scala:27:9] assign auto_anon_out_a_bits_size = auto_anon_out_a_bits_size_0; // @[WidthWidget.scala:27:9] assign auto_anon_out_a_bits_source = auto_anon_out_a_bits_source_0; // @[WidthWidget.scala:27:9] assign auto_anon_out_a_bits_address = auto_anon_out_a_bits_address_0; // @[WidthWidget.scala:27:9] assign auto_anon_out_a_bits_mask = auto_anon_out_a_bits_mask_0; // @[WidthWidget.scala:27:9] assign auto_anon_out_a_bits_data = auto_anon_out_a_bits_data_0; // @[WidthWidget.scala:27:9] assign auto_anon_out_a_bits_corrupt = auto_anon_out_a_bits_corrupt_0; // @[WidthWidget.scala:27:9] assign auto_anon_out_d_ready = auto_anon_out_d_ready_0; // @[WidthWidget.scala:27:9] endmodule
Generate the Verilog code corresponding to the following Chisel files. File SwitchAllocator.scala: package constellation.router import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.{Field, Parameters} import freechips.rocketchip.util._ import constellation.channel._ class SwitchAllocReq(val outParams: Seq[ChannelParams], val egressParams: Seq[EgressChannelParams]) (implicit val p: Parameters) extends Bundle with HasRouterOutputParams { val vc_sel = MixedVec(allOutParams.map { u => Vec(u.nVirtualChannels, Bool()) }) val tail = Bool() } class SwitchArbiter(inN: Int, outN: Int, outParams: Seq[ChannelParams], egressParams: Seq[EgressChannelParams])(implicit val p: Parameters) extends Module { val io = IO(new Bundle { val in = Flipped(Vec(inN, Decoupled(new SwitchAllocReq(outParams, egressParams)))) val out = Vec(outN, Decoupled(new SwitchAllocReq(outParams, egressParams))) val chosen_oh = Vec(outN, Output(UInt(inN.W))) }) val lock = Seq.fill(outN) { RegInit(0.U(inN.W)) } val unassigned = Cat(io.in.map(_.valid).reverse) & ~(lock.reduce(_|_)) val mask = RegInit(0.U(inN.W)) val choices = Wire(Vec(outN, UInt(inN.W))) var sel = PriorityEncoderOH(Cat(unassigned, unassigned & ~mask)) for (i <- 0 until outN) { choices(i) := sel | (sel >> inN) sel = PriorityEncoderOH(unassigned & ~choices(i)) } io.in.foreach(_.ready := false.B) var chosens = 0.U(inN.W) val in_tails = Cat(io.in.map(_.bits.tail).reverse) for (i <- 0 until outN) { val in_valids = Cat((0 until inN).map { j => io.in(j).valid && !chosens(j) }.reverse) val chosen = Mux((in_valids & lock(i) & ~chosens).orR, lock(i), choices(i)) io.chosen_oh(i) := chosen io.out(i).valid := (in_valids & chosen).orR io.out(i).bits := Mux1H(chosen, io.in.map(_.bits)) for (j <- 0 until inN) { when (chosen(j) && io.out(i).ready) { io.in(j).ready := true.B } } chosens = chosens | chosen when (io.out(i).fire) { lock(i) := chosen & ~in_tails } } when (io.out(0).fire) { mask := (0 until inN).map { i => (io.chosen_oh(0) >> i) }.reduce(_|_) } .otherwise { mask := Mux(~mask === 0.U, 0.U, (mask << 1) | 1.U(1.W)) } } class SwitchAllocator( val routerParams: RouterParams, val inParams: Seq[ChannelParams], val outParams: Seq[ChannelParams], val ingressParams: Seq[IngressChannelParams], val egressParams: Seq[EgressChannelParams] )(implicit val p: Parameters) extends Module with HasRouterParams with HasRouterInputParams with HasRouterOutputParams { val io = IO(new Bundle { val req = MixedVec(allInParams.map(u => Vec(u.destSpeedup, Flipped(Decoupled(new SwitchAllocReq(outParams, egressParams)))))) val credit_alloc = MixedVec(allOutParams.map { u => Vec(u.nVirtualChannels, Output(new OutputCreditAlloc))}) val switch_sel = MixedVec(allOutParams.map { o => Vec(o.srcSpeedup, MixedVec(allInParams.map { i => Vec(i.destSpeedup, Output(Bool())) })) }) }) val nInputChannels = allInParams.map(_.nVirtualChannels).sum val arbs = allOutParams.map { oP => Module(new SwitchArbiter( allInParams.map(_.destSpeedup).reduce(_+_), oP.srcSpeedup, outParams, egressParams ))} arbs.foreach(_.io.out.foreach(_.ready := true.B)) var idx = 0 io.req.foreach(_.foreach { o => val fires = Wire(Vec(arbs.size, Bool())) arbs.zipWithIndex.foreach { case (a,i) => a.io.in(idx).valid := o.valid && o.bits.vc_sel(i).reduce(_||_) a.io.in(idx).bits := o.bits fires(i) := a.io.in(idx).fire } o.ready := fires.reduce(_||_) idx += 1 }) for (i <- 0 until nAllOutputs) { for (j <- 0 until allOutParams(i).srcSpeedup) { idx = 0 for (m <- 0 until nAllInputs) { for (n <- 0 until allInParams(m).destSpeedup) { io.switch_sel(i)(j)(m)(n) := arbs(i).io.in(idx).valid && arbs(i).io.chosen_oh(j)(idx) && arbs(i).io.out(j).valid idx += 1 } } } } io.credit_alloc.foreach(_.foreach(_.alloc := false.B)) io.credit_alloc.foreach(_.foreach(_.tail := false.B)) (arbs zip io.credit_alloc).zipWithIndex.map { case ((a,i),t) => for (j <- 0 until i.size) { for (k <- 0 until a.io.out.size) { when (a.io.out(k).valid && a.io.out(k).bits.vc_sel(t)(j)) { i(j).alloc := true.B i(j).tail := a.io.out(k).bits.tail } } } } }
module SwitchAllocator_5( // @[SwitchAllocator.scala:64:7] input clock, // @[SwitchAllocator.scala:64:7] input reset, // @[SwitchAllocator.scala:64:7] output io_req_4_0_ready, // @[SwitchAllocator.scala:74:14] input io_req_4_0_valid, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_5_0, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_4_0, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_3_0, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_3_1, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_3_2, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_2_0, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_2_1, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_2_2, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_1_0, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_1_1, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_1_2, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_0_0, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_0_1, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_vc_sel_0_2, // @[SwitchAllocator.scala:74:14] input io_req_4_0_bits_tail, // @[SwitchAllocator.scala:74:14] output io_req_3_0_ready, // @[SwitchAllocator.scala:74:14] input io_req_3_0_valid, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_5_0, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_4_0, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_3_0, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_3_1, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_3_2, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_2_0, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_2_1, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_2_2, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_1_0, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_1_1, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_1_2, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_0_0, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_0_1, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_vc_sel_0_2, // @[SwitchAllocator.scala:74:14] input io_req_3_0_bits_tail, // @[SwitchAllocator.scala:74:14] output io_req_2_0_ready, // @[SwitchAllocator.scala:74:14] input io_req_2_0_valid, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_5_0, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_4_0, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_3_0, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_3_1, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_3_2, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_2_0, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_2_1, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_2_2, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_1_0, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_1_1, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_1_2, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_0_0, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_0_1, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_vc_sel_0_2, // @[SwitchAllocator.scala:74:14] input io_req_2_0_bits_tail, // @[SwitchAllocator.scala:74:14] output io_req_1_0_ready, // @[SwitchAllocator.scala:74:14] input io_req_1_0_valid, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_5_0, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_4_0, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_3_0, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_3_1, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_3_2, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_2_0, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_2_1, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_2_2, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_1_0, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_1_1, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_1_2, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_0_0, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_0_1, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_vc_sel_0_2, // @[SwitchAllocator.scala:74:14] input io_req_1_0_bits_tail, // @[SwitchAllocator.scala:74:14] output io_req_0_0_ready, // @[SwitchAllocator.scala:74:14] input io_req_0_0_valid, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_5_0, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_4_0, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_3_0, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_3_1, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_3_2, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_2_0, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_2_1, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_2_2, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_1_0, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_1_1, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_1_2, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_0_0, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_0_1, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_vc_sel_0_2, // @[SwitchAllocator.scala:74:14] input io_req_0_0_bits_tail, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_5_0_alloc, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_5_0_tail, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_4_0_alloc, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_4_0_tail, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_3_0_alloc, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_3_1_alloc, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_3_2_alloc, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_2_0_alloc, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_2_1_alloc, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_2_2_alloc, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_1_0_alloc, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_1_1_alloc, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_1_2_alloc, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_0_0_alloc, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_0_1_alloc, // @[SwitchAllocator.scala:74:14] output io_credit_alloc_0_2_alloc, // @[SwitchAllocator.scala:74:14] output io_switch_sel_5_0_4_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_5_0_3_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_5_0_2_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_5_0_1_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_5_0_0_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_4_0_4_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_4_0_3_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_4_0_2_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_4_0_1_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_4_0_0_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_3_0_4_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_3_0_3_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_3_0_2_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_3_0_1_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_3_0_0_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_2_0_4_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_2_0_3_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_2_0_2_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_2_0_1_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_2_0_0_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_1_0_4_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_1_0_3_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_1_0_2_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_1_0_1_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_1_0_0_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_0_0_4_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_0_0_3_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_0_0_2_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_0_0_1_0, // @[SwitchAllocator.scala:74:14] output io_switch_sel_0_0_0_0 // @[SwitchAllocator.scala:74:14] ); wire _arbs_5_io_in_0_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_5_io_in_1_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_5_io_in_2_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_5_io_in_3_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_5_io_in_4_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_5_io_out_0_valid; // @[SwitchAllocator.scala:83:45] wire _arbs_5_io_out_0_bits_vc_sel_5_0; // @[SwitchAllocator.scala:83:45] wire _arbs_5_io_out_0_bits_tail; // @[SwitchAllocator.scala:83:45] wire [4:0] _arbs_5_io_chosen_oh_0; // @[SwitchAllocator.scala:83:45] wire _arbs_4_io_in_0_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_4_io_in_1_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_4_io_in_2_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_4_io_in_3_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_4_io_in_4_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_4_io_out_0_valid; // @[SwitchAllocator.scala:83:45] wire _arbs_4_io_out_0_bits_vc_sel_4_0; // @[SwitchAllocator.scala:83:45] wire _arbs_4_io_out_0_bits_tail; // @[SwitchAllocator.scala:83:45] wire [4:0] _arbs_4_io_chosen_oh_0; // @[SwitchAllocator.scala:83:45] wire _arbs_3_io_in_0_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_3_io_in_1_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_3_io_in_2_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_3_io_in_3_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_3_io_in_4_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_3_io_out_0_valid; // @[SwitchAllocator.scala:83:45] wire _arbs_3_io_out_0_bits_vc_sel_3_0; // @[SwitchAllocator.scala:83:45] wire _arbs_3_io_out_0_bits_vc_sel_3_1; // @[SwitchAllocator.scala:83:45] wire _arbs_3_io_out_0_bits_vc_sel_3_2; // @[SwitchAllocator.scala:83:45] wire [4:0] _arbs_3_io_chosen_oh_0; // @[SwitchAllocator.scala:83:45] wire _arbs_2_io_in_0_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_2_io_in_1_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_2_io_in_2_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_2_io_in_3_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_2_io_in_4_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_2_io_out_0_valid; // @[SwitchAllocator.scala:83:45] wire _arbs_2_io_out_0_bits_vc_sel_2_0; // @[SwitchAllocator.scala:83:45] wire _arbs_2_io_out_0_bits_vc_sel_2_1; // @[SwitchAllocator.scala:83:45] wire _arbs_2_io_out_0_bits_vc_sel_2_2; // @[SwitchAllocator.scala:83:45] wire [4:0] _arbs_2_io_chosen_oh_0; // @[SwitchAllocator.scala:83:45] wire _arbs_1_io_in_0_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_1_io_in_1_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_1_io_in_2_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_1_io_in_3_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_1_io_in_4_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_1_io_out_0_valid; // @[SwitchAllocator.scala:83:45] wire _arbs_1_io_out_0_bits_vc_sel_1_0; // @[SwitchAllocator.scala:83:45] wire _arbs_1_io_out_0_bits_vc_sel_1_1; // @[SwitchAllocator.scala:83:45] wire _arbs_1_io_out_0_bits_vc_sel_1_2; // @[SwitchAllocator.scala:83:45] wire [4:0] _arbs_1_io_chosen_oh_0; // @[SwitchAllocator.scala:83:45] wire _arbs_0_io_in_0_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_0_io_in_1_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_0_io_in_2_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_0_io_in_3_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_0_io_in_4_ready; // @[SwitchAllocator.scala:83:45] wire _arbs_0_io_out_0_valid; // @[SwitchAllocator.scala:83:45] wire _arbs_0_io_out_0_bits_vc_sel_0_0; // @[SwitchAllocator.scala:83:45] wire _arbs_0_io_out_0_bits_vc_sel_0_1; // @[SwitchAllocator.scala:83:45] wire _arbs_0_io_out_0_bits_vc_sel_0_2; // @[SwitchAllocator.scala:83:45] wire [4:0] _arbs_0_io_chosen_oh_0; // @[SwitchAllocator.scala:83:45] wire arbs_0_io_in_0_valid = io_req_0_0_valid & (io_req_0_0_bits_vc_sel_0_0 | io_req_0_0_bits_vc_sel_0_1 | io_req_0_0_bits_vc_sel_0_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_1_io_in_0_valid = io_req_0_0_valid & (io_req_0_0_bits_vc_sel_1_0 | io_req_0_0_bits_vc_sel_1_1 | io_req_0_0_bits_vc_sel_1_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_2_io_in_0_valid = io_req_0_0_valid & (io_req_0_0_bits_vc_sel_2_0 | io_req_0_0_bits_vc_sel_2_1 | io_req_0_0_bits_vc_sel_2_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_3_io_in_0_valid = io_req_0_0_valid & (io_req_0_0_bits_vc_sel_3_0 | io_req_0_0_bits_vc_sel_3_1 | io_req_0_0_bits_vc_sel_3_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_4_io_in_0_valid = io_req_0_0_valid & io_req_0_0_bits_vc_sel_4_0; // @[SwitchAllocator.scala:95:37] wire arbs_5_io_in_0_valid = io_req_0_0_valid & io_req_0_0_bits_vc_sel_5_0; // @[SwitchAllocator.scala:95:37] wire arbs_0_io_in_1_valid = io_req_1_0_valid & (io_req_1_0_bits_vc_sel_0_0 | io_req_1_0_bits_vc_sel_0_1 | io_req_1_0_bits_vc_sel_0_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_1_io_in_1_valid = io_req_1_0_valid & (io_req_1_0_bits_vc_sel_1_0 | io_req_1_0_bits_vc_sel_1_1 | io_req_1_0_bits_vc_sel_1_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_2_io_in_1_valid = io_req_1_0_valid & (io_req_1_0_bits_vc_sel_2_0 | io_req_1_0_bits_vc_sel_2_1 | io_req_1_0_bits_vc_sel_2_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_3_io_in_1_valid = io_req_1_0_valid & (io_req_1_0_bits_vc_sel_3_0 | io_req_1_0_bits_vc_sel_3_1 | io_req_1_0_bits_vc_sel_3_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_4_io_in_1_valid = io_req_1_0_valid & io_req_1_0_bits_vc_sel_4_0; // @[SwitchAllocator.scala:95:37] wire arbs_5_io_in_1_valid = io_req_1_0_valid & io_req_1_0_bits_vc_sel_5_0; // @[SwitchAllocator.scala:95:37] wire arbs_0_io_in_2_valid = io_req_2_0_valid & (io_req_2_0_bits_vc_sel_0_0 | io_req_2_0_bits_vc_sel_0_1 | io_req_2_0_bits_vc_sel_0_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_1_io_in_2_valid = io_req_2_0_valid & (io_req_2_0_bits_vc_sel_1_0 | io_req_2_0_bits_vc_sel_1_1 | io_req_2_0_bits_vc_sel_1_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_2_io_in_2_valid = io_req_2_0_valid & (io_req_2_0_bits_vc_sel_2_0 | io_req_2_0_bits_vc_sel_2_1 | io_req_2_0_bits_vc_sel_2_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_3_io_in_2_valid = io_req_2_0_valid & (io_req_2_0_bits_vc_sel_3_0 | io_req_2_0_bits_vc_sel_3_1 | io_req_2_0_bits_vc_sel_3_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_4_io_in_2_valid = io_req_2_0_valid & io_req_2_0_bits_vc_sel_4_0; // @[SwitchAllocator.scala:95:37] wire arbs_5_io_in_2_valid = io_req_2_0_valid & io_req_2_0_bits_vc_sel_5_0; // @[SwitchAllocator.scala:95:37] wire arbs_0_io_in_3_valid = io_req_3_0_valid & (io_req_3_0_bits_vc_sel_0_0 | io_req_3_0_bits_vc_sel_0_1 | io_req_3_0_bits_vc_sel_0_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_1_io_in_3_valid = io_req_3_0_valid & (io_req_3_0_bits_vc_sel_1_0 | io_req_3_0_bits_vc_sel_1_1 | io_req_3_0_bits_vc_sel_1_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_2_io_in_3_valid = io_req_3_0_valid & (io_req_3_0_bits_vc_sel_2_0 | io_req_3_0_bits_vc_sel_2_1 | io_req_3_0_bits_vc_sel_2_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_3_io_in_3_valid = io_req_3_0_valid & (io_req_3_0_bits_vc_sel_3_0 | io_req_3_0_bits_vc_sel_3_1 | io_req_3_0_bits_vc_sel_3_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_4_io_in_3_valid = io_req_3_0_valid & io_req_3_0_bits_vc_sel_4_0; // @[SwitchAllocator.scala:95:37] wire arbs_5_io_in_3_valid = io_req_3_0_valid & io_req_3_0_bits_vc_sel_5_0; // @[SwitchAllocator.scala:95:37] wire arbs_0_io_in_4_valid = io_req_4_0_valid & (io_req_4_0_bits_vc_sel_0_0 | io_req_4_0_bits_vc_sel_0_1 | io_req_4_0_bits_vc_sel_0_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_1_io_in_4_valid = io_req_4_0_valid & (io_req_4_0_bits_vc_sel_1_0 | io_req_4_0_bits_vc_sel_1_1 | io_req_4_0_bits_vc_sel_1_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_2_io_in_4_valid = io_req_4_0_valid & (io_req_4_0_bits_vc_sel_2_0 | io_req_4_0_bits_vc_sel_2_1 | io_req_4_0_bits_vc_sel_2_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_3_io_in_4_valid = io_req_4_0_valid & (io_req_4_0_bits_vc_sel_3_0 | io_req_4_0_bits_vc_sel_3_1 | io_req_4_0_bits_vc_sel_3_2); // @[SwitchAllocator.scala:95:{37,65}] wire arbs_4_io_in_4_valid = io_req_4_0_valid & io_req_4_0_bits_vc_sel_4_0; // @[SwitchAllocator.scala:95:37] wire arbs_5_io_in_4_valid = io_req_4_0_valid & io_req_4_0_bits_vc_sel_5_0; // @[SwitchAllocator.scala:95:37] wire io_credit_alloc_4_0_alloc_0 = _arbs_4_io_out_0_valid & _arbs_4_io_out_0_bits_vc_sel_4_0; // @[SwitchAllocator.scala:83:45, :120:33] wire io_credit_alloc_5_0_alloc_0 = _arbs_5_io_out_0_valid & _arbs_5_io_out_0_bits_vc_sel_5_0; // @[SwitchAllocator.scala:83:45, :120:33] SwitchArbiter_38 arbs_0 ( // @[SwitchAllocator.scala:83:45] .clock (clock), .reset (reset), .io_in_0_ready (_arbs_0_io_in_0_ready), .io_in_0_valid (arbs_0_io_in_0_valid), // @[SwitchAllocator.scala:95:37] .io_in_0_bits_vc_sel_5_0 (io_req_0_0_bits_vc_sel_5_0), .io_in_0_bits_vc_sel_4_0 (io_req_0_0_bits_vc_sel_4_0), .io_in_0_bits_vc_sel_3_0 (io_req_0_0_bits_vc_sel_3_0), .io_in_0_bits_vc_sel_3_1 (io_req_0_0_bits_vc_sel_3_1), .io_in_0_bits_vc_sel_3_2 (io_req_0_0_bits_vc_sel_3_2), .io_in_0_bits_vc_sel_2_0 (io_req_0_0_bits_vc_sel_2_0), .io_in_0_bits_vc_sel_2_1 (io_req_0_0_bits_vc_sel_2_1), .io_in_0_bits_vc_sel_2_2 (io_req_0_0_bits_vc_sel_2_2), .io_in_0_bits_vc_sel_1_0 (io_req_0_0_bits_vc_sel_1_0), .io_in_0_bits_vc_sel_1_1 (io_req_0_0_bits_vc_sel_1_1), .io_in_0_bits_vc_sel_1_2 (io_req_0_0_bits_vc_sel_1_2), .io_in_0_bits_vc_sel_0_0 (io_req_0_0_bits_vc_sel_0_0), .io_in_0_bits_vc_sel_0_1 (io_req_0_0_bits_vc_sel_0_1), .io_in_0_bits_vc_sel_0_2 (io_req_0_0_bits_vc_sel_0_2), .io_in_0_bits_tail (io_req_0_0_bits_tail), .io_in_1_ready (_arbs_0_io_in_1_ready), .io_in_1_valid (arbs_0_io_in_1_valid), // @[SwitchAllocator.scala:95:37] .io_in_1_bits_vc_sel_5_0 (io_req_1_0_bits_vc_sel_5_0), .io_in_1_bits_vc_sel_4_0 (io_req_1_0_bits_vc_sel_4_0), .io_in_1_bits_vc_sel_3_0 (io_req_1_0_bits_vc_sel_3_0), .io_in_1_bits_vc_sel_3_1 (io_req_1_0_bits_vc_sel_3_1), .io_in_1_bits_vc_sel_3_2 (io_req_1_0_bits_vc_sel_3_2), .io_in_1_bits_vc_sel_2_0 (io_req_1_0_bits_vc_sel_2_0), .io_in_1_bits_vc_sel_2_1 (io_req_1_0_bits_vc_sel_2_1), .io_in_1_bits_vc_sel_2_2 (io_req_1_0_bits_vc_sel_2_2), .io_in_1_bits_vc_sel_1_0 (io_req_1_0_bits_vc_sel_1_0), .io_in_1_bits_vc_sel_1_1 (io_req_1_0_bits_vc_sel_1_1), .io_in_1_bits_vc_sel_1_2 (io_req_1_0_bits_vc_sel_1_2), .io_in_1_bits_vc_sel_0_0 (io_req_1_0_bits_vc_sel_0_0), .io_in_1_bits_vc_sel_0_1 (io_req_1_0_bits_vc_sel_0_1), .io_in_1_bits_vc_sel_0_2 (io_req_1_0_bits_vc_sel_0_2), .io_in_1_bits_tail (io_req_1_0_bits_tail), .io_in_2_ready (_arbs_0_io_in_2_ready), .io_in_2_valid (arbs_0_io_in_2_valid), // @[SwitchAllocator.scala:95:37] .io_in_2_bits_vc_sel_5_0 (io_req_2_0_bits_vc_sel_5_0), .io_in_2_bits_vc_sel_4_0 (io_req_2_0_bits_vc_sel_4_0), .io_in_2_bits_vc_sel_3_0 (io_req_2_0_bits_vc_sel_3_0), .io_in_2_bits_vc_sel_3_1 (io_req_2_0_bits_vc_sel_3_1), .io_in_2_bits_vc_sel_3_2 (io_req_2_0_bits_vc_sel_3_2), .io_in_2_bits_vc_sel_2_0 (io_req_2_0_bits_vc_sel_2_0), .io_in_2_bits_vc_sel_2_1 (io_req_2_0_bits_vc_sel_2_1), .io_in_2_bits_vc_sel_2_2 (io_req_2_0_bits_vc_sel_2_2), .io_in_2_bits_vc_sel_1_0 (io_req_2_0_bits_vc_sel_1_0), .io_in_2_bits_vc_sel_1_1 (io_req_2_0_bits_vc_sel_1_1), .io_in_2_bits_vc_sel_1_2 (io_req_2_0_bits_vc_sel_1_2), .io_in_2_bits_vc_sel_0_0 (io_req_2_0_bits_vc_sel_0_0), .io_in_2_bits_vc_sel_0_1 (io_req_2_0_bits_vc_sel_0_1), .io_in_2_bits_vc_sel_0_2 (io_req_2_0_bits_vc_sel_0_2), .io_in_2_bits_tail (io_req_2_0_bits_tail), .io_in_3_ready (_arbs_0_io_in_3_ready), .io_in_3_valid (arbs_0_io_in_3_valid), // @[SwitchAllocator.scala:95:37] .io_in_3_bits_vc_sel_5_0 (io_req_3_0_bits_vc_sel_5_0), .io_in_3_bits_vc_sel_4_0 (io_req_3_0_bits_vc_sel_4_0), .io_in_3_bits_vc_sel_3_0 (io_req_3_0_bits_vc_sel_3_0), .io_in_3_bits_vc_sel_3_1 (io_req_3_0_bits_vc_sel_3_1), .io_in_3_bits_vc_sel_3_2 (io_req_3_0_bits_vc_sel_3_2), .io_in_3_bits_vc_sel_2_0 (io_req_3_0_bits_vc_sel_2_0), .io_in_3_bits_vc_sel_2_1 (io_req_3_0_bits_vc_sel_2_1), .io_in_3_bits_vc_sel_2_2 (io_req_3_0_bits_vc_sel_2_2), .io_in_3_bits_vc_sel_1_0 (io_req_3_0_bits_vc_sel_1_0), .io_in_3_bits_vc_sel_1_1 (io_req_3_0_bits_vc_sel_1_1), .io_in_3_bits_vc_sel_1_2 (io_req_3_0_bits_vc_sel_1_2), .io_in_3_bits_vc_sel_0_0 (io_req_3_0_bits_vc_sel_0_0), .io_in_3_bits_vc_sel_0_1 (io_req_3_0_bits_vc_sel_0_1), .io_in_3_bits_vc_sel_0_2 (io_req_3_0_bits_vc_sel_0_2), .io_in_3_bits_tail (io_req_3_0_bits_tail), .io_in_4_ready (_arbs_0_io_in_4_ready), .io_in_4_valid (arbs_0_io_in_4_valid), // @[SwitchAllocator.scala:95:37] .io_in_4_bits_vc_sel_5_0 (io_req_4_0_bits_vc_sel_5_0), .io_in_4_bits_vc_sel_4_0 (io_req_4_0_bits_vc_sel_4_0), .io_in_4_bits_vc_sel_3_0 (io_req_4_0_bits_vc_sel_3_0), .io_in_4_bits_vc_sel_3_1 (io_req_4_0_bits_vc_sel_3_1), .io_in_4_bits_vc_sel_3_2 (io_req_4_0_bits_vc_sel_3_2), .io_in_4_bits_vc_sel_2_0 (io_req_4_0_bits_vc_sel_2_0), .io_in_4_bits_vc_sel_2_1 (io_req_4_0_bits_vc_sel_2_1), .io_in_4_bits_vc_sel_2_2 (io_req_4_0_bits_vc_sel_2_2), .io_in_4_bits_vc_sel_1_0 (io_req_4_0_bits_vc_sel_1_0), .io_in_4_bits_vc_sel_1_1 (io_req_4_0_bits_vc_sel_1_1), .io_in_4_bits_vc_sel_1_2 (io_req_4_0_bits_vc_sel_1_2), .io_in_4_bits_vc_sel_0_0 (io_req_4_0_bits_vc_sel_0_0), .io_in_4_bits_vc_sel_0_1 (io_req_4_0_bits_vc_sel_0_1), .io_in_4_bits_vc_sel_0_2 (io_req_4_0_bits_vc_sel_0_2), .io_in_4_bits_tail (io_req_4_0_bits_tail), .io_out_0_valid (_arbs_0_io_out_0_valid), .io_out_0_bits_vc_sel_5_0 (/* unused */), .io_out_0_bits_vc_sel_4_0 (/* unused */), .io_out_0_bits_vc_sel_3_0 (/* unused */), .io_out_0_bits_vc_sel_3_1 (/* unused */), .io_out_0_bits_vc_sel_3_2 (/* unused */), .io_out_0_bits_vc_sel_2_0 (/* unused */), .io_out_0_bits_vc_sel_2_1 (/* unused */), .io_out_0_bits_vc_sel_2_2 (/* unused */), .io_out_0_bits_vc_sel_1_0 (/* unused */), .io_out_0_bits_vc_sel_1_1 (/* unused */), .io_out_0_bits_vc_sel_1_2 (/* unused */), .io_out_0_bits_vc_sel_0_0 (_arbs_0_io_out_0_bits_vc_sel_0_0), .io_out_0_bits_vc_sel_0_1 (_arbs_0_io_out_0_bits_vc_sel_0_1), .io_out_0_bits_vc_sel_0_2 (_arbs_0_io_out_0_bits_vc_sel_0_2), .io_out_0_bits_tail (/* unused */), .io_chosen_oh_0 (_arbs_0_io_chosen_oh_0) ); // @[SwitchAllocator.scala:83:45] SwitchArbiter_38 arbs_1 ( // @[SwitchAllocator.scala:83:45] .clock (clock), .reset (reset), .io_in_0_ready (_arbs_1_io_in_0_ready), .io_in_0_valid (arbs_1_io_in_0_valid), // @[SwitchAllocator.scala:95:37] .io_in_0_bits_vc_sel_5_0 (io_req_0_0_bits_vc_sel_5_0), .io_in_0_bits_vc_sel_4_0 (io_req_0_0_bits_vc_sel_4_0), .io_in_0_bits_vc_sel_3_0 (io_req_0_0_bits_vc_sel_3_0), .io_in_0_bits_vc_sel_3_1 (io_req_0_0_bits_vc_sel_3_1), .io_in_0_bits_vc_sel_3_2 (io_req_0_0_bits_vc_sel_3_2), .io_in_0_bits_vc_sel_2_0 (io_req_0_0_bits_vc_sel_2_0), .io_in_0_bits_vc_sel_2_1 (io_req_0_0_bits_vc_sel_2_1), .io_in_0_bits_vc_sel_2_2 (io_req_0_0_bits_vc_sel_2_2), .io_in_0_bits_vc_sel_1_0 (io_req_0_0_bits_vc_sel_1_0), .io_in_0_bits_vc_sel_1_1 (io_req_0_0_bits_vc_sel_1_1), .io_in_0_bits_vc_sel_1_2 (io_req_0_0_bits_vc_sel_1_2), .io_in_0_bits_vc_sel_0_0 (io_req_0_0_bits_vc_sel_0_0), .io_in_0_bits_vc_sel_0_1 (io_req_0_0_bits_vc_sel_0_1), .io_in_0_bits_vc_sel_0_2 (io_req_0_0_bits_vc_sel_0_2), .io_in_0_bits_tail (io_req_0_0_bits_tail), .io_in_1_ready (_arbs_1_io_in_1_ready), .io_in_1_valid (arbs_1_io_in_1_valid), // @[SwitchAllocator.scala:95:37] .io_in_1_bits_vc_sel_5_0 (io_req_1_0_bits_vc_sel_5_0), .io_in_1_bits_vc_sel_4_0 (io_req_1_0_bits_vc_sel_4_0), .io_in_1_bits_vc_sel_3_0 (io_req_1_0_bits_vc_sel_3_0), .io_in_1_bits_vc_sel_3_1 (io_req_1_0_bits_vc_sel_3_1), .io_in_1_bits_vc_sel_3_2 (io_req_1_0_bits_vc_sel_3_2), .io_in_1_bits_vc_sel_2_0 (io_req_1_0_bits_vc_sel_2_0), .io_in_1_bits_vc_sel_2_1 (io_req_1_0_bits_vc_sel_2_1), .io_in_1_bits_vc_sel_2_2 (io_req_1_0_bits_vc_sel_2_2), .io_in_1_bits_vc_sel_1_0 (io_req_1_0_bits_vc_sel_1_0), .io_in_1_bits_vc_sel_1_1 (io_req_1_0_bits_vc_sel_1_1), .io_in_1_bits_vc_sel_1_2 (io_req_1_0_bits_vc_sel_1_2), .io_in_1_bits_vc_sel_0_0 (io_req_1_0_bits_vc_sel_0_0), .io_in_1_bits_vc_sel_0_1 (io_req_1_0_bits_vc_sel_0_1), .io_in_1_bits_vc_sel_0_2 (io_req_1_0_bits_vc_sel_0_2), .io_in_1_bits_tail (io_req_1_0_bits_tail), .io_in_2_ready (_arbs_1_io_in_2_ready), .io_in_2_valid (arbs_1_io_in_2_valid), // @[SwitchAllocator.scala:95:37] .io_in_2_bits_vc_sel_5_0 (io_req_2_0_bits_vc_sel_5_0), .io_in_2_bits_vc_sel_4_0 (io_req_2_0_bits_vc_sel_4_0), .io_in_2_bits_vc_sel_3_0 (io_req_2_0_bits_vc_sel_3_0), .io_in_2_bits_vc_sel_3_1 (io_req_2_0_bits_vc_sel_3_1), .io_in_2_bits_vc_sel_3_2 (io_req_2_0_bits_vc_sel_3_2), .io_in_2_bits_vc_sel_2_0 (io_req_2_0_bits_vc_sel_2_0), .io_in_2_bits_vc_sel_2_1 (io_req_2_0_bits_vc_sel_2_1), .io_in_2_bits_vc_sel_2_2 (io_req_2_0_bits_vc_sel_2_2), .io_in_2_bits_vc_sel_1_0 (io_req_2_0_bits_vc_sel_1_0), .io_in_2_bits_vc_sel_1_1 (io_req_2_0_bits_vc_sel_1_1), .io_in_2_bits_vc_sel_1_2 (io_req_2_0_bits_vc_sel_1_2), .io_in_2_bits_vc_sel_0_0 (io_req_2_0_bits_vc_sel_0_0), .io_in_2_bits_vc_sel_0_1 (io_req_2_0_bits_vc_sel_0_1), .io_in_2_bits_vc_sel_0_2 (io_req_2_0_bits_vc_sel_0_2), .io_in_2_bits_tail (io_req_2_0_bits_tail), .io_in_3_ready (_arbs_1_io_in_3_ready), .io_in_3_valid (arbs_1_io_in_3_valid), // @[SwitchAllocator.scala:95:37] .io_in_3_bits_vc_sel_5_0 (io_req_3_0_bits_vc_sel_5_0), .io_in_3_bits_vc_sel_4_0 (io_req_3_0_bits_vc_sel_4_0), .io_in_3_bits_vc_sel_3_0 (io_req_3_0_bits_vc_sel_3_0), .io_in_3_bits_vc_sel_3_1 (io_req_3_0_bits_vc_sel_3_1), .io_in_3_bits_vc_sel_3_2 (io_req_3_0_bits_vc_sel_3_2), .io_in_3_bits_vc_sel_2_0 (io_req_3_0_bits_vc_sel_2_0), .io_in_3_bits_vc_sel_2_1 (io_req_3_0_bits_vc_sel_2_1), .io_in_3_bits_vc_sel_2_2 (io_req_3_0_bits_vc_sel_2_2), .io_in_3_bits_vc_sel_1_0 (io_req_3_0_bits_vc_sel_1_0), .io_in_3_bits_vc_sel_1_1 (io_req_3_0_bits_vc_sel_1_1), .io_in_3_bits_vc_sel_1_2 (io_req_3_0_bits_vc_sel_1_2), .io_in_3_bits_vc_sel_0_0 (io_req_3_0_bits_vc_sel_0_0), .io_in_3_bits_vc_sel_0_1 (io_req_3_0_bits_vc_sel_0_1), .io_in_3_bits_vc_sel_0_2 (io_req_3_0_bits_vc_sel_0_2), .io_in_3_bits_tail (io_req_3_0_bits_tail), .io_in_4_ready (_arbs_1_io_in_4_ready), .io_in_4_valid (arbs_1_io_in_4_valid), // @[SwitchAllocator.scala:95:37] .io_in_4_bits_vc_sel_5_0 (io_req_4_0_bits_vc_sel_5_0), .io_in_4_bits_vc_sel_4_0 (io_req_4_0_bits_vc_sel_4_0), .io_in_4_bits_vc_sel_3_0 (io_req_4_0_bits_vc_sel_3_0), .io_in_4_bits_vc_sel_3_1 (io_req_4_0_bits_vc_sel_3_1), .io_in_4_bits_vc_sel_3_2 (io_req_4_0_bits_vc_sel_3_2), .io_in_4_bits_vc_sel_2_0 (io_req_4_0_bits_vc_sel_2_0), .io_in_4_bits_vc_sel_2_1 (io_req_4_0_bits_vc_sel_2_1), .io_in_4_bits_vc_sel_2_2 (io_req_4_0_bits_vc_sel_2_2), .io_in_4_bits_vc_sel_1_0 (io_req_4_0_bits_vc_sel_1_0), .io_in_4_bits_vc_sel_1_1 (io_req_4_0_bits_vc_sel_1_1), .io_in_4_bits_vc_sel_1_2 (io_req_4_0_bits_vc_sel_1_2), .io_in_4_bits_vc_sel_0_0 (io_req_4_0_bits_vc_sel_0_0), .io_in_4_bits_vc_sel_0_1 (io_req_4_0_bits_vc_sel_0_1), .io_in_4_bits_vc_sel_0_2 (io_req_4_0_bits_vc_sel_0_2), .io_in_4_bits_tail (io_req_4_0_bits_tail), .io_out_0_valid (_arbs_1_io_out_0_valid), .io_out_0_bits_vc_sel_5_0 (/* unused */), .io_out_0_bits_vc_sel_4_0 (/* unused */), .io_out_0_bits_vc_sel_3_0 (/* unused */), .io_out_0_bits_vc_sel_3_1 (/* unused */), .io_out_0_bits_vc_sel_3_2 (/* unused */), .io_out_0_bits_vc_sel_2_0 (/* unused */), .io_out_0_bits_vc_sel_2_1 (/* unused */), .io_out_0_bits_vc_sel_2_2 (/* unused */), .io_out_0_bits_vc_sel_1_0 (_arbs_1_io_out_0_bits_vc_sel_1_0), .io_out_0_bits_vc_sel_1_1 (_arbs_1_io_out_0_bits_vc_sel_1_1), .io_out_0_bits_vc_sel_1_2 (_arbs_1_io_out_0_bits_vc_sel_1_2), .io_out_0_bits_vc_sel_0_0 (/* unused */), .io_out_0_bits_vc_sel_0_1 (/* unused */), .io_out_0_bits_vc_sel_0_2 (/* unused */), .io_out_0_bits_tail (/* unused */), .io_chosen_oh_0 (_arbs_1_io_chosen_oh_0) ); // @[SwitchAllocator.scala:83:45] SwitchArbiter_38 arbs_2 ( // @[SwitchAllocator.scala:83:45] .clock (clock), .reset (reset), .io_in_0_ready (_arbs_2_io_in_0_ready), .io_in_0_valid (arbs_2_io_in_0_valid), // @[SwitchAllocator.scala:95:37] .io_in_0_bits_vc_sel_5_0 (io_req_0_0_bits_vc_sel_5_0), .io_in_0_bits_vc_sel_4_0 (io_req_0_0_bits_vc_sel_4_0), .io_in_0_bits_vc_sel_3_0 (io_req_0_0_bits_vc_sel_3_0), .io_in_0_bits_vc_sel_3_1 (io_req_0_0_bits_vc_sel_3_1), .io_in_0_bits_vc_sel_3_2 (io_req_0_0_bits_vc_sel_3_2), .io_in_0_bits_vc_sel_2_0 (io_req_0_0_bits_vc_sel_2_0), .io_in_0_bits_vc_sel_2_1 (io_req_0_0_bits_vc_sel_2_1), .io_in_0_bits_vc_sel_2_2 (io_req_0_0_bits_vc_sel_2_2), .io_in_0_bits_vc_sel_1_0 (io_req_0_0_bits_vc_sel_1_0), .io_in_0_bits_vc_sel_1_1 (io_req_0_0_bits_vc_sel_1_1), .io_in_0_bits_vc_sel_1_2 (io_req_0_0_bits_vc_sel_1_2), .io_in_0_bits_vc_sel_0_0 (io_req_0_0_bits_vc_sel_0_0), .io_in_0_bits_vc_sel_0_1 (io_req_0_0_bits_vc_sel_0_1), .io_in_0_bits_vc_sel_0_2 (io_req_0_0_bits_vc_sel_0_2), .io_in_0_bits_tail (io_req_0_0_bits_tail), .io_in_1_ready (_arbs_2_io_in_1_ready), .io_in_1_valid (arbs_2_io_in_1_valid), // @[SwitchAllocator.scala:95:37] .io_in_1_bits_vc_sel_5_0 (io_req_1_0_bits_vc_sel_5_0), .io_in_1_bits_vc_sel_4_0 (io_req_1_0_bits_vc_sel_4_0), .io_in_1_bits_vc_sel_3_0 (io_req_1_0_bits_vc_sel_3_0), .io_in_1_bits_vc_sel_3_1 (io_req_1_0_bits_vc_sel_3_1), .io_in_1_bits_vc_sel_3_2 (io_req_1_0_bits_vc_sel_3_2), .io_in_1_bits_vc_sel_2_0 (io_req_1_0_bits_vc_sel_2_0), .io_in_1_bits_vc_sel_2_1 (io_req_1_0_bits_vc_sel_2_1), .io_in_1_bits_vc_sel_2_2 (io_req_1_0_bits_vc_sel_2_2), .io_in_1_bits_vc_sel_1_0 (io_req_1_0_bits_vc_sel_1_0), .io_in_1_bits_vc_sel_1_1 (io_req_1_0_bits_vc_sel_1_1), .io_in_1_bits_vc_sel_1_2 (io_req_1_0_bits_vc_sel_1_2), .io_in_1_bits_vc_sel_0_0 (io_req_1_0_bits_vc_sel_0_0), .io_in_1_bits_vc_sel_0_1 (io_req_1_0_bits_vc_sel_0_1), .io_in_1_bits_vc_sel_0_2 (io_req_1_0_bits_vc_sel_0_2), .io_in_1_bits_tail (io_req_1_0_bits_tail), .io_in_2_ready (_arbs_2_io_in_2_ready), .io_in_2_valid (arbs_2_io_in_2_valid), // @[SwitchAllocator.scala:95:37] .io_in_2_bits_vc_sel_5_0 (io_req_2_0_bits_vc_sel_5_0), .io_in_2_bits_vc_sel_4_0 (io_req_2_0_bits_vc_sel_4_0), .io_in_2_bits_vc_sel_3_0 (io_req_2_0_bits_vc_sel_3_0), .io_in_2_bits_vc_sel_3_1 (io_req_2_0_bits_vc_sel_3_1), .io_in_2_bits_vc_sel_3_2 (io_req_2_0_bits_vc_sel_3_2), .io_in_2_bits_vc_sel_2_0 (io_req_2_0_bits_vc_sel_2_0), .io_in_2_bits_vc_sel_2_1 (io_req_2_0_bits_vc_sel_2_1), .io_in_2_bits_vc_sel_2_2 (io_req_2_0_bits_vc_sel_2_2), .io_in_2_bits_vc_sel_1_0 (io_req_2_0_bits_vc_sel_1_0), .io_in_2_bits_vc_sel_1_1 (io_req_2_0_bits_vc_sel_1_1), .io_in_2_bits_vc_sel_1_2 (io_req_2_0_bits_vc_sel_1_2), .io_in_2_bits_vc_sel_0_0 (io_req_2_0_bits_vc_sel_0_0), .io_in_2_bits_vc_sel_0_1 (io_req_2_0_bits_vc_sel_0_1), .io_in_2_bits_vc_sel_0_2 (io_req_2_0_bits_vc_sel_0_2), .io_in_2_bits_tail (io_req_2_0_bits_tail), .io_in_3_ready (_arbs_2_io_in_3_ready), .io_in_3_valid (arbs_2_io_in_3_valid), // @[SwitchAllocator.scala:95:37] .io_in_3_bits_vc_sel_5_0 (io_req_3_0_bits_vc_sel_5_0), .io_in_3_bits_vc_sel_4_0 (io_req_3_0_bits_vc_sel_4_0), .io_in_3_bits_vc_sel_3_0 (io_req_3_0_bits_vc_sel_3_0), .io_in_3_bits_vc_sel_3_1 (io_req_3_0_bits_vc_sel_3_1), .io_in_3_bits_vc_sel_3_2 (io_req_3_0_bits_vc_sel_3_2), .io_in_3_bits_vc_sel_2_0 (io_req_3_0_bits_vc_sel_2_0), .io_in_3_bits_vc_sel_2_1 (io_req_3_0_bits_vc_sel_2_1), .io_in_3_bits_vc_sel_2_2 (io_req_3_0_bits_vc_sel_2_2), .io_in_3_bits_vc_sel_1_0 (io_req_3_0_bits_vc_sel_1_0), .io_in_3_bits_vc_sel_1_1 (io_req_3_0_bits_vc_sel_1_1), .io_in_3_bits_vc_sel_1_2 (io_req_3_0_bits_vc_sel_1_2), .io_in_3_bits_vc_sel_0_0 (io_req_3_0_bits_vc_sel_0_0), .io_in_3_bits_vc_sel_0_1 (io_req_3_0_bits_vc_sel_0_1), .io_in_3_bits_vc_sel_0_2 (io_req_3_0_bits_vc_sel_0_2), .io_in_3_bits_tail (io_req_3_0_bits_tail), .io_in_4_ready (_arbs_2_io_in_4_ready), .io_in_4_valid (arbs_2_io_in_4_valid), // @[SwitchAllocator.scala:95:37] .io_in_4_bits_vc_sel_5_0 (io_req_4_0_bits_vc_sel_5_0), .io_in_4_bits_vc_sel_4_0 (io_req_4_0_bits_vc_sel_4_0), .io_in_4_bits_vc_sel_3_0 (io_req_4_0_bits_vc_sel_3_0), .io_in_4_bits_vc_sel_3_1 (io_req_4_0_bits_vc_sel_3_1), .io_in_4_bits_vc_sel_3_2 (io_req_4_0_bits_vc_sel_3_2), .io_in_4_bits_vc_sel_2_0 (io_req_4_0_bits_vc_sel_2_0), .io_in_4_bits_vc_sel_2_1 (io_req_4_0_bits_vc_sel_2_1), .io_in_4_bits_vc_sel_2_2 (io_req_4_0_bits_vc_sel_2_2), .io_in_4_bits_vc_sel_1_0 (io_req_4_0_bits_vc_sel_1_0), .io_in_4_bits_vc_sel_1_1 (io_req_4_0_bits_vc_sel_1_1), .io_in_4_bits_vc_sel_1_2 (io_req_4_0_bits_vc_sel_1_2), .io_in_4_bits_vc_sel_0_0 (io_req_4_0_bits_vc_sel_0_0), .io_in_4_bits_vc_sel_0_1 (io_req_4_0_bits_vc_sel_0_1), .io_in_4_bits_vc_sel_0_2 (io_req_4_0_bits_vc_sel_0_2), .io_in_4_bits_tail (io_req_4_0_bits_tail), .io_out_0_valid (_arbs_2_io_out_0_valid), .io_out_0_bits_vc_sel_5_0 (/* unused */), .io_out_0_bits_vc_sel_4_0 (/* unused */), .io_out_0_bits_vc_sel_3_0 (/* unused */), .io_out_0_bits_vc_sel_3_1 (/* unused */), .io_out_0_bits_vc_sel_3_2 (/* unused */), .io_out_0_bits_vc_sel_2_0 (_arbs_2_io_out_0_bits_vc_sel_2_0), .io_out_0_bits_vc_sel_2_1 (_arbs_2_io_out_0_bits_vc_sel_2_1), .io_out_0_bits_vc_sel_2_2 (_arbs_2_io_out_0_bits_vc_sel_2_2), .io_out_0_bits_vc_sel_1_0 (/* unused */), .io_out_0_bits_vc_sel_1_1 (/* unused */), .io_out_0_bits_vc_sel_1_2 (/* unused */), .io_out_0_bits_vc_sel_0_0 (/* unused */), .io_out_0_bits_vc_sel_0_1 (/* unused */), .io_out_0_bits_vc_sel_0_2 (/* unused */), .io_out_0_bits_tail (/* unused */), .io_chosen_oh_0 (_arbs_2_io_chosen_oh_0) ); // @[SwitchAllocator.scala:83:45] SwitchArbiter_38 arbs_3 ( // @[SwitchAllocator.scala:83:45] .clock (clock), .reset (reset), .io_in_0_ready (_arbs_3_io_in_0_ready), .io_in_0_valid (arbs_3_io_in_0_valid), // @[SwitchAllocator.scala:95:37] .io_in_0_bits_vc_sel_5_0 (io_req_0_0_bits_vc_sel_5_0), .io_in_0_bits_vc_sel_4_0 (io_req_0_0_bits_vc_sel_4_0), .io_in_0_bits_vc_sel_3_0 (io_req_0_0_bits_vc_sel_3_0), .io_in_0_bits_vc_sel_3_1 (io_req_0_0_bits_vc_sel_3_1), .io_in_0_bits_vc_sel_3_2 (io_req_0_0_bits_vc_sel_3_2), .io_in_0_bits_vc_sel_2_0 (io_req_0_0_bits_vc_sel_2_0), .io_in_0_bits_vc_sel_2_1 (io_req_0_0_bits_vc_sel_2_1), .io_in_0_bits_vc_sel_2_2 (io_req_0_0_bits_vc_sel_2_2), .io_in_0_bits_vc_sel_1_0 (io_req_0_0_bits_vc_sel_1_0), .io_in_0_bits_vc_sel_1_1 (io_req_0_0_bits_vc_sel_1_1), .io_in_0_bits_vc_sel_1_2 (io_req_0_0_bits_vc_sel_1_2), .io_in_0_bits_vc_sel_0_0 (io_req_0_0_bits_vc_sel_0_0), .io_in_0_bits_vc_sel_0_1 (io_req_0_0_bits_vc_sel_0_1), .io_in_0_bits_vc_sel_0_2 (io_req_0_0_bits_vc_sel_0_2), .io_in_0_bits_tail (io_req_0_0_bits_tail), .io_in_1_ready (_arbs_3_io_in_1_ready), .io_in_1_valid (arbs_3_io_in_1_valid), // @[SwitchAllocator.scala:95:37] .io_in_1_bits_vc_sel_5_0 (io_req_1_0_bits_vc_sel_5_0), .io_in_1_bits_vc_sel_4_0 (io_req_1_0_bits_vc_sel_4_0), .io_in_1_bits_vc_sel_3_0 (io_req_1_0_bits_vc_sel_3_0), .io_in_1_bits_vc_sel_3_1 (io_req_1_0_bits_vc_sel_3_1), .io_in_1_bits_vc_sel_3_2 (io_req_1_0_bits_vc_sel_3_2), .io_in_1_bits_vc_sel_2_0 (io_req_1_0_bits_vc_sel_2_0), .io_in_1_bits_vc_sel_2_1 (io_req_1_0_bits_vc_sel_2_1), .io_in_1_bits_vc_sel_2_2 (io_req_1_0_bits_vc_sel_2_2), .io_in_1_bits_vc_sel_1_0 (io_req_1_0_bits_vc_sel_1_0), .io_in_1_bits_vc_sel_1_1 (io_req_1_0_bits_vc_sel_1_1), .io_in_1_bits_vc_sel_1_2 (io_req_1_0_bits_vc_sel_1_2), .io_in_1_bits_vc_sel_0_0 (io_req_1_0_bits_vc_sel_0_0), .io_in_1_bits_vc_sel_0_1 (io_req_1_0_bits_vc_sel_0_1), .io_in_1_bits_vc_sel_0_2 (io_req_1_0_bits_vc_sel_0_2), .io_in_1_bits_tail (io_req_1_0_bits_tail), .io_in_2_ready (_arbs_3_io_in_2_ready), .io_in_2_valid (arbs_3_io_in_2_valid), // @[SwitchAllocator.scala:95:37] .io_in_2_bits_vc_sel_5_0 (io_req_2_0_bits_vc_sel_5_0), .io_in_2_bits_vc_sel_4_0 (io_req_2_0_bits_vc_sel_4_0), .io_in_2_bits_vc_sel_3_0 (io_req_2_0_bits_vc_sel_3_0), .io_in_2_bits_vc_sel_3_1 (io_req_2_0_bits_vc_sel_3_1), .io_in_2_bits_vc_sel_3_2 (io_req_2_0_bits_vc_sel_3_2), .io_in_2_bits_vc_sel_2_0 (io_req_2_0_bits_vc_sel_2_0), .io_in_2_bits_vc_sel_2_1 (io_req_2_0_bits_vc_sel_2_1), .io_in_2_bits_vc_sel_2_2 (io_req_2_0_bits_vc_sel_2_2), .io_in_2_bits_vc_sel_1_0 (io_req_2_0_bits_vc_sel_1_0), .io_in_2_bits_vc_sel_1_1 (io_req_2_0_bits_vc_sel_1_1), .io_in_2_bits_vc_sel_1_2 (io_req_2_0_bits_vc_sel_1_2), .io_in_2_bits_vc_sel_0_0 (io_req_2_0_bits_vc_sel_0_0), .io_in_2_bits_vc_sel_0_1 (io_req_2_0_bits_vc_sel_0_1), .io_in_2_bits_vc_sel_0_2 (io_req_2_0_bits_vc_sel_0_2), .io_in_2_bits_tail (io_req_2_0_bits_tail), .io_in_3_ready (_arbs_3_io_in_3_ready), .io_in_3_valid (arbs_3_io_in_3_valid), // @[SwitchAllocator.scala:95:37] .io_in_3_bits_vc_sel_5_0 (io_req_3_0_bits_vc_sel_5_0), .io_in_3_bits_vc_sel_4_0 (io_req_3_0_bits_vc_sel_4_0), .io_in_3_bits_vc_sel_3_0 (io_req_3_0_bits_vc_sel_3_0), .io_in_3_bits_vc_sel_3_1 (io_req_3_0_bits_vc_sel_3_1), .io_in_3_bits_vc_sel_3_2 (io_req_3_0_bits_vc_sel_3_2), .io_in_3_bits_vc_sel_2_0 (io_req_3_0_bits_vc_sel_2_0), .io_in_3_bits_vc_sel_2_1 (io_req_3_0_bits_vc_sel_2_1), .io_in_3_bits_vc_sel_2_2 (io_req_3_0_bits_vc_sel_2_2), .io_in_3_bits_vc_sel_1_0 (io_req_3_0_bits_vc_sel_1_0), .io_in_3_bits_vc_sel_1_1 (io_req_3_0_bits_vc_sel_1_1), .io_in_3_bits_vc_sel_1_2 (io_req_3_0_bits_vc_sel_1_2), .io_in_3_bits_vc_sel_0_0 (io_req_3_0_bits_vc_sel_0_0), .io_in_3_bits_vc_sel_0_1 (io_req_3_0_bits_vc_sel_0_1), .io_in_3_bits_vc_sel_0_2 (io_req_3_0_bits_vc_sel_0_2), .io_in_3_bits_tail (io_req_3_0_bits_tail), .io_in_4_ready (_arbs_3_io_in_4_ready), .io_in_4_valid (arbs_3_io_in_4_valid), // @[SwitchAllocator.scala:95:37] .io_in_4_bits_vc_sel_5_0 (io_req_4_0_bits_vc_sel_5_0), .io_in_4_bits_vc_sel_4_0 (io_req_4_0_bits_vc_sel_4_0), .io_in_4_bits_vc_sel_3_0 (io_req_4_0_bits_vc_sel_3_0), .io_in_4_bits_vc_sel_3_1 (io_req_4_0_bits_vc_sel_3_1), .io_in_4_bits_vc_sel_3_2 (io_req_4_0_bits_vc_sel_3_2), .io_in_4_bits_vc_sel_2_0 (io_req_4_0_bits_vc_sel_2_0), .io_in_4_bits_vc_sel_2_1 (io_req_4_0_bits_vc_sel_2_1), .io_in_4_bits_vc_sel_2_2 (io_req_4_0_bits_vc_sel_2_2), .io_in_4_bits_vc_sel_1_0 (io_req_4_0_bits_vc_sel_1_0), .io_in_4_bits_vc_sel_1_1 (io_req_4_0_bits_vc_sel_1_1), .io_in_4_bits_vc_sel_1_2 (io_req_4_0_bits_vc_sel_1_2), .io_in_4_bits_vc_sel_0_0 (io_req_4_0_bits_vc_sel_0_0), .io_in_4_bits_vc_sel_0_1 (io_req_4_0_bits_vc_sel_0_1), .io_in_4_bits_vc_sel_0_2 (io_req_4_0_bits_vc_sel_0_2), .io_in_4_bits_tail (io_req_4_0_bits_tail), .io_out_0_valid (_arbs_3_io_out_0_valid), .io_out_0_bits_vc_sel_5_0 (/* unused */), .io_out_0_bits_vc_sel_4_0 (/* unused */), .io_out_0_bits_vc_sel_3_0 (_arbs_3_io_out_0_bits_vc_sel_3_0), .io_out_0_bits_vc_sel_3_1 (_arbs_3_io_out_0_bits_vc_sel_3_1), .io_out_0_bits_vc_sel_3_2 (_arbs_3_io_out_0_bits_vc_sel_3_2), .io_out_0_bits_vc_sel_2_0 (/* unused */), .io_out_0_bits_vc_sel_2_1 (/* unused */), .io_out_0_bits_vc_sel_2_2 (/* unused */), .io_out_0_bits_vc_sel_1_0 (/* unused */), .io_out_0_bits_vc_sel_1_1 (/* unused */), .io_out_0_bits_vc_sel_1_2 (/* unused */), .io_out_0_bits_vc_sel_0_0 (/* unused */), .io_out_0_bits_vc_sel_0_1 (/* unused */), .io_out_0_bits_vc_sel_0_2 (/* unused */), .io_out_0_bits_tail (/* unused */), .io_chosen_oh_0 (_arbs_3_io_chosen_oh_0) ); // @[SwitchAllocator.scala:83:45] SwitchArbiter_38 arbs_4 ( // @[SwitchAllocator.scala:83:45] .clock (clock), .reset (reset), .io_in_0_ready (_arbs_4_io_in_0_ready), .io_in_0_valid (arbs_4_io_in_0_valid), // @[SwitchAllocator.scala:95:37] .io_in_0_bits_vc_sel_5_0 (io_req_0_0_bits_vc_sel_5_0), .io_in_0_bits_vc_sel_4_0 (io_req_0_0_bits_vc_sel_4_0), .io_in_0_bits_vc_sel_3_0 (io_req_0_0_bits_vc_sel_3_0), .io_in_0_bits_vc_sel_3_1 (io_req_0_0_bits_vc_sel_3_1), .io_in_0_bits_vc_sel_3_2 (io_req_0_0_bits_vc_sel_3_2), .io_in_0_bits_vc_sel_2_0 (io_req_0_0_bits_vc_sel_2_0), .io_in_0_bits_vc_sel_2_1 (io_req_0_0_bits_vc_sel_2_1), .io_in_0_bits_vc_sel_2_2 (io_req_0_0_bits_vc_sel_2_2), .io_in_0_bits_vc_sel_1_0 (io_req_0_0_bits_vc_sel_1_0), .io_in_0_bits_vc_sel_1_1 (io_req_0_0_bits_vc_sel_1_1), .io_in_0_bits_vc_sel_1_2 (io_req_0_0_bits_vc_sel_1_2), .io_in_0_bits_vc_sel_0_0 (io_req_0_0_bits_vc_sel_0_0), .io_in_0_bits_vc_sel_0_1 (io_req_0_0_bits_vc_sel_0_1), .io_in_0_bits_vc_sel_0_2 (io_req_0_0_bits_vc_sel_0_2), .io_in_0_bits_tail (io_req_0_0_bits_tail), .io_in_1_ready (_arbs_4_io_in_1_ready), .io_in_1_valid (arbs_4_io_in_1_valid), // @[SwitchAllocator.scala:95:37] .io_in_1_bits_vc_sel_5_0 (io_req_1_0_bits_vc_sel_5_0), .io_in_1_bits_vc_sel_4_0 (io_req_1_0_bits_vc_sel_4_0), .io_in_1_bits_vc_sel_3_0 (io_req_1_0_bits_vc_sel_3_0), .io_in_1_bits_vc_sel_3_1 (io_req_1_0_bits_vc_sel_3_1), .io_in_1_bits_vc_sel_3_2 (io_req_1_0_bits_vc_sel_3_2), .io_in_1_bits_vc_sel_2_0 (io_req_1_0_bits_vc_sel_2_0), .io_in_1_bits_vc_sel_2_1 (io_req_1_0_bits_vc_sel_2_1), .io_in_1_bits_vc_sel_2_2 (io_req_1_0_bits_vc_sel_2_2), .io_in_1_bits_vc_sel_1_0 (io_req_1_0_bits_vc_sel_1_0), .io_in_1_bits_vc_sel_1_1 (io_req_1_0_bits_vc_sel_1_1), .io_in_1_bits_vc_sel_1_2 (io_req_1_0_bits_vc_sel_1_2), .io_in_1_bits_vc_sel_0_0 (io_req_1_0_bits_vc_sel_0_0), .io_in_1_bits_vc_sel_0_1 (io_req_1_0_bits_vc_sel_0_1), .io_in_1_bits_vc_sel_0_2 (io_req_1_0_bits_vc_sel_0_2), .io_in_1_bits_tail (io_req_1_0_bits_tail), .io_in_2_ready (_arbs_4_io_in_2_ready), .io_in_2_valid (arbs_4_io_in_2_valid), // @[SwitchAllocator.scala:95:37] .io_in_2_bits_vc_sel_5_0 (io_req_2_0_bits_vc_sel_5_0), .io_in_2_bits_vc_sel_4_0 (io_req_2_0_bits_vc_sel_4_0), .io_in_2_bits_vc_sel_3_0 (io_req_2_0_bits_vc_sel_3_0), .io_in_2_bits_vc_sel_3_1 (io_req_2_0_bits_vc_sel_3_1), .io_in_2_bits_vc_sel_3_2 (io_req_2_0_bits_vc_sel_3_2), .io_in_2_bits_vc_sel_2_0 (io_req_2_0_bits_vc_sel_2_0), .io_in_2_bits_vc_sel_2_1 (io_req_2_0_bits_vc_sel_2_1), .io_in_2_bits_vc_sel_2_2 (io_req_2_0_bits_vc_sel_2_2), .io_in_2_bits_vc_sel_1_0 (io_req_2_0_bits_vc_sel_1_0), .io_in_2_bits_vc_sel_1_1 (io_req_2_0_bits_vc_sel_1_1), .io_in_2_bits_vc_sel_1_2 (io_req_2_0_bits_vc_sel_1_2), .io_in_2_bits_vc_sel_0_0 (io_req_2_0_bits_vc_sel_0_0), .io_in_2_bits_vc_sel_0_1 (io_req_2_0_bits_vc_sel_0_1), .io_in_2_bits_vc_sel_0_2 (io_req_2_0_bits_vc_sel_0_2), .io_in_2_bits_tail (io_req_2_0_bits_tail), .io_in_3_ready (_arbs_4_io_in_3_ready), .io_in_3_valid (arbs_4_io_in_3_valid), // @[SwitchAllocator.scala:95:37] .io_in_3_bits_vc_sel_5_0 (io_req_3_0_bits_vc_sel_5_0), .io_in_3_bits_vc_sel_4_0 (io_req_3_0_bits_vc_sel_4_0), .io_in_3_bits_vc_sel_3_0 (io_req_3_0_bits_vc_sel_3_0), .io_in_3_bits_vc_sel_3_1 (io_req_3_0_bits_vc_sel_3_1), .io_in_3_bits_vc_sel_3_2 (io_req_3_0_bits_vc_sel_3_2), .io_in_3_bits_vc_sel_2_0 (io_req_3_0_bits_vc_sel_2_0), .io_in_3_bits_vc_sel_2_1 (io_req_3_0_bits_vc_sel_2_1), .io_in_3_bits_vc_sel_2_2 (io_req_3_0_bits_vc_sel_2_2), .io_in_3_bits_vc_sel_1_0 (io_req_3_0_bits_vc_sel_1_0), .io_in_3_bits_vc_sel_1_1 (io_req_3_0_bits_vc_sel_1_1), .io_in_3_bits_vc_sel_1_2 (io_req_3_0_bits_vc_sel_1_2), .io_in_3_bits_vc_sel_0_0 (io_req_3_0_bits_vc_sel_0_0), .io_in_3_bits_vc_sel_0_1 (io_req_3_0_bits_vc_sel_0_1), .io_in_3_bits_vc_sel_0_2 (io_req_3_0_bits_vc_sel_0_2), .io_in_3_bits_tail (io_req_3_0_bits_tail), .io_in_4_ready (_arbs_4_io_in_4_ready), .io_in_4_valid (arbs_4_io_in_4_valid), // @[SwitchAllocator.scala:95:37] .io_in_4_bits_vc_sel_5_0 (io_req_4_0_bits_vc_sel_5_0), .io_in_4_bits_vc_sel_4_0 (io_req_4_0_bits_vc_sel_4_0), .io_in_4_bits_vc_sel_3_0 (io_req_4_0_bits_vc_sel_3_0), .io_in_4_bits_vc_sel_3_1 (io_req_4_0_bits_vc_sel_3_1), .io_in_4_bits_vc_sel_3_2 (io_req_4_0_bits_vc_sel_3_2), .io_in_4_bits_vc_sel_2_0 (io_req_4_0_bits_vc_sel_2_0), .io_in_4_bits_vc_sel_2_1 (io_req_4_0_bits_vc_sel_2_1), .io_in_4_bits_vc_sel_2_2 (io_req_4_0_bits_vc_sel_2_2), .io_in_4_bits_vc_sel_1_0 (io_req_4_0_bits_vc_sel_1_0), .io_in_4_bits_vc_sel_1_1 (io_req_4_0_bits_vc_sel_1_1), .io_in_4_bits_vc_sel_1_2 (io_req_4_0_bits_vc_sel_1_2), .io_in_4_bits_vc_sel_0_0 (io_req_4_0_bits_vc_sel_0_0), .io_in_4_bits_vc_sel_0_1 (io_req_4_0_bits_vc_sel_0_1), .io_in_4_bits_vc_sel_0_2 (io_req_4_0_bits_vc_sel_0_2), .io_in_4_bits_tail (io_req_4_0_bits_tail), .io_out_0_valid (_arbs_4_io_out_0_valid), .io_out_0_bits_vc_sel_5_0 (/* unused */), .io_out_0_bits_vc_sel_4_0 (_arbs_4_io_out_0_bits_vc_sel_4_0), .io_out_0_bits_vc_sel_3_0 (/* unused */), .io_out_0_bits_vc_sel_3_1 (/* unused */), .io_out_0_bits_vc_sel_3_2 (/* unused */), .io_out_0_bits_vc_sel_2_0 (/* unused */), .io_out_0_bits_vc_sel_2_1 (/* unused */), .io_out_0_bits_vc_sel_2_2 (/* unused */), .io_out_0_bits_vc_sel_1_0 (/* unused */), .io_out_0_bits_vc_sel_1_1 (/* unused */), .io_out_0_bits_vc_sel_1_2 (/* unused */), .io_out_0_bits_vc_sel_0_0 (/* unused */), .io_out_0_bits_vc_sel_0_1 (/* unused */), .io_out_0_bits_vc_sel_0_2 (/* unused */), .io_out_0_bits_tail (_arbs_4_io_out_0_bits_tail), .io_chosen_oh_0 (_arbs_4_io_chosen_oh_0) ); // @[SwitchAllocator.scala:83:45] SwitchArbiter_38 arbs_5 ( // @[SwitchAllocator.scala:83:45] .clock (clock), .reset (reset), .io_in_0_ready (_arbs_5_io_in_0_ready), .io_in_0_valid (arbs_5_io_in_0_valid), // @[SwitchAllocator.scala:95:37] .io_in_0_bits_vc_sel_5_0 (io_req_0_0_bits_vc_sel_5_0), .io_in_0_bits_vc_sel_4_0 (io_req_0_0_bits_vc_sel_4_0), .io_in_0_bits_vc_sel_3_0 (io_req_0_0_bits_vc_sel_3_0), .io_in_0_bits_vc_sel_3_1 (io_req_0_0_bits_vc_sel_3_1), .io_in_0_bits_vc_sel_3_2 (io_req_0_0_bits_vc_sel_3_2), .io_in_0_bits_vc_sel_2_0 (io_req_0_0_bits_vc_sel_2_0), .io_in_0_bits_vc_sel_2_1 (io_req_0_0_bits_vc_sel_2_1), .io_in_0_bits_vc_sel_2_2 (io_req_0_0_bits_vc_sel_2_2), .io_in_0_bits_vc_sel_1_0 (io_req_0_0_bits_vc_sel_1_0), .io_in_0_bits_vc_sel_1_1 (io_req_0_0_bits_vc_sel_1_1), .io_in_0_bits_vc_sel_1_2 (io_req_0_0_bits_vc_sel_1_2), .io_in_0_bits_vc_sel_0_0 (io_req_0_0_bits_vc_sel_0_0), .io_in_0_bits_vc_sel_0_1 (io_req_0_0_bits_vc_sel_0_1), .io_in_0_bits_vc_sel_0_2 (io_req_0_0_bits_vc_sel_0_2), .io_in_0_bits_tail (io_req_0_0_bits_tail), .io_in_1_ready (_arbs_5_io_in_1_ready), .io_in_1_valid (arbs_5_io_in_1_valid), // @[SwitchAllocator.scala:95:37] .io_in_1_bits_vc_sel_5_0 (io_req_1_0_bits_vc_sel_5_0), .io_in_1_bits_vc_sel_4_0 (io_req_1_0_bits_vc_sel_4_0), .io_in_1_bits_vc_sel_3_0 (io_req_1_0_bits_vc_sel_3_0), .io_in_1_bits_vc_sel_3_1 (io_req_1_0_bits_vc_sel_3_1), .io_in_1_bits_vc_sel_3_2 (io_req_1_0_bits_vc_sel_3_2), .io_in_1_bits_vc_sel_2_0 (io_req_1_0_bits_vc_sel_2_0), .io_in_1_bits_vc_sel_2_1 (io_req_1_0_bits_vc_sel_2_1), .io_in_1_bits_vc_sel_2_2 (io_req_1_0_bits_vc_sel_2_2), .io_in_1_bits_vc_sel_1_0 (io_req_1_0_bits_vc_sel_1_0), .io_in_1_bits_vc_sel_1_1 (io_req_1_0_bits_vc_sel_1_1), .io_in_1_bits_vc_sel_1_2 (io_req_1_0_bits_vc_sel_1_2), .io_in_1_bits_vc_sel_0_0 (io_req_1_0_bits_vc_sel_0_0), .io_in_1_bits_vc_sel_0_1 (io_req_1_0_bits_vc_sel_0_1), .io_in_1_bits_vc_sel_0_2 (io_req_1_0_bits_vc_sel_0_2), .io_in_1_bits_tail (io_req_1_0_bits_tail), .io_in_2_ready (_arbs_5_io_in_2_ready), .io_in_2_valid (arbs_5_io_in_2_valid), // @[SwitchAllocator.scala:95:37] .io_in_2_bits_vc_sel_5_0 (io_req_2_0_bits_vc_sel_5_0), .io_in_2_bits_vc_sel_4_0 (io_req_2_0_bits_vc_sel_4_0), .io_in_2_bits_vc_sel_3_0 (io_req_2_0_bits_vc_sel_3_0), .io_in_2_bits_vc_sel_3_1 (io_req_2_0_bits_vc_sel_3_1), .io_in_2_bits_vc_sel_3_2 (io_req_2_0_bits_vc_sel_3_2), .io_in_2_bits_vc_sel_2_0 (io_req_2_0_bits_vc_sel_2_0), .io_in_2_bits_vc_sel_2_1 (io_req_2_0_bits_vc_sel_2_1), .io_in_2_bits_vc_sel_2_2 (io_req_2_0_bits_vc_sel_2_2), .io_in_2_bits_vc_sel_1_0 (io_req_2_0_bits_vc_sel_1_0), .io_in_2_bits_vc_sel_1_1 (io_req_2_0_bits_vc_sel_1_1), .io_in_2_bits_vc_sel_1_2 (io_req_2_0_bits_vc_sel_1_2), .io_in_2_bits_vc_sel_0_0 (io_req_2_0_bits_vc_sel_0_0), .io_in_2_bits_vc_sel_0_1 (io_req_2_0_bits_vc_sel_0_1), .io_in_2_bits_vc_sel_0_2 (io_req_2_0_bits_vc_sel_0_2), .io_in_2_bits_tail (io_req_2_0_bits_tail), .io_in_3_ready (_arbs_5_io_in_3_ready), .io_in_3_valid (arbs_5_io_in_3_valid), // @[SwitchAllocator.scala:95:37] .io_in_3_bits_vc_sel_5_0 (io_req_3_0_bits_vc_sel_5_0), .io_in_3_bits_vc_sel_4_0 (io_req_3_0_bits_vc_sel_4_0), .io_in_3_bits_vc_sel_3_0 (io_req_3_0_bits_vc_sel_3_0), .io_in_3_bits_vc_sel_3_1 (io_req_3_0_bits_vc_sel_3_1), .io_in_3_bits_vc_sel_3_2 (io_req_3_0_bits_vc_sel_3_2), .io_in_3_bits_vc_sel_2_0 (io_req_3_0_bits_vc_sel_2_0), .io_in_3_bits_vc_sel_2_1 (io_req_3_0_bits_vc_sel_2_1), .io_in_3_bits_vc_sel_2_2 (io_req_3_0_bits_vc_sel_2_2), .io_in_3_bits_vc_sel_1_0 (io_req_3_0_bits_vc_sel_1_0), .io_in_3_bits_vc_sel_1_1 (io_req_3_0_bits_vc_sel_1_1), .io_in_3_bits_vc_sel_1_2 (io_req_3_0_bits_vc_sel_1_2), .io_in_3_bits_vc_sel_0_0 (io_req_3_0_bits_vc_sel_0_0), .io_in_3_bits_vc_sel_0_1 (io_req_3_0_bits_vc_sel_0_1), .io_in_3_bits_vc_sel_0_2 (io_req_3_0_bits_vc_sel_0_2), .io_in_3_bits_tail (io_req_3_0_bits_tail), .io_in_4_ready (_arbs_5_io_in_4_ready), .io_in_4_valid (arbs_5_io_in_4_valid), // @[SwitchAllocator.scala:95:37] .io_in_4_bits_vc_sel_5_0 (io_req_4_0_bits_vc_sel_5_0), .io_in_4_bits_vc_sel_4_0 (io_req_4_0_bits_vc_sel_4_0), .io_in_4_bits_vc_sel_3_0 (io_req_4_0_bits_vc_sel_3_0), .io_in_4_bits_vc_sel_3_1 (io_req_4_0_bits_vc_sel_3_1), .io_in_4_bits_vc_sel_3_2 (io_req_4_0_bits_vc_sel_3_2), .io_in_4_bits_vc_sel_2_0 (io_req_4_0_bits_vc_sel_2_0), .io_in_4_bits_vc_sel_2_1 (io_req_4_0_bits_vc_sel_2_1), .io_in_4_bits_vc_sel_2_2 (io_req_4_0_bits_vc_sel_2_2), .io_in_4_bits_vc_sel_1_0 (io_req_4_0_bits_vc_sel_1_0), .io_in_4_bits_vc_sel_1_1 (io_req_4_0_bits_vc_sel_1_1), .io_in_4_bits_vc_sel_1_2 (io_req_4_0_bits_vc_sel_1_2), .io_in_4_bits_vc_sel_0_0 (io_req_4_0_bits_vc_sel_0_0), .io_in_4_bits_vc_sel_0_1 (io_req_4_0_bits_vc_sel_0_1), .io_in_4_bits_vc_sel_0_2 (io_req_4_0_bits_vc_sel_0_2), .io_in_4_bits_tail (io_req_4_0_bits_tail), .io_out_0_valid (_arbs_5_io_out_0_valid), .io_out_0_bits_vc_sel_5_0 (_arbs_5_io_out_0_bits_vc_sel_5_0), .io_out_0_bits_vc_sel_4_0 (/* unused */), .io_out_0_bits_vc_sel_3_0 (/* unused */), .io_out_0_bits_vc_sel_3_1 (/* unused */), .io_out_0_bits_vc_sel_3_2 (/* unused */), .io_out_0_bits_vc_sel_2_0 (/* unused */), .io_out_0_bits_vc_sel_2_1 (/* unused */), .io_out_0_bits_vc_sel_2_2 (/* unused */), .io_out_0_bits_vc_sel_1_0 (/* unused */), .io_out_0_bits_vc_sel_1_1 (/* unused */), .io_out_0_bits_vc_sel_1_2 (/* unused */), .io_out_0_bits_vc_sel_0_0 (/* unused */), .io_out_0_bits_vc_sel_0_1 (/* unused */), .io_out_0_bits_vc_sel_0_2 (/* unused */), .io_out_0_bits_tail (_arbs_5_io_out_0_bits_tail), .io_chosen_oh_0 (_arbs_5_io_chosen_oh_0) ); // @[SwitchAllocator.scala:83:45] assign io_req_4_0_ready = _arbs_0_io_in_4_ready & arbs_0_io_in_4_valid | _arbs_1_io_in_4_ready & arbs_1_io_in_4_valid | _arbs_2_io_in_4_ready & arbs_2_io_in_4_valid | _arbs_3_io_in_4_ready & arbs_3_io_in_4_valid | _arbs_4_io_in_4_ready & arbs_4_io_in_4_valid | _arbs_5_io_in_4_ready & arbs_5_io_in_4_valid; // @[Decoupled.scala:51:35] assign io_req_3_0_ready = _arbs_0_io_in_3_ready & arbs_0_io_in_3_valid | _arbs_1_io_in_3_ready & arbs_1_io_in_3_valid | _arbs_2_io_in_3_ready & arbs_2_io_in_3_valid | _arbs_3_io_in_3_ready & arbs_3_io_in_3_valid | _arbs_4_io_in_3_ready & arbs_4_io_in_3_valid | _arbs_5_io_in_3_ready & arbs_5_io_in_3_valid; // @[Decoupled.scala:51:35] assign io_req_2_0_ready = _arbs_0_io_in_2_ready & arbs_0_io_in_2_valid | _arbs_1_io_in_2_ready & arbs_1_io_in_2_valid | _arbs_2_io_in_2_ready & arbs_2_io_in_2_valid | _arbs_3_io_in_2_ready & arbs_3_io_in_2_valid | _arbs_4_io_in_2_ready & arbs_4_io_in_2_valid | _arbs_5_io_in_2_ready & arbs_5_io_in_2_valid; // @[Decoupled.scala:51:35] assign io_req_1_0_ready = _arbs_0_io_in_1_ready & arbs_0_io_in_1_valid | _arbs_1_io_in_1_ready & arbs_1_io_in_1_valid | _arbs_2_io_in_1_ready & arbs_2_io_in_1_valid | _arbs_3_io_in_1_ready & arbs_3_io_in_1_valid | _arbs_4_io_in_1_ready & arbs_4_io_in_1_valid | _arbs_5_io_in_1_ready & arbs_5_io_in_1_valid; // @[Decoupled.scala:51:35] assign io_req_0_0_ready = _arbs_0_io_in_0_ready & arbs_0_io_in_0_valid | _arbs_1_io_in_0_ready & arbs_1_io_in_0_valid | _arbs_2_io_in_0_ready & arbs_2_io_in_0_valid | _arbs_3_io_in_0_ready & arbs_3_io_in_0_valid | _arbs_4_io_in_0_ready & arbs_4_io_in_0_valid | _arbs_5_io_in_0_ready & arbs_5_io_in_0_valid; // @[Decoupled.scala:51:35] assign io_credit_alloc_5_0_alloc = io_credit_alloc_5_0_alloc_0; // @[SwitchAllocator.scala:64:7, :120:33] assign io_credit_alloc_5_0_tail = io_credit_alloc_5_0_alloc_0 & _arbs_5_io_out_0_bits_tail; // @[SwitchAllocator.scala:64:7, :83:45, :116:44, :120:{33,67}, :122:21] assign io_credit_alloc_4_0_alloc = io_credit_alloc_4_0_alloc_0; // @[SwitchAllocator.scala:64:7, :120:33] assign io_credit_alloc_4_0_tail = io_credit_alloc_4_0_alloc_0 & _arbs_4_io_out_0_bits_tail; // @[SwitchAllocator.scala:64:7, :83:45, :116:44, :120:{33,67}, :122:21] assign io_credit_alloc_3_0_alloc = _arbs_3_io_out_0_valid & _arbs_3_io_out_0_bits_vc_sel_3_0; // @[SwitchAllocator.scala:64:7, :83:45, :120:33] assign io_credit_alloc_3_1_alloc = _arbs_3_io_out_0_valid & _arbs_3_io_out_0_bits_vc_sel_3_1; // @[SwitchAllocator.scala:64:7, :83:45, :120:33] assign io_credit_alloc_3_2_alloc = _arbs_3_io_out_0_valid & _arbs_3_io_out_0_bits_vc_sel_3_2; // @[SwitchAllocator.scala:64:7, :83:45, :120:33] assign io_credit_alloc_2_0_alloc = _arbs_2_io_out_0_valid & _arbs_2_io_out_0_bits_vc_sel_2_0; // @[SwitchAllocator.scala:64:7, :83:45, :120:33] assign io_credit_alloc_2_1_alloc = _arbs_2_io_out_0_valid & _arbs_2_io_out_0_bits_vc_sel_2_1; // @[SwitchAllocator.scala:64:7, :83:45, :120:33] assign io_credit_alloc_2_2_alloc = _arbs_2_io_out_0_valid & _arbs_2_io_out_0_bits_vc_sel_2_2; // @[SwitchAllocator.scala:64:7, :83:45, :120:33] assign io_credit_alloc_1_0_alloc = _arbs_1_io_out_0_valid & _arbs_1_io_out_0_bits_vc_sel_1_0; // @[SwitchAllocator.scala:64:7, :83:45, :120:33] assign io_credit_alloc_1_1_alloc = _arbs_1_io_out_0_valid & _arbs_1_io_out_0_bits_vc_sel_1_1; // @[SwitchAllocator.scala:64:7, :83:45, :120:33] assign io_credit_alloc_1_2_alloc = _arbs_1_io_out_0_valid & _arbs_1_io_out_0_bits_vc_sel_1_2; // @[SwitchAllocator.scala:64:7, :83:45, :120:33] assign io_credit_alloc_0_0_alloc = _arbs_0_io_out_0_valid & _arbs_0_io_out_0_bits_vc_sel_0_0; // @[SwitchAllocator.scala:64:7, :83:45, :120:33] assign io_credit_alloc_0_1_alloc = _arbs_0_io_out_0_valid & _arbs_0_io_out_0_bits_vc_sel_0_1; // @[SwitchAllocator.scala:64:7, :83:45, :120:33] assign io_credit_alloc_0_2_alloc = _arbs_0_io_out_0_valid & _arbs_0_io_out_0_bits_vc_sel_0_2; // @[SwitchAllocator.scala:64:7, :83:45, :120:33] assign io_switch_sel_5_0_4_0 = arbs_5_io_in_4_valid & _arbs_5_io_chosen_oh_0[4] & _arbs_5_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_5_0_3_0 = arbs_5_io_in_3_valid & _arbs_5_io_chosen_oh_0[3] & _arbs_5_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_5_0_2_0 = arbs_5_io_in_2_valid & _arbs_5_io_chosen_oh_0[2] & _arbs_5_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_5_0_1_0 = arbs_5_io_in_1_valid & _arbs_5_io_chosen_oh_0[1] & _arbs_5_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_5_0_0_0 = arbs_5_io_in_0_valid & _arbs_5_io_chosen_oh_0[0] & _arbs_5_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_4_0_4_0 = arbs_4_io_in_4_valid & _arbs_4_io_chosen_oh_0[4] & _arbs_4_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_4_0_3_0 = arbs_4_io_in_3_valid & _arbs_4_io_chosen_oh_0[3] & _arbs_4_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_4_0_2_0 = arbs_4_io_in_2_valid & _arbs_4_io_chosen_oh_0[2] & _arbs_4_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_4_0_1_0 = arbs_4_io_in_1_valid & _arbs_4_io_chosen_oh_0[1] & _arbs_4_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_4_0_0_0 = arbs_4_io_in_0_valid & _arbs_4_io_chosen_oh_0[0] & _arbs_4_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_3_0_4_0 = arbs_3_io_in_4_valid & _arbs_3_io_chosen_oh_0[4] & _arbs_3_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_3_0_3_0 = arbs_3_io_in_3_valid & _arbs_3_io_chosen_oh_0[3] & _arbs_3_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_3_0_2_0 = arbs_3_io_in_2_valid & _arbs_3_io_chosen_oh_0[2] & _arbs_3_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_3_0_1_0 = arbs_3_io_in_1_valid & _arbs_3_io_chosen_oh_0[1] & _arbs_3_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_3_0_0_0 = arbs_3_io_in_0_valid & _arbs_3_io_chosen_oh_0[0] & _arbs_3_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_2_0_4_0 = arbs_2_io_in_4_valid & _arbs_2_io_chosen_oh_0[4] & _arbs_2_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_2_0_3_0 = arbs_2_io_in_3_valid & _arbs_2_io_chosen_oh_0[3] & _arbs_2_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_2_0_2_0 = arbs_2_io_in_2_valid & _arbs_2_io_chosen_oh_0[2] & _arbs_2_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_2_0_1_0 = arbs_2_io_in_1_valid & _arbs_2_io_chosen_oh_0[1] & _arbs_2_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_2_0_0_0 = arbs_2_io_in_0_valid & _arbs_2_io_chosen_oh_0[0] & _arbs_2_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_1_0_4_0 = arbs_1_io_in_4_valid & _arbs_1_io_chosen_oh_0[4] & _arbs_1_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_1_0_3_0 = arbs_1_io_in_3_valid & _arbs_1_io_chosen_oh_0[3] & _arbs_1_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_1_0_2_0 = arbs_1_io_in_2_valid & _arbs_1_io_chosen_oh_0[2] & _arbs_1_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_1_0_1_0 = arbs_1_io_in_1_valid & _arbs_1_io_chosen_oh_0[1] & _arbs_1_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_1_0_0_0 = arbs_1_io_in_0_valid & _arbs_1_io_chosen_oh_0[0] & _arbs_1_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_0_0_4_0 = arbs_0_io_in_4_valid & _arbs_0_io_chosen_oh_0[4] & _arbs_0_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_0_0_3_0 = arbs_0_io_in_3_valid & _arbs_0_io_chosen_oh_0[3] & _arbs_0_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_0_0_2_0 = arbs_0_io_in_2_valid & _arbs_0_io_chosen_oh_0[2] & _arbs_0_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_0_0_1_0 = arbs_0_io_in_1_valid & _arbs_0_io_chosen_oh_0[1] & _arbs_0_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] assign io_switch_sel_0_0_0_0 = arbs_0_io_in_0_valid & _arbs_0_io_chosen_oh_0[0] & _arbs_0_io_out_0_valid; // @[SwitchAllocator.scala:64:7, :83:45, :95:37, :108:{65,91,97}] endmodule
Generate the Verilog code corresponding to the following Chisel files. File InputUnit.scala: package constellation.router import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.{Field, Parameters} import freechips.rocketchip.util._ import constellation.channel._ import constellation.routing.{FlowRoutingBundle} import constellation.noc.{HasNoCParams} class AbstractInputUnitIO( val cParam: BaseChannelParams, val outParams: Seq[ChannelParams], val egressParams: Seq[EgressChannelParams], )(implicit val p: Parameters) extends Bundle with HasRouterOutputParams { val nodeId = cParam.destId val router_req = Decoupled(new RouteComputerReq) val router_resp = Input(new RouteComputerResp(outParams, egressParams)) val vcalloc_req = Decoupled(new VCAllocReq(cParam, outParams, egressParams)) val vcalloc_resp = Input(new VCAllocResp(outParams, egressParams)) val out_credit_available = Input(MixedVec(allOutParams.map { u => Vec(u.nVirtualChannels, Bool()) })) val salloc_req = Vec(cParam.destSpeedup, Decoupled(new SwitchAllocReq(outParams, egressParams))) val out = Vec(cParam.destSpeedup, Valid(new SwitchBundle(outParams, egressParams))) val debug = Output(new Bundle { val va_stall = UInt(log2Ceil(cParam.nVirtualChannels).W) val sa_stall = UInt(log2Ceil(cParam.nVirtualChannels).W) }) val block = Input(Bool()) } abstract class AbstractInputUnit( val cParam: BaseChannelParams, val outParams: Seq[ChannelParams], val egressParams: Seq[EgressChannelParams] )(implicit val p: Parameters) extends Module with HasRouterOutputParams with HasNoCParams { val nodeId = cParam.destId def io: AbstractInputUnitIO } class InputBuffer(cParam: ChannelParams)(implicit p: Parameters) extends Module { val nVirtualChannels = cParam.nVirtualChannels val io = IO(new Bundle { val enq = Flipped(Vec(cParam.srcSpeedup, Valid(new Flit(cParam.payloadBits)))) val deq = Vec(cParam.nVirtualChannels, Decoupled(new BaseFlit(cParam.payloadBits))) }) val useOutputQueues = cParam.useOutputQueues val delims = if (useOutputQueues) { cParam.virtualChannelParams.map(u => if (u.traversable) u.bufferSize else 0).scanLeft(0)(_+_) } else { // If no queuing, have to add an additional slot since head == tail implies empty // TODO this should be fixed, should use all slots available cParam.virtualChannelParams.map(u => if (u.traversable) u.bufferSize + 1 else 0).scanLeft(0)(_+_) } val starts = delims.dropRight(1).zipWithIndex.map { case (s,i) => if (cParam.virtualChannelParams(i).traversable) s else 0 } val ends = delims.tail.zipWithIndex.map { case (s,i) => if (cParam.virtualChannelParams(i).traversable) s else 0 } val fullSize = delims.last // Ugly case. Use multiple queues if ((cParam.srcSpeedup > 1 || cParam.destSpeedup > 1 || fullSize <= 1) || !cParam.unifiedBuffer) { require(useOutputQueues) val qs = cParam.virtualChannelParams.map(v => Module(new Queue(new BaseFlit(cParam.payloadBits), v.bufferSize))) qs.zipWithIndex.foreach { case (q,i) => val sel = io.enq.map(f => f.valid && f.bits.virt_channel_id === i.U) q.io.enq.valid := sel.orR q.io.enq.bits.head := Mux1H(sel, io.enq.map(_.bits.head)) q.io.enq.bits.tail := Mux1H(sel, io.enq.map(_.bits.tail)) q.io.enq.bits.payload := Mux1H(sel, io.enq.map(_.bits.payload)) io.deq(i) <> q.io.deq } } else { val mem = Mem(fullSize, new BaseFlit(cParam.payloadBits)) val heads = RegInit(VecInit(starts.map(_.U(log2Ceil(fullSize).W)))) val tails = RegInit(VecInit(starts.map(_.U(log2Ceil(fullSize).W)))) val empty = (heads zip tails).map(t => t._1 === t._2) val qs = Seq.fill(nVirtualChannels) { Module(new Queue(new BaseFlit(cParam.payloadBits), 1, pipe=true)) } qs.foreach(_.io.enq.valid := false.B) qs.foreach(_.io.enq.bits := DontCare) val vc_sel = UIntToOH(io.enq(0).bits.virt_channel_id) val flit = Wire(new BaseFlit(cParam.payloadBits)) val direct_to_q = (Mux1H(vc_sel, qs.map(_.io.enq.ready)) && Mux1H(vc_sel, empty)) && useOutputQueues.B flit.head := io.enq(0).bits.head flit.tail := io.enq(0).bits.tail flit.payload := io.enq(0).bits.payload when (io.enq(0).valid && !direct_to_q) { val tail = tails(io.enq(0).bits.virt_channel_id) mem.write(tail, flit) tails(io.enq(0).bits.virt_channel_id) := Mux( tail === Mux1H(vc_sel, ends.map(_ - 1).map(_ max 0).map(_.U)), Mux1H(vc_sel, starts.map(_.U)), tail + 1.U) } .elsewhen (io.enq(0).valid && direct_to_q) { for (i <- 0 until nVirtualChannels) { when (io.enq(0).bits.virt_channel_id === i.U) { qs(i).io.enq.valid := true.B qs(i).io.enq.bits := flit } } } if (useOutputQueues) { val can_to_q = (0 until nVirtualChannels).map { i => !empty(i) && qs(i).io.enq.ready } val to_q_oh = PriorityEncoderOH(can_to_q) val to_q = OHToUInt(to_q_oh) when (can_to_q.orR) { val head = Mux1H(to_q_oh, heads) heads(to_q) := Mux( head === Mux1H(to_q_oh, ends.map(_ - 1).map(_ max 0).map(_.U)), Mux1H(to_q_oh, starts.map(_.U)), head + 1.U) for (i <- 0 until nVirtualChannels) { when (to_q_oh(i)) { qs(i).io.enq.valid := true.B qs(i).io.enq.bits := mem.read(head) } } } for (i <- 0 until nVirtualChannels) { io.deq(i) <> qs(i).io.deq } } else { qs.map(_.io.deq.ready := false.B) val ready_sel = io.deq.map(_.ready) val fire = io.deq.map(_.fire) assert(PopCount(fire) <= 1.U) val head = Mux1H(fire, heads) when (fire.orR) { val fire_idx = OHToUInt(fire) heads(fire_idx) := Mux( head === Mux1H(fire, ends.map(_ - 1).map(_ max 0).map(_.U)), Mux1H(fire, starts.map(_.U)), head + 1.U) } val read_flit = mem.read(head) for (i <- 0 until nVirtualChannels) { io.deq(i).valid := !empty(i) io.deq(i).bits := read_flit } } } } class InputUnit(cParam: ChannelParams, outParams: Seq[ChannelParams], egressParams: Seq[EgressChannelParams], combineRCVA: Boolean, combineSAST: Boolean ) (implicit p: Parameters) extends AbstractInputUnit(cParam, outParams, egressParams)(p) { val nVirtualChannels = cParam.nVirtualChannels val virtualChannelParams = cParam.virtualChannelParams class InputUnitIO extends AbstractInputUnitIO(cParam, outParams, egressParams) { val in = Flipped(new Channel(cParam.asInstanceOf[ChannelParams])) } val io = IO(new InputUnitIO) val g_i :: g_r :: g_v :: g_a :: g_c :: Nil = Enum(5) class InputState extends Bundle { val g = UInt(3.W) val vc_sel = MixedVec(allOutParams.map { u => Vec(u.nVirtualChannels, Bool()) }) val flow = new FlowRoutingBundle val fifo_deps = UInt(nVirtualChannels.W) } val input_buffer = Module(new InputBuffer(cParam)) for (i <- 0 until cParam.srcSpeedup) { input_buffer.io.enq(i) := io.in.flit(i) } input_buffer.io.deq.foreach(_.ready := false.B) val route_arbiter = Module(new Arbiter( new RouteComputerReq, nVirtualChannels )) io.router_req <> route_arbiter.io.out val states = Reg(Vec(nVirtualChannels, new InputState)) val anyFifo = cParam.possibleFlows.map(_.fifo).reduce(_||_) val allFifo = cParam.possibleFlows.map(_.fifo).reduce(_&&_) if (anyFifo) { val idle_mask = VecInit(states.map(_.g === g_i)).asUInt for (s <- states) for (i <- 0 until nVirtualChannels) s.fifo_deps := s.fifo_deps & ~idle_mask } for (i <- 0 until cParam.srcSpeedup) { when (io.in.flit(i).fire && io.in.flit(i).bits.head) { val id = io.in.flit(i).bits.virt_channel_id assert(id < nVirtualChannels.U) assert(states(id).g === g_i) val at_dest = io.in.flit(i).bits.flow.egress_node === nodeId.U states(id).g := Mux(at_dest, g_v, g_r) states(id).vc_sel.foreach(_.foreach(_ := false.B)) for (o <- 0 until nEgress) { when (o.U === io.in.flit(i).bits.flow.egress_node_id) { states(id).vc_sel(o+nOutputs)(0) := true.B } } states(id).flow := io.in.flit(i).bits.flow if (anyFifo) { val fifo = cParam.possibleFlows.filter(_.fifo).map(_.isFlow(io.in.flit(i).bits.flow)).toSeq.orR states(id).fifo_deps := VecInit(states.zipWithIndex.map { case (s, j) => s.g =/= g_i && s.flow.asUInt === io.in.flit(i).bits.flow.asUInt && j.U =/= id }).asUInt } } } (route_arbiter.io.in zip states).zipWithIndex.map { case ((i,s),idx) => if (virtualChannelParams(idx).traversable) { i.valid := s.g === g_r i.bits.flow := s.flow i.bits.src_virt_id := idx.U when (i.fire) { s.g := g_v } } else { i.valid := false.B i.bits := DontCare } } when (io.router_req.fire) { val id = io.router_req.bits.src_virt_id assert(states(id).g === g_r) states(id).g := g_v for (i <- 0 until nVirtualChannels) { when (i.U === id) { states(i).vc_sel := io.router_resp.vc_sel } } } val mask = RegInit(0.U(nVirtualChannels.W)) val vcalloc_reqs = Wire(Vec(nVirtualChannels, new VCAllocReq(cParam, outParams, egressParams))) val vcalloc_vals = Wire(Vec(nVirtualChannels, Bool())) val vcalloc_filter = PriorityEncoderOH(Cat(vcalloc_vals.asUInt, vcalloc_vals.asUInt & ~mask)) val vcalloc_sel = vcalloc_filter(nVirtualChannels-1,0) | (vcalloc_filter >> nVirtualChannels) // Prioritize incoming packetes when (io.router_req.fire) { mask := (1.U << io.router_req.bits.src_virt_id) - 1.U } .elsewhen (vcalloc_vals.orR) { mask := Mux1H(vcalloc_sel, (0 until nVirtualChannels).map { w => ~(0.U((w+1).W)) }) } io.vcalloc_req.valid := vcalloc_vals.orR io.vcalloc_req.bits := Mux1H(vcalloc_sel, vcalloc_reqs) states.zipWithIndex.map { case (s,idx) => if (virtualChannelParams(idx).traversable) { vcalloc_vals(idx) := s.g === g_v && s.fifo_deps === 0.U vcalloc_reqs(idx).in_vc := idx.U vcalloc_reqs(idx).vc_sel := s.vc_sel vcalloc_reqs(idx).flow := s.flow when (vcalloc_vals(idx) && vcalloc_sel(idx) && io.vcalloc_req.ready) { s.g := g_a } if (combineRCVA) { when (route_arbiter.io.in(idx).fire) { vcalloc_vals(idx) := true.B vcalloc_reqs(idx).vc_sel := io.router_resp.vc_sel } } } else { vcalloc_vals(idx) := false.B vcalloc_reqs(idx) := DontCare } } io.debug.va_stall := PopCount(vcalloc_vals) - io.vcalloc_req.ready when (io.vcalloc_req.fire) { for (i <- 0 until nVirtualChannels) { when (vcalloc_sel(i)) { states(i).vc_sel := io.vcalloc_resp.vc_sel states(i).g := g_a if (!combineRCVA) { assert(states(i).g === g_v) } } } } val salloc_arb = Module(new SwitchArbiter( nVirtualChannels, cParam.destSpeedup, outParams, egressParams )) (states zip salloc_arb.io.in).zipWithIndex.map { case ((s,r),i) => if (virtualChannelParams(i).traversable) { val credit_available = (s.vc_sel.asUInt & io.out_credit_available.asUInt) =/= 0.U r.valid := s.g === g_a && credit_available && input_buffer.io.deq(i).valid r.bits.vc_sel := s.vc_sel val deq_tail = input_buffer.io.deq(i).bits.tail r.bits.tail := deq_tail when (r.fire && deq_tail) { s.g := g_i } input_buffer.io.deq(i).ready := r.ready } else { r.valid := false.B r.bits := DontCare } } io.debug.sa_stall := PopCount(salloc_arb.io.in.map(r => r.valid && !r.ready)) io.salloc_req <> salloc_arb.io.out when (io.block) { salloc_arb.io.out.foreach(_.ready := false.B) io.salloc_req.foreach(_.valid := false.B) } class OutBundle extends Bundle { val valid = Bool() val vid = UInt(virtualChannelBits.W) val out_vid = UInt(log2Up(allOutParams.map(_.nVirtualChannels).max).W) val flit = new Flit(cParam.payloadBits) } val salloc_outs = if (combineSAST) { Wire(Vec(cParam.destSpeedup, new OutBundle)) } else { Reg(Vec(cParam.destSpeedup, new OutBundle)) } io.in.credit_return := salloc_arb.io.out.zipWithIndex.map { case (o, i) => Mux(o.fire, salloc_arb.io.chosen_oh(i), 0.U) }.reduce(_|_) io.in.vc_free := salloc_arb.io.out.zipWithIndex.map { case (o, i) => Mux(o.fire && Mux1H(salloc_arb.io.chosen_oh(i), input_buffer.io.deq.map(_.bits.tail)), salloc_arb.io.chosen_oh(i), 0.U) }.reduce(_|_) for (i <- 0 until cParam.destSpeedup) { val salloc_out = salloc_outs(i) salloc_out.valid := salloc_arb.io.out(i).fire salloc_out.vid := OHToUInt(salloc_arb.io.chosen_oh(i)) val vc_sel = Mux1H(salloc_arb.io.chosen_oh(i), states.map(_.vc_sel)) val channel_oh = vc_sel.map(_.reduce(_||_)).toSeq val virt_channel = Mux1H(channel_oh, vc_sel.map(v => OHToUInt(v)).toSeq) when (salloc_arb.io.out(i).fire) { salloc_out.out_vid := virt_channel salloc_out.flit.payload := Mux1H(salloc_arb.io.chosen_oh(i), input_buffer.io.deq.map(_.bits.payload)) salloc_out.flit.head := Mux1H(salloc_arb.io.chosen_oh(i), input_buffer.io.deq.map(_.bits.head)) salloc_out.flit.tail := Mux1H(salloc_arb.io.chosen_oh(i), input_buffer.io.deq.map(_.bits.tail)) salloc_out.flit.flow := Mux1H(salloc_arb.io.chosen_oh(i), states.map(_.flow)) } .otherwise { salloc_out.out_vid := DontCare salloc_out.flit := DontCare } salloc_out.flit.virt_channel_id := DontCare // this gets set in the switch io.out(i).valid := salloc_out.valid io.out(i).bits.flit := salloc_out.flit io.out(i).bits.out_virt_channel := salloc_out.out_vid } def filterVCSel(sel: MixedVec[Vec[Bool]], srcV: Int) = { if (virtualChannelParams(srcV).traversable) { outParams.zipWithIndex.map { case (oP, oI) => (0 until oP.nVirtualChannels).map { oV => var allow = false virtualChannelParams(srcV).possibleFlows.foreach { pI => allow = allow || routingRelation( cParam.channelRoutingInfos(srcV), oP.channelRoutingInfos(oV), pI ) } if (!allow) sel(oI)(oV) := false.B } } } } (0 until nVirtualChannels).map { i => if (!virtualChannelParams(i).traversable) states(i) := DontCare filterVCSel(states(i).vc_sel, i) } when (reset.asBool) { states.foreach(_.g := g_i) } }
module InputUnit_40( // @[InputUnit.scala:158:7] input clock, // @[InputUnit.scala:158:7] input reset, // @[InputUnit.scala:158:7] output [1:0] io_router_req_bits_src_virt_id, // @[InputUnit.scala:170:14] output [1:0] io_router_req_bits_flow_vnet_id, // @[InputUnit.scala:170:14] output [3:0] io_router_req_bits_flow_ingress_node, // @[InputUnit.scala:170:14] output [2:0] io_router_req_bits_flow_ingress_node_id, // @[InputUnit.scala:170:14] output [3:0] io_router_req_bits_flow_egress_node, // @[InputUnit.scala:170:14] output [1:0] io_router_req_bits_flow_egress_node_id, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_2_0, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_2_1, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_2_2, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_1_0, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_1_1, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_1_2, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_0_0, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_0_1, // @[InputUnit.scala:170:14] input io_router_resp_vc_sel_0_2, // @[InputUnit.scala:170:14] input io_vcalloc_req_ready, // @[InputUnit.scala:170:14] output io_vcalloc_req_valid, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_3_0, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_2_0, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_2_1, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_2_2, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_1_0, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_1_1, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_1_2, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_0_0, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_0_1, // @[InputUnit.scala:170:14] output io_vcalloc_req_bits_vc_sel_0_2, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_3_0, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_2_1, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_2_2, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_0_1, // @[InputUnit.scala:170:14] input io_vcalloc_resp_vc_sel_0_2, // @[InputUnit.scala:170:14] input io_out_credit_available_3_0, // @[InputUnit.scala:170:14] input io_out_credit_available_2_1, // @[InputUnit.scala:170:14] input io_out_credit_available_2_2, // @[InputUnit.scala:170:14] input io_out_credit_available_1_2, // @[InputUnit.scala:170:14] input io_out_credit_available_0_1, // @[InputUnit.scala:170:14] input io_out_credit_available_0_2, // @[InputUnit.scala:170:14] input io_salloc_req_0_ready, // @[InputUnit.scala:170:14] output io_salloc_req_0_valid, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_3_0, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_2_0, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_2_1, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_2_2, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_1_0, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_1_1, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_1_2, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_0_0, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_0_1, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_vc_sel_0_2, // @[InputUnit.scala:170:14] output io_salloc_req_0_bits_tail, // @[InputUnit.scala:170:14] output io_out_0_valid, // @[InputUnit.scala:170:14] output io_out_0_bits_flit_head, // @[InputUnit.scala:170:14] output io_out_0_bits_flit_tail, // @[InputUnit.scala:170:14] output [144:0] io_out_0_bits_flit_payload, // @[InputUnit.scala:170:14] output [1:0] io_out_0_bits_flit_flow_vnet_id, // @[InputUnit.scala:170:14] output [3:0] io_out_0_bits_flit_flow_ingress_node, // @[InputUnit.scala:170:14] output [2:0] io_out_0_bits_flit_flow_ingress_node_id, // @[InputUnit.scala:170:14] output [3:0] io_out_0_bits_flit_flow_egress_node, // @[InputUnit.scala:170:14] output [1:0] io_out_0_bits_flit_flow_egress_node_id, // @[InputUnit.scala:170:14] output [1:0] io_out_0_bits_out_virt_channel, // @[InputUnit.scala:170:14] output [1:0] io_debug_va_stall, // @[InputUnit.scala:170:14] output [1:0] io_debug_sa_stall, // @[InputUnit.scala:170:14] input io_in_flit_0_valid, // @[InputUnit.scala:170:14] input io_in_flit_0_bits_head, // @[InputUnit.scala:170:14] input io_in_flit_0_bits_tail, // @[InputUnit.scala:170:14] input [144:0] io_in_flit_0_bits_payload, // @[InputUnit.scala:170:14] input [1:0] io_in_flit_0_bits_flow_vnet_id, // @[InputUnit.scala:170:14] input [3:0] io_in_flit_0_bits_flow_ingress_node, // @[InputUnit.scala:170:14] input [2:0] io_in_flit_0_bits_flow_ingress_node_id, // @[InputUnit.scala:170:14] input [3:0] io_in_flit_0_bits_flow_egress_node, // @[InputUnit.scala:170:14] input [1:0] io_in_flit_0_bits_flow_egress_node_id, // @[InputUnit.scala:170:14] input [1:0] io_in_flit_0_bits_virt_channel_id, // @[InputUnit.scala:170:14] output [2:0] io_in_credit_return, // @[InputUnit.scala:170:14] output [2:0] io_in_vc_free // @[InputUnit.scala:170:14] ); wire _GEN; // @[MixedVec.scala:116:9] wire vcalloc_reqs_2_vc_sel_2_2; // @[MixedVec.scala:116:9] wire vcalloc_reqs_2_vc_sel_0_2; // @[MixedVec.scala:116:9] wire vcalloc_vals_2; // @[InputUnit.scala:266:25, :272:46, :273:29] wire _GEN_0; // @[MixedVec.scala:116:9] wire vcalloc_reqs_1_vc_sel_2_1; // @[MixedVec.scala:116:9] wire vcalloc_reqs_1_vc_sel_0_1; // @[MixedVec.scala:116:9] wire vcalloc_vals_1; // @[InputUnit.scala:266:25, :272:46, :273:29] wire _salloc_arb_io_in_1_ready; // @[InputUnit.scala:296:26] wire _salloc_arb_io_in_2_ready; // @[InputUnit.scala:296:26] wire _salloc_arb_io_out_0_valid; // @[InputUnit.scala:296:26] wire [2:0] _salloc_arb_io_chosen_oh_0; // @[InputUnit.scala:296:26] wire _route_arbiter_io_in_1_ready; // @[InputUnit.scala:187:29] wire _route_arbiter_io_in_2_ready; // @[InputUnit.scala:187:29] wire _route_arbiter_io_out_valid; // @[InputUnit.scala:187:29] wire [1:0] _route_arbiter_io_out_bits_src_virt_id; // @[InputUnit.scala:187:29] wire _input_buffer_io_deq_0_bits_head; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_0_bits_tail; // @[InputUnit.scala:181:28] wire [144:0] _input_buffer_io_deq_0_bits_payload; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_1_valid; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_1_bits_head; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_1_bits_tail; // @[InputUnit.scala:181:28] wire [144:0] _input_buffer_io_deq_1_bits_payload; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_2_valid; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_2_bits_head; // @[InputUnit.scala:181:28] wire _input_buffer_io_deq_2_bits_tail; // @[InputUnit.scala:181:28] wire [144:0] _input_buffer_io_deq_2_bits_payload; // @[InputUnit.scala:181:28] reg [2:0] states_1_g; // @[InputUnit.scala:192:19] reg states_1_vc_sel_3_0; // @[InputUnit.scala:192:19] reg states_1_vc_sel_2_1; // @[InputUnit.scala:192:19] reg states_1_vc_sel_0_1; // @[InputUnit.scala:192:19] reg [1:0] states_1_flow_vnet_id; // @[InputUnit.scala:192:19] reg [3:0] states_1_flow_ingress_node; // @[InputUnit.scala:192:19] reg [2:0] states_1_flow_ingress_node_id; // @[InputUnit.scala:192:19] reg [3:0] states_1_flow_egress_node; // @[InputUnit.scala:192:19] reg [1:0] states_1_flow_egress_node_id; // @[InputUnit.scala:192:19] reg [2:0] states_2_g; // @[InputUnit.scala:192:19] reg states_2_vc_sel_3_0; // @[InputUnit.scala:192:19] reg states_2_vc_sel_2_2; // @[InputUnit.scala:192:19] reg states_2_vc_sel_0_2; // @[InputUnit.scala:192:19] reg [1:0] states_2_flow_vnet_id; // @[InputUnit.scala:192:19] reg [3:0] states_2_flow_ingress_node; // @[InputUnit.scala:192:19] reg [2:0] states_2_flow_ingress_node_id; // @[InputUnit.scala:192:19] reg [3:0] states_2_flow_egress_node; // @[InputUnit.scala:192:19] reg [1:0] states_2_flow_egress_node_id; // @[InputUnit.scala:192:19] wire _GEN_1 = io_in_flit_0_valid & io_in_flit_0_bits_head; // @[InputUnit.scala:205:30] wire route_arbiter_io_in_1_valid = states_1_g == 3'h1; // @[InputUnit.scala:192:19, :229:22] wire _GEN_2 = _route_arbiter_io_in_1_ready & route_arbiter_io_in_1_valid; // @[Decoupled.scala:51:35] wire route_arbiter_io_in_2_valid = states_2_g == 3'h1; // @[InputUnit.scala:192:19, :229:22] wire _GEN_3 = _route_arbiter_io_in_2_ready & route_arbiter_io_in_2_valid; // @[Decoupled.scala:51:35]
Generate the Verilog code corresponding to the following Chisel files. File TagArray.scala: package shuttle.dmem import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.diplomacy._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.util._ import freechips.rocketchip.rocket._ import freechips.rocketchip.tile.{TileKey} class L1MetadataArrayBank[T <: L1Metadata](onReset: () => T, nSets: Int)(implicit p: Parameters) extends L1HellaCacheModule()(p) { val rstVal = onReset() val io = IO(new Bundle { val read = Flipped(Decoupled(new L1MetaReadReq)) val write = Flipped(Decoupled(new L1MetaWriteReq)) val resp = Vec(nWays, Output(rstVal.cloneType)) }) val rst_cnt = RegInit(0.U(log2Up(nSets+1).W)) val rst = rst_cnt < nSets.U val waddr = Mux(rst, rst_cnt, io.write.bits.idx) val wdata = Mux(rst, rstVal, io.write.bits.data).asUInt val wmask = Mux(rst || (nWays == 1).B, ~(0.U(nWays.W)), io.write.bits.way_en).asBools val rmask = Mux(rst || (nWays == 1).B, ~(0.U(nWays.W)), io.read.bits.way_en).asBools when (rst) { rst_cnt := rst_cnt + 1.U } val metabits = rstVal.getWidth val tag_array = SyncReadMem(nSets, Vec(nWays, UInt(metabits.W))) val wen = Wire(Bool()) val ren = Wire(Bool()) val stall_ctr = RegInit(0.U(2.W)) val stall_read = stall_ctr === ~(0.U(2.W)) val force_stall = WireInit(false.B) val rbuf_valid = RegInit(false.B) val rbuf_idx = Reg(UInt(log2Ceil(nSets).W)) val rbuf = Reg(io.resp.cloneType) val forward_from_rbuf = WireInit(false.B) when (io.read.valid && force_stall) { stall_ctr := stall_ctr + 1.U } .otherwise { stall_ctr := 0.U } when (rst) { wen := true.B ren := false.B io.read.ready := false.B io.write.ready := false.B } .otherwise { when (io.read.valid && !stall_read) { when (io.read.bits.idx === rbuf_idx && rbuf_valid) { forward_from_rbuf := true.B ren := false.B wen := io.write.valid io.read.ready := true.B io.write.ready := true.B } .otherwise { ren := true.B wen := false.B io.read.ready := true.B io.write.ready := false.B force_stall := io.write.valid } } .otherwise { ren := false.B wen := io.write.valid io.read.ready := false.B io.write.ready := true.B } } val s1_read_idx = RegEnable(io.read.bits.idx, io.read.valid) when (RegNext(io.read.fire && !forward_from_rbuf) && !(io.write.valid && io.write.bits.idx === s1_read_idx)) { rbuf_valid := true.B rbuf_idx := s1_read_idx rbuf := io.resp } when (io.write.valid && io.write.bits.idx === rbuf_idx) { rbuf_valid := false.B } when (wen) { tag_array.write(waddr, VecInit(Seq.fill(nWays) { wdata }), wmask) } io.resp := tag_array.read(io.read.bits.idx, ren && !wen).map(_.asTypeOf(rstVal)) when (RegNext(forward_from_rbuf)) { io.resp := RegEnable(rbuf, forward_from_rbuf) } } class L1MetadataArrayBanked[T <: L1Metadata](onReset: () => T, nBanks: Int, nReadPorts: Int, nWritePorts: Int)(implicit p: Parameters) extends L1HellaCacheModule()(p) { val rstVal = onReset() val io = IO(new Bundle { val read = Flipped(Vec(nReadPorts, Decoupled(new L1MetaReadReq))) val write = Flipped(Vec(nWritePorts, Decoupled(new L1MetaWriteReq))) val resp = Vec(nReadPorts, Vec(nWays, Output(rstVal.cloneType))) }) // No banking, duplicate the arrays if (nBanks == 0) { val arrays = Seq.fill(nReadPorts) { Module(new L1MetadataArrayBank(onReset, nSets)) } (io.read zip arrays).map { case (r,a) => a.io.read <> r } (io.resp zip arrays).map { case (r,a) => r <> a.io.resp } val write_arb = Module(new Arbiter(new L1MetaWriteReq, nWritePorts)) write_arb.io.in <> io.write write_arb.io.out.ready := arrays.map(_.io.write.ready).reduce(_&&_) arrays.foreach(_.io.write.bits := write_arb.io.out.bits) arrays.zipWithIndex.foreach { case (a,i) => a.io.write.valid := write_arb.io.out.valid && arrays.patch(i, Nil, 1).map(_.io.write.ready).reduce(_&&_) } } else if (nBanks == 1) { val array = Module(new L1MetadataArrayBank(onReset, nSets)) val arb = Module(new Arbiter(new L1MetaReadReq, nReadPorts)) arb.io.in <> io.read array.io.read <> arb.io.out io.resp.foreach(_ <> array.io.resp) val write_arb = Module(new Arbiter(new L1MetaWriteReq, nWritePorts)) write_arb.io.in <> io.write array.io.write <> write_arb.io.out } else { val bankBits = log2Ceil(nBanks) val arrays = Seq.fill(nBanks) { Module(new L1MetadataArrayBank(onReset, nSets/nBanks)) } val arbs = Seq.fill(nBanks) { Module(new Arbiter(new L1MetaReadReq, nReadPorts)) } val write_arbs = Seq.fill(nBanks) { Module(new Arbiter(new L1MetaWriteReq, nWritePorts)) } io.read.foreach(_.ready := false.B) io.resp.foreach(_ := DontCare) for (i <- 0 until nReadPorts) { for (b <- 0 until nBanks) { arbs(b).io.in(i).valid := io.read(i).valid && io.read(i).bits.idx(bankBits-1,0) === b.U arbs(b).io.in(i).bits := io.read(i).bits arbs(b).io.in(i).bits.idx := io.read(i).bits.idx >> bankBits when (io.read(i).bits.idx(bankBits-1,0) === b.U) { io.read(i).ready := arbs(b).io.in(i).ready } } io.resp(i) := Mux1H(UIntToOH(RegNext(io.read(i).bits.idx(bankBits-1,0))), arrays.map(_.io.resp)) } (arbs zip arrays).map { case (r,a) => a.io.read <> r.io.out } io.write.foreach(_.ready := false.B) for (i <- 0 until nWritePorts) { for (b <- 0 until nBanks) { write_arbs(b).io.in(i).valid := io.write(i).valid && io.write(i).bits.idx(bankBits-1,0) === b.U write_arbs(b).io.in(i).bits := io.write(i).bits write_arbs(b).io.in(i).bits.idx := io.write(i).bits.idx >> bankBits when (io.write(i).bits.idx(bankBits-1,0) === b.U) { io.write(i).ready := write_arbs(b).io.in(i).ready } } } (write_arbs zip arrays).map { case (r,a) => a.io.write <> r.io.out } } }
module tag_array_2( // @[TagArray.scala:28:30] input [3:0] RW0_addr, input RW0_en, input RW0_clk, input RW0_wmode, input [87:0] RW0_wdata, output [87:0] RW0_rdata, input [3:0] RW0_wmask ); tag_array_0_ext tag_array_0_ext ( // @[TagArray.scala:28:30] .RW0_addr (RW0_addr), .RW0_en (RW0_en), .RW0_clk (RW0_clk), .RW0_wmode (RW0_wmode), .RW0_wdata (RW0_wdata), .RW0_rdata (RW0_rdata), .RW0_wmask (RW0_wmask) ); // @[TagArray.scala:28:30] endmodule
Generate the Verilog code corresponding to the following Chisel files. File ShiftReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ // Similar to the Chisel ShiftRegister but allows the user to suggest a // name to the registers that get instantiated, and // to provide a reset value. object ShiftRegInit { def apply[T <: Data](in: T, n: Int, init: T, name: Option[String] = None): T = (0 until n).foldRight(in) { case (i, next) => { val r = RegNext(next, init) name.foreach { na => r.suggestName(s"${na}_${i}") } r } } } /** These wrap behavioral * shift registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * The different types vary in their reset behavior: * AsyncResetShiftReg -- Asynchronously reset register array * A W(width) x D(depth) sized array is constructed from D instantiations of a * W-wide register vector. Functionally identical to AsyncResetSyncrhonizerShiftReg, * but only used for timing applications */ abstract class AbstractPipelineReg(w: Int = 1) extends Module { val io = IO(new Bundle { val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) } ) } object AbstractPipelineReg { def apply [T <: Data](gen: => AbstractPipelineReg, in: T, name: Option[String] = None): T = { val chain = Module(gen) name.foreach{ chain.suggestName(_) } chain.io.d := in.asUInt chain.io.q.asTypeOf(in) } } class AsyncResetShiftReg(w: Int = 1, depth: Int = 1, init: Int = 0, name: String = "pipe") extends AbstractPipelineReg(w) { require(depth > 0, "Depth must be greater than 0.") override def desiredName = s"AsyncResetShiftReg_w${w}_d${depth}_i${init}" val chain = List.tabulate(depth) { i => Module (new AsyncResetRegVec(w, init)).suggestName(s"${name}_${i}") } chain.last.io.d := io.d chain.last.io.en := true.B (chain.init zip chain.tail).foreach { case (sink, source) => sink.io.d := source.io.q sink.io.en := true.B } io.q := chain.head.io.q } object AsyncResetShiftReg { def apply [T <: Data](in: T, depth: Int, init: Int = 0, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetShiftReg(in.getWidth, depth, init), in, name) def apply [T <: Data](in: T, depth: Int, name: Option[String]): T = apply(in, depth, 0, name) def apply [T <: Data](in: T, depth: Int, init: T, name: Option[String]): T = apply(in, depth, init.litValue.toInt, name) def apply [T <: Data](in: T, depth: Int, init: T): T = apply (in, depth, init.litValue.toInt, None) } File SynchronizerReg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util.{RegEnable, Cat} /** These wrap behavioral * shift and next registers into specific modules to allow for * backend flows to replace or constrain * them properly when used for CDC synchronization, * rather than buffering. * * * These are built up of *ResetSynchronizerPrimitiveShiftReg, * intended to be replaced by the integrator's metastable flops chains or replaced * at this level if they have a multi-bit wide synchronizer primitive. * The different types vary in their reset behavior: * NonSyncResetSynchronizerShiftReg -- Register array which does not have a reset pin * AsyncResetSynchronizerShiftReg -- Asynchronously reset register array, constructed from W instantiations of D deep * 1-bit-wide shift registers. * SyncResetSynchronizerShiftReg -- Synchronously reset register array, constructed similarly to AsyncResetSynchronizerShiftReg * * [Inferred]ResetSynchronizerShiftReg -- TBD reset type by chisel3 reset inference. * * ClockCrossingReg -- Not made up of SynchronizerPrimitiveShiftReg. This is for single-deep flops which cross * Clock Domains. */ object SynchronizerResetType extends Enumeration { val NonSync, Inferred, Sync, Async = Value } // Note: this should not be used directly. // Use the companion object to generate this with the correct reset type mixin. private class SynchronizerPrimitiveShiftReg( sync: Int, init: Boolean, resetType: SynchronizerResetType.Value) extends AbstractPipelineReg(1) { val initInt = if (init) 1 else 0 val initPostfix = resetType match { case SynchronizerResetType.NonSync => "" case _ => s"_i${initInt}" } override def desiredName = s"${resetType.toString}ResetSynchronizerPrimitiveShiftReg_d${sync}${initPostfix}" val chain = List.tabulate(sync) { i => val reg = if (resetType == SynchronizerResetType.NonSync) Reg(Bool()) else RegInit(init.B) reg.suggestName(s"sync_$i") } chain.last := io.d.asBool (chain.init zip chain.tail).foreach { case (sink, source) => sink := source } io.q := chain.head.asUInt } private object SynchronizerPrimitiveShiftReg { def apply (in: Bool, sync: Int, init: Boolean, resetType: SynchronizerResetType.Value): Bool = { val gen: () => SynchronizerPrimitiveShiftReg = resetType match { case SynchronizerResetType.NonSync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) case SynchronizerResetType.Async => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireAsyncReset case SynchronizerResetType.Sync => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) with RequireSyncReset case SynchronizerResetType.Inferred => () => new SynchronizerPrimitiveShiftReg(sync, init, resetType) } AbstractPipelineReg(gen(), in) } } // Note: This module may end up with a non-AsyncReset type reset. // But the Primitives within will always have AsyncReset type. class AsyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"AsyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asAsyncReset){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Async) } } io.q := Cat(output.reverse) } object AsyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new AsyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } // Note: This module may end up with a non-Bool type reset. // But the Primitives within will always have Bool reset type. @deprecated("SyncResetSynchronizerShiftReg is unecessary with Chisel3 inferred resets. Use ResetSynchronizerShiftReg which will use the inferred reset type.", "rocket-chip 1.2") class SyncResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SyncResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 withReset(reset.asBool){ SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Sync) } } io.q := Cat(output.reverse) } object SyncResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SyncResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class ResetSynchronizerShiftReg(w: Int = 1, sync: Int, init: Int) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"ResetSynchronizerShiftReg_w${w}_d${sync}_i${init}" val output = Seq.tabulate(w) { i => val initBit = ((init >> i) & 1) > 0 SynchronizerPrimitiveShiftReg(io.d(i), sync, initBit, SynchronizerResetType.Inferred) } io.q := Cat(output.reverse) } object ResetSynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, init: Int, name: Option[String] = None): T = AbstractPipelineReg(new ResetSynchronizerShiftReg(in.getWidth, sync, init), in, name) def apply [T <: Data](in: T, sync: Int, name: Option[String]): T = apply (in, sync, 0, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, 0, None) def apply [T <: Data](in: T, sync: Int, init: T, name: Option[String]): T = apply(in, sync, init.litValue.toInt, name) def apply [T <: Data](in: T, sync: Int, init: T): T = apply (in, sync, init.litValue.toInt, None) } class SynchronizerShiftReg(w: Int = 1, sync: Int = 3) extends AbstractPipelineReg(w) { require(sync > 1, s"Sync must be greater than 1, not ${sync}.") override def desiredName = s"SynchronizerShiftReg_w${w}_d${sync}" val output = Seq.tabulate(w) { i => SynchronizerPrimitiveShiftReg(io.d(i), sync, false, SynchronizerResetType.NonSync) } io.q := Cat(output.reverse) } object SynchronizerShiftReg { def apply [T <: Data](in: T, sync: Int, name: Option[String] = None): T = if (sync == 0) in else AbstractPipelineReg(new SynchronizerShiftReg(in.getWidth, sync), in, name) def apply [T <: Data](in: T, sync: Int): T = apply (in, sync, None) def apply [T <: Data](in: T): T = apply (in, 3, None) } class ClockCrossingReg(w: Int = 1, doInit: Boolean) extends Module { override def desiredName = s"ClockCrossingReg_w${w}" val io = IO(new Bundle{ val d = Input(UInt(w.W)) val q = Output(UInt(w.W)) val en = Input(Bool()) }) val cdc_reg = if (doInit) RegEnable(io.d, 0.U(w.W), io.en) else RegEnable(io.d, io.en) io.q := cdc_reg } object ClockCrossingReg { def apply [T <: Data](in: T, en: Bool, doInit: Boolean, name: Option[String] = None): T = { val cdc_reg = Module(new ClockCrossingReg(in.getWidth, doInit)) name.foreach{ cdc_reg.suggestName(_) } cdc_reg.io.d := in.asUInt cdc_reg.io.en := en cdc_reg.io.q.asTypeOf(in) } }
module AsyncResetSynchronizerShiftReg_w1_d3_i0_110( // @[SynchronizerReg.scala:80:7] input clock, // @[SynchronizerReg.scala:80:7] input reset, // @[SynchronizerReg.scala:80:7] output io_q // @[ShiftReg.scala:36:14] ); wire _output_T = reset; // @[SynchronizerReg.scala:86:21] wire io_d = 1'h1; // @[SynchronizerReg.scala:80:7, :87:41] wire _output_T_1 = 1'h1; // @[SynchronizerReg.scala:80:7, :87:41] wire output_0; // @[ShiftReg.scala:48:24] wire io_q_0; // @[SynchronizerReg.scala:80:7] assign io_q_0 = output_0; // @[SynchronizerReg.scala:80:7] AsyncResetSynchronizerPrimitiveShiftReg_d3_i0_190 output_chain ( // @[ShiftReg.scala:45:23] .clock (clock), .reset (_output_T), // @[SynchronizerReg.scala:86:21] .io_q (output_0) ); // @[ShiftReg.scala:45:23] assign io_q = io_q_0; // @[SynchronizerReg.scala:80:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Monitor.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceLine import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import freechips.rocketchip.diplomacy.EnableMonitors import freechips.rocketchip.formal.{MonitorDirection, IfThen, Property, PropertyClass, TestplanTestType, TLMonitorStrictMode} import freechips.rocketchip.util.PlusArg case class TLMonitorArgs(edge: TLEdge) abstract class TLMonitorBase(args: TLMonitorArgs) extends Module { val io = IO(new Bundle { val in = Input(new TLBundle(args.edge.bundle)) }) def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit legalize(io.in, args.edge, reset) } object TLMonitor { def apply(enable: Boolean, node: TLNode)(implicit p: Parameters): TLNode = { if (enable) { EnableMonitors { implicit p => node := TLEphemeralNode()(ValName("monitor")) } } else { node } } } class TLMonitor(args: TLMonitorArgs, monitorDir: MonitorDirection = MonitorDirection.Monitor) extends TLMonitorBase(args) { require (args.edge.params(TLMonitorStrictMode) || (! args.edge.params(TestplanTestType).formal)) val cover_prop_class = PropertyClass.Default //Like assert but can flip to being an assumption for formal verification def monAssert(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir, cond, message, PropertyClass.Default) } def assume(cond: Bool, message: String): Unit = if (monitorDir == MonitorDirection.Monitor) { assert(cond, message) } else { Property(monitorDir.flip, cond, message, PropertyClass.Default) } def extra = { args.edge.sourceInfo match { case SourceLine(filename, line, col) => s" (connected at $filename:$line:$col)" case _ => "" } } def visible(address: UInt, source: UInt, edge: TLEdge) = edge.client.clients.map { c => !c.sourceId.contains(source) || c.visibility.map(_.contains(address)).reduce(_ || _) }.reduce(_ && _) def legalizeFormatA(bundle: TLBundleA, edge: TLEdge): Unit = { //switch this flag to turn on diplomacy in error messages def diplomacyInfo = if (true) "" else "\nThe diplomacy information for the edge is as follows:\n" + edge.formatEdge + "\n" monAssert (TLMessages.isA(bundle.opcode), "'A' channel has invalid opcode" + extra) // Reuse these subexpressions to save some firrtl lines val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) monAssert (visible(edge.address(bundle), bundle.source, edge), "'A' channel carries an address illegal for the specified bank visibility") //The monitor doesn’t check for acquire T vs acquire B, it assumes that acquire B implies acquire T and only checks for acquire B //TODO: check for acquireT? when (bundle.opcode === TLMessages.AcquireBlock) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquireBlock from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquireBlock carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquireBlock smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquireBlock address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquireBlock carries invalid grow param" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquireBlock contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquireBlock is corrupt" + extra) } when (bundle.opcode === TLMessages.AcquirePerm) { monAssert (edge.master.emitsAcquireB(bundle.source, bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'A' channel carries AcquirePerm from a client which does not support Probe" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel AcquirePerm carries invalid source ID" + diplomacyInfo + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'A' channel AcquirePerm smaller than a beat" + extra) monAssert (is_aligned, "'A' channel AcquirePerm address not aligned to size" + extra) monAssert (TLPermissions.isGrow(bundle.param), "'A' channel AcquirePerm carries invalid grow param" + extra) monAssert (bundle.param =/= TLPermissions.NtoB, "'A' channel AcquirePerm requests NtoB" + extra) monAssert (~bundle.mask === 0.U, "'A' channel AcquirePerm contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel AcquirePerm is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.emitsGet(bundle.source, bundle.size), "'A' channel carries Get type which master claims it can't emit" + diplomacyInfo + extra) monAssert (edge.slave.supportsGetSafe(edge.address(bundle), bundle.size, None), "'A' channel carries Get type which slave claims it can't support" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel Get carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.emitsPutFull(bundle.source, bundle.size) && edge.slave.supportsPutFullSafe(edge.address(bundle), bundle.size), "'A' channel carries PutFull type which is unexpected using diplomatic parameters" + diplomacyInfo + extra) monAssert (source_ok, "'A' channel PutFull carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'A' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.emitsPutPartial(bundle.source, bundle.size) && edge.slave.supportsPutPartialSafe(edge.address(bundle), bundle.size), "'A' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel PutPartial carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'A' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'A' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.emitsArithmetic(bundle.source, bundle.size) && edge.slave.supportsArithmeticSafe(edge.address(bundle), bundle.size), "'A' channel carries Arithmetic type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Arithmetic carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'A' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.emitsLogical(bundle.source, bundle.size) && edge.slave.supportsLogicalSafe(edge.address(bundle), bundle.size), "'A' channel carries Logical type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Logical carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'A' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.emitsHint(bundle.source, bundle.size) && edge.slave.supportsHintSafe(edge.address(bundle), bundle.size), "'A' channel carries Hint type which is unexpected using diplomatic parameters" + extra) monAssert (source_ok, "'A' channel Hint carries invalid source ID" + diplomacyInfo + extra) monAssert (is_aligned, "'A' channel Hint address not aligned to size" + extra) monAssert (TLHints.isHints(bundle.param), "'A' channel Hint carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'A' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'A' channel Hint is corrupt" + extra) } } def legalizeFormatB(bundle: TLBundleB, edge: TLEdge): Unit = { monAssert (TLMessages.isB(bundle.opcode), "'B' channel has invalid opcode" + extra) monAssert (visible(edge.address(bundle), bundle.source, edge), "'B' channel carries an address illegal for the specified bank visibility") // Reuse these subexpressions to save some firrtl lines val address_ok = edge.manager.containsSafe(edge.address(bundle)) val is_aligned = edge.isAligned(bundle.address, bundle.size) val mask = edge.full_mask(bundle) val legal_source = Mux1H(edge.client.find(bundle.source), edge.client.clients.map(c => c.sourceId.start.U)) === bundle.source when (bundle.opcode === TLMessages.Probe) { assume (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'B' channel carries Probe type which is unexpected using diplomatic parameters" + extra) assume (address_ok, "'B' channel Probe carries unmanaged address" + extra) assume (legal_source, "'B' channel Probe carries source that is not first source" + extra) assume (is_aligned, "'B' channel Probe address not aligned to size" + extra) assume (TLPermissions.isCap(bundle.param), "'B' channel Probe carries invalid cap param" + extra) assume (bundle.mask === mask, "'B' channel Probe contains invalid mask" + extra) assume (!bundle.corrupt, "'B' channel Probe is corrupt" + extra) } when (bundle.opcode === TLMessages.Get) { monAssert (edge.master.supportsGet(edge.source(bundle), bundle.size) && edge.slave.emitsGetSafe(edge.address(bundle), bundle.size), "'B' channel carries Get type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel Get carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Get carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Get address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel Get carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel Get contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Get is corrupt" + extra) } when (bundle.opcode === TLMessages.PutFullData) { monAssert (edge.master.supportsPutFull(edge.source(bundle), bundle.size) && edge.slave.emitsPutFullSafe(edge.address(bundle), bundle.size), "'B' channel carries PutFull type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutFull carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutFull carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutFull address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutFull carries invalid param" + extra) monAssert (bundle.mask === mask, "'B' channel PutFull contains invalid mask" + extra) } when (bundle.opcode === TLMessages.PutPartialData) { monAssert (edge.master.supportsPutPartial(edge.source(bundle), bundle.size) && edge.slave.emitsPutPartialSafe(edge.address(bundle), bundle.size), "'B' channel carries PutPartial type which is unexpected using diplomatic parameters" + extra) monAssert (address_ok, "'B' channel PutPartial carries unmanaged address" + extra) monAssert (legal_source, "'B' channel PutPartial carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel PutPartial address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'B' channel PutPartial carries invalid param" + extra) monAssert ((bundle.mask & ~mask) === 0.U, "'B' channel PutPartial contains invalid mask" + extra) } when (bundle.opcode === TLMessages.ArithmeticData) { monAssert (edge.master.supportsArithmetic(edge.source(bundle), bundle.size) && edge.slave.emitsArithmeticSafe(edge.address(bundle), bundle.size), "'B' channel carries Arithmetic type unsupported by master" + extra) monAssert (address_ok, "'B' channel Arithmetic carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Arithmetic carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Arithmetic address not aligned to size" + extra) monAssert (TLAtomics.isArithmetic(bundle.param), "'B' channel Arithmetic carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Arithmetic contains invalid mask" + extra) } when (bundle.opcode === TLMessages.LogicalData) { monAssert (edge.master.supportsLogical(edge.source(bundle), bundle.size) && edge.slave.emitsLogicalSafe(edge.address(bundle), bundle.size), "'B' channel carries Logical type unsupported by client" + extra) monAssert (address_ok, "'B' channel Logical carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Logical carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Logical address not aligned to size" + extra) monAssert (TLAtomics.isLogical(bundle.param), "'B' channel Logical carries invalid opcode param" + extra) monAssert (bundle.mask === mask, "'B' channel Logical contains invalid mask" + extra) } when (bundle.opcode === TLMessages.Hint) { monAssert (edge.master.supportsHint(edge.source(bundle), bundle.size) && edge.slave.emitsHintSafe(edge.address(bundle), bundle.size), "'B' channel carries Hint type unsupported by client" + extra) monAssert (address_ok, "'B' channel Hint carries unmanaged address" + extra) monAssert (legal_source, "'B' channel Hint carries source that is not first source" + extra) monAssert (is_aligned, "'B' channel Hint address not aligned to size" + extra) monAssert (bundle.mask === mask, "'B' channel Hint contains invalid mask" + extra) monAssert (!bundle.corrupt, "'B' channel Hint is corrupt" + extra) } } def legalizeFormatC(bundle: TLBundleC, edge: TLEdge): Unit = { monAssert (TLMessages.isC(bundle.opcode), "'C' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val is_aligned = edge.isAligned(bundle.address, bundle.size) val address_ok = edge.manager.containsSafe(edge.address(bundle)) monAssert (visible(edge.address(bundle), bundle.source, edge), "'C' channel carries an address illegal for the specified bank visibility") when (bundle.opcode === TLMessages.ProbeAck) { monAssert (address_ok, "'C' channel ProbeAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAck carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAck smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAck address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAck carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel ProbeAck is corrupt" + extra) } when (bundle.opcode === TLMessages.ProbeAckData) { monAssert (address_ok, "'C' channel ProbeAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel ProbeAckData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ProbeAckData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ProbeAckData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ProbeAckData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.Release) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries Release type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel Release carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel Release smaller than a beat" + extra) monAssert (is_aligned, "'C' channel Release address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel Release carries invalid report param" + extra) monAssert (!bundle.corrupt, "'C' channel Release is corrupt" + extra) } when (bundle.opcode === TLMessages.ReleaseData) { monAssert (edge.master.emitsAcquireB(edge.source(bundle), bundle.size) && edge.slave.supportsAcquireBSafe(edge.address(bundle), bundle.size), "'C' channel carries ReleaseData type unsupported by manager" + extra) monAssert (edge.master.supportsProbe(edge.source(bundle), bundle.size) && edge.slave.emitsProbeSafe(edge.address(bundle), bundle.size), "'C' channel carries Release from a client which does not support Probe" + extra) monAssert (source_ok, "'C' channel ReleaseData carries invalid source ID" + extra) monAssert (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'C' channel ReleaseData smaller than a beat" + extra) monAssert (is_aligned, "'C' channel ReleaseData address not aligned to size" + extra) monAssert (TLPermissions.isReport(bundle.param), "'C' channel ReleaseData carries invalid report param" + extra) } when (bundle.opcode === TLMessages.AccessAck) { monAssert (address_ok, "'C' channel AccessAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel AccessAck is corrupt" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { monAssert (address_ok, "'C' channel AccessAckData carries unmanaged address" + extra) monAssert (source_ok, "'C' channel AccessAckData carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel AccessAckData address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel AccessAckData carries invalid param" + extra) } when (bundle.opcode === TLMessages.HintAck) { monAssert (address_ok, "'C' channel HintAck carries unmanaged address" + extra) monAssert (source_ok, "'C' channel HintAck carries invalid source ID" + extra) monAssert (is_aligned, "'C' channel HintAck address not aligned to size" + extra) monAssert (bundle.param === 0.U, "'C' channel HintAck carries invalid param" + extra) monAssert (!bundle.corrupt, "'C' channel HintAck is corrupt" + extra) } } def legalizeFormatD(bundle: TLBundleD, edge: TLEdge): Unit = { assume (TLMessages.isD(bundle.opcode), "'D' channel has invalid opcode" + extra) val source_ok = edge.client.contains(bundle.source) val sink_ok = bundle.sink < edge.manager.endSinkId.U val deny_put_ok = edge.manager.mayDenyPut.B val deny_get_ok = edge.manager.mayDenyGet.B when (bundle.opcode === TLMessages.ReleaseAck) { assume (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel ReleaseAck smaller than a beat" + extra) assume (bundle.param === 0.U, "'D' channel ReleaseeAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel ReleaseAck is corrupt" + extra) assume (!bundle.denied, "'D' channel ReleaseAck is denied" + extra) } when (bundle.opcode === TLMessages.Grant) { assume (source_ok, "'D' channel Grant carries invalid source ID" + extra) assume (sink_ok, "'D' channel Grant carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel Grant smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel Grant carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel Grant carries toN param" + extra) assume (!bundle.corrupt, "'D' channel Grant is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel Grant is denied" + extra) } when (bundle.opcode === TLMessages.GrantData) { assume (source_ok, "'D' channel GrantData carries invalid source ID" + extra) assume (sink_ok, "'D' channel GrantData carries invalid sink ID" + extra) assume (bundle.size >= log2Ceil(edge.manager.beatBytes).U, "'D' channel GrantData smaller than a beat" + extra) assume (TLPermissions.isCap(bundle.param), "'D' channel GrantData carries invalid cap param" + extra) assume (bundle.param =/= TLPermissions.toN, "'D' channel GrantData carries toN param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel GrantData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel GrantData is denied" + extra) } when (bundle.opcode === TLMessages.AccessAck) { assume (source_ok, "'D' channel AccessAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel AccessAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel AccessAck is denied" + extra) } when (bundle.opcode === TLMessages.AccessAckData) { assume (source_ok, "'D' channel AccessAckData carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel AccessAckData carries invalid param" + extra) assume (!bundle.denied || bundle.corrupt, "'D' channel AccessAckData is denied but not corrupt" + extra) assume (deny_get_ok || !bundle.denied, "'D' channel AccessAckData is denied" + extra) } when (bundle.opcode === TLMessages.HintAck) { assume (source_ok, "'D' channel HintAck carries invalid source ID" + extra) // size is ignored assume (bundle.param === 0.U, "'D' channel HintAck carries invalid param" + extra) assume (!bundle.corrupt, "'D' channel HintAck is corrupt" + extra) assume (deny_put_ok || !bundle.denied, "'D' channel HintAck is denied" + extra) } } def legalizeFormatE(bundle: TLBundleE, edge: TLEdge): Unit = { val sink_ok = bundle.sink < edge.manager.endSinkId.U monAssert (sink_ok, "'E' channels carries invalid sink ID" + extra) } def legalizeFormat(bundle: TLBundle, edge: TLEdge) = { when (bundle.a.valid) { legalizeFormatA(bundle.a.bits, edge) } when (bundle.d.valid) { legalizeFormatD(bundle.d.bits, edge) } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { when (bundle.b.valid) { legalizeFormatB(bundle.b.bits, edge) } when (bundle.c.valid) { legalizeFormatC(bundle.c.bits, edge) } when (bundle.e.valid) { legalizeFormatE(bundle.e.bits, edge) } } else { monAssert (!bundle.b.valid, "'B' channel valid and not TL-C" + extra) monAssert (!bundle.c.valid, "'C' channel valid and not TL-C" + extra) monAssert (!bundle.e.valid, "'E' channel valid and not TL-C" + extra) } } def legalizeMultibeatA(a: DecoupledIO[TLBundleA], edge: TLEdge): Unit = { val a_first = edge.first(a.bits, a.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (a.valid && !a_first) { monAssert (a.bits.opcode === opcode, "'A' channel opcode changed within multibeat operation" + extra) monAssert (a.bits.param === param, "'A' channel param changed within multibeat operation" + extra) monAssert (a.bits.size === size, "'A' channel size changed within multibeat operation" + extra) monAssert (a.bits.source === source, "'A' channel source changed within multibeat operation" + extra) monAssert (a.bits.address=== address,"'A' channel address changed with multibeat operation" + extra) } when (a.fire && a_first) { opcode := a.bits.opcode param := a.bits.param size := a.bits.size source := a.bits.source address := a.bits.address } } def legalizeMultibeatB(b: DecoupledIO[TLBundleB], edge: TLEdge): Unit = { val b_first = edge.first(b.bits, b.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (b.valid && !b_first) { monAssert (b.bits.opcode === opcode, "'B' channel opcode changed within multibeat operation" + extra) monAssert (b.bits.param === param, "'B' channel param changed within multibeat operation" + extra) monAssert (b.bits.size === size, "'B' channel size changed within multibeat operation" + extra) monAssert (b.bits.source === source, "'B' channel source changed within multibeat operation" + extra) monAssert (b.bits.address=== address,"'B' channel addresss changed with multibeat operation" + extra) } when (b.fire && b_first) { opcode := b.bits.opcode param := b.bits.param size := b.bits.size source := b.bits.source address := b.bits.address } } def legalizeADSourceFormal(bundle: TLBundle, edge: TLEdge): Unit = { // Symbolic variable val sym_source = Wire(UInt(edge.client.endSourceId.W)) // TODO: Connect sym_source to a fixed value for simulation and to a // free wire in formal sym_source := 0.U // Type casting Int to UInt val maxSourceId = Wire(UInt(edge.client.endSourceId.W)) maxSourceId := edge.client.endSourceId.U // Delayed verison of sym_source val sym_source_d = Reg(UInt(edge.client.endSourceId.W)) sym_source_d := sym_source // These will be constraints for FV setup Property( MonitorDirection.Monitor, (sym_source === sym_source_d), "sym_source should remain stable", PropertyClass.Default) Property( MonitorDirection.Monitor, (sym_source <= maxSourceId), "sym_source should take legal value", PropertyClass.Default) val my_resp_pend = RegInit(false.B) val my_opcode = Reg(UInt()) val my_size = Reg(UInt()) val a_first = bundle.a.valid && edge.first(bundle.a.bits, bundle.a.fire) val d_first = bundle.d.valid && edge.first(bundle.d.bits, bundle.d.fire) val my_a_first_beat = a_first && (bundle.a.bits.source === sym_source) val my_d_first_beat = d_first && (bundle.d.bits.source === sym_source) val my_clr_resp_pend = (bundle.d.fire && my_d_first_beat) val my_set_resp_pend = (bundle.a.fire && my_a_first_beat && !my_clr_resp_pend) when (my_set_resp_pend) { my_resp_pend := true.B } .elsewhen (my_clr_resp_pend) { my_resp_pend := false.B } when (my_a_first_beat) { my_opcode := bundle.a.bits.opcode my_size := bundle.a.bits.size } val my_resp_size = Mux(my_a_first_beat, bundle.a.bits.size, my_size) val my_resp_opcode = Mux(my_a_first_beat, bundle.a.bits.opcode, my_opcode) val my_resp_opcode_legal = Wire(Bool()) when ((my_resp_opcode === TLMessages.Get) || (my_resp_opcode === TLMessages.ArithmeticData) || (my_resp_opcode === TLMessages.LogicalData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAckData) } .elsewhen ((my_resp_opcode === TLMessages.PutFullData) || (my_resp_opcode === TLMessages.PutPartialData)) { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.AccessAck) } .otherwise { my_resp_opcode_legal := (bundle.d.bits.opcode === TLMessages.HintAck) } monAssert (IfThen(my_resp_pend, !my_a_first_beat), "Request message should not be sent with a source ID, for which a response message" + "is already pending (not received until current cycle) for a prior request message" + "with the same source ID" + extra) assume (IfThen(my_clr_resp_pend, (my_set_resp_pend || my_resp_pend)), "Response message should be accepted with a source ID only if a request message with the" + "same source ID has been accepted or is being accepted in the current cycle" + extra) assume (IfThen(my_d_first_beat, (my_a_first_beat || my_resp_pend)), "Response message should be sent with a source ID only if a request message with the" + "same source ID has been accepted or is being sent in the current cycle" + extra) assume (IfThen(my_d_first_beat, (bundle.d.bits.size === my_resp_size)), "If d_valid is 1, then d_size should be same as a_size of the corresponding request" + "message" + extra) assume (IfThen(my_d_first_beat, my_resp_opcode_legal), "If d_valid is 1, then d_opcode should correspond with a_opcode of the corresponding" + "request message" + extra) } def legalizeMultibeatC(c: DecoupledIO[TLBundleC], edge: TLEdge): Unit = { val c_first = edge.first(c.bits, c.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val address = Reg(UInt()) when (c.valid && !c_first) { monAssert (c.bits.opcode === opcode, "'C' channel opcode changed within multibeat operation" + extra) monAssert (c.bits.param === param, "'C' channel param changed within multibeat operation" + extra) monAssert (c.bits.size === size, "'C' channel size changed within multibeat operation" + extra) monAssert (c.bits.source === source, "'C' channel source changed within multibeat operation" + extra) monAssert (c.bits.address=== address,"'C' channel address changed with multibeat operation" + extra) } when (c.fire && c_first) { opcode := c.bits.opcode param := c.bits.param size := c.bits.size source := c.bits.source address := c.bits.address } } def legalizeMultibeatD(d: DecoupledIO[TLBundleD], edge: TLEdge): Unit = { val d_first = edge.first(d.bits, d.fire) val opcode = Reg(UInt()) val param = Reg(UInt()) val size = Reg(UInt()) val source = Reg(UInt()) val sink = Reg(UInt()) val denied = Reg(Bool()) when (d.valid && !d_first) { assume (d.bits.opcode === opcode, "'D' channel opcode changed within multibeat operation" + extra) assume (d.bits.param === param, "'D' channel param changed within multibeat operation" + extra) assume (d.bits.size === size, "'D' channel size changed within multibeat operation" + extra) assume (d.bits.source === source, "'D' channel source changed within multibeat operation" + extra) assume (d.bits.sink === sink, "'D' channel sink changed with multibeat operation" + extra) assume (d.bits.denied === denied, "'D' channel denied changed with multibeat operation" + extra) } when (d.fire && d_first) { opcode := d.bits.opcode param := d.bits.param size := d.bits.size source := d.bits.source sink := d.bits.sink denied := d.bits.denied } } def legalizeMultibeat(bundle: TLBundle, edge: TLEdge): Unit = { legalizeMultibeatA(bundle.a, edge) legalizeMultibeatD(bundle.d, edge) if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { legalizeMultibeatB(bundle.b, edge) legalizeMultibeatC(bundle.c, edge) } } //This is left in for almond which doesn't adhere to the tilelink protocol @deprecated("Use legalizeADSource instead if possible","") def legalizeADSourceOld(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.client.endSourceId.W)) val a_first = edge.first(bundle.a.bits, bundle.a.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val a_set = WireInit(0.U(edge.client.endSourceId.W)) when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) assert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) assume((a_set | inflight)(bundle.d.bits.source), "'D' channel acknowledged for nothing inflight" + extra) } if (edge.manager.minLatency > 0) { assume(a_set =/= d_clr || !a_set.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") assert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeADSource(bundle: TLBundle, edge: TLEdge): Unit = { val a_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val a_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_a_opcode_bus_size = log2Ceil(a_opcode_bus_size) val log_a_size_bus_size = log2Ceil(a_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) // size up to avoid width error inflight.suggestName("inflight") val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) inflight_opcodes.suggestName("inflight_opcodes") val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) inflight_sizes.suggestName("inflight_sizes") val a_first = edge.first(bundle.a.bits, bundle.a.fire) a_first.suggestName("a_first") val d_first = edge.first(bundle.d.bits, bundle.d.fire) d_first.suggestName("d_first") val a_set = WireInit(0.U(edge.client.endSourceId.W)) val a_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) a_set.suggestName("a_set") a_set_wo_ready.suggestName("a_set_wo_ready") val a_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) a_opcodes_set.suggestName("a_opcodes_set") val a_sizes_set = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) a_sizes_set.suggestName("a_sizes_set") val a_opcode_lookup = WireInit(0.U((a_opcode_bus_size - 1).W)) a_opcode_lookup.suggestName("a_opcode_lookup") a_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_a_opcode_bus_size.U) & size_to_numfullbits(1.U << log_a_opcode_bus_size.U)) >> 1.U val a_size_lookup = WireInit(0.U((1 << log_a_size_bus_size).W)) a_size_lookup.suggestName("a_size_lookup") a_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_a_size_bus_size.U) & size_to_numfullbits(1.U << log_a_size_bus_size.U)) >> 1.U val responseMap = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.Grant, TLMessages.Grant)) val responseMapSecondOption = VecInit(Seq(TLMessages.AccessAck, TLMessages.AccessAck, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.AccessAckData, TLMessages.HintAck, TLMessages.GrantData, TLMessages.Grant)) val a_opcodes_set_interm = WireInit(0.U(a_opcode_bus_size.W)) a_opcodes_set_interm.suggestName("a_opcodes_set_interm") val a_sizes_set_interm = WireInit(0.U(a_size_bus_size.W)) a_sizes_set_interm.suggestName("a_sizes_set_interm") when (bundle.a.valid && a_first && edge.isRequest(bundle.a.bits)) { a_set_wo_ready := UIntToOH(bundle.a.bits.source) } when (bundle.a.fire && a_first && edge.isRequest(bundle.a.bits)) { a_set := UIntToOH(bundle.a.bits.source) a_opcodes_set_interm := (bundle.a.bits.opcode << 1.U) | 1.U a_sizes_set_interm := (bundle.a.bits.size << 1.U) | 1.U a_opcodes_set := (a_opcodes_set_interm) << (bundle.a.bits.source << log_a_opcode_bus_size.U) a_sizes_set := (a_sizes_set_interm) << (bundle.a.bits.source << log_a_size_bus_size.U) monAssert(!inflight(bundle.a.bits.source), "'A' channel re-used a source ID" + extra) } val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_a_opcode_bus_size).W)) d_opcodes_clr.suggestName("d_opcodes_clr") val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_a_size_bus_size).W)) d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_a_opcode_bus_size.U) << (bundle.d.bits.source << log_a_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_a_size_bus_size.U) << (bundle.d.bits.source << log_a_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && !d_release_ack) { val same_cycle_resp = bundle.a.valid && a_first && edge.isRequest(bundle.a.bits) && (bundle.a.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.opcode === responseMap(bundle.a.bits.opcode)) || (bundle.d.bits.opcode === responseMapSecondOption(bundle.a.bits.opcode)), "'D' channel contains improper opcode response" + extra) assume((bundle.a.bits.size === bundle.d.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.opcode === responseMap(a_opcode_lookup)) || (bundle.d.bits.opcode === responseMapSecondOption(a_opcode_lookup)), "'D' channel contains improper opcode response" + extra) assume((bundle.d.bits.size === a_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && a_first && bundle.a.valid && (bundle.a.bits.source === bundle.d.bits.source) && !d_release_ack) { assume((!bundle.d.ready) || bundle.a.ready, "ready check") } if (edge.manager.minLatency > 0) { assume(a_set_wo_ready =/= d_clr_wo_ready || !a_set_wo_ready.orR, s"'A' and 'D' concurrent, despite minlatency > 0" + extra) } inflight := (inflight | a_set) & ~d_clr inflight_opcodes := (inflight_opcodes | a_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | a_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.a.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeCDSource(bundle: TLBundle, edge: TLEdge): Unit = { val c_size_bus_size = edge.bundle.sizeBits + 1 //add one so that 0 is not mapped to anything (size 0 -> size 1 in map, size 0 in map means unset) val c_opcode_bus_size = 3 + 1 //opcode size is 3, but add so that 0 is not mapped to anything val log_c_opcode_bus_size = log2Ceil(c_opcode_bus_size) val log_c_size_bus_size = log2Ceil(c_size_bus_size) def size_to_numfullbits(x: UInt): UInt = (1.U << x) - 1.U //convert a number to that many full bits val inflight = RegInit(0.U((2 max edge.client.endSourceId).W)) val inflight_opcodes = RegInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val inflight_sizes = RegInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) inflight.suggestName("inflight") inflight_opcodes.suggestName("inflight_opcodes") inflight_sizes.suggestName("inflight_sizes") val c_first = edge.first(bundle.c.bits, bundle.c.fire) val d_first = edge.first(bundle.d.bits, bundle.d.fire) c_first.suggestName("c_first") d_first.suggestName("d_first") val c_set = WireInit(0.U(edge.client.endSourceId.W)) val c_set_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val c_opcodes_set = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val c_sizes_set = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) c_set.suggestName("c_set") c_set_wo_ready.suggestName("c_set_wo_ready") c_opcodes_set.suggestName("c_opcodes_set") c_sizes_set.suggestName("c_sizes_set") val c_opcode_lookup = WireInit(0.U((1 << log_c_opcode_bus_size).W)) val c_size_lookup = WireInit(0.U((1 << log_c_size_bus_size).W)) c_opcode_lookup := ((inflight_opcodes) >> (bundle.d.bits.source << log_c_opcode_bus_size.U) & size_to_numfullbits(1.U << log_c_opcode_bus_size.U)) >> 1.U c_size_lookup := ((inflight_sizes) >> (bundle.d.bits.source << log_c_size_bus_size.U) & size_to_numfullbits(1.U << log_c_size_bus_size.U)) >> 1.U c_opcode_lookup.suggestName("c_opcode_lookup") c_size_lookup.suggestName("c_size_lookup") val c_opcodes_set_interm = WireInit(0.U(c_opcode_bus_size.W)) val c_sizes_set_interm = WireInit(0.U(c_size_bus_size.W)) c_opcodes_set_interm.suggestName("c_opcodes_set_interm") c_sizes_set_interm.suggestName("c_sizes_set_interm") when (bundle.c.valid && c_first && edge.isRequest(bundle.c.bits)) { c_set_wo_ready := UIntToOH(bundle.c.bits.source) } when (bundle.c.fire && c_first && edge.isRequest(bundle.c.bits)) { c_set := UIntToOH(bundle.c.bits.source) c_opcodes_set_interm := (bundle.c.bits.opcode << 1.U) | 1.U c_sizes_set_interm := (bundle.c.bits.size << 1.U) | 1.U c_opcodes_set := (c_opcodes_set_interm) << (bundle.c.bits.source << log_c_opcode_bus_size.U) c_sizes_set := (c_sizes_set_interm) << (bundle.c.bits.source << log_c_size_bus_size.U) monAssert(!inflight(bundle.c.bits.source), "'C' channel re-used a source ID" + extra) } val c_probe_ack = bundle.c.bits.opcode === TLMessages.ProbeAck || bundle.c.bits.opcode === TLMessages.ProbeAckData val d_clr = WireInit(0.U(edge.client.endSourceId.W)) val d_clr_wo_ready = WireInit(0.U(edge.client.endSourceId.W)) val d_opcodes_clr = WireInit(0.U((edge.client.endSourceId << log_c_opcode_bus_size).W)) val d_sizes_clr = WireInit(0.U((edge.client.endSourceId << log_c_size_bus_size).W)) d_clr.suggestName("d_clr") d_clr_wo_ready.suggestName("d_clr_wo_ready") d_opcodes_clr.suggestName("d_opcodes_clr") d_sizes_clr.suggestName("d_sizes_clr") val d_release_ack = bundle.d.bits.opcode === TLMessages.ReleaseAck when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr_wo_ready := UIntToOH(bundle.d.bits.source) } when (bundle.d.fire && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { d_clr := UIntToOH(bundle.d.bits.source) d_opcodes_clr := size_to_numfullbits(1.U << log_c_opcode_bus_size.U) << (bundle.d.bits.source << log_c_opcode_bus_size.U) d_sizes_clr := size_to_numfullbits(1.U << log_c_size_bus_size.U) << (bundle.d.bits.source << log_c_size_bus_size.U) } when (bundle.d.valid && d_first && edge.isResponse(bundle.d.bits) && d_release_ack) { val same_cycle_resp = bundle.c.valid && c_first && edge.isRequest(bundle.c.bits) && (bundle.c.bits.source === bundle.d.bits.source) assume(((inflight)(bundle.d.bits.source)) || same_cycle_resp, "'D' channel acknowledged for nothing inflight" + extra) when (same_cycle_resp) { assume((bundle.d.bits.size === bundle.c.bits.size), "'D' channel contains improper response size" + extra) } .otherwise { assume((bundle.d.bits.size === c_size_lookup), "'D' channel contains improper response size" + extra) } } when(bundle.d.valid && d_first && c_first && bundle.c.valid && (bundle.c.bits.source === bundle.d.bits.source) && d_release_ack && !c_probe_ack) { assume((!bundle.d.ready) || bundle.c.ready, "ready check") } if (edge.manager.minLatency > 0) { when (c_set_wo_ready.orR) { assume(c_set_wo_ready =/= d_clr_wo_ready, s"'C' and 'D' concurrent, despite minlatency > 0" + extra) } } inflight := (inflight | c_set) & ~d_clr inflight_opcodes := (inflight_opcodes | c_opcodes_set) & ~d_opcodes_clr inflight_sizes := (inflight_sizes | c_sizes_set) & ~d_sizes_clr val watchdog = RegInit(0.U(32.W)) val limit = PlusArg("tilelink_timeout", docstring="Kill emulation after INT waiting TileLink cycles. Off if 0.") monAssert (!inflight.orR || limit === 0.U || watchdog < limit, "TileLink timeout expired" + extra) watchdog := watchdog + 1.U when (bundle.c.fire || bundle.d.fire) { watchdog := 0.U } } def legalizeDESink(bundle: TLBundle, edge: TLEdge): Unit = { val inflight = RegInit(0.U(edge.manager.endSinkId.W)) val d_first = edge.first(bundle.d.bits, bundle.d.fire) val e_first = true.B val d_set = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.d.fire && d_first && edge.isRequest(bundle.d.bits)) { d_set := UIntToOH(bundle.d.bits.sink) assume(!inflight(bundle.d.bits.sink), "'D' channel re-used a sink ID" + extra) } val e_clr = WireInit(0.U(edge.manager.endSinkId.W)) when (bundle.e.fire && e_first && edge.isResponse(bundle.e.bits)) { e_clr := UIntToOH(bundle.e.bits.sink) monAssert((d_set | inflight)(bundle.e.bits.sink), "'E' channel acknowledged for nothing inflight" + extra) } // edge.client.minLatency applies to BC, not DE inflight := (inflight | d_set) & ~e_clr } def legalizeUnique(bundle: TLBundle, edge: TLEdge): Unit = { val sourceBits = log2Ceil(edge.client.endSourceId) val tooBig = 14 // >16kB worth of flight information gets to be too much if (sourceBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with source bits (${sourceBits}) > ${tooBig}; A=>D transaction flight will not be checked") } else { if (args.edge.params(TestplanTestType).simulation) { if (args.edge.params(TLMonitorStrictMode)) { legalizeADSource(bundle, edge) legalizeCDSource(bundle, edge) } else { legalizeADSourceOld(bundle, edge) } } if (args.edge.params(TestplanTestType).formal) { legalizeADSourceFormal(bundle, edge) } } if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { // legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize... val sinkBits = log2Ceil(edge.manager.endSinkId) if (sinkBits > tooBig) { println(s"WARNING: TLMonitor instantiated on a bus with sink bits (${sinkBits}) > ${tooBig}; D=>E transaction flight will not be checked") } else { legalizeDESink(bundle, edge) } } } def legalize(bundle: TLBundle, edge: TLEdge, reset: Reset): Unit = { legalizeFormat (bundle, edge) legalizeMultibeat (bundle, edge) legalizeUnique (bundle, edge) } } File Misc.scala: // See LICENSE.Berkeley for license details. // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import scala.math._ class ParameterizedBundle(implicit p: Parameters) extends Bundle trait Clocked extends Bundle { val clock = Clock() val reset = Bool() } object DecoupledHelper { def apply(rvs: Bool*) = new DecoupledHelper(rvs) } class DecoupledHelper(val rvs: Seq[Bool]) { def fire(exclude: Bool, includes: Bool*) = { require(rvs.contains(exclude), "Excluded Bool not present in DecoupledHelper! Note that DecoupledHelper uses referential equality for exclusion! If you don't want to exclude anything, use fire()!") (rvs.filter(_ ne exclude) ++ includes).reduce(_ && _) } def fire() = { rvs.reduce(_ && _) } } object MuxT { def apply[T <: Data, U <: Data](cond: Bool, con: (T, U), alt: (T, U)): (T, U) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2)) def apply[T <: Data, U <: Data, W <: Data](cond: Bool, con: (T, U, W), alt: (T, U, W)): (T, U, W) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3)) def apply[T <: Data, U <: Data, W <: Data, X <: Data](cond: Bool, con: (T, U, W, X), alt: (T, U, W, X)): (T, U, W, X) = (Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3), Mux(cond, con._4, alt._4)) } /** Creates a cascade of n MuxTs to search for a key value. */ object MuxTLookup { def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = { var res = default for ((k, v) <- mapping.reverse) res = MuxT(k === key, v, res) res } } object ValidMux { def apply[T <: Data](v1: ValidIO[T], v2: ValidIO[T]*): ValidIO[T] = { apply(v1 +: v2.toSeq) } def apply[T <: Data](valids: Seq[ValidIO[T]]): ValidIO[T] = { val out = Wire(Valid(valids.head.bits.cloneType)) out.valid := valids.map(_.valid).reduce(_ || _) out.bits := MuxCase(valids.head.bits, valids.map(v => (v.valid -> v.bits))) out } } object Str { def apply(s: String): UInt = { var i = BigInt(0) require(s.forall(validChar _)) for (c <- s) i = (i << 8) | c i.U((s.length*8).W) } def apply(x: Char): UInt = { require(validChar(x)) x.U(8.W) } def apply(x: UInt): UInt = apply(x, 10) def apply(x: UInt, radix: Int): UInt = { val rad = radix.U val w = x.getWidth require(w > 0) var q = x var s = digit(q % rad) for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad s = Cat(Mux((radix == 10).B && q === 0.U, Str(' '), digit(q % rad)), s) } s } def apply(x: SInt): UInt = apply(x, 10) def apply(x: SInt, radix: Int): UInt = { val neg = x < 0.S val abs = x.abs.asUInt if (radix != 10) { Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix)) } else { val rad = radix.U val w = abs.getWidth require(w > 0) var q = abs var s = digit(q % rad) var needSign = neg for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) { q = q / rad val placeSpace = q === 0.U val space = Mux(needSign, Str('-'), Str(' ')) needSign = needSign && !placeSpace s = Cat(Mux(placeSpace, space, digit(q % rad)), s) } Cat(Mux(needSign, Str('-'), Str(' ')), s) } } private def digit(d: UInt): UInt = Mux(d < 10.U, Str('0')+d, Str(('a'-10).toChar)+d)(7,0) private def validChar(x: Char) = x == (x & 0xFF) } object Split { def apply(x: UInt, n0: Int) = { val w = x.getWidth (x.extract(w-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } def apply(x: UInt, n2: Int, n1: Int, n0: Int) = { val w = x.getWidth (x.extract(w-1,n2), x.extract(n2-1,n1), x.extract(n1-1,n0), x.extract(n0-1,0)) } } object Random { def apply(mod: Int, random: UInt): UInt = { if (isPow2(mod)) random.extract(log2Ceil(mod)-1,0) else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod)) } def apply(mod: Int): UInt = apply(mod, randomizer) def oneHot(mod: Int, random: UInt): UInt = { if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0)) else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).asUInt } def oneHot(mod: Int): UInt = oneHot(mod, randomizer) private def randomizer = LFSR(16) private def partition(value: UInt, slices: Int) = Seq.tabulate(slices)(i => value < (((i + 1) << value.getWidth) / slices).U) } object Majority { def apply(in: Set[Bool]): Bool = { val n = (in.size >> 1) + 1 val clauses = in.subsets(n).map(_.reduce(_ && _)) clauses.reduce(_ || _) } def apply(in: Seq[Bool]): Bool = apply(in.toSet) def apply(in: UInt): Bool = apply(in.asBools.toSet) } object PopCountAtLeast { private def two(x: UInt): (Bool, Bool) = x.getWidth match { case 1 => (x.asBool, false.B) case n => val half = x.getWidth / 2 val (leftOne, leftTwo) = two(x(half - 1, 0)) val (rightOne, rightTwo) = two(x(x.getWidth - 1, half)) (leftOne || rightOne, leftTwo || rightTwo || (leftOne && rightOne)) } def apply(x: UInt, n: Int): Bool = n match { case 0 => true.B case 1 => x.orR case 2 => two(x)._2 case 3 => PopCount(x) >= n.U } } // This gets used everywhere, so make the smallest circuit possible ... // Given an address and size, create a mask of beatBytes size // eg: (0x3, 0, 4) => 0001, (0x3, 1, 4) => 0011, (0x3, 2, 4) => 1111 // groupBy applies an interleaved OR reduction; groupBy=2 take 0010 => 01 object MaskGen { def apply(addr_lo: UInt, lgSize: UInt, beatBytes: Int, groupBy: Int = 1): UInt = { require (groupBy >= 1 && beatBytes >= groupBy) require (isPow2(beatBytes) && isPow2(groupBy)) val lgBytes = log2Ceil(beatBytes) val sizeOH = UIntToOH(lgSize | 0.U(log2Up(beatBytes).W), log2Up(beatBytes)) | (groupBy*2 - 1).U def helper(i: Int): Seq[(Bool, Bool)] = { if (i == 0) { Seq((lgSize >= lgBytes.asUInt, true.B)) } else { val sub = helper(i-1) val size = sizeOH(lgBytes - i) val bit = addr_lo(lgBytes - i) val nbit = !bit Seq.tabulate (1 << i) { j => val (sub_acc, sub_eq) = sub(j/2) val eq = sub_eq && (if (j % 2 == 1) bit else nbit) val acc = sub_acc || (size && eq) (acc, eq) } } } if (groupBy == beatBytes) 1.U else Cat(helper(lgBytes-log2Ceil(groupBy)).map(_._1).reverse) } } File PlusArg.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.util import chisel3._ import chisel3.experimental._ import chisel3.util.HasBlackBoxResource @deprecated("This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05") case class PlusArgInfo(default: BigInt, docstring: String) /** Case class for PlusArg information * * @tparam A scala type of the PlusArg value * @param default optional default value * @param docstring text to include in the help * @param doctype description of the Verilog type of the PlusArg value (e.g. STRING, INT) */ private case class PlusArgContainer[A](default: Option[A], docstring: String, doctype: String) /** Typeclass for converting a type to a doctype string * @tparam A some type */ trait Doctypeable[A] { /** Return the doctype string for some option */ def toDoctype(a: Option[A]): String } /** Object containing implementations of the Doctypeable typeclass */ object Doctypes { /** Converts an Int => "INT" */ implicit val intToDoctype = new Doctypeable[Int] { def toDoctype(a: Option[Int]) = "INT" } /** Converts a BigInt => "INT" */ implicit val bigIntToDoctype = new Doctypeable[BigInt] { def toDoctype(a: Option[BigInt]) = "INT" } /** Converts a String => "STRING" */ implicit val stringToDoctype = new Doctypeable[String] { def toDoctype(a: Option[String]) = "STRING" } } class plusarg_reader(val format: String, val default: BigInt, val docstring: String, val width: Int) extends BlackBox(Map( "FORMAT" -> StringParam(format), "DEFAULT" -> IntParam(default), "WIDTH" -> IntParam(width) )) with HasBlackBoxResource { val io = IO(new Bundle { val out = Output(UInt(width.W)) }) addResource("/vsrc/plusarg_reader.v") } /* This wrapper class has no outputs, making it clear it is a simulation-only construct */ class PlusArgTimeout(val format: String, val default: BigInt, val docstring: String, val width: Int) extends Module { val io = IO(new Bundle { val count = Input(UInt(width.W)) }) val max = Module(new plusarg_reader(format, default, docstring, width)).io.out when (max > 0.U) { assert (io.count < max, s"Timeout exceeded: $docstring") } } import Doctypes._ object PlusArg { /** PlusArg("foo") will return 42.U if the simulation is run with +foo=42 * Do not use this as an initial register value. The value is set in an * initial block and thus accessing it from another initial is racey. * Add a docstring to document the arg, which can be dumped in an elaboration * pass. */ def apply(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32): UInt = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new plusarg_reader(name + "=%d", default, docstring, width)).io.out } /** PlusArg.timeout(name, default, docstring)(count) will use chisel.assert * to kill the simulation when count exceeds the specified integer argument. * Default 0 will never assert. */ def timeout(name: String, default: BigInt = 0, docstring: String = "", width: Int = 32)(count: UInt): Unit = { PlusArgArtefacts.append(name, Some(default), docstring) Module(new PlusArgTimeout(name + "=%d", default, docstring, width)).io.count := count } } object PlusArgArtefacts { private var artefacts: Map[String, PlusArgContainer[_]] = Map.empty /* Add a new PlusArg */ @deprecated( "Use `Some(BigInt)` to specify a `default` value. This will be removed in Rocket Chip 2020.08", "Rocket Chip 2020.05" ) def append(name: String, default: BigInt, docstring: String): Unit = append(name, Some(default), docstring) /** Add a new PlusArg * * @tparam A scala type of the PlusArg value * @param name name for the PlusArg * @param default optional default value * @param docstring text to include in the help */ def append[A : Doctypeable](name: String, default: Option[A], docstring: String): Unit = artefacts = artefacts ++ Map(name -> PlusArgContainer(default, docstring, implicitly[Doctypeable[A]].toDoctype(default))) /* From plus args, generate help text */ private def serializeHelp_cHeader(tab: String = ""): String = artefacts .map{ case(arg, info) => s"""|$tab+$arg=${info.doctype}\\n\\ |$tab${" "*20}${info.docstring}\\n\\ |""".stripMargin ++ info.default.map{ case default => s"$tab${" "*22}(default=${default})\\n\\\n"}.getOrElse("") }.toSeq.mkString("\\n\\\n") ++ "\"" /* From plus args, generate a char array of their names */ private def serializeArray_cHeader(tab: String = ""): String = { val prettyTab = tab + " " * 44 // Length of 'static const ...' s"${tab}static const char * verilog_plusargs [] = {\\\n" ++ artefacts .map{ case(arg, _) => s"""$prettyTab"$arg",\\\n""" } .mkString("")++ s"${prettyTab}0};" } /* Generate C code to be included in emulator.cc that helps with * argument parsing based on available Verilog PlusArgs */ def serialize_cHeader(): String = s"""|#define PLUSARG_USAGE_OPTIONS \"EMULATOR VERILOG PLUSARGS\\n\\ |${serializeHelp_cHeader(" "*7)} |${serializeArray_cHeader()} |""".stripMargin } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Bundles.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import freechips.rocketchip.util._ import scala.collection.immutable.ListMap import chisel3.util.Decoupled import chisel3.util.DecoupledIO import chisel3.reflect.DataMirror abstract class TLBundleBase(val params: TLBundleParameters) extends Bundle // common combos in lazy policy: // Put + Acquire // Release + AccessAck object TLMessages { // A B C D E def PutFullData = 0.U // . . => AccessAck def PutPartialData = 1.U // . . => AccessAck def ArithmeticData = 2.U // . . => AccessAckData def LogicalData = 3.U // . . => AccessAckData def Get = 4.U // . . => AccessAckData def Hint = 5.U // . . => HintAck def AcquireBlock = 6.U // . => Grant[Data] def AcquirePerm = 7.U // . => Grant[Data] def Probe = 6.U // . => ProbeAck[Data] def AccessAck = 0.U // . . def AccessAckData = 1.U // . . def HintAck = 2.U // . . def ProbeAck = 4.U // . def ProbeAckData = 5.U // . def Release = 6.U // . => ReleaseAck def ReleaseData = 7.U // . => ReleaseAck def Grant = 4.U // . => GrantAck def GrantData = 5.U // . => GrantAck def ReleaseAck = 6.U // . def GrantAck = 0.U // . def isA(x: UInt) = x <= AcquirePerm def isB(x: UInt) = x <= Probe def isC(x: UInt) = x <= ReleaseData def isD(x: UInt) = x <= ReleaseAck def adResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, Grant, Grant) def bcResponse = VecInit(AccessAck, AccessAck, AccessAckData, AccessAckData, AccessAckData, HintAck, ProbeAck, ProbeAck) def a = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("AcquireBlock",TLPermissions.PermMsgGrow), ("AcquirePerm",TLPermissions.PermMsgGrow)) def b = Seq( ("PutFullData",TLPermissions.PermMsgReserved), ("PutPartialData",TLPermissions.PermMsgReserved), ("ArithmeticData",TLAtomics.ArithMsg), ("LogicalData",TLAtomics.LogicMsg), ("Get",TLPermissions.PermMsgReserved), ("Hint",TLHints.HintsMsg), ("Probe",TLPermissions.PermMsgCap)) def c = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("ProbeAck",TLPermissions.PermMsgReport), ("ProbeAckData",TLPermissions.PermMsgReport), ("Release",TLPermissions.PermMsgReport), ("ReleaseData",TLPermissions.PermMsgReport)) def d = Seq( ("AccessAck",TLPermissions.PermMsgReserved), ("AccessAckData",TLPermissions.PermMsgReserved), ("HintAck",TLPermissions.PermMsgReserved), ("Invalid Opcode",TLPermissions.PermMsgReserved), ("Grant",TLPermissions.PermMsgCap), ("GrantData",TLPermissions.PermMsgCap), ("ReleaseAck",TLPermissions.PermMsgReserved)) } /** * The three primary TileLink permissions are: * (T)runk: the agent is (or is on inwards path to) the global point of serialization. * (B)ranch: the agent is on an outwards path to * (N)one: * These permissions are permuted by transfer operations in various ways. * Operations can cap permissions, request for them to be grown or shrunk, * or for a report on their current status. */ object TLPermissions { val aWidth = 2 val bdWidth = 2 val cWidth = 3 // Cap types (Grant = new permissions, Probe = permisions <= target) def toT = 0.U(bdWidth.W) def toB = 1.U(bdWidth.W) def toN = 2.U(bdWidth.W) def isCap(x: UInt) = x <= toN // Grow types (Acquire = permissions >= target) def NtoB = 0.U(aWidth.W) def NtoT = 1.U(aWidth.W) def BtoT = 2.U(aWidth.W) def isGrow(x: UInt) = x <= BtoT // Shrink types (ProbeAck, Release) def TtoB = 0.U(cWidth.W) def TtoN = 1.U(cWidth.W) def BtoN = 2.U(cWidth.W) def isShrink(x: UInt) = x <= BtoN // Report types (ProbeAck, Release) def TtoT = 3.U(cWidth.W) def BtoB = 4.U(cWidth.W) def NtoN = 5.U(cWidth.W) def isReport(x: UInt) = x <= NtoN def PermMsgGrow:Seq[String] = Seq("Grow NtoB", "Grow NtoT", "Grow BtoT") def PermMsgCap:Seq[String] = Seq("Cap toT", "Cap toB", "Cap toN") def PermMsgReport:Seq[String] = Seq("Shrink TtoB", "Shrink TtoN", "Shrink BtoN", "Report TotT", "Report BtoB", "Report NtoN") def PermMsgReserved:Seq[String] = Seq("Reserved") } object TLAtomics { val width = 3 // Arithmetic types def MIN = 0.U(width.W) def MAX = 1.U(width.W) def MINU = 2.U(width.W) def MAXU = 3.U(width.W) def ADD = 4.U(width.W) def isArithmetic(x: UInt) = x <= ADD // Logical types def XOR = 0.U(width.W) def OR = 1.U(width.W) def AND = 2.U(width.W) def SWAP = 3.U(width.W) def isLogical(x: UInt) = x <= SWAP def ArithMsg:Seq[String] = Seq("MIN", "MAX", "MINU", "MAXU", "ADD") def LogicMsg:Seq[String] = Seq("XOR", "OR", "AND", "SWAP") } object TLHints { val width = 1 def PREFETCH_READ = 0.U(width.W) def PREFETCH_WRITE = 1.U(width.W) def isHints(x: UInt) = x <= PREFETCH_WRITE def HintsMsg:Seq[String] = Seq("PrefetchRead", "PrefetchWrite") } sealed trait TLChannel extends TLBundleBase { val channelName: String } sealed trait TLDataChannel extends TLChannel sealed trait TLAddrChannel extends TLDataChannel final class TLBundleA(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleA_${params.shortName}" val channelName = "'A' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(List(TLAtomics.width, TLPermissions.aWidth, TLHints.width).max.W) // amo_opcode || grow perms || hint val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleB(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleB_${params.shortName}" val channelName = "'B' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val address = UInt(params.addressBits.W) // from // variable fields during multibeat: val mask = UInt((params.dataBits/8).W) val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleC(params: TLBundleParameters) extends TLBundleBase(params) with TLAddrChannel { override def typeName = s"TLBundleC_${params.shortName}" val channelName = "'C' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.cWidth.W) // shrink or report perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // from val address = UInt(params.addressBits.W) // to val user = BundleMap(params.requestFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleD(params: TLBundleParameters) extends TLBundleBase(params) with TLDataChannel { override def typeName = s"TLBundleD_${params.shortName}" val channelName = "'D' channel" // fixed fields during multibeat: val opcode = UInt(3.W) val param = UInt(TLPermissions.bdWidth.W) // cap perms val size = UInt(params.sizeBits.W) val source = UInt(params.sourceBits.W) // to val sink = UInt(params.sinkBits.W) // from val denied = Bool() // implies corrupt iff *Data val user = BundleMap(params.responseFields) val echo = BundleMap(params.echoFields) // variable fields during multibeat: val data = UInt(params.dataBits.W) val corrupt = Bool() // only applies to *Data messages } final class TLBundleE(params: TLBundleParameters) extends TLBundleBase(params) with TLChannel { override def typeName = s"TLBundleE_${params.shortName}" val channelName = "'E' channel" val sink = UInt(params.sinkBits.W) // to } class TLBundle(val params: TLBundleParameters) extends Record { // Emulate a Bundle with elements abcde or ad depending on params.hasBCE private val optA = Some (Decoupled(new TLBundleA(params))) private val optB = params.hasBCE.option(Flipped(Decoupled(new TLBundleB(params)))) private val optC = params.hasBCE.option(Decoupled(new TLBundleC(params))) private val optD = Some (Flipped(Decoupled(new TLBundleD(params)))) private val optE = params.hasBCE.option(Decoupled(new TLBundleE(params))) def a: DecoupledIO[TLBundleA] = optA.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleA(params))))) def b: DecoupledIO[TLBundleB] = optB.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleB(params))))) def c: DecoupledIO[TLBundleC] = optC.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleC(params))))) def d: DecoupledIO[TLBundleD] = optD.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleD(params))))) def e: DecoupledIO[TLBundleE] = optE.getOrElse(WireDefault(0.U.asTypeOf(Decoupled(new TLBundleE(params))))) val elements = if (params.hasBCE) ListMap("e" -> e, "d" -> d, "c" -> c, "b" -> b, "a" -> a) else ListMap("d" -> d, "a" -> a) def tieoff(): Unit = { DataMirror.specifiedDirectionOf(a.ready) match { case SpecifiedDirection.Input => a.ready := false.B c.ready := false.B e.ready := false.B b.valid := false.B d.valid := false.B case SpecifiedDirection.Output => a.valid := false.B c.valid := false.B e.valid := false.B b.ready := false.B d.ready := false.B case _ => } } } object TLBundle { def apply(params: TLBundleParameters) = new TLBundle(params) } class TLAsyncBundleBase(val params: TLAsyncBundleParameters) extends Bundle class TLAsyncBundle(params: TLAsyncBundleParameters) extends TLAsyncBundleBase(params) { val a = new AsyncBundle(new TLBundleA(params.base), params.async) val b = Flipped(new AsyncBundle(new TLBundleB(params.base), params.async)) val c = new AsyncBundle(new TLBundleC(params.base), params.async) val d = Flipped(new AsyncBundle(new TLBundleD(params.base), params.async)) val e = new AsyncBundle(new TLBundleE(params.base), params.async) } class TLRationalBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = RationalIO(new TLBundleA(params)) val b = Flipped(RationalIO(new TLBundleB(params))) val c = RationalIO(new TLBundleC(params)) val d = Flipped(RationalIO(new TLBundleD(params))) val e = RationalIO(new TLBundleE(params)) } class TLCreditedBundle(params: TLBundleParameters) extends TLBundleBase(params) { val a = CreditedIO(new TLBundleA(params)) val b = Flipped(CreditedIO(new TLBundleB(params))) val c = CreditedIO(new TLBundleC(params)) val d = Flipped(CreditedIO(new TLBundleD(params))) val e = CreditedIO(new TLBundleE(params)) } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.diplomacy import chisel3._ import chisel3.util.{DecoupledIO, Queue, ReadyValidIO, isPow2, log2Ceil, log2Floor} import freechips.rocketchip.util.ShiftQueue /** Options for describing the attributes of memory regions */ object RegionType { // Define the 'more relaxed than' ordering val cases = Seq(CACHED, TRACKED, UNCACHED, IDEMPOTENT, VOLATILE, PUT_EFFECTS, GET_EFFECTS) sealed trait T extends Ordered[T] { def compare(that: T): Int = cases.indexOf(that) compare cases.indexOf(this) } case object CACHED extends T // an intermediate agent may have cached a copy of the region for you case object TRACKED extends T // the region may have been cached by another master, but coherence is being provided case object UNCACHED extends T // the region has not been cached yet, but should be cached when possible case object IDEMPOTENT extends T // gets return most recently put content, but content should not be cached case object VOLATILE extends T // content may change without a put, but puts and gets have no side effects case object PUT_EFFECTS extends T // puts produce side effects and so must not be combined/delayed case object GET_EFFECTS extends T // gets produce side effects and so must not be issued speculatively } // A non-empty half-open range; [start, end) case class IdRange(start: Int, end: Int) extends Ordered[IdRange] { require (start >= 0, s"Ids cannot be negative, but got: $start.") require (start <= end, "Id ranges cannot be negative.") def compare(x: IdRange) = { val primary = (this.start - x.start).signum val secondary = (x.end - this.end).signum if (primary != 0) primary else secondary } def overlaps(x: IdRange) = start < x.end && x.start < end def contains(x: IdRange) = start <= x.start && x.end <= end def contains(x: Int) = start <= x && x < end def contains(x: UInt) = if (size == 0) { false.B } else if (size == 1) { // simple comparison x === start.U } else { // find index of largest different bit val largestDeltaBit = log2Floor(start ^ (end-1)) val smallestCommonBit = largestDeltaBit + 1 // may not exist in x val uncommonMask = (1 << smallestCommonBit) - 1 val uncommonBits = (x | 0.U(smallestCommonBit.W))(largestDeltaBit, 0) // the prefix must match exactly (note: may shift ALL bits away) (x >> smallestCommonBit) === (start >> smallestCommonBit).U && // firrtl constant prop range analysis can eliminate these two: (start & uncommonMask).U <= uncommonBits && uncommonBits <= ((end-1) & uncommonMask).U } def shift(x: Int) = IdRange(start+x, end+x) def size = end - start def isEmpty = end == start def range = start until end } object IdRange { def overlaps(s: Seq[IdRange]) = if (s.isEmpty) None else { val ranges = s.sorted (ranges.tail zip ranges.init) find { case (a, b) => a overlaps b } } } // An potentially empty inclusive range of 2-powers [min, max] (in bytes) case class TransferSizes(min: Int, max: Int) { def this(x: Int) = this(x, x) require (min <= max, s"Min transfer $min > max transfer $max") require (min >= 0 && max >= 0, s"TransferSizes must be positive, got: ($min, $max)") require (max == 0 || isPow2(max), s"TransferSizes must be a power of 2, got: $max") require (min == 0 || isPow2(min), s"TransferSizes must be a power of 2, got: $min") require (max == 0 || min != 0, s"TransferSize 0 is forbidden unless (0,0), got: ($min, $max)") def none = min == 0 def contains(x: Int) = isPow2(x) && min <= x && x <= max def containsLg(x: Int) = contains(1 << x) def containsLg(x: UInt) = if (none) false.B else if (min == max) { log2Ceil(min).U === x } else { log2Ceil(min).U <= x && x <= log2Ceil(max).U } def contains(x: TransferSizes) = x.none || (min <= x.min && x.max <= max) def intersect(x: TransferSizes) = if (x.max < min || max < x.min) TransferSizes.none else TransferSizes(scala.math.max(min, x.min), scala.math.min(max, x.max)) // Not a union, because the result may contain sizes contained by neither term // NOT TO BE CONFUSED WITH COVERPOINTS def mincover(x: TransferSizes) = { if (none) { x } else if (x.none) { this } else { TransferSizes(scala.math.min(min, x.min), scala.math.max(max, x.max)) } } override def toString() = "TransferSizes[%d, %d]".format(min, max) } object TransferSizes { def apply(x: Int) = new TransferSizes(x) val none = new TransferSizes(0) def mincover(seq: Seq[TransferSizes]) = seq.foldLeft(none)(_ mincover _) def intersect(seq: Seq[TransferSizes]) = seq.reduce(_ intersect _) implicit def asBool(x: TransferSizes) = !x.none } // AddressSets specify the address space managed by the manager // Base is the base address, and mask are the bits consumed by the manager // e.g: base=0x200, mask=0xff describes a device managing 0x200-0x2ff // e.g: base=0x1000, mask=0xf0f decribes a device managing 0x1000-0x100f, 0x1100-0x110f, ... case class AddressSet(base: BigInt, mask: BigInt) extends Ordered[AddressSet] { // Forbid misaligned base address (and empty sets) require ((base & mask) == 0, s"Mis-aligned AddressSets are forbidden, got: ${this.toString}") require (base >= 0, s"AddressSet negative base is ambiguous: $base") // TL2 address widths are not fixed => negative is ambiguous // We do allow negative mask (=> ignore all high bits) def contains(x: BigInt) = ((x ^ base) & ~mask) == 0 def contains(x: UInt) = ((x ^ base.U).zext & (~mask).S) === 0.S // turn x into an address contained in this set def legalize(x: UInt): UInt = base.U | (mask.U & x) // overlap iff bitwise: both care (~mask0 & ~mask1) => both equal (base0=base1) def overlaps(x: AddressSet) = (~(mask | x.mask) & (base ^ x.base)) == 0 // contains iff bitwise: x.mask => mask && contains(x.base) def contains(x: AddressSet) = ((x.mask | (base ^ x.base)) & ~mask) == 0 // The number of bytes to which the manager must be aligned def alignment = ((mask + 1) & ~mask) // Is this a contiguous memory range def contiguous = alignment == mask+1 def finite = mask >= 0 def max = { require (finite, "Max cannot be calculated on infinite mask"); base | mask } // Widen the match function to ignore all bits in imask def widen(imask: BigInt) = AddressSet(base & ~imask, mask | imask) // Return an AddressSet that only contains the addresses both sets contain def intersect(x: AddressSet): Option[AddressSet] = { if (!overlaps(x)) { None } else { val r_mask = mask & x.mask val r_base = base | x.base Some(AddressSet(r_base, r_mask)) } } def subtract(x: AddressSet): Seq[AddressSet] = { intersect(x) match { case None => Seq(this) case Some(remove) => AddressSet.enumerateBits(mask & ~remove.mask).map { bit => val nmask = (mask & (bit-1)) | remove.mask val nbase = (remove.base ^ bit) & ~nmask AddressSet(nbase, nmask) } } } // AddressSets have one natural Ordering (the containment order, if contiguous) def compare(x: AddressSet) = { val primary = (this.base - x.base).signum // smallest address first val secondary = (x.mask - this.mask).signum // largest mask first if (primary != 0) primary else secondary } // We always want to see things in hex override def toString() = { if (mask >= 0) { "AddressSet(0x%x, 0x%x)".format(base, mask) } else { "AddressSet(0x%x, ~0x%x)".format(base, ~mask) } } def toRanges = { require (finite, "Ranges cannot be calculated on infinite mask") val size = alignment val fragments = mask & ~(size-1) val bits = bitIndexes(fragments) (BigInt(0) until (BigInt(1) << bits.size)).map { i => val off = bitIndexes(i).foldLeft(base) { case (a, b) => a.setBit(bits(b)) } AddressRange(off, size) } } } object AddressSet { val everything = AddressSet(0, -1) def misaligned(base: BigInt, size: BigInt, tail: Seq[AddressSet] = Seq()): Seq[AddressSet] = { if (size == 0) tail.reverse else { val maxBaseAlignment = base & (-base) // 0 for infinite (LSB) val maxSizeAlignment = BigInt(1) << log2Floor(size) // MSB of size val step = if (maxBaseAlignment == 0 || maxBaseAlignment > maxSizeAlignment) maxSizeAlignment else maxBaseAlignment misaligned(base+step, size-step, AddressSet(base, step-1) +: tail) } } def unify(seq: Seq[AddressSet], bit: BigInt): Seq[AddressSet] = { // Pair terms up by ignoring 'bit' seq.distinct.groupBy(x => x.copy(base = x.base & ~bit)).map { case (key, seq) => if (seq.size == 1) { seq.head // singleton -> unaffected } else { key.copy(mask = key.mask | bit) // pair - widen mask by bit } }.toList } def unify(seq: Seq[AddressSet]): Seq[AddressSet] = { val bits = seq.map(_.base).foldLeft(BigInt(0))(_ | _) AddressSet.enumerateBits(bits).foldLeft(seq) { case (acc, bit) => unify(acc, bit) }.sorted } def enumerateMask(mask: BigInt): Seq[BigInt] = { def helper(id: BigInt, tail: Seq[BigInt]): Seq[BigInt] = if (id == mask) (id +: tail).reverse else helper(((~mask | id) + 1) & mask, id +: tail) helper(0, Nil) } def enumerateBits(mask: BigInt): Seq[BigInt] = { def helper(x: BigInt): Seq[BigInt] = { if (x == 0) { Nil } else { val bit = x & (-x) bit +: helper(x & ~bit) } } helper(mask) } } case class BufferParams(depth: Int, flow: Boolean, pipe: Boolean) { require (depth >= 0, "Buffer depth must be >= 0") def isDefined = depth > 0 def latency = if (isDefined && !flow) 1 else 0 def apply[T <: Data](x: DecoupledIO[T]) = if (isDefined) Queue(x, depth, flow=flow, pipe=pipe) else x def irrevocable[T <: Data](x: ReadyValidIO[T]) = if (isDefined) Queue.irrevocable(x, depth, flow=flow, pipe=pipe) else x def sq[T <: Data](x: DecoupledIO[T]) = if (!isDefined) x else { val sq = Module(new ShiftQueue(x.bits, depth, flow=flow, pipe=pipe)) sq.io.enq <> x sq.io.deq } override def toString() = "BufferParams:%d%s%s".format(depth, if (flow) "F" else "", if (pipe) "P" else "") } object BufferParams { implicit def apply(depth: Int): BufferParams = BufferParams(depth, false, false) val default = BufferParams(2) val none = BufferParams(0) val flow = BufferParams(1, true, false) val pipe = BufferParams(1, false, true) } case class TriStateValue(value: Boolean, set: Boolean) { def update(orig: Boolean) = if (set) value else orig } object TriStateValue { implicit def apply(value: Boolean): TriStateValue = TriStateValue(value, true) def unset = TriStateValue(false, false) } trait DirectedBuffers[T] { def copyIn(x: BufferParams): T def copyOut(x: BufferParams): T def copyInOut(x: BufferParams): T } trait IdMapEntry { def name: String def from: IdRange def to: IdRange def isCache: Boolean def requestFifo: Boolean def maxTransactionsInFlight: Option[Int] def pretty(fmt: String) = if (from ne to) { // if the subclass uses the same reference for both from and to, assume its format string has an arity of 5 fmt.format(to.start, to.end, from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } else { fmt.format(from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } } abstract class IdMap[T <: IdMapEntry] { protected val fmt: String val mapping: Seq[T] def pretty: String = mapping.map(_.pretty(fmt)).mkString(",\n") } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module TLMonitor_3( // @[Monitor.scala:36:7] input clock, // @[Monitor.scala:36:7] input reset, // @[Monitor.scala:36:7] input io_in_a_ready, // @[Monitor.scala:20:14] input io_in_a_valid, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_opcode, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_param, // @[Monitor.scala:20:14] input [2:0] io_in_a_bits_size, // @[Monitor.scala:20:14] input [6:0] io_in_a_bits_source, // @[Monitor.scala:20:14] input [28:0] io_in_a_bits_address, // @[Monitor.scala:20:14] input [7:0] io_in_a_bits_mask, // @[Monitor.scala:20:14] input [63:0] io_in_a_bits_data, // @[Monitor.scala:20:14] input io_in_a_bits_corrupt, // @[Monitor.scala:20:14] input io_in_d_ready, // @[Monitor.scala:20:14] input io_in_d_valid, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_opcode, // @[Monitor.scala:20:14] input [1:0] io_in_d_bits_param, // @[Monitor.scala:20:14] input [2:0] io_in_d_bits_size, // @[Monitor.scala:20:14] input [6:0] io_in_d_bits_source, // @[Monitor.scala:20:14] input io_in_d_bits_sink, // @[Monitor.scala:20:14] input io_in_d_bits_denied, // @[Monitor.scala:20:14] input [63:0] io_in_d_bits_data, // @[Monitor.scala:20:14] input io_in_d_bits_corrupt // @[Monitor.scala:20:14] ); wire [31:0] _plusarg_reader_1_out; // @[PlusArg.scala:80:11] wire [31:0] _plusarg_reader_out; // @[PlusArg.scala:80:11] wire io_in_a_ready_0 = io_in_a_ready; // @[Monitor.scala:36:7] wire io_in_a_valid_0 = io_in_a_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_opcode_0 = io_in_a_bits_opcode; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_param_0 = io_in_a_bits_param; // @[Monitor.scala:36:7] wire [2:0] io_in_a_bits_size_0 = io_in_a_bits_size; // @[Monitor.scala:36:7] wire [6:0] io_in_a_bits_source_0 = io_in_a_bits_source; // @[Monitor.scala:36:7] wire [28:0] io_in_a_bits_address_0 = io_in_a_bits_address; // @[Monitor.scala:36:7] wire [7:0] io_in_a_bits_mask_0 = io_in_a_bits_mask; // @[Monitor.scala:36:7] wire [63:0] io_in_a_bits_data_0 = io_in_a_bits_data; // @[Monitor.scala:36:7] wire io_in_a_bits_corrupt_0 = io_in_a_bits_corrupt; // @[Monitor.scala:36:7] wire io_in_d_ready_0 = io_in_d_ready; // @[Monitor.scala:36:7] wire io_in_d_valid_0 = io_in_d_valid; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_opcode_0 = io_in_d_bits_opcode; // @[Monitor.scala:36:7] wire [1:0] io_in_d_bits_param_0 = io_in_d_bits_param; // @[Monitor.scala:36:7] wire [2:0] io_in_d_bits_size_0 = io_in_d_bits_size; // @[Monitor.scala:36:7] wire [6:0] io_in_d_bits_source_0 = io_in_d_bits_source; // @[Monitor.scala:36:7] wire io_in_d_bits_sink_0 = io_in_d_bits_sink; // @[Monitor.scala:36:7] wire io_in_d_bits_denied_0 = io_in_d_bits_denied; // @[Monitor.scala:36:7] wire [63:0] io_in_d_bits_data_0 = io_in_d_bits_data; // @[Monitor.scala:36:7] wire io_in_d_bits_corrupt_0 = io_in_d_bits_corrupt; // @[Monitor.scala:36:7] wire sink_ok = 1'h0; // @[Monitor.scala:309:31] wire _c_first_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_first_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_first_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_first_T = 1'h0; // @[Decoupled.scala:51:35] wire c_first_beats1_opdata = 1'h0; // @[Edges.scala:102:36] wire _c_first_last_T = 1'h0; // @[Edges.scala:232:25] wire c_first_done = 1'h0; // @[Edges.scala:233:22] wire _c_set_wo_ready_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_wo_ready_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_wo_ready_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_interm_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_interm_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_opcodes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_opcodes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_sizes_set_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_sizes_set_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T = 1'h0; // @[Monitor.scala:772:47] wire _c_probe_ack_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _c_probe_ack_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _c_probe_ack_T_1 = 1'h0; // @[Monitor.scala:772:95] wire c_probe_ack = 1'h0; // @[Monitor.scala:772:71] wire _same_cycle_resp_WIRE_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_1_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_1_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_3 = 1'h0; // @[Monitor.scala:795:44] wire _same_cycle_resp_WIRE_2_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_2_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_3_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_3_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_T_4 = 1'h0; // @[Edges.scala:68:36] wire _same_cycle_resp_T_5 = 1'h0; // @[Edges.scala:68:51] wire _same_cycle_resp_T_6 = 1'h0; // @[Edges.scala:68:40] wire _same_cycle_resp_T_7 = 1'h0; // @[Monitor.scala:795:55] wire _same_cycle_resp_WIRE_4_ready = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_valid = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_4_bits_corrupt = 1'h0; // @[Bundles.scala:265:74] wire _same_cycle_resp_WIRE_5_ready = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_valid = 1'h0; // @[Bundles.scala:265:61] wire _same_cycle_resp_WIRE_5_bits_corrupt = 1'h0; // @[Bundles.scala:265:61] wire same_cycle_resp_1 = 1'h0; // @[Monitor.scala:795:88] wire [2:0] responseMap_0 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMap_1 = 3'h0; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_0 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_1 = 3'h0; // @[Monitor.scala:644:42] wire [2:0] _c_first_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_2_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_first_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_first_WIRE_3_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] c_first_beats1_decode = 3'h0; // @[Edges.scala:220:59] wire [2:0] c_first_beats1 = 3'h0; // @[Edges.scala:221:14] wire [2:0] _c_first_count_T = 3'h0; // @[Edges.scala:234:27] wire [2:0] c_first_count = 3'h0; // @[Edges.scala:234:25] wire [2:0] _c_first_counter_T = 3'h0; // @[Edges.scala:236:21] wire [2:0] _c_set_wo_ready_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_wo_ready_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_wo_ready_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_set_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_interm_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_interm_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_opcodes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_opcodes_set_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_sizes_set_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_sizes_set_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_2_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _c_probe_ack_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _c_probe_ack_WIRE_3_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_1_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_1_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_1_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_2_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_2_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_2_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_3_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_3_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_3_bits_size = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_4_bits_opcode = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_4_bits_param = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_4_bits_size = 3'h0; // @[Bundles.scala:265:74] wire [2:0] _same_cycle_resp_WIRE_5_bits_opcode = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_5_bits_param = 3'h0; // @[Bundles.scala:265:61] wire [2:0] _same_cycle_resp_WIRE_5_bits_size = 3'h0; // @[Bundles.scala:265:61] wire _source_ok_T_3 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_5 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_9 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_11 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_15 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_17 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_21 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_23 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_28 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_30 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_44 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_46 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_50 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_52 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_56 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_58 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_62 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_64 = 1'h1; // @[Parameters.scala:57:20] wire _source_ok_T_69 = 1'h1; // @[Parameters.scala:56:32] wire _source_ok_T_71 = 1'h1; // @[Parameters.scala:57:20] wire c_first = 1'h1; // @[Edges.scala:231:25] wire _c_first_last_T_1 = 1'h1; // @[Edges.scala:232:43] wire c_first_last = 1'h1; // @[Edges.scala:232:33] wire [2:0] c_first_counter1 = 3'h7; // @[Edges.scala:230:28] wire [3:0] _c_first_counter1_T = 4'hF; // @[Edges.scala:230:28] wire [63:0] _c_first_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_first_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_first_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_wo_ready_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_wo_ready_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_interm_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_interm_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_opcodes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_opcodes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_sizes_set_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_sizes_set_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _c_probe_ack_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _c_probe_ack_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_1_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_2_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_3_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [63:0] _same_cycle_resp_WIRE_4_bits_data = 64'h0; // @[Bundles.scala:265:74] wire [63:0] _same_cycle_resp_WIRE_5_bits_data = 64'h0; // @[Bundles.scala:265:61] wire [28:0] _c_first_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_first_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_first_WIRE_2_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_first_WIRE_3_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_set_wo_ready_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_set_wo_ready_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_set_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_set_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_opcodes_set_interm_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_opcodes_set_interm_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_sizes_set_interm_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_sizes_set_interm_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_opcodes_set_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_opcodes_set_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_sizes_set_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_sizes_set_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_probe_ack_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_probe_ack_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _c_probe_ack_WIRE_2_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _c_probe_ack_WIRE_3_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _same_cycle_resp_WIRE_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _same_cycle_resp_WIRE_1_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _same_cycle_resp_WIRE_2_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _same_cycle_resp_WIRE_3_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [28:0] _same_cycle_resp_WIRE_4_bits_address = 29'h0; // @[Bundles.scala:265:74] wire [28:0] _same_cycle_resp_WIRE_5_bits_address = 29'h0; // @[Bundles.scala:265:61] wire [6:0] _c_first_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_first_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_first_WIRE_2_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_first_WIRE_3_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_set_wo_ready_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_set_wo_ready_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_set_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_set_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_opcodes_set_interm_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_opcodes_set_interm_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_sizes_set_interm_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_sizes_set_interm_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_opcodes_set_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_opcodes_set_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_sizes_set_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_sizes_set_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_probe_ack_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_probe_ack_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _c_probe_ack_WIRE_2_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _c_probe_ack_WIRE_3_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _same_cycle_resp_WIRE_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _same_cycle_resp_WIRE_1_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _same_cycle_resp_WIRE_2_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _same_cycle_resp_WIRE_3_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [6:0] _same_cycle_resp_WIRE_4_bits_source = 7'h0; // @[Bundles.scala:265:74] wire [6:0] _same_cycle_resp_WIRE_5_bits_source = 7'h0; // @[Bundles.scala:265:61] wire [15:0] _a_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _a_size_lookup_T_5 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_opcodes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _d_sizes_clr_T_3 = 16'hF; // @[Monitor.scala:612:57] wire [15:0] _c_opcode_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _c_size_lookup_T_5 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_opcodes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [15:0] _d_sizes_clr_T_9 = 16'hF; // @[Monitor.scala:724:57] wire [16:0] _a_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _a_size_lookup_T_4 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_opcodes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _d_sizes_clr_T_2 = 17'hF; // @[Monitor.scala:612:57] wire [16:0] _c_opcode_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _c_size_lookup_T_4 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_opcodes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [16:0] _d_sizes_clr_T_8 = 17'hF; // @[Monitor.scala:724:57] wire [15:0] _a_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _a_size_lookup_T_3 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_opcodes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _d_sizes_clr_T_1 = 16'h10; // @[Monitor.scala:612:51] wire [15:0] _c_opcode_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _c_size_lookup_T_3 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_opcodes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [15:0] _d_sizes_clr_T_7 = 16'h10; // @[Monitor.scala:724:51] wire [1026:0] _c_opcodes_set_T_1 = 1027'h0; // @[Monitor.scala:767:54] wire [1026:0] _c_sizes_set_T_1 = 1027'h0; // @[Monitor.scala:768:52] wire [9:0] _c_opcodes_set_T = 10'h0; // @[Monitor.scala:767:79] wire [9:0] _c_sizes_set_T = 10'h0; // @[Monitor.scala:768:77] wire [3:0] _c_opcodes_set_interm_T_1 = 4'h1; // @[Monitor.scala:765:61] wire [3:0] _c_sizes_set_interm_T_1 = 4'h1; // @[Monitor.scala:766:59] wire [3:0] c_opcodes_set_interm = 4'h0; // @[Monitor.scala:754:40] wire [3:0] c_sizes_set_interm = 4'h0; // @[Monitor.scala:755:40] wire [3:0] _c_opcodes_set_interm_T = 4'h0; // @[Monitor.scala:765:53] wire [3:0] _c_sizes_set_interm_T = 4'h0; // @[Monitor.scala:766:51] wire [127:0] _c_set_wo_ready_T = 128'h1; // @[OneHot.scala:58:35] wire [127:0] _c_set_T = 128'h1; // @[OneHot.scala:58:35] wire [259:0] c_opcodes_set = 260'h0; // @[Monitor.scala:740:34] wire [259:0] c_sizes_set = 260'h0; // @[Monitor.scala:741:34] wire [64:0] c_set = 65'h0; // @[Monitor.scala:738:34] wire [64:0] c_set_wo_ready = 65'h0; // @[Monitor.scala:739:34] wire [5:0] _c_first_beats1_decode_T_2 = 6'h0; // @[package.scala:243:46] wire [5:0] _c_first_beats1_decode_T_1 = 6'h3F; // @[package.scala:243:76] wire [12:0] _c_first_beats1_decode_T = 13'h3F; // @[package.scala:243:71] wire [2:0] responseMap_6 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMap_7 = 3'h4; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_7 = 3'h4; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_6 = 3'h5; // @[Monitor.scala:644:42] wire [2:0] responseMap_5 = 3'h2; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_5 = 3'h2; // @[Monitor.scala:644:42] wire [2:0] responseMap_2 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_3 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMap_4 = 3'h1; // @[Monitor.scala:643:42] wire [2:0] responseMapSecondOption_2 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_3 = 3'h1; // @[Monitor.scala:644:42] wire [2:0] responseMapSecondOption_4 = 3'h1; // @[Monitor.scala:644:42] wire [3:0] _a_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:637:123] wire [3:0] _a_size_lookup_T_2 = 4'h4; // @[Monitor.scala:641:117] wire [3:0] _d_opcodes_clr_T = 4'h4; // @[Monitor.scala:680:48] wire [3:0] _d_sizes_clr_T = 4'h4; // @[Monitor.scala:681:48] wire [3:0] _c_opcode_lookup_T_2 = 4'h4; // @[Monitor.scala:749:123] wire [3:0] _c_size_lookup_T_2 = 4'h4; // @[Monitor.scala:750:119] wire [3:0] _d_opcodes_clr_T_6 = 4'h4; // @[Monitor.scala:790:48] wire [3:0] _d_sizes_clr_T_6 = 4'h4; // @[Monitor.scala:791:48] wire [2:0] _mask_sizeOH_T = io_in_a_bits_size_0; // @[Misc.scala:202:34] wire [6:0] _source_ok_uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_4 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_1 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_2 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_3 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_4 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_5 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_6 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_7 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_8 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_9 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_10 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_11 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_12 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_13 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_14 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_15 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_16 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_17 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_18 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_19 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_20 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_21 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_22 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_23 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_24 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_25 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_26 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_27 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_28 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_29 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_30 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_31 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_32 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_33 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_34 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_35 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_36 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_37 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_38 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_39 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_40 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_41 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_42 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_43 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_44 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_45 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_46 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_47 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_48 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_49 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_50 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_51 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_52 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_53 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _uncommonBits_T_54 = io_in_a_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_5 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_6 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_7 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_8 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire [6:0] _source_ok_uncommonBits_T_9 = io_in_d_bits_source_0; // @[Monitor.scala:36:7] wire _source_ok_T = io_in_a_bits_source_0 == 7'h10; // @[Monitor.scala:36:7] wire _source_ok_WIRE_0 = _source_ok_T; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits = _source_ok_uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [4:0] _source_ok_T_1 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_7 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_13 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_19 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_26 = io_in_a_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire _source_ok_T_2 = _source_ok_T_1 == 5'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_4 = _source_ok_T_2; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_6 = _source_ok_T_4; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1 = _source_ok_T_6; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_1 = _source_ok_uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_8 = _source_ok_T_7 == 5'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_10 = _source_ok_T_8; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_12 = _source_ok_T_10; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_2 = _source_ok_T_12; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_2 = _source_ok_uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_14 = _source_ok_T_13 == 5'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_16 = _source_ok_T_14; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_18 = _source_ok_T_16; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_3 = _source_ok_T_18; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_3 = _source_ok_uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_20 = _source_ok_T_19 == 5'h3; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_22 = _source_ok_T_20; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_24 = _source_ok_T_22; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_4 = _source_ok_T_24; // @[Parameters.scala:1138:31] wire _source_ok_T_25 = io_in_a_bits_source_0 == 7'h28; // @[Monitor.scala:36:7] wire _source_ok_WIRE_5 = _source_ok_T_25; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_4 = _source_ok_uncommonBits_T_4[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_27 = _source_ok_T_26 == 5'h8; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_29 = _source_ok_T_27; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_31 = _source_ok_T_29; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_6 = _source_ok_T_31; // @[Parameters.scala:1138:31] wire _source_ok_T_32 = io_in_a_bits_source_0 == 7'h24; // @[Monitor.scala:36:7] wire _source_ok_WIRE_7 = _source_ok_T_32; // @[Parameters.scala:1138:31] wire _source_ok_T_33 = io_in_a_bits_source_0 == 7'h40; // @[Monitor.scala:36:7] wire _source_ok_WIRE_8 = _source_ok_T_33; // @[Parameters.scala:1138:31] wire _source_ok_T_34 = _source_ok_WIRE_0 | _source_ok_WIRE_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_35 = _source_ok_T_34 | _source_ok_WIRE_2; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_36 = _source_ok_T_35 | _source_ok_WIRE_3; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_37 = _source_ok_T_36 | _source_ok_WIRE_4; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_38 = _source_ok_T_37 | _source_ok_WIRE_5; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_39 = _source_ok_T_38 | _source_ok_WIRE_6; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_40 = _source_ok_T_39 | _source_ok_WIRE_7; // @[Parameters.scala:1138:31, :1139:46] wire source_ok = _source_ok_T_40 | _source_ok_WIRE_8; // @[Parameters.scala:1138:31, :1139:46] wire [12:0] _GEN = 13'h3F << io_in_a_bits_size_0; // @[package.scala:243:71] wire [12:0] _is_aligned_mask_T; // @[package.scala:243:71] assign _is_aligned_mask_T = _GEN; // @[package.scala:243:71] wire [12:0] _a_first_beats1_decode_T; // @[package.scala:243:71] assign _a_first_beats1_decode_T = _GEN; // @[package.scala:243:71] wire [12:0] _a_first_beats1_decode_T_3; // @[package.scala:243:71] assign _a_first_beats1_decode_T_3 = _GEN; // @[package.scala:243:71] wire [5:0] _is_aligned_mask_T_1 = _is_aligned_mask_T[5:0]; // @[package.scala:243:{71,76}] wire [5:0] is_aligned_mask = ~_is_aligned_mask_T_1; // @[package.scala:243:{46,76}] wire [28:0] _is_aligned_T = {23'h0, io_in_a_bits_address_0[5:0] & is_aligned_mask}; // @[package.scala:243:46] wire is_aligned = _is_aligned_T == 29'h0; // @[Edges.scala:21:{16,24}] wire [1:0] mask_sizeOH_shiftAmount = _mask_sizeOH_T[1:0]; // @[OneHot.scala:64:49] wire [3:0] _mask_sizeOH_T_1 = 4'h1 << mask_sizeOH_shiftAmount; // @[OneHot.scala:64:49, :65:12] wire [2:0] _mask_sizeOH_T_2 = _mask_sizeOH_T_1[2:0]; // @[OneHot.scala:65:{12,27}] wire [2:0] mask_sizeOH = {_mask_sizeOH_T_2[2:1], 1'h1}; // @[OneHot.scala:65:27] wire mask_sub_sub_sub_0_1 = io_in_a_bits_size_0 > 3'h2; // @[Misc.scala:206:21] wire mask_sub_sub_size = mask_sizeOH[2]; // @[Misc.scala:202:81, :209:26] wire mask_sub_sub_bit = io_in_a_bits_address_0[2]; // @[Misc.scala:210:26] wire mask_sub_sub_1_2 = mask_sub_sub_bit; // @[Misc.scala:210:26, :214:27] wire mask_sub_sub_nbit = ~mask_sub_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_sub_0_2 = mask_sub_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_sub_acc_T = mask_sub_sub_size & mask_sub_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_0_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T; // @[Misc.scala:206:21, :215:{29,38}] wire _mask_sub_sub_acc_T_1 = mask_sub_sub_size & mask_sub_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_sub_1_1 = mask_sub_sub_sub_0_1 | _mask_sub_sub_acc_T_1; // @[Misc.scala:206:21, :215:{29,38}] wire mask_sub_size = mask_sizeOH[1]; // @[Misc.scala:202:81, :209:26] wire mask_sub_bit = io_in_a_bits_address_0[1]; // @[Misc.scala:210:26] wire mask_sub_nbit = ~mask_sub_bit; // @[Misc.scala:210:26, :211:20] wire mask_sub_0_2 = mask_sub_sub_0_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T = mask_sub_size & mask_sub_0_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_0_1 = mask_sub_sub_0_1 | _mask_sub_acc_T; // @[Misc.scala:215:{29,38}] wire mask_sub_1_2 = mask_sub_sub_0_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_1 = mask_sub_size & mask_sub_1_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_1_1 = mask_sub_sub_0_1 | _mask_sub_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_sub_2_2 = mask_sub_sub_1_2 & mask_sub_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_sub_acc_T_2 = mask_sub_size & mask_sub_2_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_2_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_sub_3_2 = mask_sub_sub_1_2 & mask_sub_bit; // @[Misc.scala:210:26, :214:27] wire _mask_sub_acc_T_3 = mask_sub_size & mask_sub_3_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_sub_3_1 = mask_sub_sub_1_1 | _mask_sub_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_size = mask_sizeOH[0]; // @[Misc.scala:202:81, :209:26] wire mask_bit = io_in_a_bits_address_0[0]; // @[Misc.scala:210:26] wire mask_nbit = ~mask_bit; // @[Misc.scala:210:26, :211:20] wire mask_eq = mask_sub_0_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T = mask_size & mask_eq; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc = mask_sub_0_1 | _mask_acc_T; // @[Misc.scala:215:{29,38}] wire mask_eq_1 = mask_sub_0_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_1 = mask_size & mask_eq_1; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_1 = mask_sub_0_1 | _mask_acc_T_1; // @[Misc.scala:215:{29,38}] wire mask_eq_2 = mask_sub_1_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_2 = mask_size & mask_eq_2; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_2 = mask_sub_1_1 | _mask_acc_T_2; // @[Misc.scala:215:{29,38}] wire mask_eq_3 = mask_sub_1_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_3 = mask_size & mask_eq_3; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_3 = mask_sub_1_1 | _mask_acc_T_3; // @[Misc.scala:215:{29,38}] wire mask_eq_4 = mask_sub_2_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_4 = mask_size & mask_eq_4; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_4 = mask_sub_2_1 | _mask_acc_T_4; // @[Misc.scala:215:{29,38}] wire mask_eq_5 = mask_sub_2_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_5 = mask_size & mask_eq_5; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_5 = mask_sub_2_1 | _mask_acc_T_5; // @[Misc.scala:215:{29,38}] wire mask_eq_6 = mask_sub_3_2 & mask_nbit; // @[Misc.scala:211:20, :214:27] wire _mask_acc_T_6 = mask_size & mask_eq_6; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_6 = mask_sub_3_1 | _mask_acc_T_6; // @[Misc.scala:215:{29,38}] wire mask_eq_7 = mask_sub_3_2 & mask_bit; // @[Misc.scala:210:26, :214:27] wire _mask_acc_T_7 = mask_size & mask_eq_7; // @[Misc.scala:209:26, :214:27, :215:38] wire mask_acc_7 = mask_sub_3_1 | _mask_acc_T_7; // @[Misc.scala:215:{29,38}] wire [1:0] mask_lo_lo = {mask_acc_1, mask_acc}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_lo_hi = {mask_acc_3, mask_acc_2}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_lo = {mask_lo_hi, mask_lo_lo}; // @[Misc.scala:222:10] wire [1:0] mask_hi_lo = {mask_acc_5, mask_acc_4}; // @[Misc.scala:215:29, :222:10] wire [1:0] mask_hi_hi = {mask_acc_7, mask_acc_6}; // @[Misc.scala:215:29, :222:10] wire [3:0] mask_hi = {mask_hi_hi, mask_hi_lo}; // @[Misc.scala:222:10] wire [7:0] mask = {mask_hi, mask_lo}; // @[Misc.scala:222:10] wire [1:0] uncommonBits = _uncommonBits_T[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_1 = _uncommonBits_T_1[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_2 = _uncommonBits_T_2[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_3 = _uncommonBits_T_3[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_4 = _uncommonBits_T_4[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_5 = _uncommonBits_T_5[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_6 = _uncommonBits_T_6[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_7 = _uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_8 = _uncommonBits_T_8[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_9 = _uncommonBits_T_9[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_10 = _uncommonBits_T_10[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_11 = _uncommonBits_T_11[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_12 = _uncommonBits_T_12[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_13 = _uncommonBits_T_13[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_14 = _uncommonBits_T_14[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_15 = _uncommonBits_T_15[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_16 = _uncommonBits_T_16[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_17 = _uncommonBits_T_17[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_18 = _uncommonBits_T_18[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_19 = _uncommonBits_T_19[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_20 = _uncommonBits_T_20[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_21 = _uncommonBits_T_21[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_22 = _uncommonBits_T_22[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_23 = _uncommonBits_T_23[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_24 = _uncommonBits_T_24[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_25 = _uncommonBits_T_25[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_26 = _uncommonBits_T_26[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_27 = _uncommonBits_T_27[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_28 = _uncommonBits_T_28[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_29 = _uncommonBits_T_29[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_30 = _uncommonBits_T_30[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_31 = _uncommonBits_T_31[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_32 = _uncommonBits_T_32[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_33 = _uncommonBits_T_33[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_34 = _uncommonBits_T_34[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_35 = _uncommonBits_T_35[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_36 = _uncommonBits_T_36[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_37 = _uncommonBits_T_37[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_38 = _uncommonBits_T_38[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_39 = _uncommonBits_T_39[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_40 = _uncommonBits_T_40[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_41 = _uncommonBits_T_41[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_42 = _uncommonBits_T_42[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_43 = _uncommonBits_T_43[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_44 = _uncommonBits_T_44[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_45 = _uncommonBits_T_45[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_46 = _uncommonBits_T_46[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_47 = _uncommonBits_T_47[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_48 = _uncommonBits_T_48[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_49 = _uncommonBits_T_49[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_50 = _uncommonBits_T_50[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_51 = _uncommonBits_T_51[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_52 = _uncommonBits_T_52[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_53 = _uncommonBits_T_53[1:0]; // @[Parameters.scala:52:{29,56}] wire [1:0] uncommonBits_54 = _uncommonBits_T_54[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_41 = io_in_d_bits_source_0 == 7'h10; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_0 = _source_ok_T_41; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_5 = _source_ok_uncommonBits_T_5[1:0]; // @[Parameters.scala:52:{29,56}] wire [4:0] _source_ok_T_42 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_48 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_54 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_60 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire [4:0] _source_ok_T_67 = io_in_d_bits_source_0[6:2]; // @[Monitor.scala:36:7] wire _source_ok_T_43 = _source_ok_T_42 == 5'h0; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_45 = _source_ok_T_43; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_47 = _source_ok_T_45; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_1 = _source_ok_T_47; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_6 = _source_ok_uncommonBits_T_6[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_49 = _source_ok_T_48 == 5'h1; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_51 = _source_ok_T_49; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_53 = _source_ok_T_51; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_2 = _source_ok_T_53; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_7 = _source_ok_uncommonBits_T_7[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_55 = _source_ok_T_54 == 5'h2; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_57 = _source_ok_T_55; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_59 = _source_ok_T_57; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_3 = _source_ok_T_59; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_8 = _source_ok_uncommonBits_T_8[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_61 = _source_ok_T_60 == 5'h3; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_63 = _source_ok_T_61; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_65 = _source_ok_T_63; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_4 = _source_ok_T_65; // @[Parameters.scala:1138:31] wire _source_ok_T_66 = io_in_d_bits_source_0 == 7'h28; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_5 = _source_ok_T_66; // @[Parameters.scala:1138:31] wire [1:0] source_ok_uncommonBits_9 = _source_ok_uncommonBits_T_9[1:0]; // @[Parameters.scala:52:{29,56}] wire _source_ok_T_68 = _source_ok_T_67 == 5'h8; // @[Parameters.scala:54:{10,32}] wire _source_ok_T_70 = _source_ok_T_68; // @[Parameters.scala:54:{32,67}] wire _source_ok_T_72 = _source_ok_T_70; // @[Parameters.scala:54:67, :56:48] wire _source_ok_WIRE_1_6 = _source_ok_T_72; // @[Parameters.scala:1138:31] wire _source_ok_T_73 = io_in_d_bits_source_0 == 7'h24; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_7 = _source_ok_T_73; // @[Parameters.scala:1138:31] wire _source_ok_T_74 = io_in_d_bits_source_0 == 7'h40; // @[Monitor.scala:36:7] wire _source_ok_WIRE_1_8 = _source_ok_T_74; // @[Parameters.scala:1138:31] wire _source_ok_T_75 = _source_ok_WIRE_1_0 | _source_ok_WIRE_1_1; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_76 = _source_ok_T_75 | _source_ok_WIRE_1_2; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_77 = _source_ok_T_76 | _source_ok_WIRE_1_3; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_78 = _source_ok_T_77 | _source_ok_WIRE_1_4; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_79 = _source_ok_T_78 | _source_ok_WIRE_1_5; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_80 = _source_ok_T_79 | _source_ok_WIRE_1_6; // @[Parameters.scala:1138:31, :1139:46] wire _source_ok_T_81 = _source_ok_T_80 | _source_ok_WIRE_1_7; // @[Parameters.scala:1138:31, :1139:46] wire source_ok_1 = _source_ok_T_81 | _source_ok_WIRE_1_8; // @[Parameters.scala:1138:31, :1139:46] wire _T_1216 = io_in_a_ready_0 & io_in_a_valid_0; // @[Decoupled.scala:51:35] wire _a_first_T; // @[Decoupled.scala:51:35] assign _a_first_T = _T_1216; // @[Decoupled.scala:51:35] wire _a_first_T_1; // @[Decoupled.scala:51:35] assign _a_first_T_1 = _T_1216; // @[Decoupled.scala:51:35] wire [5:0] _a_first_beats1_decode_T_1 = _a_first_beats1_decode_T[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _a_first_beats1_decode_T_2 = ~_a_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [2:0] a_first_beats1_decode = _a_first_beats1_decode_T_2[5:3]; // @[package.scala:243:46] wire _a_first_beats1_opdata_T = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire _a_first_beats1_opdata_T_1 = io_in_a_bits_opcode_0[2]; // @[Monitor.scala:36:7] wire a_first_beats1_opdata = ~_a_first_beats1_opdata_T; // @[Edges.scala:92:{28,37}] wire [2:0] a_first_beats1 = a_first_beats1_opdata ? a_first_beats1_decode : 3'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [2:0] a_first_counter; // @[Edges.scala:229:27] wire [3:0] _a_first_counter1_T = {1'h0, a_first_counter} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] a_first_counter1 = _a_first_counter1_T[2:0]; // @[Edges.scala:230:28] wire a_first = a_first_counter == 3'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T = a_first_counter == 3'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_1 = a_first_beats1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last = _a_first_last_T | _a_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire a_first_done = a_first_last & _a_first_T; // @[Decoupled.scala:51:35] wire [2:0] _a_first_count_T = ~a_first_counter1; // @[Edges.scala:230:28, :234:27] wire [2:0] a_first_count = a_first_beats1 & _a_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _a_first_counter_T = a_first ? a_first_beats1 : a_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode; // @[Monitor.scala:387:22] reg [2:0] param; // @[Monitor.scala:388:22] reg [2:0] size; // @[Monitor.scala:389:22] reg [6:0] source; // @[Monitor.scala:390:22] reg [28:0] address; // @[Monitor.scala:391:22] wire _T_1289 = io_in_d_ready_0 & io_in_d_valid_0; // @[Decoupled.scala:51:35] wire _d_first_T; // @[Decoupled.scala:51:35] assign _d_first_T = _T_1289; // @[Decoupled.scala:51:35] wire _d_first_T_1; // @[Decoupled.scala:51:35] assign _d_first_T_1 = _T_1289; // @[Decoupled.scala:51:35] wire _d_first_T_2; // @[Decoupled.scala:51:35] assign _d_first_T_2 = _T_1289; // @[Decoupled.scala:51:35] wire [12:0] _GEN_0 = 13'h3F << io_in_d_bits_size_0; // @[package.scala:243:71] wire [12:0] _d_first_beats1_decode_T; // @[package.scala:243:71] assign _d_first_beats1_decode_T = _GEN_0; // @[package.scala:243:71] wire [12:0] _d_first_beats1_decode_T_3; // @[package.scala:243:71] assign _d_first_beats1_decode_T_3 = _GEN_0; // @[package.scala:243:71] wire [12:0] _d_first_beats1_decode_T_6; // @[package.scala:243:71] assign _d_first_beats1_decode_T_6 = _GEN_0; // @[package.scala:243:71] wire [5:0] _d_first_beats1_decode_T_1 = _d_first_beats1_decode_T[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _d_first_beats1_decode_T_2 = ~_d_first_beats1_decode_T_1; // @[package.scala:243:{46,76}] wire [2:0] d_first_beats1_decode = _d_first_beats1_decode_T_2[5:3]; // @[package.scala:243:46] wire d_first_beats1_opdata = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_1 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire d_first_beats1_opdata_2 = io_in_d_bits_opcode_0[0]; // @[Monitor.scala:36:7] wire [2:0] d_first_beats1 = d_first_beats1_opdata ? d_first_beats1_decode : 3'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [2:0] d_first_counter; // @[Edges.scala:229:27] wire [3:0] _d_first_counter1_T = {1'h0, d_first_counter} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] d_first_counter1 = _d_first_counter1_T[2:0]; // @[Edges.scala:230:28] wire d_first = d_first_counter == 3'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T = d_first_counter == 3'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_1 = d_first_beats1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last = _d_first_last_T | _d_first_last_T_1; // @[Edges.scala:232:{25,33,43}] wire d_first_done = d_first_last & _d_first_T; // @[Decoupled.scala:51:35] wire [2:0] _d_first_count_T = ~d_first_counter1; // @[Edges.scala:230:28, :234:27] wire [2:0] d_first_count = d_first_beats1 & _d_first_count_T; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _d_first_counter_T = d_first ? d_first_beats1 : d_first_counter1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] reg [2:0] opcode_1; // @[Monitor.scala:538:22] reg [1:0] param_1; // @[Monitor.scala:539:22] reg [2:0] size_1; // @[Monitor.scala:540:22] reg [6:0] source_1; // @[Monitor.scala:541:22] reg sink; // @[Monitor.scala:542:22] reg denied; // @[Monitor.scala:543:22] reg [64:0] inflight; // @[Monitor.scala:614:27] reg [259:0] inflight_opcodes; // @[Monitor.scala:616:35] reg [259:0] inflight_sizes; // @[Monitor.scala:618:33] wire [5:0] _a_first_beats1_decode_T_4 = _a_first_beats1_decode_T_3[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _a_first_beats1_decode_T_5 = ~_a_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [2:0] a_first_beats1_decode_1 = _a_first_beats1_decode_T_5[5:3]; // @[package.scala:243:46] wire a_first_beats1_opdata_1 = ~_a_first_beats1_opdata_T_1; // @[Edges.scala:92:{28,37}] wire [2:0] a_first_beats1_1 = a_first_beats1_opdata_1 ? a_first_beats1_decode_1 : 3'h0; // @[Edges.scala:92:28, :220:59, :221:14] reg [2:0] a_first_counter_1; // @[Edges.scala:229:27] wire [3:0] _a_first_counter1_T_1 = {1'h0, a_first_counter_1} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] a_first_counter1_1 = _a_first_counter1_T_1[2:0]; // @[Edges.scala:230:28] wire a_first_1 = a_first_counter_1 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _a_first_last_T_2 = a_first_counter_1 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _a_first_last_T_3 = a_first_beats1_1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire a_first_last_1 = _a_first_last_T_2 | _a_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire a_first_done_1 = a_first_last_1 & _a_first_T_1; // @[Decoupled.scala:51:35] wire [2:0] _a_first_count_T_1 = ~a_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [2:0] a_first_count_1 = a_first_beats1_1 & _a_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _a_first_counter_T_1 = a_first_1 ? a_first_beats1_1 : a_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [5:0] _d_first_beats1_decode_T_4 = _d_first_beats1_decode_T_3[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _d_first_beats1_decode_T_5 = ~_d_first_beats1_decode_T_4; // @[package.scala:243:{46,76}] wire [2:0] d_first_beats1_decode_1 = _d_first_beats1_decode_T_5[5:3]; // @[package.scala:243:46] wire [2:0] d_first_beats1_1 = d_first_beats1_opdata_1 ? d_first_beats1_decode_1 : 3'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [2:0] d_first_counter_1; // @[Edges.scala:229:27] wire [3:0] _d_first_counter1_T_1 = {1'h0, d_first_counter_1} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] d_first_counter1_1 = _d_first_counter1_T_1[2:0]; // @[Edges.scala:230:28] wire d_first_1 = d_first_counter_1 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_2 = d_first_counter_1 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_3 = d_first_beats1_1 == 3'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_1 = _d_first_last_T_2 | _d_first_last_T_3; // @[Edges.scala:232:{25,33,43}] wire d_first_done_1 = d_first_last_1 & _d_first_T_1; // @[Decoupled.scala:51:35] wire [2:0] _d_first_count_T_1 = ~d_first_counter1_1; // @[Edges.scala:230:28, :234:27] wire [2:0] d_first_count_1 = d_first_beats1_1 & _d_first_count_T_1; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _d_first_counter_T_1 = d_first_1 ? d_first_beats1_1 : d_first_counter1_1; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [64:0] a_set; // @[Monitor.scala:626:34] wire [64:0] a_set_wo_ready; // @[Monitor.scala:627:34] wire [259:0] a_opcodes_set; // @[Monitor.scala:630:33] wire [259:0] a_sizes_set; // @[Monitor.scala:632:31] wire [2:0] a_opcode_lookup; // @[Monitor.scala:635:35] wire [9:0] _GEN_1 = {1'h0, io_in_d_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :637:69] wire [9:0] _a_opcode_lookup_T; // @[Monitor.scala:637:69] assign _a_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69] wire [9:0] _a_size_lookup_T; // @[Monitor.scala:641:65] assign _a_size_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :641:65] wire [9:0] _d_opcodes_clr_T_4; // @[Monitor.scala:680:101] assign _d_opcodes_clr_T_4 = _GEN_1; // @[Monitor.scala:637:69, :680:101] wire [9:0] _d_sizes_clr_T_4; // @[Monitor.scala:681:99] assign _d_sizes_clr_T_4 = _GEN_1; // @[Monitor.scala:637:69, :681:99] wire [9:0] _c_opcode_lookup_T; // @[Monitor.scala:749:69] assign _c_opcode_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :749:69] wire [9:0] _c_size_lookup_T; // @[Monitor.scala:750:67] assign _c_size_lookup_T = _GEN_1; // @[Monitor.scala:637:69, :750:67] wire [9:0] _d_opcodes_clr_T_10; // @[Monitor.scala:790:101] assign _d_opcodes_clr_T_10 = _GEN_1; // @[Monitor.scala:637:69, :790:101] wire [9:0] _d_sizes_clr_T_10; // @[Monitor.scala:791:99] assign _d_sizes_clr_T_10 = _GEN_1; // @[Monitor.scala:637:69, :791:99] wire [259:0] _a_opcode_lookup_T_1 = inflight_opcodes >> _a_opcode_lookup_T; // @[Monitor.scala:616:35, :637:{44,69}] wire [259:0] _a_opcode_lookup_T_6 = {256'h0, _a_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:637:{44,97}] wire [259:0] _a_opcode_lookup_T_7 = {1'h0, _a_opcode_lookup_T_6[259:1]}; // @[Monitor.scala:637:{97,152}] assign a_opcode_lookup = _a_opcode_lookup_T_7[2:0]; // @[Monitor.scala:635:35, :637:{21,152}] wire [3:0] a_size_lookup; // @[Monitor.scala:639:33] wire [259:0] _a_size_lookup_T_1 = inflight_sizes >> _a_size_lookup_T; // @[Monitor.scala:618:33, :641:{40,65}] wire [259:0] _a_size_lookup_T_6 = {256'h0, _a_size_lookup_T_1[3:0]}; // @[Monitor.scala:641:{40,91}] wire [259:0] _a_size_lookup_T_7 = {1'h0, _a_size_lookup_T_6[259:1]}; // @[Monitor.scala:641:{91,144}] assign a_size_lookup = _a_size_lookup_T_7[3:0]; // @[Monitor.scala:639:33, :641:{19,144}] wire [3:0] a_opcodes_set_interm; // @[Monitor.scala:646:40] wire [3:0] a_sizes_set_interm; // @[Monitor.scala:648:38] wire _same_cycle_resp_T = io_in_a_valid_0 & a_first_1; // @[Monitor.scala:36:7, :651:26, :684:44] wire [127:0] _GEN_2 = 128'h1 << io_in_a_bits_source_0; // @[OneHot.scala:58:35] wire [127:0] _a_set_wo_ready_T; // @[OneHot.scala:58:35] assign _a_set_wo_ready_T = _GEN_2; // @[OneHot.scala:58:35] wire [127:0] _a_set_T; // @[OneHot.scala:58:35] assign _a_set_T = _GEN_2; // @[OneHot.scala:58:35] assign a_set_wo_ready = _same_cycle_resp_T ? _a_set_wo_ready_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire _T_1142 = _T_1216 & a_first_1; // @[Decoupled.scala:51:35] assign a_set = _T_1142 ? _a_set_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire [3:0] _a_opcodes_set_interm_T = {io_in_a_bits_opcode_0, 1'h0}; // @[Monitor.scala:36:7, :657:53] wire [3:0] _a_opcodes_set_interm_T_1 = {_a_opcodes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:657:{53,61}] assign a_opcodes_set_interm = _T_1142 ? _a_opcodes_set_interm_T_1 : 4'h0; // @[Monitor.scala:646:40, :655:{25,70}, :657:{28,61}] wire [3:0] _a_sizes_set_interm_T = {io_in_a_bits_size_0, 1'h0}; // @[Monitor.scala:36:7, :658:51] wire [3:0] _a_sizes_set_interm_T_1 = {_a_sizes_set_interm_T[3:1], 1'h1}; // @[Monitor.scala:658:{51,59}] assign a_sizes_set_interm = _T_1142 ? _a_sizes_set_interm_T_1 : 4'h0; // @[Monitor.scala:648:38, :655:{25,70}, :658:{28,59}] wire [9:0] _GEN_3 = {1'h0, io_in_a_bits_source_0, 2'h0}; // @[Monitor.scala:36:7, :659:79] wire [9:0] _a_opcodes_set_T; // @[Monitor.scala:659:79] assign _a_opcodes_set_T = _GEN_3; // @[Monitor.scala:659:79] wire [9:0] _a_sizes_set_T; // @[Monitor.scala:660:77] assign _a_sizes_set_T = _GEN_3; // @[Monitor.scala:659:79, :660:77] wire [1026:0] _a_opcodes_set_T_1 = {1023'h0, a_opcodes_set_interm} << _a_opcodes_set_T; // @[Monitor.scala:646:40, :659:{54,79}] assign a_opcodes_set = _T_1142 ? _a_opcodes_set_T_1[259:0] : 260'h0; // @[Monitor.scala:630:33, :655:{25,70}, :659:{28,54}] wire [1026:0] _a_sizes_set_T_1 = {1023'h0, a_sizes_set_interm} << _a_sizes_set_T; // @[Monitor.scala:648:38, :659:54, :660:{52,77}] assign a_sizes_set = _T_1142 ? _a_sizes_set_T_1[259:0] : 260'h0; // @[Monitor.scala:632:31, :655:{25,70}, :660:{28,52}] wire [64:0] d_clr; // @[Monitor.scala:664:34] wire [64:0] d_clr_wo_ready; // @[Monitor.scala:665:34] wire [259:0] d_opcodes_clr; // @[Monitor.scala:668:33] wire [259:0] d_sizes_clr; // @[Monitor.scala:670:31] wire _GEN_4 = io_in_d_bits_opcode_0 == 3'h6; // @[Monitor.scala:36:7, :673:46] wire d_release_ack; // @[Monitor.scala:673:46] assign d_release_ack = _GEN_4; // @[Monitor.scala:673:46] wire d_release_ack_1; // @[Monitor.scala:783:46] assign d_release_ack_1 = _GEN_4; // @[Monitor.scala:673:46, :783:46] wire _T_1188 = io_in_d_valid_0 & d_first_1; // @[Monitor.scala:36:7, :674:26] wire [127:0] _GEN_5 = 128'h1 << io_in_d_bits_source_0; // @[OneHot.scala:58:35] wire [127:0] _d_clr_wo_ready_T; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T = _GEN_5; // @[OneHot.scala:58:35] wire [127:0] _d_clr_T; // @[OneHot.scala:58:35] assign _d_clr_T = _GEN_5; // @[OneHot.scala:58:35] wire [127:0] _d_clr_wo_ready_T_1; // @[OneHot.scala:58:35] assign _d_clr_wo_ready_T_1 = _GEN_5; // @[OneHot.scala:58:35] wire [127:0] _d_clr_T_1; // @[OneHot.scala:58:35] assign _d_clr_T_1 = _GEN_5; // @[OneHot.scala:58:35] assign d_clr_wo_ready = _T_1188 & ~d_release_ack ? _d_clr_wo_ready_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire _T_1157 = _T_1289 & d_first_1 & ~d_release_ack; // @[Decoupled.scala:51:35] assign d_clr = _T_1157 ? _d_clr_T[64:0] : 65'h0; // @[OneHot.scala:58:35] wire [1038:0] _d_opcodes_clr_T_5 = 1039'hF << _d_opcodes_clr_T_4; // @[Monitor.scala:680:{76,101}] assign d_opcodes_clr = _T_1157 ? _d_opcodes_clr_T_5[259:0] : 260'h0; // @[Monitor.scala:668:33, :678:{25,70,89}, :680:{21,76}] wire [1038:0] _d_sizes_clr_T_5 = 1039'hF << _d_sizes_clr_T_4; // @[Monitor.scala:681:{74,99}] assign d_sizes_clr = _T_1157 ? _d_sizes_clr_T_5[259:0] : 260'h0; // @[Monitor.scala:670:31, :678:{25,70,89}, :681:{21,74}] wire _same_cycle_resp_T_1 = _same_cycle_resp_T; // @[Monitor.scala:684:{44,55}] wire _same_cycle_resp_T_2 = io_in_a_bits_source_0 == io_in_d_bits_source_0; // @[Monitor.scala:36:7, :684:113] wire same_cycle_resp = _same_cycle_resp_T_1 & _same_cycle_resp_T_2; // @[Monitor.scala:684:{55,88,113}] wire [64:0] _inflight_T = inflight | a_set; // @[Monitor.scala:614:27, :626:34, :705:27] wire [64:0] _inflight_T_1 = ~d_clr; // @[Monitor.scala:664:34, :705:38] wire [64:0] _inflight_T_2 = _inflight_T & _inflight_T_1; // @[Monitor.scala:705:{27,36,38}] wire [259:0] _inflight_opcodes_T = inflight_opcodes | a_opcodes_set; // @[Monitor.scala:616:35, :630:33, :706:43] wire [259:0] _inflight_opcodes_T_1 = ~d_opcodes_clr; // @[Monitor.scala:668:33, :706:62] wire [259:0] _inflight_opcodes_T_2 = _inflight_opcodes_T & _inflight_opcodes_T_1; // @[Monitor.scala:706:{43,60,62}] wire [259:0] _inflight_sizes_T = inflight_sizes | a_sizes_set; // @[Monitor.scala:618:33, :632:31, :707:39] wire [259:0] _inflight_sizes_T_1 = ~d_sizes_clr; // @[Monitor.scala:670:31, :707:56] wire [259:0] _inflight_sizes_T_2 = _inflight_sizes_T & _inflight_sizes_T_1; // @[Monitor.scala:707:{39,54,56}] reg [31:0] watchdog; // @[Monitor.scala:709:27] wire [32:0] _watchdog_T = {1'h0, watchdog} + 33'h1; // @[Monitor.scala:709:27, :714:26] wire [31:0] _watchdog_T_1 = _watchdog_T[31:0]; // @[Monitor.scala:714:26] reg [64:0] inflight_1; // @[Monitor.scala:726:35] wire [64:0] _inflight_T_3 = inflight_1; // @[Monitor.scala:726:35, :814:35] reg [259:0] inflight_opcodes_1; // @[Monitor.scala:727:35] wire [259:0] _inflight_opcodes_T_3 = inflight_opcodes_1; // @[Monitor.scala:727:35, :815:43] reg [259:0] inflight_sizes_1; // @[Monitor.scala:728:35] wire [259:0] _inflight_sizes_T_3 = inflight_sizes_1; // @[Monitor.scala:728:35, :816:41] wire [5:0] _d_first_beats1_decode_T_7 = _d_first_beats1_decode_T_6[5:0]; // @[package.scala:243:{71,76}] wire [5:0] _d_first_beats1_decode_T_8 = ~_d_first_beats1_decode_T_7; // @[package.scala:243:{46,76}] wire [2:0] d_first_beats1_decode_2 = _d_first_beats1_decode_T_8[5:3]; // @[package.scala:243:46] wire [2:0] d_first_beats1_2 = d_first_beats1_opdata_2 ? d_first_beats1_decode_2 : 3'h0; // @[Edges.scala:106:36, :220:59, :221:14] reg [2:0] d_first_counter_2; // @[Edges.scala:229:27] wire [3:0] _d_first_counter1_T_2 = {1'h0, d_first_counter_2} - 4'h1; // @[Edges.scala:229:27, :230:28] wire [2:0] d_first_counter1_2 = _d_first_counter1_T_2[2:0]; // @[Edges.scala:230:28] wire d_first_2 = d_first_counter_2 == 3'h0; // @[Edges.scala:229:27, :231:25] wire _d_first_last_T_4 = d_first_counter_2 == 3'h1; // @[Edges.scala:229:27, :232:25] wire _d_first_last_T_5 = d_first_beats1_2 == 3'h0; // @[Edges.scala:221:14, :232:43] wire d_first_last_2 = _d_first_last_T_4 | _d_first_last_T_5; // @[Edges.scala:232:{25,33,43}] wire d_first_done_2 = d_first_last_2 & _d_first_T_2; // @[Decoupled.scala:51:35] wire [2:0] _d_first_count_T_2 = ~d_first_counter1_2; // @[Edges.scala:230:28, :234:27] wire [2:0] d_first_count_2 = d_first_beats1_2 & _d_first_count_T_2; // @[Edges.scala:221:14, :234:{25,27}] wire [2:0] _d_first_counter_T_2 = d_first_2 ? d_first_beats1_2 : d_first_counter1_2; // @[Edges.scala:221:14, :230:28, :231:25, :236:21] wire [3:0] c_opcode_lookup; // @[Monitor.scala:747:35] wire [3:0] c_size_lookup; // @[Monitor.scala:748:35] wire [259:0] _c_opcode_lookup_T_1 = inflight_opcodes_1 >> _c_opcode_lookup_T; // @[Monitor.scala:727:35, :749:{44,69}] wire [259:0] _c_opcode_lookup_T_6 = {256'h0, _c_opcode_lookup_T_1[3:0]}; // @[Monitor.scala:749:{44,97}] wire [259:0] _c_opcode_lookup_T_7 = {1'h0, _c_opcode_lookup_T_6[259:1]}; // @[Monitor.scala:749:{97,152}] assign c_opcode_lookup = _c_opcode_lookup_T_7[3:0]; // @[Monitor.scala:747:35, :749:{21,152}] wire [259:0] _c_size_lookup_T_1 = inflight_sizes_1 >> _c_size_lookup_T; // @[Monitor.scala:728:35, :750:{42,67}] wire [259:0] _c_size_lookup_T_6 = {256'h0, _c_size_lookup_T_1[3:0]}; // @[Monitor.scala:750:{42,93}] wire [259:0] _c_size_lookup_T_7 = {1'h0, _c_size_lookup_T_6[259:1]}; // @[Monitor.scala:750:{93,146}] assign c_size_lookup = _c_size_lookup_T_7[3:0]; // @[Monitor.scala:748:35, :750:{21,146}] wire [64:0] d_clr_1; // @[Monitor.scala:774:34] wire [64:0] d_clr_wo_ready_1; // @[Monitor.scala:775:34] wire [259:0] d_opcodes_clr_1; // @[Monitor.scala:776:34] wire [259:0] d_sizes_clr_1; // @[Monitor.scala:777:34] wire _T_1260 = io_in_d_valid_0 & d_first_2; // @[Monitor.scala:36:7, :784:26] assign d_clr_wo_ready_1 = _T_1260 & d_release_ack_1 ? _d_clr_wo_ready_T_1[64:0] : 65'h0; // @[OneHot.scala:58:35] wire _T_1242 = _T_1289 & d_first_2 & d_release_ack_1; // @[Decoupled.scala:51:35] assign d_clr_1 = _T_1242 ? _d_clr_T_1[64:0] : 65'h0; // @[OneHot.scala:58:35] wire [1038:0] _d_opcodes_clr_T_11 = 1039'hF << _d_opcodes_clr_T_10; // @[Monitor.scala:790:{76,101}] assign d_opcodes_clr_1 = _T_1242 ? _d_opcodes_clr_T_11[259:0] : 260'h0; // @[Monitor.scala:776:34, :788:{25,70,88}, :790:{21,76}] wire [1038:0] _d_sizes_clr_T_11 = 1039'hF << _d_sizes_clr_T_10; // @[Monitor.scala:791:{74,99}] assign d_sizes_clr_1 = _T_1242 ? _d_sizes_clr_T_11[259:0] : 260'h0; // @[Monitor.scala:777:34, :788:{25,70,88}, :791:{21,74}] wire _same_cycle_resp_T_8 = io_in_d_bits_source_0 == 7'h0; // @[Monitor.scala:36:7, :795:113] wire [64:0] _inflight_T_4 = ~d_clr_1; // @[Monitor.scala:774:34, :814:46] wire [64:0] _inflight_T_5 = _inflight_T_3 & _inflight_T_4; // @[Monitor.scala:814:{35,44,46}] wire [259:0] _inflight_opcodes_T_4 = ~d_opcodes_clr_1; // @[Monitor.scala:776:34, :815:62] wire [259:0] _inflight_opcodes_T_5 = _inflight_opcodes_T_3 & _inflight_opcodes_T_4; // @[Monitor.scala:815:{43,60,62}] wire [259:0] _inflight_sizes_T_4 = ~d_sizes_clr_1; // @[Monitor.scala:777:34, :816:58] wire [259:0] _inflight_sizes_T_5 = _inflight_sizes_T_3 & _inflight_sizes_T_4; // @[Monitor.scala:816:{41,56,58}] reg [31:0] watchdog_1; // @[Monitor.scala:818:27]
Generate the Verilog code corresponding to the following Chisel files. File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Nodes.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.util.{AsyncQueueParams,RationalDirection} case object TLMonitorBuilder extends Field[TLMonitorArgs => TLMonitorBase](args => new TLMonitor(args)) object TLImp extends NodeImp[TLMasterPortParameters, TLSlavePortParameters, TLEdgeOut, TLEdgeIn, TLBundle] { def edgeO(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeOut(pd, pu, p, sourceInfo) def edgeI(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeIn (pd, pu, p, sourceInfo) def bundleO(eo: TLEdgeOut) = TLBundle(eo.bundle) def bundleI(ei: TLEdgeIn) = TLBundle(ei.bundle) def render(ei: TLEdgeIn) = RenderedEdge(colour = "#000000" /* black */, label = (ei.manager.beatBytes * 8).toString) override def monitor(bundle: TLBundle, edge: TLEdgeIn): Unit = { val monitor = Module(edge.params(TLMonitorBuilder)(TLMonitorArgs(edge))) monitor.io.in := bundle } override def mixO(pd: TLMasterPortParameters, node: OutwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLMasterPortParameters = pd.v1copy(clients = pd.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) }) override def mixI(pu: TLSlavePortParameters, node: InwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLSlavePortParameters = pu.v1copy(managers = pu.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) }) } trait TLFormatNode extends FormatNode[TLEdgeIn, TLEdgeOut] case class TLClientNode(portParams: Seq[TLMasterPortParameters])(implicit valName: ValName) extends SourceNode(TLImp)(portParams) with TLFormatNode case class TLManagerNode(portParams: Seq[TLSlavePortParameters])(implicit valName: ValName) extends SinkNode(TLImp)(portParams) with TLFormatNode case class TLAdapterNode( clientFn: TLMasterPortParameters => TLMasterPortParameters = { s => s }, managerFn: TLSlavePortParameters => TLSlavePortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLJunctionNode( clientFn: Seq[TLMasterPortParameters] => Seq[TLMasterPortParameters], managerFn: Seq[TLSlavePortParameters] => Seq[TLSlavePortParameters])( implicit valName: ValName) extends JunctionNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLIdentityNode()(implicit valName: ValName) extends IdentityNode(TLImp)() with TLFormatNode object TLNameNode { def apply(name: ValName) = TLIdentityNode()(name) def apply(name: Option[String]): TLIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLIdentityNode = apply(Some(name)) } case class TLEphemeralNode()(implicit valName: ValName) extends EphemeralNode(TLImp)() object TLTempNode { def apply(): TLEphemeralNode = TLEphemeralNode()(ValName("temp")) } case class TLNexusNode( clientFn: Seq[TLMasterPortParameters] => TLMasterPortParameters, managerFn: Seq[TLSlavePortParameters] => TLSlavePortParameters)( implicit valName: ValName) extends NexusNode(TLImp)(clientFn, managerFn) with TLFormatNode abstract class TLCustomNode(implicit valName: ValName) extends CustomNode(TLImp) with TLFormatNode // Asynchronous crossings trait TLAsyncFormatNode extends FormatNode[TLAsyncEdgeParameters, TLAsyncEdgeParameters] object TLAsyncImp extends SimpleNodeImp[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncEdgeParameters, TLAsyncBundle] { def edge(pd: TLAsyncClientPortParameters, pu: TLAsyncManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLAsyncEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLAsyncEdgeParameters) = new TLAsyncBundle(e.bundle) def render(e: TLAsyncEdgeParameters) = RenderedEdge(colour = "#ff0000" /* red */, label = e.manager.async.depth.toString) override def mixO(pd: TLAsyncClientPortParameters, node: OutwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLAsyncManagerPortParameters, node: InwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLAsyncAdapterNode( clientFn: TLAsyncClientPortParameters => TLAsyncClientPortParameters = { s => s }, managerFn: TLAsyncManagerPortParameters => TLAsyncManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLAsyncImp)(clientFn, managerFn) with TLAsyncFormatNode case class TLAsyncIdentityNode()(implicit valName: ValName) extends IdentityNode(TLAsyncImp)() with TLAsyncFormatNode object TLAsyncNameNode { def apply(name: ValName) = TLAsyncIdentityNode()(name) def apply(name: Option[String]): TLAsyncIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLAsyncIdentityNode = apply(Some(name)) } case class TLAsyncSourceNode(sync: Option[Int])(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLAsyncImp)( dFn = { p => TLAsyncClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = p.base.minLatency + sync.getOrElse(p.async.sync)) }) with FormatNode[TLEdgeIn, TLAsyncEdgeParameters] // discard cycles in other clock domain case class TLAsyncSinkNode(async: AsyncQueueParams)(implicit valName: ValName) extends MixedAdapterNode(TLAsyncImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = p.base.minLatency + async.sync) }, uFn = { p => TLAsyncManagerPortParameters(async, p) }) with FormatNode[TLAsyncEdgeParameters, TLEdgeOut] // Rationally related crossings trait TLRationalFormatNode extends FormatNode[TLRationalEdgeParameters, TLRationalEdgeParameters] object TLRationalImp extends SimpleNodeImp[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalEdgeParameters, TLRationalBundle] { def edge(pd: TLRationalClientPortParameters, pu: TLRationalManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLRationalEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLRationalEdgeParameters) = new TLRationalBundle(e.bundle) def render(e: TLRationalEdgeParameters) = RenderedEdge(colour = "#00ff00" /* green */) override def mixO(pd: TLRationalClientPortParameters, node: OutwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLRationalManagerPortParameters, node: InwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLRationalAdapterNode( clientFn: TLRationalClientPortParameters => TLRationalClientPortParameters = { s => s }, managerFn: TLRationalManagerPortParameters => TLRationalManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLRationalImp)(clientFn, managerFn) with TLRationalFormatNode case class TLRationalIdentityNode()(implicit valName: ValName) extends IdentityNode(TLRationalImp)() with TLRationalFormatNode object TLRationalNameNode { def apply(name: ValName) = TLRationalIdentityNode()(name) def apply(name: Option[String]): TLRationalIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLRationalIdentityNode = apply(Some(name)) } case class TLRationalSourceNode()(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLRationalImp)( dFn = { p => TLRationalClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLRationalEdgeParameters] // discard cycles from other clock domain case class TLRationalSinkNode(direction: RationalDirection)(implicit valName: ValName) extends MixedAdapterNode(TLRationalImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLRationalManagerPortParameters(direction, p) }) with FormatNode[TLRationalEdgeParameters, TLEdgeOut] // Credited version of TileLink channels trait TLCreditedFormatNode extends FormatNode[TLCreditedEdgeParameters, TLCreditedEdgeParameters] object TLCreditedImp extends SimpleNodeImp[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedEdgeParameters, TLCreditedBundle] { def edge(pd: TLCreditedClientPortParameters, pu: TLCreditedManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLCreditedEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLCreditedEdgeParameters) = new TLCreditedBundle(e.bundle) def render(e: TLCreditedEdgeParameters) = RenderedEdge(colour = "#ffff00" /* yellow */, e.delay.toString) override def mixO(pd: TLCreditedClientPortParameters, node: OutwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLCreditedManagerPortParameters, node: InwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLCreditedAdapterNode( clientFn: TLCreditedClientPortParameters => TLCreditedClientPortParameters = { s => s }, managerFn: TLCreditedManagerPortParameters => TLCreditedManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLCreditedImp)(clientFn, managerFn) with TLCreditedFormatNode case class TLCreditedIdentityNode()(implicit valName: ValName) extends IdentityNode(TLCreditedImp)() with TLCreditedFormatNode object TLCreditedNameNode { def apply(name: ValName) = TLCreditedIdentityNode()(name) def apply(name: Option[String]): TLCreditedIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLCreditedIdentityNode = apply(Some(name)) } case class TLCreditedSourceNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLCreditedImp)( dFn = { p => TLCreditedClientPortParameters(delay, p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLCreditedEdgeParameters] // discard cycles from other clock domain case class TLCreditedSinkNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLCreditedImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLCreditedManagerPortParameters(delay, p) }) with FormatNode[TLCreditedEdgeParameters, TLEdgeOut] File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File Parameters.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.diplomacy import chisel3._ import chisel3.util.{DecoupledIO, Queue, ReadyValidIO, isPow2, log2Ceil, log2Floor} import freechips.rocketchip.util.ShiftQueue /** Options for describing the attributes of memory regions */ object RegionType { // Define the 'more relaxed than' ordering val cases = Seq(CACHED, TRACKED, UNCACHED, IDEMPOTENT, VOLATILE, PUT_EFFECTS, GET_EFFECTS) sealed trait T extends Ordered[T] { def compare(that: T): Int = cases.indexOf(that) compare cases.indexOf(this) } case object CACHED extends T // an intermediate agent may have cached a copy of the region for you case object TRACKED extends T // the region may have been cached by another master, but coherence is being provided case object UNCACHED extends T // the region has not been cached yet, but should be cached when possible case object IDEMPOTENT extends T // gets return most recently put content, but content should not be cached case object VOLATILE extends T // content may change without a put, but puts and gets have no side effects case object PUT_EFFECTS extends T // puts produce side effects and so must not be combined/delayed case object GET_EFFECTS extends T // gets produce side effects and so must not be issued speculatively } // A non-empty half-open range; [start, end) case class IdRange(start: Int, end: Int) extends Ordered[IdRange] { require (start >= 0, s"Ids cannot be negative, but got: $start.") require (start <= end, "Id ranges cannot be negative.") def compare(x: IdRange) = { val primary = (this.start - x.start).signum val secondary = (x.end - this.end).signum if (primary != 0) primary else secondary } def overlaps(x: IdRange) = start < x.end && x.start < end def contains(x: IdRange) = start <= x.start && x.end <= end def contains(x: Int) = start <= x && x < end def contains(x: UInt) = if (size == 0) { false.B } else if (size == 1) { // simple comparison x === start.U } else { // find index of largest different bit val largestDeltaBit = log2Floor(start ^ (end-1)) val smallestCommonBit = largestDeltaBit + 1 // may not exist in x val uncommonMask = (1 << smallestCommonBit) - 1 val uncommonBits = (x | 0.U(smallestCommonBit.W))(largestDeltaBit, 0) // the prefix must match exactly (note: may shift ALL bits away) (x >> smallestCommonBit) === (start >> smallestCommonBit).U && // firrtl constant prop range analysis can eliminate these two: (start & uncommonMask).U <= uncommonBits && uncommonBits <= ((end-1) & uncommonMask).U } def shift(x: Int) = IdRange(start+x, end+x) def size = end - start def isEmpty = end == start def range = start until end } object IdRange { def overlaps(s: Seq[IdRange]) = if (s.isEmpty) None else { val ranges = s.sorted (ranges.tail zip ranges.init) find { case (a, b) => a overlaps b } } } // An potentially empty inclusive range of 2-powers [min, max] (in bytes) case class TransferSizes(min: Int, max: Int) { def this(x: Int) = this(x, x) require (min <= max, s"Min transfer $min > max transfer $max") require (min >= 0 && max >= 0, s"TransferSizes must be positive, got: ($min, $max)") require (max == 0 || isPow2(max), s"TransferSizes must be a power of 2, got: $max") require (min == 0 || isPow2(min), s"TransferSizes must be a power of 2, got: $min") require (max == 0 || min != 0, s"TransferSize 0 is forbidden unless (0,0), got: ($min, $max)") def none = min == 0 def contains(x: Int) = isPow2(x) && min <= x && x <= max def containsLg(x: Int) = contains(1 << x) def containsLg(x: UInt) = if (none) false.B else if (min == max) { log2Ceil(min).U === x } else { log2Ceil(min).U <= x && x <= log2Ceil(max).U } def contains(x: TransferSizes) = x.none || (min <= x.min && x.max <= max) def intersect(x: TransferSizes) = if (x.max < min || max < x.min) TransferSizes.none else TransferSizes(scala.math.max(min, x.min), scala.math.min(max, x.max)) // Not a union, because the result may contain sizes contained by neither term // NOT TO BE CONFUSED WITH COVERPOINTS def mincover(x: TransferSizes) = { if (none) { x } else if (x.none) { this } else { TransferSizes(scala.math.min(min, x.min), scala.math.max(max, x.max)) } } override def toString() = "TransferSizes[%d, %d]".format(min, max) } object TransferSizes { def apply(x: Int) = new TransferSizes(x) val none = new TransferSizes(0) def mincover(seq: Seq[TransferSizes]) = seq.foldLeft(none)(_ mincover _) def intersect(seq: Seq[TransferSizes]) = seq.reduce(_ intersect _) implicit def asBool(x: TransferSizes) = !x.none } // AddressSets specify the address space managed by the manager // Base is the base address, and mask are the bits consumed by the manager // e.g: base=0x200, mask=0xff describes a device managing 0x200-0x2ff // e.g: base=0x1000, mask=0xf0f decribes a device managing 0x1000-0x100f, 0x1100-0x110f, ... case class AddressSet(base: BigInt, mask: BigInt) extends Ordered[AddressSet] { // Forbid misaligned base address (and empty sets) require ((base & mask) == 0, s"Mis-aligned AddressSets are forbidden, got: ${this.toString}") require (base >= 0, s"AddressSet negative base is ambiguous: $base") // TL2 address widths are not fixed => negative is ambiguous // We do allow negative mask (=> ignore all high bits) def contains(x: BigInt) = ((x ^ base) & ~mask) == 0 def contains(x: UInt) = ((x ^ base.U).zext & (~mask).S) === 0.S // turn x into an address contained in this set def legalize(x: UInt): UInt = base.U | (mask.U & x) // overlap iff bitwise: both care (~mask0 & ~mask1) => both equal (base0=base1) def overlaps(x: AddressSet) = (~(mask | x.mask) & (base ^ x.base)) == 0 // contains iff bitwise: x.mask => mask && contains(x.base) def contains(x: AddressSet) = ((x.mask | (base ^ x.base)) & ~mask) == 0 // The number of bytes to which the manager must be aligned def alignment = ((mask + 1) & ~mask) // Is this a contiguous memory range def contiguous = alignment == mask+1 def finite = mask >= 0 def max = { require (finite, "Max cannot be calculated on infinite mask"); base | mask } // Widen the match function to ignore all bits in imask def widen(imask: BigInt) = AddressSet(base & ~imask, mask | imask) // Return an AddressSet that only contains the addresses both sets contain def intersect(x: AddressSet): Option[AddressSet] = { if (!overlaps(x)) { None } else { val r_mask = mask & x.mask val r_base = base | x.base Some(AddressSet(r_base, r_mask)) } } def subtract(x: AddressSet): Seq[AddressSet] = { intersect(x) match { case None => Seq(this) case Some(remove) => AddressSet.enumerateBits(mask & ~remove.mask).map { bit => val nmask = (mask & (bit-1)) | remove.mask val nbase = (remove.base ^ bit) & ~nmask AddressSet(nbase, nmask) } } } // AddressSets have one natural Ordering (the containment order, if contiguous) def compare(x: AddressSet) = { val primary = (this.base - x.base).signum // smallest address first val secondary = (x.mask - this.mask).signum // largest mask first if (primary != 0) primary else secondary } // We always want to see things in hex override def toString() = { if (mask >= 0) { "AddressSet(0x%x, 0x%x)".format(base, mask) } else { "AddressSet(0x%x, ~0x%x)".format(base, ~mask) } } def toRanges = { require (finite, "Ranges cannot be calculated on infinite mask") val size = alignment val fragments = mask & ~(size-1) val bits = bitIndexes(fragments) (BigInt(0) until (BigInt(1) << bits.size)).map { i => val off = bitIndexes(i).foldLeft(base) { case (a, b) => a.setBit(bits(b)) } AddressRange(off, size) } } } object AddressSet { val everything = AddressSet(0, -1) def misaligned(base: BigInt, size: BigInt, tail: Seq[AddressSet] = Seq()): Seq[AddressSet] = { if (size == 0) tail.reverse else { val maxBaseAlignment = base & (-base) // 0 for infinite (LSB) val maxSizeAlignment = BigInt(1) << log2Floor(size) // MSB of size val step = if (maxBaseAlignment == 0 || maxBaseAlignment > maxSizeAlignment) maxSizeAlignment else maxBaseAlignment misaligned(base+step, size-step, AddressSet(base, step-1) +: tail) } } def unify(seq: Seq[AddressSet], bit: BigInt): Seq[AddressSet] = { // Pair terms up by ignoring 'bit' seq.distinct.groupBy(x => x.copy(base = x.base & ~bit)).map { case (key, seq) => if (seq.size == 1) { seq.head // singleton -> unaffected } else { key.copy(mask = key.mask | bit) // pair - widen mask by bit } }.toList } def unify(seq: Seq[AddressSet]): Seq[AddressSet] = { val bits = seq.map(_.base).foldLeft(BigInt(0))(_ | _) AddressSet.enumerateBits(bits).foldLeft(seq) { case (acc, bit) => unify(acc, bit) }.sorted } def enumerateMask(mask: BigInt): Seq[BigInt] = { def helper(id: BigInt, tail: Seq[BigInt]): Seq[BigInt] = if (id == mask) (id +: tail).reverse else helper(((~mask | id) + 1) & mask, id +: tail) helper(0, Nil) } def enumerateBits(mask: BigInt): Seq[BigInt] = { def helper(x: BigInt): Seq[BigInt] = { if (x == 0) { Nil } else { val bit = x & (-x) bit +: helper(x & ~bit) } } helper(mask) } } case class BufferParams(depth: Int, flow: Boolean, pipe: Boolean) { require (depth >= 0, "Buffer depth must be >= 0") def isDefined = depth > 0 def latency = if (isDefined && !flow) 1 else 0 def apply[T <: Data](x: DecoupledIO[T]) = if (isDefined) Queue(x, depth, flow=flow, pipe=pipe) else x def irrevocable[T <: Data](x: ReadyValidIO[T]) = if (isDefined) Queue.irrevocable(x, depth, flow=flow, pipe=pipe) else x def sq[T <: Data](x: DecoupledIO[T]) = if (!isDefined) x else { val sq = Module(new ShiftQueue(x.bits, depth, flow=flow, pipe=pipe)) sq.io.enq <> x sq.io.deq } override def toString() = "BufferParams:%d%s%s".format(depth, if (flow) "F" else "", if (pipe) "P" else "") } object BufferParams { implicit def apply(depth: Int): BufferParams = BufferParams(depth, false, false) val default = BufferParams(2) val none = BufferParams(0) val flow = BufferParams(1, true, false) val pipe = BufferParams(1, false, true) } case class TriStateValue(value: Boolean, set: Boolean) { def update(orig: Boolean) = if (set) value else orig } object TriStateValue { implicit def apply(value: Boolean): TriStateValue = TriStateValue(value, true) def unset = TriStateValue(false, false) } trait DirectedBuffers[T] { def copyIn(x: BufferParams): T def copyOut(x: BufferParams): T def copyInOut(x: BufferParams): T } trait IdMapEntry { def name: String def from: IdRange def to: IdRange def isCache: Boolean def requestFifo: Boolean def maxTransactionsInFlight: Option[Int] def pretty(fmt: String) = if (from ne to) { // if the subclass uses the same reference for both from and to, assume its format string has an arity of 5 fmt.format(to.start, to.end, from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } else { fmt.format(from.start, from.end, s""""$name"""", if (isCache) " [CACHE]" else "", if (requestFifo) " [FIFO]" else "") } } abstract class IdMap[T <: IdMapEntry] { protected val fmt: String val mapping: Seq[T] def pretty: String = mapping.map(_.pretty(fmt)).mkString(",\n") } File MixedNode.scala: package org.chipsalliance.diplomacy.nodes import chisel3.{Data, DontCare, Wire} import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.{Field, Parameters} import org.chipsalliance.diplomacy.ValName import org.chipsalliance.diplomacy.sourceLine /** One side metadata of a [[Dangle]]. * * Describes one side of an edge going into or out of a [[BaseNode]]. * * @param serial * the global [[BaseNode.serial]] number of the [[BaseNode]] that this [[HalfEdge]] connects to. * @param index * the `index` in the [[BaseNode]]'s input or output port list that this [[HalfEdge]] belongs to. */ case class HalfEdge(serial: Int, index: Int) extends Ordered[HalfEdge] { import scala.math.Ordered.orderingToOrdered def compare(that: HalfEdge): Int = HalfEdge.unapply(this).compare(HalfEdge.unapply(that)) } /** [[Dangle]] captures the `IO` information of a [[LazyModule]] and which two [[BaseNode]]s the [[Edges]]/[[Bundle]] * connects. * * [[Dangle]]s are generated by [[BaseNode.instantiate]] using [[MixedNode.danglesOut]] and [[MixedNode.danglesIn]] , * [[LazyModuleImp.instantiate]] connects those that go to internal or explicit IO connections in a [[LazyModule]]. * * @param source * the source [[HalfEdge]] of this [[Dangle]], which captures the source [[BaseNode]] and the port `index` within * that [[BaseNode]]. * @param sink * sink [[HalfEdge]] of this [[Dangle]], which captures the sink [[BaseNode]] and the port `index` within that * [[BaseNode]]. * @param flipped * flip or not in [[AutoBundle.makeElements]]. If true this corresponds to `danglesOut`, if false it corresponds to * `danglesIn`. * @param dataOpt * actual [[Data]] for the hardware connection. Can be empty if this belongs to a cloned module */ case class Dangle(source: HalfEdge, sink: HalfEdge, flipped: Boolean, name: String, dataOpt: Option[Data]) { def data = dataOpt.get } /** [[Edges]] is a collection of parameters describing the functionality and connection for an interface, which is often * derived from the interconnection protocol and can inform the parameterization of the hardware bundles that actually * implement the protocol. */ case class Edges[EI, EO](in: Seq[EI], out: Seq[EO]) /** A field available in [[Parameters]] used to determine whether [[InwardNodeImp.monitor]] will be called. */ case object MonitorsEnabled extends Field[Boolean](true) /** When rendering the edge in a graphical format, flip the order in which the edges' source and sink are presented. * * For example, when rendering graphML, yEd by default tries to put the source node vertically above the sink node, but * [[RenderFlipped]] inverts this relationship. When a particular [[LazyModule]] contains both source nodes and sink * nodes, flipping the rendering of one node's edge will usual produce a more concise visual layout for the * [[LazyModule]]. */ case object RenderFlipped extends Field[Boolean](false) /** The sealed node class in the package, all node are derived from it. * * @param inner * Sink interface implementation. * @param outer * Source interface implementation. * @param valName * val name of this node. * @tparam DI * Downward-flowing parameters received on the inner side of the node. It is usually a brunch of parameters * describing the protocol parameters from a source. For an [[InwardNode]], it is determined by the connected * [[OutwardNode]]. Since it can be connected to multiple sources, this parameter is always a Seq of source port * parameters. * @tparam UI * Upward-flowing parameters generated by the inner side of the node. It is usually a brunch of parameters describing * the protocol parameters of a sink. For an [[InwardNode]], it is determined itself. * @tparam EI * Edge Parameters describing a connection on the inner side of the node. It is usually a brunch of transfers * specified for a sink according to protocol. * @tparam BI * Bundle type used when connecting to the inner side of the node. It is a hardware interface of this sink interface. * It should extends from [[chisel3.Data]], which represents the real hardware. * @tparam DO * Downward-flowing parameters generated on the outer side of the node. It is usually a brunch of parameters * describing the protocol parameters of a source. For an [[OutwardNode]], it is determined itself. * @tparam UO * Upward-flowing parameters received by the outer side of the node. It is usually a brunch of parameters describing * the protocol parameters from a sink. For an [[OutwardNode]], it is determined by the connected [[InwardNode]]. * Since it can be connected to multiple sinks, this parameter is always a Seq of sink port parameters. * @tparam EO * Edge Parameters describing a connection on the outer side of the node. It is usually a brunch of transfers * specified for a source according to protocol. * @tparam BO * Bundle type used when connecting to the outer side of the node. It is a hardware interface of this source * interface. It should extends from [[chisel3.Data]], which represents the real hardware. * * @note * Call Graph of [[MixedNode]] * - line `─`: source is process by a function and generate pass to others * - Arrow `β†’`: target of arrow is generated by source * * {{{ * (from the other node) * β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€[[InwardNode.uiParams]]─────────────┐ * ↓ β”‚ * (binding node when elaboration) [[OutwardNode.uoParams]]────────────────────────[[MixedNode.mapParamsU]]→──────────┐ β”‚ * [[InwardNode.accPI]] β”‚ β”‚ β”‚ * β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ ↓ β”‚ * ↓ β”‚ β”‚ β”‚ * (immobilize after elaboration) (inward port from [[OutwardNode]]) β”‚ ↓ β”‚ * [[InwardNode.iBindings]]──┐ [[MixedNode.iDirectPorts]]────────────────────→[[MixedNode.iPorts]] [[InwardNode.uiParams]] β”‚ * β”‚ β”‚ ↑ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[OutwardNode.doParams]] β”‚ β”‚ * β”‚ β”‚ β”‚ (from the other node) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ └────────┬─────────────── β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ (from the other node) β”‚ ↓ β”‚ * β”‚ └───[[OutwardNode.oPortMapping]] [[OutwardNode.oStar]] β”‚ [[MixedNode.edgesIn]]───┐ β”‚ * β”‚ ↑ ↑ β”‚ β”‚ ↓ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ [[MixedNode.in]] β”‚ * β”‚ β”‚ β”‚ β”‚ ↓ ↑ β”‚ * β”‚ (solve star connection) β”‚ β”‚ β”‚ [[MixedNode.bundleIn]]β”€β”€β”˜ β”‚ * β”œβ”€β”€β”€[[MixedNode.resolveStar]]→─┼────────────────────────────── └────────────────────────────────────┐ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.bundleOut]]─┐ β”‚ β”‚ * β”‚ β”‚ β”‚ ↑ ↓ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.out]] β”‚ β”‚ * β”‚ ↓ ↓ β”‚ ↑ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€[[InwardNode.iPortMapping]] [[InwardNode.iStar]] [[MixedNode.edgesOut]]β”€β”€β”˜ β”‚ β”‚ * β”‚ β”‚ (from the other node) ↑ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.outer.edgeO]] β”‚ β”‚ * β”‚ β”‚ β”‚ (based on protocol) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * (immobilize after elaboration)β”‚ ↓ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.oBindings]]β”€β”˜ [[MixedNode.oDirectPorts]]───→[[MixedNode.oPorts]] [[OutwardNode.doParams]] β”‚ β”‚ * ↑ (inward port from [[OutwardNode]]) β”‚ β”‚ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.accPO]] β”‚ ↓ β”‚ β”‚ β”‚ * (binding node when elaboration) β”‚ [[InwardNode.diParams]]─────→[[MixedNode.mapParamsD]]β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ β”‚ * β”‚ ↑ β”‚ β”‚ * β”‚ β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ * β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ * }}} */ abstract class MixedNode[DI, UI, EI, BI <: Data, DO, UO, EO, BO <: Data]( val inner: InwardNodeImp[DI, UI, EI, BI], val outer: OutwardNodeImp[DO, UO, EO, BO] )( implicit valName: ValName) extends BaseNode with NodeHandle[DI, UI, EI, BI, DO, UO, EO, BO] with InwardNode[DI, UI, BI] with OutwardNode[DO, UO, BO] { // Generate a [[NodeHandle]] with inward and outward node are both this node. val inward = this val outward = this /** Debug info of nodes binding. */ def bindingInfo: String = s"""$iBindingInfo |$oBindingInfo |""".stripMargin /** Debug info of ports connecting. */ def connectedPortsInfo: String = s"""${oPorts.size} outward ports connected: [${oPorts.map(_._2.name).mkString(",")}] |${iPorts.size} inward ports connected: [${iPorts.map(_._2.name).mkString(",")}] |""".stripMargin /** Debug info of parameters propagations. */ def parametersInfo: String = s"""${doParams.size} downstream outward parameters: [${doParams.mkString(",")}] |${uoParams.size} upstream outward parameters: [${uoParams.mkString(",")}] |${diParams.size} downstream inward parameters: [${diParams.mkString(",")}] |${uiParams.size} upstream inward parameters: [${uiParams.mkString(",")}] |""".stripMargin /** For a given node, converts [[OutwardNode.accPO]] and [[InwardNode.accPI]] to [[MixedNode.oPortMapping]] and * [[MixedNode.iPortMapping]]. * * Given counts of known inward and outward binding and inward and outward star bindings, return the resolved inward * stars and outward stars. * * This method will also validate the arguments and throw a runtime error if the values are unsuitable for this type * of node. * * @param iKnown * Number of known-size ([[BIND_ONCE]]) input bindings. * @param oKnown * Number of known-size ([[BIND_ONCE]]) output bindings. * @param iStar * Number of unknown size ([[BIND_STAR]]) input bindings. * @param oStar * Number of unknown size ([[BIND_STAR]]) output bindings. * @return * A Tuple of the resolved number of input and output connections. */ protected[diplomacy] def resolveStar(iKnown: Int, oKnown: Int, iStar: Int, oStar: Int): (Int, Int) /** Function to generate downward-flowing outward params from the downward-flowing input params and the current output * ports. * * @param n * The size of the output sequence to generate. * @param p * Sequence of downward-flowing input parameters of this node. * @return * A `n`-sized sequence of downward-flowing output edge parameters. */ protected[diplomacy] def mapParamsD(n: Int, p: Seq[DI]): Seq[DO] /** Function to generate upward-flowing input parameters from the upward-flowing output parameters [[uiParams]]. * * @param n * Size of the output sequence. * @param p * Upward-flowing output edge parameters. * @return * A n-sized sequence of upward-flowing input edge parameters. */ protected[diplomacy] def mapParamsU(n: Int, p: Seq[UO]): Seq[UI] /** @return * The sink cardinality of the node, the number of outputs bound with [[BIND_QUERY]] summed with inputs bound with * [[BIND_STAR]]. */ protected[diplomacy] lazy val sinkCard: Int = oBindings.count(_._3 == BIND_QUERY) + iBindings.count(_._3 == BIND_STAR) /** @return * The source cardinality of this node, the number of inputs bound with [[BIND_QUERY]] summed with the number of * output bindings bound with [[BIND_STAR]]. */ protected[diplomacy] lazy val sourceCard: Int = iBindings.count(_._3 == BIND_QUERY) + oBindings.count(_._3 == BIND_STAR) /** @return list of nodes involved in flex bindings with this node. */ protected[diplomacy] lazy val flexes: Seq[BaseNode] = oBindings.filter(_._3 == BIND_FLEX).map(_._2) ++ iBindings.filter(_._3 == BIND_FLEX).map(_._2) /** Resolves the flex to be either source or sink and returns the offset where the [[BIND_STAR]] operators begin * greedily taking up the remaining connections. * * @return * A value >= 0 if it is sink cardinality, a negative value for source cardinality. The magnitude of the return * value is not relevant. */ protected[diplomacy] lazy val flexOffset: Int = { /** Recursively performs a depth-first search of the [[flexes]], [[BaseNode]]s connected to this node with flex * operators. The algorithm bottoms out when we either get to a node we have already visited or when we get to a * connection that is not a flex and can set the direction for us. Otherwise, recurse by visiting the `flexes` of * each node in the current set and decide whether they should be added to the set or not. * * @return * the mapping of [[BaseNode]] indexed by their serial numbers. */ def DFS(v: BaseNode, visited: Map[Int, BaseNode]): Map[Int, BaseNode] = { if (visited.contains(v.serial) || !v.flexibleArityDirection) { visited } else { v.flexes.foldLeft(visited + (v.serial -> v))((sum, n) => DFS(n, sum)) } } /** Determine which [[BaseNode]] are involved in resolving the flex connections to/from this node. * * @example * {{{ * a :*=* b :*=* c * d :*=* b * e :*=* f * }}} * * `flexSet` for `a`, `b`, `c`, or `d` will be `Set(a, b, c, d)` `flexSet` for `e` or `f` will be `Set(e,f)` */ val flexSet = DFS(this, Map()).values /** The total number of :*= operators where we're on the left. */ val allSink = flexSet.map(_.sinkCard).sum /** The total number of :=* operators used when we're on the right. */ val allSource = flexSet.map(_.sourceCard).sum require( allSink == 0 || allSource == 0, s"The nodes ${flexSet.map(_.name)} which are inter-connected by :*=* have ${allSink} :*= operators and ${allSource} :=* operators connected to them, making it impossible to determine cardinality inference direction." ) allSink - allSource } /** @return A value >= 0 if it is sink cardinality, a negative value for source cardinality. */ protected[diplomacy] def edgeArityDirection(n: BaseNode): Int = { if (flexibleArityDirection) flexOffset else if (n.flexibleArityDirection) n.flexOffset else 0 } /** For a node which is connected between two nodes, select the one that will influence the direction of the flex * resolution. */ protected[diplomacy] def edgeAritySelect(n: BaseNode, l: => Int, r: => Int): Int = { val dir = edgeArityDirection(n) if (dir < 0) l else if (dir > 0) r else 1 } /** Ensure that the same node is not visited twice in resolving `:*=`, etc operators. */ private var starCycleGuard = false /** Resolve all the star operators into concrete indicies. As connections are being made, some may be "star" * connections which need to be resolved. In some way to determine how many actual edges they correspond to. We also * need to build up the ranges of edges which correspond to each binding operator, so that We can apply the correct * edge parameters and later build up correct bundle connections. * * [[oPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that oPort (binding * operator). [[iPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that iPort * (binding operator). [[oStar]]: `Int` the value to return for this node `N` for any `N :*= foo` or `N :*=* foo :*= * bar` [[iStar]]: `Int` the value to return for this node `N` for any `foo :=* N` or `bar :=* foo :*=* N` */ protected[diplomacy] lazy val ( oPortMapping: Seq[(Int, Int)], iPortMapping: Seq[(Int, Int)], oStar: Int, iStar: Int ) = { try { if (starCycleGuard) throw StarCycleException() starCycleGuard = true // For a given node N... // Number of foo :=* N // + Number of bar :=* foo :*=* N val oStars = oBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) < 0) } // Number of N :*= foo // + Number of N :*=* foo :*= bar val iStars = iBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) > 0) } // 1 for foo := N // + bar.iStar for bar :*= foo :*=* N // + foo.iStar for foo :*= N // + 0 for foo :=* N val oKnown = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, 0, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => 0 } }.sum // 1 for N := foo // + bar.oStar for N :*=* foo :=* bar // + foo.oStar for N :=* foo // + 0 for N :*= foo val iKnown = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, 0) case BIND_QUERY => n.oStar case BIND_STAR => 0 } }.sum // Resolve star depends on the node subclass to implement the algorithm for this. val (iStar, oStar) = resolveStar(iKnown, oKnown, iStars, oStars) // Cumulative list of resolved outward binding range starting points val oSum = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, oStar, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => oStar } }.scanLeft(0)(_ + _) // Cumulative list of resolved inward binding range starting points val iSum = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, iStar) case BIND_QUERY => n.oStar case BIND_STAR => iStar } }.scanLeft(0)(_ + _) // Create ranges for each binding based on the running sums and return // those along with resolved values for the star operations. (oSum.init.zip(oSum.tail), iSum.init.zip(iSum.tail), oStar, iStar) } catch { case c: StarCycleException => throw c.copy(loop = context +: c.loop) } } /** Sequence of inward ports. * * This should be called after all star bindings are resolved. * * Each element is: `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. * `n` Instance of inward node. `p` View of [[Parameters]] where this connection was made. `s` Source info where this * connection was made in the source code. */ protected[diplomacy] lazy val oDirectPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oBindings.flatMap { case (i, n, _, p, s) => // for each binding operator in this node, look at what it connects to val (start, end) = n.iPortMapping(i) (start until end).map { j => (j, n, p, s) } } /** Sequence of outward ports. * * This should be called after all star bindings are resolved. * * `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. `n` Instance of * outward node. `p` View of [[Parameters]] where this connection was made. `s` [[SourceInfo]] where this connection * was made in the source code. */ protected[diplomacy] lazy val iDirectPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iBindings.flatMap { case (i, n, _, p, s) => // query this port index range of this node in the other side of node. val (start, end) = n.oPortMapping(i) (start until end).map { j => (j, n, p, s) } } // Ephemeral nodes ( which have non-None iForward/oForward) have in_degree = out_degree // Thus, there must exist an Eulerian path and the below algorithms terminate @scala.annotation.tailrec private def oTrace( tuple: (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) ): (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.iForward(i) match { case None => (i, n, p, s) case Some((j, m)) => oTrace((j, m, p, s)) } } @scala.annotation.tailrec private def iTrace( tuple: (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) ): (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.oForward(i) match { case None => (i, n, p, s) case Some((j, m)) => iTrace((j, m, p, s)) } } /** Final output ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - Numeric index of this binding in the [[InwardNode]] on the other end. * - [[InwardNode]] on the other end of this binding. * - A view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val oPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oDirectPorts.map(oTrace) /** Final input ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - numeric index of this binding in [[OutwardNode]] on the other end. * - [[OutwardNode]] on the other end of this binding. * - a view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val iPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iDirectPorts.map(iTrace) private var oParamsCycleGuard = false protected[diplomacy] lazy val diParams: Seq[DI] = iPorts.map { case (i, n, _, _) => n.doParams(i) } protected[diplomacy] lazy val doParams: Seq[DO] = { try { if (oParamsCycleGuard) throw DownwardCycleException() oParamsCycleGuard = true val o = mapParamsD(oPorts.size, diParams) require( o.size == oPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of outward ports should equal the number of produced outward parameters. |$context |$connectedPortsInfo |Downstreamed inward parameters: [${diParams.mkString(",")}] |Produced outward parameters: [${o.mkString(",")}] |""".stripMargin ) o.map(outer.mixO(_, this)) } catch { case c: DownwardCycleException => throw c.copy(loop = context +: c.loop) } } private var iParamsCycleGuard = false protected[diplomacy] lazy val uoParams: Seq[UO] = oPorts.map { case (o, n, _, _) => n.uiParams(o) } protected[diplomacy] lazy val uiParams: Seq[UI] = { try { if (iParamsCycleGuard) throw UpwardCycleException() iParamsCycleGuard = true val i = mapParamsU(iPorts.size, uoParams) require( i.size == iPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of inward ports should equal the number of produced inward parameters. |$context |$connectedPortsInfo |Upstreamed outward parameters: [${uoParams.mkString(",")}] |Produced inward parameters: [${i.mkString(",")}] |""".stripMargin ) i.map(inner.mixI(_, this)) } catch { case c: UpwardCycleException => throw c.copy(loop = context +: c.loop) } } /** Outward edge parameters. */ protected[diplomacy] lazy val edgesOut: Seq[EO] = (oPorts.zip(doParams)).map { case ((i, n, p, s), o) => outer.edgeO(o, n.uiParams(i), p, s) } /** Inward edge parameters. */ protected[diplomacy] lazy val edgesIn: Seq[EI] = (iPorts.zip(uiParams)).map { case ((o, n, p, s), i) => inner.edgeI(n.doParams(o), i, p, s) } /** A tuple of the input edge parameters and output edge parameters for the edges bound to this node. * * If you need to access to the edges of a foreign Node, use this method (in/out create bundles). */ lazy val edges: Edges[EI, EO] = Edges(edgesIn, edgesOut) /** Create actual Wires corresponding to the Bundles parameterized by the outward edges of this node. */ protected[diplomacy] lazy val bundleOut: Seq[BO] = edgesOut.map { e => val x = Wire(outer.bundleO(e)).suggestName(s"${valName.value}Out") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } /** Create actual Wires corresponding to the Bundles parameterized by the inward edges of this node. */ protected[diplomacy] lazy val bundleIn: Seq[BI] = edgesIn.map { e => val x = Wire(inner.bundleI(e)).suggestName(s"${valName.value}In") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } private def emptyDanglesOut: Seq[Dangle] = oPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(serial, i), sink = HalfEdge(n.serial, j), flipped = false, name = wirePrefix + "out", dataOpt = None ) } private def emptyDanglesIn: Seq[Dangle] = iPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(n.serial, j), sink = HalfEdge(serial, i), flipped = true, name = wirePrefix + "in", dataOpt = None ) } /** Create the [[Dangle]]s which describe the connections from this node output to other nodes inputs. */ protected[diplomacy] def danglesOut: Seq[Dangle] = emptyDanglesOut.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleOut(i))) } /** Create the [[Dangle]]s which describe the connections from this node input from other nodes outputs. */ protected[diplomacy] def danglesIn: Seq[Dangle] = emptyDanglesIn.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleIn(i))) } private[diplomacy] var instantiated = false /** Gather Bundle and edge parameters of outward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def out: Seq[(BO, EO)] = { require( instantiated, s"$name.out should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleOut.zip(edgesOut) } /** Gather Bundle and edge parameters of inward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def in: Seq[(BI, EI)] = { require( instantiated, s"$name.in should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleIn.zip(edgesIn) } /** Actually instantiate this node during [[LazyModuleImp]] evaluation. Mark that it's safe to use the Bundle wires, * instantiate monitors on all input ports if appropriate, and return all the dangles of this node. */ protected[diplomacy] def instantiate(): Seq[Dangle] = { instantiated = true if (!circuitIdentity) { (iPorts.zip(in)).foreach { case ((_, _, p, _), (b, e)) => if (p(MonitorsEnabled)) inner.monitor(b, e) } } danglesOut ++ danglesIn } protected[diplomacy] def cloneDangles(): Seq[Dangle] = emptyDanglesOut ++ emptyDanglesIn /** Connects the outward part of a node with the inward part of this node. */ protected[diplomacy] def bind( h: OutwardNode[DI, UI, BI], binding: NodeBinding )( implicit p: Parameters, sourceInfo: SourceInfo ): Unit = { val x = this // x := y val y = h sourceLine(sourceInfo, " at ", "") val i = x.iPushed val o = y.oPushed y.oPush( i, x, binding match { case BIND_ONCE => BIND_ONCE case BIND_FLEX => BIND_FLEX case BIND_STAR => BIND_QUERY case BIND_QUERY => BIND_STAR } ) x.iPush(o, y, binding) } /* Metadata for printing the node graph. */ def inputs: Seq[(OutwardNode[DI, UI, BI], RenderedEdge)] = (iPorts.zip(edgesIn)).map { case ((_, n, p, _), e) => val re = inner.render(e) (n, re.copy(flipped = re.flipped != p(RenderFlipped))) } /** Metadata for printing the node graph */ def outputs: Seq[(InwardNode[DO, UO, BO], RenderedEdge)] = oPorts.map { case (i, n, _, _) => (n, n.inputs(i)._2) } } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } } File Arbiter.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.util.random.LFSR import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ object TLArbiter { // (valids, select) => readys type Policy = (Integer, UInt, Bool) => UInt val lowestIndexFirst: Policy = (width, valids, select) => ~(leftOR(valids) << 1)(width-1, 0) val highestIndexFirst: Policy = (width, valids, select) => ~((rightOR(valids) >> 1).pad(width)) val roundRobin: Policy = (width, valids, select) => if (width == 1) 1.U(1.W) else { val valid = valids(width-1, 0) assert (valid === valids) val mask = RegInit(((BigInt(1) << width)-1).U(width-1,0)) val filter = Cat(valid & ~mask, valid) val unready = (rightOR(filter, width*2, width) >> 1) | (mask << width) val readys = ~((unready >> width) & unready(width-1, 0)) when (select && valid.orR) { mask := leftOR(readys & valid, width) } readys(width-1, 0) } def lowestFromSeq[T <: TLChannel](edge: TLEdge, sink: DecoupledIO[T], sources: Seq[DecoupledIO[T]]): Unit = { apply(lowestIndexFirst)(sink, sources.map(s => (edge.numBeats1(s.bits), s)):_*) } def lowest[T <: TLChannel](edge: TLEdge, sink: DecoupledIO[T], sources: DecoupledIO[T]*): Unit = { apply(lowestIndexFirst)(sink, sources.toList.map(s => (edge.numBeats1(s.bits), s)):_*) } def highest[T <: TLChannel](edge: TLEdge, sink: DecoupledIO[T], sources: DecoupledIO[T]*): Unit = { apply(highestIndexFirst)(sink, sources.toList.map(s => (edge.numBeats1(s.bits), s)):_*) } def robin[T <: TLChannel](edge: TLEdge, sink: DecoupledIO[T], sources: DecoupledIO[T]*): Unit = { apply(roundRobin)(sink, sources.toList.map(s => (edge.numBeats1(s.bits), s)):_*) } def apply[T <: Data](policy: Policy)(sink: DecoupledIO[T], sources: (UInt, DecoupledIO[T])*): Unit = { if (sources.isEmpty) { sink.bits := DontCare } else if (sources.size == 1) { sink :<>= sources.head._2 } else { val pairs = sources.toList val beatsIn = pairs.map(_._1) val sourcesIn = pairs.map(_._2) // The number of beats which remain to be sent val beatsLeft = RegInit(0.U) val idle = beatsLeft === 0.U val latch = idle && sink.ready // winner (if any) claims sink // Who wants access to the sink? val valids = sourcesIn.map(_.valid) // Arbitrate amongst the requests val readys = VecInit(policy(valids.size, Cat(valids.reverse), latch).asBools) // Which request wins arbitration? val winner = VecInit((readys zip valids) map { case (r,v) => r&&v }) // Confirm the policy works properly require (readys.size == valids.size) // Never two winners val prefixOR = winner.scanLeft(false.B)(_||_).init assert((prefixOR zip winner) map { case (p,w) => !p || !w } reduce {_ && _}) // If there was any request, there is a winner assert (!valids.reduce(_||_) || winner.reduce(_||_)) // Track remaining beats val maskedBeats = (winner zip beatsIn) map { case (w,b) => Mux(w, b, 0.U) } val initBeats = maskedBeats.reduce(_ | _) // no winner => 0 beats beatsLeft := Mux(latch, initBeats, beatsLeft - sink.fire) // The one-hot source granted access in the previous cycle val state = RegInit(VecInit(Seq.fill(sources.size)(false.B))) val muxState = Mux(idle, winner, state) state := muxState val allowed = Mux(idle, readys, state) (sourcesIn zip allowed) foreach { case (s, r) => s.ready := sink.ready && r } sink.valid := Mux(idle, valids.reduce(_||_), Mux1H(state, valids)) sink.bits :<= Mux1H(muxState, sourcesIn.map(_.bits)) } } } // Synthesizable unit tests import freechips.rocketchip.unittest._ abstract class DecoupledArbiterTest( policy: TLArbiter.Policy, txns: Int, timeout: Int, val numSources: Int, beatsLeftFromIdx: Int => UInt) (implicit p: Parameters) extends UnitTest(timeout) { val sources = Wire(Vec(numSources, DecoupledIO(UInt(log2Ceil(numSources).W)))) dontTouch(sources.suggestName("sources")) val sink = Wire(DecoupledIO(UInt(log2Ceil(numSources).W))) dontTouch(sink.suggestName("sink")) val count = RegInit(0.U(log2Ceil(txns).W)) val lfsr = LFSR(16, true.B) sources.zipWithIndex.map { case (z, i) => z.bits := i.U } TLArbiter(policy)(sink, sources.zipWithIndex.map { case (z, i) => (beatsLeftFromIdx(i), z) }:_*) count := count + 1.U io.finished := count >= txns.U } /** This tests that when a specific pattern of source valids are driven, * a new index from amongst that pattern is always selected, * unless one of those sources takes multiple beats, * in which case the same index should be selected until the arbiter goes idle. */ class TLDecoupledArbiterRobinTest(txns: Int = 128, timeout: Int = 500000, print: Boolean = false) (implicit p: Parameters) extends DecoupledArbiterTest(TLArbiter.roundRobin, txns, timeout, 6, i => i.U) { val lastWinner = RegInit((numSources+1).U) val beatsLeft = RegInit(0.U(log2Ceil(numSources).W)) val first = lastWinner > numSources.U val valid = lfsr(0) val ready = lfsr(15) sink.ready := ready sources.zipWithIndex.map { // pattern: every even-indexed valid is driven the same random way case (s, i) => s.valid := (if (i % 2 == 1) false.B else valid) } when (sink.fire) { if (print) { printf("TestRobin: %d\n", sink.bits) } when (beatsLeft === 0.U) { assert(lastWinner =/= sink.bits, "Round robin did not pick a new idx despite one being valid.") lastWinner := sink.bits beatsLeft := sink.bits } .otherwise { assert(lastWinner === sink.bits, "Round robin did not pick the same index over multiple beats") beatsLeft := beatsLeft - 1.U } } if (print) { when (!sink.fire) { printf("TestRobin: idle (%d %d)\n", valid, ready) } } } /** This tests that the lowest index is always selected across random single cycle transactions. */ class TLDecoupledArbiterLowestTest(txns: Int = 128, timeout: Int = 500000)(implicit p: Parameters) extends DecoupledArbiterTest(TLArbiter.lowestIndexFirst, txns, timeout, 15, _ => 0.U) { def assertLowest(id: Int): Unit = { when (sources(id).valid) { assert((numSources-1 until id by -1).map(!sources(_).fire).foldLeft(true.B)(_&&_), s"$id was valid but a higher valid source was granted ready.") } } sources.zipWithIndex.map { case (s, i) => s.valid := lfsr(i) } sink.ready := lfsr(15) when (sink.fire) { (0 until numSources).foreach(assertLowest(_)) } } /** This tests that the highest index is always selected across random single cycle transactions. */ class TLDecoupledArbiterHighestTest(txns: Int = 128, timeout: Int = 500000)(implicit p: Parameters) extends DecoupledArbiterTest(TLArbiter.highestIndexFirst, txns, timeout, 15, _ => 0.U) { def assertHighest(id: Int): Unit = { when (sources(id).valid) { assert((0 until id).map(!sources(_).fire).foldLeft(true.B)(_&&_), s"$id was valid but a lower valid source was granted ready.") } } sources.zipWithIndex.map { case (s, i) => s.valid := lfsr(i) } sink.ready := lfsr(15) when (sink.fire) { (0 until numSources).foreach(assertHighest(_)) } } File Xbar.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.{AddressDecoder, AddressSet, RegionType, IdRange, TriStateValue} import freechips.rocketchip.util.BundleField // Trades off slave port proximity against routing resource cost object ForceFanout { def apply[T]( a: TriStateValue = TriStateValue.unset, b: TriStateValue = TriStateValue.unset, c: TriStateValue = TriStateValue.unset, d: TriStateValue = TriStateValue.unset, e: TriStateValue = TriStateValue.unset)(body: Parameters => T)(implicit p: Parameters) = { body(p.alterPartial { case ForceFanoutKey => p(ForceFanoutKey) match { case ForceFanoutParams(pa, pb, pc, pd, pe) => ForceFanoutParams(a.update(pa), b.update(pb), c.update(pc), d.update(pd), e.update(pe)) } }) } } private case class ForceFanoutParams(a: Boolean, b: Boolean, c: Boolean, d: Boolean, e: Boolean) private case object ForceFanoutKey extends Field(ForceFanoutParams(false, false, false, false, false)) class TLXbar(policy: TLArbiter.Policy = TLArbiter.roundRobin, nameSuffix: Option[String] = None)(implicit p: Parameters) extends LazyModule { val node = new TLNexusNode( clientFn = { seq => seq(0).v1copy( echoFields = BundleField.union(seq.flatMap(_.echoFields)), requestFields = BundleField.union(seq.flatMap(_.requestFields)), responseKeys = seq.flatMap(_.responseKeys).distinct, minLatency = seq.map(_.minLatency).min, clients = (TLXbar.mapInputIds(seq) zip seq) flatMap { case (range, port) => port.clients map { client => client.v1copy( sourceId = client.sourceId.shift(range.start) )} } ) }, managerFn = { seq => val fifoIdFactory = TLXbar.relabeler() seq(0).v1copy( responseFields = BundleField.union(seq.flatMap(_.responseFields)), requestKeys = seq.flatMap(_.requestKeys).distinct, minLatency = seq.map(_.minLatency).min, endSinkId = TLXbar.mapOutputIds(seq).map(_.end).max, managers = seq.flatMap { port => require (port.beatBytes == seq(0).beatBytes, s"Xbar ($name with parent $parent) data widths don't match: ${port.managers.map(_.name)} has ${port.beatBytes}B vs ${seq(0).managers.map(_.name)} has ${seq(0).beatBytes}B") val fifoIdMapper = fifoIdFactory() port.managers map { manager => manager.v1copy( fifoId = manager.fifoId.map(fifoIdMapper(_)) )} } ) } ){ override def circuitIdentity = outputs.size == 1 && inputs.size == 1 } lazy val module = new Impl class Impl extends LazyModuleImp(this) { if ((node.in.size * node.out.size) > (8*32)) { println (s"!!! WARNING !!!") println (s" Your TLXbar ($name with parent $parent) is very large, with ${node.in.size} Masters and ${node.out.size} Slaves.") println (s"!!! WARNING !!!") } val wide_bundle = TLBundleParameters.union((node.in ++ node.out).map(_._2.bundle)) override def desiredName = (Seq("TLXbar") ++ nameSuffix ++ Seq(s"i${node.in.size}_o${node.out.size}_${wide_bundle.shortName}")).mkString("_") TLXbar.circuit(policy, node.in, node.out) } } object TLXbar { def mapInputIds(ports: Seq[TLMasterPortParameters]) = assignRanges(ports.map(_.endSourceId)) def mapOutputIds(ports: Seq[TLSlavePortParameters]) = assignRanges(ports.map(_.endSinkId)) def assignRanges(sizes: Seq[Int]) = { val pow2Sizes = sizes.map { z => if (z == 0) 0 else 1 << log2Ceil(z) } val tuples = pow2Sizes.zipWithIndex.sortBy(_._1) // record old index, then sort by increasing size val starts = tuples.scanRight(0)(_._1 + _).tail // suffix-sum of the sizes = the start positions val ranges = (tuples zip starts) map { case ((sz, i), st) => (if (sz == 0) IdRange(0, 0) else IdRange(st, st + sz), i) } ranges.sortBy(_._2).map(_._1) // Restore orignal order } def relabeler() = { var idFactory = 0 () => { val fifoMap = scala.collection.mutable.HashMap.empty[Int, Int] (x: Int) => { if (fifoMap.contains(x)) fifoMap(x) else { val out = idFactory idFactory = idFactory + 1 fifoMap += (x -> out) out } } } } def circuit(policy: TLArbiter.Policy, seqIn: Seq[(TLBundle, TLEdge)], seqOut: Seq[(TLBundle, TLEdge)]) { val (io_in, edgesIn) = seqIn.unzip val (io_out, edgesOut) = seqOut.unzip // Not every master need connect to every slave on every channel; determine which connections are necessary val reachableIO = edgesIn.map { cp => edgesOut.map { mp => cp.client.clients.exists { c => mp.manager.managers.exists { m => c.visibility.exists { ca => m.address.exists { ma => ca.overlaps(ma)}}}} }.toVector}.toVector val probeIO = (edgesIn zip reachableIO).map { case (cp, reachableO) => (edgesOut zip reachableO).map { case (mp, reachable) => reachable && cp.client.anySupportProbe && mp.manager.managers.exists(_.regionType >= RegionType.TRACKED) }.toVector}.toVector val releaseIO = (edgesIn zip reachableIO).map { case (cp, reachableO) => (edgesOut zip reachableO).map { case (mp, reachable) => reachable && cp.client.anySupportProbe && mp.manager.anySupportAcquireB }.toVector}.toVector val connectAIO = reachableIO val connectBIO = probeIO val connectCIO = releaseIO val connectDIO = reachableIO val connectEIO = releaseIO def transpose[T](x: Seq[Seq[T]]) = if (x.isEmpty) Nil else Vector.tabulate(x(0).size) { i => Vector.tabulate(x.size) { j => x(j)(i) } } val connectAOI = transpose(connectAIO) val connectBOI = transpose(connectBIO) val connectCOI = transpose(connectCIO) val connectDOI = transpose(connectDIO) val connectEOI = transpose(connectEIO) // Grab the port ID mapping val inputIdRanges = TLXbar.mapInputIds(edgesIn.map(_.client)) val outputIdRanges = TLXbar.mapOutputIds(edgesOut.map(_.manager)) // We need an intermediate size of bundle with the widest possible identifiers val wide_bundle = TLBundleParameters.union(io_in.map(_.params) ++ io_out.map(_.params)) // Handle size = 1 gracefully (Chisel3 empty range is broken) def trim(id: UInt, size: Int): UInt = if (size <= 1) 0.U else id(log2Ceil(size)-1, 0) // Transform input bundle sources (sinks use global namespace on both sides) val in = Wire(Vec(io_in.size, TLBundle(wide_bundle))) for (i <- 0 until in.size) { val r = inputIdRanges(i) if (connectAIO(i).exists(x=>x)) { in(i).a.bits.user := DontCare in(i).a.squeezeAll.waiveAll :<>= io_in(i).a.squeezeAll.waiveAll in(i).a.bits.source := io_in(i).a.bits.source | r.start.U } else { in(i).a := DontCare io_in(i).a := DontCare in(i).a.valid := false.B io_in(i).a.ready := true.B } if (connectBIO(i).exists(x=>x)) { io_in(i).b.squeezeAll :<>= in(i).b.squeezeAll io_in(i).b.bits.source := trim(in(i).b.bits.source, r.size) } else { in(i).b := DontCare io_in(i).b := DontCare in(i).b.ready := true.B io_in(i).b.valid := false.B } if (connectCIO(i).exists(x=>x)) { in(i).c.bits.user := DontCare in(i).c.squeezeAll.waiveAll :<>= io_in(i).c.squeezeAll.waiveAll in(i).c.bits.source := io_in(i).c.bits.source | r.start.U } else { in(i).c := DontCare io_in(i).c := DontCare in(i).c.valid := false.B io_in(i).c.ready := true.B } if (connectDIO(i).exists(x=>x)) { io_in(i).d.squeezeAll.waiveAll :<>= in(i).d.squeezeAll.waiveAll io_in(i).d.bits.source := trim(in(i).d.bits.source, r.size) } else { in(i).d := DontCare io_in(i).d := DontCare in(i).d.ready := true.B io_in(i).d.valid := false.B } if (connectEIO(i).exists(x=>x)) { in(i).e.squeezeAll :<>= io_in(i).e.squeezeAll } else { in(i).e := DontCare io_in(i).e := DontCare in(i).e.valid := false.B io_in(i).e.ready := true.B } } // Transform output bundle sinks (sources use global namespace on both sides) val out = Wire(Vec(io_out.size, TLBundle(wide_bundle))) for (o <- 0 until out.size) { val r = outputIdRanges(o) if (connectAOI(o).exists(x=>x)) { out(o).a.bits.user := DontCare io_out(o).a.squeezeAll.waiveAll :<>= out(o).a.squeezeAll.waiveAll } else { out(o).a := DontCare io_out(o).a := DontCare out(o).a.ready := true.B io_out(o).a.valid := false.B } if (connectBOI(o).exists(x=>x)) { out(o).b.squeezeAll :<>= io_out(o).b.squeezeAll } else { out(o).b := DontCare io_out(o).b := DontCare out(o).b.valid := false.B io_out(o).b.ready := true.B } if (connectCOI(o).exists(x=>x)) { out(o).c.bits.user := DontCare io_out(o).c.squeezeAll.waiveAll :<>= out(o).c.squeezeAll.waiveAll } else { out(o).c := DontCare io_out(o).c := DontCare out(o).c.ready := true.B io_out(o).c.valid := false.B } if (connectDOI(o).exists(x=>x)) { out(o).d.squeezeAll :<>= io_out(o).d.squeezeAll out(o).d.bits.sink := io_out(o).d.bits.sink | r.start.U } else { out(o).d := DontCare io_out(o).d := DontCare out(o).d.valid := false.B io_out(o).d.ready := true.B } if (connectEOI(o).exists(x=>x)) { io_out(o).e.squeezeAll :<>= out(o).e.squeezeAll io_out(o).e.bits.sink := trim(out(o).e.bits.sink, r.size) } else { out(o).e := DontCare io_out(o).e := DontCare out(o).e.ready := true.B io_out(o).e.valid := false.B } } // Filter a list to only those elements selected def filter[T](data: Seq[T], mask: Seq[Boolean]) = (data zip mask).filter(_._2).map(_._1) // Based on input=>output connectivity, create per-input minimal address decode circuits val requiredAC = (connectAIO ++ connectCIO).distinct val outputPortFns: Map[Vector[Boolean], Seq[UInt => Bool]] = requiredAC.map { connectO => val port_addrs = edgesOut.map(_.manager.managers.flatMap(_.address)) val routingMask = AddressDecoder(filter(port_addrs, connectO)) val route_addrs = port_addrs.map(seq => AddressSet.unify(seq.map(_.widen(~routingMask)).distinct)) // Print the address mapping if (false) { println("Xbar mapping:") route_addrs.foreach { p => print(" ") p.foreach { a => print(s" ${a}") } println("") } println("--") } (connectO, route_addrs.map(seq => (addr: UInt) => seq.map(_.contains(addr)).reduce(_ || _))) }.toMap // Print the ID mapping if (false) { println(s"XBar mapping:") (edgesIn zip inputIdRanges).zipWithIndex.foreach { case ((edge, id), i) => println(s"\t$i assigned ${id} for ${edge.client.clients.map(_.name).mkString(", ")}") } println("") } val addressA = (in zip edgesIn) map { case (i, e) => e.address(i.a.bits) } val addressC = (in zip edgesIn) map { case (i, e) => e.address(i.c.bits) } def unique(x: Vector[Boolean]): Bool = (x.filter(x=>x).size <= 1).B val requestAIO = (connectAIO zip addressA) map { case (c, i) => outputPortFns(c).map { o => unique(c) || o(i) } } val requestCIO = (connectCIO zip addressC) map { case (c, i) => outputPortFns(c).map { o => unique(c) || o(i) } } val requestBOI = out.map { o => inputIdRanges.map { i => i.contains(o.b.bits.source) } } val requestDOI = out.map { o => inputIdRanges.map { i => i.contains(o.d.bits.source) } } val requestEIO = in.map { i => outputIdRanges.map { o => o.contains(i.e.bits.sink) } } val beatsAI = (in zip edgesIn) map { case (i, e) => e.numBeats1(i.a.bits) } val beatsBO = (out zip edgesOut) map { case (o, e) => e.numBeats1(o.b.bits) } val beatsCI = (in zip edgesIn) map { case (i, e) => e.numBeats1(i.c.bits) } val beatsDO = (out zip edgesOut) map { case (o, e) => e.numBeats1(o.d.bits) } val beatsEI = (in zip edgesIn) map { case (i, e) => e.numBeats1(i.e.bits) } // Fanout the input sources to the output sinks val portsAOI = transpose((in zip requestAIO) map { case (i, r) => TLXbar.fanout(i.a, r, edgesOut.map(_.params(ForceFanoutKey).a)) }) val portsBIO = transpose((out zip requestBOI) map { case (o, r) => TLXbar.fanout(o.b, r, edgesIn .map(_.params(ForceFanoutKey).b)) }) val portsCOI = transpose((in zip requestCIO) map { case (i, r) => TLXbar.fanout(i.c, r, edgesOut.map(_.params(ForceFanoutKey).c)) }) val portsDIO = transpose((out zip requestDOI) map { case (o, r) => TLXbar.fanout(o.d, r, edgesIn .map(_.params(ForceFanoutKey).d)) }) val portsEOI = transpose((in zip requestEIO) map { case (i, r) => TLXbar.fanout(i.e, r, edgesOut.map(_.params(ForceFanoutKey).e)) }) // Arbitrate amongst the sources for (o <- 0 until out.size) { TLArbiter(policy)(out(o).a, filter(beatsAI zip portsAOI(o), connectAOI(o)):_*) TLArbiter(policy)(out(o).c, filter(beatsCI zip portsCOI(o), connectCOI(o)):_*) TLArbiter(policy)(out(o).e, filter(beatsEI zip portsEOI(o), connectEOI(o)):_*) filter(portsAOI(o), connectAOI(o).map(!_)) foreach { r => r.ready := false.B } filter(portsCOI(o), connectCOI(o).map(!_)) foreach { r => r.ready := false.B } filter(portsEOI(o), connectEOI(o).map(!_)) foreach { r => r.ready := false.B } } for (i <- 0 until in.size) { TLArbiter(policy)(in(i).b, filter(beatsBO zip portsBIO(i), connectBIO(i)):_*) TLArbiter(policy)(in(i).d, filter(beatsDO zip portsDIO(i), connectDIO(i)):_*) filter(portsBIO(i), connectBIO(i).map(!_)) foreach { r => r.ready := false.B } filter(portsDIO(i), connectDIO(i).map(!_)) foreach { r => r.ready := false.B } } } def apply(policy: TLArbiter.Policy = TLArbiter.roundRobin, nameSuffix: Option[String] = None)(implicit p: Parameters): TLNode = { val xbar = LazyModule(new TLXbar(policy, nameSuffix)) xbar.node } // Replicate an input port to each output port def fanout[T <: TLChannel](input: DecoupledIO[T], select: Seq[Bool], force: Seq[Boolean] = Nil): Seq[DecoupledIO[T]] = { val filtered = Wire(Vec(select.size, chiselTypeOf(input))) for (i <- 0 until select.size) { filtered(i).bits := (if (force.lift(i).getOrElse(false)) IdentityModule(input.bits) else input.bits) filtered(i).valid := input.valid && (select(i) || (select.size == 1).B) } input.ready := Mux1H(select, filtered.map(_.ready)) filtered } } // Synthesizable unit tests import freechips.rocketchip.unittest._ class TLRAMXbar(nManagers: Int, txns: Int)(implicit p: Parameters) extends LazyModule { val fuzz = LazyModule(new TLFuzzer(txns)) val model = LazyModule(new TLRAMModel("Xbar")) val xbar = LazyModule(new TLXbar) xbar.node := TLDelayer(0.1) := model.node := fuzz.node (0 until nManagers) foreach { n => val ram = LazyModule(new TLRAM(AddressSet(0x0+0x400*n, 0x3ff))) ram.node := TLFragmenter(4, 256) := TLDelayer(0.1) := xbar.node } lazy val module = new Impl class Impl extends LazyModuleImp(this) with UnitTestModule { io.finished := fuzz.module.io.finished } } class TLRAMXbarTest(nManagers: Int, txns: Int = 5000, timeout: Int = 500000)(implicit p: Parameters) extends UnitTest(timeout) { val dut = Module(LazyModule(new TLRAMXbar(nManagers,txns)).module) dut.io.start := io.start io.finished := dut.io.finished } class TLMulticlientXbar(nManagers: Int, nClients: Int, txns: Int)(implicit p: Parameters) extends LazyModule { val xbar = LazyModule(new TLXbar) val fuzzers = (0 until nClients) map { n => val fuzz = LazyModule(new TLFuzzer(txns)) xbar.node := TLDelayer(0.1) := fuzz.node fuzz } (0 until nManagers) foreach { n => val ram = LazyModule(new TLRAM(AddressSet(0x0+0x400*n, 0x3ff))) ram.node := TLFragmenter(4, 256) := TLDelayer(0.1) := xbar.node } lazy val module = new Impl class Impl extends LazyModuleImp(this) with UnitTestModule { io.finished := fuzzers.last.module.io.finished } } class TLMulticlientXbarTest(nManagers: Int, nClients: Int, txns: Int = 5000, timeout: Int = 500000)(implicit p: Parameters) extends UnitTest(timeout) { val dut = Module(LazyModule(new TLMulticlientXbar(nManagers, nClients, txns)).module) dut.io.start := io.start io.finished := dut.io.finished }
module TLXbar_MasterXbar_SpikeTile_i3_o1_a32d64s2k3z4c( // @[Xbar.scala:74:9] input clock, // @[Xbar.scala:74:9] input reset, // @[Xbar.scala:74:9] output auto_anon_in_2_a_ready, // @[LazyModuleImp.scala:107:25] input auto_anon_in_2_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_2_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_2_a_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_anon_in_2_a_bits_size, // @[LazyModuleImp.scala:107:25] input auto_anon_in_2_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_anon_in_2_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_anon_in_2_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_anon_in_2_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_anon_in_2_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_anon_in_2_d_ready, // @[LazyModuleImp.scala:107:25] output auto_anon_in_2_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_in_2_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_anon_in_2_d_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_anon_in_2_d_bits_size, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_in_2_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_anon_in_2_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_anon_in_2_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_anon_in_2_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_anon_in_1_a_ready, // @[LazyModuleImp.scala:107:25] input auto_anon_in_1_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_1_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_1_a_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_anon_in_1_a_bits_size, // @[LazyModuleImp.scala:107:25] input auto_anon_in_1_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_anon_in_1_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_anon_in_1_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_anon_in_1_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_anon_in_1_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_anon_in_1_b_ready, // @[LazyModuleImp.scala:107:25] output auto_anon_in_1_b_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_in_1_b_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_anon_in_1_b_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_anon_in_1_b_bits_size, // @[LazyModuleImp.scala:107:25] output [31:0] auto_anon_in_1_b_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_anon_in_1_b_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_anon_in_1_b_bits_data, // @[LazyModuleImp.scala:107:25] output auto_anon_in_1_b_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_anon_in_1_c_ready, // @[LazyModuleImp.scala:107:25] input auto_anon_in_1_c_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_1_c_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_1_c_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_anon_in_1_c_bits_size, // @[LazyModuleImp.scala:107:25] input auto_anon_in_1_c_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_anon_in_1_c_bits_address, // @[LazyModuleImp.scala:107:25] input [63:0] auto_anon_in_1_c_bits_data, // @[LazyModuleImp.scala:107:25] input auto_anon_in_1_c_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_anon_in_1_d_ready, // @[LazyModuleImp.scala:107:25] output auto_anon_in_1_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_in_1_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_anon_in_1_d_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_anon_in_1_d_bits_size, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_in_1_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_anon_in_1_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_anon_in_1_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_anon_in_1_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_anon_in_1_e_ready, // @[LazyModuleImp.scala:107:25] input auto_anon_in_1_e_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_1_e_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_anon_in_0_a_ready, // @[LazyModuleImp.scala:107:25] input auto_anon_in_0_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_0_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_in_0_a_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_anon_in_0_a_bits_size, // @[LazyModuleImp.scala:107:25] input auto_anon_in_0_a_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_anon_in_0_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_anon_in_0_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_anon_in_0_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_anon_in_0_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_anon_in_0_d_ready, // @[LazyModuleImp.scala:107:25] output auto_anon_in_0_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_in_0_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [1:0] auto_anon_in_0_d_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_anon_in_0_d_bits_size, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_in_0_d_bits_sink, // @[LazyModuleImp.scala:107:25] output auto_anon_in_0_d_bits_denied, // @[LazyModuleImp.scala:107:25] output [63:0] auto_anon_in_0_d_bits_data, // @[LazyModuleImp.scala:107:25] output auto_anon_in_0_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_anon_out_a_ready, // @[LazyModuleImp.scala:107:25] output auto_anon_out_a_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_out_a_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_out_a_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_anon_out_a_bits_size, // @[LazyModuleImp.scala:107:25] output [1:0] auto_anon_out_a_bits_source, // @[LazyModuleImp.scala:107:25] output [31:0] auto_anon_out_a_bits_address, // @[LazyModuleImp.scala:107:25] output [7:0] auto_anon_out_a_bits_mask, // @[LazyModuleImp.scala:107:25] output [63:0] auto_anon_out_a_bits_data, // @[LazyModuleImp.scala:107:25] output auto_anon_out_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_anon_out_b_ready, // @[LazyModuleImp.scala:107:25] input auto_anon_out_b_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_out_b_bits_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_anon_out_b_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_anon_out_b_bits_size, // @[LazyModuleImp.scala:107:25] input [1:0] auto_anon_out_b_bits_source, // @[LazyModuleImp.scala:107:25] input [31:0] auto_anon_out_b_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_anon_out_b_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_anon_out_b_bits_data, // @[LazyModuleImp.scala:107:25] input auto_anon_out_b_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_anon_out_c_ready, // @[LazyModuleImp.scala:107:25] output auto_anon_out_c_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_out_c_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_out_c_bits_param, // @[LazyModuleImp.scala:107:25] output [3:0] auto_anon_out_c_bits_size, // @[LazyModuleImp.scala:107:25] output [31:0] auto_anon_out_c_bits_address, // @[LazyModuleImp.scala:107:25] output [63:0] auto_anon_out_c_bits_data, // @[LazyModuleImp.scala:107:25] output auto_anon_out_c_bits_corrupt, // @[LazyModuleImp.scala:107:25] output auto_anon_out_d_ready, // @[LazyModuleImp.scala:107:25] input auto_anon_out_d_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_out_d_bits_opcode, // @[LazyModuleImp.scala:107:25] input [1:0] auto_anon_out_d_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_anon_out_d_bits_size, // @[LazyModuleImp.scala:107:25] input [1:0] auto_anon_out_d_bits_source, // @[LazyModuleImp.scala:107:25] input [2:0] auto_anon_out_d_bits_sink, // @[LazyModuleImp.scala:107:25] input auto_anon_out_d_bits_denied, // @[LazyModuleImp.scala:107:25] input [63:0] auto_anon_out_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_anon_out_d_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_anon_out_e_ready, // @[LazyModuleImp.scala:107:25] output auto_anon_out_e_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_anon_out_e_bits_sink // @[LazyModuleImp.scala:107:25] ); wire [2:0] out_0_e_bits_sink; // @[Xbar.scala:216:19] wire [2:0] out_0_d_bits_sink; // @[Xbar.scala:216:19] wire [1:0] in_2_a_bits_source; // @[Xbar.scala:159:18] wire [1:0] in_0_a_bits_source; // @[Xbar.scala:159:18] wire auto_anon_in_2_a_valid_0 = auto_anon_in_2_a_valid; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_2_a_bits_opcode_0 = auto_anon_in_2_a_bits_opcode; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_2_a_bits_param_0 = auto_anon_in_2_a_bits_param; // @[Xbar.scala:74:9] wire [3:0] auto_anon_in_2_a_bits_size_0 = auto_anon_in_2_a_bits_size; // @[Xbar.scala:74:9] wire auto_anon_in_2_a_bits_source_0 = auto_anon_in_2_a_bits_source; // @[Xbar.scala:74:9] wire [31:0] auto_anon_in_2_a_bits_address_0 = auto_anon_in_2_a_bits_address; // @[Xbar.scala:74:9] wire [7:0] auto_anon_in_2_a_bits_mask_0 = auto_anon_in_2_a_bits_mask; // @[Xbar.scala:74:9] wire [63:0] auto_anon_in_2_a_bits_data_0 = auto_anon_in_2_a_bits_data; // @[Xbar.scala:74:9] wire auto_anon_in_2_a_bits_corrupt_0 = auto_anon_in_2_a_bits_corrupt; // @[Xbar.scala:74:9] wire auto_anon_in_2_d_ready_0 = auto_anon_in_2_d_ready; // @[Xbar.scala:74:9] wire auto_anon_in_1_a_valid_0 = auto_anon_in_1_a_valid; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_1_a_bits_opcode_0 = auto_anon_in_1_a_bits_opcode; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_1_a_bits_param_0 = auto_anon_in_1_a_bits_param; // @[Xbar.scala:74:9] wire [3:0] auto_anon_in_1_a_bits_size_0 = auto_anon_in_1_a_bits_size; // @[Xbar.scala:74:9] wire auto_anon_in_1_a_bits_source_0 = auto_anon_in_1_a_bits_source; // @[Xbar.scala:74:9] wire [31:0] auto_anon_in_1_a_bits_address_0 = auto_anon_in_1_a_bits_address; // @[Xbar.scala:74:9] wire [7:0] auto_anon_in_1_a_bits_mask_0 = auto_anon_in_1_a_bits_mask; // @[Xbar.scala:74:9] wire [63:0] auto_anon_in_1_a_bits_data_0 = auto_anon_in_1_a_bits_data; // @[Xbar.scala:74:9] wire auto_anon_in_1_a_bits_corrupt_0 = auto_anon_in_1_a_bits_corrupt; // @[Xbar.scala:74:9] wire auto_anon_in_1_b_ready_0 = auto_anon_in_1_b_ready; // @[Xbar.scala:74:9] wire auto_anon_in_1_c_valid_0 = auto_anon_in_1_c_valid; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_1_c_bits_opcode_0 = auto_anon_in_1_c_bits_opcode; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_1_c_bits_param_0 = auto_anon_in_1_c_bits_param; // @[Xbar.scala:74:9] wire [3:0] auto_anon_in_1_c_bits_size_0 = auto_anon_in_1_c_bits_size; // @[Xbar.scala:74:9] wire auto_anon_in_1_c_bits_source_0 = auto_anon_in_1_c_bits_source; // @[Xbar.scala:74:9] wire [31:0] auto_anon_in_1_c_bits_address_0 = auto_anon_in_1_c_bits_address; // @[Xbar.scala:74:9] wire [63:0] auto_anon_in_1_c_bits_data_0 = auto_anon_in_1_c_bits_data; // @[Xbar.scala:74:9] wire auto_anon_in_1_c_bits_corrupt_0 = auto_anon_in_1_c_bits_corrupt; // @[Xbar.scala:74:9] wire auto_anon_in_1_d_ready_0 = auto_anon_in_1_d_ready; // @[Xbar.scala:74:9] wire auto_anon_in_1_e_valid_0 = auto_anon_in_1_e_valid; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_1_e_bits_sink_0 = auto_anon_in_1_e_bits_sink; // @[Xbar.scala:74:9] wire auto_anon_in_0_a_valid_0 = auto_anon_in_0_a_valid; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_0_a_bits_opcode_0 = auto_anon_in_0_a_bits_opcode; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_0_a_bits_param_0 = auto_anon_in_0_a_bits_param; // @[Xbar.scala:74:9] wire [3:0] auto_anon_in_0_a_bits_size_0 = auto_anon_in_0_a_bits_size; // @[Xbar.scala:74:9] wire auto_anon_in_0_a_bits_source_0 = auto_anon_in_0_a_bits_source; // @[Xbar.scala:74:9] wire [31:0] auto_anon_in_0_a_bits_address_0 = auto_anon_in_0_a_bits_address; // @[Xbar.scala:74:9] wire [7:0] auto_anon_in_0_a_bits_mask_0 = auto_anon_in_0_a_bits_mask; // @[Xbar.scala:74:9] wire [63:0] auto_anon_in_0_a_bits_data_0 = auto_anon_in_0_a_bits_data; // @[Xbar.scala:74:9] wire auto_anon_in_0_a_bits_corrupt_0 = auto_anon_in_0_a_bits_corrupt; // @[Xbar.scala:74:9] wire auto_anon_in_0_d_ready_0 = auto_anon_in_0_d_ready; // @[Xbar.scala:74:9] wire auto_anon_out_a_ready_0 = auto_anon_out_a_ready; // @[Xbar.scala:74:9] wire auto_anon_out_b_valid_0 = auto_anon_out_b_valid; // @[Xbar.scala:74:9] wire [2:0] auto_anon_out_b_bits_opcode_0 = auto_anon_out_b_bits_opcode; // @[Xbar.scala:74:9] wire [1:0] auto_anon_out_b_bits_param_0 = auto_anon_out_b_bits_param; // @[Xbar.scala:74:9] wire [3:0] auto_anon_out_b_bits_size_0 = auto_anon_out_b_bits_size; // @[Xbar.scala:74:9] wire [1:0] auto_anon_out_b_bits_source_0 = auto_anon_out_b_bits_source; // @[Xbar.scala:74:9] wire [31:0] auto_anon_out_b_bits_address_0 = auto_anon_out_b_bits_address; // @[Xbar.scala:74:9] wire [7:0] auto_anon_out_b_bits_mask_0 = auto_anon_out_b_bits_mask; // @[Xbar.scala:74:9] wire [63:0] auto_anon_out_b_bits_data_0 = auto_anon_out_b_bits_data; // @[Xbar.scala:74:9] wire auto_anon_out_b_bits_corrupt_0 = auto_anon_out_b_bits_corrupt; // @[Xbar.scala:74:9] wire auto_anon_out_c_ready_0 = auto_anon_out_c_ready; // @[Xbar.scala:74:9] wire auto_anon_out_d_valid_0 = auto_anon_out_d_valid; // @[Xbar.scala:74:9] wire [2:0] auto_anon_out_d_bits_opcode_0 = auto_anon_out_d_bits_opcode; // @[Xbar.scala:74:9] wire [1:0] auto_anon_out_d_bits_param_0 = auto_anon_out_d_bits_param; // @[Xbar.scala:74:9] wire [3:0] auto_anon_out_d_bits_size_0 = auto_anon_out_d_bits_size; // @[Xbar.scala:74:9] wire [1:0] auto_anon_out_d_bits_source_0 = auto_anon_out_d_bits_source; // @[Xbar.scala:74:9] wire [2:0] auto_anon_out_d_bits_sink_0 = auto_anon_out_d_bits_sink; // @[Xbar.scala:74:9] wire auto_anon_out_d_bits_denied_0 = auto_anon_out_d_bits_denied; // @[Xbar.scala:74:9] wire [63:0] auto_anon_out_d_bits_data_0 = auto_anon_out_d_bits_data; // @[Xbar.scala:74:9] wire auto_anon_out_d_bits_corrupt_0 = auto_anon_out_d_bits_corrupt; // @[Xbar.scala:74:9] wire auto_anon_out_e_ready_0 = auto_anon_out_e_ready; // @[Xbar.scala:74:9] wire _readys_T_2 = reset; // @[Arbiter.scala:22:12] wire auto_anon_in_2_d_bits_source = 1'h0; // @[Xbar.scala:74:9] wire auto_anon_in_1_b_bits_source = 1'h0; // @[Xbar.scala:74:9] wire auto_anon_in_1_d_bits_source = 1'h0; // @[Xbar.scala:74:9] wire auto_anon_in_0_d_bits_source = 1'h0; // @[Xbar.scala:74:9] wire anonIn_d_bits_source = 1'h0; // @[MixedNode.scala:551:17] wire anonIn_1_b_bits_source = 1'h0; // @[MixedNode.scala:551:17] wire anonIn_1_d_bits_source = 1'h0; // @[MixedNode.scala:551:17] wire anonIn_2_d_bits_source = 1'h0; // @[MixedNode.scala:551:17] wire in_0_b_valid = 1'h0; // @[Xbar.scala:159:18] wire in_0_b_bits_corrupt = 1'h0; // @[Xbar.scala:159:18] wire in_0_c_ready = 1'h0; // @[Xbar.scala:159:18] wire in_0_c_valid = 1'h0; // @[Xbar.scala:159:18] wire in_0_c_bits_corrupt = 1'h0; // @[Xbar.scala:159:18] wire in_0_e_ready = 1'h0; // @[Xbar.scala:159:18] wire in_0_e_valid = 1'h0; // @[Xbar.scala:159:18] wire in_2_b_valid = 1'h0; // @[Xbar.scala:159:18] wire in_2_b_bits_corrupt = 1'h0; // @[Xbar.scala:159:18] wire in_2_c_ready = 1'h0; // @[Xbar.scala:159:18] wire in_2_c_valid = 1'h0; // @[Xbar.scala:159:18] wire in_2_c_bits_corrupt = 1'h0; // @[Xbar.scala:159:18] wire in_2_e_ready = 1'h0; // @[Xbar.scala:159:18] wire in_2_e_valid = 1'h0; // @[Xbar.scala:159:18] wire _requestEIO_T = 1'h0; // @[Parameters.scala:54:10] wire _requestEIO_T_5 = 1'h0; // @[Parameters.scala:54:10] wire _requestEIO_T_10 = 1'h0; // @[Parameters.scala:54:10] wire beatsCI_opdata = 1'h0; // @[Edges.scala:102:36] wire beatsCI_opdata_2 = 1'h0; // @[Edges.scala:102:36] wire portsBIO_filtered_0_ready = 1'h0; // @[Xbar.scala:352:24] wire portsBIO_filtered_2_ready = 1'h0; // @[Xbar.scala:352:24] wire _portsBIO_out_0_b_ready_T = 1'h0; // @[Mux.scala:30:73] wire _portsBIO_out_0_b_ready_T_2 = 1'h0; // @[Mux.scala:30:73] wire portsCOI_filtered_0_ready = 1'h0; // @[Xbar.scala:352:24] wire portsCOI_filtered_0_valid = 1'h0; // @[Xbar.scala:352:24] wire portsCOI_filtered_0_bits_corrupt = 1'h0; // @[Xbar.scala:352:24] wire _portsCOI_filtered_0_valid_T_1 = 1'h0; // @[Xbar.scala:355:40] wire portsCOI_filtered_2_0_ready = 1'h0; // @[Xbar.scala:352:24] wire portsCOI_filtered_2_0_valid = 1'h0; // @[Xbar.scala:352:24] wire portsCOI_filtered_2_0_bits_corrupt = 1'h0; // @[Xbar.scala:352:24] wire _portsCOI_filtered_0_valid_T_5 = 1'h0; // @[Xbar.scala:355:40] wire portsEOI_filtered_0_ready = 1'h0; // @[Xbar.scala:352:24] wire portsEOI_filtered_0_valid = 1'h0; // @[Xbar.scala:352:24] wire _portsEOI_filtered_0_valid_T_1 = 1'h0; // @[Xbar.scala:355:40] wire portsEOI_filtered_2_0_ready = 1'h0; // @[Xbar.scala:352:24] wire portsEOI_filtered_2_0_valid = 1'h0; // @[Xbar.scala:352:24] wire _portsEOI_filtered_0_valid_T_5 = 1'h0; // @[Xbar.scala:355:40] wire _state_WIRE_0 = 1'h0; // @[Arbiter.scala:88:34] wire _state_WIRE_1 = 1'h0; // @[Arbiter.scala:88:34] wire _state_WIRE_2 = 1'h0; // @[Arbiter.scala:88:34] wire [1:0] auto_anon_out_c_bits_source = 2'h1; // @[Xbar.scala:74:9] wire [1:0] anonOut_c_bits_source = 2'h1; // @[MixedNode.scala:542:17] wire [1:0] in_1_a_bits_source = 2'h1; // @[Xbar.scala:159:18] wire [1:0] in_1_c_bits_source = 2'h1; // @[Xbar.scala:159:18] wire [1:0] out_0_c_bits_source = 2'h1; // @[Xbar.scala:216:19] wire [1:0] portsAOI_filtered_1_0_bits_source = 2'h1; // @[Xbar.scala:352:24] wire [1:0] portsCOI_filtered_1_0_bits_source = 2'h1; // @[Xbar.scala:352:24] wire in_0_b_ready = 1'h1; // @[Xbar.scala:159:18] wire in_2_b_ready = 1'h1; // @[Xbar.scala:159:18] wire _in_1_a_bits_source_T = 1'h1; // @[Xbar.scala:166:55] wire _in_1_c_bits_source_T = 1'h1; // @[Xbar.scala:187:55] wire _requestAIO_T_4 = 1'h1; // @[Parameters.scala:137:59] wire requestAIO_0_0 = 1'h1; // @[Xbar.scala:307:107] wire _requestAIO_T_9 = 1'h1; // @[Parameters.scala:137:59] wire requestAIO_1_0 = 1'h1; // @[Xbar.scala:307:107] wire _requestAIO_T_14 = 1'h1; // @[Parameters.scala:137:59] wire requestAIO_2_0 = 1'h1; // @[Xbar.scala:307:107] wire _requestCIO_T_4 = 1'h1; // @[Parameters.scala:137:59] wire requestCIO_0_0 = 1'h1; // @[Xbar.scala:308:107] wire _requestCIO_T_9 = 1'h1; // @[Parameters.scala:137:59] wire requestCIO_1_0 = 1'h1; // @[Xbar.scala:308:107] wire _requestCIO_T_14 = 1'h1; // @[Parameters.scala:137:59] wire requestCIO_2_0 = 1'h1; // @[Xbar.scala:308:107] wire _requestEIO_T_1 = 1'h1; // @[Parameters.scala:54:32] wire _requestEIO_T_2 = 1'h1; // @[Parameters.scala:56:32] wire _requestEIO_T_3 = 1'h1; // @[Parameters.scala:54:67] wire _requestEIO_T_4 = 1'h1; // @[Parameters.scala:57:20] wire requestEIO_0_0 = 1'h1; // @[Parameters.scala:56:48] wire _requestEIO_T_6 = 1'h1; // @[Parameters.scala:54:32] wire _requestEIO_T_7 = 1'h1; // @[Parameters.scala:56:32] wire _requestEIO_T_8 = 1'h1; // @[Parameters.scala:54:67] wire _requestEIO_T_9 = 1'h1; // @[Parameters.scala:57:20] wire requestEIO_1_0 = 1'h1; // @[Parameters.scala:56:48] wire _requestEIO_T_11 = 1'h1; // @[Parameters.scala:54:32] wire _requestEIO_T_12 = 1'h1; // @[Parameters.scala:56:32] wire _requestEIO_T_13 = 1'h1; // @[Parameters.scala:54:67] wire _requestEIO_T_14 = 1'h1; // @[Parameters.scala:57:20] wire requestEIO_2_0 = 1'h1; // @[Parameters.scala:56:48] wire _portsAOI_filtered_0_valid_T = 1'h1; // @[Xbar.scala:355:54] wire _portsAOI_filtered_0_valid_T_2 = 1'h1; // @[Xbar.scala:355:54] wire _portsAOI_filtered_0_valid_T_4 = 1'h1; // @[Xbar.scala:355:54] wire _portsCOI_filtered_0_valid_T = 1'h1; // @[Xbar.scala:355:54] wire _portsCOI_filtered_0_valid_T_2 = 1'h1; // @[Xbar.scala:355:54] wire _portsCOI_filtered_0_valid_T_4 = 1'h1; // @[Xbar.scala:355:54] wire _portsEOI_filtered_0_valid_T = 1'h1; // @[Xbar.scala:355:54] wire _portsEOI_filtered_0_valid_T_2 = 1'h1; // @[Xbar.scala:355:54] wire _portsEOI_filtered_0_valid_T_4 = 1'h1; // @[Xbar.scala:355:54] wire [2:0] in_0_b_bits_opcode = 3'h0; // @[Xbar.scala:159:18] wire [2:0] in_0_c_bits_opcode = 3'h0; // @[Xbar.scala:159:18] wire [2:0] in_0_c_bits_param = 3'h0; // @[Xbar.scala:159:18] wire [2:0] in_0_e_bits_sink = 3'h0; // @[Xbar.scala:159:18] wire [2:0] in_2_b_bits_opcode = 3'h0; // @[Xbar.scala:159:18] wire [2:0] in_2_c_bits_opcode = 3'h0; // @[Xbar.scala:159:18] wire [2:0] in_2_c_bits_param = 3'h0; // @[Xbar.scala:159:18] wire [2:0] in_2_e_bits_sink = 3'h0; // @[Xbar.scala:159:18] wire [2:0] _requestEIO_uncommonBits_T = 3'h0; // @[Parameters.scala:52:29] wire [2:0] requestEIO_uncommonBits = 3'h0; // @[Parameters.scala:52:56] wire [2:0] _requestEIO_uncommonBits_T_2 = 3'h0; // @[Parameters.scala:52:29] wire [2:0] requestEIO_uncommonBits_2 = 3'h0; // @[Parameters.scala:52:56] wire [2:0] portsCOI_filtered_0_bits_opcode = 3'h0; // @[Xbar.scala:352:24] wire [2:0] portsCOI_filtered_0_bits_param = 3'h0; // @[Xbar.scala:352:24] wire [2:0] portsCOI_filtered_2_0_bits_opcode = 3'h0; // @[Xbar.scala:352:24] wire [2:0] portsCOI_filtered_2_0_bits_param = 3'h0; // @[Xbar.scala:352:24] wire [2:0] portsEOI_filtered_0_bits_sink = 3'h0; // @[Xbar.scala:352:24] wire [2:0] portsEOI_filtered_2_0_bits_sink = 3'h0; // @[Xbar.scala:352:24] wire [63:0] in_0_b_bits_data = 64'h0; // @[Xbar.scala:159:18] wire [63:0] in_0_c_bits_data = 64'h0; // @[Xbar.scala:159:18] wire [63:0] in_2_b_bits_data = 64'h0; // @[Xbar.scala:159:18] wire [63:0] in_2_c_bits_data = 64'h0; // @[Xbar.scala:159:18] wire [63:0] portsCOI_filtered_0_bits_data = 64'h0; // @[Xbar.scala:352:24] wire [63:0] portsCOI_filtered_2_0_bits_data = 64'h0; // @[Xbar.scala:352:24] wire [31:0] in_0_b_bits_address = 32'h0; // @[Xbar.scala:159:18] wire [31:0] in_0_c_bits_address = 32'h0; // @[Xbar.scala:159:18] wire [31:0] in_2_b_bits_address = 32'h0; // @[Xbar.scala:159:18] wire [31:0] in_2_c_bits_address = 32'h0; // @[Xbar.scala:159:18] wire [31:0] _requestCIO_T = 32'h0; // @[Parameters.scala:137:31] wire [31:0] _requestCIO_T_10 = 32'h0; // @[Parameters.scala:137:31] wire [31:0] portsCOI_filtered_0_bits_address = 32'h0; // @[Xbar.scala:352:24] wire [31:0] portsCOI_filtered_2_0_bits_address = 32'h0; // @[Xbar.scala:352:24] wire [1:0] in_0_b_bits_param = 2'h0; // @[Xbar.scala:159:18] wire [1:0] in_0_b_bits_source = 2'h0; // @[Xbar.scala:159:18] wire [1:0] in_0_c_bits_source = 2'h0; // @[Xbar.scala:159:18] wire [1:0] in_2_b_bits_param = 2'h0; // @[Xbar.scala:159:18] wire [1:0] in_2_b_bits_source = 2'h0; // @[Xbar.scala:159:18] wire [1:0] in_2_c_bits_source = 2'h0; // @[Xbar.scala:159:18] wire [1:0] portsCOI_filtered_0_bits_source = 2'h0; // @[Xbar.scala:352:24] wire [1:0] portsCOI_filtered_2_0_bits_source = 2'h0; // @[Xbar.scala:352:24] wire [3:0] in_0_b_bits_size = 4'h0; // @[Xbar.scala:159:18] wire [3:0] in_0_c_bits_size = 4'h0; // @[Xbar.scala:159:18] wire [3:0] in_2_b_bits_size = 4'h0; // @[Xbar.scala:159:18] wire [3:0] in_2_c_bits_size = 4'h0; // @[Xbar.scala:159:18] wire [3:0] portsCOI_filtered_0_bits_size = 4'h0; // @[Xbar.scala:352:24] wire [3:0] portsCOI_filtered_2_0_bits_size = 4'h0; // @[Xbar.scala:352:24] wire [8:0] beatsBO_0 = 9'h0; // @[Edges.scala:221:14] wire [8:0] beatsCI_decode = 9'h0; // @[Edges.scala:220:59] wire [8:0] beatsCI_0 = 9'h0; // @[Edges.scala:221:14] wire [8:0] beatsCI_decode_2 = 9'h0; // @[Edges.scala:220:59] wire [8:0] beatsCI_2 = 9'h0; // @[Edges.scala:221:14] wire [11:0] _beatsCI_decode_T_2 = 12'h0; // @[package.scala:243:46] wire [11:0] _beatsCI_decode_T_8 = 12'h0; // @[package.scala:243:46] wire [11:0] _beatsCI_decode_T_1 = 12'hFFF; // @[package.scala:243:76] wire [11:0] _beatsCI_decode_T_7 = 12'hFFF; // @[package.scala:243:76] wire [26:0] _beatsCI_decode_T = 27'hFFF; // @[package.scala:243:71] wire [26:0] _beatsCI_decode_T_6 = 27'hFFF; // @[package.scala:243:71] wire [32:0] _requestAIO_T_2 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] _requestAIO_T_3 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] _requestAIO_T_7 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] _requestAIO_T_8 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] _requestAIO_T_12 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] _requestAIO_T_13 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] _requestCIO_T_1 = 33'h0; // @[Parameters.scala:137:41] wire [32:0] _requestCIO_T_2 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] _requestCIO_T_3 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] _requestCIO_T_7 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] _requestCIO_T_8 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] _requestCIO_T_11 = 33'h0; // @[Parameters.scala:137:41] wire [32:0] _requestCIO_T_12 = 33'h0; // @[Parameters.scala:137:46] wire [32:0] _requestCIO_T_13 = 33'h0; // @[Parameters.scala:137:46] wire [7:0] in_0_b_bits_mask = 8'h0; // @[Xbar.scala:159:18] wire [7:0] in_2_b_bits_mask = 8'h0; // @[Xbar.scala:159:18] wire anonIn_2_a_ready; // @[MixedNode.scala:551:17] wire anonIn_2_a_valid = auto_anon_in_2_a_valid_0; // @[Xbar.scala:74:9] wire [2:0] anonIn_2_a_bits_opcode = auto_anon_in_2_a_bits_opcode_0; // @[Xbar.scala:74:9] wire [2:0] anonIn_2_a_bits_param = auto_anon_in_2_a_bits_param_0; // @[Xbar.scala:74:9] wire [3:0] anonIn_2_a_bits_size = auto_anon_in_2_a_bits_size_0; // @[Xbar.scala:74:9] wire anonIn_2_a_bits_source = auto_anon_in_2_a_bits_source_0; // @[Xbar.scala:74:9] wire [31:0] anonIn_2_a_bits_address = auto_anon_in_2_a_bits_address_0; // @[Xbar.scala:74:9] wire [7:0] anonIn_2_a_bits_mask = auto_anon_in_2_a_bits_mask_0; // @[Xbar.scala:74:9] wire [63:0] anonIn_2_a_bits_data = auto_anon_in_2_a_bits_data_0; // @[Xbar.scala:74:9] wire anonIn_2_a_bits_corrupt = auto_anon_in_2_a_bits_corrupt_0; // @[Xbar.scala:74:9] wire anonIn_2_d_ready = auto_anon_in_2_d_ready_0; // @[Xbar.scala:74:9] wire anonIn_2_d_valid; // @[MixedNode.scala:551:17] wire [2:0] anonIn_2_d_bits_opcode; // @[MixedNode.scala:551:17] wire [1:0] anonIn_2_d_bits_param; // @[MixedNode.scala:551:17] wire [3:0] anonIn_2_d_bits_size; // @[MixedNode.scala:551:17] wire [2:0] anonIn_2_d_bits_sink; // @[MixedNode.scala:551:17] wire anonIn_2_d_bits_denied; // @[MixedNode.scala:551:17] wire [63:0] anonIn_2_d_bits_data; // @[MixedNode.scala:551:17] wire anonIn_2_d_bits_corrupt; // @[MixedNode.scala:551:17] wire anonIn_1_a_ready; // @[MixedNode.scala:551:17] wire anonIn_1_a_valid = auto_anon_in_1_a_valid_0; // @[Xbar.scala:74:9] wire [2:0] anonIn_1_a_bits_opcode = auto_anon_in_1_a_bits_opcode_0; // @[Xbar.scala:74:9] wire [2:0] anonIn_1_a_bits_param = auto_anon_in_1_a_bits_param_0; // @[Xbar.scala:74:9] wire [3:0] anonIn_1_a_bits_size = auto_anon_in_1_a_bits_size_0; // @[Xbar.scala:74:9] wire anonIn_1_a_bits_source = auto_anon_in_1_a_bits_source_0; // @[Xbar.scala:74:9] wire [31:0] anonIn_1_a_bits_address = auto_anon_in_1_a_bits_address_0; // @[Xbar.scala:74:9] wire [7:0] anonIn_1_a_bits_mask = auto_anon_in_1_a_bits_mask_0; // @[Xbar.scala:74:9] wire [63:0] anonIn_1_a_bits_data = auto_anon_in_1_a_bits_data_0; // @[Xbar.scala:74:9] wire anonIn_1_a_bits_corrupt = auto_anon_in_1_a_bits_corrupt_0; // @[Xbar.scala:74:9] wire anonIn_1_b_ready = auto_anon_in_1_b_ready_0; // @[Xbar.scala:74:9] wire anonIn_1_b_valid; // @[MixedNode.scala:551:17] wire [2:0] anonIn_1_b_bits_opcode; // @[MixedNode.scala:551:17] wire [1:0] anonIn_1_b_bits_param; // @[MixedNode.scala:551:17] wire [3:0] anonIn_1_b_bits_size; // @[MixedNode.scala:551:17] wire [31:0] anonIn_1_b_bits_address; // @[MixedNode.scala:551:17] wire [7:0] anonIn_1_b_bits_mask; // @[MixedNode.scala:551:17] wire [63:0] anonIn_1_b_bits_data; // @[MixedNode.scala:551:17] wire anonIn_1_b_bits_corrupt; // @[MixedNode.scala:551:17] wire anonIn_1_c_ready; // @[MixedNode.scala:551:17] wire anonIn_1_c_valid = auto_anon_in_1_c_valid_0; // @[Xbar.scala:74:9] wire [2:0] anonIn_1_c_bits_opcode = auto_anon_in_1_c_bits_opcode_0; // @[Xbar.scala:74:9] wire [2:0] anonIn_1_c_bits_param = auto_anon_in_1_c_bits_param_0; // @[Xbar.scala:74:9] wire [3:0] anonIn_1_c_bits_size = auto_anon_in_1_c_bits_size_0; // @[Xbar.scala:74:9] wire anonIn_1_c_bits_source = auto_anon_in_1_c_bits_source_0; // @[Xbar.scala:74:9] wire [31:0] anonIn_1_c_bits_address = auto_anon_in_1_c_bits_address_0; // @[Xbar.scala:74:9] wire [63:0] anonIn_1_c_bits_data = auto_anon_in_1_c_bits_data_0; // @[Xbar.scala:74:9] wire anonIn_1_c_bits_corrupt = auto_anon_in_1_c_bits_corrupt_0; // @[Xbar.scala:74:9] wire anonIn_1_d_ready = auto_anon_in_1_d_ready_0; // @[Xbar.scala:74:9] wire anonIn_1_d_valid; // @[MixedNode.scala:551:17] wire [2:0] anonIn_1_d_bits_opcode; // @[MixedNode.scala:551:17] wire [1:0] anonIn_1_d_bits_param; // @[MixedNode.scala:551:17] wire [3:0] anonIn_1_d_bits_size; // @[MixedNode.scala:551:17] wire [2:0] anonIn_1_d_bits_sink; // @[MixedNode.scala:551:17] wire anonIn_1_d_bits_denied; // @[MixedNode.scala:551:17] wire [63:0] anonIn_1_d_bits_data; // @[MixedNode.scala:551:17] wire anonIn_1_d_bits_corrupt; // @[MixedNode.scala:551:17] wire anonIn_1_e_ready; // @[MixedNode.scala:551:17] wire anonIn_1_e_valid = auto_anon_in_1_e_valid_0; // @[Xbar.scala:74:9] wire anonIn_a_ready; // @[MixedNode.scala:551:17] wire [2:0] anonIn_1_e_bits_sink = auto_anon_in_1_e_bits_sink_0; // @[Xbar.scala:74:9] wire anonIn_a_valid = auto_anon_in_0_a_valid_0; // @[Xbar.scala:74:9] wire [2:0] anonIn_a_bits_opcode = auto_anon_in_0_a_bits_opcode_0; // @[Xbar.scala:74:9] wire [2:0] anonIn_a_bits_param = auto_anon_in_0_a_bits_param_0; // @[Xbar.scala:74:9] wire [3:0] anonIn_a_bits_size = auto_anon_in_0_a_bits_size_0; // @[Xbar.scala:74:9] wire anonIn_a_bits_source = auto_anon_in_0_a_bits_source_0; // @[Xbar.scala:74:9] wire [31:0] anonIn_a_bits_address = auto_anon_in_0_a_bits_address_0; // @[Xbar.scala:74:9] wire [7:0] anonIn_a_bits_mask = auto_anon_in_0_a_bits_mask_0; // @[Xbar.scala:74:9] wire [63:0] anonIn_a_bits_data = auto_anon_in_0_a_bits_data_0; // @[Xbar.scala:74:9] wire anonIn_a_bits_corrupt = auto_anon_in_0_a_bits_corrupt_0; // @[Xbar.scala:74:9] wire anonIn_d_ready = auto_anon_in_0_d_ready_0; // @[Xbar.scala:74:9] wire anonIn_d_valid; // @[MixedNode.scala:551:17] wire [2:0] anonIn_d_bits_opcode; // @[MixedNode.scala:551:17] wire [1:0] anonIn_d_bits_param; // @[MixedNode.scala:551:17] wire [3:0] anonIn_d_bits_size; // @[MixedNode.scala:551:17] wire [2:0] anonIn_d_bits_sink; // @[MixedNode.scala:551:17] wire anonIn_d_bits_denied; // @[MixedNode.scala:551:17] wire [63:0] anonIn_d_bits_data; // @[MixedNode.scala:551:17] wire anonIn_d_bits_corrupt; // @[MixedNode.scala:551:17] wire anonOut_a_ready = auto_anon_out_a_ready_0; // @[Xbar.scala:74:9] wire anonOut_a_valid; // @[MixedNode.scala:542:17] wire [2:0] anonOut_a_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] anonOut_a_bits_param; // @[MixedNode.scala:542:17] wire [3:0] anonOut_a_bits_size; // @[MixedNode.scala:542:17] wire [1:0] anonOut_a_bits_source; // @[MixedNode.scala:542:17] wire [31:0] anonOut_a_bits_address; // @[MixedNode.scala:542:17] wire [7:0] anonOut_a_bits_mask; // @[MixedNode.scala:542:17] wire [63:0] anonOut_a_bits_data; // @[MixedNode.scala:542:17] wire anonOut_a_bits_corrupt; // @[MixedNode.scala:542:17] wire anonOut_b_ready; // @[MixedNode.scala:542:17] wire anonOut_b_valid = auto_anon_out_b_valid_0; // @[Xbar.scala:74:9] wire [2:0] anonOut_b_bits_opcode = auto_anon_out_b_bits_opcode_0; // @[Xbar.scala:74:9] wire [1:0] anonOut_b_bits_param = auto_anon_out_b_bits_param_0; // @[Xbar.scala:74:9] wire [3:0] anonOut_b_bits_size = auto_anon_out_b_bits_size_0; // @[Xbar.scala:74:9] wire [1:0] anonOut_b_bits_source = auto_anon_out_b_bits_source_0; // @[Xbar.scala:74:9] wire [31:0] anonOut_b_bits_address = auto_anon_out_b_bits_address_0; // @[Xbar.scala:74:9] wire [7:0] anonOut_b_bits_mask = auto_anon_out_b_bits_mask_0; // @[Xbar.scala:74:9] wire [63:0] anonOut_b_bits_data = auto_anon_out_b_bits_data_0; // @[Xbar.scala:74:9] wire anonOut_b_bits_corrupt = auto_anon_out_b_bits_corrupt_0; // @[Xbar.scala:74:9] wire anonOut_c_ready = auto_anon_out_c_ready_0; // @[Xbar.scala:74:9] wire anonOut_c_valid; // @[MixedNode.scala:542:17] wire [2:0] anonOut_c_bits_opcode; // @[MixedNode.scala:542:17] wire [2:0] anonOut_c_bits_param; // @[MixedNode.scala:542:17] wire [3:0] anonOut_c_bits_size; // @[MixedNode.scala:542:17] wire [31:0] anonOut_c_bits_address; // @[MixedNode.scala:542:17] wire [63:0] anonOut_c_bits_data; // @[MixedNode.scala:542:17] wire anonOut_c_bits_corrupt; // @[MixedNode.scala:542:17] wire anonOut_d_ready; // @[MixedNode.scala:542:17] wire anonOut_d_valid = auto_anon_out_d_valid_0; // @[Xbar.scala:74:9] wire [2:0] anonOut_d_bits_opcode = auto_anon_out_d_bits_opcode_0; // @[Xbar.scala:74:9] wire [1:0] anonOut_d_bits_param = auto_anon_out_d_bits_param_0; // @[Xbar.scala:74:9] wire [3:0] anonOut_d_bits_size = auto_anon_out_d_bits_size_0; // @[Xbar.scala:74:9] wire [1:0] anonOut_d_bits_source = auto_anon_out_d_bits_source_0; // @[Xbar.scala:74:9] wire [2:0] anonOut_d_bits_sink = auto_anon_out_d_bits_sink_0; // @[Xbar.scala:74:9] wire anonOut_d_bits_denied = auto_anon_out_d_bits_denied_0; // @[Xbar.scala:74:9] wire [63:0] anonOut_d_bits_data = auto_anon_out_d_bits_data_0; // @[Xbar.scala:74:9] wire anonOut_d_bits_corrupt = auto_anon_out_d_bits_corrupt_0; // @[Xbar.scala:74:9] wire anonOut_e_ready = auto_anon_out_e_ready_0; // @[Xbar.scala:74:9] wire anonOut_e_valid; // @[MixedNode.scala:542:17] wire [2:0] anonOut_e_bits_sink; // @[MixedNode.scala:542:17] wire auto_anon_in_2_a_ready_0; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_2_d_bits_opcode_0; // @[Xbar.scala:74:9] wire [1:0] auto_anon_in_2_d_bits_param_0; // @[Xbar.scala:74:9] wire [3:0] auto_anon_in_2_d_bits_size_0; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_2_d_bits_sink_0; // @[Xbar.scala:74:9] wire auto_anon_in_2_d_bits_denied_0; // @[Xbar.scala:74:9] wire [63:0] auto_anon_in_2_d_bits_data_0; // @[Xbar.scala:74:9] wire auto_anon_in_2_d_bits_corrupt_0; // @[Xbar.scala:74:9] wire auto_anon_in_2_d_valid_0; // @[Xbar.scala:74:9] wire auto_anon_in_1_a_ready_0; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_1_b_bits_opcode_0; // @[Xbar.scala:74:9] wire [1:0] auto_anon_in_1_b_bits_param_0; // @[Xbar.scala:74:9] wire [3:0] auto_anon_in_1_b_bits_size_0; // @[Xbar.scala:74:9] wire [31:0] auto_anon_in_1_b_bits_address_0; // @[Xbar.scala:74:9] wire [7:0] auto_anon_in_1_b_bits_mask_0; // @[Xbar.scala:74:9] wire [63:0] auto_anon_in_1_b_bits_data_0; // @[Xbar.scala:74:9] wire auto_anon_in_1_b_bits_corrupt_0; // @[Xbar.scala:74:9] wire auto_anon_in_1_b_valid_0; // @[Xbar.scala:74:9] wire auto_anon_in_1_c_ready_0; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_1_d_bits_opcode_0; // @[Xbar.scala:74:9] wire [1:0] auto_anon_in_1_d_bits_param_0; // @[Xbar.scala:74:9] wire [3:0] auto_anon_in_1_d_bits_size_0; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_1_d_bits_sink_0; // @[Xbar.scala:74:9] wire auto_anon_in_1_d_bits_denied_0; // @[Xbar.scala:74:9] wire [63:0] auto_anon_in_1_d_bits_data_0; // @[Xbar.scala:74:9] wire auto_anon_in_1_d_bits_corrupt_0; // @[Xbar.scala:74:9] wire auto_anon_in_1_d_valid_0; // @[Xbar.scala:74:9] wire auto_anon_in_1_e_ready_0; // @[Xbar.scala:74:9] wire auto_anon_in_0_a_ready_0; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_0_d_bits_opcode_0; // @[Xbar.scala:74:9] wire [1:0] auto_anon_in_0_d_bits_param_0; // @[Xbar.scala:74:9] wire [3:0] auto_anon_in_0_d_bits_size_0; // @[Xbar.scala:74:9] wire [2:0] auto_anon_in_0_d_bits_sink_0; // @[Xbar.scala:74:9] wire auto_anon_in_0_d_bits_denied_0; // @[Xbar.scala:74:9] wire [63:0] auto_anon_in_0_d_bits_data_0; // @[Xbar.scala:74:9] wire auto_anon_in_0_d_bits_corrupt_0; // @[Xbar.scala:74:9] wire auto_anon_in_0_d_valid_0; // @[Xbar.scala:74:9] wire [2:0] auto_anon_out_a_bits_opcode_0; // @[Xbar.scala:74:9] wire [2:0] auto_anon_out_a_bits_param_0; // @[Xbar.scala:74:9] wire [3:0] auto_anon_out_a_bits_size_0; // @[Xbar.scala:74:9] wire [1:0] auto_anon_out_a_bits_source_0; // @[Xbar.scala:74:9] wire [31:0] auto_anon_out_a_bits_address_0; // @[Xbar.scala:74:9] wire [7:0] auto_anon_out_a_bits_mask_0; // @[Xbar.scala:74:9] wire [63:0] auto_anon_out_a_bits_data_0; // @[Xbar.scala:74:9] wire auto_anon_out_a_bits_corrupt_0; // @[Xbar.scala:74:9] wire auto_anon_out_a_valid_0; // @[Xbar.scala:74:9] wire auto_anon_out_b_ready_0; // @[Xbar.scala:74:9] wire [2:0] auto_anon_out_c_bits_opcode_0; // @[Xbar.scala:74:9] wire [2:0] auto_anon_out_c_bits_param_0; // @[Xbar.scala:74:9] wire [3:0] auto_anon_out_c_bits_size_0; // @[Xbar.scala:74:9] wire [31:0] auto_anon_out_c_bits_address_0; // @[Xbar.scala:74:9] wire [63:0] auto_anon_out_c_bits_data_0; // @[Xbar.scala:74:9] wire auto_anon_out_c_bits_corrupt_0; // @[Xbar.scala:74:9] wire auto_anon_out_c_valid_0; // @[Xbar.scala:74:9] wire auto_anon_out_d_ready_0; // @[Xbar.scala:74:9] wire [2:0] auto_anon_out_e_bits_sink_0; // @[Xbar.scala:74:9] wire auto_anon_out_e_valid_0; // @[Xbar.scala:74:9] wire in_0_a_ready; // @[Xbar.scala:159:18] assign auto_anon_in_0_a_ready_0 = anonIn_a_ready; // @[Xbar.scala:74:9] wire in_0_a_valid = anonIn_a_valid; // @[Xbar.scala:159:18] wire [2:0] in_0_a_bits_opcode = anonIn_a_bits_opcode; // @[Xbar.scala:159:18] wire [2:0] in_0_a_bits_param = anonIn_a_bits_param; // @[Xbar.scala:159:18] wire [3:0] in_0_a_bits_size = anonIn_a_bits_size; // @[Xbar.scala:159:18] wire [31:0] in_0_a_bits_address = anonIn_a_bits_address; // @[Xbar.scala:159:18] wire [7:0] in_0_a_bits_mask = anonIn_a_bits_mask; // @[Xbar.scala:159:18] wire [63:0] in_0_a_bits_data = anonIn_a_bits_data; // @[Xbar.scala:159:18] wire in_0_a_bits_corrupt = anonIn_a_bits_corrupt; // @[Xbar.scala:159:18] wire in_0_d_ready = anonIn_d_ready; // @[Xbar.scala:159:18] wire in_0_d_valid; // @[Xbar.scala:159:18] assign auto_anon_in_0_d_valid_0 = anonIn_d_valid; // @[Xbar.scala:74:9] wire [2:0] in_0_d_bits_opcode; // @[Xbar.scala:159:18] assign auto_anon_in_0_d_bits_opcode_0 = anonIn_d_bits_opcode; // @[Xbar.scala:74:9] wire [1:0] in_0_d_bits_param; // @[Xbar.scala:159:18] assign auto_anon_in_0_d_bits_param_0 = anonIn_d_bits_param; // @[Xbar.scala:74:9] wire [3:0] in_0_d_bits_size; // @[Xbar.scala:159:18] assign auto_anon_in_0_d_bits_size_0 = anonIn_d_bits_size; // @[Xbar.scala:74:9] wire [2:0] in_0_d_bits_sink; // @[Xbar.scala:159:18] assign auto_anon_in_0_d_bits_sink_0 = anonIn_d_bits_sink; // @[Xbar.scala:74:9] wire in_0_d_bits_denied; // @[Xbar.scala:159:18] assign auto_anon_in_0_d_bits_denied_0 = anonIn_d_bits_denied; // @[Xbar.scala:74:9] wire [63:0] in_0_d_bits_data; // @[Xbar.scala:159:18] assign auto_anon_in_0_d_bits_data_0 = anonIn_d_bits_data; // @[Xbar.scala:74:9] wire in_0_d_bits_corrupt; // @[Xbar.scala:159:18] assign auto_anon_in_0_d_bits_corrupt_0 = anonIn_d_bits_corrupt; // @[Xbar.scala:74:9] wire in_1_a_ready; // @[Xbar.scala:159:18] assign auto_anon_in_1_a_ready_0 = anonIn_1_a_ready; // @[Xbar.scala:74:9] wire in_1_a_valid = anonIn_1_a_valid; // @[Xbar.scala:159:18] wire [2:0] in_1_a_bits_opcode = anonIn_1_a_bits_opcode; // @[Xbar.scala:159:18] wire [2:0] in_1_a_bits_param = anonIn_1_a_bits_param; // @[Xbar.scala:159:18] wire [3:0] in_1_a_bits_size = anonIn_1_a_bits_size; // @[Xbar.scala:159:18] wire [31:0] in_1_a_bits_address = anonIn_1_a_bits_address; // @[Xbar.scala:159:18] wire [7:0] in_1_a_bits_mask = anonIn_1_a_bits_mask; // @[Xbar.scala:159:18] wire [63:0] in_1_a_bits_data = anonIn_1_a_bits_data; // @[Xbar.scala:159:18] wire in_1_a_bits_corrupt = anonIn_1_a_bits_corrupt; // @[Xbar.scala:159:18] wire in_1_b_ready = anonIn_1_b_ready; // @[Xbar.scala:159:18] wire in_1_b_valid; // @[Xbar.scala:159:18] assign auto_anon_in_1_b_valid_0 = anonIn_1_b_valid; // @[Xbar.scala:74:9] wire [2:0] in_1_b_bits_opcode; // @[Xbar.scala:159:18] assign auto_anon_in_1_b_bits_opcode_0 = anonIn_1_b_bits_opcode; // @[Xbar.scala:74:9] wire [1:0] in_1_b_bits_param; // @[Xbar.scala:159:18] assign auto_anon_in_1_b_bits_param_0 = anonIn_1_b_bits_param; // @[Xbar.scala:74:9] wire [3:0] in_1_b_bits_size; // @[Xbar.scala:159:18] assign auto_anon_in_1_b_bits_size_0 = anonIn_1_b_bits_size; // @[Xbar.scala:74:9] wire [31:0] in_1_b_bits_address; // @[Xbar.scala:159:18] assign auto_anon_in_1_b_bits_address_0 = anonIn_1_b_bits_address; // @[Xbar.scala:74:9] wire [7:0] in_1_b_bits_mask; // @[Xbar.scala:159:18] assign auto_anon_in_1_b_bits_mask_0 = anonIn_1_b_bits_mask; // @[Xbar.scala:74:9] wire [63:0] in_1_b_bits_data; // @[Xbar.scala:159:18] assign auto_anon_in_1_b_bits_data_0 = anonIn_1_b_bits_data; // @[Xbar.scala:74:9] wire in_1_b_bits_corrupt; // @[Xbar.scala:159:18] assign auto_anon_in_1_b_bits_corrupt_0 = anonIn_1_b_bits_corrupt; // @[Xbar.scala:74:9] wire in_1_c_ready; // @[Xbar.scala:159:18] assign auto_anon_in_1_c_ready_0 = anonIn_1_c_ready; // @[Xbar.scala:74:9] wire in_1_c_valid = anonIn_1_c_valid; // @[Xbar.scala:159:18] wire [2:0] in_1_c_bits_opcode = anonIn_1_c_bits_opcode; // @[Xbar.scala:159:18] wire [2:0] in_1_c_bits_param = anonIn_1_c_bits_param; // @[Xbar.scala:159:18] wire [3:0] in_1_c_bits_size = anonIn_1_c_bits_size; // @[Xbar.scala:159:18] wire [31:0] in_1_c_bits_address = anonIn_1_c_bits_address; // @[Xbar.scala:159:18] wire [63:0] in_1_c_bits_data = anonIn_1_c_bits_data; // @[Xbar.scala:159:18] wire in_1_c_bits_corrupt = anonIn_1_c_bits_corrupt; // @[Xbar.scala:159:18] wire in_1_d_ready = anonIn_1_d_ready; // @[Xbar.scala:159:18] wire in_1_d_valid; // @[Xbar.scala:159:18] assign auto_anon_in_1_d_valid_0 = anonIn_1_d_valid; // @[Xbar.scala:74:9] wire [2:0] in_1_d_bits_opcode; // @[Xbar.scala:159:18] assign auto_anon_in_1_d_bits_opcode_0 = anonIn_1_d_bits_opcode; // @[Xbar.scala:74:9] wire [1:0] in_1_d_bits_param; // @[Xbar.scala:159:18] assign auto_anon_in_1_d_bits_param_0 = anonIn_1_d_bits_param; // @[Xbar.scala:74:9] wire [3:0] in_1_d_bits_size; // @[Xbar.scala:159:18] assign auto_anon_in_1_d_bits_size_0 = anonIn_1_d_bits_size; // @[Xbar.scala:74:9] wire [2:0] in_1_d_bits_sink; // @[Xbar.scala:159:18] assign auto_anon_in_1_d_bits_sink_0 = anonIn_1_d_bits_sink; // @[Xbar.scala:74:9] wire in_1_d_bits_denied; // @[Xbar.scala:159:18] assign auto_anon_in_1_d_bits_denied_0 = anonIn_1_d_bits_denied; // @[Xbar.scala:74:9] wire [63:0] in_1_d_bits_data; // @[Xbar.scala:159:18] assign auto_anon_in_1_d_bits_data_0 = anonIn_1_d_bits_data; // @[Xbar.scala:74:9] wire in_1_d_bits_corrupt; // @[Xbar.scala:159:18] assign auto_anon_in_1_d_bits_corrupt_0 = anonIn_1_d_bits_corrupt; // @[Xbar.scala:74:9] wire in_1_e_ready; // @[Xbar.scala:159:18] assign auto_anon_in_1_e_ready_0 = anonIn_1_e_ready; // @[Xbar.scala:74:9] wire in_1_e_valid = anonIn_1_e_valid; // @[Xbar.scala:159:18] wire [2:0] in_1_e_bits_sink = anonIn_1_e_bits_sink; // @[Xbar.scala:159:18] wire in_2_a_ready; // @[Xbar.scala:159:18] assign auto_anon_in_2_a_ready_0 = anonIn_2_a_ready; // @[Xbar.scala:74:9] wire in_2_a_valid = anonIn_2_a_valid; // @[Xbar.scala:159:18] wire [2:0] in_2_a_bits_opcode = anonIn_2_a_bits_opcode; // @[Xbar.scala:159:18] wire [2:0] in_2_a_bits_param = anonIn_2_a_bits_param; // @[Xbar.scala:159:18] wire [3:0] in_2_a_bits_size = anonIn_2_a_bits_size; // @[Xbar.scala:159:18] wire _in_2_a_bits_source_T = anonIn_2_a_bits_source; // @[Xbar.scala:166:55] wire [31:0] in_2_a_bits_address = anonIn_2_a_bits_address; // @[Xbar.scala:159:18] wire [7:0] in_2_a_bits_mask = anonIn_2_a_bits_mask; // @[Xbar.scala:159:18] wire [63:0] in_2_a_bits_data = anonIn_2_a_bits_data; // @[Xbar.scala:159:18] wire in_2_a_bits_corrupt = anonIn_2_a_bits_corrupt; // @[Xbar.scala:159:18] wire in_2_d_ready = anonIn_2_d_ready; // @[Xbar.scala:159:18] wire in_2_d_valid; // @[Xbar.scala:159:18] assign auto_anon_in_2_d_valid_0 = anonIn_2_d_valid; // @[Xbar.scala:74:9] wire [2:0] in_2_d_bits_opcode; // @[Xbar.scala:159:18] assign auto_anon_in_2_d_bits_opcode_0 = anonIn_2_d_bits_opcode; // @[Xbar.scala:74:9] wire [1:0] in_2_d_bits_param; // @[Xbar.scala:159:18] assign auto_anon_in_2_d_bits_param_0 = anonIn_2_d_bits_param; // @[Xbar.scala:74:9] wire [3:0] in_2_d_bits_size; // @[Xbar.scala:159:18] assign auto_anon_in_2_d_bits_size_0 = anonIn_2_d_bits_size; // @[Xbar.scala:74:9] wire [2:0] in_2_d_bits_sink; // @[Xbar.scala:159:18] assign auto_anon_in_2_d_bits_sink_0 = anonIn_2_d_bits_sink; // @[Xbar.scala:74:9] wire in_2_d_bits_denied; // @[Xbar.scala:159:18] assign auto_anon_in_2_d_bits_denied_0 = anonIn_2_d_bits_denied; // @[Xbar.scala:74:9] wire [63:0] in_2_d_bits_data; // @[Xbar.scala:159:18] assign auto_anon_in_2_d_bits_data_0 = anonIn_2_d_bits_data; // @[Xbar.scala:74:9] wire in_2_d_bits_corrupt; // @[Xbar.scala:159:18] assign auto_anon_in_2_d_bits_corrupt_0 = anonIn_2_d_bits_corrupt; // @[Xbar.scala:74:9] wire out_0_a_ready = anonOut_a_ready; // @[Xbar.scala:216:19] wire out_0_a_valid; // @[Xbar.scala:216:19] assign auto_anon_out_a_valid_0 = anonOut_a_valid; // @[Xbar.scala:74:9] wire [2:0] out_0_a_bits_opcode; // @[Xbar.scala:216:19] assign auto_anon_out_a_bits_opcode_0 = anonOut_a_bits_opcode; // @[Xbar.scala:74:9] wire [2:0] out_0_a_bits_param; // @[Xbar.scala:216:19] assign auto_anon_out_a_bits_param_0 = anonOut_a_bits_param; // @[Xbar.scala:74:9] wire [3:0] out_0_a_bits_size; // @[Xbar.scala:216:19] assign auto_anon_out_a_bits_size_0 = anonOut_a_bits_size; // @[Xbar.scala:74:9] wire [1:0] out_0_a_bits_source; // @[Xbar.scala:216:19] assign auto_anon_out_a_bits_source_0 = anonOut_a_bits_source; // @[Xbar.scala:74:9] wire [31:0] out_0_a_bits_address; // @[Xbar.scala:216:19] assign auto_anon_out_a_bits_address_0 = anonOut_a_bits_address; // @[Xbar.scala:74:9] wire [7:0] out_0_a_bits_mask; // @[Xbar.scala:216:19] assign auto_anon_out_a_bits_mask_0 = anonOut_a_bits_mask; // @[Xbar.scala:74:9] wire [63:0] out_0_a_bits_data; // @[Xbar.scala:216:19] assign auto_anon_out_a_bits_data_0 = anonOut_a_bits_data; // @[Xbar.scala:74:9] wire out_0_a_bits_corrupt; // @[Xbar.scala:216:19] assign auto_anon_out_a_bits_corrupt_0 = anonOut_a_bits_corrupt; // @[Xbar.scala:74:9] wire out_0_b_ready; // @[Xbar.scala:216:19] assign auto_anon_out_b_ready_0 = anonOut_b_ready; // @[Xbar.scala:74:9] wire out_0_b_valid = anonOut_b_valid; // @[Xbar.scala:216:19] wire [2:0] out_0_b_bits_opcode = anonOut_b_bits_opcode; // @[Xbar.scala:216:19] wire [1:0] out_0_b_bits_param = anonOut_b_bits_param; // @[Xbar.scala:216:19] wire [3:0] out_0_b_bits_size = anonOut_b_bits_size; // @[Xbar.scala:216:19] wire [1:0] out_0_b_bits_source = anonOut_b_bits_source; // @[Xbar.scala:216:19] wire [31:0] out_0_b_bits_address = anonOut_b_bits_address; // @[Xbar.scala:216:19] wire [7:0] out_0_b_bits_mask = anonOut_b_bits_mask; // @[Xbar.scala:216:19] wire [63:0] out_0_b_bits_data = anonOut_b_bits_data; // @[Xbar.scala:216:19] wire out_0_b_bits_corrupt = anonOut_b_bits_corrupt; // @[Xbar.scala:216:19] wire out_0_c_ready = anonOut_c_ready; // @[Xbar.scala:216:19] wire out_0_c_valid; // @[Xbar.scala:216:19] assign auto_anon_out_c_valid_0 = anonOut_c_valid; // @[Xbar.scala:74:9] wire [2:0] out_0_c_bits_opcode; // @[Xbar.scala:216:19] assign auto_anon_out_c_bits_opcode_0 = anonOut_c_bits_opcode; // @[Xbar.scala:74:9] wire [2:0] out_0_c_bits_param; // @[Xbar.scala:216:19] assign auto_anon_out_c_bits_param_0 = anonOut_c_bits_param; // @[Xbar.scala:74:9] wire [3:0] out_0_c_bits_size; // @[Xbar.scala:216:19] assign auto_anon_out_c_bits_size_0 = anonOut_c_bits_size; // @[Xbar.scala:74:9] wire [31:0] out_0_c_bits_address; // @[Xbar.scala:216:19] assign auto_anon_out_c_bits_address_0 = anonOut_c_bits_address; // @[Xbar.scala:74:9] wire [63:0] out_0_c_bits_data; // @[Xbar.scala:216:19] assign auto_anon_out_c_bits_data_0 = anonOut_c_bits_data; // @[Xbar.scala:74:9] wire out_0_c_bits_corrupt; // @[Xbar.scala:216:19] assign auto_anon_out_c_bits_corrupt_0 = anonOut_c_bits_corrupt; // @[Xbar.scala:74:9] wire out_0_d_ready; // @[Xbar.scala:216:19] assign auto_anon_out_d_ready_0 = anonOut_d_ready; // @[Xbar.scala:74:9] wire out_0_d_valid = anonOut_d_valid; // @[Xbar.scala:216:19] wire [2:0] out_0_d_bits_opcode = anonOut_d_bits_opcode; // @[Xbar.scala:216:19] wire [1:0] out_0_d_bits_param = anonOut_d_bits_param; // @[Xbar.scala:216:19] wire [3:0] out_0_d_bits_size = anonOut_d_bits_size; // @[Xbar.scala:216:19] wire [1:0] out_0_d_bits_source = anonOut_d_bits_source; // @[Xbar.scala:216:19] wire [2:0] _out_0_d_bits_sink_T = anonOut_d_bits_sink; // @[Xbar.scala:251:53] wire out_0_d_bits_denied = anonOut_d_bits_denied; // @[Xbar.scala:216:19] wire [63:0] out_0_d_bits_data = anonOut_d_bits_data; // @[Xbar.scala:216:19] wire out_0_d_bits_corrupt = anonOut_d_bits_corrupt; // @[Xbar.scala:216:19] wire out_0_e_ready = anonOut_e_ready; // @[Xbar.scala:216:19] wire out_0_e_valid; // @[Xbar.scala:216:19] assign auto_anon_out_e_valid_0 = anonOut_e_valid; // @[Xbar.scala:74:9] wire [2:0] _anonOut_e_bits_sink_T; // @[Xbar.scala:156:69] assign auto_anon_out_e_bits_sink_0 = anonOut_e_bits_sink; // @[Xbar.scala:74:9] wire portsAOI_filtered_0_ready; // @[Xbar.scala:352:24] assign anonIn_a_ready = in_0_a_ready; // @[Xbar.scala:159:18] wire _portsAOI_filtered_0_valid_T_1 = in_0_a_valid; // @[Xbar.scala:159:18, :355:40] wire [2:0] portsAOI_filtered_0_bits_opcode = in_0_a_bits_opcode; // @[Xbar.scala:159:18, :352:24] wire [2:0] portsAOI_filtered_0_bits_param = in_0_a_bits_param; // @[Xbar.scala:159:18, :352:24] wire [1:0] _in_0_a_bits_source_T; // @[Xbar.scala:166:55] wire [3:0] portsAOI_filtered_0_bits_size = in_0_a_bits_size; // @[Xbar.scala:159:18, :352:24] wire [1:0] portsAOI_filtered_0_bits_source = in_0_a_bits_source; // @[Xbar.scala:159:18, :352:24] wire [31:0] _requestAIO_T = in_0_a_bits_address; // @[Xbar.scala:159:18] wire [31:0] portsAOI_filtered_0_bits_address = in_0_a_bits_address; // @[Xbar.scala:159:18, :352:24] wire [7:0] portsAOI_filtered_0_bits_mask = in_0_a_bits_mask; // @[Xbar.scala:159:18, :352:24] wire [63:0] portsAOI_filtered_0_bits_data = in_0_a_bits_data; // @[Xbar.scala:159:18, :352:24] wire portsAOI_filtered_0_bits_corrupt = in_0_a_bits_corrupt; // @[Xbar.scala:159:18, :352:24] wire portsDIO_filtered_0_ready = in_0_d_ready; // @[Xbar.scala:159:18, :352:24] wire portsDIO_filtered_0_valid; // @[Xbar.scala:352:24] assign anonIn_d_valid = in_0_d_valid; // @[Xbar.scala:159:18] wire [2:0] portsDIO_filtered_0_bits_opcode; // @[Xbar.scala:352:24] assign anonIn_d_bits_opcode = in_0_d_bits_opcode; // @[Xbar.scala:159:18] wire [1:0] portsDIO_filtered_0_bits_param; // @[Xbar.scala:352:24] assign anonIn_d_bits_param = in_0_d_bits_param; // @[Xbar.scala:159:18] wire [3:0] portsDIO_filtered_0_bits_size; // @[Xbar.scala:352:24] assign anonIn_d_bits_size = in_0_d_bits_size; // @[Xbar.scala:159:18] wire [1:0] portsDIO_filtered_0_bits_source; // @[Xbar.scala:352:24] wire [2:0] portsDIO_filtered_0_bits_sink; // @[Xbar.scala:352:24] assign anonIn_d_bits_sink = in_0_d_bits_sink; // @[Xbar.scala:159:18] wire portsDIO_filtered_0_bits_denied; // @[Xbar.scala:352:24] assign anonIn_d_bits_denied = in_0_d_bits_denied; // @[Xbar.scala:159:18] wire [63:0] portsDIO_filtered_0_bits_data; // @[Xbar.scala:352:24] assign anonIn_d_bits_data = in_0_d_bits_data; // @[Xbar.scala:159:18] wire portsDIO_filtered_0_bits_corrupt; // @[Xbar.scala:352:24] assign anonIn_d_bits_corrupt = in_0_d_bits_corrupt; // @[Xbar.scala:159:18] wire portsAOI_filtered_1_0_ready; // @[Xbar.scala:352:24] assign anonIn_1_a_ready = in_1_a_ready; // @[Xbar.scala:159:18] wire _portsAOI_filtered_0_valid_T_3 = in_1_a_valid; // @[Xbar.scala:159:18, :355:40] wire [2:0] portsAOI_filtered_1_0_bits_opcode = in_1_a_bits_opcode; // @[Xbar.scala:159:18, :352:24] wire [2:0] portsAOI_filtered_1_0_bits_param = in_1_a_bits_param; // @[Xbar.scala:159:18, :352:24] wire [3:0] portsAOI_filtered_1_0_bits_size = in_1_a_bits_size; // @[Xbar.scala:159:18, :352:24] wire [31:0] _requestAIO_T_5 = in_1_a_bits_address; // @[Xbar.scala:159:18] wire [31:0] portsAOI_filtered_1_0_bits_address = in_1_a_bits_address; // @[Xbar.scala:159:18, :352:24] wire [7:0] portsAOI_filtered_1_0_bits_mask = in_1_a_bits_mask; // @[Xbar.scala:159:18, :352:24] wire [63:0] portsAOI_filtered_1_0_bits_data = in_1_a_bits_data; // @[Xbar.scala:159:18, :352:24] wire portsAOI_filtered_1_0_bits_corrupt = in_1_a_bits_corrupt; // @[Xbar.scala:159:18, :352:24] wire portsBIO_filtered_1_ready = in_1_b_ready; // @[Xbar.scala:159:18, :352:24] wire portsBIO_filtered_1_valid; // @[Xbar.scala:352:24] assign anonIn_1_b_valid = in_1_b_valid; // @[Xbar.scala:159:18] wire [2:0] portsBIO_filtered_1_bits_opcode; // @[Xbar.scala:352:24] assign anonIn_1_b_bits_opcode = in_1_b_bits_opcode; // @[Xbar.scala:159:18] wire [1:0] portsBIO_filtered_1_bits_param; // @[Xbar.scala:352:24] assign anonIn_1_b_bits_param = in_1_b_bits_param; // @[Xbar.scala:159:18] wire [3:0] portsBIO_filtered_1_bits_size; // @[Xbar.scala:352:24] assign anonIn_1_b_bits_size = in_1_b_bits_size; // @[Xbar.scala:159:18] wire [1:0] portsBIO_filtered_1_bits_source; // @[Xbar.scala:352:24] wire [31:0] portsBIO_filtered_1_bits_address; // @[Xbar.scala:352:24] assign anonIn_1_b_bits_address = in_1_b_bits_address; // @[Xbar.scala:159:18] wire [7:0] portsBIO_filtered_1_bits_mask; // @[Xbar.scala:352:24] assign anonIn_1_b_bits_mask = in_1_b_bits_mask; // @[Xbar.scala:159:18] wire [63:0] portsBIO_filtered_1_bits_data; // @[Xbar.scala:352:24] assign anonIn_1_b_bits_data = in_1_b_bits_data; // @[Xbar.scala:159:18] wire portsBIO_filtered_1_bits_corrupt; // @[Xbar.scala:352:24] assign anonIn_1_b_bits_corrupt = in_1_b_bits_corrupt; // @[Xbar.scala:159:18] wire portsCOI_filtered_1_0_ready; // @[Xbar.scala:352:24] assign anonIn_1_c_ready = in_1_c_ready; // @[Xbar.scala:159:18] wire _portsCOI_filtered_0_valid_T_3 = in_1_c_valid; // @[Xbar.scala:159:18, :355:40] wire [2:0] portsCOI_filtered_1_0_bits_opcode = in_1_c_bits_opcode; // @[Xbar.scala:159:18, :352:24] wire [2:0] portsCOI_filtered_1_0_bits_param = in_1_c_bits_param; // @[Xbar.scala:159:18, :352:24] wire [3:0] portsCOI_filtered_1_0_bits_size = in_1_c_bits_size; // @[Xbar.scala:159:18, :352:24] wire [31:0] _requestCIO_T_5 = in_1_c_bits_address; // @[Xbar.scala:159:18] wire [31:0] portsCOI_filtered_1_0_bits_address = in_1_c_bits_address; // @[Xbar.scala:159:18, :352:24] wire [63:0] portsCOI_filtered_1_0_bits_data = in_1_c_bits_data; // @[Xbar.scala:159:18, :352:24] wire portsCOI_filtered_1_0_bits_corrupt = in_1_c_bits_corrupt; // @[Xbar.scala:159:18, :352:24] wire portsDIO_filtered_1_ready = in_1_d_ready; // @[Xbar.scala:159:18, :352:24] wire portsDIO_filtered_1_valid; // @[Xbar.scala:352:24] assign anonIn_1_d_valid = in_1_d_valid; // @[Xbar.scala:159:18] wire [2:0] portsDIO_filtered_1_bits_opcode; // @[Xbar.scala:352:24] assign anonIn_1_d_bits_opcode = in_1_d_bits_opcode; // @[Xbar.scala:159:18] wire [1:0] portsDIO_filtered_1_bits_param; // @[Xbar.scala:352:24] assign anonIn_1_d_bits_param = in_1_d_bits_param; // @[Xbar.scala:159:18] wire [3:0] portsDIO_filtered_1_bits_size; // @[Xbar.scala:352:24] assign anonIn_1_d_bits_size = in_1_d_bits_size; // @[Xbar.scala:159:18] wire [1:0] portsDIO_filtered_1_bits_source; // @[Xbar.scala:352:24] wire [2:0] portsDIO_filtered_1_bits_sink; // @[Xbar.scala:352:24] assign anonIn_1_d_bits_sink = in_1_d_bits_sink; // @[Xbar.scala:159:18] wire portsDIO_filtered_1_bits_denied; // @[Xbar.scala:352:24] assign anonIn_1_d_bits_denied = in_1_d_bits_denied; // @[Xbar.scala:159:18] wire [63:0] portsDIO_filtered_1_bits_data; // @[Xbar.scala:352:24] assign anonIn_1_d_bits_data = in_1_d_bits_data; // @[Xbar.scala:159:18] wire portsDIO_filtered_1_bits_corrupt; // @[Xbar.scala:352:24] assign anonIn_1_d_bits_corrupt = in_1_d_bits_corrupt; // @[Xbar.scala:159:18] wire portsEOI_filtered_1_0_ready; // @[Xbar.scala:352:24] assign anonIn_1_e_ready = in_1_e_ready; // @[Xbar.scala:159:18] wire _portsEOI_filtered_0_valid_T_3 = in_1_e_valid; // @[Xbar.scala:159:18, :355:40] wire [2:0] _requestEIO_uncommonBits_T_1 = in_1_e_bits_sink; // @[Xbar.scala:159:18] wire portsAOI_filtered_2_0_ready; // @[Xbar.scala:352:24] wire [2:0] portsEOI_filtered_1_0_bits_sink = in_1_e_bits_sink; // @[Xbar.scala:159:18, :352:24] assign anonIn_2_a_ready = in_2_a_ready; // @[Xbar.scala:159:18] wire _portsAOI_filtered_0_valid_T_5 = in_2_a_valid; // @[Xbar.scala:159:18, :355:40] wire [2:0] portsAOI_filtered_2_0_bits_opcode = in_2_a_bits_opcode; // @[Xbar.scala:159:18, :352:24] wire [2:0] portsAOI_filtered_2_0_bits_param = in_2_a_bits_param; // @[Xbar.scala:159:18, :352:24] wire [3:0] portsAOI_filtered_2_0_bits_size = in_2_a_bits_size; // @[Xbar.scala:159:18, :352:24] wire [1:0] portsAOI_filtered_2_0_bits_source = in_2_a_bits_source; // @[Xbar.scala:159:18, :352:24] wire [31:0] _requestAIO_T_10 = in_2_a_bits_address; // @[Xbar.scala:159:18] wire [31:0] portsAOI_filtered_2_0_bits_address = in_2_a_bits_address; // @[Xbar.scala:159:18, :352:24] wire [7:0] portsAOI_filtered_2_0_bits_mask = in_2_a_bits_mask; // @[Xbar.scala:159:18, :352:24] wire [63:0] portsAOI_filtered_2_0_bits_data = in_2_a_bits_data; // @[Xbar.scala:159:18, :352:24] wire portsAOI_filtered_2_0_bits_corrupt = in_2_a_bits_corrupt; // @[Xbar.scala:159:18, :352:24] wire portsDIO_filtered_2_ready = in_2_d_ready; // @[Xbar.scala:159:18, :352:24] wire portsDIO_filtered_2_valid; // @[Xbar.scala:352:24] assign anonIn_2_d_valid = in_2_d_valid; // @[Xbar.scala:159:18] wire [2:0] portsDIO_filtered_2_bits_opcode; // @[Xbar.scala:352:24] assign anonIn_2_d_bits_opcode = in_2_d_bits_opcode; // @[Xbar.scala:159:18] wire [1:0] portsDIO_filtered_2_bits_param; // @[Xbar.scala:352:24] assign anonIn_2_d_bits_param = in_2_d_bits_param; // @[Xbar.scala:159:18] wire [3:0] portsDIO_filtered_2_bits_size; // @[Xbar.scala:352:24] assign anonIn_2_d_bits_size = in_2_d_bits_size; // @[Xbar.scala:159:18] wire [1:0] portsDIO_filtered_2_bits_source; // @[Xbar.scala:352:24] wire [2:0] portsDIO_filtered_2_bits_sink; // @[Xbar.scala:352:24] assign anonIn_2_d_bits_sink = in_2_d_bits_sink; // @[Xbar.scala:159:18] wire portsDIO_filtered_2_bits_denied; // @[Xbar.scala:352:24] assign anonIn_2_d_bits_denied = in_2_d_bits_denied; // @[Xbar.scala:159:18] wire [63:0] portsDIO_filtered_2_bits_data; // @[Xbar.scala:352:24] assign anonIn_2_d_bits_data = in_2_d_bits_data; // @[Xbar.scala:159:18] wire portsDIO_filtered_2_bits_corrupt; // @[Xbar.scala:352:24] assign anonIn_2_d_bits_corrupt = in_2_d_bits_corrupt; // @[Xbar.scala:159:18] wire [1:0] in_0_d_bits_source; // @[Xbar.scala:159:18] wire [1:0] in_1_b_bits_source; // @[Xbar.scala:159:18] wire [1:0] in_1_d_bits_source; // @[Xbar.scala:159:18] wire [1:0] in_2_d_bits_source; // @[Xbar.scala:159:18] assign _in_0_a_bits_source_T = {1'h1, anonIn_a_bits_source}; // @[Xbar.scala:166:55] assign in_0_a_bits_source = _in_0_a_bits_source_T; // @[Xbar.scala:159:18, :166:55] assign in_2_a_bits_source = {1'h0, _in_2_a_bits_source_T}; // @[Xbar.scala:159:18, :166:{29,55}] wire _out_0_a_valid_T_7; // @[Arbiter.scala:96:24] assign anonOut_a_valid = out_0_a_valid; // @[Xbar.scala:216:19] wire [2:0] _out_0_a_bits_WIRE_opcode; // @[Mux.scala:30:73] assign anonOut_a_bits_opcode = out_0_a_bits_opcode; // @[Xbar.scala:216:19] wire [2:0] _out_0_a_bits_WIRE_param; // @[Mux.scala:30:73] assign anonOut_a_bits_param = out_0_a_bits_param; // @[Xbar.scala:216:19] wire [3:0] _out_0_a_bits_WIRE_size; // @[Mux.scala:30:73] assign anonOut_a_bits_size = out_0_a_bits_size; // @[Xbar.scala:216:19] wire [1:0] _out_0_a_bits_WIRE_source; // @[Mux.scala:30:73] assign anonOut_a_bits_source = out_0_a_bits_source; // @[Xbar.scala:216:19] wire [31:0] _out_0_a_bits_WIRE_address; // @[Mux.scala:30:73] assign anonOut_a_bits_address = out_0_a_bits_address; // @[Xbar.scala:216:19] wire [7:0] _out_0_a_bits_WIRE_mask; // @[Mux.scala:30:73] assign anonOut_a_bits_mask = out_0_a_bits_mask; // @[Xbar.scala:216:19] wire [63:0] _out_0_a_bits_WIRE_data; // @[Mux.scala:30:73] assign anonOut_a_bits_data = out_0_a_bits_data; // @[Xbar.scala:216:19] wire _out_0_a_bits_WIRE_corrupt; // @[Mux.scala:30:73] assign anonOut_a_bits_corrupt = out_0_a_bits_corrupt; // @[Xbar.scala:216:19] wire _portsBIO_out_0_b_ready_WIRE; // @[Mux.scala:30:73] assign anonOut_b_ready = out_0_b_ready; // @[Xbar.scala:216:19] wire [2:0] portsBIO_filtered_0_bits_opcode = out_0_b_bits_opcode; // @[Xbar.scala:216:19, :352:24] assign portsBIO_filtered_1_bits_opcode = out_0_b_bits_opcode; // @[Xbar.scala:216:19, :352:24] wire [2:0] portsBIO_filtered_2_bits_opcode = out_0_b_bits_opcode; // @[Xbar.scala:216:19, :352:24] wire [1:0] portsBIO_filtered_0_bits_param = out_0_b_bits_param; // @[Xbar.scala:216:19, :352:24] assign portsBIO_filtered_1_bits_param = out_0_b_bits_param; // @[Xbar.scala:216:19, :352:24] wire [1:0] portsBIO_filtered_2_bits_param = out_0_b_bits_param; // @[Xbar.scala:216:19, :352:24] wire [3:0] portsBIO_filtered_0_bits_size = out_0_b_bits_size; // @[Xbar.scala:216:19, :352:24] assign portsBIO_filtered_1_bits_size = out_0_b_bits_size; // @[Xbar.scala:216:19, :352:24] wire [3:0] portsBIO_filtered_2_bits_size = out_0_b_bits_size; // @[Xbar.scala:216:19, :352:24] wire [1:0] portsBIO_filtered_0_bits_source = out_0_b_bits_source; // @[Xbar.scala:216:19, :352:24] assign portsBIO_filtered_1_bits_source = out_0_b_bits_source; // @[Xbar.scala:216:19, :352:24] wire [1:0] portsBIO_filtered_2_bits_source = out_0_b_bits_source; // @[Xbar.scala:216:19, :352:24] wire [31:0] portsBIO_filtered_0_bits_address = out_0_b_bits_address; // @[Xbar.scala:216:19, :352:24] assign portsBIO_filtered_1_bits_address = out_0_b_bits_address; // @[Xbar.scala:216:19, :352:24] wire [31:0] portsBIO_filtered_2_bits_address = out_0_b_bits_address; // @[Xbar.scala:216:19, :352:24] wire [7:0] portsBIO_filtered_0_bits_mask = out_0_b_bits_mask; // @[Xbar.scala:216:19, :352:24] assign portsBIO_filtered_1_bits_mask = out_0_b_bits_mask; // @[Xbar.scala:216:19, :352:24] wire [7:0] portsBIO_filtered_2_bits_mask = out_0_b_bits_mask; // @[Xbar.scala:216:19, :352:24] wire [63:0] portsBIO_filtered_0_bits_data = out_0_b_bits_data; // @[Xbar.scala:216:19, :352:24] assign portsBIO_filtered_1_bits_data = out_0_b_bits_data; // @[Xbar.scala:216:19, :352:24] wire [63:0] portsBIO_filtered_2_bits_data = out_0_b_bits_data; // @[Xbar.scala:216:19, :352:24] wire portsBIO_filtered_0_bits_corrupt = out_0_b_bits_corrupt; // @[Xbar.scala:216:19, :352:24] assign portsBIO_filtered_1_bits_corrupt = out_0_b_bits_corrupt; // @[Xbar.scala:216:19, :352:24] wire portsBIO_filtered_2_bits_corrupt = out_0_b_bits_corrupt; // @[Xbar.scala:216:19, :352:24] assign portsCOI_filtered_1_0_ready = out_0_c_ready; // @[Xbar.scala:216:19, :352:24] wire portsCOI_filtered_1_0_valid; // @[Xbar.scala:352:24] assign anonOut_c_valid = out_0_c_valid; // @[Xbar.scala:216:19] assign anonOut_c_bits_opcode = out_0_c_bits_opcode; // @[Xbar.scala:216:19] assign anonOut_c_bits_param = out_0_c_bits_param; // @[Xbar.scala:216:19] assign anonOut_c_bits_size = out_0_c_bits_size; // @[Xbar.scala:216:19] assign anonOut_c_bits_address = out_0_c_bits_address; // @[Xbar.scala:216:19] assign anonOut_c_bits_data = out_0_c_bits_data; // @[Xbar.scala:216:19] assign anonOut_c_bits_corrupt = out_0_c_bits_corrupt; // @[Xbar.scala:216:19] wire _portsDIO_out_0_d_ready_WIRE; // @[Mux.scala:30:73] assign anonOut_d_ready = out_0_d_ready; // @[Xbar.scala:216:19] assign portsDIO_filtered_0_bits_opcode = out_0_d_bits_opcode; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_1_bits_opcode = out_0_d_bits_opcode; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_2_bits_opcode = out_0_d_bits_opcode; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_0_bits_param = out_0_d_bits_param; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_1_bits_param = out_0_d_bits_param; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_2_bits_param = out_0_d_bits_param; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_0_bits_size = out_0_d_bits_size; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_1_bits_size = out_0_d_bits_size; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_2_bits_size = out_0_d_bits_size; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_0_bits_source = out_0_d_bits_source; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_1_bits_source = out_0_d_bits_source; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_2_bits_source = out_0_d_bits_source; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_0_bits_sink = out_0_d_bits_sink; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_1_bits_sink = out_0_d_bits_sink; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_2_bits_sink = out_0_d_bits_sink; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_0_bits_denied = out_0_d_bits_denied; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_1_bits_denied = out_0_d_bits_denied; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_2_bits_denied = out_0_d_bits_denied; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_0_bits_data = out_0_d_bits_data; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_1_bits_data = out_0_d_bits_data; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_2_bits_data = out_0_d_bits_data; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_0_bits_corrupt = out_0_d_bits_corrupt; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_1_bits_corrupt = out_0_d_bits_corrupt; // @[Xbar.scala:216:19, :352:24] assign portsDIO_filtered_2_bits_corrupt = out_0_d_bits_corrupt; // @[Xbar.scala:216:19, :352:24] assign portsEOI_filtered_1_0_ready = out_0_e_ready; // @[Xbar.scala:216:19, :352:24] wire portsEOI_filtered_1_0_valid; // @[Xbar.scala:352:24] assign anonOut_e_valid = out_0_e_valid; // @[Xbar.scala:216:19] assign _anonOut_e_bits_sink_T = out_0_e_bits_sink; // @[Xbar.scala:156:69, :216:19] assign out_0_d_bits_sink = _out_0_d_bits_sink_T; // @[Xbar.scala:216:19, :251:53] assign anonOut_e_bits_sink = _anonOut_e_bits_sink_T; // @[Xbar.scala:156:69] wire [32:0] _requestAIO_T_1 = {1'h0, _requestAIO_T}; // @[Parameters.scala:137:{31,41}] wire [32:0] _requestAIO_T_6 = {1'h0, _requestAIO_T_5}; // @[Parameters.scala:137:{31,41}] wire [32:0] _requestAIO_T_11 = {1'h0, _requestAIO_T_10}; // @[Parameters.scala:137:{31,41}] wire [32:0] _requestCIO_T_6 = {1'h0, _requestCIO_T_5}; // @[Parameters.scala:137:{31,41}] wire requestBOI_0_0 = out_0_b_bits_source == 2'h2; // @[Xbar.scala:216:19] wire _portsBIO_filtered_0_valid_T = requestBOI_0_0; // @[Xbar.scala:355:54] wire requestBOI_0_1 = out_0_b_bits_source == 2'h1; // @[Xbar.scala:216:19] wire _portsBIO_filtered_1_valid_T = requestBOI_0_1; // @[Xbar.scala:355:54] wire requestBOI_0_2 = out_0_b_bits_source == 2'h0; // @[Xbar.scala:216:19] wire _portsBIO_filtered_2_valid_T = requestBOI_0_2; // @[Xbar.scala:355:54] wire requestDOI_0_0 = out_0_d_bits_source == 2'h2; // @[Xbar.scala:216:19] wire _portsDIO_filtered_0_valid_T = requestDOI_0_0; // @[Xbar.scala:355:54] wire requestDOI_0_1 = out_0_d_bits_source == 2'h1; // @[Xbar.scala:216:19] wire _portsDIO_filtered_1_valid_T = requestDOI_0_1; // @[Xbar.scala:355:54] wire requestDOI_0_2 = out_0_d_bits_source == 2'h0; // @[Xbar.scala:216:19] wire _portsDIO_filtered_2_valid_T = requestDOI_0_2; // @[Xbar.scala:355:54] wire [2:0] requestEIO_uncommonBits_1 = _requestEIO_uncommonBits_T_1; // @[Parameters.scala:52:{29,56}] wire [26:0] _beatsAI_decode_T = 27'hFFF << in_0_a_bits_size; // @[package.scala:243:71] wire [11:0] _beatsAI_decode_T_1 = _beatsAI_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _beatsAI_decode_T_2 = ~_beatsAI_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] beatsAI_decode = _beatsAI_decode_T_2[11:3]; // @[package.scala:243:46] wire _beatsAI_opdata_T = in_0_a_bits_opcode[2]; // @[Xbar.scala:159:18] wire beatsAI_opdata = ~_beatsAI_opdata_T; // @[Edges.scala:92:{28,37}] wire [8:0] beatsAI_0 = beatsAI_opdata ? beatsAI_decode : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] wire [26:0] _beatsAI_decode_T_3 = 27'hFFF << in_1_a_bits_size; // @[package.scala:243:71] wire [11:0] _beatsAI_decode_T_4 = _beatsAI_decode_T_3[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _beatsAI_decode_T_5 = ~_beatsAI_decode_T_4; // @[package.scala:243:{46,76}] wire [8:0] beatsAI_decode_1 = _beatsAI_decode_T_5[11:3]; // @[package.scala:243:46] wire _beatsAI_opdata_T_1 = in_1_a_bits_opcode[2]; // @[Xbar.scala:159:18] wire beatsAI_opdata_1 = ~_beatsAI_opdata_T_1; // @[Edges.scala:92:{28,37}] wire [8:0] beatsAI_1 = beatsAI_opdata_1 ? beatsAI_decode_1 : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] wire [26:0] _beatsAI_decode_T_6 = 27'hFFF << in_2_a_bits_size; // @[package.scala:243:71] wire [11:0] _beatsAI_decode_T_7 = _beatsAI_decode_T_6[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _beatsAI_decode_T_8 = ~_beatsAI_decode_T_7; // @[package.scala:243:{46,76}] wire [8:0] beatsAI_decode_2 = _beatsAI_decode_T_8[11:3]; // @[package.scala:243:46] wire _beatsAI_opdata_T_2 = in_2_a_bits_opcode[2]; // @[Xbar.scala:159:18] wire beatsAI_opdata_2 = ~_beatsAI_opdata_T_2; // @[Edges.scala:92:{28,37}] wire [8:0] beatsAI_2 = beatsAI_opdata_2 ? beatsAI_decode_2 : 9'h0; // @[Edges.scala:92:28, :220:59, :221:14] wire [26:0] _beatsBO_decode_T = 27'hFFF << out_0_b_bits_size; // @[package.scala:243:71] wire [11:0] _beatsBO_decode_T_1 = _beatsBO_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _beatsBO_decode_T_2 = ~_beatsBO_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] beatsBO_decode = _beatsBO_decode_T_2[11:3]; // @[package.scala:243:46] wire _beatsBO_opdata_T = out_0_b_bits_opcode[2]; // @[Xbar.scala:216:19] wire beatsBO_opdata = ~_beatsBO_opdata_T; // @[Edges.scala:97:{28,37}] wire [26:0] _beatsCI_decode_T_3 = 27'hFFF << in_1_c_bits_size; // @[package.scala:243:71] wire [11:0] _beatsCI_decode_T_4 = _beatsCI_decode_T_3[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _beatsCI_decode_T_5 = ~_beatsCI_decode_T_4; // @[package.scala:243:{46,76}] wire [8:0] beatsCI_decode_1 = _beatsCI_decode_T_5[11:3]; // @[package.scala:243:46] wire beatsCI_opdata_1 = in_1_c_bits_opcode[0]; // @[Xbar.scala:159:18] wire [8:0] beatsCI_1 = beatsCI_opdata_1 ? beatsCI_decode_1 : 9'h0; // @[Edges.scala:102:36, :220:59, :221:14] wire [26:0] _beatsDO_decode_T = 27'hFFF << out_0_d_bits_size; // @[package.scala:243:71] wire [11:0] _beatsDO_decode_T_1 = _beatsDO_decode_T[11:0]; // @[package.scala:243:{71,76}] wire [11:0] _beatsDO_decode_T_2 = ~_beatsDO_decode_T_1; // @[package.scala:243:{46,76}] wire [8:0] beatsDO_decode = _beatsDO_decode_T_2[11:3]; // @[package.scala:243:46] wire beatsDO_opdata = out_0_d_bits_opcode[0]; // @[Xbar.scala:216:19] wire [8:0] beatsDO_0 = beatsDO_opdata ? beatsDO_decode : 9'h0; // @[Edges.scala:106:36, :220:59, :221:14] wire _filtered_0_ready_T; // @[Arbiter.scala:94:31] assign in_0_a_ready = portsAOI_filtered_0_ready; // @[Xbar.scala:159:18, :352:24] wire portsAOI_filtered_0_valid; // @[Xbar.scala:352:24] assign portsAOI_filtered_0_valid = _portsAOI_filtered_0_valid_T_1; // @[Xbar.scala:352:24, :355:40] wire _filtered_0_ready_T_1; // @[Arbiter.scala:94:31] assign in_1_a_ready = portsAOI_filtered_1_0_ready; // @[Xbar.scala:159:18, :352:24] wire portsAOI_filtered_1_0_valid; // @[Xbar.scala:352:24] assign portsAOI_filtered_1_0_valid = _portsAOI_filtered_0_valid_T_3; // @[Xbar.scala:352:24, :355:40] wire _filtered_0_ready_T_2; // @[Arbiter.scala:94:31] assign in_2_a_ready = portsAOI_filtered_2_0_ready; // @[Xbar.scala:159:18, :352:24] wire portsAOI_filtered_2_0_valid; // @[Xbar.scala:352:24] assign portsAOI_filtered_2_0_valid = _portsAOI_filtered_0_valid_T_5; // @[Xbar.scala:352:24, :355:40] wire _portsBIO_filtered_0_valid_T_1; // @[Xbar.scala:355:40] wire _portsBIO_filtered_1_valid_T_1; // @[Xbar.scala:355:40] assign in_1_b_valid = portsBIO_filtered_1_valid; // @[Xbar.scala:159:18, :352:24] assign in_1_b_bits_opcode = portsBIO_filtered_1_bits_opcode; // @[Xbar.scala:159:18, :352:24] assign in_1_b_bits_param = portsBIO_filtered_1_bits_param; // @[Xbar.scala:159:18, :352:24] assign in_1_b_bits_size = portsBIO_filtered_1_bits_size; // @[Xbar.scala:159:18, :352:24] assign in_1_b_bits_source = portsBIO_filtered_1_bits_source; // @[Xbar.scala:159:18, :352:24] assign in_1_b_bits_address = portsBIO_filtered_1_bits_address; // @[Xbar.scala:159:18, :352:24] assign in_1_b_bits_mask = portsBIO_filtered_1_bits_mask; // @[Xbar.scala:159:18, :352:24] assign in_1_b_bits_data = portsBIO_filtered_1_bits_data; // @[Xbar.scala:159:18, :352:24] assign in_1_b_bits_corrupt = portsBIO_filtered_1_bits_corrupt; // @[Xbar.scala:159:18, :352:24] wire _portsBIO_filtered_2_valid_T_1; // @[Xbar.scala:355:40] wire portsBIO_filtered_0_valid; // @[Xbar.scala:352:24] wire portsBIO_filtered_2_valid; // @[Xbar.scala:352:24] assign _portsBIO_filtered_0_valid_T_1 = out_0_b_valid & _portsBIO_filtered_0_valid_T; // @[Xbar.scala:216:19, :355:{40,54}] assign portsBIO_filtered_0_valid = _portsBIO_filtered_0_valid_T_1; // @[Xbar.scala:352:24, :355:40] assign _portsBIO_filtered_1_valid_T_1 = out_0_b_valid & _portsBIO_filtered_1_valid_T; // @[Xbar.scala:216:19, :355:{40,54}] assign portsBIO_filtered_1_valid = _portsBIO_filtered_1_valid_T_1; // @[Xbar.scala:352:24, :355:40] assign _portsBIO_filtered_2_valid_T_1 = out_0_b_valid & _portsBIO_filtered_2_valid_T; // @[Xbar.scala:216:19, :355:{40,54}] assign portsBIO_filtered_2_valid = _portsBIO_filtered_2_valid_T_1; // @[Xbar.scala:352:24, :355:40] wire _portsBIO_out_0_b_ready_T_1 = requestBOI_0_1 & portsBIO_filtered_1_ready; // @[Mux.scala:30:73] wire _portsBIO_out_0_b_ready_T_3 = _portsBIO_out_0_b_ready_T_1; // @[Mux.scala:30:73] wire _portsBIO_out_0_b_ready_T_4 = _portsBIO_out_0_b_ready_T_3; // @[Mux.scala:30:73] assign _portsBIO_out_0_b_ready_WIRE = _portsBIO_out_0_b_ready_T_4; // @[Mux.scala:30:73] assign out_0_b_ready = _portsBIO_out_0_b_ready_WIRE; // @[Mux.scala:30:73] assign in_1_c_ready = portsCOI_filtered_1_0_ready; // @[Xbar.scala:159:18, :352:24] assign out_0_c_valid = portsCOI_filtered_1_0_valid; // @[Xbar.scala:216:19, :352:24] assign out_0_c_bits_opcode = portsCOI_filtered_1_0_bits_opcode; // @[Xbar.scala:216:19, :352:24] assign out_0_c_bits_param = portsCOI_filtered_1_0_bits_param; // @[Xbar.scala:216:19, :352:24] assign out_0_c_bits_size = portsCOI_filtered_1_0_bits_size; // @[Xbar.scala:216:19, :352:24] assign out_0_c_bits_address = portsCOI_filtered_1_0_bits_address; // @[Xbar.scala:216:19, :352:24] assign out_0_c_bits_data = portsCOI_filtered_1_0_bits_data; // @[Xbar.scala:216:19, :352:24] assign out_0_c_bits_corrupt = portsCOI_filtered_1_0_bits_corrupt; // @[Xbar.scala:216:19, :352:24] assign portsCOI_filtered_1_0_valid = _portsCOI_filtered_0_valid_T_3; // @[Xbar.scala:352:24, :355:40] wire _portsDIO_filtered_0_valid_T_1; // @[Xbar.scala:355:40] assign in_0_d_valid = portsDIO_filtered_0_valid; // @[Xbar.scala:159:18, :352:24] assign in_0_d_bits_opcode = portsDIO_filtered_0_bits_opcode; // @[Xbar.scala:159:18, :352:24] assign in_0_d_bits_param = portsDIO_filtered_0_bits_param; // @[Xbar.scala:159:18, :352:24] assign in_0_d_bits_size = portsDIO_filtered_0_bits_size; // @[Xbar.scala:159:18, :352:24] assign in_0_d_bits_source = portsDIO_filtered_0_bits_source; // @[Xbar.scala:159:18, :352:24] assign in_0_d_bits_sink = portsDIO_filtered_0_bits_sink; // @[Xbar.scala:159:18, :352:24] assign in_0_d_bits_denied = portsDIO_filtered_0_bits_denied; // @[Xbar.scala:159:18, :352:24] assign in_0_d_bits_data = portsDIO_filtered_0_bits_data; // @[Xbar.scala:159:18, :352:24] assign in_0_d_bits_corrupt = portsDIO_filtered_0_bits_corrupt; // @[Xbar.scala:159:18, :352:24] wire _portsDIO_filtered_1_valid_T_1; // @[Xbar.scala:355:40] assign in_1_d_valid = portsDIO_filtered_1_valid; // @[Xbar.scala:159:18, :352:24] assign in_1_d_bits_opcode = portsDIO_filtered_1_bits_opcode; // @[Xbar.scala:159:18, :352:24] assign in_1_d_bits_param = portsDIO_filtered_1_bits_param; // @[Xbar.scala:159:18, :352:24] assign in_1_d_bits_size = portsDIO_filtered_1_bits_size; // @[Xbar.scala:159:18, :352:24] assign in_1_d_bits_source = portsDIO_filtered_1_bits_source; // @[Xbar.scala:159:18, :352:24] assign in_1_d_bits_sink = portsDIO_filtered_1_bits_sink; // @[Xbar.scala:159:18, :352:24] assign in_1_d_bits_denied = portsDIO_filtered_1_bits_denied; // @[Xbar.scala:159:18, :352:24] assign in_1_d_bits_data = portsDIO_filtered_1_bits_data; // @[Xbar.scala:159:18, :352:24] assign in_1_d_bits_corrupt = portsDIO_filtered_1_bits_corrupt; // @[Xbar.scala:159:18, :352:24] wire _portsDIO_filtered_2_valid_T_1; // @[Xbar.scala:355:40] assign in_2_d_valid = portsDIO_filtered_2_valid; // @[Xbar.scala:159:18, :352:24] assign in_2_d_bits_opcode = portsDIO_filtered_2_bits_opcode; // @[Xbar.scala:159:18, :352:24] assign in_2_d_bits_param = portsDIO_filtered_2_bits_param; // @[Xbar.scala:159:18, :352:24] assign in_2_d_bits_size = portsDIO_filtered_2_bits_size; // @[Xbar.scala:159:18, :352:24] assign in_2_d_bits_source = portsDIO_filtered_2_bits_source; // @[Xbar.scala:159:18, :352:24] assign in_2_d_bits_sink = portsDIO_filtered_2_bits_sink; // @[Xbar.scala:159:18, :352:24] assign in_2_d_bits_denied = portsDIO_filtered_2_bits_denied; // @[Xbar.scala:159:18, :352:24] assign in_2_d_bits_data = portsDIO_filtered_2_bits_data; // @[Xbar.scala:159:18, :352:24] assign in_2_d_bits_corrupt = portsDIO_filtered_2_bits_corrupt; // @[Xbar.scala:159:18, :352:24] assign _portsDIO_filtered_0_valid_T_1 = out_0_d_valid & _portsDIO_filtered_0_valid_T; // @[Xbar.scala:216:19, :355:{40,54}] assign portsDIO_filtered_0_valid = _portsDIO_filtered_0_valid_T_1; // @[Xbar.scala:352:24, :355:40] assign _portsDIO_filtered_1_valid_T_1 = out_0_d_valid & _portsDIO_filtered_1_valid_T; // @[Xbar.scala:216:19, :355:{40,54}] assign portsDIO_filtered_1_valid = _portsDIO_filtered_1_valid_T_1; // @[Xbar.scala:352:24, :355:40] assign _portsDIO_filtered_2_valid_T_1 = out_0_d_valid & _portsDIO_filtered_2_valid_T; // @[Xbar.scala:216:19, :355:{40,54}] assign portsDIO_filtered_2_valid = _portsDIO_filtered_2_valid_T_1; // @[Xbar.scala:352:24, :355:40] wire _portsDIO_out_0_d_ready_T = requestDOI_0_0 & portsDIO_filtered_0_ready; // @[Mux.scala:30:73] wire _portsDIO_out_0_d_ready_T_1 = requestDOI_0_1 & portsDIO_filtered_1_ready; // @[Mux.scala:30:73] wire _portsDIO_out_0_d_ready_T_2 = requestDOI_0_2 & portsDIO_filtered_2_ready; // @[Mux.scala:30:73] wire _portsDIO_out_0_d_ready_T_3 = _portsDIO_out_0_d_ready_T | _portsDIO_out_0_d_ready_T_1; // @[Mux.scala:30:73] wire _portsDIO_out_0_d_ready_T_4 = _portsDIO_out_0_d_ready_T_3 | _portsDIO_out_0_d_ready_T_2; // @[Mux.scala:30:73] assign _portsDIO_out_0_d_ready_WIRE = _portsDIO_out_0_d_ready_T_4; // @[Mux.scala:30:73] assign out_0_d_ready = _portsDIO_out_0_d_ready_WIRE; // @[Mux.scala:30:73] assign in_1_e_ready = portsEOI_filtered_1_0_ready; // @[Xbar.scala:159:18, :352:24] assign out_0_e_valid = portsEOI_filtered_1_0_valid; // @[Xbar.scala:216:19, :352:24] assign out_0_e_bits_sink = portsEOI_filtered_1_0_bits_sink; // @[Xbar.scala:216:19, :352:24] assign portsEOI_filtered_1_0_valid = _portsEOI_filtered_0_valid_T_3; // @[Xbar.scala:352:24, :355:40] reg [8:0] beatsLeft; // @[Arbiter.scala:60:30] wire idle = beatsLeft == 9'h0; // @[Arbiter.scala:60:30, :61:28] wire latch = idle & out_0_a_ready; // @[Xbar.scala:216:19] wire [1:0] readys_hi = {portsAOI_filtered_2_0_valid, portsAOI_filtered_1_0_valid}; // @[Xbar.scala:352:24] wire [2:0] _readys_T = {readys_hi, portsAOI_filtered_0_valid}; // @[Xbar.scala:352:24] wire [2:0] readys_valid = _readys_T; // @[Arbiter.scala:21:23, :68:51] wire _readys_T_1 = readys_valid == _readys_T; // @[Arbiter.scala:21:23, :22:19, :68:51] wire _readys_T_3 = ~_readys_T_2; // @[Arbiter.scala:22:12] wire _readys_T_4 = ~_readys_T_1; // @[Arbiter.scala:22:{12,19}] reg [2:0] readys_mask; // @[Arbiter.scala:23:23] wire [2:0] _readys_filter_T = ~readys_mask; // @[Arbiter.scala:23:23, :24:30] wire [2:0] _readys_filter_T_1 = readys_valid & _readys_filter_T; // @[Arbiter.scala:21:23, :24:{28,30}] wire [5:0] readys_filter = {_readys_filter_T_1, readys_valid}; // @[Arbiter.scala:21:23, :24:{21,28}] wire [4:0] _readys_unready_T = readys_filter[5:1]; // @[package.scala:262:48] wire [5:0] _readys_unready_T_1 = {readys_filter[5], readys_filter[4:0] | _readys_unready_T}; // @[package.scala:262:{43,48}] wire [3:0] _readys_unready_T_2 = _readys_unready_T_1[5:2]; // @[package.scala:262:{43,48}] wire [5:0] _readys_unready_T_3 = {_readys_unready_T_1[5:4], _readys_unready_T_1[3:0] | _readys_unready_T_2}; // @[package.scala:262:{43,48}] wire [5:0] _readys_unready_T_4 = _readys_unready_T_3; // @[package.scala:262:43, :263:17] wire [4:0] _readys_unready_T_5 = _readys_unready_T_4[5:1]; // @[package.scala:263:17] wire [5:0] _readys_unready_T_6 = {readys_mask, 3'h0}; // @[Arbiter.scala:23:23, :25:66] wire [5:0] readys_unready = {1'h0, _readys_unready_T_5} | _readys_unready_T_6; // @[Arbiter.scala:25:{52,58,66}] wire [2:0] _readys_readys_T = readys_unready[5:3]; // @[Arbiter.scala:25:58, :26:29] wire [2:0] _readys_readys_T_1 = readys_unready[2:0]; // @[Arbiter.scala:25:58, :26:48] wire [2:0] _readys_readys_T_2 = _readys_readys_T & _readys_readys_T_1; // @[Arbiter.scala:26:{29,39,48}] wire [2:0] readys_readys = ~_readys_readys_T_2; // @[Arbiter.scala:26:{18,39}] wire [2:0] _readys_T_7 = readys_readys; // @[Arbiter.scala:26:18, :30:11] wire _readys_T_5 = |readys_valid; // @[Arbiter.scala:21:23, :27:27] wire _readys_T_6 = latch & _readys_T_5; // @[Arbiter.scala:27:{18,27}, :62:24] wire [2:0] _readys_mask_T = readys_readys & readys_valid; // @[Arbiter.scala:21:23, :26:18, :28:29] wire [3:0] _readys_mask_T_1 = {_readys_mask_T, 1'h0}; // @[package.scala:253:48] wire [2:0] _readys_mask_T_2 = _readys_mask_T_1[2:0]; // @[package.scala:253:{48,53}] wire [2:0] _readys_mask_T_3 = _readys_mask_T | _readys_mask_T_2; // @[package.scala:253:{43,53}] wire [4:0] _readys_mask_T_4 = {_readys_mask_T_3, 2'h0}; // @[package.scala:253:{43,48}] wire [2:0] _readys_mask_T_5 = _readys_mask_T_4[2:0]; // @[package.scala:253:{48,53}] wire [2:0] _readys_mask_T_6 = _readys_mask_T_3 | _readys_mask_T_5; // @[package.scala:253:{43,53}] wire [2:0] _readys_mask_T_7 = _readys_mask_T_6; // @[package.scala:253:43, :254:17] wire _readys_T_8 = _readys_T_7[0]; // @[Arbiter.scala:30:11, :68:76] wire readys_0 = _readys_T_8; // @[Arbiter.scala:68:{27,76}] wire _readys_T_9 = _readys_T_7[1]; // @[Arbiter.scala:30:11, :68:76] wire readys_1 = _readys_T_9; // @[Arbiter.scala:68:{27,76}] wire _readys_T_10 = _readys_T_7[2]; // @[Arbiter.scala:30:11, :68:76] wire readys_2 = _readys_T_10; // @[Arbiter.scala:68:{27,76}] wire _winner_T = readys_0 & portsAOI_filtered_0_valid; // @[Xbar.scala:352:24] wire winner_0 = _winner_T; // @[Arbiter.scala:71:{27,69}] wire _winner_T_1 = readys_1 & portsAOI_filtered_1_0_valid; // @[Xbar.scala:352:24] wire winner_1 = _winner_T_1; // @[Arbiter.scala:71:{27,69}] wire _winner_T_2 = readys_2 & portsAOI_filtered_2_0_valid; // @[Xbar.scala:352:24] wire winner_2 = _winner_T_2; // @[Arbiter.scala:71:{27,69}] wire prefixOR_1 = winner_0; // @[Arbiter.scala:71:27, :76:48] wire prefixOR_2 = prefixOR_1 | winner_1; // @[Arbiter.scala:71:27, :76:48] wire _prefixOR_T = prefixOR_2 | winner_2; // @[Arbiter.scala:71:27, :76:48] wire _out_0_a_valid_T = portsAOI_filtered_0_valid | portsAOI_filtered_1_0_valid; // @[Xbar.scala:352:24]
Generate the Verilog code corresponding to the following Chisel files. File LoopConv.scala: package gemmini import chisel3._ import chisel3.util._ import chisel3.experimental._ import freechips.rocketchip.tile.RoCCCommand import org.chipsalliance.cde.config.Parameters import GemminiISA._ import LocalAddr._ import Util._ class LoopConvOuterBounds(val large_iterator_bitwidth: Int, val small_iterator_bitwidth: Int, val tiny_iterator_bitwidth: Int) extends Bundle { val batch_size = UInt(large_iterator_bitwidth.W) val in_row_dim = UInt(small_iterator_bitwidth.W) val in_col_dim = UInt(small_iterator_bitwidth.W) val in_channels = UInt(large_iterator_bitwidth.W) val out_channels = UInt(large_iterator_bitwidth.W) val out_col_dim = UInt(large_iterator_bitwidth.W) val out_row_dim = UInt(large_iterator_bitwidth.W) val out_stride = UInt(large_iterator_bitwidth.W) //stride for output activation val in_stride = UInt(large_iterator_bitwidth.W) //stride for input activation val weight_stride = UInt(large_iterator_bitwidth.W) //stride for weight val pool_out_row_dim = UInt(small_iterator_bitwidth.W) val pool_out_col_dim = UInt(small_iterator_bitwidth.W) val stride = UInt(tiny_iterator_bitwidth.W) val padding = UInt(tiny_iterator_bitwidth.W) val kernel_dim = UInt(tiny_iterator_bitwidth.W) val kernel_dilation = UInt(tiny_iterator_bitwidth.W) val pool_size = UInt(tiny_iterator_bitwidth.W) val pool_stride = UInt(tiny_iterator_bitwidth.W) val pool_padding = UInt(tiny_iterator_bitwidth.W) } class LoopConvInnerBounds(val large_iterator_bitwidth: Int, val small_iterator_bitwidth: Int, val tiny_iterator_bitwidth: Int) extends Bundle { val batches = UInt(large_iterator_bitwidth.W) val porows = UInt(small_iterator_bitwidth.W) val pocols = UInt(small_iterator_bitwidth.W) val pochs = UInt(large_iterator_bitwidth.W) val krows = UInt(tiny_iterator_bitwidth.W) val kcols = UInt(tiny_iterator_bitwidth.W) val kchs = UInt(large_iterator_bitwidth.W) val lpad = UInt(tiny_iterator_bitwidth.W) val rpad = UInt(tiny_iterator_bitwidth.W) val upad = UInt(tiny_iterator_bitwidth.W) val dpad = UInt(tiny_iterator_bitwidth.W) val plpad = UInt(tiny_iterator_bitwidth.W) val prad = UInt(tiny_iterator_bitwidth.W) val pupad = UInt(tiny_iterator_bitwidth.W) val pdpad = UInt(tiny_iterator_bitwidth.W) val orows = UInt(small_iterator_bitwidth.W) val ocols = UInt(small_iterator_bitwidth.W) } class LoopConvDerivedParams(val large_iterator_bitwidth: Int, val small_iterator_bitwidth: Int, val tiny_iterator_bitwidth: Int) extends Bundle { val ochs = UInt(large_iterator_bitwidth.W) val irows = UInt(small_iterator_bitwidth.W) val icols = UInt(small_iterator_bitwidth.W) val irows_unpadded = UInt(small_iterator_bitwidth.W) val icols_unpadded = UInt(small_iterator_bitwidth.W) val ichs = UInt(large_iterator_bitwidth.W) val out_channels_per_bank = UInt(small_iterator_bitwidth.W) // TODO this won't work for systolic arrays above 256 in size val in_channels_per_bank = UInt(small_iterator_bitwidth.W) // TODO this won't work for systolic arrays above 256 in size val bias_spad_stride = UInt(large_iterator_bitwidth.W) val input_spad_stride = UInt(large_iterator_bitwidth.W) val weight_spad_stride = UInt(large_iterator_bitwidth.W) // val ex_overwrite = Bool() } class LoopConvLdBiasReq(val coreMaxAddrBits: Int, val large_iterator_bitwidth: Int, val small_iterator_bitwidth: Int, val tiny_iterator_bitwidth: Int, val max_acc_addr: Int, val concurrent_loops: Int) extends Bundle { val outer_bounds = new LoopConvOuterBounds(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val inner_bounds = new LoopConvInnerBounds(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val derived_params = new LoopConvDerivedParams(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val addr_start = UInt(log2Up(max_acc_addr).W) val dram_addr = UInt(coreMaxAddrBits.W) val no_bias = Bool() val loop_id = UInt(log2Up(concurrent_loops).W) } class LoopConvLdBias(block_size: Int, coreMaxAddrBits: Int, large_iterator_bitwidth: Int, small_iterator_bitwidth: Int, tiny_iterator_bitwidth: Int, max_acc_addr: Int, acc_w: Int, max_block_len_acc: Int, concurrent_loops: Int, latency: Int, config_mvin_rs1_t: ConfigMvinRs1, mvin_rs2_t: MvinRs2)(implicit p: Parameters) extends Module { val MVIN_SCALE_IDENTITY = 0x3f800000.U // TODO get this from configs somehow val io = IO(new Bundle { val req = Flipped(Decoupled(new LoopConvLdBiasReq(coreMaxAddrBits, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth: Int, max_acc_addr, concurrent_loops))) val cmd = Decoupled(Output(new RoCCCommand)) val idle = Output(Bool()) val rob_overloaded = Input(Bool()) val wait_for_prev_loop = Input(Bool()) val loop_id = Output(UInt(log2Up(concurrent_loops).W)) }) object State extends ChiselEnum { val idle, config, ld = Value } import State._ val state = RegInit(idle) val req = Reg(new LoopConvLdBiasReq(coreMaxAddrBits, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth: Int, max_acc_addr, concurrent_loops)) import req.inner_bounds._ import req.derived_params._ val acc_addr_start = req.addr_start // Derived parameters val max_ochs_per_mvin = Mux(ochs < (max_block_len_acc * block_size).U, ochs, (max_block_len_acc * block_size).U) val skip = req.dram_addr === 0.U // Iterators val b = Reg(UInt(large_iterator_bitwidth.W)) val orow = Reg(UInt(small_iterator_bitwidth.W)) val ocol = Reg(UInt(small_iterator_bitwidth.W)) val och = Reg(UInt(large_iterator_bitwidth.W)) // Addresses val dram_offset = och * (acc_w/8).U val dram_addr = Mux(req.no_bias, 0.U, req.dram_addr + LoopConv.castDramOffset(dram_offset)) val spad_addr = acc_addr_start +& (och / block_size.U(och.getWidth.W)) * batches * orows * ocols +& b * orows * ocols +& orow * ocols +& ocol // Sizes val I = Mux(ocols - ocol > block_size.U, block_size.U, ocols - ocol) val J = Mux(ochs - och > max_ochs_per_mvin, max_ochs_per_mvin, ochs - och) class RoCCCommandWithAddr extends Bundle { val cmd = new RoCCCommand val dram_addr = UInt() val spad_addr = UInt() val I = UInt() val J = UInt() } val command_p = Module(new Pipeline[RoCCCommandWithAddr](new RoCCCommandWithAddr, latency)()) // Commands val config_cmd = Wire(new RoCCCommand) config_cmd := DontCare config_cmd.inst.funct := CONFIG_CMD val config_cmd_rs1 = Wire(config_mvin_rs1_t.cloneType) config_cmd_rs1 := DontCare config_cmd_rs1.scale := MVIN_SCALE_IDENTITY config_cmd_rs1.stride := req.derived_params.bias_spad_stride config_cmd_rs1.pixel_repeats := 1.U config_cmd_rs1.state_id := 2.U config_cmd_rs1.shrink := 0.U config_cmd_rs1._unused := 1.U config_cmd.rs1 := config_cmd_rs1.asUInt config_cmd.rs2 := 0.U val mvin_cmd = Wire(new RoCCCommand) mvin_cmd := DontCare mvin_cmd.inst.funct := LOAD3_CMD mvin_cmd.rs1 := 0.U mvin_cmd.rs2 := 0.U // Inputs and outputs io.req.ready := state === idle && !command_p.io.busy io.idle := state === idle && !command_p.io.busy io.loop_id := req.loop_id command_p.io.in.valid := state =/= idle && !io.wait_for_prev_loop && !skip command_p.io.in.bits.cmd := Mux(state === config, config_cmd, mvin_cmd) command_p.io.in.bits.dram_addr := dram_addr command_p.io.in.bits.spad_addr := spad_addr command_p.io.in.bits.I := I command_p.io.in.bits.J := J command_p.io.out.ready := io.cmd.ready && !io.rob_overloaded io.cmd.valid := command_p.io.out.valid && !io.rob_overloaded io.cmd.bits := command_p.io.out.bits.cmd when (command_p.io.out.bits.cmd.inst.funct === LOAD3_CMD) { val o = command_p.io.out.bits io.cmd.bits.rs1 := o.dram_addr val mvin_cmd_rs2 = Wire(mvin_rs2_t.cloneType) mvin_cmd_rs2 := DontCare mvin_cmd_rs2.num_rows := o.I.asUInt mvin_cmd_rs2.num_cols := o.J.asUInt mvin_cmd_rs2.local_addr := cast_to_acc_addr(mvin_cmd_rs2.local_addr, o.spad_addr, accumulate = false.B, read_full = false.B) io.cmd.bits.rs2 := mvin_cmd_rs2.asUInt } // Sending outputs when (skip) { state := idle }.elsewhen(command_p.io.in.fire) { when (state === config) { state := ld }.otherwise { val next_och = floorAdd(och, max_ochs_per_mvin, ochs) val next_ocol = floorAdd(ocol, block_size.U, ocols, next_och === 0.U) val next_orow = floorAdd(orow, 1.U, orows, next_ocol === 0.U && next_och === 0.U) val next_b = floorAdd(b, 1.U, batches, next_orow === 0.U && next_ocol === 0.U && next_och === 0.U) och := next_och ocol := next_ocol orow := next_orow b := next_b state := Mux(next_b === 0.U && next_orow === 0.U && next_ocol === 0.U && next_och === 0.U, idle, ld) } } // Accepting requests when (io.req.fire) { req := io.req.bits state := config b := 0.U orow := 0.U ocol := 0.U och := 0.U } } class LoopConvLdInputReq(val coreMaxAddrBits: Int, val large_iterator_bitwidth: Int, val small_iterator_bitwidth: Int, val tiny_iterator_bitwidth: Int, val max_acc_addr: Int, val concurrent_loops: Int) extends Bundle { val outer_bounds = new LoopConvOuterBounds(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val inner_bounds = new LoopConvInnerBounds(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val derived_params = new LoopConvDerivedParams(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val addr_start = UInt(log2Up(max_acc_addr).W) val dram_addr = UInt(coreMaxAddrBits.W) val downsample = Bool() val max_pixels_per_row = UInt(small_iterator_bitwidth.W) val input_dilated = Bool() val trans_input_3120 = Bool() val loop_id = UInt(log2Up(concurrent_loops).W) } class LoopConvLdInput(block_size: Int, coreMaxAddrBits: Int, large_iterator_bitwidth: Int, small_iterator_bitwidth: Int, tiny_iterator_bitwidth: Int, max_addr: Int, input_w: Int, max_block_len: Int, concurrent_loops: Int, latency: Int, config_mvin_rs1_t: ConfigMvinRs1, mvin_rs2_t: MvinRs2) (implicit p: Parameters) extends Module { val MVIN_SCALE_IDENTITY = 0x3f800000.U // TODO get this from configs somehow val io = IO(new Bundle { val req = Flipped(Decoupled(new LoopConvLdInputReq(coreMaxAddrBits, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth, max_addr, concurrent_loops))) val cmd = Decoupled(Output(new RoCCCommand)) val idle = Output(Bool()) val rob_overloaded = Input(Bool()) val wait_for_prev_loop = Input(Bool()) val loop_id = Output(UInt(log2Up(concurrent_loops).W)) }) object State extends ChiselEnum { val idle, config, ld = Value } import State._ val state = RegInit(idle) val req = Reg(new LoopConvLdInputReq(coreMaxAddrBits, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth, max_addr, concurrent_loops)) import req.outer_bounds._ import req.inner_bounds._ import req.derived_params._ def undilated(x: UInt): UInt = (x +& req.input_dilated) >> req.input_dilated // Derived parameters val max_ichs_per_mvin = Mux(ichs < (max_block_len * block_size).U, ichs, (max_block_len * block_size).U).zext val max_batches_per_mvin = Mux(batches < (max_block_len * block_size).U, batches, (max_block_len * block_size).U).zext val max_chs_per_mvin = Mux(req.trans_input_3120, max_batches_per_mvin, max_ichs_per_mvin) // Iterators val b = Reg(SInt(large_iterator_bitwidth.W)) val irow = Reg(SInt(small_iterator_bitwidth.W)) val icol = Reg(SInt(small_iterator_bitwidth.W)) val ich = Reg(SInt(large_iterator_bitwidth.W)) // Calculated params val irow_padded = irow +& undilated(upad).zext val icol_padded = icol +& undilated(lpad).zext val is_zeros = irow < 0.S || irow >= irows_unpadded.zext || icol < 0.S || icol >= icols_unpadded.zext val dram_stride = Mux(req.trans_input_3120, batch_size * (input_w/8).U, in_stride * (input_w/8).U) // Addresses val dram_offset = Mux(req.trans_input_3120, (((ich * in_col_dim * in_row_dim +& irow*in_col_dim +& icol) * batches +& b) * (input_w/8).U).asUInt, (((b * in_row_dim * in_col_dim +& irow*in_col_dim +& icol) * in_stride +& ich) * (input_w/8).U).asUInt) val dram_addr = Mux(is_zeros, 0.U, req.dram_addr + LoopConv.castDramOffset(dram_offset)) val spad_addr = Mux(req.trans_input_3120, // To prevent Verilator errors, we replace some "/ block_size.U" calls here with ">> log2Up(block_size)" req.addr_start.zext +& (b >> log2Up(block_size)) * input_spad_stride +& ich * (irows >> req.downsample) * (icols >> req.downsample) +& (irow_padded >> req.downsample) * (icols >> req.downsample) +& (icol_padded >> req.downsample), req.addr_start.zext +& (ich >> log2Up(block_size)) * input_spad_stride +& b * (irows >> req.downsample) * (icols >> req.downsample) +& (irow_padded >> req.downsample) * (icols >> req.downsample) +& (icol_padded >> req.downsample)) // Sizes val block_size_downsampled = (block_size.U << req.downsample).asUInt.zext val I = MuxCase( Mux(icols_unpadded.zext -& icol > block_size_downsampled, block_size_downsampled, icols_unpadded.zext -& icol), Seq( (icol < 0.S) -> Mux((0.S-&icol) > block_size.S, block_size.S, 0.S-&icol), (icol >= icols_unpadded.zext) -> Mux(icols_unpadded.zext +& undilated(rpad).zext -& icol > block_size.S, block_size.S, icols_unpadded.zext +& undilated(rpad).zext -& icol) ) ) val K = Mux(req.trans_input_3120, Mux(batches.zext -& b > max_chs_per_mvin, max_chs_per_mvin, batches.zext -& b), Mux(ichs.zext -& ich > max_chs_per_mvin, max_chs_per_mvin, ichs.zext -& ich)) class RoCCCommandWithAddr extends Bundle { val cmd = new RoCCCommand val dram_addr = UInt() val spad_addr = SInt() val I = SInt() val K = SInt() } val command_p = Module(new Pipeline[RoCCCommandWithAddr](new RoCCCommandWithAddr, latency)()) // Commands val config_cmd = Wire(new RoCCCommand) config_cmd := DontCare config_cmd.inst.funct := CONFIG_CMD val config_cmd_rs1 = Wire(config_mvin_rs1_t.cloneType) config_cmd_rs1 := DontCare config_cmd_rs1.scale := MVIN_SCALE_IDENTITY config_cmd_rs1.stride := input_spad_stride config_cmd_rs1.pixel_repeats := req.max_pixels_per_row config_cmd_rs1.state_id := 0.U config_cmd_rs1.shrink := 0.U config_cmd_rs1._unused := 1.U config_cmd.rs1 := config_cmd_rs1.asUInt config_cmd.rs2 := dram_stride << req.downsample val mvin_cmd = Wire(new RoCCCommand) mvin_cmd := DontCare mvin_cmd.inst.funct := LOAD_CMD mvin_cmd.rs1 := 0.U // dram_addr mvin_cmd.rs2 := 0.U // mvin_cmd_rs2 // Inputs and outputs io.req.ready := state === idle && !command_p.io.busy io.idle := state === idle && !command_p.io.busy io.loop_id := req.loop_id command_p.io.in.valid := state =/= idle && !io.wait_for_prev_loop && (req.dram_addr =/= 0.U) command_p.io.in.bits.cmd := Mux(state === config, config_cmd, mvin_cmd) command_p.io.in.bits.dram_addr := dram_addr command_p.io.in.bits.spad_addr := spad_addr command_p.io.in.bits.I := I command_p.io.in.bits.K := K command_p.io.out.ready := io.cmd.ready && !io.rob_overloaded io.cmd.valid := command_p.io.out.valid && !io.rob_overloaded io.cmd.bits := command_p.io.out.bits.cmd when (command_p.io.out.bits.cmd.inst.funct === LOAD_CMD) { val o = command_p.io.out.bits io.cmd.bits.rs1 := o.dram_addr val mvin_cmd_rs2 = Wire(mvin_rs2_t.cloneType) mvin_cmd_rs2 := DontCare mvin_cmd_rs2.num_rows := (o.I >> req.downsample).asUInt mvin_cmd_rs2.num_cols := o.K.asUInt mvin_cmd_rs2.local_addr := cast_to_sp_addr(mvin_cmd_rs2.local_addr, o.spad_addr) io.cmd.bits.rs2 := mvin_cmd_rs2.asUInt } // Sending outputs when(req.dram_addr === 0.U){ state := idle }.elsewhen(command_p.io.in.fire) { when (state === config) { state := ld }.otherwise { val b_it = Mux(req.trans_input_3120, max_chs_per_mvin.asUInt, 1.U) val ich_it = Mux(req.trans_input_3120, 1.U, max_chs_per_mvin.asUInt) val next_ich = sFloorAdd(ich, ich_it, ichs.zext, 0.S) val next_icol = sFloorAdd(icol, I.asUInt, (icols_unpadded +& undilated(rpad)).zext, 0.S-&undilated(lpad).zext, next_ich === 0.S) val next_irow = sFloorAdd(irow, 1.U << req.downsample, (irows_unpadded +& undilated(dpad)).zext, 0.S-&undilated(upad).zext, next_icol === 0.S-&undilated(lpad).zext && next_ich === 0.S) val next_b = sFloorAdd(b, b_it, batches.zext, 0.S, next_irow === 0.S-&undilated(upad).zext && next_icol === 0.S-&undilated(lpad).zext && next_ich === 0.S) ich := next_ich icol := next_icol irow := next_irow b := next_b state := Mux(next_b === 0.S && next_irow === 0.S-&undilated(upad).zext && next_icol === 0.S-&undilated(lpad).zext && next_ich === 0.S, idle, ld) } } // Accepting requests when (io.req.fire) { req := io.req.bits state := config b := 0.S irow := 0.S -& ((io.req.bits.inner_bounds.upad +& io.req.bits.input_dilated) >> io.req.bits.input_dilated).zext icol := 0.S -& ((io.req.bits.inner_bounds.lpad +& io.req.bits.input_dilated) >> io.req.bits.input_dilated).zext ich := 0.S } } class LoopConvLdWeightReq(val coreMaxAddrBits: Int, val large_iterator_bitwidth: Int, val small_iterator_bitwidth: Int, val tiny_iterator_bitwidth: Int, val max_addr: Int, val concurrent_loops: Int) extends Bundle { val outer_bounds = new LoopConvOuterBounds(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val inner_bounds = new LoopConvInnerBounds(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val derived_params = new LoopConvDerivedParams(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val addr_end = UInt(log2Up(max_addr+1).W) val dram_addr = UInt(coreMaxAddrBits.W) val trans_weight_1203 = Bool() val trans_weight_0132 = Bool() val dw = Bool() val loop_id = UInt(log2Up(concurrent_loops).W) } class LoopConvLdWeight(block_size: Int, coreMaxAddrBits: Int, large_iterator_bitwidth: Int, small_iterator_bitwidth: Int, tiny_iterator_bitwidth: Int, max_addr: Int, input_w: Int, max_block_len: Int, concurrent_loops: Int, latency: Int, config_mvin_rs1_t: ConfigMvinRs1, mvin_rs2_t: MvinRs2)(implicit p: Parameters) extends Module { val MVIN_SCALE_IDENTITY = 0x3f800000.U // TODO get this from configs somehow val io = IO(new Bundle { val req = Flipped(Decoupled(new LoopConvLdWeightReq(coreMaxAddrBits, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth, max_addr, concurrent_loops))) val cmd = Decoupled(Output(new RoCCCommand)) val idle = Output(Bool()) val rob_overloaded = Input(Bool()) val wait_for_prev_loop = Input(Bool()) val loop_id = Output(UInt(log2Up(concurrent_loops).W)) }) object State extends ChiselEnum { val idle, config, ld = Value } import State._ val state = RegInit(idle) val req = Reg(new LoopConvLdWeightReq(coreMaxAddrBits, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth, max_addr, concurrent_loops)) import req.outer_bounds._ import req.inner_bounds._ import req.derived_params._ // Derived parameters val max_chs_per_mvin = { val max_ochs_per_mvin = Mux(ochs < (max_block_len * block_size).U, ochs, (max_block_len * block_size).U) val max_kchs_per_mvin = Mux(kchs < (max_block_len * block_size).U, kchs, (max_block_len * block_size).U) Mux(req.trans_weight_0132, max_kchs_per_mvin, max_ochs_per_mvin) } val B_rows = Mux(req.trans_weight_0132, in_channels_per_bank * kcols * krows * ochs, out_channels_per_bank * kcols * krows * kchs) val addr_start = req.addr_end - B_rows val dram_stride = MuxCase(weight_stride, Seq( req.dw -> 1.U, req.trans_weight_1203 -> (kernel_dim * kernel_dim * out_channels), req.trans_weight_0132 -> in_channels )) * (input_w/8).U // Iterators val och = Reg(UInt(large_iterator_bitwidth.W)) val krow = Reg(UInt(tiny_iterator_bitwidth.W)) val kcol = Reg(UInt(tiny_iterator_bitwidth.W)) val kch = Reg(UInt(large_iterator_bitwidth.W)) // Addresses val dram_offset = MuxCase(((krow*kernel_dim*in_channels +& kcol*in_channels +& kch) * weight_stride +& och) * (input_w/8).U, Seq( req.dw -> (krow * kernel_dim +& kcol) * (input_w/8).U, req.trans_weight_1203 -> (((kch*kernel_dim*kernel_dim +& krow*kernel_dim +& kcol) * out_channels +& och) * (input_w/8).U), req.trans_weight_0132 -> (((krow*kernel_dim*out_channels +& kcol*out_channels +& och) * in_channels +& kch) * (input_w/8).U) )) val dram_addr = req.dram_addr + LoopConv.castDramOffset(dram_offset) val spad_addr = Mux(req.trans_weight_0132, // The width expansions are added here solely to prevent Verilator's "WIDTH" warnings, despite making the code uglier addr_start + (kch / block_size.U(kch.getWidth.W)) * krows * kcols * ochs + krow * kcols * ochs + kcol * ochs + och, addr_start + (och / block_size.U(och.getWidth.W)) * krows * kcols * kchs + krow * kcols * kchs + kcol * kchs + kch) // Sizes val J = Mux(req.trans_weight_0132, Mux(kchs - kch > max_chs_per_mvin, max_chs_per_mvin, kchs - kch), Mux(ochs - och > max_chs_per_mvin, max_chs_per_mvin, ochs - och)) val K = Mux(req.trans_weight_0132, Mux(ochs - och > block_size.U, block_size.U, ochs - och), Mux(kchs - kch > block_size.U, block_size.U, kchs - kch)) class RoCCCommandWithAddr extends Bundle { val cmd = new RoCCCommand val dram_addr = UInt() val spad_addr = UInt() val K = UInt() val J = UInt() } val command_p = Module(new Pipeline[RoCCCommandWithAddr](new RoCCCommandWithAddr, latency)()) // Commands val config_cmd = Wire(new RoCCCommand) config_cmd := DontCare config_cmd.inst.funct := CONFIG_CMD val config_cmd_rs1 = Wire(config_mvin_rs1_t.cloneType) config_cmd_rs1 := DontCare config_cmd_rs1.scale := MVIN_SCALE_IDENTITY config_cmd_rs1.stride := req.derived_params.weight_spad_stride config_cmd_rs1.pixel_repeats := 1.U config_cmd_rs1.state_id := 1.U config_cmd_rs1.shrink := 0.U config_cmd_rs1._unused := 1.U config_cmd.rs1 := config_cmd_rs1.asUInt config_cmd.rs2 := dram_stride val mvin_cmd = Wire(new RoCCCommand) mvin_cmd := DontCare mvin_cmd.inst.funct := LOAD2_CMD mvin_cmd.rs1 := 0.U // dram_addr mvin_cmd.rs2 := 0.U // mvin_cmd_rs2 // Inputs and outputs io.req.ready := state === idle && !command_p.io.busy io.idle := state === idle && !command_p.io.busy io.loop_id := req.loop_id command_p.io.in.valid := state =/= idle && !io.wait_for_prev_loop && (req.dram_addr =/= 0.U) command_p.io.in.bits.cmd := Mux(state === config, config_cmd, mvin_cmd) command_p.io.in.bits.dram_addr := dram_addr command_p.io.in.bits.spad_addr := spad_addr command_p.io.in.bits.K := K command_p.io.in.bits.J := J command_p.io.out.ready := io.cmd.ready && !io.rob_overloaded io.cmd.valid := command_p.io.out.valid && !io.rob_overloaded io.cmd.bits := command_p.io.out.bits.cmd when (command_p.io.out.bits.cmd.inst.funct === LOAD2_CMD) { val o = command_p.io.out.bits io.cmd.bits.rs1 := o.dram_addr val mvin_cmd_rs2 = Wire(mvin_rs2_t.cloneType) mvin_cmd_rs2 := DontCare mvin_cmd_rs2.num_rows := o.K mvin_cmd_rs2.num_cols := o.J mvin_cmd_rs2.local_addr := cast_to_sp_addr(mvin_cmd_rs2.local_addr, o.spad_addr) io.cmd.bits.rs2 := mvin_cmd_rs2.asUInt } // Sending outputs when(req.dram_addr === 0.U){ state := idle }.elsewhen(command_p.io.in.fire) { when (state === config) { state := ld }.otherwise { val och_it = Mux(req.trans_weight_0132, block_size.U, max_chs_per_mvin) val kch_it = Mux(req.trans_weight_0132, max_chs_per_mvin, block_size.U) val next_kch = floorAdd(kch, kch_it, kchs) val next_kcol = floorAdd(kcol, 1.U, kcols, next_kch === 0.U) val next_krow = floorAdd(krow, 1.U, krows, next_kcol === 0.U && next_kch === 0.U) val next_och = floorAdd(och, och_it, ochs, next_krow === 0.U && next_kcol === 0.U && next_kch === 0.U) kch := next_kch kcol := next_kcol krow := next_krow och := next_och state := Mux(next_och === 0.U && next_krow === 0.U && next_kcol === 0.U && next_kch === 0.U, idle, ld) } } // Accepting requests when (io.req.fire) { req := io.req.bits state := config kch := 0.U kcol := 0.U krow := 0.U och := 0.U } } class LoopConvExecuteReq(val large_iterator_bitwidth: Int, val small_iterator_bitwidth: Int, val tiny_iterator_bitwidth: Int, val max_addr: Int, val max_acc_addr: Int, val concurrent_loops: Int) extends Bundle { val outer_bounds = new LoopConvOuterBounds(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val inner_bounds = new LoopConvInnerBounds(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val derived_params = new LoopConvDerivedParams(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val a_addr_start = UInt(log2Up(max_addr).W) val b_addr_end = UInt(log2Up(max_addr+1).W) val c_addr_start = UInt(log2Up(max_acc_addr).W) val wrot180 = Bool() val downsample = Bool() val max_pixels_per_row = UInt(small_iterator_bitwidth.W) val input_dilated = Bool() val trans_weight_0132 = Bool() val trans_input_3120 = Bool() val loop_id = UInt(log2Up(concurrent_loops).W) } class LoopConvExecute(block_size: Int, large_iterator_bitwidth: Int, small_iterator_bitwidth: Int, tiny_iterator_bitwidth: Int, max_addr: Int, max_acc_addr: Int, concurrent_loops: Int, latency: Int, config_ex_rs1_t: ConfigExRs1, preload_rs1_t: PreloadRs, preload_rs2_t: PreloadRs, compute_rs1_t: ComputeRs, compute_rs2_t: ComputeRs)(implicit p: Parameters) extends Module { val io = IO(new Bundle { val req = Flipped(Decoupled(new LoopConvExecuteReq(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth, max_addr, max_acc_addr, concurrent_loops))) val cmd = Decoupled(Output(new RoCCCommand)) val lda_completed = Input(Bool()) val ldb_completed = Input(Bool()) val ldd_completed = Input(Bool()) val idle = Output(Bool()) val rob_overloaded = Input(Bool()) val loop_id = Output(UInt(log2Up(concurrent_loops).W)) }) object State extends ChiselEnum { val idle, config, pre, comp = Value } import State._ val state = RegInit(idle) val req = Reg(new LoopConvExecuteReq(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth, max_addr, max_acc_addr, concurrent_loops)) import req.outer_bounds._ import req.inner_bounds._ import req.derived_params._ def undilated(x: UInt): UInt = (x +& req.input_dilated) >> req.input_dilated // Derived parameters val B_rows = Mux(req.trans_weight_0132, in_channels_per_bank * kcols * krows * ochs, out_channels_per_bank * kcols * krows * kchs) val a_addr_start = req.a_addr_start val b_addr_start = req.b_addr_end - B_rows val c_addr_start = /*(BigInt(3) << 30).U |*/ req.c_addr_start // Iterators val och = Reg(UInt(large_iterator_bitwidth.W)) val krow = Reg(UInt(tiny_iterator_bitwidth.W)) val kcol = Reg(UInt(tiny_iterator_bitwidth.W)) val kch = Reg(UInt(large_iterator_bitwidth.W)) val b = Reg(UInt(large_iterator_bitwidth.W)) val orow = Reg(UInt(small_iterator_bitwidth.W)) val ocol = Reg(UInt(small_iterator_bitwidth.W)) // TODO kernel-dilation and input-dilation can never be activated at the same time, so we can optimize out some multiplications by kernel_dilation val skip_iteration = state >= pre && req.input_dilated && (((krow * kernel_dilation +& orow -& upad)(0) & req.input_dilated).asBool || ((kcol * kernel_dilation +& ocol -& lpad)(0) & req.input_dilated).asBool) val pixels = Mux(kcols - kcol > req.max_pixels_per_row, req.max_pixels_per_row, kcols - kcol) val irow = undilated(orow * stride +& krow * kernel_dilation) val icol = undilated(ocol * stride +& kcol * kernel_dilation) val I = Mux(req.trans_input_3120, Mux(batches - b > block_size.U, block_size.U, batches - b), undilated(Mux(ocols - ocol > (block_size.U << req.input_dilated).asUInt, (block_size.U << req.input_dilated).asUInt, ocols - ocol))) val J = Mux(ochs - och > block_size.U, block_size.U, ochs - och) val K = pixels * Mux(kchs - kch > block_size.U, block_size.U, kchs - kch) // Addresses val a_addr = Mux(req.trans_input_3120, a_addr_start +& (b / block_size.U) * input_spad_stride +& kch * (irows >> req.downsample) * (icols >> req.downsample) +& (irow >> req.downsample) * (icols >> req.downsample) +& (icol >> req.downsample), a_addr_start +& (kch / block_size.U(kch.getWidth.W)) * input_spad_stride +& b * (irows >> req.downsample) * (icols >> req.downsample) +& (irow >> req.downsample) * (icols >> req.downsample) +& (icol >> req.downsample)) // val c_addr = Mux(ex_overwrite && krow === 0.U && kcol === 0.U && kch === 0.U, d_addr_start, c_addr_start) +& // (och / block_size.U) * batches * orows * ocols +& b * orows * ocols +& orow * ocols +& ocol // The width expansions are added here solely to prevent Verilator's "WIDTH" warnings, despite making the code uglier val c_addr = c_addr_start +& (och / block_size.U(och.getWidth.W)) * batches * orows * ocols +& b * orows * ocols +& orow * ocols +& ocol // val new_weights = b === 0.U && orow === 0.U && ocol === 0.U val new_weights = Reg(Bool()) val krow_rot = Mux(req.wrot180, krows - krow - 1.U, krow) val kcol_rot = Mux(req.wrot180, kcols - kcol - 1.U, kcol) val b_addr = Mux(req.trans_weight_0132, b_addr_start +& (kch / block_size.U(och.getWidth.W)) * krows * kcols * ochs +& krow_rot * kcols * ochs +& kcol_rot * ochs +& och, b_addr_start +& (och / block_size.U(och.getWidth.W)) * krows * kcols * kchs +& krow_rot * kcols * kchs +& kcol_rot * kchs +& kch) class RoCCCommandWithAddr extends Bundle { val cmd = new RoCCCommand val a_addr = UInt() val b_addr = UInt() val c_addr = UInt() val I = UInt() val J = UInt() val K = UInt() val new_weights = Bool() } val command_p = Module(new Pipeline[RoCCCommandWithAddr](new RoCCCommandWithAddr, latency)()) // Commands val config_cmd = Wire(new RoCCCommand) config_cmd := DontCare config_cmd.inst.funct := CONFIG_CMD val config_cmd_rs1 = Wire(config_ex_rs1_t.cloneType) config_cmd_rs1 := DontCare config_cmd_rs1.a_stride := (irows * icols).asUInt config_cmd_rs1.set_only_strides := 1.U config_cmd_rs1.cmd_type := 0.U val config_cmd_rs2 = Wire(new ConfigExRs2) config_cmd_rs2 := DontCare config_cmd_rs2.c_stride := (orows * ocols).asUInt config_cmd.rs1 := config_cmd_rs1.asUInt config_cmd.rs2 := config_cmd_rs2.asUInt val pre_cmd = Wire(new RoCCCommand) // preload pre_cmd := DontCare pre_cmd.inst.funct := PRELOAD_CMD pre_cmd.rs1 := 0.U//(K << 48) | (J << 32) | pre_addr pre_cmd.rs2 := 0.U//(I << 48) | (J << 32) | c_addr val comp_cmd = Wire(new RoCCCommand()) // compute.preloaded comp_cmd := DontCare comp_cmd.inst.funct := Mux(new_weights, COMPUTE_AND_FLIP_CMD, COMPUTE_AND_STAY_CMD) comp_cmd.rs1 := 0.U//(I << 48) | (K << 32) | a_addr comp_cmd.rs2 := 0.U//(I << 48) | (J << 32) | GARBAGE_ADDR val ld_ahead = io.lda_completed && io.ldb_completed && io.ldd_completed // Inputs and outputs io.req.ready := state === idle && !command_p.io.busy io.idle := state === idle && !command_p.io.busy io.loop_id := req.loop_id command_p.io.in.valid := state =/= idle && !skip_iteration && ld_ahead command_p.io.in.bits.cmd := MuxCase(config_cmd, Seq((state === pre) -> pre_cmd, (state === comp) -> comp_cmd)) command_p.io.in.bits.a_addr := a_addr command_p.io.in.bits.b_addr := b_addr command_p.io.in.bits.c_addr := c_addr command_p.io.in.bits.I := I command_p.io.in.bits.J := J command_p.io.in.bits.K := K command_p.io.in.bits.new_weights := new_weights command_p.io.out.ready := io.cmd.ready && !io.rob_overloaded io.cmd.valid := command_p.io.out.valid && !io.rob_overloaded io.cmd.bits := command_p.io.out.bits.cmd when (command_p.io.out.bits.cmd.inst.funct === PRELOAD_CMD) { val o = command_p.io.out.bits val pre_cmd_rs1 = Wire(preload_rs1_t.cloneType) pre_cmd_rs1 := DontCare pre_cmd_rs1.num_rows := o.K.asUInt pre_cmd_rs1.num_cols := o.J.asUInt pre_cmd_rs1.local_addr := Mux(o.new_weights, cast_to_sp_addr(pre_cmd_rs1.local_addr, o.b_addr), garbage_addr(pre_cmd_rs1.local_addr)) val pre_cmd_rs2 = Wire(preload_rs2_t.cloneType) pre_cmd_rs2 := DontCare pre_cmd_rs2.num_rows := o.I.asUInt pre_cmd_rs2.num_cols := o.J.asUInt pre_cmd_rs2.local_addr := cast_to_acc_addr(pre_cmd_rs2.local_addr, o.c_addr, accumulate = true.B, read_full = false.B) io.cmd.bits.rs1 := pre_cmd_rs1.asUInt io.cmd.bits.rs2 := pre_cmd_rs2.asUInt }.elsewhen(command_p.io.out.bits.cmd.inst.funct =/= CONFIG_CMD) { val o = command_p.io.out.bits val comp_cmd_rs1 = Wire(compute_rs1_t.cloneType) comp_cmd_rs1 := DontCare comp_cmd_rs1.num_rows := o.I.asUInt comp_cmd_rs1.num_cols := o.K.asUInt comp_cmd_rs1.local_addr := cast_to_sp_addr(comp_cmd_rs1.local_addr, o.a_addr) val comp_cmd_rs2 = Wire(compute_rs2_t.cloneType) comp_cmd_rs2 := DontCare comp_cmd_rs2.num_rows := o.I.asUInt comp_cmd_rs2.num_cols := o.J.asUInt comp_cmd_rs2.local_addr := garbage_addr(comp_cmd_rs2.local_addr) io.cmd.bits.rs1 := comp_cmd_rs1.asUInt io.cmd.bits.rs2 := comp_cmd_rs2.asUInt } // Updating "new_weights" when (state === comp && command_p.io.in.fire) { new_weights := false.B } // Sending outputs when (command_p.io.in.fire || skip_iteration) { when (state === config) { state := pre }.elsewhen (state === pre) { state := comp }.otherwise { val b_it = Mux(req.trans_input_3120, block_size.U, 1.U) val ocol_it = Mux(skip_iteration || req.trans_input_3120, 1.U, block_size.U << req.input_dilated).asUInt val next_ocol = floorAdd(ocol, ocol_it, ocols) val next_orow = floorAdd(orow, 1.U, orows, next_ocol === 0.U) val next_b = floorAdd(b, b_it, batches, next_orow === 0.U && next_ocol === 0.U) val next_kch = floorAdd(kch, block_size.U, kchs, next_b === 0.U && next_orow === 0.U && next_ocol === 0.U) val next_kcol = floorAdd(kcol, req.max_pixels_per_row, kcols, next_kch === 0.U && next_b === 0.U && next_orow === 0.U && next_ocol === 0.U) val next_krow = floorAdd(krow, 1.U, krows, next_kcol === 0.U && next_kch === 0.U && next_b === 0.U && next_orow === 0.U && next_ocol === 0.U) val next_och = floorAdd(och, block_size.U, ochs, next_krow === 0.U && next_kcol === 0.U && next_kch === 0.U && next_b === 0.U && next_orow === 0.U && next_ocol === 0.U) ocol := next_ocol orow := next_orow b := next_b kch := next_kch kcol := next_kcol krow := next_krow och := next_och when (next_b === 0.U && next_orow === 0.U && next_ocol === 0.U) { new_weights := true.B } state := Mux(next_och === 0.U && next_krow === 0.U && next_kcol === 0.U && next_kch === 0.U && next_b === 0.U && next_orow === 0.U && next_ocol === 0.U, idle, pre) } } // Accepting requests when (io.req.fire) { req := io.req.bits state := Mux(io.req.bits.trans_input_3120, config, pre) b := 0.U orow := 0.U ocol := 0.U och := 0.U krow := 0.U kcol := 0.U kch := 0.U new_weights := true.B } } class LoopConvStReq(val coreMaxAddrBits: Int, val large_iterator_bitwidth: Int, val small_iterator_bitwidth: Int, val tiny_iterator_bitwidth: Int, val max_acc_addr: Int, val concurrent_loops: Int) extends Bundle { val outer_bounds = new LoopConvOuterBounds(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val inner_bounds = new LoopConvInnerBounds(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val derived_params = new LoopConvDerivedParams(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val addr_start = UInt(log2Up(max_acc_addr).W) val dram_addr = UInt(coreMaxAddrBits.W) val no_pool = Bool() val activation = UInt(2.W) // TODO magic number val trans_output_1203 = Bool() val loop_id = UInt(log2Up(concurrent_loops).W) } class LoopConvSt(block_size: Int, coreMaxAddrBits: Int, large_iterator_bitwidth: Int, small_iterator_bitwidth: Int, tiny_iterator_bitwidth: Int, max_acc_addr: Int, input_w: Int, concurrent_loops: Int, latency: Int, config_mvout_rs2_t: ConfigMvoutRs2, mvout_rs2_t: MvoutRs2)(implicit p: Parameters) extends Module { val ACC_SCALE_NO_CHANGE = ~(0.U(32.W)) // TODO get this from ISA description somehow val io = IO(new Bundle { val req = Flipped(Decoupled(new LoopConvStReq(coreMaxAddrBits, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth: Int, max_acc_addr, concurrent_loops))) val cmd = Decoupled(Output(new RoCCCommand)) val ex_completed = Input(Bool()) val idle = Output(Bool()) val rob_overloaded = Input(Bool()) val loop_id = Output(UInt(log2Up(concurrent_loops).W)) }) object State extends ChiselEnum { val idle, st, pre_pool_config, pool, post_pool_config = Value } import State._ val state = RegInit(idle) val req = Reg(new LoopConvStReq(coreMaxAddrBits, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth: Int, max_acc_addr, concurrent_loops)) import req.outer_bounds._ import req.inner_bounds._ import req.derived_params._ val acc_addr_start = req.addr_start // Derived parameters val skip = req.dram_addr === 0.U // Iterators val b = Reg(UInt(large_iterator_bitwidth.W)) val orow = Reg(UInt(small_iterator_bitwidth.W)) val ocol = Reg(UInt(small_iterator_bitwidth.W)) val och = Reg(UInt(large_iterator_bitwidth.W)) // Addresses val dram_offset = Mux(req.trans_output_1203, ((orow*out_col_dim*batch_size +& ocol*batch_size +& b) * out_channels +& och) * (input_w/8).U, ((b*out_row_dim*out_col_dim +& orow*out_col_dim +& ocol) * out_stride +& och) * (input_w/8).U) val dram_addr = req.dram_addr + LoopConv.castDramOffset(dram_offset) val spad_addr = acc_addr_start +& (och / block_size.U(och.getWidth.W)) * batches * orows * ocols +& b * orows * ocols +& orow * ocols +& ocol val pool_dram_addr = req.dram_addr + ((b * pool_out_col_dim * pool_out_row_dim) * out_stride + och) * (input_w/8).U val pool_spad_addr = acc_addr_start +& (och / block_size.U(och.getWidth.W)) * batches * orows * ocols +& b * orows * ocols // Sizes val I = Mux(ocols - ocol > block_size.U, block_size.U, ocols - ocol) val J = Mux(ochs - och > block_size.U, block_size.U, ochs - och) val channels = J class RoCCCommandWithAddr extends Bundle { val cmd = new RoCCCommand val dram_addr = UInt() val spad_addr = UInt() val pool_dram_addr = UInt() val pool_spad_addr = UInt() val channels = UInt() val is_pool = Bool() val I = UInt() val J = UInt() } val command_p = Module(new Pipeline[RoCCCommandWithAddr](new RoCCCommandWithAddr, latency)()) // Commands val mvout_cmd = Wire(new RoCCCommand) mvout_cmd := DontCare mvout_cmd.inst.funct := STORE_CMD mvout_cmd.rs1 := 0.U // dram_addr mvout_cmd.rs2 := 0.U // mvout_cmd_rs2 val pre_pool_config_cmd = Wire(new RoCCCommand) pre_pool_config_cmd := DontCare pre_pool_config_cmd.inst.funct := CONFIG_CMD val pre_pool_config_cmd_rs1 = Wire(new ConfigMvoutRs1) pre_pool_config_cmd_rs1 := DontCare pre_pool_config_cmd_rs1.ocols := ocols pre_pool_config_cmd_rs1.orows := orows pre_pool_config_cmd_rs1.pocols := pocols pre_pool_config_cmd_rs1.porows := porows pre_pool_config_cmd_rs1.pool_out_dim := pool_out_col_dim pre_pool_config_cmd_rs1.lpad := plpad pre_pool_config_cmd_rs1.upad := pupad pre_pool_config_cmd_rs1.pool_size := pool_size pre_pool_config_cmd_rs1.pool_stride := pool_stride pre_pool_config_cmd_rs1.activation := req.activation pre_pool_config_cmd_rs1.cmd_type := CONFIG_STORE pre_pool_config_cmd.rs1 := pre_pool_config_cmd_rs1.asUInt val pre_pool_config_cmd_rs2 = Wire(config_mvout_rs2_t.cloneType) pre_pool_config_cmd_rs2 := DontCare pre_pool_config_cmd_rs2.acc_scale := ACC_SCALE_NO_CHANGE pre_pool_config_cmd_rs2.stride := out_stride * (input_w / 8).U pre_pool_config_cmd.rs2 := pre_pool_config_cmd_rs2.asUInt val post_pool_config_cmd = Wire(new RoCCCommand) post_pool_config_cmd := DontCare post_pool_config_cmd.inst.funct := CONFIG_CMD val post_pool_config_cmd_rs1 = Wire(new ConfigMvoutRs1) post_pool_config_cmd_rs1 := DontCare post_pool_config_cmd_rs1.activation := req.activation post_pool_config_cmd_rs1.cmd_type := CONFIG_STORE post_pool_config_cmd.rs1 := post_pool_config_cmd_rs1.asUInt val post_pool_config_cmd_rs2 = Wire(config_mvout_rs2_t.cloneType) post_pool_config_cmd_rs2 := DontCare post_pool_config_cmd_rs2.acc_scale := ACC_SCALE_NO_CHANGE post_pool_config_cmd_rs2.stride := out_stride * (input_w / 8).U post_pool_config_cmd.rs2 := post_pool_config_cmd_rs2.asUInt val pool_cmd = Wire(new RoCCCommand) pool_cmd := DontCare pool_cmd.inst.funct := STORE_CMD pool_cmd.rs1 := 0.U//pool_dram_addr pool_cmd.rs2 := 0.U//(channels << 32.U) | pool_spad_addr // Inputs and outputs io.req.ready := state === idle && !command_p.io.busy io.idle := state === idle && !command_p.io.busy io.loop_id := req.loop_id command_p.io.in.valid := state =/= idle && !skip && io.ex_completed command_p.io.in.bits.cmd := MuxLookup(state.asUInt, mvout_cmd)(Seq( pre_pool_config.asUInt -> pre_pool_config_cmd, pool.asUInt -> pool_cmd, post_pool_config.asUInt -> post_pool_config_cmd) ) command_p.io.in.bits.is_pool := state === pool command_p.io.in.bits.dram_addr := dram_addr command_p.io.in.bits.spad_addr := spad_addr command_p.io.in.bits.pool_spad_addr := pool_spad_addr command_p.io.in.bits.pool_dram_addr := pool_dram_addr command_p.io.in.bits.channels := channels command_p.io.in.bits.I := I command_p.io.in.bits.J := J command_p.io.out.ready := io.cmd.ready && !io.rob_overloaded io.cmd.valid := command_p.io.out.valid && !io.rob_overloaded io.cmd.bits := command_p.io.out.bits.cmd when (command_p.io.out.bits.cmd.inst.funct === STORE_CMD) { val o = command_p.io.out.bits when (o.is_pool) { val pool_mvout_cmd_rs2 = Wire(mvout_rs2_t.cloneType) pool_mvout_cmd_rs2 := DontCare pool_mvout_cmd_rs2.num_cols := o.channels pool_mvout_cmd_rs2.local_addr := cast_to_acc_addr(pool_mvout_cmd_rs2.local_addr, o.pool_spad_addr, accumulate = false.B, read_full = false.B) io.cmd.bits.rs1 := o.pool_dram_addr io.cmd.bits.rs2 := pool_mvout_cmd_rs2.asUInt } .otherwise { val mvout_cmd_rs2 = Wire(mvout_rs2_t.cloneType) mvout_cmd_rs2 := DontCare mvout_cmd_rs2.num_rows := o.I.asUInt mvout_cmd_rs2.num_cols := o.J.asUInt mvout_cmd_rs2.local_addr := cast_to_acc_addr(mvout_cmd_rs2.local_addr, o.spad_addr, accumulate = false.B, read_full = false.B) io.cmd.bits.rs1 := o.dram_addr io.cmd.bits.rs2 := mvout_cmd_rs2.asUInt } } // Sending outputs when (skip) { state := idle }.elsewhen(command_p.io.in.fire) { when (req.no_pool) { val next_och = floorAdd(och, block_size.U, ochs) val next_ocol = floorAdd(ocol, block_size.U, ocols, next_och === 0.U) val next_orow = floorAdd(orow, 1.U, orows, next_ocol === 0.U && next_och === 0.U) val next_b = floorAdd(b, 1.U, batches, next_orow === 0.U && next_ocol === 0.U && next_och === 0.U) och := next_och ocol := next_ocol orow := next_orow b := next_b state := Mux(next_b === 0.U && next_orow === 0.U && next_ocol === 0.U && next_och === 0.U, idle, st) }.elsewhen(state === pre_pool_config) { state := pool }.elsewhen(state === post_pool_config) { state := idle }.otherwise { val next_och = floorAdd(och, block_size.U, ochs) val next_b = floorAdd(b, 1.U, batches, next_och === 0.U) och := next_och b := next_b state := Mux(next_b === 0.U && next_och === 0.U, post_pool_config, pool) } } // Accepting requests when (io.req.fire) { req := io.req.bits state := Mux(io.req.bits.no_pool, st, pre_pool_config) b := 0.U orow := 0.U ocol := 0.U och := 0.U } } class LoopConvState(val block_size: Int, val large_iterator_bitwidth: Int, val small_iterator_bitwidth: Int, val tiny_iterator_bitwidth: Int, val coreMaxAddrBits: Int, val max_addr: Int, val max_acc_addr: Int) extends Bundle { val outer_bounds = new LoopConvOuterBounds(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val inner_bounds = new LoopConvInnerBounds(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth) val bias_dram_addr = UInt(coreMaxAddrBits.W) val weights_dram_addr = UInt(coreMaxAddrBits.W) val input_dram_addr = UInt(coreMaxAddrBits.W) val output_dram_addr = UInt(coreMaxAddrBits.W) val no_bias = Bool() val wrot180 = Bool() val no_pool = Bool() val downsample = Bool() val input_dilated = Bool() val activation = UInt(2.W) // TODO magic number val trans_output_1203 = Bool() val trans_weight_1203 = Bool() val trans_weight_0132 = Bool() val trans_input_3120 = Bool() val dw = Bool() val max_pixels_per_row = UInt(small_iterator_bitwidth.W) val a_ex_spad_id = UInt(2.W) val b_ex_spad_id = UInt(2.W) val configured = Bool() val running = Bool() val ld_bias_started = Bool() val ld_input_started = Bool() val ld_weights_started = Bool() val ex_started = Bool() val st_started = Bool() val ld_bias_completed = Bool() val ld_input_completed = Bool() val ld_weights_completed = Bool() val ex_completed = Bool() val st_completed = Bool() def all_completed(dummy: Int=0): Bool = ld_bias_completed && ld_input_completed && ld_weights_completed && ex_completed && st_completed val a_addr_start = UInt(log2Up(max_addr).W) val b_addr_end = UInt(log2Up(max_addr+1).W) def derived_params(dummy: Int=0): LoopConvDerivedParams = { import outer_bounds.{stride, kernel_dilation} import inner_bounds.{batches, pochs, orows, ocols, krows, kcols, upad, dpad, lpad, rpad, kchs} val result = Wire(new LoopConvDerivedParams(large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth)) result.ochs := pochs val dilated_krows = krows + (kernel_dilation - 1.U)*(krows - 1.U) val dilated_kcols = kcols + (kernel_dilation - 1.U)*(kcols - 1.U) val irows_without_dilation = orows * stride +& dilated_krows -& 1.U val icols_without_dilation = ocols * stride +& dilated_kcols -& 1.U val irows_unpadded_without_dilation = irows_without_dilation -& upad -& dpad val icols_unpadded_without_dilation = icols_without_dilation -& lpad -& rpad def undilated(x: UInt): UInt = (x +& input_dilated) >> input_dilated val irows_unpadded = undilated(irows_unpadded_without_dilation) val icols_unpadded = undilated(icols_unpadded_without_dilation) result.irows := Mux(input_dilated, irows_unpadded +& undilated(upad) +& undilated(dpad), irows_without_dilation) result.icols := Mux(input_dilated, icols_unpadded +& undilated(lpad) +& undilated(rpad), icols_without_dilation) result.irows_unpadded := irows_unpadded result.icols_unpadded := icols_unpadded result.ichs := kchs result.out_channels_per_bank := result.ochs / block_size.U(result.ochs.getWidth.W) +& (result.ochs % block_size.U =/= 0.U) result.in_channels_per_bank := result.ichs / block_size.U(result.ochs.getWidth.W) +& (result.ichs % block_size.U =/= 0.U) result.bias_spad_stride := batches * orows * ocols result.input_spad_stride := Mux(trans_input_3120, result.ichs * (result.irows >> downsample) * (result.icols >> downsample), batches * (result.irows >> downsample) * (result.icols >> downsample)) result.weight_spad_stride := Mux(trans_weight_0132, krows * kcols * pochs, krows * kcols * kchs) // result.ex_overwrite := bias_dram_addr =/= 0.U && no_bias result } def reset(): Unit = { configured := false.B running := false.B ld_bias_started := false.B ld_input_started := false.B ld_weights_started := false.B ex_started := false.B st_started := false.B ld_bias_completed := false.B ld_input_completed := false.B ld_weights_completed := false.B ex_completed := false.B st_completed := false.B } } class LoopConv (block_size: Int, coreMaxAddrBits: Int, reservation_station_size: Int, max_lds: Int, max_exs: Int, max_sts: Int, max_addr: Int, max_acc_addr: Int, input_w: Int, acc_w: Int, dma_max_bytes: Int, config_mvin_rs1_t: ConfigMvinRs1, mvin_rs2_t: MvinRs2, config_mvout_rs2_t: ConfigMvoutRs2, mvout_rs2_t: MvoutRs2, config_ex_rs1_t: ConfigExRs1, preload_rs1_t: PreloadRs, preload_rs2_t: PreloadRs, compute_rs1_t: ComputeRs, compute_rs2_t: ComputeRs, has_training_convs: Boolean, has_max_pool: Boolean, has_first_layer_optimizations: Boolean, has_dw_convs: Boolean) (implicit p: Parameters) extends Module { val large_iterator_bitwidth = 16 val small_iterator_bitwidth = 16 // 8 val tiny_iterator_bitwidth = 16 // 4 val max_block_len = (dma_max_bytes / (block_size * (input_w / 8))) max 1 val max_block_len_acc = (dma_max_bytes / (block_size * (acc_w / 8))) max 1 val io = IO(new Bundle { val in = Flipped(Decoupled(new GemminiCmd(reservation_station_size))) val out = Decoupled(new GemminiCmd(reservation_station_size)) val ld_completed = Input(UInt(log2Up(reservation_station_size+1).W)) val st_completed = Input(UInt(log2Up(reservation_station_size+1).W)) val ex_completed = Input(UInt(log2Up(reservation_station_size+1).W)) val busy = Output(Bool()) }) // Create states val concurrent_loops = 2 val loops = Reg(Vec(concurrent_loops, new LoopConvState(block_size, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth, coreMaxAddrBits, max_addr, max_acc_addr))) val head_loop_id = RegInit(0.U(log2Up(concurrent_loops).W)) val tail_loop_id = (~head_loop_id).asUInt // This is the loop that we always try to configure if available val head_loop = loops(head_loop_id) val tail_loop = loops(tail_loop_id) val loop_configured = loops.map(_.configured).reduce(_ || _) val loop_being_configured_id = Mux(head_loop.configured, tail_loop_id, head_loop_id) val loop_being_configured = loops(loop_being_configured_id) // Create inner modules val latency = 2 val ld_bias = Module(new LoopConvLdBias(block_size, coreMaxAddrBits, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth, max_acc_addr, acc_w, max_block_len_acc, concurrent_loops, latency, config_mvin_rs1_t, mvin_rs2_t)) val ld_input = Module(new LoopConvLdInput(block_size, coreMaxAddrBits, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth, max_addr, input_w, max_block_len, concurrent_loops, latency, config_mvin_rs1_t, mvin_rs2_t)) val ld_weights = Module(new LoopConvLdWeight(block_size, coreMaxAddrBits, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth, max_addr, input_w, max_block_len, concurrent_loops, latency, config_mvin_rs1_t, mvin_rs2_t)) val ex = Module(new LoopConvExecute(block_size, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth, max_addr, max_acc_addr, concurrent_loops, latency, config_ex_rs1_t, preload_rs1_t, preload_rs2_t, compute_rs1_t, compute_rs2_t)) val st = Module(new LoopConvSt(block_size, coreMaxAddrBits, large_iterator_bitwidth, small_iterator_bitwidth, tiny_iterator_bitwidth, max_acc_addr, input_w, concurrent_loops, latency, config_mvout_rs2_t, mvout_rs2_t)) // Create command queue val cmd = Queue(io.in) io.busy := cmd.valid || loop_configured // Create arbiter val arb = Module(new Arbiter(new RoCCCommand, 5)) arb.io.in(0) <> st.io.cmd arb.io.in(1) <> ex.io.cmd arb.io.in(2) <> ld_bias.io.cmd arb.io.in(3) <> ld_weights.io.cmd arb.io.in(4) <> ld_input.io.cmd val unrolled_cmd = arb.io.out // Create reservation station utilization counters val ld_utilization = RegInit(0.U(log2Up(max_lds+1).W)) val st_utilization = RegInit(0.U(log2Up(max_sts+1).W)) val ex_utilization = RegInit(0.U(log2Up(max_exs+1).W)) ld_utilization := ld_utilization +& (ld_bias.io.cmd.fire || ld_weights.io.cmd.fire || ld_input.io.cmd.fire) -& io.ld_completed st_utilization := st_utilization +& st.io.cmd.fire -& io.st_completed ex_utilization := ex_utilization +& ex.io.cmd.fire -& io.ex_completed assert(ld_utilization >= io.ld_completed, "ld utilization underflow") assert(st_utilization >= io.st_completed, "st utilization underflow") assert(ex_utilization >= io.ex_completed, "ex utilization underflow") // Wire up unrolled command output val is_loop_run_cmd = cmd.bits.cmd.inst.funct === LOOP_CONV_WS val is_loop_config_cmd = cmd.bits.cmd.inst.funct >= LOOP_CONV_WS_CONFIG_1 && cmd.bits.cmd.inst.funct <= LOOP_CONV_WS_CONFIG_6 val is_loop_cmd = is_loop_run_cmd || is_loop_config_cmd io.out.bits.cmd := Mux(loop_configured, unrolled_cmd.bits, cmd.bits.cmd) io.out.bits.cmd.status := cmd.bits.cmd.status // TODO This is not guaranteed to be the correct fix! We must fix this io.out.bits.rob_id := DontCare io.out.bits.from_matmul_fsm := Mux(loop_configured, false.B, cmd.bits.from_matmul_fsm) io.out.bits.from_conv_fsm := Mux(loop_configured, true.B, cmd.bits.from_conv_fsm) io.out.valid := Mux(loop_configured, unrolled_cmd.valid, cmd.valid && !is_loop_config_cmd && !is_loop_run_cmd) cmd.ready := Mux(is_loop_cmd, !loop_being_configured.configured, !loop_configured && io.out.ready) arb.io.out.ready := io.out.ready // Wire up waiting-for-loads signals val ex_is_waiting_for_loads = loops(ex.io.loop_id).ex_started && !loops(ex.io.loop_id).ex_completed && !(loops(ex.io.loop_id).ld_input_completed && loops(ex.io.loop_id).ld_weights_completed && loops(ex.io.loop_id).ld_bias_completed) ld_bias.io.wait_for_prev_loop := ex_is_waiting_for_loads && ld_bias.io.loop_id =/= ex.io.loop_id ld_weights.io.wait_for_prev_loop := ex_is_waiting_for_loads && ld_weights.io.loop_id =/= ex.io.loop_id ld_input.io.wait_for_prev_loop := ex_is_waiting_for_loads && ld_input.io.loop_id =/= ex.io.loop_id // Wire up overloaded signals ld_bias.io.rob_overloaded := ld_utilization >= max_lds.U ld_input.io.rob_overloaded := ld_utilization >= max_lds.U ld_weights.io.rob_overloaded := ld_utilization >= max_lds.U ex.io.rob_overloaded := ex_utilization >= max_exs.U st.io.rob_overloaded := st_utilization >= max_sts.U // Wire up iterator inputs ex.io.lda_completed := (ld_input.io.loop_id =/= ex.io.loop_id) || ld_input.io.idle ex.io.ldb_completed := (ld_weights.io.loop_id =/= ex.io.loop_id) || ld_weights.io.idle ex.io.ldd_completed := (ld_bias.io.loop_id =/= ex.io.loop_id) || ld_bias.io.idle st.io.ex_completed := (ex.io.loop_id =/= st.io.loop_id) || ex.io.idle // Create config registers when(cmd.valid && is_loop_cmd && !loop_being_configured.configured) { switch (cmd.bits.cmd.inst.funct) { is (LOOP_CONV_WS_CONFIG_1) { loop_being_configured.outer_bounds.out_channels := cmd.bits.cmd.rs1(63, 48) loop_being_configured.outer_bounds.in_channels := cmd.bits.cmd.rs1(47, 32) loop_being_configured.outer_bounds.in_row_dim := cmd.bits.cmd.rs1(31, 16) loop_being_configured.outer_bounds.batch_size := cmd.bits.cmd.rs1(15, 0) loop_being_configured.outer_bounds.padding := cmd.bits.cmd.rs2(63, 56) loop_being_configured.outer_bounds.stride := cmd.bits.cmd.rs2(55, 48) loop_being_configured.outer_bounds.out_col_dim := cmd.bits.cmd.rs2(47, 32) loop_being_configured.outer_bounds.pool_out_row_dim := cmd.bits.cmd.rs2(31, 16) loop_being_configured.outer_bounds.out_row_dim := cmd.bits.cmd.rs2(15, 0) } is (LOOP_CONV_WS_CONFIG_2) { loop_being_configured.outer_bounds.kernel_dim := cmd.bits.cmd.rs1(63, 48) loop_being_configured.outer_bounds.pool_out_col_dim := cmd.bits.cmd.rs1(47, 32) loop_being_configured.outer_bounds.pool_size := (if (!has_max_pool) 1.U else cmd.bits.cmd.rs1(31, 16)) loop_being_configured.outer_bounds.pool_stride := (if (!has_max_pool) 1.U else cmd.bits.cmd.rs1(15, 8)) loop_being_configured.outer_bounds.pool_padding := (if (!has_max_pool) 0.U else cmd.bits.cmd.rs1(7, 0)) loop_being_configured.inner_bounds.batches := cmd.bits.cmd.rs2(63, 48) loop_being_configured.inner_bounds.porows := cmd.bits.cmd.rs2(47, 32) loop_being_configured.inner_bounds.pocols := cmd.bits.cmd.rs2(31, 16) loop_being_configured.inner_bounds.pochs := cmd.bits.cmd.rs2(15, 0) } is (LOOP_CONV_WS_CONFIG_3) { loop_being_configured.inner_bounds.krows := cmd.bits.cmd.rs1(63, 48) loop_being_configured.inner_bounds.kcols := cmd.bits.cmd.rs1(47, 32) loop_being_configured.inner_bounds.kchs := cmd.bits.cmd.rs1(31, 16) loop_being_configured.inner_bounds.lpad := cmd.bits.cmd.rs1(15, 0) loop_being_configured.inner_bounds.rpad := cmd.bits.cmd.rs2(63, 48) loop_being_configured.inner_bounds.upad := cmd.bits.cmd.rs2(47, 32) loop_being_configured.inner_bounds.dpad := cmd.bits.cmd.rs2(31, 24) loop_being_configured.inner_bounds.plpad := cmd.bits.cmd.rs2(23, 16) loop_being_configured.outer_bounds.in_col_dim := cmd.bits.cmd.rs2(15, 0) } is (LOOP_CONV_WS_CONFIG_4) { loop_being_configured.inner_bounds.orows := cmd.bits.cmd.rs1(63, 48) loop_being_configured.inner_bounds.prad := cmd.bits.cmd.rs1(47, 32) loop_being_configured.inner_bounds.pupad := cmd.bits.cmd.rs1(31, 21) loop_being_configured.inner_bounds.pdpad := cmd.bits.cmd.rs1(20, 10) loop_being_configured.outer_bounds.kernel_dilation := cmd.bits.cmd.rs1(9, 0) loop_being_configured.inner_bounds.ocols := cmd.bits.cmd.rs2(15, 0) loop_being_configured.outer_bounds.in_stride := cmd.bits.cmd.rs2(63, 48) loop_being_configured.outer_bounds.weight_stride := cmd.bits.cmd.rs2(47, 32) loop_being_configured.outer_bounds.out_stride := cmd.bits.cmd.rs2(31, 16) } is (LOOP_CONV_WS_CONFIG_5) { loop_being_configured.weights_dram_addr := cmd.bits.cmd.rs1 loop_being_configured.output_dram_addr := cmd.bits.cmd.rs2 } is (LOOP_CONV_WS_CONFIG_6) { loop_being_configured.bias_dram_addr := cmd.bits.cmd.rs1 loop_being_configured.input_dram_addr := cmd.bits.cmd.rs2 } is (LOOP_CONV_WS) { loop_being_configured.no_bias := cmd.bits.cmd.rs1(0) // TODO we added a default value for max_pixels_per_row just to maintain backwards compatibility. we should deprecate and remove it later val config_max_pixels_per_row = cmd.bits.cmd.rs1(15, 8) loop_being_configured.max_pixels_per_row := Mux( !has_first_layer_optimizations.B || config_max_pixels_per_row === 0.U, 1.U, config_max_pixels_per_row) loop_being_configured.a_ex_spad_id := cmd.bits.cmd.rs1(19, 18) loop_being_configured.b_ex_spad_id := cmd.bits.cmd.rs1(17, 16) loop_being_configured.wrot180 := has_training_convs.B && cmd.bits.cmd.rs1(1) loop_being_configured.input_dilated := has_training_convs.B && cmd.bits.cmd.rs2(2) loop_being_configured.trans_output_1203 := has_training_convs.B && cmd.bits.cmd.rs1(2) loop_being_configured.trans_weight_1203 := has_training_convs.B && cmd.bits.cmd.rs1(3) loop_being_configured.trans_weight_0132 := has_training_convs.B && cmd.bits.cmd.rs1(4) loop_being_configured.trans_input_3120 := has_training_convs.B && cmd.bits.cmd.rs1(5) loop_being_configured.dw := has_dw_convs.B && cmd.bits.cmd.rs1(6) loop_being_configured.no_pool := !has_max_pool.B || cmd.bits.cmd.rs2(0) loop_being_configured.activation := cmd.bits.cmd.rs2(4,3) loop_being_configured.downsample := cmd.bits.cmd.rs2(1) loop_being_configured.configured := true.B // assert(!loop_being_configured.input_dilated || loop_being_configured.outer_bounds.stride === 1.U) // assert(!loop_being_configured.downsample || (loop_being_configured.outer_bounds.kernel_dim === 1.U && loop_being_configured.outer_bounds.stride === 2.U)) // TODO add the rest of the conditions that must be true for "downsample" to be enabled } } } // Wire up request signals val ld_bias_addr_start = RegInit(0.U(log2Up(max_acc_addr).W)) val ex_c_addr_start = RegInit(0.U(log2Up(max_acc_addr).W)) val st_addr_start = RegInit(0.U(log2Up(max_acc_addr).W)) val loop_requesting_ld_bias_id = Mux(head_loop.ld_bias_started, tail_loop_id, head_loop_id) val loop_requesting_ld_bias = loops(loop_requesting_ld_bias_id) ld_bias.io.req.bits.outer_bounds := loop_requesting_ld_bias.outer_bounds ld_bias.io.req.bits.inner_bounds := loop_requesting_ld_bias.inner_bounds ld_bias.io.req.bits.derived_params := loop_requesting_ld_bias.derived_params() ld_bias.io.req.bits.addr_start := ld_bias_addr_start ld_bias.io.req.bits.dram_addr := loop_requesting_ld_bias.bias_dram_addr ld_bias.io.req.bits.no_bias := loop_requesting_ld_bias.no_bias ld_bias.io.req.bits.loop_id := loop_requesting_ld_bias_id ld_bias.io.req.valid := !loop_requesting_ld_bias.ld_bias_started && loop_requesting_ld_bias.configured when (ld_bias.io.req.fire) { loop_requesting_ld_bias.running := true.B loop_requesting_ld_bias.ld_bias_started := true.B // when (loop_requesting_ld_bias.bias_dram_addr =/= 0.U) { when (loop_requesting_ld_bias.output_dram_addr =/= 0.U) { ld_bias_addr_start := floorAdd(ld_bias_addr_start, (max_acc_addr / concurrent_loops).U, max_acc_addr.U) } } val loop_requesting_ld_input_id = Mux(head_loop.ld_input_started, tail_loop_id, head_loop_id) val loop_requesting_ld_input = loops(loop_requesting_ld_input_id) ld_input.io.req.bits.outer_bounds := loop_requesting_ld_input.outer_bounds ld_input.io.req.bits.inner_bounds := loop_requesting_ld_input.inner_bounds ld_input.io.req.bits.derived_params := loop_requesting_ld_input.derived_params() ld_input.io.req.bits.addr_start := Mux(loop_requesting_ld_input.a_ex_spad_id === 0.U, loop_requesting_ld_input.a_addr_start, (loop_requesting_ld_input.a_ex_spad_id - 1.U) * (max_addr / concurrent_loops).U) ld_input.io.req.bits.dram_addr := loop_requesting_ld_input.input_dram_addr ld_input.io.req.bits.downsample := loop_requesting_ld_input.downsample ld_input.io.req.bits.max_pixels_per_row := loop_requesting_ld_input.max_pixels_per_row ld_input.io.req.bits.input_dilated := loop_requesting_ld_input.input_dilated ld_input.io.req.bits.trans_input_3120 := loop_requesting_ld_input.trans_input_3120 ld_input.io.req.bits.loop_id := loop_requesting_ld_input_id ld_input.io.req.valid := !loop_requesting_ld_input.ld_input_started && loop_requesting_ld_input.configured when (ld_input.io.req.fire) { loop_requesting_ld_input.running := true.B loop_requesting_ld_input.ld_input_started := true.B } val loop_requesting_ld_weights_id = Mux(head_loop.ld_weights_started, tail_loop_id, head_loop_id) val loop_requesting_ld_weights = loops(loop_requesting_ld_weights_id) ld_weights.io.req.bits.outer_bounds := loop_requesting_ld_weights.outer_bounds ld_weights.io.req.bits.inner_bounds := loop_requesting_ld_weights.inner_bounds ld_weights.io.req.bits.derived_params := loop_requesting_ld_weights.derived_params() ld_weights.io.req.bits.addr_end := Mux(loop_requesting_ld_weights.b_ex_spad_id === 0.U, loop_requesting_ld_weights.b_addr_end, (loop_requesting_ld_weights.b_ex_spad_id) * (max_addr / concurrent_loops).U) ld_weights.io.req.bits.dram_addr := loop_requesting_ld_weights.weights_dram_addr ld_weights.io.req.bits.trans_weight_1203 := loop_requesting_ld_weights.trans_weight_1203 ld_weights.io.req.bits.trans_weight_0132 := loop_requesting_ld_weights.trans_weight_0132 ld_weights.io.req.bits.dw := loop_requesting_ld_weights.dw ld_weights.io.req.bits.loop_id := loop_requesting_ld_weights_id ld_weights.io.req.valid := !loop_requesting_ld_weights.ld_weights_started && loop_requesting_ld_weights.configured when (ld_weights.io.req.fire) { loop_requesting_ld_weights.running := true.B loop_requesting_ld_weights.ld_weights_started := true.B } val loop_requesting_ex_id = Mux(head_loop.ex_started, tail_loop_id, head_loop_id) val loop_requesting_ex = loops(loop_requesting_ex_id) ex.io.req.bits.outer_bounds := loop_requesting_ex.outer_bounds ex.io.req.bits.inner_bounds := loop_requesting_ex.inner_bounds ex.io.req.bits.derived_params := loop_requesting_ex.derived_params() ex.io.req.bits.a_addr_start := Mux(loop_requesting_ex.a_ex_spad_id === 0.U, loop_requesting_ex.a_addr_start, (loop_requesting_ex.a_ex_spad_id - 1.U) * (max_addr / concurrent_loops).U) ex.io.req.bits.b_addr_end := Mux(loop_requesting_ex.b_ex_spad_id === 0.U, loop_requesting_ex.b_addr_end, (loop_requesting_ex.b_ex_spad_id) * (max_addr / concurrent_loops).U) ex.io.req.bits.c_addr_start := ex_c_addr_start ex.io.req.bits.wrot180 := loop_requesting_ex.wrot180 ex.io.req.bits.downsample := loop_requesting_ex.downsample ex.io.req.bits.max_pixels_per_row := loop_requesting_ex.max_pixels_per_row ex.io.req.bits.input_dilated := loop_requesting_ex.input_dilated ex.io.req.bits.trans_weight_0132 := loop_requesting_ex.trans_weight_0132 ex.io.req.bits.trans_input_3120 := loop_requesting_ex.trans_input_3120 ex.io.req.bits.loop_id := loop_requesting_ex_id ex.io.req.valid := !loop_requesting_ex.ex_started && loop_requesting_ex.ld_bias_started && loop_requesting_ex.ld_input_started && loop_requesting_ex.ld_weights_started && loop_requesting_ex.configured when (ex.io.req.fire) { loop_requesting_ex.running := true.B loop_requesting_ex.ex_started := true.B when (loop_requesting_ex.output_dram_addr =/= 0.U) { ex_c_addr_start := floorAdd(ex_c_addr_start, (max_acc_addr / concurrent_loops).U, max_acc_addr.U) } } val loop_requesting_st_id = Mux(head_loop.st_started, tail_loop_id, head_loop_id) val loop_requesting_st = loops(loop_requesting_st_id) st.io.req.bits.outer_bounds := loop_requesting_st.outer_bounds st.io.req.bits.inner_bounds := loop_requesting_st.inner_bounds st.io.req.bits.derived_params := loop_requesting_st.derived_params() st.io.req.bits.addr_start := st_addr_start st.io.req.bits.dram_addr := loop_requesting_st.output_dram_addr st.io.req.bits.no_pool := loop_requesting_st.no_pool st.io.req.bits.activation := loop_requesting_st.activation st.io.req.bits.trans_output_1203 := loop_requesting_st.trans_output_1203 st.io.req.bits.loop_id := loop_requesting_st_id st.io.req.valid := !loop_requesting_st.st_started && loop_requesting_st.ex_started && loop_requesting_st.configured when (st.io.req.fire) { loop_requesting_st.running := true.B loop_requesting_st.st_started := true.B when (loop_requesting_st.output_dram_addr =/= 0.U) { st_addr_start := floorAdd(st_addr_start, (max_acc_addr / concurrent_loops).U, max_acc_addr.U) } } // Handle completed signals when (ld_bias.io.idle && loops(ld_bias.io.loop_id).running && loops(ld_bias.io.loop_id).ld_bias_started) { loops(ld_bias.io.loop_id).ld_bias_completed := true.B } when (ld_input.io.idle && loops(ld_input.io.loop_id).running && loops(ld_input.io.loop_id).ld_input_started) { loops(ld_input.io.loop_id).ld_input_completed := true.B } when (ld_weights.io.idle && loops(ld_weights.io.loop_id).running && loops(ld_weights.io.loop_id).ld_weights_started) { loops(ld_weights.io.loop_id).ld_weights_completed := true.B } when (ex.io.idle && loops(ex.io.loop_id).running && loops(ex.io.loop_id).ex_started) { loops(ex.io.loop_id).ex_completed := true.B } when (st.io.idle && loops(st.io.loop_id).running && loops(st.io.loop_id).st_started) { loops(st.io.loop_id).st_completed := true.B } when (head_loop.running && head_loop.all_completed()) { head_loop.reset() head_loop_id := ~head_loop_id } // Resets when (reset.asBool) { loops.zipWithIndex.foreach { case (l, i) => l.reset() l.a_addr_start := (i * (max_addr / concurrent_loops)).U l.b_addr_end := ((i+1) * (max_addr / concurrent_loops)).U } } } object LoopConv { def apply(in: DecoupledIO[GemminiCmd], ld_completed: UInt, st_completed: UInt, ex_completed: UInt, block_size: Int, coreMaxAddrBits: Int, rob_size: Int, max_lds: Int, max_exs: Int, max_sts: Int, max_addr: Int, max_acc_addr: Int, input_w: Int, acc_w: Int, dma_max_bytes: Int, config_mvin_rs1_t: ConfigMvinRs1, mvin_rs2_t: MvinRs2, config_mvout_rs2_t: ConfigMvoutRs2, mvout_rs2_t: MvoutRs2, config_ex_rs1_t: ConfigExRs1, preload_rs1_t: PreloadRs, preload_rs2_t: PreloadRs, compute_rs1_t: ComputeRs, compute_rs2_t: ComputeRs, has_training_convs: Boolean, has_max_pool: Boolean, has_first_layer_optimizations: Boolean, has_dw_convs: Boolean) (implicit p: Parameters): (DecoupledIO[GemminiCmd], Bool) = { val mod = Module(new LoopConv(block_size, coreMaxAddrBits, rob_size, max_lds, max_exs, max_sts, max_addr, max_acc_addr, input_w, acc_w, dma_max_bytes, config_mvin_rs1_t, mvin_rs2_t, config_mvout_rs2_t, mvout_rs2_t, config_ex_rs1_t, preload_rs1_t, preload_rs2_t, compute_rs1_t, compute_rs2_t, has_training_convs, has_max_pool, has_first_layer_optimizations, has_dw_convs)) mod.io.in <> in mod.io.ld_completed := ld_completed mod.io.st_completed := st_completed mod.io.ex_completed := ex_completed (mod.io.out, mod.io.busy) } def castDramOffset(dram_offset: UInt): UInt = { // Cast dram offsets to 32 bits max dram_offset & "hFFFFFFFF".U } } File LocalAddr.scala: package gemmini import chisel3._ import chisel3.util._ class LocalAddr(sp_banks: Int, sp_bank_entries: Int, acc_banks: Int, acc_bank_entries: Int) extends Bundle { private val localAddrBits = 32 // TODO magic number private val spAddrBits = log2Ceil(sp_banks * sp_bank_entries) private val accAddrBits = log2Ceil(acc_banks * acc_bank_entries) private val maxAddrBits = spAddrBits max accAddrBits private val spBankBits = log2Up(sp_banks) private val spBankRowBits = log2Up(sp_bank_entries) private val accBankBits = log2Up(acc_banks) val accBankRowBits = log2Up(acc_bank_entries) val spRows = sp_banks * sp_bank_entries val is_acc_addr = Bool() val accumulate = Bool() val read_full_acc_row = Bool() val norm_cmd = NormCmd() private val metadata_w = is_acc_addr.getWidth + accumulate.getWidth + read_full_acc_row.getWidth + norm_cmd.getWidth assert(maxAddrBits + metadata_w < 32) val garbage = UInt(((localAddrBits - maxAddrBits - metadata_w - 1) max 0).W) val garbage_bit = if (localAddrBits - maxAddrBits >= metadata_w + 1) UInt(1.W) else UInt(0.W) val data = UInt(maxAddrBits.W) def sp_bank(dummy: Int = 0) = if (spAddrBits == spBankRowBits) 0.U else data(spAddrBits - 1, spBankRowBits) def sp_row(dummy: Int = 0) = data(spBankRowBits - 1, 0) def acc_bank(dummy: Int = 0) = if (accAddrBits == accBankRowBits) 0.U else data(accAddrBits - 1, accBankRowBits) def acc_row(dummy: Int = 0) = data(accBankRowBits - 1, 0) def full_sp_addr(dummy: Int = 0) = data(spAddrBits - 1, 0) def full_acc_addr(dummy: Int = 0) = data(accAddrBits - 1, 0) def is_same_address(other: LocalAddr): Bool = is_acc_addr === other.is_acc_addr && data === other.data def is_same_address(other: UInt): Bool = is_same_address(other.asTypeOf(this)) def is_garbage(dummy: Int = 0) = is_acc_addr && accumulate && read_full_acc_row && data.andR && (if (garbage_bit.getWidth > 0) garbage_bit.asBool else true.B) def +(other: UInt) = { require(isPow2(sp_bank_entries)) // TODO remove this requirement require(isPow2(acc_bank_entries)) // TODO remove this requirement val result = WireInit(this) result.data := data + other result } def <=(other: LocalAddr) = is_acc_addr === other.is_acc_addr && Mux(is_acc_addr, full_acc_addr() <= other.full_acc_addr(), full_sp_addr() <= other.full_sp_addr()) def <(other: LocalAddr) = is_acc_addr === other.is_acc_addr && Mux(is_acc_addr, full_acc_addr() < other.full_acc_addr(), full_sp_addr() < other.full_sp_addr()) def >(other: LocalAddr) = is_acc_addr === other.is_acc_addr && Mux(is_acc_addr, full_acc_addr() > other.full_acc_addr(), full_sp_addr() > other.full_sp_addr()) def add_with_overflow(other: UInt): Tuple2[LocalAddr, Bool] = { require(isPow2(sp_bank_entries)) // TODO remove this requirement require(isPow2(acc_bank_entries)) // TODO remove this requirement val sum = data +& other val overflow = Mux(is_acc_addr, sum(accAddrBits), sum(spAddrBits)) val result = WireInit(this) result.data := sum(maxAddrBits - 1, 0) (result, overflow) } // This function can only be used with non-accumulator addresses. Returns both new address and underflow def floorSub(other: UInt, floor: UInt): (LocalAddr, Bool) = { require(isPow2(sp_bank_entries)) // TODO remove this requirement require(isPow2(acc_bank_entries)) // TODO remove this requirement val underflow = data < (floor +& other) val result = WireInit(this) result.data := Mux(underflow, floor, data - other) (result, underflow) } def make_this_garbage(dummy: Int = 0): Unit = { is_acc_addr := true.B accumulate := true.B read_full_acc_row := true.B garbage_bit := 1.U data := ~(0.U(maxAddrBits.W)) } } object LocalAddr { def cast_to_local_addr[T <: Data](local_addr_t: LocalAddr, t: T): LocalAddr = { // This convenience function is basically the same as calling "asTypeOf(local_addr_t)". However, this convenience // function will also cast unnecessary garbage bits to 0, which may help reduce multiplier/adder bitwidths val result = WireInit(t.asTypeOf(local_addr_t)) if (result.garbage_bit.getWidth > 0) result.garbage := 0.U result } def cast_to_sp_addr[T <: Data](local_addr_t: LocalAddr, t: T): LocalAddr = { // This function is a wrapper around cast_to_local_addr, but it assumes that the input will not be the garbage // address val result = WireInit(cast_to_local_addr(local_addr_t, t)) result.is_acc_addr := false.B result.accumulate := false.B result.read_full_acc_row := false.B // assert(!result.garbage_bit, "cast_to_sp_addr doesn't work on garbage addresses") result } def cast_to_acc_addr[T <: Data](local_addr_t: LocalAddr, t: T, accumulate: Bool, read_full: Bool): LocalAddr = { // This function is a wrapper around cast_to_local_addr, but it assumes that the input will not be the garbage // address val result = WireInit(cast_to_local_addr(local_addr_t, t)) result.is_acc_addr := true.B result.accumulate := accumulate result.read_full_acc_row := read_full // assert(!result.garbage_bit, "cast_to_acc_addr doesn't work on garbage addresses") result } def garbage_addr(local_addr_t: LocalAddr): LocalAddr = { val result = Wire(chiselTypeOf(local_addr_t)) result := DontCare result.make_this_garbage() result } } File Util.scala: package gemmini import chisel3._ import chisel3.util._ object Util { def wrappingAdd(u: UInt, n: UInt, max_plus_one: Int): UInt = { val max = max_plus_one - 1 if (max == 0) { 0.U } else { assert(n <= max.U, "cannot wrapAdd when n is larger than max") Mux(u >= max.U - n + 1.U && n =/= 0.U, n - (max.U - u) - 1.U, u + n) } } def wrappingAdd(u: UInt, n: UInt, max_plus_one: UInt, en: Bool = true.B): UInt = { val max = max_plus_one - 1.U assert(n <= max || max === 0.U, "cannot wrapAdd when n is larger than max, unless max is 0") /* Mux(!en, u, Mux (max === 0.U, 0.U, Mux(u >= max - n + 1.U && n =/= 0.U, n - (max - u) - 1.U, u + n))) */ MuxCase(u + n, Seq( (!en) -> u, (max === 0.U) -> 0.U, (u >= max - n + 1.U && n =/= 0.U) -> (n - (max - u) - 1.U) )) } def satAdd(u: UInt, v: UInt, max: UInt): UInt = { Mux(u +& v > max, max, u + v) } def floorAdd(u: UInt, n: UInt, max_plus_one: UInt, en: Bool = true.B): UInt = { val max = max_plus_one - 1.U MuxCase(u + n, Seq( (!en) -> u, ((u +& n) > max) -> 0.U )) } def sFloorAdd(s: SInt, n: UInt, max_plus_one: SInt, min: SInt, en: Bool = true.B): SInt = { val max = max_plus_one - 1.S MuxCase(s + n.zext, Seq( (!en) -> s, ((s +& n.zext) > max) -> min )) } def wrappingSub(u: UInt, n: UInt, max_plus_one: Int): UInt = { val max = max_plus_one - 1 assert(n <= max.U, "cannot wrapSub when n is larger than max") Mux(u < n, max.U - (n-u) + 1.U, u - n) } def ceilingDivide(numer: Int, denom: Int): Int = { if (numer % denom == 0) { numer / denom } else { numer / denom + 1} } def closestLowerPowerOf2(u: UInt): UInt = { // TODO figure out a more efficient way of doing this. Is this many muxes really necessary? val exp = u.asBools.zipWithIndex.map { case (b, i) => Mux(b, i.U, 0.U) }.reduce((acc, u) => Mux(acc > u, acc, u)) (1.U << exp).asUInt } def closestAlignedLowerPowerOf2(u: UInt, addr: UInt, stride: UInt, rowBytes: Int): UInt = { val lgRowBytes = log2Ceil(rowBytes) // TODO figure out a more efficient way of doing this. Is this many muxes really necessary? val exp = u.asBools.zipWithIndex.map { case (b, i) => Mux(b && addr(i + lgRowBytes - 1, 0) === 0.U && stride(i + lgRowBytes - 1, 0) === 0.U, i.U, 0.U) }.reduce((acc, u) => Mux(acc > u, acc, u)) (1.U << exp).asUInt } // This function will return "next" with a 0-cycle delay when the "enable" signal is high. It's like a queue with // the "pipe" and "flow" parameters set to "true" def RegEnableThru[T <: Data](next: T, enable: Bool): T = { val buf = RegEnable(next, enable) Mux(enable, next, buf) } def RegEnableThru[T <: Data](next: T, init: T, enable: Bool): T = { val buf = RegEnable(next, init, enable) Mux(enable, next, buf) } def maxOf(u1: UInt, u2: UInt): UInt = { Mux(u1 > u2, u1, u2) } def maxOf[T <: Data](x: T, y: T)(implicit ev: Arithmetic[T]): T = { import ev._ Mux(x > y, x, y) } def minOf(u1: UInt, u2: UInt): UInt = { Mux(u1 < u2, u1, u2) } def accumulateTree[T <: Data](xs: Seq[T])(implicit ev: Arithmetic[T]): T = { import ev._ assert(xs.nonEmpty, "can't accumulate 0 elements") if (xs.length == 1) { xs.head } else { val upperRowLen = 1 << log2Ceil(xs.length) val upperRow = xs.padTo(upperRowLen, xs.head.zero) val pairs = upperRow.grouped(2) val lowerRow = pairs.map { case Seq(a, b) => a + b } accumulateTree(lowerRow.toSeq) } } // An undirectioned Valid bundle class UDValid[T <: Data](t: T) extends Bundle { val valid = Bool() val bits = t.cloneType def push(b: T): Unit = { valid := true.B bits := b } def pop(dummy: Int = 0): T = { valid := false.B bits } } object UDValid { def apply[T <: Data](t: T): UDValid[T] = new UDValid(t) } // creates a Reg and the next-state Wire, and returns both def regwire(bits: Int) = { val wire = Wire(UInt(bits.W)) val reg = RegNext(wire) wire := reg // default wire to read from reg (reg, wire) } }
module LoopConvExecute( // @[LoopConv.scala:596:7] input clock, // @[LoopConv.scala:596:7] input reset, // @[LoopConv.scala:596:7] output io_req_ready, // @[LoopConv.scala:600:14] input io_req_valid, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_batch_size, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_in_row_dim, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_in_col_dim, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_in_channels, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_out_channels, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_out_col_dim, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_out_row_dim, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_out_stride, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_in_stride, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_weight_stride, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_pool_out_row_dim, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_pool_out_col_dim, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_stride, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_padding, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_kernel_dim, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_kernel_dilation, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_pool_size, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_pool_stride, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_outer_bounds_pool_padding, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_batches, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_porows, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_pocols, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_pochs, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_krows, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_kcols, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_kchs, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_lpad, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_rpad, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_upad, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_dpad, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_plpad, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_prad, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_pupad, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_pdpad, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_orows, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_inner_bounds_ocols, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_derived_params_ochs, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_derived_params_irows, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_derived_params_icols, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_derived_params_irows_unpadded, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_derived_params_icols_unpadded, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_derived_params_ichs, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_derived_params_out_channels_per_bank, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_derived_params_in_channels_per_bank, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_derived_params_bias_spad_stride, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_derived_params_input_spad_stride, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_derived_params_weight_spad_stride, // @[LoopConv.scala:600:14] input [13:0] io_req_bits_a_addr_start, // @[LoopConv.scala:600:14] input [14:0] io_req_bits_b_addr_end, // @[LoopConv.scala:600:14] input [11:0] io_req_bits_c_addr_start, // @[LoopConv.scala:600:14] input io_req_bits_wrot180, // @[LoopConv.scala:600:14] input io_req_bits_downsample, // @[LoopConv.scala:600:14] input [15:0] io_req_bits_max_pixels_per_row, // @[LoopConv.scala:600:14] input io_req_bits_input_dilated, // @[LoopConv.scala:600:14] input io_req_bits_trans_weight_0132, // @[LoopConv.scala:600:14] input io_req_bits_trans_input_3120, // @[LoopConv.scala:600:14] input io_req_bits_loop_id, // @[LoopConv.scala:600:14] input io_cmd_ready, // @[LoopConv.scala:600:14] output io_cmd_valid, // @[LoopConv.scala:600:14] output [6:0] io_cmd_bits_inst_funct, // @[LoopConv.scala:600:14] output [4:0] io_cmd_bits_inst_rs2, // @[LoopConv.scala:600:14] output [4:0] io_cmd_bits_inst_rs1, // @[LoopConv.scala:600:14] output io_cmd_bits_inst_xd, // @[LoopConv.scala:600:14] output io_cmd_bits_inst_xs1, // @[LoopConv.scala:600:14] output io_cmd_bits_inst_xs2, // @[LoopConv.scala:600:14] output [4:0] io_cmd_bits_inst_rd, // @[LoopConv.scala:600:14] output [6:0] io_cmd_bits_inst_opcode, // @[LoopConv.scala:600:14] output [63:0] io_cmd_bits_rs1, // @[LoopConv.scala:600:14] output [63:0] io_cmd_bits_rs2, // @[LoopConv.scala:600:14] output io_cmd_bits_status_debug, // @[LoopConv.scala:600:14] output io_cmd_bits_status_cease, // @[LoopConv.scala:600:14] output io_cmd_bits_status_wfi, // @[LoopConv.scala:600:14] output [31:0] io_cmd_bits_status_isa, // @[LoopConv.scala:600:14] output [1:0] io_cmd_bits_status_dprv, // @[LoopConv.scala:600:14] output io_cmd_bits_status_dv, // @[LoopConv.scala:600:14] output [1:0] io_cmd_bits_status_prv, // @[LoopConv.scala:600:14] output io_cmd_bits_status_v, // @[LoopConv.scala:600:14] output io_cmd_bits_status_sd, // @[LoopConv.scala:600:14] output [22:0] io_cmd_bits_status_zero2, // @[LoopConv.scala:600:14] output io_cmd_bits_status_mpv, // @[LoopConv.scala:600:14] output io_cmd_bits_status_gva, // @[LoopConv.scala:600:14] output io_cmd_bits_status_mbe, // @[LoopConv.scala:600:14] output io_cmd_bits_status_sbe, // @[LoopConv.scala:600:14] output [1:0] io_cmd_bits_status_sxl, // @[LoopConv.scala:600:14] output [1:0] io_cmd_bits_status_uxl, // @[LoopConv.scala:600:14] output io_cmd_bits_status_sd_rv32, // @[LoopConv.scala:600:14] output [7:0] io_cmd_bits_status_zero1, // @[LoopConv.scala:600:14] output io_cmd_bits_status_tsr, // @[LoopConv.scala:600:14] output io_cmd_bits_status_tw, // @[LoopConv.scala:600:14] output io_cmd_bits_status_tvm, // @[LoopConv.scala:600:14] output io_cmd_bits_status_mxr, // @[LoopConv.scala:600:14] output io_cmd_bits_status_sum, // @[LoopConv.scala:600:14] output io_cmd_bits_status_mprv, // @[LoopConv.scala:600:14] output [1:0] io_cmd_bits_status_xs, // @[LoopConv.scala:600:14] output [1:0] io_cmd_bits_status_fs, // @[LoopConv.scala:600:14] output [1:0] io_cmd_bits_status_mpp, // @[LoopConv.scala:600:14] output [1:0] io_cmd_bits_status_vs, // @[LoopConv.scala:600:14] output io_cmd_bits_status_spp, // @[LoopConv.scala:600:14] output io_cmd_bits_status_mpie, // @[LoopConv.scala:600:14] output io_cmd_bits_status_ube, // @[LoopConv.scala:600:14] output io_cmd_bits_status_spie, // @[LoopConv.scala:600:14] output io_cmd_bits_status_upie, // @[LoopConv.scala:600:14] output io_cmd_bits_status_mie, // @[LoopConv.scala:600:14] output io_cmd_bits_status_hie, // @[LoopConv.scala:600:14] output io_cmd_bits_status_sie, // @[LoopConv.scala:600:14] output io_cmd_bits_status_uie, // @[LoopConv.scala:600:14] input io_lda_completed, // @[LoopConv.scala:600:14] input io_ldb_completed, // @[LoopConv.scala:600:14] input io_ldd_completed, // @[LoopConv.scala:600:14] output io_idle, // @[LoopConv.scala:600:14] input io_rob_overloaded, // @[LoopConv.scala:600:14] output io_loop_id // @[LoopConv.scala:600:14] ); wire _comp_cmd_rs1_local_addr_result_result_WIRE_is_acc_addr; // @[LocalAddr.scala:108:37] wire _comp_cmd_rs1_local_addr_result_result_WIRE_accumulate; // @[LocalAddr.scala:108:37] wire _comp_cmd_rs1_local_addr_result_result_WIRE_read_full_acc_row; // @[LocalAddr.scala:108:37] wire [2:0] _comp_cmd_rs1_local_addr_result_result_WIRE_norm_cmd; // @[LocalAddr.scala:108:37] wire _comp_cmd_rs1_local_addr_result_result_WIRE_garbage_bit; // @[LocalAddr.scala:108:37] wire [13:0] _comp_cmd_rs1_local_addr_result_result_WIRE_data; // @[LocalAddr.scala:108:37] wire [4:0] comp_cmd_rs1_num_cols; // @[LoopConv.scala:763:28] wire [2:0] comp_cmd_rs1_local_addr_norm_cmd; // @[LoopConv.scala:763:28] wire _pre_cmd_rs2_local_addr_result_result_WIRE_is_acc_addr; // @[LocalAddr.scala:108:37] wire _pre_cmd_rs2_local_addr_result_result_WIRE_accumulate; // @[LocalAddr.scala:108:37] wire _pre_cmd_rs2_local_addr_result_result_WIRE_read_full_acc_row; // @[LocalAddr.scala:108:37] wire [2:0] _pre_cmd_rs2_local_addr_result_result_WIRE_norm_cmd; // @[LocalAddr.scala:108:37] wire _pre_cmd_rs2_local_addr_result_result_WIRE_garbage_bit; // @[LocalAddr.scala:108:37] wire [13:0] _pre_cmd_rs2_local_addr_result_result_WIRE_data; // @[LocalAddr.scala:108:37] wire [2:0] pre_cmd_rs2_local_addr_norm_cmd; // @[LoopConv.scala:753:27] wire _pre_cmd_rs1_local_addr_result_result_WIRE_is_acc_addr; // @[LocalAddr.scala:108:37] wire _pre_cmd_rs1_local_addr_result_result_WIRE_accumulate; // @[LocalAddr.scala:108:37] wire _pre_cmd_rs1_local_addr_result_result_WIRE_read_full_acc_row; // @[LocalAddr.scala:108:37] wire [2:0] _pre_cmd_rs1_local_addr_result_result_WIRE_norm_cmd; // @[LocalAddr.scala:108:37] wire _pre_cmd_rs1_local_addr_result_result_WIRE_garbage_bit; // @[LocalAddr.scala:108:37] wire [13:0] _pre_cmd_rs1_local_addr_result_result_WIRE_data; // @[LocalAddr.scala:108:37] wire [4:0] pre_cmd_rs1_num_cols; // @[LoopConv.scala:746:27] wire [2:0] pre_cmd_rs1_local_addr_norm_cmd; // @[LoopConv.scala:746:27] wire _command_p_io_in_ready; // @[LoopConv.scala:691:25] wire _command_p_io_out_valid; // @[LoopConv.scala:691:25] wire [6:0] _command_p_io_out_bits_cmd_inst_funct; // @[LoopConv.scala:691:25] wire [63:0] _command_p_io_out_bits_cmd_rs1; // @[LoopConv.scala:691:25] wire [63:0] _command_p_io_out_bits_cmd_rs2; // @[LoopConv.scala:691:25] wire [51:0] _command_p_io_out_bits_a_addr; // @[LoopConv.scala:691:25] wire [67:0] _command_p_io_out_bits_b_addr; // @[LoopConv.scala:691:25] wire [67:0] _command_p_io_out_bits_c_addr; // @[LoopConv.scala:691:25] wire [16:0] _command_p_io_out_bits_I; // @[LoopConv.scala:691:25] wire [15:0] _command_p_io_out_bits_J; // @[LoopConv.scala:691:25] wire [31:0] _command_p_io_out_bits_K; // @[LoopConv.scala:691:25] wire _command_p_io_out_bits_new_weights; // @[LoopConv.scala:691:25] wire _command_p_io_busy; // @[LoopConv.scala:691:25] wire io_req_valid_0 = io_req_valid; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_batch_size_0 = io_req_bits_outer_bounds_batch_size; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_in_row_dim_0 = io_req_bits_outer_bounds_in_row_dim; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_in_col_dim_0 = io_req_bits_outer_bounds_in_col_dim; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_in_channels_0 = io_req_bits_outer_bounds_in_channels; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_out_channels_0 = io_req_bits_outer_bounds_out_channels; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_out_col_dim_0 = io_req_bits_outer_bounds_out_col_dim; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_out_row_dim_0 = io_req_bits_outer_bounds_out_row_dim; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_out_stride_0 = io_req_bits_outer_bounds_out_stride; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_in_stride_0 = io_req_bits_outer_bounds_in_stride; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_weight_stride_0 = io_req_bits_outer_bounds_weight_stride; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_pool_out_row_dim_0 = io_req_bits_outer_bounds_pool_out_row_dim; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_pool_out_col_dim_0 = io_req_bits_outer_bounds_pool_out_col_dim; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_stride_0 = io_req_bits_outer_bounds_stride; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_padding_0 = io_req_bits_outer_bounds_padding; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_kernel_dim_0 = io_req_bits_outer_bounds_kernel_dim; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_kernel_dilation_0 = io_req_bits_outer_bounds_kernel_dilation; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_pool_size_0 = io_req_bits_outer_bounds_pool_size; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_pool_stride_0 = io_req_bits_outer_bounds_pool_stride; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_outer_bounds_pool_padding_0 = io_req_bits_outer_bounds_pool_padding; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_batches_0 = io_req_bits_inner_bounds_batches; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_porows_0 = io_req_bits_inner_bounds_porows; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_pocols_0 = io_req_bits_inner_bounds_pocols; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_pochs_0 = io_req_bits_inner_bounds_pochs; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_krows_0 = io_req_bits_inner_bounds_krows; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_kcols_0 = io_req_bits_inner_bounds_kcols; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_kchs_0 = io_req_bits_inner_bounds_kchs; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_lpad_0 = io_req_bits_inner_bounds_lpad; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_rpad_0 = io_req_bits_inner_bounds_rpad; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_upad_0 = io_req_bits_inner_bounds_upad; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_dpad_0 = io_req_bits_inner_bounds_dpad; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_plpad_0 = io_req_bits_inner_bounds_plpad; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_prad_0 = io_req_bits_inner_bounds_prad; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_pupad_0 = io_req_bits_inner_bounds_pupad; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_pdpad_0 = io_req_bits_inner_bounds_pdpad; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_orows_0 = io_req_bits_inner_bounds_orows; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_inner_bounds_ocols_0 = io_req_bits_inner_bounds_ocols; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_derived_params_ochs_0 = io_req_bits_derived_params_ochs; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_derived_params_irows_0 = io_req_bits_derived_params_irows; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_derived_params_icols_0 = io_req_bits_derived_params_icols; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_derived_params_irows_unpadded_0 = io_req_bits_derived_params_irows_unpadded; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_derived_params_icols_unpadded_0 = io_req_bits_derived_params_icols_unpadded; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_derived_params_ichs_0 = io_req_bits_derived_params_ichs; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_derived_params_out_channels_per_bank_0 = io_req_bits_derived_params_out_channels_per_bank; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_derived_params_in_channels_per_bank_0 = io_req_bits_derived_params_in_channels_per_bank; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_derived_params_bias_spad_stride_0 = io_req_bits_derived_params_bias_spad_stride; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_derived_params_input_spad_stride_0 = io_req_bits_derived_params_input_spad_stride; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_derived_params_weight_spad_stride_0 = io_req_bits_derived_params_weight_spad_stride; // @[LoopConv.scala:596:7] wire [13:0] io_req_bits_a_addr_start_0 = io_req_bits_a_addr_start; // @[LoopConv.scala:596:7] wire [14:0] io_req_bits_b_addr_end_0 = io_req_bits_b_addr_end; // @[LoopConv.scala:596:7] wire [11:0] io_req_bits_c_addr_start_0 = io_req_bits_c_addr_start; // @[LoopConv.scala:596:7] wire io_req_bits_wrot180_0 = io_req_bits_wrot180; // @[LoopConv.scala:596:7] wire io_req_bits_downsample_0 = io_req_bits_downsample; // @[LoopConv.scala:596:7] wire [15:0] io_req_bits_max_pixels_per_row_0 = io_req_bits_max_pixels_per_row; // @[LoopConv.scala:596:7] wire io_req_bits_input_dilated_0 = io_req_bits_input_dilated; // @[LoopConv.scala:596:7] wire io_req_bits_trans_weight_0132_0 = io_req_bits_trans_weight_0132; // @[LoopConv.scala:596:7] wire io_req_bits_trans_input_3120_0 = io_req_bits_trans_input_3120; // @[LoopConv.scala:596:7] wire io_req_bits_loop_id_0 = io_req_bits_loop_id; // @[LoopConv.scala:596:7] wire io_cmd_ready_0 = io_cmd_ready; // @[LoopConv.scala:596:7] wire io_lda_completed_0 = io_lda_completed; // @[LoopConv.scala:596:7] wire io_ldb_completed_0 = io_ldb_completed; // @[LoopConv.scala:596:7] wire io_ldd_completed_0 = io_ldd_completed; // @[LoopConv.scala:596:7] wire io_rob_overloaded_0 = io_rob_overloaded; // @[LoopConv.scala:596:7] wire [5:0] config_cmd_rs1__spacer1 = 6'h0; // @[LoopConv.scala:698:28] wire [15:0] config_cmd_rs2_relu6_shift = 16'h0; // @[LoopConv.scala:704:28] wire [2:0] config_cmd_rs1_lo_hi_hi = 3'h4; // @[LoopConv.scala:708:36] wire [4:0] config_cmd_rs1_lo_hi = 5'h10; // @[LoopConv.scala:708:36] wire [7:0] config_cmd_rs1_lo = 8'h80; // @[LoopConv.scala:708:36] wire [6:0] pre_cmd_inst_funct = 7'h6; // @[LoopConv.scala:711:21, :743:46] wire [63:0] pre_cmd_rs1 = 64'h0; // @[LoopConv.scala:711:21] wire [63:0] pre_cmd_rs2 = 64'h0; // @[LoopConv.scala:711:21] wire [63:0] comp_cmd_rs1 = 64'h0; // @[LoopConv.scala:717:22] wire [63:0] comp_cmd_rs2 = 64'h0; // @[LoopConv.scala:717:22] wire [4:0] config_cmd_inst_rs2 = 5'h0; // @[LoopConv.scala:694:24] wire [4:0] config_cmd_inst_rs1 = 5'h0; // @[LoopConv.scala:694:24] wire [4:0] config_cmd_inst_rd = 5'h0; // @[LoopConv.scala:694:24] wire [4:0] pre_cmd_inst_rs2 = 5'h0; // @[LoopConv.scala:711:21] wire [4:0] pre_cmd_inst_rs1 = 5'h0; // @[LoopConv.scala:711:21] wire [4:0] pre_cmd_inst_rd = 5'h0; // @[LoopConv.scala:711:21] wire [4:0] comp_cmd_inst_rs2 = 5'h0; // @[LoopConv.scala:717:22] wire [4:0] comp_cmd_inst_rs1 = 5'h0; // @[LoopConv.scala:717:22] wire [4:0] comp_cmd_inst_rd = 5'h0; // @[LoopConv.scala:717:22] wire [4:0] _command_p_io_in_bits_cmd_T_2_inst_rs2 = 5'h0; // @[Mux.scala:126:16] wire [4:0] _command_p_io_in_bits_cmd_T_2_inst_rs1 = 5'h0; // @[Mux.scala:126:16] wire [4:0] _command_p_io_in_bits_cmd_T_2_inst_rd = 5'h0; // @[Mux.scala:126:16] wire [4:0] _command_p_io_in_bits_cmd_T_3_inst_rs2 = 5'h0; // @[Mux.scala:126:16] wire [4:0] _command_p_io_in_bits_cmd_T_3_inst_rs1 = 5'h0; // @[Mux.scala:126:16] wire [4:0] _command_p_io_in_bits_cmd_T_3_inst_rd = 5'h0; // @[Mux.scala:126:16] wire [6:0] config_cmd_inst_funct = 7'h0; // @[LoopConv.scala:694:24] wire [6:0] config_cmd_inst_opcode = 7'h0; // @[LoopConv.scala:694:24] wire [6:0] config_cmd_rs1_hi_lo_hi = 7'h0; // @[LoopConv.scala:708:36] wire [6:0] pre_cmd_inst_opcode = 7'h0; // @[LoopConv.scala:711:21] wire [6:0] comp_cmd_inst_opcode = 7'h0; // @[LoopConv.scala:717:22] wire [6:0] _command_p_io_in_bits_cmd_T_2_inst_opcode = 7'h0; // @[Mux.scala:126:16] wire [6:0] _command_p_io_in_bits_cmd_T_3_inst_opcode = 7'h0; // @[Mux.scala:126:16] wire [31:0] config_cmd_status_isa = 32'h0; // @[LoopConv.scala:694:24] wire [31:0] config_cmd_rs1_acc_scale = 32'h0; // @[LoopConv.scala:698:28] wire [31:0] config_cmd_rs2_in_shift = 32'h0; // @[LoopConv.scala:704:28] wire [31:0] config_cmd_rs1_hi_hi_hi = 32'h0; // @[LoopConv.scala:708:36] wire [31:0] pre_cmd_status_isa = 32'h0; // @[LoopConv.scala:711:21] wire [31:0] comp_cmd_status_isa = 32'h0; // @[LoopConv.scala:717:22] wire [31:0] _command_p_io_in_bits_cmd_T_2_status_isa = 32'h0; // @[Mux.scala:126:16] wire [31:0] _command_p_io_in_bits_cmd_T_3_status_isa = 32'h0; // @[Mux.scala:126:16] wire [22:0] config_cmd_status_zero2 = 23'h0; // @[LoopConv.scala:694:24] wire [22:0] pre_cmd_status_zero2 = 23'h0; // @[LoopConv.scala:711:21] wire [22:0] comp_cmd_status_zero2 = 23'h0; // @[LoopConv.scala:717:22] wire [22:0] _command_p_io_in_bits_cmd_T_2_status_zero2 = 23'h0; // @[Mux.scala:126:16] wire [22:0] _command_p_io_in_bits_cmd_T_3_status_zero2 = 23'h0; // @[Mux.scala:126:16] wire [7:0] config_cmd_status_zero1 = 8'h0; // @[LoopConv.scala:694:24] wire [7:0] config_cmd_rs1_hi_lo = 8'h0; // @[LoopConv.scala:708:36] wire [7:0] pre_cmd_status_zero1 = 8'h0; // @[LoopConv.scala:711:21] wire [7:0] comp_cmd_status_zero1 = 8'h0; // @[LoopConv.scala:717:22] wire [7:0] _command_p_io_in_bits_cmd_T_2_status_zero1 = 8'h0; // @[Mux.scala:126:16] wire [7:0] _command_p_io_in_bits_cmd_T_3_status_zero1 = 8'h0; // @[Mux.scala:126:16] wire [12:0] pre_cmd_rs1__spacer2 = 13'h0; // @[LoopConv.scala:746:27] wire [12:0] pre_cmd_rs2__spacer2 = 13'h0; // @[LoopConv.scala:753:27] wire [12:0] comp_cmd_rs1__spacer2 = 13'h0; // @[LoopConv.scala:763:28] wire [12:0] comp_cmd_rs2__spacer2 = 13'h0; // @[LoopConv.scala:769:28] wire [10:0] pre_cmd_rs1__spacer1 = 11'h0; // @[LoopConv.scala:746:27] wire [10:0] pre_cmd_rs1_local_addr_garbage = 11'h0; // @[LoopConv.scala:746:27] wire [10:0] pre_cmd_rs1_local_addr_result_result_garbage = 11'h0; // @[LocalAddr.scala:108:26] wire [10:0] pre_cmd_rs1_local_addr_result_garbage = 11'h0; // @[LocalAddr.scala:116:26] wire [10:0] pre_cmd_rs1_local_addr_result_1_garbage = 11'h0; // @[LocalAddr.scala:140:22] wire [10:0] _pre_cmd_rs1_local_addr_T_garbage = 11'h0; // @[LoopConv.scala:750:34] wire [10:0] pre_cmd_rs2__spacer1 = 11'h0; // @[LoopConv.scala:753:27] wire [10:0] pre_cmd_rs2_local_addr_garbage = 11'h0; // @[LoopConv.scala:753:27] wire [10:0] pre_cmd_rs2_local_addr_result_result_garbage = 11'h0; // @[LocalAddr.scala:108:26] wire [10:0] pre_cmd_rs2_local_addr_result_garbage = 11'h0; // @[LocalAddr.scala:129:26] wire [10:0] comp_cmd_rs1__spacer1 = 11'h0; // @[LoopConv.scala:763:28] wire [10:0] comp_cmd_rs1_local_addr_garbage = 11'h0; // @[LoopConv.scala:763:28] wire [10:0] comp_cmd_rs1_local_addr_result_result_garbage = 11'h0; // @[LocalAddr.scala:108:26] wire [10:0] comp_cmd_rs1_local_addr_result_garbage = 11'h0; // @[LocalAddr.scala:116:26] wire [10:0] comp_cmd_rs2__spacer1 = 11'h0; // @[LoopConv.scala:769:28] wire [10:0] comp_cmd_rs2_local_addr_garbage = 11'h0; // @[LoopConv.scala:769:28] wire [10:0] comp_cmd_rs2_local_addr_result_garbage = 11'h0; // @[LocalAddr.scala:140:22] wire config_cmd_rs1_set_only_strides = 1'h1; // @[LoopConv.scala:698:28] wire pre_cmd_rs1_local_addr_result_1_is_acc_addr = 1'h1; // @[LocalAddr.scala:140:22] wire pre_cmd_rs1_local_addr_result_1_accumulate = 1'h1; // @[LocalAddr.scala:140:22] wire pre_cmd_rs1_local_addr_result_1_read_full_acc_row = 1'h1; // @[LocalAddr.scala:140:22] wire pre_cmd_rs1_local_addr_result_1_garbage_bit = 1'h1; // @[LocalAddr.scala:140:22] wire pre_cmd_rs2_local_addr_is_acc_addr = 1'h1; // @[LoopConv.scala:753:27] wire pre_cmd_rs2_local_addr_accumulate = 1'h1; // @[LoopConv.scala:753:27] wire pre_cmd_rs2_local_addr_result_is_acc_addr = 1'h1; // @[LocalAddr.scala:129:26] wire pre_cmd_rs2_local_addr_result_accumulate = 1'h1; // @[LocalAddr.scala:129:26] wire comp_cmd_rs2_local_addr_is_acc_addr = 1'h1; // @[LoopConv.scala:769:28] wire comp_cmd_rs2_local_addr_accumulate = 1'h1; // @[LoopConv.scala:769:28] wire comp_cmd_rs2_local_addr_read_full_acc_row = 1'h1; // @[LoopConv.scala:769:28] wire comp_cmd_rs2_local_addr_garbage_bit = 1'h1; // @[LoopConv.scala:769:28] wire comp_cmd_rs2_local_addr_result_is_acc_addr = 1'h1; // @[LocalAddr.scala:140:22] wire comp_cmd_rs2_local_addr_result_accumulate = 1'h1; // @[LocalAddr.scala:140:22] wire comp_cmd_rs2_local_addr_result_read_full_acc_row = 1'h1; // @[LocalAddr.scala:140:22] wire comp_cmd_rs2_local_addr_result_garbage_bit = 1'h1; // @[LocalAddr.scala:140:22] wire [13:0] pre_cmd_rs1_local_addr_result_1_data = 14'h3FFF; // @[LocalAddr.scala:140:22] wire [13:0] _pre_cmd_rs1_local_addr_result_data_T = 14'h3FFF; // @[LocalAddr.scala:99:13] wire [13:0] comp_cmd_rs2_local_addr_data = 14'h3FFF; // @[LoopConv.scala:769:28] wire [13:0] comp_cmd_rs2_local_addr_result_data = 14'h3FFF; // @[LocalAddr.scala:140:22] wire [13:0] _comp_cmd_rs2_local_addr_result_data_T = 14'h3FFF; // @[LocalAddr.scala:99:13] wire [1:0] config_cmd_status_dprv = 2'h0; // @[LoopConv.scala:618:22, :694:24] wire [1:0] config_cmd_status_prv = 2'h0; // @[LoopConv.scala:618:22, :694:24] wire [1:0] config_cmd_status_sxl = 2'h0; // @[LoopConv.scala:618:22, :694:24] wire [1:0] config_cmd_status_uxl = 2'h0; // @[LoopConv.scala:618:22, :694:24] wire [1:0] config_cmd_status_xs = 2'h0; // @[LoopConv.scala:618:22, :694:24] wire [1:0] config_cmd_status_fs = 2'h0; // @[LoopConv.scala:618:22, :694:24] wire [1:0] config_cmd_status_mpp = 2'h0; // @[LoopConv.scala:618:22, :694:24] wire [1:0] config_cmd_status_vs = 2'h0; // @[LoopConv.scala:618:22, :694:24] wire [1:0] config_cmd_rs1__spacer0 = 2'h0; // @[LoopConv.scala:618:22, :698:28] wire [1:0] config_cmd_rs1_activation = 2'h0; // @[LoopConv.scala:618:22, :698:28] wire [1:0] config_cmd_rs1_cmd_type = 2'h0; // @[LoopConv.scala:618:22, :698:28] wire [1:0] pre_cmd_status_dprv = 2'h0; // @[LoopConv.scala:618:22, :711:21] wire [1:0] pre_cmd_status_prv = 2'h0; // @[LoopConv.scala:618:22, :711:21] wire [1:0] pre_cmd_status_sxl = 2'h0; // @[LoopConv.scala:618:22, :711:21] wire [1:0] pre_cmd_status_uxl = 2'h0; // @[LoopConv.scala:618:22, :711:21] wire [1:0] pre_cmd_status_xs = 2'h0; // @[LoopConv.scala:618:22, :711:21] wire [1:0] pre_cmd_status_fs = 2'h0; // @[LoopConv.scala:618:22, :711:21] wire [1:0] pre_cmd_status_mpp = 2'h0; // @[LoopConv.scala:618:22, :711:21] wire [1:0] pre_cmd_status_vs = 2'h0; // @[LoopConv.scala:618:22, :711:21] wire [1:0] comp_cmd_status_dprv = 2'h0; // @[LoopConv.scala:618:22, :717:22] wire [1:0] comp_cmd_status_prv = 2'h0; // @[LoopConv.scala:618:22, :717:22] wire [1:0] comp_cmd_status_sxl = 2'h0; // @[LoopConv.scala:618:22, :717:22] wire [1:0] comp_cmd_status_uxl = 2'h0; // @[LoopConv.scala:618:22, :717:22] wire [1:0] comp_cmd_status_xs = 2'h0; // @[LoopConv.scala:618:22, :717:22] wire [1:0] comp_cmd_status_fs = 2'h0; // @[LoopConv.scala:618:22, :717:22] wire [1:0] comp_cmd_status_mpp = 2'h0; // @[LoopConv.scala:618:22, :717:22] wire [1:0] comp_cmd_status_vs = 2'h0; // @[LoopConv.scala:618:22, :717:22] wire [1:0] _command_p_io_in_bits_cmd_T_2_status_dprv = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_2_status_prv = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_2_status_sxl = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_2_status_uxl = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_2_status_xs = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_2_status_fs = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_2_status_mpp = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_2_status_vs = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_3_status_dprv = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_3_status_prv = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_3_status_sxl = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_3_status_uxl = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_3_status_xs = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_3_status_fs = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_3_status_mpp = 2'h0; // @[Mux.scala:126:16] wire [1:0] _command_p_io_in_bits_cmd_T_3_status_vs = 2'h0; // @[Mux.scala:126:16] wire [1:0] io_cmd_bits_rs1_hi_hi_2 = 2'h0; // @[LoopConv.scala:618:22, :775:37] wire [2:0] config_cmd_rs1_lo_lo = 3'h0; // @[LoopConv.scala:708:36] wire [2:0] pre_cmd_rs1_local_addr_result_1_norm_cmd = 3'h0; // @[LocalAddr.scala:140:22] wire [2:0] comp_cmd_rs2_local_addr_norm_cmd = 3'h0; // @[LoopConv.scala:769:28] wire [2:0] comp_cmd_rs2_local_addr_result_norm_cmd = 3'h0; // @[LocalAddr.scala:140:22] wire [2:0] _io_cmd_bits_rs2_T_3 = 3'h0; // @[LoopConv.scala:776:37] wire [11:0] io_cmd_bits_rs2_lo_hi_2 = 12'h1; // @[LoopConv.scala:776:37] wire [25:0] io_cmd_bits_rs2_lo_2 = 26'h7FFF; // @[LoopConv.scala:776:37] wire [3:0] io_cmd_bits_rs2_hi_lo_1 = 4'h8; // @[LoopConv.scala:776:37] wire [1:0] io_cmd_bits_rs2_hi_hi = 2'h3; // @[LoopConv.scala:760:36] wire [1:0] io_cmd_bits_rs2_hi_hi_2 = 2'h3; // @[LoopConv.scala:776:37] wire [5:0] io_cmd_bits_rs2_hi_2 = 6'h38; // @[LoopConv.scala:776:37] wire [31:0] _io_cmd_bits_rs2_T_4 = 32'hE0007FFF; // @[LoopConv.scala:776:37] wire config_cmd_inst_xd = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_inst_xs1 = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_inst_xs2 = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_debug = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_cease = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_wfi = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_dv = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_v = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_sd = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_mpv = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_gva = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_mbe = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_sbe = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_sd_rv32 = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_tsr = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_tw = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_tvm = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_mxr = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_sum = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_mprv = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_spp = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_mpie = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_ube = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_spie = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_upie = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_mie = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_hie = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_sie = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_status_uie = 1'h0; // @[LoopConv.scala:694:24] wire config_cmd_rs1_b_transpose = 1'h0; // @[LoopConv.scala:698:28] wire config_cmd_rs1_a_transpose = 1'h0; // @[LoopConv.scala:698:28] wire config_cmd_rs1_dataflow = 1'h0; // @[LoopConv.scala:698:28] wire pre_cmd_inst_xd = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_inst_xs1 = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_inst_xs2 = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_debug = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_cease = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_wfi = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_dv = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_v = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_sd = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_mpv = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_gva = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_mbe = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_sbe = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_sd_rv32 = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_tsr = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_tw = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_tvm = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_mxr = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_sum = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_mprv = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_spp = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_mpie = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_ube = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_spie = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_upie = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_mie = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_hie = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_sie = 1'h0; // @[LoopConv.scala:711:21] wire pre_cmd_status_uie = 1'h0; // @[LoopConv.scala:711:21] wire comp_cmd_inst_xd = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_inst_xs1 = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_inst_xs2 = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_debug = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_cease = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_wfi = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_dv = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_v = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_sd = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_mpv = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_gva = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_mbe = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_sbe = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_sd_rv32 = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_tsr = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_tw = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_tvm = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_mxr = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_sum = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_mprv = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_spp = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_mpie = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_ube = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_spie = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_upie = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_mie = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_hie = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_sie = 1'h0; // @[LoopConv.scala:717:22] wire comp_cmd_status_uie = 1'h0; // @[LoopConv.scala:717:22] wire _io_req_ready_T_2; // @[LoopConv.scala:726:34] wire _command_p_io_in_bits_cmd_T_2_inst_xd = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_inst_xs1 = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_inst_xs2 = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_debug = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_cease = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_wfi = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_dv = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_v = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_sd = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_mpv = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_gva = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_mbe = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_sbe = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_sd_rv32 = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_tsr = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_tw = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_tvm = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_mxr = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_sum = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_mprv = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_spp = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_mpie = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_ube = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_spie = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_upie = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_mie = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_hie = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_sie = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_2_status_uie = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_inst_xd = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_inst_xs1 = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_inst_xs2 = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_debug = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_cease = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_wfi = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_dv = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_v = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_sd = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_mpv = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_gva = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_mbe = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_sbe = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_sd_rv32 = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_tsr = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_tw = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_tvm = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_mxr = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_sum = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_mprv = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_spp = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_mpie = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_ube = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_spie = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_upie = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_mie = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_hie = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_sie = 1'h0; // @[Mux.scala:126:16] wire _command_p_io_in_bits_cmd_T_3_status_uie = 1'h0; // @[Mux.scala:126:16] wire pre_cmd_rs1_local_addr_result_is_acc_addr = 1'h0; // @[LocalAddr.scala:116:26] wire pre_cmd_rs1_local_addr_result_accumulate = 1'h0; // @[LocalAddr.scala:116:26] wire pre_cmd_rs1_local_addr_result_read_full_acc_row = 1'h0; // @[LocalAddr.scala:116:26] wire pre_cmd_rs2_local_addr_read_full_acc_row = 1'h0; // @[LoopConv.scala:753:27] wire pre_cmd_rs2_local_addr_result_read_full_acc_row = 1'h0; // @[LocalAddr.scala:129:26] wire comp_cmd_rs1_local_addr_is_acc_addr = 1'h0; // @[LoopConv.scala:763:28] wire comp_cmd_rs1_local_addr_accumulate = 1'h0; // @[LoopConv.scala:763:28] wire comp_cmd_rs1_local_addr_read_full_acc_row = 1'h0; // @[LoopConv.scala:763:28] wire comp_cmd_rs1_local_addr_result_is_acc_addr = 1'h0; // @[LocalAddr.scala:116:26] wire comp_cmd_rs1_local_addr_result_accumulate = 1'h0; // @[LocalAddr.scala:116:26] wire comp_cmd_rs1_local_addr_result_read_full_acc_row = 1'h0; // @[LocalAddr.scala:116:26] wire _next_ocol_T_2 = 1'h0; // @[Util.scala:42:8] wire _io_cmd_valid_T_1; // @[LoopConv.scala:741:42] wire _io_idle_T_2; // @[LoopConv.scala:727:29] wire io_req_ready_0; // @[LoopConv.scala:596:7] wire [6:0] io_cmd_bits_inst_funct_0; // @[LoopConv.scala:596:7] wire [4:0] io_cmd_bits_inst_rs2_0; // @[LoopConv.scala:596:7] wire [4:0] io_cmd_bits_inst_rs1_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_inst_xd_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_inst_xs1_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_inst_xs2_0; // @[LoopConv.scala:596:7] wire [4:0] io_cmd_bits_inst_rd_0; // @[LoopConv.scala:596:7] wire [6:0] io_cmd_bits_inst_opcode_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_debug_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_cease_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_wfi_0; // @[LoopConv.scala:596:7] wire [31:0] io_cmd_bits_status_isa_0; // @[LoopConv.scala:596:7] wire [1:0] io_cmd_bits_status_dprv_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_dv_0; // @[LoopConv.scala:596:7] wire [1:0] io_cmd_bits_status_prv_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_v_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_sd_0; // @[LoopConv.scala:596:7] wire [22:0] io_cmd_bits_status_zero2_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_mpv_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_gva_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_mbe_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_sbe_0; // @[LoopConv.scala:596:7] wire [1:0] io_cmd_bits_status_sxl_0; // @[LoopConv.scala:596:7] wire [1:0] io_cmd_bits_status_uxl_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_sd_rv32_0; // @[LoopConv.scala:596:7] wire [7:0] io_cmd_bits_status_zero1_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_tsr_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_tw_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_tvm_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_mxr_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_sum_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_mprv_0; // @[LoopConv.scala:596:7] wire [1:0] io_cmd_bits_status_xs_0; // @[LoopConv.scala:596:7] wire [1:0] io_cmd_bits_status_fs_0; // @[LoopConv.scala:596:7] wire [1:0] io_cmd_bits_status_mpp_0; // @[LoopConv.scala:596:7] wire [1:0] io_cmd_bits_status_vs_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_spp_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_mpie_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_ube_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_spie_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_upie_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_mie_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_hie_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_sie_0; // @[LoopConv.scala:596:7] wire io_cmd_bits_status_uie_0; // @[LoopConv.scala:596:7] wire [63:0] io_cmd_bits_rs1_0; // @[LoopConv.scala:596:7] wire [63:0] io_cmd_bits_rs2_0; // @[LoopConv.scala:596:7] wire io_cmd_valid_0; // @[LoopConv.scala:596:7] wire io_idle_0; // @[LoopConv.scala:596:7] wire io_loop_id_0; // @[LoopConv.scala:596:7] reg [1:0] state; // @[LoopConv.scala:618:22] reg [15:0] req_outer_bounds_batch_size; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_in_row_dim; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_in_col_dim; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_in_channels; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_out_channels; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_out_col_dim; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_out_row_dim; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_out_stride; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_in_stride; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_weight_stride; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_pool_out_row_dim; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_pool_out_col_dim; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_stride; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_padding; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_kernel_dim; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_kernel_dilation; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_pool_size; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_pool_stride; // @[LoopConv.scala:620:16] reg [15:0] req_outer_bounds_pool_padding; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_batches; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_porows; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_pocols; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_pochs; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_krows; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_kcols; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_kchs; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_lpad; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_rpad; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_upad; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_dpad; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_plpad; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_prad; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_pupad; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_pdpad; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_orows; // @[LoopConv.scala:620:16] reg [15:0] req_inner_bounds_ocols; // @[LoopConv.scala:620:16] reg [15:0] req_derived_params_ochs; // @[LoopConv.scala:620:16] reg [15:0] req_derived_params_irows; // @[LoopConv.scala:620:16] reg [15:0] req_derived_params_icols; // @[LoopConv.scala:620:16] reg [15:0] req_derived_params_irows_unpadded; // @[LoopConv.scala:620:16] reg [15:0] req_derived_params_icols_unpadded; // @[LoopConv.scala:620:16] reg [15:0] req_derived_params_ichs; // @[LoopConv.scala:620:16] reg [15:0] req_derived_params_out_channels_per_bank; // @[LoopConv.scala:620:16] reg [15:0] req_derived_params_in_channels_per_bank; // @[LoopConv.scala:620:16] reg [15:0] req_derived_params_bias_spad_stride; // @[LoopConv.scala:620:16] reg [15:0] req_derived_params_input_spad_stride; // @[LoopConv.scala:620:16] reg [15:0] req_derived_params_weight_spad_stride; // @[LoopConv.scala:620:16] reg [13:0] req_a_addr_start; // @[LoopConv.scala:620:16] reg [14:0] req_b_addr_end; // @[LoopConv.scala:620:16] reg [11:0] req_c_addr_start; // @[LoopConv.scala:620:16] reg req_wrot180; // @[LoopConv.scala:620:16] reg req_downsample; // @[LoopConv.scala:620:16] reg [15:0] req_max_pixels_per_row; // @[LoopConv.scala:620:16] reg req_input_dilated; // @[LoopConv.scala:620:16] reg req_trans_weight_0132; // @[LoopConv.scala:620:16] reg req_trans_input_3120; // @[LoopConv.scala:620:16] reg req_loop_id; // @[LoopConv.scala:620:16] assign io_loop_id_0 = req_loop_id; // @[LoopConv.scala:596:7, :620:16] wire [31:0] _GEN = {16'h0, req_inner_bounds_kcols}; // @[LoopConv.scala:620:16, :629:64] wire [31:0] _B_rows_T = {16'h0, req_derived_params_in_channels_per_bank} * _GEN; // @[LoopConv.scala:620:16, :629:64] wire [47:0] _GEN_0 = {32'h0, req_inner_bounds_krows}; // @[LoopConv.scala:620:16, :629:72] wire [47:0] _B_rows_T_1 = {16'h0, _B_rows_T} * _GEN_0; // @[LoopConv.scala:629:{64,72}] wire [63:0] _GEN_1 = {48'h0, req_derived_params_ochs}; // @[LoopConv.scala:620:16, :629:80] wire [63:0] _B_rows_T_2 = {16'h0, _B_rows_T_1} * _GEN_1; // @[LoopConv.scala:629:{72,80}] wire [31:0] _B_rows_T_3 = {16'h0, req_derived_params_out_channels_per_bank} * _GEN; // @[LoopConv.scala:620:16, :629:64, :630:27] wire [47:0] _B_rows_T_4 = {16'h0, _B_rows_T_3} * _GEN_0; // @[LoopConv.scala:629:72, :630:{27,35}] wire [63:0] _GEN_2 = {48'h0, req_inner_bounds_kchs}; // @[LoopConv.scala:620:16, :629:80, :630:43] wire [63:0] _B_rows_T_5 = {16'h0, _B_rows_T_4} * _GEN_2; // @[LoopConv.scala:630:{35,43}] wire [63:0] B_rows = req_trans_weight_0132 ? _B_rows_T_2 : _B_rows_T_5; // @[LoopConv.scala:620:16, :629:{19,80}, :630:43] wire [64:0] _b_addr_start_T = {50'h0, req_b_addr_end} - {1'h0, B_rows}; // @[LoopConv.scala:620:16, :629:19, :633:37] wire [63:0] b_addr_start = _b_addr_start_T[63:0]; // @[LoopConv.scala:633:37] reg [15:0] och; // @[LoopConv.scala:637:16] reg [15:0] krow; // @[LoopConv.scala:638:17] reg [15:0] kcol; // @[LoopConv.scala:639:17] reg [15:0] kch; // @[LoopConv.scala:640:16] reg [15:0] b; // @[LoopConv.scala:641:14] reg [15:0] orow; // @[LoopConv.scala:642:17] reg [15:0] ocol; // @[LoopConv.scala:643:17] wire _skip_iteration_T = state[1]; // @[LoopConv.scala:618:22, :646:30] wire _skip_iteration_T_1 = _skip_iteration_T & req_input_dilated; // @[LoopConv.scala:620:16, :646:{30,37}] wire [31:0] _GEN_3 = {16'h0, req_outer_bounds_kernel_dilation}; // @[LoopConv.scala:620:16, :646:69] wire [31:0] _GEN_4 = {16'h0, krow} * _GEN_3; // @[LoopConv.scala:638:17, :646:69] wire [31:0] _skip_iteration_T_2; // @[LoopConv.scala:646:69] assign _skip_iteration_T_2 = _GEN_4; // @[LoopConv.scala:646:69] wire [31:0] _irow_T_1; // @[LoopConv.scala:651:46] assign _irow_T_1 = _GEN_4; // @[LoopConv.scala:646:69, :651:46] wire [32:0] _skip_iteration_T_3 = {1'h0, _skip_iteration_T_2} + {17'h0, orow}; // @[LoopConv.scala:642:17, :646:{69,87}] wire [33:0] _skip_iteration_T_4 = {1'h0, _skip_iteration_T_3} - {18'h0, req_inner_bounds_upad}; // @[LoopConv.scala:620:16, :646:{87,95}] wire [33:0] _skip_iteration_T_5 = _skip_iteration_T_4; // @[LoopConv.scala:646:95] wire _skip_iteration_T_6 = _skip_iteration_T_5[0]; // @[LoopConv.scala:646:{95,103}] wire _skip_iteration_T_7 = _skip_iteration_T_6 & req_input_dilated; // @[LoopConv.scala:620:16, :646:{103,107}] wire [31:0] _GEN_5 = {16'h0, kcol} * _GEN_3; // @[LoopConv.scala:639:17, :646:69, :647:12] wire [31:0] _skip_iteration_T_8; // @[LoopConv.scala:647:12] assign _skip_iteration_T_8 = _GEN_5; // @[LoopConv.scala:647:12] wire [31:0] _icol_T_1; // @[LoopConv.scala:652:46] assign _icol_T_1 = _GEN_5; // @[LoopConv.scala:647:12, :652:46] wire [32:0] _skip_iteration_T_9 = {1'h0, _skip_iteration_T_8} + {17'h0, ocol}; // @[LoopConv.scala:643:17, :646:87, :647:{12,30}] wire [33:0] _skip_iteration_T_10 = {1'h0, _skip_iteration_T_9} - {18'h0, req_inner_bounds_lpad}; // @[LoopConv.scala:620:16, :646:95, :647:{30,38}] wire [33:0] _skip_iteration_T_11 = _skip_iteration_T_10; // @[LoopConv.scala:647:38] wire _skip_iteration_T_12 = _skip_iteration_T_11[0]; // @[LoopConv.scala:647:{38,46}] wire _skip_iteration_T_13 = _skip_iteration_T_12 & req_input_dilated; // @[LoopConv.scala:620:16, :647:{46,50}] wire _skip_iteration_T_14 = _skip_iteration_T_7 | _skip_iteration_T_13; // @[LoopConv.scala:646:{107,135}, :647:50] wire skip_iteration = _skip_iteration_T_1 & _skip_iteration_T_14; // @[LoopConv.scala:646:{37,58,135}] wire [16:0] _GEN_6 = {1'h0, req_inner_bounds_kcols}; // @[LoopConv.scala:620:16, :649:26] wire [16:0] _GEN_7 = {1'h0, kcol}; // @[LoopConv.scala:639:17, :649:26] wire [16:0] _GEN_8 = _GEN_6 - _GEN_7; // @[LoopConv.scala:649:26] wire [16:0] _pixels_T; // @[LoopConv.scala:649:26] assign _pixels_T = _GEN_8; // @[LoopConv.scala:649:26] wire [16:0] _pixels_T_3; // @[LoopConv.scala:649:89] assign _pixels_T_3 = _GEN_8; // @[LoopConv.scala:649:{26,89}] wire [16:0] _kcol_rot_T; // @[LoopConv.scala:675:41] assign _kcol_rot_T = _GEN_8; // @[LoopConv.scala:649:26, :675:41] wire [15:0] _pixels_T_1 = _pixels_T[15:0]; // @[LoopConv.scala:649:26] wire _pixels_T_2 = _pixels_T_1 > req_max_pixels_per_row; // @[LoopConv.scala:620:16, :649:{26,33}] wire [15:0] _pixels_T_4 = _pixels_T_3[15:0]; // @[LoopConv.scala:649:89] wire [15:0] pixels = _pixels_T_2 ? req_max_pixels_per_row : _pixels_T_4; // @[LoopConv.scala:620:16, :649:{19,33,89}] wire [31:0] _GEN_9 = {16'h0, orow}; // @[LoopConv.scala:642:17, :651:29] wire [31:0] _GEN_10 = {16'h0, req_outer_bounds_stride}; // @[LoopConv.scala:620:16, :651:29] wire [31:0] _irow_T = _GEN_9 * _GEN_10; // @[LoopConv.scala:651:29] wire [32:0] _irow_T_2 = {1'h0, _irow_T} + {1'h0, _irow_T_1}; // @[LoopConv.scala:651:{29,38,46}] wire [33:0] _GEN_11 = {33'h0, req_input_dilated}; // @[LoopConv.scala:620:16, :626:37] wire [33:0] _irow_T_3 = {1'h0, _irow_T_2} + _GEN_11; // @[LoopConv.scala:626:37, :651:38] wire [33:0] irow = _irow_T_3 >> _GEN_11; // @[LoopConv.scala:626:{37,59}] wire [31:0] _icol_T = {16'h0, ocol} * _GEN_10; // @[LoopConv.scala:643:17, :651:29, :652:29] wire [32:0] _icol_T_2 = {1'h0, _icol_T} + {1'h0, _icol_T_1}; // @[LoopConv.scala:652:{29,38,46}] wire [33:0] _icol_T_3 = {1'h0, _icol_T_2} + _GEN_11; // @[LoopConv.scala:626:37, :652:38] wire [33:0] icol = _icol_T_3 >> _GEN_11; // @[LoopConv.scala:626:{37,59}] wire [16:0] _GEN_12 = {1'h0, req_inner_bounds_batches}; // @[LoopConv.scala:620:16, :655:17] wire [16:0] _GEN_13 = {1'h0, b}; // @[LoopConv.scala:641:14, :655:17] wire [16:0] _GEN_14 = _GEN_12 - _GEN_13; // @[LoopConv.scala:655:17] wire [16:0] _I_T; // @[LoopConv.scala:655:17] assign _I_T = _GEN_14; // @[LoopConv.scala:655:17] wire [16:0] _I_T_3; // @[LoopConv.scala:655:59] assign _I_T_3 = _GEN_14; // @[LoopConv.scala:655:{17,59}] wire [15:0] _I_T_1 = _I_T[15:0]; // @[LoopConv.scala:655:17] wire _I_T_2 = _I_T_1 > 16'h4; // @[LoopConv.scala:655:{17,21}] wire [15:0] _I_T_4 = _I_T_3[15:0]; // @[LoopConv.scala:655:59] wire [15:0] _I_T_5 = _I_T_2 ? 16'h4 : _I_T_4; // @[LoopConv.scala:655:{8,21,59}] wire [16:0] _GEN_15 = {1'h0, req_inner_bounds_ocols}; // @[LoopConv.scala:620:16, :656:25] wire [16:0] _GEN_16 = {1'h0, ocol}; // @[LoopConv.scala:643:17, :656:25] wire [16:0] _GEN_17 = _GEN_15 - _GEN_16; // @[LoopConv.scala:656:25] wire [16:0] _I_T_6; // @[LoopConv.scala:656:25] assign _I_T_6 = _GEN_17; // @[LoopConv.scala:656:25] wire [16:0] _I_T_11; // @[LoopConv.scala:656:128] assign _I_T_11 = _GEN_17; // @[LoopConv.scala:656:{25,128}] wire [15:0] _I_T_7 = _I_T_6[15:0]; // @[LoopConv.scala:656:25] wire [3:0] _GEN_18 = 4'h4 << req_input_dilated; // @[LoopConv.scala:620:16, :656:48] wire [3:0] _I_T_8; // @[LoopConv.scala:656:48] assign _I_T_8 = _GEN_18; // @[LoopConv.scala:656:48] wire [3:0] _I_T_10; // @[LoopConv.scala:656:92] assign _I_T_10 = _GEN_18; // @[LoopConv.scala:656:{48,92}] wire [3:0] _ocol_it_T_1; // @[LoopConv.scala:792:83] assign _ocol_it_T_1 = _GEN_18; // @[LoopConv.scala:656:48, :792:83] wire _I_T_9 = _I_T_7 > {12'h0, _I_T_8}; // @[LoopConv.scala:656:{25,32,48}] wire [15:0] _I_T_12 = _I_T_11[15:0]; // @[LoopConv.scala:656:128] wire [15:0] _I_T_13 = _I_T_9 ? {12'h0, _I_T_10} : _I_T_12; // @[LoopConv.scala:656:{18,32,92,128}] wire [16:0] _GEN_19 = {16'h0, req_input_dilated}; // @[LoopConv.scala:620:16, :626:37] wire [16:0] _I_T_14 = {1'h0, _I_T_13} + _GEN_19; // @[LoopConv.scala:626:37, :656:18] wire [16:0] _I_T_15 = _I_T_14 >> _GEN_19; // @[LoopConv.scala:626:{37,59}] wire [16:0] I = req_trans_input_3120 ? {1'h0, _I_T_5} : _I_T_15; // @[LoopConv.scala:620:16, :626:59, :654:14, :655:8] wire [16:0] _GEN_20 = {1'h0, req_derived_params_ochs}; // @[LoopConv.scala:620:16, :657:20] wire [16:0] _GEN_21 = {1'h0, och}; // @[LoopConv.scala:637:16, :657:20] wire [16:0] _GEN_22 = _GEN_20 - _GEN_21; // @[LoopConv.scala:657:20] wire [16:0] _J_T; // @[LoopConv.scala:657:20] assign _J_T = _GEN_22; // @[LoopConv.scala:657:20] wire [16:0] _J_T_3; // @[LoopConv.scala:657:61] assign _J_T_3 = _GEN_22; // @[LoopConv.scala:657:{20,61}] wire [15:0] _J_T_1 = _J_T[15:0]; // @[LoopConv.scala:657:20] wire _J_T_2 = _J_T_1 > 16'h4; // @[LoopConv.scala:655:21, :657:{20,26}] wire [15:0] _J_T_4 = _J_T_3[15:0]; // @[LoopConv.scala:657:61] wire [15:0] J = _J_T_2 ? 16'h4 : _J_T_4; // @[LoopConv.scala:655:21, :657:{14,26,61}] wire [16:0] _GEN_23 = {1'h0, req_inner_bounds_kchs}; // @[LoopConv.scala:620:16, :658:29] wire [16:0] _GEN_24 = {1'h0, kch}; // @[LoopConv.scala:640:16, :658:29] wire [16:0] _GEN_25 = _GEN_23 - _GEN_24; // @[LoopConv.scala:658:29] wire [16:0] _K_T; // @[LoopConv.scala:658:29] assign _K_T = _GEN_25; // @[LoopConv.scala:658:29] wire [16:0] _K_T_3; // @[LoopConv.scala:658:70] assign _K_T_3 = _GEN_25; // @[LoopConv.scala:658:{29,70}] wire [15:0] _K_T_1 = _K_T[15:0]; // @[LoopConv.scala:658:29] wire _K_T_2 = _K_T_1 > 16'h4; // @[LoopConv.scala:655:21, :658:{29,35}] wire [15:0] _K_T_4 = _K_T_3[15:0]; // @[LoopConv.scala:658:70] wire [15:0] _K_T_5 = _K_T_2 ? 16'h4 : _K_T_4; // @[LoopConv.scala:655:21, :658:{23,35,70}] wire [31:0] K = {16'h0, pixels} * {16'h0, _K_T_5}; // @[LoopConv.scala:649:19, :658:{18,23}] wire [15:0] _a_addr_T = b / 16'h4; // @[LoopConv.scala:641:14, :655:21, :662:24] wire [31:0] _GEN_26 = {16'h0, req_derived_params_input_spad_stride}; // @[LoopConv.scala:620:16, :662:40] wire [31:0] _a_addr_T_1 = {16'h0, _a_addr_T} * _GEN_26; // @[LoopConv.scala:662:{24,40}] wire [32:0] _GEN_27 = {19'h0, req_a_addr_start}; // @[LoopConv.scala:620:16, :662:18] wire [32:0] _a_addr_T_2 = _GEN_27 + {1'h0, _a_addr_T_1}; // @[LoopConv.scala:662:{18,40}] wire [15:0] _GEN_28 = {15'h0, req_downsample}; // @[LoopConv.scala:620:16, :662:76] wire [15:0] _GEN_29 = req_derived_params_irows >> _GEN_28; // @[LoopConv.scala:620:16, :662:76] wire [15:0] _a_addr_T_3; // @[LoopConv.scala:662:76] assign _a_addr_T_3 = _GEN_29; // @[LoopConv.scala:662:76] wire [15:0] _a_addr_T_17; // @[LoopConv.scala:663:92] assign _a_addr_T_17 = _GEN_29; // @[LoopConv.scala:662:76, :663:92] wire [31:0] _a_addr_T_4 = {16'h0, kch} * {16'h0, _a_addr_T_3}; // @[LoopConv.scala:640:16, :662:{67,76}] wire [15:0] _GEN_30 = req_derived_params_icols >> _GEN_28; // @[LoopConv.scala:620:16, :662:{76,104}] wire [15:0] _a_addr_T_5; // @[LoopConv.scala:662:104] assign _a_addr_T_5 = _GEN_30; // @[LoopConv.scala:662:104] wire [15:0] _a_addr_T_9; // @[LoopConv.scala:662:160] assign _a_addr_T_9 = _GEN_30; // @[LoopConv.scala:662:{104,160}] wire [15:0] _a_addr_T_19; // @[LoopConv.scala:663:120] assign _a_addr_T_19 = _GEN_30; // @[LoopConv.scala:662:104, :663:120] wire [15:0] _a_addr_T_23; // @[LoopConv.scala:663:176] assign _a_addr_T_23 = _GEN_30; // @[LoopConv.scala:662:104, :663:176] wire [47:0] _a_addr_T_6 = {16'h0, _a_addr_T_4} * {32'h0, _a_addr_T_5}; // @[LoopConv.scala:662:{67,95,104}] wire [48:0] _a_addr_T_7 = {16'h0, _a_addr_T_2} + {1'h0, _a_addr_T_6}; // @[LoopConv.scala:662:{18,60,95}] wire [33:0] _GEN_31 = {33'h0, req_downsample}; // @[LoopConv.scala:620:16, :626:37, :662:132] wire [33:0] _GEN_32 = irow >> _GEN_31; // @[LoopConv.scala:626:59, :662:132] wire [33:0] _a_addr_T_8; // @[LoopConv.scala:662:132] assign _a_addr_T_8 = _GEN_32; // @[LoopConv.scala:662:132] wire [33:0] _a_addr_T_22; // @[LoopConv.scala:663:148] assign _a_addr_T_22 = _GEN_32; // @[LoopConv.scala:662:132, :663:148] wire [49:0] _a_addr_T_10 = {16'h0, _a_addr_T_8} * {34'h0, _a_addr_T_9}; // @[LoopConv.scala:662:{132,151,160}] wire [50:0] _a_addr_T_11 = {2'h0, _a_addr_T_7} + {1'h0, _a_addr_T_10}; // @[LoopConv.scala:618:22, :662:{60,123,151}] wire [33:0] _GEN_33 = icol >> _GEN_31; // @[LoopConv.scala:626:59, :662:{132,188}] wire [33:0] _a_addr_T_12; // @[LoopConv.scala:662:188] assign _a_addr_T_12 = _GEN_33; // @[LoopConv.scala:662:188] wire [33:0] _a_addr_T_26; // @[LoopConv.scala:663:204] assign _a_addr_T_26 = _GEN_33; // @[LoopConv.scala:662:188, :663:204] wire [51:0] _a_addr_T_13 = {1'h0, _a_addr_T_11} + {18'h0, _a_addr_T_12}; // @[LoopConv.scala:646:95, :662:{123,179,188}] wire [15:0] _GEN_34 = kch / 16'h4; // @[LoopConv.scala:640:16, :655:21, :663:26] wire [15:0] _a_addr_T_14; // @[LoopConv.scala:663:26] assign _a_addr_T_14 = _GEN_34; // @[LoopConv.scala:663:26] wire [15:0] _b_addr_T; // @[LoopConv.scala:678:26] assign _b_addr_T = _GEN_34; // @[LoopConv.scala:663:26, :678:26] wire [31:0] _a_addr_T_15 = {16'h0, _a_addr_T_14} * _GEN_26; // @[LoopConv.scala:662:40, :663:{26,58}] wire [32:0] _a_addr_T_16 = _GEN_27 + {1'h0, _a_addr_T_15}; // @[LoopConv.scala:662:18, :663:{18,58}] wire [31:0] _GEN_35 = {16'h0, b}; // @[LoopConv.scala:641:14, :663:83] wire [31:0] _a_addr_T_18 = _GEN_35 * {16'h0, _a_addr_T_17}; // @[LoopConv.scala:663:{83,92}] wire [47:0] _a_addr_T_20 = {16'h0, _a_addr_T_18} * {32'h0, _a_addr_T_19}; // @[LoopConv.scala:663:{83,111,120}] wire [48:0] _a_addr_T_21 = {16'h0, _a_addr_T_16} + {1'h0, _a_addr_T_20}; // @[LoopConv.scala:663:{18,78,111}] wire [49:0] _a_addr_T_24 = {16'h0, _a_addr_T_22} * {34'h0, _a_addr_T_23}; // @[LoopConv.scala:662:151, :663:{148,167,176}] wire [50:0] _a_addr_T_25 = {2'h0, _a_addr_T_21} + {1'h0, _a_addr_T_24}; // @[LoopConv.scala:618:22, :663:{78,139,167}] wire [51:0] _a_addr_T_27 = {1'h0, _a_addr_T_25} + {18'h0, _a_addr_T_26}; // @[LoopConv.scala:646:95, :663:{139,195,204}] wire [51:0] a_addr = req_trans_input_3120 ? _a_addr_T_13 : _a_addr_T_27; // @[LoopConv.scala:620:16, :661:19, :662:179, :663:195] wire [15:0] _GEN_36 = och / 16'h4; // @[LoopConv.scala:637:16, :655:21, :670:10] wire [15:0] _c_addr_T; // @[LoopConv.scala:670:10] assign _c_addr_T = _GEN_36; // @[LoopConv.scala:670:10] wire [15:0] _b_addr_T_11; // @[LoopConv.scala:679:26] assign _b_addr_T_11 = _GEN_36; // @[LoopConv.scala:670:10, :679:26] wire [31:0] _c_addr_T_1 = {16'h0, _c_addr_T} * {16'h0, req_inner_bounds_batches}; // @[LoopConv.scala:620:16, :670:{10,42}] wire [47:0] _c_addr_T_2 = {16'h0, _c_addr_T_1} * {32'h0, req_inner_bounds_orows}; // @[LoopConv.scala:620:16, :670:{42,52}] wire [63:0] _c_addr_T_3 = {16'h0, _c_addr_T_2} * {48'h0, req_inner_bounds_ocols}; // @[LoopConv.scala:620:16, :629:80, :670:{52,60}] wire [64:0] _c_addr_T_4 = {53'h0, req_c_addr_start} + {1'h0, _c_addr_T_3}; // @[LoopConv.scala:620:16, :669:29, :670:60] wire [31:0] _GEN_37 = {16'h0, req_inner_bounds_orows}; // @[LoopConv.scala:620:16, :670:73] wire [31:0] _c_addr_T_5 = _GEN_35 * _GEN_37; // @[LoopConv.scala:663:83, :670:73] wire [47:0] _c_addr_T_6 = {16'h0, _c_addr_T_5} * {32'h0, req_inner_bounds_ocols}; // @[LoopConv.scala:620:16, :670:{73,81}] wire [65:0] _c_addr_T_7 = {1'h0, _c_addr_T_4} + {18'h0, _c_addr_T_6}; // @[LoopConv.scala:646:95, :669:29, :670:{68,81}] wire [31:0] _GEN_38 = {16'h0, req_inner_bounds_ocols}; // @[LoopConv.scala:620:16, :670:97] wire [31:0] _c_addr_T_8 = _GEN_9 * _GEN_38; // @[LoopConv.scala:651:29, :670:97] wire [66:0] _c_addr_T_9 = {1'h0, _c_addr_T_7} + {35'h0, _c_addr_T_8}; // @[LoopConv.scala:670:{68,89,97}] wire [67:0] c_addr = {1'h0, _c_addr_T_9} + {52'h0, ocol}; // @[LoopConv.scala:643:17, :670:{89,105}] reg new_weights; // @[LoopConv.scala:673:24] wire [16:0] _GEN_39 = {1'h0, req_inner_bounds_krows}; // @[LoopConv.scala:620:16, :674:41] wire [16:0] _GEN_40 = {1'h0, krow}; // @[LoopConv.scala:638:17, :674:41] wire [16:0] _krow_rot_T = _GEN_39 - _GEN_40; // @[LoopConv.scala:674:41] wire [15:0] _krow_rot_T_1 = _krow_rot_T[15:0]; // @[LoopConv.scala:674:41] wire [16:0] _krow_rot_T_2 = {1'h0, _krow_rot_T_1} - 17'h1; // @[LoopConv.scala:674:{41,48}] wire [15:0] _krow_rot_T_3 = _krow_rot_T_2[15:0]; // @[LoopConv.scala:674:48] wire [15:0] krow_rot = req_wrot180 ? _krow_rot_T_3 : krow; // @[LoopConv.scala:620:16, :638:17, :674:{21,48}] wire [15:0] _kcol_rot_T_1 = _kcol_rot_T[15:0]; // @[LoopConv.scala:675:41] wire [16:0] _kcol_rot_T_2 = {1'h0, _kcol_rot_T_1} - 17'h1; // @[LoopConv.scala:675:{41,48}] wire [15:0] _kcol_rot_T_3 = _kcol_rot_T_2[15:0]; // @[LoopConv.scala:675:48] wire [15:0] kcol_rot = req_wrot180 ? _kcol_rot_T_3 : kcol; // @[LoopConv.scala:620:16, :639:17, :675:{21,48}] wire [31:0] _GEN_41 = {16'h0, req_inner_bounds_krows}; // @[LoopConv.scala:620:16, :678:58] wire [31:0] _b_addr_T_1 = {16'h0, _b_addr_T} * _GEN_41; // @[LoopConv.scala:678:{26,58}] wire [47:0] _GEN_42 = {32'h0, req_inner_bounds_kcols}; // @[LoopConv.scala:620:16, :678:66] wire [47:0] _b_addr_T_2 = {16'h0, _b_addr_T_1} * _GEN_42; // @[LoopConv.scala:678:{58,66}] wire [63:0] _b_addr_T_3 = {16'h0, _b_addr_T_2} * _GEN_1; // @[LoopConv.scala:629:80, :678:{66,74}] wire [64:0] _GEN_43 = {1'h0, b_addr_start}; // @[LoopConv.scala:633:37, :678:18] wire [64:0] _b_addr_T_4 = _GEN_43 + {1'h0, _b_addr_T_3}; // @[LoopConv.scala:678:{18,74}] wire [31:0] _GEN_44 = {16'h0, krow_rot} * _GEN; // @[LoopConv.scala:629:64, :674:21, :678:93] wire [31:0] _b_addr_T_5; // @[LoopConv.scala:678:93] assign _b_addr_T_5 = _GEN_44; // @[LoopConv.scala:678:93] wire [31:0] _b_addr_T_16; // @[LoopConv.scala:679:93] assign _b_addr_T_16 = _GEN_44; // @[LoopConv.scala:678:93, :679:93] wire [47:0] _b_addr_T_6 = {16'h0, _b_addr_T_5} * {32'h0, req_derived_params_ochs}; // @[LoopConv.scala:620:16, :678:{93,101}] wire [65:0] _b_addr_T_7 = {1'h0, _b_addr_T_4} + {18'h0, _b_addr_T_6}; // @[LoopConv.scala:646:95, :678:{18,81,101}] wire [31:0] _GEN_45 = {16'h0, kcol_rot}; // @[LoopConv.scala:675:21, :678:120] wire [31:0] _b_addr_T_8 = _GEN_45 * {16'h0, req_derived_params_ochs}; // @[LoopConv.scala:620:16, :678:120] wire [66:0] _b_addr_T_9 = {1'h0, _b_addr_T_7} + {35'h0, _b_addr_T_8}; // @[LoopConv.scala:670:89, :678:{81,108,120}] wire [67:0] _b_addr_T_10 = {1'h0, _b_addr_T_9} + {52'h0, och}; // @[LoopConv.scala:637:16, :670:105, :678:{108,127}] wire [31:0] _b_addr_T_12 = {16'h0, _b_addr_T_11} * _GEN_41; // @[LoopConv.scala:678:58, :679:{26,58}] wire [47:0] _b_addr_T_13 = {16'h0, _b_addr_T_12} * _GEN_42; // @[LoopConv.scala:678:66, :679:{58,66}] wire [63:0] _b_addr_T_14 = {16'h0, _b_addr_T_13} * _GEN_2; // @[LoopConv.scala:630:43, :679:{66,74}] wire [64:0] _b_addr_T_15 = _GEN_43 + {1'h0, _b_addr_T_14}; // @[LoopConv.scala:678:18, :679:{18,74}] wire [47:0] _b_addr_T_17 = {16'h0, _b_addr_T_16} * {32'h0, req_inner_bounds_kchs}; // @[LoopConv.scala:620:16, :679:{93,101}] wire [65:0] _b_addr_T_18 = {1'h0, _b_addr_T_15} + {18'h0, _b_addr_T_17}; // @[LoopConv.scala:646:95, :679:{18,81,101}] wire [31:0] _b_addr_T_19 = _GEN_45 * {16'h0, req_inner_bounds_kchs}; // @[LoopConv.scala:620:16, :678:120, :679:120] wire [66:0] _b_addr_T_20 = {1'h0, _b_addr_T_18} + {35'h0, _b_addr_T_19}; // @[LoopConv.scala:670:89, :679:{81,108,120}] wire [67:0] _b_addr_T_21 = {1'h0, _b_addr_T_20} + {52'h0, kch}; // @[LoopConv.scala:640:16, :670:105, :679:{108,127}] wire [67:0] b_addr = req_trans_weight_0132 ? _b_addr_T_10 : _b_addr_T_21; // @[LoopConv.scala:620:16, :677:19, :678:127, :679:127] wire [63:0] _config_cmd_rs1_T; // @[LoopConv.scala:708:36] wire [63:0] _config_cmd_rs2_T; // @[LoopConv.scala:709:36] wire [63:0] config_cmd_rs1; // @[LoopConv.scala:694:24] wire [63:0] config_cmd_rs2; // @[LoopConv.scala:694:24] wire [15:0] config_cmd_rs1_a_stride; // @[LoopConv.scala:698:28] wire [31:0] _config_cmd_rs1_a_stride_T = {16'h0, req_derived_params_irows} * {16'h0, req_derived_params_icols}; // @[LoopConv.scala:620:16, :700:37] assign config_cmd_rs1_a_stride = _config_cmd_rs1_a_stride_T[15:0]; // @[LoopConv.scala:698:28, :700:{27,37}] wire [15:0] config_cmd_rs2_c_stride; // @[LoopConv.scala:704:28] wire [31:0] _config_cmd_rs2_c_stride_T = _GEN_37 * _GEN_38; // @[LoopConv.scala:670:{73,97}, :706:37] assign config_cmd_rs2_c_stride = _config_cmd_rs2_c_stride_T[15:0]; // @[LoopConv.scala:704:28, :706:{27,37}] wire [47:0] config_cmd_rs1_hi_hi = {32'h0, config_cmd_rs1_a_stride}; // @[LoopConv.scala:698:28, :708:36] wire [55:0] config_cmd_rs1_hi = {config_cmd_rs1_hi_hi, 8'h0}; // @[LoopConv.scala:708:36] assign _config_cmd_rs1_T = {config_cmd_rs1_hi, 8'h80}; // @[LoopConv.scala:708:36] assign config_cmd_rs1 = _config_cmd_rs1_T; // @[LoopConv.scala:694:24, :708:36] wire [31:0] config_cmd_rs2_hi = {config_cmd_rs2_c_stride, 16'h0}; // @[LoopConv.scala:704:28, :709:36] assign _config_cmd_rs2_T = {config_cmd_rs2_hi, 32'h0}; // @[LoopConv.scala:709:36] assign config_cmd_rs2 = _config_cmd_rs2_T; // @[LoopConv.scala:694:24, :709:36] wire [6:0] comp_cmd_inst_funct; // @[LoopConv.scala:717:22] wire [2:0] _comp_cmd_inst_funct_T = {2'h2, ~new_weights}; // @[LoopConv.scala:673:24, :719:29] assign comp_cmd_inst_funct = {4'h0, _comp_cmd_inst_funct_T}; // @[LoopConv.scala:717:22, :719:{23,29}] wire _ld_ahead_T = io_lda_completed_0 & io_ldb_completed_0; // @[LoopConv.scala:596:7, :723:35] wire ld_ahead = _ld_ahead_T & io_ldd_completed_0; // @[LoopConv.scala:596:7, :723:{35,55}] wire _io_req_ready_T = ~(|state); // @[LoopConv.scala:618:22, :726:25] wire _io_req_ready_T_1 = ~_command_p_io_busy; // @[LoopConv.scala:691:25, :726:37] assign _io_req_ready_T_2 = _io_req_ready_T & _io_req_ready_T_1; // @[LoopConv.scala:726:{25,34,37}] assign io_req_ready_0 = _io_req_ready_T_2; // @[LoopConv.scala:596:7, :726:34] wire _io_idle_T = ~(|state); // @[LoopConv.scala:618:22, :726:25, :727:20] wire _io_idle_T_1 = ~_command_p_io_busy; // @[LoopConv.scala:691:25, :726:37, :727:32] assign _io_idle_T_2 = _io_idle_T & _io_idle_T_1; // @[LoopConv.scala:727:{20,29,32}] assign io_idle_0 = _io_idle_T_2; // @[LoopConv.scala:596:7, :727:29] wire _command_p_io_in_valid_T = |state; // @[LoopConv.scala:618:22, :726:25, :730:34] wire _command_p_io_in_valid_T_1 = ~skip_iteration; // @[LoopConv.scala:646:58, :730:46] wire _command_p_io_in_valid_T_2 = _command_p_io_in_valid_T & _command_p_io_in_valid_T_1; // @[LoopConv.scala:730:{34,43,46}] wire _command_p_io_in_valid_T_3 = _command_p_io_in_valid_T_2 & ld_ahead; // @[LoopConv.scala:723:55, :730:{43,62}] wire _command_p_io_in_bits_cmd_T = state == 2'h2; // @[LoopConv.scala:618:22, :731:62] wire _command_p_io_in_bits_cmd_T_1 = &state; // @[LoopConv.scala:618:22, :731:90] wire [6:0] _command_p_io_in_bits_cmd_T_2_inst_funct = _command_p_io_in_bits_cmd_T_1 ? comp_cmd_inst_funct : 7'h0; // @[Mux.scala:126:16] wire [63:0] _command_p_io_in_bits_cmd_T_2_rs1 = _command_p_io_in_bits_cmd_T_1 ? 64'h0 : config_cmd_rs1; // @[Mux.scala:126:16] wire [63:0] _command_p_io_in_bits_cmd_T_2_rs2 = _command_p_io_in_bits_cmd_T_1 ? 64'h0 : config_cmd_rs2; // @[Mux.scala:126:16] wire [6:0] _command_p_io_in_bits_cmd_T_3_inst_funct = _command_p_io_in_bits_cmd_T ? 7'h6 : _command_p_io_in_bits_cmd_T_2_inst_funct; // @[Mux.scala:126:16] wire [63:0] _command_p_io_in_bits_cmd_T_3_rs1 = _command_p_io_in_bits_cmd_T ? 64'h0 : _command_p_io_in_bits_cmd_T_2_rs1; // @[Mux.scala:126:16] wire [63:0] _command_p_io_in_bits_cmd_T_3_rs2 = _command_p_io_in_bits_cmd_T ? 64'h0 : _command_p_io_in_bits_cmd_T_2_rs2; // @[Mux.scala:126:16] wire _command_p_io_out_ready_T = ~io_rob_overloaded_0; // @[LoopConv.scala:596:7, :740:45] wire _command_p_io_out_ready_T_1 = io_cmd_ready_0 & _command_p_io_out_ready_T; // @[LoopConv.scala:596:7, :740:{42,45}] wire _io_cmd_valid_T = ~io_rob_overloaded_0; // @[LoopConv.scala:596:7, :740:45, :741:45] assign _io_cmd_valid_T_1 = _command_p_io_out_valid & _io_cmd_valid_T; // @[LoopConv.scala:691:25, :741:{42,45}] assign io_cmd_valid_0 = _io_cmd_valid_T_1; // @[LoopConv.scala:596:7, :741:42] wire _T = _command_p_io_out_bits_cmd_inst_funct == 7'h6; // @[LoopConv.scala:691:25, :743:46] wire _pre_cmd_rs1_local_addr_T_is_acc_addr; // @[LoopConv.scala:750:34] wire [4:0] io_cmd_bits_rs1_lo_hi_1 = pre_cmd_rs1_num_cols; // @[LoopConv.scala:746:27, :759:36] wire _pre_cmd_rs1_local_addr_T_accumulate; // @[LoopConv.scala:750:34] wire _pre_cmd_rs1_local_addr_T_read_full_acc_row; // @[LoopConv.scala:750:34] wire [2:0] _pre_cmd_rs1_local_addr_T_norm_cmd; // @[LoopConv.scala:750:34] wire [2:0] _io_cmd_bits_rs1_T = pre_cmd_rs1_local_addr_norm_cmd; // @[LoopConv.scala:746:27, :759:36] wire _pre_cmd_rs1_local_addr_T_garbage_bit; // @[LoopConv.scala:750:34] wire [13:0] _pre_cmd_rs1_local_addr_T_data; // @[LoopConv.scala:750:34] wire pre_cmd_rs1_local_addr_is_acc_addr; // @[LoopConv.scala:746:27] wire pre_cmd_rs1_local_addr_accumulate; // @[LoopConv.scala:746:27] wire pre_cmd_rs1_local_addr_read_full_acc_row; // @[LoopConv.scala:746:27] wire pre_cmd_rs1_local_addr_garbage_bit; // @[LoopConv.scala:746:27] wire [13:0] pre_cmd_rs1_local_addr_data; // @[LoopConv.scala:746:27] wire [2:0] pre_cmd_rs1_num_rows; // @[LoopConv.scala:746:27] assign pre_cmd_rs1_num_rows = _command_p_io_out_bits_K[2:0]; // @[LoopConv.scala:691:25, :746:27, :748:26] assign pre_cmd_rs1_num_cols = _command_p_io_out_bits_J[4:0]; // @[LoopConv.scala:691:25, :746:27, :749:26] wire _pre_cmd_rs1_local_addr_result_result_T_6; // @[LocalAddr.scala:108:37] wire [4:0] pre_cmd_rs2_num_cols = _command_p_io_out_bits_J[4:0]; // @[LoopConv.scala:691:25, :749:26, :753:27] wire [4:0] comp_cmd_rs2_num_cols = _command_p_io_out_bits_J[4:0]; // @[LoopConv.scala:691:25, :749:26, :769:28] wire _pre_cmd_rs1_local_addr_result_result_T_5; // @[LocalAddr.scala:108:37] wire pre_cmd_rs1_local_addr_result_result_is_acc_addr = _pre_cmd_rs1_local_addr_result_result_WIRE_is_acc_addr; // @[LocalAddr.scala:108:{26,37}] wire _pre_cmd_rs1_local_addr_result_result_T_4; // @[LocalAddr.scala:108:37] wire pre_cmd_rs1_local_addr_result_result_accumulate = _pre_cmd_rs1_local_addr_result_result_WIRE_accumulate; // @[LocalAddr.scala:108:{26,37}] wire [2:0] _pre_cmd_rs1_local_addr_result_result_WIRE_3; // @[LocalAddr.scala:108:37] wire pre_cmd_rs1_local_addr_result_result_read_full_acc_row = _pre_cmd_rs1_local_addr_result_result_WIRE_read_full_acc_row; // @[LocalAddr.scala:108:{26,37}] wire [10:0] _pre_cmd_rs1_local_addr_result_result_T_2; // @[LocalAddr.scala:108:37] wire [2:0] pre_cmd_rs1_local_addr_result_result_norm_cmd = _pre_cmd_rs1_local_addr_result_result_WIRE_norm_cmd; // @[LocalAddr.scala:108:{26,37}] wire _pre_cmd_rs1_local_addr_result_result_T_1; // @[LocalAddr.scala:108:37] wire [13:0] _pre_cmd_rs1_local_addr_result_result_T; // @[LocalAddr.scala:108:37] wire pre_cmd_rs1_local_addr_result_result_garbage_bit = _pre_cmd_rs1_local_addr_result_result_WIRE_garbage_bit; // @[LocalAddr.scala:108:{26,37}] wire [13:0] pre_cmd_rs1_local_addr_result_result_data = _pre_cmd_rs1_local_addr_result_result_WIRE_data; // @[LocalAddr.scala:108:{26,37}] wire [31:0] _pre_cmd_rs1_local_addr_result_result_WIRE_1 = _command_p_io_out_bits_b_addr[31:0]; // @[LoopConv.scala:691:25] assign _pre_cmd_rs1_local_addr_result_result_T = _pre_cmd_rs1_local_addr_result_result_WIRE_1[13:0]; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs1_local_addr_result_result_WIRE_data = _pre_cmd_rs1_local_addr_result_result_T; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs1_local_addr_result_result_T_1 = _pre_cmd_rs1_local_addr_result_result_WIRE_1[14]; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs1_local_addr_result_result_WIRE_garbage_bit = _pre_cmd_rs1_local_addr_result_result_T_1; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs1_local_addr_result_result_T_2 = _pre_cmd_rs1_local_addr_result_result_WIRE_1[25:15]; // @[LocalAddr.scala:108:37] wire [10:0] _pre_cmd_rs1_local_addr_result_result_WIRE_garbage = _pre_cmd_rs1_local_addr_result_result_T_2; // @[LocalAddr.scala:108:37] wire [2:0] _pre_cmd_rs1_local_addr_result_result_T_3 = _pre_cmd_rs1_local_addr_result_result_WIRE_1[28:26]; // @[LocalAddr.scala:108:37] wire [2:0] _pre_cmd_rs1_local_addr_result_result_WIRE_2 = _pre_cmd_rs1_local_addr_result_result_T_3; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs1_local_addr_result_result_WIRE_3 = _pre_cmd_rs1_local_addr_result_result_WIRE_2; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs1_local_addr_result_result_WIRE_norm_cmd = _pre_cmd_rs1_local_addr_result_result_WIRE_3; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs1_local_addr_result_result_T_4 = _pre_cmd_rs1_local_addr_result_result_WIRE_1[29]; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs1_local_addr_result_result_WIRE_read_full_acc_row = _pre_cmd_rs1_local_addr_result_result_T_4; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs1_local_addr_result_result_T_5 = _pre_cmd_rs1_local_addr_result_result_WIRE_1[30]; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs1_local_addr_result_result_WIRE_accumulate = _pre_cmd_rs1_local_addr_result_result_T_5; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs1_local_addr_result_result_T_6 = _pre_cmd_rs1_local_addr_result_result_WIRE_1[31]; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs1_local_addr_result_result_WIRE_is_acc_addr = _pre_cmd_rs1_local_addr_result_result_T_6; // @[LocalAddr.scala:108:37] wire [2:0] pre_cmd_rs1_local_addr_result_norm_cmd = pre_cmd_rs1_local_addr_result_result_norm_cmd; // @[LocalAddr.scala:108:26, :116:26] wire pre_cmd_rs1_local_addr_result_garbage_bit = pre_cmd_rs1_local_addr_result_result_garbage_bit; // @[LocalAddr.scala:108:26, :116:26] wire [13:0] pre_cmd_rs1_local_addr_result_data = pre_cmd_rs1_local_addr_result_result_data; // @[LocalAddr.scala:108:26, :116:26] assign _pre_cmd_rs1_local_addr_T_norm_cmd = _command_p_io_out_bits_new_weights ? pre_cmd_rs1_local_addr_result_norm_cmd : 3'h0; // @[LoopConv.scala:691:25, :750:34] assign _pre_cmd_rs1_local_addr_T_garbage_bit = ~_command_p_io_out_bits_new_weights | pre_cmd_rs1_local_addr_result_garbage_bit; // @[LoopConv.scala:691:25, :750:34] assign _pre_cmd_rs1_local_addr_T_data = _command_p_io_out_bits_new_weights ? pre_cmd_rs1_local_addr_result_data : 14'h3FFF; // @[LoopConv.scala:691:25, :750:34] assign _pre_cmd_rs1_local_addr_T_is_acc_addr = ~_command_p_io_out_bits_new_weights; // @[LoopConv.scala:691:25, :750:34] assign pre_cmd_rs1_local_addr_is_acc_addr = _pre_cmd_rs1_local_addr_T_is_acc_addr; // @[LoopConv.scala:746:27, :750:34] assign _pre_cmd_rs1_local_addr_T_accumulate = ~_command_p_io_out_bits_new_weights; // @[LoopConv.scala:691:25, :750:34] assign pre_cmd_rs1_local_addr_accumulate = _pre_cmd_rs1_local_addr_T_accumulate; // @[LoopConv.scala:746:27, :750:34] assign _pre_cmd_rs1_local_addr_T_read_full_acc_row = ~_command_p_io_out_bits_new_weights; // @[LoopConv.scala:691:25, :750:34] assign pre_cmd_rs1_local_addr_read_full_acc_row = _pre_cmd_rs1_local_addr_T_read_full_acc_row; // @[LoopConv.scala:746:27, :750:34] assign pre_cmd_rs1_local_addr_norm_cmd = _pre_cmd_rs1_local_addr_T_norm_cmd; // @[LoopConv.scala:746:27, :750:34] assign pre_cmd_rs1_local_addr_garbage_bit = _pre_cmd_rs1_local_addr_T_garbage_bit; // @[LoopConv.scala:746:27, :750:34] assign pre_cmd_rs1_local_addr_data = _pre_cmd_rs1_local_addr_T_data; // @[LoopConv.scala:746:27, :750:34] wire [4:0] io_cmd_bits_rs2_lo_hi_1 = pre_cmd_rs2_num_cols; // @[LoopConv.scala:753:27, :760:36] wire [2:0] pre_cmd_rs2_local_addr_result_norm_cmd; // @[LocalAddr.scala:129:26] wire [2:0] _io_cmd_bits_rs2_T = pre_cmd_rs2_local_addr_norm_cmd; // @[LoopConv.scala:753:27, :760:36] wire pre_cmd_rs2_local_addr_result_garbage_bit; // @[LocalAddr.scala:129:26] wire [13:0] pre_cmd_rs2_local_addr_result_data; // @[LocalAddr.scala:129:26] wire pre_cmd_rs2_local_addr_garbage_bit; // @[LoopConv.scala:753:27] wire [13:0] pre_cmd_rs2_local_addr_data; // @[LoopConv.scala:753:27] wire [2:0] pre_cmd_rs2_num_rows; // @[LoopConv.scala:753:27] assign pre_cmd_rs2_num_rows = _command_p_io_out_bits_I[2:0]; // @[LoopConv.scala:691:25, :753:27, :755:26] wire _pre_cmd_rs2_local_addr_result_result_T_6; // @[LocalAddr.scala:108:37] wire [2:0] comp_cmd_rs1_num_rows = _command_p_io_out_bits_I[2:0]; // @[LoopConv.scala:691:25, :755:26, :763:28] wire [2:0] comp_cmd_rs2_num_rows = _command_p_io_out_bits_I[2:0]; // @[LoopConv.scala:691:25, :755:26, :769:28] wire _pre_cmd_rs2_local_addr_result_result_T_5; // @[LocalAddr.scala:108:37] wire pre_cmd_rs2_local_addr_result_result_is_acc_addr = _pre_cmd_rs2_local_addr_result_result_WIRE_is_acc_addr; // @[LocalAddr.scala:108:{26,37}] wire _pre_cmd_rs2_local_addr_result_result_T_4; // @[LocalAddr.scala:108:37] wire pre_cmd_rs2_local_addr_result_result_accumulate = _pre_cmd_rs2_local_addr_result_result_WIRE_accumulate; // @[LocalAddr.scala:108:{26,37}] wire [2:0] _pre_cmd_rs2_local_addr_result_result_WIRE_3; // @[LocalAddr.scala:108:37] wire pre_cmd_rs2_local_addr_result_result_read_full_acc_row = _pre_cmd_rs2_local_addr_result_result_WIRE_read_full_acc_row; // @[LocalAddr.scala:108:{26,37}] wire [10:0] _pre_cmd_rs2_local_addr_result_result_T_2; // @[LocalAddr.scala:108:37] wire [2:0] pre_cmd_rs2_local_addr_result_result_norm_cmd = _pre_cmd_rs2_local_addr_result_result_WIRE_norm_cmd; // @[LocalAddr.scala:108:{26,37}] wire _pre_cmd_rs2_local_addr_result_result_T_1; // @[LocalAddr.scala:108:37] wire [13:0] _pre_cmd_rs2_local_addr_result_result_T; // @[LocalAddr.scala:108:37] wire pre_cmd_rs2_local_addr_result_result_garbage_bit = _pre_cmd_rs2_local_addr_result_result_WIRE_garbage_bit; // @[LocalAddr.scala:108:{26,37}] wire [13:0] pre_cmd_rs2_local_addr_result_result_data = _pre_cmd_rs2_local_addr_result_result_WIRE_data; // @[LocalAddr.scala:108:{26,37}] wire [31:0] _pre_cmd_rs2_local_addr_result_result_WIRE_1 = _command_p_io_out_bits_c_addr[31:0]; // @[LoopConv.scala:691:25] assign _pre_cmd_rs2_local_addr_result_result_T = _pre_cmd_rs2_local_addr_result_result_WIRE_1[13:0]; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs2_local_addr_result_result_WIRE_data = _pre_cmd_rs2_local_addr_result_result_T; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs2_local_addr_result_result_T_1 = _pre_cmd_rs2_local_addr_result_result_WIRE_1[14]; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs2_local_addr_result_result_WIRE_garbage_bit = _pre_cmd_rs2_local_addr_result_result_T_1; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs2_local_addr_result_result_T_2 = _pre_cmd_rs2_local_addr_result_result_WIRE_1[25:15]; // @[LocalAddr.scala:108:37] wire [10:0] _pre_cmd_rs2_local_addr_result_result_WIRE_garbage = _pre_cmd_rs2_local_addr_result_result_T_2; // @[LocalAddr.scala:108:37] wire [2:0] _pre_cmd_rs2_local_addr_result_result_T_3 = _pre_cmd_rs2_local_addr_result_result_WIRE_1[28:26]; // @[LocalAddr.scala:108:37] wire [2:0] _pre_cmd_rs2_local_addr_result_result_WIRE_2 = _pre_cmd_rs2_local_addr_result_result_T_3; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs2_local_addr_result_result_WIRE_3 = _pre_cmd_rs2_local_addr_result_result_WIRE_2; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs2_local_addr_result_result_WIRE_norm_cmd = _pre_cmd_rs2_local_addr_result_result_WIRE_3; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs2_local_addr_result_result_T_4 = _pre_cmd_rs2_local_addr_result_result_WIRE_1[29]; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs2_local_addr_result_result_WIRE_read_full_acc_row = _pre_cmd_rs2_local_addr_result_result_T_4; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs2_local_addr_result_result_T_5 = _pre_cmd_rs2_local_addr_result_result_WIRE_1[30]; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs2_local_addr_result_result_WIRE_accumulate = _pre_cmd_rs2_local_addr_result_result_T_5; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs2_local_addr_result_result_T_6 = _pre_cmd_rs2_local_addr_result_result_WIRE_1[31]; // @[LocalAddr.scala:108:37] assign _pre_cmd_rs2_local_addr_result_result_WIRE_is_acc_addr = _pre_cmd_rs2_local_addr_result_result_T_6; // @[LocalAddr.scala:108:37] assign pre_cmd_rs2_local_addr_result_norm_cmd = pre_cmd_rs2_local_addr_result_result_norm_cmd; // @[LocalAddr.scala:108:26, :129:26] assign pre_cmd_rs2_local_addr_result_garbage_bit = pre_cmd_rs2_local_addr_result_result_garbage_bit; // @[LocalAddr.scala:108:26, :129:26] assign pre_cmd_rs2_local_addr_result_data = pre_cmd_rs2_local_addr_result_result_data; // @[LocalAddr.scala:108:26, :129:26] assign pre_cmd_rs2_local_addr_norm_cmd = pre_cmd_rs2_local_addr_result_norm_cmd; // @[LoopConv.scala:753:27] assign pre_cmd_rs2_local_addr_garbage_bit = pre_cmd_rs2_local_addr_result_garbage_bit; // @[LoopConv.scala:753:27] assign pre_cmd_rs2_local_addr_data = pre_cmd_rs2_local_addr_result_data; // @[LoopConv.scala:753:27] wire [11:0] io_cmd_bits_rs1_lo_hi = {11'h0, pre_cmd_rs1_local_addr_garbage_bit}; // @[LoopConv.scala:746:27, :759:36] wire [25:0] io_cmd_bits_rs1_lo = {io_cmd_bits_rs1_lo_hi, pre_cmd_rs1_local_addr_data}; // @[LoopConv.scala:746:27, :759:36] wire [3:0] io_cmd_bits_rs1_hi_lo = {pre_cmd_rs1_local_addr_read_full_acc_row, _io_cmd_bits_rs1_T}; // @[LoopConv.scala:746:27, :759:36] wire [1:0] io_cmd_bits_rs1_hi_hi = {pre_cmd_rs1_local_addr_is_acc_addr, pre_cmd_rs1_local_addr_accumulate}; // @[LoopConv.scala:746:27, :759:36] wire [5:0] io_cmd_bits_rs1_hi = {io_cmd_bits_rs1_hi_hi, io_cmd_bits_rs1_hi_lo}; // @[LoopConv.scala:759:36] wire [31:0] _io_cmd_bits_rs1_T_1 = {io_cmd_bits_rs1_hi, io_cmd_bits_rs1_lo}; // @[LoopConv.scala:759:36] wire [36:0] io_cmd_bits_rs1_lo_1 = {io_cmd_bits_rs1_lo_hi_1, _io_cmd_bits_rs1_T_1}; // @[LoopConv.scala:759:36] wire [15:0] io_cmd_bits_rs1_hi_hi_1 = {13'h0, pre_cmd_rs1_num_rows}; // @[LoopConv.scala:746:27, :759:36] wire [26:0] io_cmd_bits_rs1_hi_1 = {io_cmd_bits_rs1_hi_hi_1, 11'h0}; // @[LoopConv.scala:759:36] wire [63:0] _io_cmd_bits_rs1_T_2 = {io_cmd_bits_rs1_hi_1, io_cmd_bits_rs1_lo_1}; // @[LoopConv.scala:759:36] wire [11:0] io_cmd_bits_rs2_lo_hi = {11'h0, pre_cmd_rs2_local_addr_garbage_bit}; // @[LoopConv.scala:753:27, :760:36] wire [25:0] io_cmd_bits_rs2_lo = {io_cmd_bits_rs2_lo_hi, pre_cmd_rs2_local_addr_data}; // @[LoopConv.scala:753:27, :760:36] wire [3:0] io_cmd_bits_rs2_hi_lo = {1'h0, _io_cmd_bits_rs2_T}; // @[LoopConv.scala:760:36] wire [5:0] io_cmd_bits_rs2_hi = {2'h3, io_cmd_bits_rs2_hi_lo}; // @[LoopConv.scala:760:36] wire [31:0] _io_cmd_bits_rs2_T_1 = {io_cmd_bits_rs2_hi, io_cmd_bits_rs2_lo}; // @[LoopConv.scala:760:36] wire [36:0] io_cmd_bits_rs2_lo_1 = {io_cmd_bits_rs2_lo_hi_1, _io_cmd_bits_rs2_T_1}; // @[LoopConv.scala:760:36] wire [15:0] io_cmd_bits_rs2_hi_hi_1 = {13'h0, pre_cmd_rs2_num_rows}; // @[LoopConv.scala:753:27, :760:36] wire [26:0] io_cmd_bits_rs2_hi_1 = {io_cmd_bits_rs2_hi_hi_1, 11'h0}; // @[LoopConv.scala:760:36] wire [63:0] _io_cmd_bits_rs2_T_2 = {io_cmd_bits_rs2_hi_1, io_cmd_bits_rs2_lo_1}; // @[LoopConv.scala:760:36] wire [4:0] io_cmd_bits_rs1_lo_hi_3 = comp_cmd_rs1_num_cols; // @[LoopConv.scala:763:28, :775:37] wire [2:0] comp_cmd_rs1_local_addr_result_norm_cmd; // @[LocalAddr.scala:116:26] wire [2:0] _io_cmd_bits_rs1_T_3 = comp_cmd_rs1_local_addr_norm_cmd; // @[LoopConv.scala:763:28, :775:37] wire comp_cmd_rs1_local_addr_result_garbage_bit; // @[LocalAddr.scala:116:26] wire [13:0] comp_cmd_rs1_local_addr_result_data; // @[LocalAddr.scala:116:26] wire comp_cmd_rs1_local_addr_garbage_bit; // @[LoopConv.scala:763:28] wire [13:0] comp_cmd_rs1_local_addr_data; // @[LoopConv.scala:763:28] assign comp_cmd_rs1_num_cols = _command_p_io_out_bits_K[4:0]; // @[LoopConv.scala:691:25, :763:28, :766:27] wire _comp_cmd_rs1_local_addr_result_result_T_6; // @[LocalAddr.scala:108:37] wire _comp_cmd_rs1_local_addr_result_result_T_5; // @[LocalAddr.scala:108:37] wire comp_cmd_rs1_local_addr_result_result_is_acc_addr = _comp_cmd_rs1_local_addr_result_result_WIRE_is_acc_addr; // @[LocalAddr.scala:108:{26,37}] wire _comp_cmd_rs1_local_addr_result_result_T_4; // @[LocalAddr.scala:108:37] wire comp_cmd_rs1_local_addr_result_result_accumulate = _comp_cmd_rs1_local_addr_result_result_WIRE_accumulate; // @[LocalAddr.scala:108:{26,37}] wire [2:0] _comp_cmd_rs1_local_addr_result_result_WIRE_3; // @[LocalAddr.scala:108:37] wire comp_cmd_rs1_local_addr_result_result_read_full_acc_row = _comp_cmd_rs1_local_addr_result_result_WIRE_read_full_acc_row; // @[LocalAddr.scala:108:{26,37}] wire [10:0] _comp_cmd_rs1_local_addr_result_result_T_2; // @[LocalAddr.scala:108:37] wire [2:0] comp_cmd_rs1_local_addr_result_result_norm_cmd = _comp_cmd_rs1_local_addr_result_result_WIRE_norm_cmd; // @[LocalAddr.scala:108:{26,37}] wire _comp_cmd_rs1_local_addr_result_result_T_1; // @[LocalAddr.scala:108:37] wire [13:0] _comp_cmd_rs1_local_addr_result_result_T; // @[LocalAddr.scala:108:37] wire comp_cmd_rs1_local_addr_result_result_garbage_bit = _comp_cmd_rs1_local_addr_result_result_WIRE_garbage_bit; // @[LocalAddr.scala:108:{26,37}] wire [13:0] comp_cmd_rs1_local_addr_result_result_data = _comp_cmd_rs1_local_addr_result_result_WIRE_data; // @[LocalAddr.scala:108:{26,37}] wire [31:0] _comp_cmd_rs1_local_addr_result_result_WIRE_1 = _command_p_io_out_bits_a_addr[31:0]; // @[LoopConv.scala:691:25] assign _comp_cmd_rs1_local_addr_result_result_T = _comp_cmd_rs1_local_addr_result_result_WIRE_1[13:0]; // @[LocalAddr.scala:108:37] assign _comp_cmd_rs1_local_addr_result_result_WIRE_data = _comp_cmd_rs1_local_addr_result_result_T; // @[LocalAddr.scala:108:37] assign _comp_cmd_rs1_local_addr_result_result_T_1 = _comp_cmd_rs1_local_addr_result_result_WIRE_1[14]; // @[LocalAddr.scala:108:37] assign _comp_cmd_rs1_local_addr_result_result_WIRE_garbage_bit = _comp_cmd_rs1_local_addr_result_result_T_1; // @[LocalAddr.scala:108:37] assign _comp_cmd_rs1_local_addr_result_result_T_2 = _comp_cmd_rs1_local_addr_result_result_WIRE_1[25:15]; // @[LocalAddr.scala:108:37] wire [10:0] _comp_cmd_rs1_local_addr_result_result_WIRE_garbage = _comp_cmd_rs1_local_addr_result_result_T_2; // @[LocalAddr.scala:108:37] wire [2:0] _comp_cmd_rs1_local_addr_result_result_T_3 = _comp_cmd_rs1_local_addr_result_result_WIRE_1[28:26]; // @[LocalAddr.scala:108:37] wire [2:0] _comp_cmd_rs1_local_addr_result_result_WIRE_2 = _comp_cmd_rs1_local_addr_result_result_T_3; // @[LocalAddr.scala:108:37] assign _comp_cmd_rs1_local_addr_result_result_WIRE_3 = _comp_cmd_rs1_local_addr_result_result_WIRE_2; // @[LocalAddr.scala:108:37] assign _comp_cmd_rs1_local_addr_result_result_WIRE_norm_cmd = _comp_cmd_rs1_local_addr_result_result_WIRE_3; // @[LocalAddr.scala:108:37] assign _comp_cmd_rs1_local_addr_result_result_T_4 = _comp_cmd_rs1_local_addr_result_result_WIRE_1[29]; // @[LocalAddr.scala:108:37] assign _comp_cmd_rs1_local_addr_result_result_WIRE_read_full_acc_row = _comp_cmd_rs1_local_addr_result_result_T_4; // @[LocalAddr.scala:108:37] assign _comp_cmd_rs1_local_addr_result_result_T_5 = _comp_cmd_rs1_local_addr_result_result_WIRE_1[30]; // @[LocalAddr.scala:108:37] assign _comp_cmd_rs1_local_addr_result_result_WIRE_accumulate = _comp_cmd_rs1_local_addr_result_result_T_5; // @[LocalAddr.scala:108:37] assign _comp_cmd_rs1_local_addr_result_result_T_6 = _comp_cmd_rs1_local_addr_result_result_WIRE_1[31]; // @[LocalAddr.scala:108:37] assign _comp_cmd_rs1_local_addr_result_result_WIRE_is_acc_addr = _comp_cmd_rs1_local_addr_result_result_T_6; // @[LocalAddr.scala:108:37] assign comp_cmd_rs1_local_addr_result_norm_cmd = comp_cmd_rs1_local_addr_result_result_norm_cmd; // @[LocalAddr.scala:108:26, :116:26] assign comp_cmd_rs1_local_addr_result_garbage_bit = comp_cmd_rs1_local_addr_result_result_garbage_bit; // @[LocalAddr.scala:108:26, :116:26] assign comp_cmd_rs1_local_addr_result_data = comp_cmd_rs1_local_addr_result_result_data; // @[LocalAddr.scala:108:26, :116:26] assign comp_cmd_rs1_local_addr_norm_cmd = comp_cmd_rs1_local_addr_result_norm_cmd; // @[LoopConv.scala:763:28] assign comp_cmd_rs1_local_addr_garbage_bit = comp_cmd_rs1_local_addr_result_garbage_bit; // @[LoopConv.scala:763:28] assign comp_cmd_rs1_local_addr_data = comp_cmd_rs1_local_addr_result_data; // @[LoopConv.scala:763:28] wire [4:0] io_cmd_bits_rs2_lo_hi_3 = comp_cmd_rs2_num_cols; // @[LoopConv.scala:769:28, :776:37] wire [11:0] io_cmd_bits_rs1_lo_hi_2 = {11'h0, comp_cmd_rs1_local_addr_garbage_bit}; // @[LoopConv.scala:763:28, :775:37] wire [25:0] io_cmd_bits_rs1_lo_2 = {io_cmd_bits_rs1_lo_hi_2, comp_cmd_rs1_local_addr_data}; // @[LoopConv.scala:763:28, :775:37] wire [3:0] io_cmd_bits_rs1_hi_lo_1 = {1'h0, _io_cmd_bits_rs1_T_3}; // @[LoopConv.scala:775:37] wire [5:0] io_cmd_bits_rs1_hi_2 = {2'h0, io_cmd_bits_rs1_hi_lo_1}; // @[LoopConv.scala:618:22, :775:37] wire [31:0] _io_cmd_bits_rs1_T_4 = {io_cmd_bits_rs1_hi_2, io_cmd_bits_rs1_lo_2}; // @[LoopConv.scala:775:37] wire [36:0] io_cmd_bits_rs1_lo_3 = {io_cmd_bits_rs1_lo_hi_3, _io_cmd_bits_rs1_T_4}; // @[LoopConv.scala:775:37] wire [15:0] io_cmd_bits_rs1_hi_hi_3 = {13'h0, comp_cmd_rs1_num_rows}; // @[LoopConv.scala:763:28, :775:37] wire [26:0] io_cmd_bits_rs1_hi_3 = {io_cmd_bits_rs1_hi_hi_3, 11'h0}; // @[LoopConv.scala:775:37] wire [63:0] _io_cmd_bits_rs1_T_5 = {io_cmd_bits_rs1_hi_3, io_cmd_bits_rs1_lo_3}; // @[LoopConv.scala:775:37] assign io_cmd_bits_rs1_0 = _T ? _io_cmd_bits_rs1_T_2 : (|_command_p_io_out_bits_cmd_inst_funct) ? _io_cmd_bits_rs1_T_5 : _command_p_io_out_bits_cmd_rs1; // @[LoopConv.scala:596:7, :691:25, :742:15, :743:{46,63}, :759:{21,36}, :761:{51,67}, :775:{21,37}] wire [36:0] io_cmd_bits_rs2_lo_3 = {io_cmd_bits_rs2_lo_hi_3, 32'hE0007FFF}; // @[LoopConv.scala:776:37] wire [15:0] io_cmd_bits_rs2_hi_hi_3 = {13'h0, comp_cmd_rs2_num_rows}; // @[LoopConv.scala:769:28, :776:37] wire [26:0] io_cmd_bits_rs2_hi_3 = {io_cmd_bits_rs2_hi_hi_3, 11'h0}; // @[LoopConv.scala:776:37] wire [63:0] _io_cmd_bits_rs2_T_5 = {io_cmd_bits_rs2_hi_3, io_cmd_bits_rs2_lo_3}; // @[LoopConv.scala:776:37] assign io_cmd_bits_rs2_0 = _T ? _io_cmd_bits_rs2_T_2 : (|_command_p_io_out_bits_cmd_inst_funct) ? _io_cmd_bits_rs2_T_5 : _command_p_io_out_bits_cmd_rs2; // @[LoopConv.scala:596:7, :691:25, :742:15, :743:{46,63}, :760:{21,36}, :761:{51,67}, :776:{21,37}] wire [2:0] b_it = req_trans_input_3120 ? 3'h4 : 3'h1; // @[LoopConv.scala:620:16, :791:21] wire _ocol_it_T = skip_iteration | req_trans_input_3120; // @[LoopConv.scala:620:16, :646:58, :792:40] wire [3:0] ocol_it = _ocol_it_T ? 4'h1 : _ocol_it_T_1; // @[LoopConv.scala:792:{24,40,83}] wire [16:0] _next_ocol_max_T = _GEN_15 - 17'h1; // @[Util.scala:39:28] wire [15:0] next_ocol_max = _next_ocol_max_T[15:0]; // @[Util.scala:39:28] wire [16:0] _GEN_46 = _GEN_16 + {13'h0, ocol_it}; // @[Util.scala:41:15] wire [16:0] _next_ocol_T; // @[Util.scala:41:15] assign _next_ocol_T = _GEN_46; // @[Util.scala:41:15] wire [16:0] _next_ocol_T_3; // @[Util.scala:43:11] assign _next_ocol_T_3 = _GEN_46; // @[Util.scala:41:15, :43:11] wire [15:0] _next_ocol_T_1 = _next_ocol_T[15:0]; // @[Util.scala:41:15] wire _next_ocol_T_4 = _next_ocol_T_3 > {1'h0, next_ocol_max}; // @[Util.scala:39:28, :43:{11,17}] wire [15:0] _next_ocol_T_5 = _next_ocol_T_4 ? 16'h0 : _next_ocol_T_1; // @[Mux.scala:126:16] wire [15:0] next_ocol = _next_ocol_T_5; // @[Mux.scala:126:16] wire _T_12 = next_ocol == 16'h0; // @[Mux.scala:126:16] wire _next_orow_T; // @[LoopConv.scala:795:60] assign _next_orow_T = _T_12; // @[LoopConv.scala:795:60] wire _next_b_T_1; // @[LoopConv.scala:796:78] assign _next_b_T_1 = _T_12; // @[LoopConv.scala:795:60, :796:78] wire _next_kch_T_3; // @[LoopConv.scala:798:58] assign _next_kch_T_3 = _T_12; // @[LoopConv.scala:795:60, :798:58] wire _next_kcol_T_5; // @[LoopConv.scala:800:78] assign _next_kcol_T_5 = _T_12; // @[LoopConv.scala:795:60, :800:78] wire _next_krow_T_7; // @[LoopConv.scala:802:99] assign _next_krow_T_7 = _T_12; // @[LoopConv.scala:795:60, :802:99] wire _next_och_T_9; // @[LoopConv.scala:804:99] assign _next_och_T_9 = _T_12; // @[LoopConv.scala:795:60, :804:99] wire _state_T_11; // @[LoopConv.scala:819:40] assign _state_T_11 = _T_12; // @[LoopConv.scala:795:60, :819:40] wire [16:0] _next_orow_max_T = {1'h0, req_inner_bounds_orows} - 17'h1; // @[Util.scala:39:28] wire [15:0] next_orow_max = _next_orow_max_T[15:0]; // @[Util.scala:39:28] wire [16:0] _GEN_47 = {1'h0, orow} + 17'h1; // @[Util.scala:41:15] wire [16:0] _next_orow_T_1; // @[Util.scala:41:15] assign _next_orow_T_1 = _GEN_47; // @[Util.scala:41:15] wire [16:0] _next_orow_T_4; // @[Util.scala:43:11] assign _next_orow_T_4 = _GEN_47; // @[Util.scala:41:15, :43:11] wire [15:0] _next_orow_T_2 = _next_orow_T_1[15:0]; // @[Util.scala:41:15] wire _next_orow_T_3 = ~_next_orow_T; // @[Util.scala:42:8] wire _next_orow_T_5 = _next_orow_T_4 > {1'h0, next_orow_max}; // @[Util.scala:39:28, :43:{11,17}] wire [15:0] _next_orow_T_6 = _next_orow_T_5 ? 16'h0 : _next_orow_T_2; // @[Mux.scala:126:16] wire [15:0] next_orow = _next_orow_T_3 ? orow : _next_orow_T_6; // @[Mux.scala:126:16] wire _T_10 = next_orow == 16'h0; // @[Mux.scala:126:16] wire _next_b_T; // @[LoopConv.scala:796:57] assign _next_b_T = _T_10; // @[LoopConv.scala:796:57] wire _next_kch_T_1; // @[LoopConv.scala:798:37] assign _next_kch_T_1 = _T_10; // @[LoopConv.scala:796:57, :798:37] wire _next_kcol_T_3; // @[LoopConv.scala:800:57] assign _next_kcol_T_3 = _T_10; // @[LoopConv.scala:796:57, :800:57] wire _next_krow_T_5; // @[LoopConv.scala:802:78] assign _next_krow_T_5 = _T_10; // @[LoopConv.scala:796:57, :802:78] wire _next_och_T_7; // @[LoopConv.scala:804:78] assign _next_och_T_7 = _T_10; // @[LoopConv.scala:796:57, :804:78] wire _state_T_9; // @[LoopConv.scala:819:19] assign _state_T_9 = _T_10; // @[LoopConv.scala:796:57, :819:19] wire _next_b_T_2 = _next_b_T & _next_b_T_1; // @[LoopConv.scala:796:{57,65,78}] wire [16:0] _next_b_max_T = _GEN_12 - 17'h1; // @[Util.scala:39:28] wire [15:0] next_b_max = _next_b_max_T[15:0]; // @[Util.scala:39:28] wire [16:0] _GEN_48 = _GEN_13 + {14'h0, b_it}; // @[Util.scala:41:15] wire [16:0] _next_b_T_3; // @[Util.scala:41:15] assign _next_b_T_3 = _GEN_48; // @[Util.scala:41:15] wire [16:0] _next_b_T_6; // @[Util.scala:43:11] assign _next_b_T_6 = _GEN_48; // @[Util.scala:41:15, :43:11] wire [15:0] _next_b_T_4 = _next_b_T_3[15:0]; // @[Util.scala:41:15] wire _next_b_T_5 = ~_next_b_T_2; // @[Util.scala:42:8] wire _next_b_T_7 = _next_b_T_6 > {1'h0, next_b_max}; // @[Util.scala:39:28, :43:{11,17}] wire [15:0] _next_b_T_8 = _next_b_T_7 ? 16'h0 : _next_b_T_4; // @[Mux.scala:126:16] wire [15:0] next_b = _next_b_T_5 ? b : _next_b_T_8; // @[Mux.scala:126:16] wire _T_9 = next_b == 16'h0; // @[Mux.scala:126:16] wire _next_kch_T; // @[LoopConv.scala:798:16] assign _next_kch_T = _T_9; // @[LoopConv.scala:798:16] wire _next_kcol_T_1; // @[LoopConv.scala:800:36] assign _next_kcol_T_1 = _T_9; // @[LoopConv.scala:798:16, :800:36] wire _next_krow_T_3; // @[LoopConv.scala:802:57] assign _next_krow_T_3 = _T_9; // @[LoopConv.scala:798:16, :802:57] wire _next_och_T_5; // @[LoopConv.scala:804:57] assign _next_och_T_5 = _T_9; // @[LoopConv.scala:798:16, :804:57] wire _state_T_7; // @[LoopConv.scala:818:109] assign _state_T_7 = _T_9; // @[LoopConv.scala:798:16, :818:109] wire _next_kch_T_2 = _next_kch_T & _next_kch_T_1; // @[LoopConv.scala:798:{16,24,37}] wire _next_kch_T_4 = _next_kch_T_2 & _next_kch_T_3; // @[LoopConv.scala:798:{24,45,58}] wire [16:0] _next_kch_max_T = _GEN_23 - 17'h1; // @[Util.scala:39:28] wire [15:0] next_kch_max = _next_kch_max_T[15:0]; // @[Util.scala:39:28] wire [16:0] _GEN_49 = _GEN_24 + 17'h4; // @[Util.scala:41:15] wire [16:0] _next_kch_T_5; // @[Util.scala:41:15] assign _next_kch_T_5 = _GEN_49; // @[Util.scala:41:15] wire [16:0] _next_kch_T_8; // @[Util.scala:43:11] assign _next_kch_T_8 = _GEN_49; // @[Util.scala:41:15, :43:11] wire [15:0] _next_kch_T_6 = _next_kch_T_5[15:0]; // @[Util.scala:41:15] wire _next_kch_T_7 = ~_next_kch_T_4; // @[Util.scala:42:8] wire _next_kch_T_9 = _next_kch_T_8 > {1'h0, next_kch_max}; // @[Util.scala:39:28, :43:{11,17}] wire [15:0] _next_kch_T_10 = _next_kch_T_9 ? 16'h0 : _next_kch_T_6; // @[Mux.scala:126:16] wire [15:0] next_kch = _next_kch_T_7 ? kch : _next_kch_T_10; // @[Mux.scala:126:16] wire _GEN_50 = next_kch == 16'h0; // @[Mux.scala:126:16] wire _next_kcol_T; // @[LoopConv.scala:800:18] assign _next_kcol_T = _GEN_50; // @[LoopConv.scala:800:18] wire _next_krow_T_1; // @[LoopConv.scala:802:39] assign _next_krow_T_1 = _GEN_50; // @[LoopConv.scala:800:18, :802:39] wire _next_och_T_3; // @[LoopConv.scala:804:39] assign _next_och_T_3 = _GEN_50; // @[LoopConv.scala:800:18, :804:39] wire _state_T_5; // @[LoopConv.scala:818:91] assign _state_T_5 = _GEN_50; // @[LoopConv.scala:800:18, :818:91] wire _next_kcol_T_2 = _next_kcol_T & _next_kcol_T_1; // @[LoopConv.scala:800:{18,26,36}] wire _next_kcol_T_4 = _next_kcol_T_2 & _next_kcol_T_3; // @[LoopConv.scala:800:{26,44,57}] wire _next_kcol_T_6 = _next_kcol_T_4 & _next_kcol_T_5; // @[LoopConv.scala:800:{44,65,78}] wire [16:0] _next_kcol_max_T = _GEN_6 - 17'h1; // @[Util.scala:39:28] wire [15:0] next_kcol_max = _next_kcol_max_T[15:0]; // @[Util.scala:39:28] wire [16:0] _GEN_51 = _GEN_7 + {1'h0, req_max_pixels_per_row}; // @[Util.scala:41:15] wire [16:0] _next_kcol_T_7; // @[Util.scala:41:15] assign _next_kcol_T_7 = _GEN_51; // @[Util.scala:41:15] wire [16:0] _next_kcol_T_10; // @[Util.scala:43:11] assign _next_kcol_T_10 = _GEN_51; // @[Util.scala:41:15, :43:11] wire [15:0] _next_kcol_T_8 = _next_kcol_T_7[15:0]; // @[Util.scala:41:15] wire _next_kcol_T_9 = ~_next_kcol_T_6; // @[Util.scala:42:8] wire _next_kcol_T_11 = _next_kcol_T_10 > {1'h0, next_kcol_max}; // @[Util.scala:39:28, :43:{11,17}] wire [15:0] _next_kcol_T_12 = _next_kcol_T_11 ? 16'h0 : _next_kcol_T_8; // @[Mux.scala:126:16] wire [15:0] next_kcol = _next_kcol_T_9 ? kcol : _next_kcol_T_12; // @[Mux.scala:126:16] wire _GEN_52 = next_kcol == 16'h0; // @[Mux.scala:126:16] wire _next_krow_T; // @[LoopConv.scala:802:19] assign _next_krow_T = _GEN_52; // @[LoopConv.scala:802:19] wire _next_och_T_1; // @[LoopConv.scala:804:19] assign _next_och_T_1 = _GEN_52; // @[LoopConv.scala:802:19, :804:19] wire _state_T_3; // @[LoopConv.scala:818:71] assign _state_T_3 = _GEN_52; // @[LoopConv.scala:802:19, :818:71] wire _next_krow_T_2 = _next_krow_T & _next_krow_T_1; // @[LoopConv.scala:802:{19,27,39}] wire _next_krow_T_4 = _next_krow_T_2 & _next_krow_T_3; // @[LoopConv.scala:802:{27,47,57}] wire _next_krow_T_6 = _next_krow_T_4 & _next_krow_T_5; // @[LoopConv.scala:802:{47,65,78}] wire _next_krow_T_8 = _next_krow_T_6 & _next_krow_T_7; // @[LoopConv.scala:802:{65,86,99}] wire [16:0] _next_krow_max_T = _GEN_39 - 17'h1; // @[Util.scala:39:28] wire [15:0] next_krow_max = _next_krow_max_T[15:0]; // @[Util.scala:39:28] wire [16:0] _GEN_53 = _GEN_40 + 17'h1; // @[Util.scala:41:15] wire [16:0] _next_krow_T_9; // @[Util.scala:41:15] assign _next_krow_T_9 = _GEN_53; // @[Util.scala:41:15] wire [16:0] _next_krow_T_12; // @[Util.scala:43:11] assign _next_krow_T_12 = _GEN_53; // @[Util.scala:41:15, :43:11] wire [15:0] _next_krow_T_10 = _next_krow_T_9[15:0]; // @[Util.scala:41:15] wire _next_krow_T_11 = ~_next_krow_T_8; // @[Util.scala:42:8] wire _next_krow_T_13 = _next_krow_T_12 > {1'h0, next_krow_max}; // @[Util.scala:39:28, :43:{11,17}] wire [15:0] _next_krow_T_14 = _next_krow_T_13 ? 16'h0 : _next_krow_T_10; // @[Mux.scala:126:16] wire [15:0] next_krow = _next_krow_T_11 ? krow : _next_krow_T_14; // @[Mux.scala:126:16] wire _GEN_54 = next_krow == 16'h0; // @[Mux.scala:126:16] wire _next_och_T; // @[LoopConv.scala:803:66] assign _next_och_T = _GEN_54; // @[LoopConv.scala:803:66] wire _state_T_1; // @[LoopConv.scala:818:50] assign _state_T_1 = _GEN_54; // @[LoopConv.scala:803:66, :818:50] wire _next_och_T_2 = _next_och_T & _next_och_T_1; // @[LoopConv.scala:803:{66,74}, :804:19] wire _next_och_T_4 = _next_och_T_2 & _next_och_T_3; // @[LoopConv.scala:803:74, :804:{27,39}] wire _next_och_T_6 = _next_och_T_4 & _next_och_T_5; // @[LoopConv.scala:804:{27,47,57}] wire _next_och_T_8 = _next_och_T_6 & _next_och_T_7; // @[LoopConv.scala:804:{47,65,78}] wire _next_och_T_10 = _next_och_T_8 & _next_och_T_9; // @[LoopConv.scala:804:{65,86,99}] wire [16:0] _next_och_max_T = _GEN_20 - 17'h1; // @[Util.scala:39:28] wire [15:0] next_och_max = _next_och_max_T[15:0]; // @[Util.scala:39:28] wire [16:0] _GEN_55 = _GEN_21 + 17'h4; // @[Util.scala:41:15] wire [16:0] _next_och_T_11; // @[Util.scala:41:15] assign _next_och_T_11 = _GEN_55; // @[Util.scala:41:15] wire [16:0] _next_och_T_14; // @[Util.scala:43:11] assign _next_och_T_14 = _GEN_55; // @[Util.scala:41:15, :43:11] wire [15:0] _next_och_T_12 = _next_och_T_11[15:0]; // @[Util.scala:41:15] wire _next_och_T_13 = ~_next_och_T_10; // @[Util.scala:42:8] wire _next_och_T_15 = _next_och_T_14 > {1'h0, next_och_max}; // @[Util.scala:39:28, :43:{11,17}] wire [15:0] _next_och_T_16 = _next_och_T_15 ? 16'h0 : _next_och_T_12; // @[Mux.scala:126:16] wire [15:0] next_och = _next_och_T_13 ? och : _next_och_T_16; // @[Mux.scala:126:16] wire _state_T = next_och == 16'h0; // @[Mux.scala:126:16] wire _state_T_2 = _state_T & _state_T_1; // @[LoopConv.scala:818:{29,37,50}] wire _state_T_4 = _state_T_2 & _state_T_3; // @[LoopConv.scala:818:{37,58,71}] wire _state_T_6 = _state_T_4 & _state_T_5; // @[LoopConv.scala:818:{58,79,91}] wire _state_T_8 = _state_T_6 & _state_T_7; // @[LoopConv.scala:818:{79,99,109}] wire _state_T_10 = _state_T_8 & _state_T_9; // @[LoopConv.scala:818:{99,117}, :819:19] wire _state_T_12 = _state_T_10 & _state_T_11; // @[LoopConv.scala:818:117, :819:{27,40}] wire [1:0] _state_T_13 = {~_state_T_12, 1'h0}; // @[LoopConv.scala:818:19, :819:27] wire [1:0] _state_T_14 = io_req_bits_trans_input_3120_0 ? 2'h1 : 2'h2; // @[LoopConv.scala:596:7, :786:17, :827:17] wire _T_5 = _command_p_io_in_ready & _command_p_io_in_valid_T_3; // @[Decoupled.scala:51:35] wire _T_6 = _T_5 | skip_iteration; // @[Decoupled.scala:51:35] wire _T_7 = state == 2'h1; // @[LoopConv.scala:618:22, :786:17] wire _GEN_56 = _T_7 | _command_p_io_in_bits_cmd_T; // @[LoopConv.scala:643:17, :731:62, :786:{17,29}, :788:32, :806:12] wire _T_14 = io_req_ready_0 & io_req_valid_0; // @[Decoupled.scala:51:35] always @(posedge clock) begin // @[LoopConv.scala:596:7] if (reset) // @[LoopConv.scala:596:7] state <= 2'h0; // @[LoopConv.scala:618:22] else if (_T_14) // @[Decoupled.scala:51:35] state <= _state_T_14; // @[LoopConv.scala:618:22, :827:17] else if (_T_6) // @[LoopConv.scala:785:30] state <= _T_7 ? 2'h2 : _command_p_io_in_bits_cmd_T ? 2'h3 : _state_T_13; // @[LoopConv.scala:618:22, :731:62, :786:{17,29}, :787:13, :788:32, :789:13, :818:{13,19}] if (_T_14) begin // @[Decoupled.scala:51:35] req_outer_bounds_batch_size <= io_req_bits_outer_bounds_batch_size_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_in_row_dim <= io_req_bits_outer_bounds_in_row_dim_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_in_col_dim <= io_req_bits_outer_bounds_in_col_dim_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_in_channels <= io_req_bits_outer_bounds_in_channels_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_out_channels <= io_req_bits_outer_bounds_out_channels_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_out_col_dim <= io_req_bits_outer_bounds_out_col_dim_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_out_row_dim <= io_req_bits_outer_bounds_out_row_dim_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_out_stride <= io_req_bits_outer_bounds_out_stride_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_in_stride <= io_req_bits_outer_bounds_in_stride_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_weight_stride <= io_req_bits_outer_bounds_weight_stride_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_pool_out_row_dim <= io_req_bits_outer_bounds_pool_out_row_dim_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_pool_out_col_dim <= io_req_bits_outer_bounds_pool_out_col_dim_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_stride <= io_req_bits_outer_bounds_stride_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_padding <= io_req_bits_outer_bounds_padding_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_kernel_dim <= io_req_bits_outer_bounds_kernel_dim_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_kernel_dilation <= io_req_bits_outer_bounds_kernel_dilation_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_pool_size <= io_req_bits_outer_bounds_pool_size_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_pool_stride <= io_req_bits_outer_bounds_pool_stride_0; // @[LoopConv.scala:596:7, :620:16] req_outer_bounds_pool_padding <= io_req_bits_outer_bounds_pool_padding_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_batches <= io_req_bits_inner_bounds_batches_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_porows <= io_req_bits_inner_bounds_porows_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_pocols <= io_req_bits_inner_bounds_pocols_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_pochs <= io_req_bits_inner_bounds_pochs_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_krows <= io_req_bits_inner_bounds_krows_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_kcols <= io_req_bits_inner_bounds_kcols_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_kchs <= io_req_bits_inner_bounds_kchs_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_lpad <= io_req_bits_inner_bounds_lpad_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_rpad <= io_req_bits_inner_bounds_rpad_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_upad <= io_req_bits_inner_bounds_upad_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_dpad <= io_req_bits_inner_bounds_dpad_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_plpad <= io_req_bits_inner_bounds_plpad_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_prad <= io_req_bits_inner_bounds_prad_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_pupad <= io_req_bits_inner_bounds_pupad_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_pdpad <= io_req_bits_inner_bounds_pdpad_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_orows <= io_req_bits_inner_bounds_orows_0; // @[LoopConv.scala:596:7, :620:16] req_inner_bounds_ocols <= io_req_bits_inner_bounds_ocols_0; // @[LoopConv.scala:596:7, :620:16] req_derived_params_ochs <= io_req_bits_derived_params_ochs_0; // @[LoopConv.scala:596:7, :620:16] req_derived_params_irows <= io_req_bits_derived_params_irows_0; // @[LoopConv.scala:596:7, :620:16] req_derived_params_icols <= io_req_bits_derived_params_icols_0; // @[LoopConv.scala:596:7, :620:16] req_derived_params_irows_unpadded <= io_req_bits_derived_params_irows_unpadded_0; // @[LoopConv.scala:596:7, :620:16] req_derived_params_icols_unpadded <= io_req_bits_derived_params_icols_unpadded_0; // @[LoopConv.scala:596:7, :620:16] req_derived_params_ichs <= io_req_bits_derived_params_ichs_0; // @[LoopConv.scala:596:7, :620:16] req_derived_params_out_channels_per_bank <= io_req_bits_derived_params_out_channels_per_bank_0; // @[LoopConv.scala:596:7, :620:16] req_derived_params_in_channels_per_bank <= io_req_bits_derived_params_in_channels_per_bank_0; // @[LoopConv.scala:596:7, :620:16] req_derived_params_bias_spad_stride <= io_req_bits_derived_params_bias_spad_stride_0; // @[LoopConv.scala:596:7, :620:16] req_derived_params_input_spad_stride <= io_req_bits_derived_params_input_spad_stride_0; // @[LoopConv.scala:596:7, :620:16] req_derived_params_weight_spad_stride <= io_req_bits_derived_params_weight_spad_stride_0; // @[LoopConv.scala:596:7, :620:16] req_a_addr_start <= io_req_bits_a_addr_start_0; // @[LoopConv.scala:596:7, :620:16] req_b_addr_end <= io_req_bits_b_addr_end_0; // @[LoopConv.scala:596:7, :620:16] req_c_addr_start <= io_req_bits_c_addr_start_0; // @[LoopConv.scala:596:7, :620:16] req_wrot180 <= io_req_bits_wrot180_0; // @[LoopConv.scala:596:7, :620:16] req_downsample <= io_req_bits_downsample_0; // @[LoopConv.scala:596:7, :620:16] req_max_pixels_per_row <= io_req_bits_max_pixels_per_row_0; // @[LoopConv.scala:596:7, :620:16] req_input_dilated <= io_req_bits_input_dilated_0; // @[LoopConv.scala:596:7, :620:16] req_trans_weight_0132 <= io_req_bits_trans_weight_0132_0; // @[LoopConv.scala:596:7, :620:16] req_trans_input_3120 <= io_req_bits_trans_input_3120_0; // @[LoopConv.scala:596:7, :620:16] req_loop_id <= io_req_bits_loop_id_0; // @[LoopConv.scala:596:7, :620:16] och <= 16'h0; // @[LoopConv.scala:637:16] krow <= 16'h0; // @[LoopConv.scala:638:17] kcol <= 16'h0; // @[LoopConv.scala:639:17] kch <= 16'h0; // @[LoopConv.scala:640:16] b <= 16'h0; // @[LoopConv.scala:641:14] orow <= 16'h0; // @[LoopConv.scala:642:17] ocol <= 16'h0; // @[LoopConv.scala:643:17] end else if (~_T_6 | _GEN_56) begin // @[LoopConv.scala:643:17, :785:{30,49}, :786:29, :788:32, :806:12] end else begin // @[LoopConv.scala:643:17, :785:49, :786:29] och <= next_och; // @[Mux.scala:126:16] krow <= next_krow; // @[Mux.scala:126:16] kcol <= next_kcol; // @[Mux.scala:126:16] kch <= next_kch; // @[Mux.scala:126:16] b <= next_b; // @[Mux.scala:126:16] orow <= next_orow; // @[Mux.scala:126:16] ocol <= next_ocol; // @[Mux.scala:126:16] end new_weights <= _T_14 | _T_6 & ~_GEN_56 & _T_9 & _T_10 & _T_12 | ~((&state) & _T_5) & new_weights; // @[Decoupled.scala:51:35] always @(posedge) Pipeline_14 command_p ( // @[LoopConv.scala:691:25] .clock (clock), .reset (reset), .io_in_ready (_command_p_io_in_ready), .io_in_valid (_command_p_io_in_valid_T_3), // @[LoopConv.scala:730:62] .io_in_bits_cmd_inst_funct (_command_p_io_in_bits_cmd_T_3_inst_funct), // @[Mux.scala:126:16] .io_in_bits_cmd_rs1 (_command_p_io_in_bits_cmd_T_3_rs1), // @[Mux.scala:126:16] .io_in_bits_cmd_rs2 (_command_p_io_in_bits_cmd_T_3_rs2), // @[Mux.scala:126:16] .io_in_bits_a_addr (a_addr), // @[LoopConv.scala:661:19] .io_in_bits_b_addr (b_addr), // @[LoopConv.scala:677:19] .io_in_bits_c_addr (c_addr), // @[LoopConv.scala:670:105] .io_in_bits_I (I), // @[LoopConv.scala:654:14] .io_in_bits_J (J), // @[LoopConv.scala:657:14] .io_in_bits_K (K), // @[LoopConv.scala:658:18] .io_in_bits_new_weights (new_weights), // @[LoopConv.scala:673:24] .io_out_ready (_command_p_io_out_ready_T_1), // @[LoopConv.scala:740:42] .io_out_valid (_command_p_io_out_valid), .io_out_bits_cmd_inst_funct (_command_p_io_out_bits_cmd_inst_funct), .io_out_bits_cmd_inst_rs2 (io_cmd_bits_inst_rs2_0), .io_out_bits_cmd_inst_rs1 (io_cmd_bits_inst_rs1_0), .io_out_bits_cmd_inst_xd (io_cmd_bits_inst_xd_0), .io_out_bits_cmd_inst_xs1 (io_cmd_bits_inst_xs1_0), .io_out_bits_cmd_inst_xs2 (io_cmd_bits_inst_xs2_0), .io_out_bits_cmd_inst_rd (io_cmd_bits_inst_rd_0), .io_out_bits_cmd_inst_opcode (io_cmd_bits_inst_opcode_0), .io_out_bits_cmd_rs1 (_command_p_io_out_bits_cmd_rs1), .io_out_bits_cmd_rs2 (_command_p_io_out_bits_cmd_rs2), .io_out_bits_cmd_status_debug (io_cmd_bits_status_debug_0), .io_out_bits_cmd_status_cease (io_cmd_bits_status_cease_0), .io_out_bits_cmd_status_wfi (io_cmd_bits_status_wfi_0), .io_out_bits_cmd_status_isa (io_cmd_bits_status_isa_0), .io_out_bits_cmd_status_dprv (io_cmd_bits_status_dprv_0), .io_out_bits_cmd_status_dv (io_cmd_bits_status_dv_0), .io_out_bits_cmd_status_prv (io_cmd_bits_status_prv_0), .io_out_bits_cmd_status_v (io_cmd_bits_status_v_0), .io_out_bits_cmd_status_sd (io_cmd_bits_status_sd_0), .io_out_bits_cmd_status_zero2 (io_cmd_bits_status_zero2_0), .io_out_bits_cmd_status_mpv (io_cmd_bits_status_mpv_0), .io_out_bits_cmd_status_gva (io_cmd_bits_status_gva_0), .io_out_bits_cmd_status_mbe (io_cmd_bits_status_mbe_0), .io_out_bits_cmd_status_sbe (io_cmd_bits_status_sbe_0), .io_out_bits_cmd_status_sxl (io_cmd_bits_status_sxl_0), .io_out_bits_cmd_status_uxl (io_cmd_bits_status_uxl_0), .io_out_bits_cmd_status_sd_rv32 (io_cmd_bits_status_sd_rv32_0), .io_out_bits_cmd_status_zero1 (io_cmd_bits_status_zero1_0), .io_out_bits_cmd_status_tsr (io_cmd_bits_status_tsr_0), .io_out_bits_cmd_status_tw (io_cmd_bits_status_tw_0), .io_out_bits_cmd_status_tvm (io_cmd_bits_status_tvm_0), .io_out_bits_cmd_status_mxr (io_cmd_bits_status_mxr_0), .io_out_bits_cmd_status_sum (io_cmd_bits_status_sum_0), .io_out_bits_cmd_status_mprv (io_cmd_bits_status_mprv_0), .io_out_bits_cmd_status_xs (io_cmd_bits_status_xs_0), .io_out_bits_cmd_status_fs (io_cmd_bits_status_fs_0), .io_out_bits_cmd_status_mpp (io_cmd_bits_status_mpp_0), .io_out_bits_cmd_status_vs (io_cmd_bits_status_vs_0), .io_out_bits_cmd_status_spp (io_cmd_bits_status_spp_0), .io_out_bits_cmd_status_mpie (io_cmd_bits_status_mpie_0), .io_out_bits_cmd_status_ube (io_cmd_bits_status_ube_0), .io_out_bits_cmd_status_spie (io_cmd_bits_status_spie_0), .io_out_bits_cmd_status_upie (io_cmd_bits_status_upie_0), .io_out_bits_cmd_status_mie (io_cmd_bits_status_mie_0), .io_out_bits_cmd_status_hie (io_cmd_bits_status_hie_0), .io_out_bits_cmd_status_sie (io_cmd_bits_status_sie_0), .io_out_bits_cmd_status_uie (io_cmd_bits_status_uie_0), .io_out_bits_a_addr (_command_p_io_out_bits_a_addr), .io_out_bits_b_addr (_command_p_io_out_bits_b_addr), .io_out_bits_c_addr (_command_p_io_out_bits_c_addr), .io_out_bits_I (_command_p_io_out_bits_I), .io_out_bits_J (_command_p_io_out_bits_J), .io_out_bits_K (_command_p_io_out_bits_K), .io_out_bits_new_weights (_command_p_io_out_bits_new_weights), .io_busy (_command_p_io_busy) ); // @[LoopConv.scala:691:25] assign io_cmd_bits_inst_funct_0 = _command_p_io_out_bits_cmd_inst_funct; // @[LoopConv.scala:596:7, :691:25] assign io_req_ready = io_req_ready_0; // @[LoopConv.scala:596:7] assign io_cmd_valid = io_cmd_valid_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_inst_funct = io_cmd_bits_inst_funct_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_inst_rs2 = io_cmd_bits_inst_rs2_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_inst_rs1 = io_cmd_bits_inst_rs1_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_inst_xd = io_cmd_bits_inst_xd_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_inst_xs1 = io_cmd_bits_inst_xs1_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_inst_xs2 = io_cmd_bits_inst_xs2_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_inst_rd = io_cmd_bits_inst_rd_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_inst_opcode = io_cmd_bits_inst_opcode_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_rs1 = io_cmd_bits_rs1_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_rs2 = io_cmd_bits_rs2_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_debug = io_cmd_bits_status_debug_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_cease = io_cmd_bits_status_cease_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_wfi = io_cmd_bits_status_wfi_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_isa = io_cmd_bits_status_isa_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_dprv = io_cmd_bits_status_dprv_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_dv = io_cmd_bits_status_dv_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_prv = io_cmd_bits_status_prv_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_v = io_cmd_bits_status_v_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_sd = io_cmd_bits_status_sd_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_zero2 = io_cmd_bits_status_zero2_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_mpv = io_cmd_bits_status_mpv_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_gva = io_cmd_bits_status_gva_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_mbe = io_cmd_bits_status_mbe_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_sbe = io_cmd_bits_status_sbe_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_sxl = io_cmd_bits_status_sxl_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_uxl = io_cmd_bits_status_uxl_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_sd_rv32 = io_cmd_bits_status_sd_rv32_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_zero1 = io_cmd_bits_status_zero1_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_tsr = io_cmd_bits_status_tsr_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_tw = io_cmd_bits_status_tw_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_tvm = io_cmd_bits_status_tvm_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_mxr = io_cmd_bits_status_mxr_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_sum = io_cmd_bits_status_sum_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_mprv = io_cmd_bits_status_mprv_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_xs = io_cmd_bits_status_xs_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_fs = io_cmd_bits_status_fs_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_mpp = io_cmd_bits_status_mpp_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_vs = io_cmd_bits_status_vs_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_spp = io_cmd_bits_status_spp_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_mpie = io_cmd_bits_status_mpie_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_ube = io_cmd_bits_status_ube_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_spie = io_cmd_bits_status_spie_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_upie = io_cmd_bits_status_upie_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_mie = io_cmd_bits_status_mie_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_hie = io_cmd_bits_status_hie_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_sie = io_cmd_bits_status_sie_0; // @[LoopConv.scala:596:7] assign io_cmd_bits_status_uie = io_cmd_bits_status_uie_0; // @[LoopConv.scala:596:7] assign io_idle = io_idle_0; // @[LoopConv.scala:596:7] assign io_loop_id = io_loop_id_0; // @[LoopConv.scala:596:7] endmodule
Generate the Verilog code corresponding to the following Chisel files. File HasChipyardPRCI.scala: package chipyard.clocking import chisel3._ import scala.collection.mutable.{ArrayBuffer} import org.chipsalliance.cde.config.{Parameters, Field, Config} import freechips.rocketchip.diplomacy._ import freechips.rocketchip.tilelink._ import freechips.rocketchip.devices.tilelink._ import freechips.rocketchip.regmapper._ import freechips.rocketchip.subsystem._ import freechips.rocketchip.util._ import freechips.rocketchip.tile._ import freechips.rocketchip.prci._ import testchipip.boot.{TLTileResetCtrl} import testchipip.clocking.{ClockGroupFakeResetSynchronizer} case class ChipyardPRCIControlParams( slaveWhere: TLBusWrapperLocation = CBUS, baseAddress: BigInt = 0x100000, enableTileClockGating: Boolean = true, enableTileResetSetting: Boolean = true, enableResetSynchronizers: Boolean = true // this should only be disabled to work around verilator async-reset initialization problems ) { def generatePRCIXBar = enableTileClockGating || enableTileResetSetting } case object ChipyardPRCIControlKey extends Field[ChipyardPRCIControlParams](ChipyardPRCIControlParams()) trait HasChipyardPRCI { this: BaseSubsystem with InstantiatesHierarchicalElements => require(!p(SubsystemDriveClockGroupsFromIO), "Subsystem allClockGroups cannot be driven from implicit clocks") val prciParams = p(ChipyardPRCIControlKey) // Set up clock domain private val tlbus = locateTLBusWrapper(prciParams.slaveWhere) val prci_ctrl_domain = tlbus.generateSynchronousDomain("ChipyardPRCICtrl") .suggestName("chipyard_prcictrl_domain") val prci_ctrl_bus = Option.when(prciParams.generatePRCIXBar) { prci_ctrl_domain { TLXbar(nameSuffix = Some("prcibus")) } } prci_ctrl_bus.foreach(xbar => tlbus.coupleTo("prci_ctrl") { (xbar := TLFIFOFixer(TLFIFOFixer.all) := TLBuffer() := _) }) // Aggregate all the clock groups into a single node val aggregator = LazyModule(new ClockGroupAggregator("allClocks")).node // The diplomatic clocks in the subsystem are routed to this allClockGroupsNode val clockNamePrefixer = ClockGroupNamePrefixer() (allClockGroupsNode :*= clockNamePrefixer :*= aggregator) // Once all the clocks are gathered in the aggregator node, several steps remain // 1. Assign frequencies to any clock groups which did not specify a frequency. // 2. Combine duplicated clock groups (clock groups which physically should be in the same clock domain) // 3. Synchronize reset to each clock group // 4. Clock gate the clock groups corresponding to Tiles (if desired). // 5. Add reset control registers to the tiles (if desired) // The final clock group here contains physically distinct clock domains, which some PRCI node in a // diplomatic IOBinder should drive val frequencySpecifier = ClockGroupFrequencySpecifier(p(ClockFrequencyAssignersKey)) val clockGroupCombiner = ClockGroupCombiner() val resetSynchronizer = prci_ctrl_domain { if (prciParams.enableResetSynchronizers) ClockGroupResetSynchronizer() else ClockGroupFakeResetSynchronizer() } val tileClockGater = Option.when(prciParams.enableTileClockGating) { prci_ctrl_domain { val clock_gater = LazyModule(new TileClockGater(prciParams.baseAddress + 0x00000, tlbus.beatBytes)) clock_gater.tlNode := TLFragmenter(tlbus.beatBytes, tlbus.blockBytes, nameSuffix = Some("TileClockGater")) := prci_ctrl_bus.get clock_gater } } val tileResetSetter = Option.when(prciParams.enableTileResetSetting) { prci_ctrl_domain { val reset_setter = LazyModule(new TileResetSetter(prciParams.baseAddress + 0x10000, tlbus.beatBytes, tile_prci_domains.map(_._2.tile_reset_domain.clockNode.portParams(0).name.get).toSeq, Nil)) reset_setter.tlNode := TLFragmenter(tlbus.beatBytes, tlbus.blockBytes, nameSuffix = Some("TileResetSetter")) := prci_ctrl_bus.get reset_setter } } if (!prciParams.enableResetSynchronizers) { println(Console.RED + s""" !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! WARNING: DISABLING THE RESET SYNCHRONIZERS RESULTS IN A BROKEN DESIGN THAT WILL NOT BEHAVE PROPERLY AS ASIC OR FPGA. THESE SHOULD ONLY BE DISABLED TO WORK AROUND LIMITATIONS IN ASYNC RESET INITIALIZATION IN RTL SIMULATORS, NAMELY VERILATOR. !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! """ + Console.RESET) } // The chiptopClockGroupsNode shouuld be what ClockBinders attach to val chiptopClockGroupsNode = ClockGroupEphemeralNode() (aggregator := frequencySpecifier := clockGroupCombiner := resetSynchronizer := tileClockGater.map(_.clockNode).getOrElse(ClockGroupEphemeralNode()(ValName("temp"))) := tileResetSetter.map(_.clockNode).getOrElse(ClockGroupEphemeralNode()(ValName("temp"))) := chiptopClockGroupsNode) } File Fragmenter.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.{AddressSet, BufferParams, IdRange, TransferSizes} import freechips.rocketchip.util.{Repeater, OH1ToUInt, UIntToOH1} import scala.math.min import freechips.rocketchip.util.DataToAugmentedData object EarlyAck { sealed trait T case object AllPuts extends T case object PutFulls extends T case object None extends T } // minSize: minimum size of transfers supported by all outward managers // maxSize: maximum size of transfers supported after the Fragmenter is applied // alwaysMin: fragment all requests down to minSize (else fragment to maximum supported by manager) // earlyAck: should a multibeat Put should be acknowledged on the first beat or last beat // holdFirstDeny: allow the Fragmenter to unsafely combine multibeat Gets by taking the first denied for the whole burst // nameSuffix: appends a suffix to the module name // Fragmenter modifies: PutFull, PutPartial, LogicalData, Get, Hint // Fragmenter passes: ArithmeticData (truncated to minSize if alwaysMin) // Fragmenter cannot modify acquire (could livelock); thus it is unsafe to put caches on both sides class TLFragmenter(val minSize: Int, val maxSize: Int, val alwaysMin: Boolean = false, val earlyAck: EarlyAck.T = EarlyAck.None, val holdFirstDeny: Boolean = false, val nameSuffix: Option[String] = None)(implicit p: Parameters) extends LazyModule { require(isPow2 (maxSize), s"TLFragmenter expects pow2(maxSize), but got $maxSize") require(isPow2 (minSize), s"TLFragmenter expects pow2(minSize), but got $minSize") require(minSize <= maxSize, s"TLFragmenter expects min <= max, but got $minSize > $maxSize") val fragmentBits = log2Ceil(maxSize / minSize) val fullBits = if (earlyAck == EarlyAck.PutFulls) 1 else 0 val toggleBits = 1 val addedBits = fragmentBits + toggleBits + fullBits def expandTransfer(x: TransferSizes, op: String) = if (!x) x else { // validate that we can apply the fragmenter correctly require (x.max >= minSize, s"TLFragmenter (with parent $parent) max transfer size $op(${x.max}) must be >= min transfer size (${minSize})") TransferSizes(x.min, maxSize) } private def noChangeRequired = minSize == maxSize private def shrinkTransfer(x: TransferSizes) = if (!alwaysMin) x else if (x.min <= minSize) TransferSizes(x.min, min(minSize, x.max)) else TransferSizes.none private def mapManager(m: TLSlaveParameters) = m.v1copy( supportsArithmetic = shrinkTransfer(m.supportsArithmetic), supportsLogical = shrinkTransfer(m.supportsLogical), supportsGet = expandTransfer(m.supportsGet, "Get"), supportsPutFull = expandTransfer(m.supportsPutFull, "PutFull"), supportsPutPartial = expandTransfer(m.supportsPutPartial, "PutParital"), supportsHint = expandTransfer(m.supportsHint, "Hint")) val node = new TLAdapterNode( // We require that all the responses are mutually FIFO // Thus we need to compact all of the masters into one big master clientFn = { c => (if (noChangeRequired) c else c.v2copy( masters = Seq(TLMasterParameters.v2( name = "TLFragmenter", sourceId = IdRange(0, if (minSize == maxSize) c.endSourceId else (c.endSourceId << addedBits)), requestFifo = true, emits = TLMasterToSlaveTransferSizes( acquireT = shrinkTransfer(c.masters.map(_.emits.acquireT) .reduce(_ mincover _)), acquireB = shrinkTransfer(c.masters.map(_.emits.acquireB) .reduce(_ mincover _)), arithmetic = shrinkTransfer(c.masters.map(_.emits.arithmetic).reduce(_ mincover _)), logical = shrinkTransfer(c.masters.map(_.emits.logical) .reduce(_ mincover _)), get = shrinkTransfer(c.masters.map(_.emits.get) .reduce(_ mincover _)), putFull = shrinkTransfer(c.masters.map(_.emits.putFull) .reduce(_ mincover _)), putPartial = shrinkTransfer(c.masters.map(_.emits.putPartial).reduce(_ mincover _)), hint = shrinkTransfer(c.masters.map(_.emits.hint) .reduce(_ mincover _)) ) )) ))}, managerFn = { m => if (noChangeRequired) m else m.v2copy(slaves = m.slaves.map(mapManager)) } ) { override def circuitIdentity = noChangeRequired } lazy val module = new Impl class Impl extends LazyModuleImp(this) { override def desiredName = (Seq("TLFragmenter") ++ nameSuffix).mkString("_") (node.in zip node.out) foreach { case ((in, edgeIn), (out, edgeOut)) => if (noChangeRequired) { out <> in } else { // All managers must share a common FIFO domain (responses might end up interleaved) val manager = edgeOut.manager val managers = manager.managers val beatBytes = manager.beatBytes val fifoId = managers(0).fifoId require (fifoId.isDefined && managers.map(_.fifoId == fifoId).reduce(_ && _)) require (!manager.anySupportAcquireB || !edgeOut.client.anySupportProbe, s"TLFragmenter (with parent $parent) can't fragment a caching client's requests into a cacheable region") require (minSize >= beatBytes, s"TLFragmenter (with parent $parent) can't support fragmenting ($minSize) to sub-beat ($beatBytes) accesses") // We can't support devices which are cached on both sides of us require (!edgeOut.manager.anySupportAcquireB || !edgeIn.client.anySupportProbe) // We can't support denied because we reassemble fragments require (!edgeOut.manager.mayDenyGet || holdFirstDeny, s"TLFragmenter (with parent $parent) can't support denials without holdFirstDeny=true") require (!edgeOut.manager.mayDenyPut || earlyAck == EarlyAck.None) /* The Fragmenter is a bit tricky, because there are 5 sizes in play: * max size -- the maximum transfer size possible * orig size -- the original pre-fragmenter size * frag size -- the modified post-fragmenter size * min size -- the threshold below which frag=orig * beat size -- the amount transfered on any given beat * * The relationships are as follows: * max >= orig >= frag * max > min >= beat * It IS possible that orig <= min (then frag=orig; ie: no fragmentation) * * The fragment# (sent via TL.source) is measured in multiples of min size. * Meanwhile, to track the progress, counters measure in multiples of beat size. * * Here is an example of a bus with max=256, min=8, beat=4 and a device supporting 16. * * in.A out.A (frag#) out.D (frag#) in.D gen# ack# * get64 get16 6 ackD16 6 ackD64 12 15 * ackD16 6 ackD64 14 * ackD16 6 ackD64 13 * ackD16 6 ackD64 12 * get16 4 ackD16 4 ackD64 8 11 * ackD16 4 ackD64 10 * ackD16 4 ackD64 9 * ackD16 4 ackD64 8 * get16 2 ackD16 2 ackD64 4 7 * ackD16 2 ackD64 6 * ackD16 2 ackD64 5 * ackD16 2 ackD64 4 * get16 0 ackD16 0 ackD64 0 3 * ackD16 0 ackD64 2 * ackD16 0 ackD64 1 * ackD16 0 ackD64 0 * * get8 get8 0 ackD8 0 ackD8 0 1 * ackD8 0 ackD8 0 * * get4 get4 0 ackD4 0 ackD4 0 0 * get1 get1 0 ackD1 0 ackD1 0 0 * * put64 put16 6 15 * put64 put16 6 14 * put64 put16 6 13 * put64 put16 6 ack16 6 12 12 * put64 put16 4 11 * put64 put16 4 10 * put64 put16 4 9 * put64 put16 4 ack16 4 8 8 * put64 put16 2 7 * put64 put16 2 6 * put64 put16 2 5 * put64 put16 2 ack16 2 4 4 * put64 put16 0 3 * put64 put16 0 2 * put64 put16 0 1 * put64 put16 0 ack16 0 ack64 0 0 * * put8 put8 0 1 * put8 put8 0 ack8 0 ack8 0 0 * * put4 put4 0 ack4 0 ack4 0 0 * put1 put1 0 ack1 0 ack1 0 0 */ val counterBits = log2Up(maxSize/beatBytes) val maxDownSize = if (alwaysMin) minSize else min(manager.maxTransfer, maxSize) // Consider the following waveform for two 4-beat bursts: // ---A----A------------ // -------D-----DDD-DDDD // Under TL rules, the second A can use the same source as the first A, // because the source is released for reuse on the first response beat. // // However, if we fragment the requests, it looks like this: // ---3210-3210--------- // -------3-----210-3210 // ... now we've broken the rules because 210 are twice inflight. // // This phenomenon means we can have essentially 2*maxSize/minSize-1 // fragmented transactions in flight per original transaction source. // // To keep the source unique, we encode the beat counter in the low // bits of the source. To solve the overlap, we use a toggle bit. // Whatever toggle bit the D is reassembling, A will use the opposite. // First, handle the return path val acknum = RegInit(0.U(counterBits.W)) val dOrig = Reg(UInt()) val dToggle = RegInit(false.B) val dFragnum = out.d.bits.source(fragmentBits-1, 0) val dFirst = acknum === 0.U val dLast = dFragnum === 0.U // only for AccessAck (!Data) val dsizeOH = UIntToOH (out.d.bits.size, log2Ceil(maxDownSize)+1) val dsizeOH1 = UIntToOH1(out.d.bits.size, log2Up(maxDownSize)) val dHasData = edgeOut.hasData(out.d.bits) // calculate new acknum val acknum_fragment = dFragnum << log2Ceil(minSize/beatBytes) val acknum_size = dsizeOH1 >> log2Ceil(beatBytes) assert (!out.d.valid || (acknum_fragment & acknum_size) === 0.U) val dFirst_acknum = acknum_fragment | Mux(dHasData, acknum_size, 0.U) val ack_decrement = Mux(dHasData, 1.U, dsizeOH >> log2Ceil(beatBytes)) // calculate the original size val dFirst_size = OH1ToUInt((dFragnum << log2Ceil(minSize)) | dsizeOH1) when (out.d.fire) { acknum := Mux(dFirst, dFirst_acknum, acknum - ack_decrement) when (dFirst) { dOrig := dFirst_size dToggle := out.d.bits.source(fragmentBits) } } // Swallow up non-data ack fragments val doEarlyAck = earlyAck match { case EarlyAck.AllPuts => true.B case EarlyAck.PutFulls => out.d.bits.source(fragmentBits+1) case EarlyAck.None => false.B } val drop = !dHasData && !Mux(doEarlyAck, dFirst, dLast) out.d.ready := in.d.ready || drop in.d.valid := out.d.valid && !drop in.d.bits := out.d.bits // pass most stuff unchanged in.d.bits.source := out.d.bits.source >> addedBits in.d.bits.size := Mux(dFirst, dFirst_size, dOrig) if (edgeOut.manager.mayDenyPut) { val r_denied = Reg(Bool()) val d_denied = (!dFirst && r_denied) || out.d.bits.denied when (out.d.fire) { r_denied := d_denied } in.d.bits.denied := d_denied } if (edgeOut.manager.mayDenyGet) { // Take denied only from the first beat and hold that value val d_denied = out.d.bits.denied holdUnless dFirst when (dHasData) { in.d.bits.denied := d_denied in.d.bits.corrupt := d_denied || out.d.bits.corrupt } } // What maximum transfer sizes do downstream devices support? val maxArithmetics = managers.map(_.supportsArithmetic.max) val maxLogicals = managers.map(_.supportsLogical.max) val maxGets = managers.map(_.supportsGet.max) val maxPutFulls = managers.map(_.supportsPutFull.max) val maxPutPartials = managers.map(_.supportsPutPartial.max) val maxHints = managers.map(m => if (m.supportsHint) maxDownSize else 0) // We assume that the request is valid => size 0 is impossible val lgMinSize = log2Ceil(minSize).U val maxLgArithmetics = maxArithmetics.map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgLogicals = maxLogicals .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgGets = maxGets .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgPutFulls = maxPutFulls .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgPutPartials = maxPutPartials.map(m => if (m == 0) lgMinSize else log2Ceil(m).U) val maxLgHints = maxHints .map(m => if (m == 0) lgMinSize else log2Ceil(m).U) // Make the request repeatable val repeater = Module(new Repeater(in.a.bits)) repeater.io.enq <> in.a val in_a = repeater.io.deq // If this is infront of a single manager, these become constants val find = manager.findFast(edgeIn.address(in_a.bits)) val maxLgArithmetic = Mux1H(find, maxLgArithmetics) val maxLgLogical = Mux1H(find, maxLgLogicals) val maxLgGet = Mux1H(find, maxLgGets) val maxLgPutFull = Mux1H(find, maxLgPutFulls) val maxLgPutPartial = Mux1H(find, maxLgPutPartials) val maxLgHint = Mux1H(find, maxLgHints) val limit = if (alwaysMin) lgMinSize else MuxLookup(in_a.bits.opcode, lgMinSize)(Array( TLMessages.PutFullData -> maxLgPutFull, TLMessages.PutPartialData -> maxLgPutPartial, TLMessages.ArithmeticData -> maxLgArithmetic, TLMessages.LogicalData -> maxLgLogical, TLMessages.Get -> maxLgGet, TLMessages.Hint -> maxLgHint)) val aOrig = in_a.bits.size val aFrag = Mux(aOrig > limit, limit, aOrig) val aOrigOH1 = UIntToOH1(aOrig, log2Ceil(maxSize)) val aFragOH1 = UIntToOH1(aFrag, log2Up(maxDownSize)) val aHasData = edgeIn.hasData(in_a.bits) val aMask = Mux(aHasData, 0.U, aFragOH1) val gennum = RegInit(0.U(counterBits.W)) val aFirst = gennum === 0.U val old_gennum1 = Mux(aFirst, aOrigOH1 >> log2Ceil(beatBytes), gennum - 1.U) val new_gennum = ~(~old_gennum1 | (aMask >> log2Ceil(beatBytes))) // ~(~x|y) is width safe val aFragnum = ~(~(old_gennum1 >> log2Ceil(minSize/beatBytes)) | (aFragOH1 >> log2Ceil(minSize))) val aLast = aFragnum === 0.U val aToggle = !Mux(aFirst, dToggle, RegEnable(dToggle, aFirst)) val aFull = if (earlyAck == EarlyAck.PutFulls) Some(in_a.bits.opcode === TLMessages.PutFullData) else None when (out.a.fire) { gennum := new_gennum } repeater.io.repeat := !aHasData && aFragnum =/= 0.U out.a <> in_a out.a.bits.address := in_a.bits.address | ~(old_gennum1 << log2Ceil(beatBytes) | ~aOrigOH1 | aFragOH1 | (minSize-1).U) out.a.bits.source := Cat(Seq(in_a.bits.source) ++ aFull ++ Seq(aToggle.asUInt, aFragnum)) out.a.bits.size := aFrag // Optimize away some of the Repeater's registers assert (!repeater.io.full || !aHasData) out.a.bits.data := in.a.bits.data val fullMask = ((BigInt(1) << beatBytes) - 1).U assert (!repeater.io.full || in_a.bits.mask === fullMask) out.a.bits.mask := Mux(repeater.io.full, fullMask, in.a.bits.mask) out.a.bits.user.waiveAll :<= in.a.bits.user.subset(_.isData) // Tie off unused channels in.b.valid := false.B in.c.ready := true.B in.e.ready := true.B out.b.ready := true.B out.c.valid := false.B out.e.valid := false.B } } } } object TLFragmenter { def apply(minSize: Int, maxSize: Int, alwaysMin: Boolean = false, earlyAck: EarlyAck.T = EarlyAck.None, holdFirstDeny: Boolean = false, nameSuffix: Option[String] = None)(implicit p: Parameters): TLNode = { if (minSize <= maxSize) { val fragmenter = LazyModule(new TLFragmenter(minSize, maxSize, alwaysMin, earlyAck, holdFirstDeny, nameSuffix)) fragmenter.node } else { TLEphemeralNode()(ValName("no_fragmenter")) } } def apply(wrapper: TLBusWrapper, nameSuffix: Option[String])(implicit p: Parameters): TLNode = apply(wrapper.beatBytes, wrapper.blockBytes, nameSuffix = nameSuffix) def apply(wrapper: TLBusWrapper)(implicit p: Parameters): TLNode = apply(wrapper, None) } // Synthesizable unit tests import freechips.rocketchip.unittest._ class TLRAMFragmenter(ramBeatBytes: Int, maxSize: Int, txns: Int)(implicit p: Parameters) extends LazyModule { val fuzz = LazyModule(new TLFuzzer(txns)) val model = LazyModule(new TLRAMModel("Fragmenter")) val ram = LazyModule(new TLRAM(AddressSet(0x0, 0x3ff), beatBytes = ramBeatBytes)) (ram.node := TLDelayer(0.1) := TLBuffer(BufferParams.flow) := TLDelayer(0.1) := TLFragmenter(ramBeatBytes, maxSize, earlyAck = EarlyAck.AllPuts) := TLDelayer(0.1) := TLBuffer(BufferParams.flow) := TLFragmenter(ramBeatBytes, maxSize/2) := TLDelayer(0.1) := TLBuffer(BufferParams.flow) := model.node := fuzz.node) lazy val module = new Impl class Impl extends LazyModuleImp(this) with UnitTestModule { io.finished := fuzz.module.io.finished } } class TLRAMFragmenterTest(ramBeatBytes: Int, maxSize: Int, txns: Int = 5000, timeout: Int = 500000)(implicit p: Parameters) extends UnitTest(timeout) { val dut = Module(LazyModule(new TLRAMFragmenter(ramBeatBytes,maxSize,txns)).module) io.finished := dut.io.finished dut.io.start := io.start } File ClockDomain.scala: package freechips.rocketchip.prci import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ abstract class Domain(implicit p: Parameters) extends LazyModule with HasDomainCrossing { def clockBundle: ClockBundle lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { childClock := clockBundle.clock childReset := clockBundle.reset override def provideImplicitClockToLazyChildren = true // these are just for backwards compatibility with external devices // that were manually wiring themselves to the domain's clock/reset input: val clock = IO(Output(chiselTypeOf(clockBundle.clock))) val reset = IO(Output(chiselTypeOf(clockBundle.reset))) clock := clockBundle.clock reset := clockBundle.reset } } abstract class ClockDomain(implicit p: Parameters) extends Domain with HasClockDomainCrossing class ClockSinkDomain(val clockSinkParams: ClockSinkParameters)(implicit p: Parameters) extends ClockDomain { def this(take: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSinkParameters(take = take, name = name)) val clockNode = ClockSinkNode(Seq(clockSinkParams)) def clockBundle = clockNode.in.head._1 override lazy val desiredName = (clockSinkParams.name.toSeq :+ "ClockSinkDomain").mkString } class ClockSourceDomain(val clockSourceParams: ClockSourceParameters)(implicit p: Parameters) extends ClockDomain { def this(give: Option[ClockParameters] = None, name: Option[String] = None)(implicit p: Parameters) = this(ClockSourceParameters(give = give, name = name)) val clockNode = ClockSourceNode(Seq(clockSourceParams)) def clockBundle = clockNode.out.head._1 override lazy val desiredName = (clockSourceParams.name.toSeq :+ "ClockSourceDomain").mkString } abstract class ResetDomain(implicit p: Parameters) extends Domain with HasResetDomainCrossing File ResetSynchronizer.scala: // See LICENSE for license details. package freechips.rocketchip.prci import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.util.ResetCatchAndSync /** * Synchronizes the reset of a diplomatic clock-reset pair to its accompanying clock. */ class ResetSynchronizer(implicit p: Parameters) extends LazyModule { val node = ClockAdapterNode() lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { (node.out zip node.in).map { case ((o, _), (i, _)) => o.clock := i.clock o.reset := ResetCatchAndSync(i.clock, i.reset.asBool) } } } object ResetSynchronizer { def apply()(implicit p: Parameters, valName: ValName) = LazyModule(new ResetSynchronizer()).node } /** * Instantiates a reset synchronizer on all clock-reset pairs in a clock group. */ class ClockGroupResetSynchronizer(implicit p: Parameters) extends LazyModule { val node = ClockGroupAdapterNode() lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { (node.out zip node.in).map { case ((oG, _), (iG, _)) => (oG.member.data zip iG.member.data).foreach { case (o, i) => o.clock := i.clock o.reset := ResetCatchAndSync(i.clock, i.reset.asBool) } } } } object ClockGroupResetSynchronizer { def apply()(implicit p: Parameters, valName: ValName) = LazyModule(new ClockGroupResetSynchronizer()).node } File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File Xbar.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.diplomacy.{AddressDecoder, AddressSet, RegionType, IdRange, TriStateValue} import freechips.rocketchip.util.BundleField // Trades off slave port proximity against routing resource cost object ForceFanout { def apply[T]( a: TriStateValue = TriStateValue.unset, b: TriStateValue = TriStateValue.unset, c: TriStateValue = TriStateValue.unset, d: TriStateValue = TriStateValue.unset, e: TriStateValue = TriStateValue.unset)(body: Parameters => T)(implicit p: Parameters) = { body(p.alterPartial { case ForceFanoutKey => p(ForceFanoutKey) match { case ForceFanoutParams(pa, pb, pc, pd, pe) => ForceFanoutParams(a.update(pa), b.update(pb), c.update(pc), d.update(pd), e.update(pe)) } }) } } private case class ForceFanoutParams(a: Boolean, b: Boolean, c: Boolean, d: Boolean, e: Boolean) private case object ForceFanoutKey extends Field(ForceFanoutParams(false, false, false, false, false)) class TLXbar(policy: TLArbiter.Policy = TLArbiter.roundRobin, nameSuffix: Option[String] = None)(implicit p: Parameters) extends LazyModule { val node = new TLNexusNode( clientFn = { seq => seq(0).v1copy( echoFields = BundleField.union(seq.flatMap(_.echoFields)), requestFields = BundleField.union(seq.flatMap(_.requestFields)), responseKeys = seq.flatMap(_.responseKeys).distinct, minLatency = seq.map(_.minLatency).min, clients = (TLXbar.mapInputIds(seq) zip seq) flatMap { case (range, port) => port.clients map { client => client.v1copy( sourceId = client.sourceId.shift(range.start) )} } ) }, managerFn = { seq => val fifoIdFactory = TLXbar.relabeler() seq(0).v1copy( responseFields = BundleField.union(seq.flatMap(_.responseFields)), requestKeys = seq.flatMap(_.requestKeys).distinct, minLatency = seq.map(_.minLatency).min, endSinkId = TLXbar.mapOutputIds(seq).map(_.end).max, managers = seq.flatMap { port => require (port.beatBytes == seq(0).beatBytes, s"Xbar ($name with parent $parent) data widths don't match: ${port.managers.map(_.name)} has ${port.beatBytes}B vs ${seq(0).managers.map(_.name)} has ${seq(0).beatBytes}B") val fifoIdMapper = fifoIdFactory() port.managers map { manager => manager.v1copy( fifoId = manager.fifoId.map(fifoIdMapper(_)) )} } ) } ){ override def circuitIdentity = outputs.size == 1 && inputs.size == 1 } lazy val module = new Impl class Impl extends LazyModuleImp(this) { if ((node.in.size * node.out.size) > (8*32)) { println (s"!!! WARNING !!!") println (s" Your TLXbar ($name with parent $parent) is very large, with ${node.in.size} Masters and ${node.out.size} Slaves.") println (s"!!! WARNING !!!") } val wide_bundle = TLBundleParameters.union((node.in ++ node.out).map(_._2.bundle)) override def desiredName = (Seq("TLXbar") ++ nameSuffix ++ Seq(s"i${node.in.size}_o${node.out.size}_${wide_bundle.shortName}")).mkString("_") TLXbar.circuit(policy, node.in, node.out) } } object TLXbar { def mapInputIds(ports: Seq[TLMasterPortParameters]) = assignRanges(ports.map(_.endSourceId)) def mapOutputIds(ports: Seq[TLSlavePortParameters]) = assignRanges(ports.map(_.endSinkId)) def assignRanges(sizes: Seq[Int]) = { val pow2Sizes = sizes.map { z => if (z == 0) 0 else 1 << log2Ceil(z) } val tuples = pow2Sizes.zipWithIndex.sortBy(_._1) // record old index, then sort by increasing size val starts = tuples.scanRight(0)(_._1 + _).tail // suffix-sum of the sizes = the start positions val ranges = (tuples zip starts) map { case ((sz, i), st) => (if (sz == 0) IdRange(0, 0) else IdRange(st, st + sz), i) } ranges.sortBy(_._2).map(_._1) // Restore orignal order } def relabeler() = { var idFactory = 0 () => { val fifoMap = scala.collection.mutable.HashMap.empty[Int, Int] (x: Int) => { if (fifoMap.contains(x)) fifoMap(x) else { val out = idFactory idFactory = idFactory + 1 fifoMap += (x -> out) out } } } } def circuit(policy: TLArbiter.Policy, seqIn: Seq[(TLBundle, TLEdge)], seqOut: Seq[(TLBundle, TLEdge)]) { val (io_in, edgesIn) = seqIn.unzip val (io_out, edgesOut) = seqOut.unzip // Not every master need connect to every slave on every channel; determine which connections are necessary val reachableIO = edgesIn.map { cp => edgesOut.map { mp => cp.client.clients.exists { c => mp.manager.managers.exists { m => c.visibility.exists { ca => m.address.exists { ma => ca.overlaps(ma)}}}} }.toVector}.toVector val probeIO = (edgesIn zip reachableIO).map { case (cp, reachableO) => (edgesOut zip reachableO).map { case (mp, reachable) => reachable && cp.client.anySupportProbe && mp.manager.managers.exists(_.regionType >= RegionType.TRACKED) }.toVector}.toVector val releaseIO = (edgesIn zip reachableIO).map { case (cp, reachableO) => (edgesOut zip reachableO).map { case (mp, reachable) => reachable && cp.client.anySupportProbe && mp.manager.anySupportAcquireB }.toVector}.toVector val connectAIO = reachableIO val connectBIO = probeIO val connectCIO = releaseIO val connectDIO = reachableIO val connectEIO = releaseIO def transpose[T](x: Seq[Seq[T]]) = if (x.isEmpty) Nil else Vector.tabulate(x(0).size) { i => Vector.tabulate(x.size) { j => x(j)(i) } } val connectAOI = transpose(connectAIO) val connectBOI = transpose(connectBIO) val connectCOI = transpose(connectCIO) val connectDOI = transpose(connectDIO) val connectEOI = transpose(connectEIO) // Grab the port ID mapping val inputIdRanges = TLXbar.mapInputIds(edgesIn.map(_.client)) val outputIdRanges = TLXbar.mapOutputIds(edgesOut.map(_.manager)) // We need an intermediate size of bundle with the widest possible identifiers val wide_bundle = TLBundleParameters.union(io_in.map(_.params) ++ io_out.map(_.params)) // Handle size = 1 gracefully (Chisel3 empty range is broken) def trim(id: UInt, size: Int): UInt = if (size <= 1) 0.U else id(log2Ceil(size)-1, 0) // Transform input bundle sources (sinks use global namespace on both sides) val in = Wire(Vec(io_in.size, TLBundle(wide_bundle))) for (i <- 0 until in.size) { val r = inputIdRanges(i) if (connectAIO(i).exists(x=>x)) { in(i).a.bits.user := DontCare in(i).a.squeezeAll.waiveAll :<>= io_in(i).a.squeezeAll.waiveAll in(i).a.bits.source := io_in(i).a.bits.source | r.start.U } else { in(i).a := DontCare io_in(i).a := DontCare in(i).a.valid := false.B io_in(i).a.ready := true.B } if (connectBIO(i).exists(x=>x)) { io_in(i).b.squeezeAll :<>= in(i).b.squeezeAll io_in(i).b.bits.source := trim(in(i).b.bits.source, r.size) } else { in(i).b := DontCare io_in(i).b := DontCare in(i).b.ready := true.B io_in(i).b.valid := false.B } if (connectCIO(i).exists(x=>x)) { in(i).c.bits.user := DontCare in(i).c.squeezeAll.waiveAll :<>= io_in(i).c.squeezeAll.waiveAll in(i).c.bits.source := io_in(i).c.bits.source | r.start.U } else { in(i).c := DontCare io_in(i).c := DontCare in(i).c.valid := false.B io_in(i).c.ready := true.B } if (connectDIO(i).exists(x=>x)) { io_in(i).d.squeezeAll.waiveAll :<>= in(i).d.squeezeAll.waiveAll io_in(i).d.bits.source := trim(in(i).d.bits.source, r.size) } else { in(i).d := DontCare io_in(i).d := DontCare in(i).d.ready := true.B io_in(i).d.valid := false.B } if (connectEIO(i).exists(x=>x)) { in(i).e.squeezeAll :<>= io_in(i).e.squeezeAll } else { in(i).e := DontCare io_in(i).e := DontCare in(i).e.valid := false.B io_in(i).e.ready := true.B } } // Transform output bundle sinks (sources use global namespace on both sides) val out = Wire(Vec(io_out.size, TLBundle(wide_bundle))) for (o <- 0 until out.size) { val r = outputIdRanges(o) if (connectAOI(o).exists(x=>x)) { out(o).a.bits.user := DontCare io_out(o).a.squeezeAll.waiveAll :<>= out(o).a.squeezeAll.waiveAll } else { out(o).a := DontCare io_out(o).a := DontCare out(o).a.ready := true.B io_out(o).a.valid := false.B } if (connectBOI(o).exists(x=>x)) { out(o).b.squeezeAll :<>= io_out(o).b.squeezeAll } else { out(o).b := DontCare io_out(o).b := DontCare out(o).b.valid := false.B io_out(o).b.ready := true.B } if (connectCOI(o).exists(x=>x)) { out(o).c.bits.user := DontCare io_out(o).c.squeezeAll.waiveAll :<>= out(o).c.squeezeAll.waiveAll } else { out(o).c := DontCare io_out(o).c := DontCare out(o).c.ready := true.B io_out(o).c.valid := false.B } if (connectDOI(o).exists(x=>x)) { out(o).d.squeezeAll :<>= io_out(o).d.squeezeAll out(o).d.bits.sink := io_out(o).d.bits.sink | r.start.U } else { out(o).d := DontCare io_out(o).d := DontCare out(o).d.valid := false.B io_out(o).d.ready := true.B } if (connectEOI(o).exists(x=>x)) { io_out(o).e.squeezeAll :<>= out(o).e.squeezeAll io_out(o).e.bits.sink := trim(out(o).e.bits.sink, r.size) } else { out(o).e := DontCare io_out(o).e := DontCare out(o).e.ready := true.B io_out(o).e.valid := false.B } } // Filter a list to only those elements selected def filter[T](data: Seq[T], mask: Seq[Boolean]) = (data zip mask).filter(_._2).map(_._1) // Based on input=>output connectivity, create per-input minimal address decode circuits val requiredAC = (connectAIO ++ connectCIO).distinct val outputPortFns: Map[Vector[Boolean], Seq[UInt => Bool]] = requiredAC.map { connectO => val port_addrs = edgesOut.map(_.manager.managers.flatMap(_.address)) val routingMask = AddressDecoder(filter(port_addrs, connectO)) val route_addrs = port_addrs.map(seq => AddressSet.unify(seq.map(_.widen(~routingMask)).distinct)) // Print the address mapping if (false) { println("Xbar mapping:") route_addrs.foreach { p => print(" ") p.foreach { a => print(s" ${a}") } println("") } println("--") } (connectO, route_addrs.map(seq => (addr: UInt) => seq.map(_.contains(addr)).reduce(_ || _))) }.toMap // Print the ID mapping if (false) { println(s"XBar mapping:") (edgesIn zip inputIdRanges).zipWithIndex.foreach { case ((edge, id), i) => println(s"\t$i assigned ${id} for ${edge.client.clients.map(_.name).mkString(", ")}") } println("") } val addressA = (in zip edgesIn) map { case (i, e) => e.address(i.a.bits) } val addressC = (in zip edgesIn) map { case (i, e) => e.address(i.c.bits) } def unique(x: Vector[Boolean]): Bool = (x.filter(x=>x).size <= 1).B val requestAIO = (connectAIO zip addressA) map { case (c, i) => outputPortFns(c).map { o => unique(c) || o(i) } } val requestCIO = (connectCIO zip addressC) map { case (c, i) => outputPortFns(c).map { o => unique(c) || o(i) } } val requestBOI = out.map { o => inputIdRanges.map { i => i.contains(o.b.bits.source) } } val requestDOI = out.map { o => inputIdRanges.map { i => i.contains(o.d.bits.source) } } val requestEIO = in.map { i => outputIdRanges.map { o => o.contains(i.e.bits.sink) } } val beatsAI = (in zip edgesIn) map { case (i, e) => e.numBeats1(i.a.bits) } val beatsBO = (out zip edgesOut) map { case (o, e) => e.numBeats1(o.b.bits) } val beatsCI = (in zip edgesIn) map { case (i, e) => e.numBeats1(i.c.bits) } val beatsDO = (out zip edgesOut) map { case (o, e) => e.numBeats1(o.d.bits) } val beatsEI = (in zip edgesIn) map { case (i, e) => e.numBeats1(i.e.bits) } // Fanout the input sources to the output sinks val portsAOI = transpose((in zip requestAIO) map { case (i, r) => TLXbar.fanout(i.a, r, edgesOut.map(_.params(ForceFanoutKey).a)) }) val portsBIO = transpose((out zip requestBOI) map { case (o, r) => TLXbar.fanout(o.b, r, edgesIn .map(_.params(ForceFanoutKey).b)) }) val portsCOI = transpose((in zip requestCIO) map { case (i, r) => TLXbar.fanout(i.c, r, edgesOut.map(_.params(ForceFanoutKey).c)) }) val portsDIO = transpose((out zip requestDOI) map { case (o, r) => TLXbar.fanout(o.d, r, edgesIn .map(_.params(ForceFanoutKey).d)) }) val portsEOI = transpose((in zip requestEIO) map { case (i, r) => TLXbar.fanout(i.e, r, edgesOut.map(_.params(ForceFanoutKey).e)) }) // Arbitrate amongst the sources for (o <- 0 until out.size) { TLArbiter(policy)(out(o).a, filter(beatsAI zip portsAOI(o), connectAOI(o)):_*) TLArbiter(policy)(out(o).c, filter(beatsCI zip portsCOI(o), connectCOI(o)):_*) TLArbiter(policy)(out(o).e, filter(beatsEI zip portsEOI(o), connectEOI(o)):_*) filter(portsAOI(o), connectAOI(o).map(!_)) foreach { r => r.ready := false.B } filter(portsCOI(o), connectCOI(o).map(!_)) foreach { r => r.ready := false.B } filter(portsEOI(o), connectEOI(o).map(!_)) foreach { r => r.ready := false.B } } for (i <- 0 until in.size) { TLArbiter(policy)(in(i).b, filter(beatsBO zip portsBIO(i), connectBIO(i)):_*) TLArbiter(policy)(in(i).d, filter(beatsDO zip portsDIO(i), connectDIO(i)):_*) filter(portsBIO(i), connectBIO(i).map(!_)) foreach { r => r.ready := false.B } filter(portsDIO(i), connectDIO(i).map(!_)) foreach { r => r.ready := false.B } } } def apply(policy: TLArbiter.Policy = TLArbiter.roundRobin, nameSuffix: Option[String] = None)(implicit p: Parameters): TLNode = { val xbar = LazyModule(new TLXbar(policy, nameSuffix)) xbar.node } // Replicate an input port to each output port def fanout[T <: TLChannel](input: DecoupledIO[T], select: Seq[Bool], force: Seq[Boolean] = Nil): Seq[DecoupledIO[T]] = { val filtered = Wire(Vec(select.size, chiselTypeOf(input))) for (i <- 0 until select.size) { filtered(i).bits := (if (force.lift(i).getOrElse(false)) IdentityModule(input.bits) else input.bits) filtered(i).valid := input.valid && (select(i) || (select.size == 1).B) } input.ready := Mux1H(select, filtered.map(_.ready)) filtered } } // Synthesizable unit tests import freechips.rocketchip.unittest._ class TLRAMXbar(nManagers: Int, txns: Int)(implicit p: Parameters) extends LazyModule { val fuzz = LazyModule(new TLFuzzer(txns)) val model = LazyModule(new TLRAMModel("Xbar")) val xbar = LazyModule(new TLXbar) xbar.node := TLDelayer(0.1) := model.node := fuzz.node (0 until nManagers) foreach { n => val ram = LazyModule(new TLRAM(AddressSet(0x0+0x400*n, 0x3ff))) ram.node := TLFragmenter(4, 256) := TLDelayer(0.1) := xbar.node } lazy val module = new Impl class Impl extends LazyModuleImp(this) with UnitTestModule { io.finished := fuzz.module.io.finished } } class TLRAMXbarTest(nManagers: Int, txns: Int = 5000, timeout: Int = 500000)(implicit p: Parameters) extends UnitTest(timeout) { val dut = Module(LazyModule(new TLRAMXbar(nManagers,txns)).module) dut.io.start := io.start io.finished := dut.io.finished } class TLMulticlientXbar(nManagers: Int, nClients: Int, txns: Int)(implicit p: Parameters) extends LazyModule { val xbar = LazyModule(new TLXbar) val fuzzers = (0 until nClients) map { n => val fuzz = LazyModule(new TLFuzzer(txns)) xbar.node := TLDelayer(0.1) := fuzz.node fuzz } (0 until nManagers) foreach { n => val ram = LazyModule(new TLRAM(AddressSet(0x0+0x400*n, 0x3ff))) ram.node := TLFragmenter(4, 256) := TLDelayer(0.1) := xbar.node } lazy val module = new Impl class Impl extends LazyModuleImp(this) with UnitTestModule { io.finished := fuzzers.last.module.io.finished } } class TLMulticlientXbarTest(nManagers: Int, nClients: Int, txns: Int = 5000, timeout: Int = 500000)(implicit p: Parameters) extends UnitTest(timeout) { val dut = Module(LazyModule(new TLMulticlientXbar(nManagers, nClients, txns)).module) dut.io.start := io.start io.finished := dut.io.finished }
module ChipyardPRCICtrlClockSinkDomain( // @[ClockDomain.scala:14:9] input auto_reset_setter_clock_in_member_allClocks_uncore_clock, // @[LazyModuleImp.scala:107:25] input auto_reset_setter_clock_in_member_allClocks_uncore_reset, // @[LazyModuleImp.scala:107:25] output auto_resetSynchronizer_out_member_allClocks_uncore_clock, // @[LazyModuleImp.scala:107:25] output auto_resetSynchronizer_out_member_allClocks_uncore_reset, // @[LazyModuleImp.scala:107:25] output auto_xbar_anon_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_xbar_anon_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_xbar_anon_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_xbar_anon_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [2:0] auto_xbar_anon_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input [7:0] auto_xbar_anon_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [20:0] auto_xbar_anon_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_xbar_anon_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_xbar_anon_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_xbar_anon_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_xbar_anon_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_xbar_anon_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_xbar_anon_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [2:0] auto_xbar_anon_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output [7:0] auto_xbar_anon_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output [63:0] auto_xbar_anon_in_d_bits_data, // @[LazyModuleImp.scala:107:25] input auto_clock_in_clock, // @[LazyModuleImp.scala:107:25] input auto_clock_in_reset // @[LazyModuleImp.scala:107:25] ); wire _fragmenter_1_auto_anon_in_a_ready; // @[Fragmenter.scala:345:34] wire _fragmenter_1_auto_anon_in_d_valid; // @[Fragmenter.scala:345:34] wire [2:0] _fragmenter_1_auto_anon_in_d_bits_opcode; // @[Fragmenter.scala:345:34] wire [2:0] _fragmenter_1_auto_anon_in_d_bits_size; // @[Fragmenter.scala:345:34] wire [7:0] _fragmenter_1_auto_anon_in_d_bits_source; // @[Fragmenter.scala:345:34] wire _fragmenter_1_auto_anon_out_a_valid; // @[Fragmenter.scala:345:34] wire [2:0] _fragmenter_1_auto_anon_out_a_bits_opcode; // @[Fragmenter.scala:345:34] wire [2:0] _fragmenter_1_auto_anon_out_a_bits_param; // @[Fragmenter.scala:345:34] wire [1:0] _fragmenter_1_auto_anon_out_a_bits_size; // @[Fragmenter.scala:345:34] wire [11:0] _fragmenter_1_auto_anon_out_a_bits_source; // @[Fragmenter.scala:345:34] wire [20:0] _fragmenter_1_auto_anon_out_a_bits_address; // @[Fragmenter.scala:345:34] wire [7:0] _fragmenter_1_auto_anon_out_a_bits_mask; // @[Fragmenter.scala:345:34] wire _fragmenter_1_auto_anon_out_a_bits_corrupt; // @[Fragmenter.scala:345:34] wire _fragmenter_1_auto_anon_out_d_ready; // @[Fragmenter.scala:345:34] wire _reset_setter_auto_clock_out_member_allClocks_uncore_clock; // @[HasChipyardPRCI.scala:78:34] wire _reset_setter_auto_clock_out_member_allClocks_uncore_reset; // @[HasChipyardPRCI.scala:78:34] wire _reset_setter_auto_tl_in_a_ready; // @[HasChipyardPRCI.scala:78:34] wire _reset_setter_auto_tl_in_d_valid; // @[HasChipyardPRCI.scala:78:34] wire [2:0] _reset_setter_auto_tl_in_d_bits_opcode; // @[HasChipyardPRCI.scala:78:34] wire [1:0] _reset_setter_auto_tl_in_d_bits_size; // @[HasChipyardPRCI.scala:78:34] wire [11:0] _reset_setter_auto_tl_in_d_bits_source; // @[HasChipyardPRCI.scala:78:34] wire _fragmenter_auto_anon_in_a_ready; // @[Fragmenter.scala:345:34] wire _fragmenter_auto_anon_in_d_valid; // @[Fragmenter.scala:345:34] wire [2:0] _fragmenter_auto_anon_in_d_bits_opcode; // @[Fragmenter.scala:345:34] wire [2:0] _fragmenter_auto_anon_in_d_bits_size; // @[Fragmenter.scala:345:34] wire [7:0] _fragmenter_auto_anon_in_d_bits_source; // @[Fragmenter.scala:345:34] wire [63:0] _fragmenter_auto_anon_in_d_bits_data; // @[Fragmenter.scala:345:34] wire _fragmenter_auto_anon_out_a_valid; // @[Fragmenter.scala:345:34] wire [2:0] _fragmenter_auto_anon_out_a_bits_opcode; // @[Fragmenter.scala:345:34] wire [2:0] _fragmenter_auto_anon_out_a_bits_param; // @[Fragmenter.scala:345:34] wire [1:0] _fragmenter_auto_anon_out_a_bits_size; // @[Fragmenter.scala:345:34] wire [11:0] _fragmenter_auto_anon_out_a_bits_source; // @[Fragmenter.scala:345:34] wire [20:0] _fragmenter_auto_anon_out_a_bits_address; // @[Fragmenter.scala:345:34] wire [7:0] _fragmenter_auto_anon_out_a_bits_mask; // @[Fragmenter.scala:345:34] wire [63:0] _fragmenter_auto_anon_out_a_bits_data; // @[Fragmenter.scala:345:34] wire _fragmenter_auto_anon_out_a_bits_corrupt; // @[Fragmenter.scala:345:34] wire _fragmenter_auto_anon_out_d_ready; // @[Fragmenter.scala:345:34] wire _clock_gater_auto_clock_gater_in_1_a_ready; // @[HasChipyardPRCI.scala:73:33] wire _clock_gater_auto_clock_gater_in_1_d_valid; // @[HasChipyardPRCI.scala:73:33] wire [2:0] _clock_gater_auto_clock_gater_in_1_d_bits_opcode; // @[HasChipyardPRCI.scala:73:33] wire [1:0] _clock_gater_auto_clock_gater_in_1_d_bits_size; // @[HasChipyardPRCI.scala:73:33] wire [11:0] _clock_gater_auto_clock_gater_in_1_d_bits_source; // @[HasChipyardPRCI.scala:73:33] wire [63:0] _clock_gater_auto_clock_gater_in_1_d_bits_data; // @[HasChipyardPRCI.scala:73:33] wire _clock_gater_auto_clock_gater_out_member_allClocks_uncore_clock; // @[HasChipyardPRCI.scala:73:33] wire _clock_gater_auto_clock_gater_out_member_allClocks_uncore_reset; // @[HasChipyardPRCI.scala:73:33] wire _xbar_auto_anon_out_1_a_valid; // @[Xbar.scala:346:26] wire [2:0] _xbar_auto_anon_out_1_a_bits_opcode; // @[Xbar.scala:346:26] wire [2:0] _xbar_auto_anon_out_1_a_bits_param; // @[Xbar.scala:346:26] wire [2:0] _xbar_auto_anon_out_1_a_bits_size; // @[Xbar.scala:346:26] wire [7:0] _xbar_auto_anon_out_1_a_bits_source; // @[Xbar.scala:346:26] wire [20:0] _xbar_auto_anon_out_1_a_bits_address; // @[Xbar.scala:346:26] wire [7:0] _xbar_auto_anon_out_1_a_bits_mask; // @[Xbar.scala:346:26] wire _xbar_auto_anon_out_1_a_bits_corrupt; // @[Xbar.scala:346:26] wire _xbar_auto_anon_out_1_d_ready; // @[Xbar.scala:346:26] wire _xbar_auto_anon_out_0_a_valid; // @[Xbar.scala:346:26] wire [2:0] _xbar_auto_anon_out_0_a_bits_opcode; // @[Xbar.scala:346:26] wire [2:0] _xbar_auto_anon_out_0_a_bits_param; // @[Xbar.scala:346:26] wire [2:0] _xbar_auto_anon_out_0_a_bits_size; // @[Xbar.scala:346:26] wire [7:0] _xbar_auto_anon_out_0_a_bits_source; // @[Xbar.scala:346:26] wire [20:0] _xbar_auto_anon_out_0_a_bits_address; // @[Xbar.scala:346:26] wire [7:0] _xbar_auto_anon_out_0_a_bits_mask; // @[Xbar.scala:346:26] wire [63:0] _xbar_auto_anon_out_0_a_bits_data; // @[Xbar.scala:346:26] wire _xbar_auto_anon_out_0_a_bits_corrupt; // @[Xbar.scala:346:26] wire _xbar_auto_anon_out_0_d_ready; // @[Xbar.scala:346:26] TLXbar_prcibus_i1_o2_a21d64s8k1z3u xbar ( // @[Xbar.scala:346:26] .clock (auto_clock_in_clock), .reset (auto_clock_in_reset), .auto_anon_in_a_ready (auto_xbar_anon_in_a_ready), .auto_anon_in_a_valid (auto_xbar_anon_in_a_valid), .auto_anon_in_a_bits_opcode (auto_xbar_anon_in_a_bits_opcode), .auto_anon_in_a_bits_param (auto_xbar_anon_in_a_bits_param), .auto_anon_in_a_bits_size (auto_xbar_anon_in_a_bits_size), .auto_anon_in_a_bits_source (auto_xbar_anon_in_a_bits_source), .auto_anon_in_a_bits_address (auto_xbar_anon_in_a_bits_address), .auto_anon_in_a_bits_mask (auto_xbar_anon_in_a_bits_mask), .auto_anon_in_a_bits_data (auto_xbar_anon_in_a_bits_data), .auto_anon_in_a_bits_corrupt (auto_xbar_anon_in_a_bits_corrupt), .auto_anon_in_d_ready (auto_xbar_anon_in_d_ready), .auto_anon_in_d_valid (auto_xbar_anon_in_d_valid), .auto_anon_in_d_bits_opcode (auto_xbar_anon_in_d_bits_opcode), .auto_anon_in_d_bits_size (auto_xbar_anon_in_d_bits_size), .auto_anon_in_d_bits_source (auto_xbar_anon_in_d_bits_source), .auto_anon_in_d_bits_data (auto_xbar_anon_in_d_bits_data), .auto_anon_out_1_a_ready (_fragmenter_1_auto_anon_in_a_ready), // @[Fragmenter.scala:345:34] .auto_anon_out_1_a_valid (_xbar_auto_anon_out_1_a_valid), .auto_anon_out_1_a_bits_opcode (_xbar_auto_anon_out_1_a_bits_opcode), .auto_anon_out_1_a_bits_param (_xbar_auto_anon_out_1_a_bits_param), .auto_anon_out_1_a_bits_size (_xbar_auto_anon_out_1_a_bits_size), .auto_anon_out_1_a_bits_source (_xbar_auto_anon_out_1_a_bits_source), .auto_anon_out_1_a_bits_address (_xbar_auto_anon_out_1_a_bits_address), .auto_anon_out_1_a_bits_mask (_xbar_auto_anon_out_1_a_bits_mask), .auto_anon_out_1_a_bits_corrupt (_xbar_auto_anon_out_1_a_bits_corrupt), .auto_anon_out_1_d_ready (_xbar_auto_anon_out_1_d_ready), .auto_anon_out_1_d_valid (_fragmenter_1_auto_anon_in_d_valid), // @[Fragmenter.scala:345:34] .auto_anon_out_1_d_bits_opcode (_fragmenter_1_auto_anon_in_d_bits_opcode), // @[Fragmenter.scala:345:34] .auto_anon_out_1_d_bits_size (_fragmenter_1_auto_anon_in_d_bits_size), // @[Fragmenter.scala:345:34] .auto_anon_out_1_d_bits_source (_fragmenter_1_auto_anon_in_d_bits_source), // @[Fragmenter.scala:345:34] .auto_anon_out_0_a_ready (_fragmenter_auto_anon_in_a_ready), // @[Fragmenter.scala:345:34] .auto_anon_out_0_a_valid (_xbar_auto_anon_out_0_a_valid), .auto_anon_out_0_a_bits_opcode (_xbar_auto_anon_out_0_a_bits_opcode), .auto_anon_out_0_a_bits_param (_xbar_auto_anon_out_0_a_bits_param), .auto_anon_out_0_a_bits_size (_xbar_auto_anon_out_0_a_bits_size), .auto_anon_out_0_a_bits_source (_xbar_auto_anon_out_0_a_bits_source), .auto_anon_out_0_a_bits_address (_xbar_auto_anon_out_0_a_bits_address), .auto_anon_out_0_a_bits_mask (_xbar_auto_anon_out_0_a_bits_mask), .auto_anon_out_0_a_bits_data (_xbar_auto_anon_out_0_a_bits_data), .auto_anon_out_0_a_bits_corrupt (_xbar_auto_anon_out_0_a_bits_corrupt), .auto_anon_out_0_d_ready (_xbar_auto_anon_out_0_d_ready), .auto_anon_out_0_d_valid (_fragmenter_auto_anon_in_d_valid), // @[Fragmenter.scala:345:34] .auto_anon_out_0_d_bits_opcode (_fragmenter_auto_anon_in_d_bits_opcode), // @[Fragmenter.scala:345:34] .auto_anon_out_0_d_bits_size (_fragmenter_auto_anon_in_d_bits_size), // @[Fragmenter.scala:345:34] .auto_anon_out_0_d_bits_source (_fragmenter_auto_anon_in_d_bits_source), // @[Fragmenter.scala:345:34] .auto_anon_out_0_d_bits_data (_fragmenter_auto_anon_in_d_bits_data) // @[Fragmenter.scala:345:34] ); // @[Xbar.scala:346:26] ClockGroupResetSynchronizer resetSynchronizer ( // @[ResetSynchronizer.scala:46:69] .auto_in_member_allClocks_uncore_clock (_clock_gater_auto_clock_gater_out_member_allClocks_uncore_clock), // @[HasChipyardPRCI.scala:73:33] .auto_in_member_allClocks_uncore_reset (_clock_gater_auto_clock_gater_out_member_allClocks_uncore_reset), // @[HasChipyardPRCI.scala:73:33] .auto_out_member_allClocks_uncore_clock (auto_resetSynchronizer_out_member_allClocks_uncore_clock), .auto_out_member_allClocks_uncore_reset (auto_resetSynchronizer_out_member_allClocks_uncore_reset) ); // @[ResetSynchronizer.scala:46:69] TileClockGater clock_gater ( // @[HasChipyardPRCI.scala:73:33] .clock (auto_clock_in_clock), .reset (auto_clock_in_reset), .auto_clock_gater_in_1_a_ready (_clock_gater_auto_clock_gater_in_1_a_ready), .auto_clock_gater_in_1_a_valid (_fragmenter_auto_anon_out_a_valid), // @[Fragmenter.scala:345:34] .auto_clock_gater_in_1_a_bits_opcode (_fragmenter_auto_anon_out_a_bits_opcode), // @[Fragmenter.scala:345:34] .auto_clock_gater_in_1_a_bits_param (_fragmenter_auto_anon_out_a_bits_param), // @[Fragmenter.scala:345:34] .auto_clock_gater_in_1_a_bits_size (_fragmenter_auto_anon_out_a_bits_size), // @[Fragmenter.scala:345:34] .auto_clock_gater_in_1_a_bits_source (_fragmenter_auto_anon_out_a_bits_source), // @[Fragmenter.scala:345:34] .auto_clock_gater_in_1_a_bits_address (_fragmenter_auto_anon_out_a_bits_address), // @[Fragmenter.scala:345:34] .auto_clock_gater_in_1_a_bits_mask (_fragmenter_auto_anon_out_a_bits_mask), // @[Fragmenter.scala:345:34] .auto_clock_gater_in_1_a_bits_data (_fragmenter_auto_anon_out_a_bits_data), // @[Fragmenter.scala:345:34] .auto_clock_gater_in_1_a_bits_corrupt (_fragmenter_auto_anon_out_a_bits_corrupt), // @[Fragmenter.scala:345:34] .auto_clock_gater_in_1_d_ready (_fragmenter_auto_anon_out_d_ready), // @[Fragmenter.scala:345:34] .auto_clock_gater_in_1_d_valid (_clock_gater_auto_clock_gater_in_1_d_valid), .auto_clock_gater_in_1_d_bits_opcode (_clock_gater_auto_clock_gater_in_1_d_bits_opcode), .auto_clock_gater_in_1_d_bits_size (_clock_gater_auto_clock_gater_in_1_d_bits_size), .auto_clock_gater_in_1_d_bits_source (_clock_gater_auto_clock_gater_in_1_d_bits_source), .auto_clock_gater_in_1_d_bits_data (_clock_gater_auto_clock_gater_in_1_d_bits_data), .auto_clock_gater_in_0_member_allClocks_uncore_clock (_reset_setter_auto_clock_out_member_allClocks_uncore_clock), // @[HasChipyardPRCI.scala:78:34] .auto_clock_gater_in_0_member_allClocks_uncore_reset (_reset_setter_auto_clock_out_member_allClocks_uncore_reset), // @[HasChipyardPRCI.scala:78:34] .auto_clock_gater_out_member_allClocks_uncore_clock (_clock_gater_auto_clock_gater_out_member_allClocks_uncore_clock), .auto_clock_gater_out_member_allClocks_uncore_reset (_clock_gater_auto_clock_gater_out_member_allClocks_uncore_reset) ); // @[HasChipyardPRCI.scala:73:33] TLFragmenter_TileClockGater fragmenter ( // @[Fragmenter.scala:345:34] .clock (auto_clock_in_clock), .reset (auto_clock_in_reset), .auto_anon_in_a_ready (_fragmenter_auto_anon_in_a_ready), .auto_anon_in_a_valid (_xbar_auto_anon_out_0_a_valid), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_opcode (_xbar_auto_anon_out_0_a_bits_opcode), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_param (_xbar_auto_anon_out_0_a_bits_param), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_size (_xbar_auto_anon_out_0_a_bits_size), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_source (_xbar_auto_anon_out_0_a_bits_source), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_address (_xbar_auto_anon_out_0_a_bits_address), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_mask (_xbar_auto_anon_out_0_a_bits_mask), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_data (_xbar_auto_anon_out_0_a_bits_data), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_corrupt (_xbar_auto_anon_out_0_a_bits_corrupt), // @[Xbar.scala:346:26] .auto_anon_in_d_ready (_xbar_auto_anon_out_0_d_ready), // @[Xbar.scala:346:26] .auto_anon_in_d_valid (_fragmenter_auto_anon_in_d_valid), .auto_anon_in_d_bits_opcode (_fragmenter_auto_anon_in_d_bits_opcode), .auto_anon_in_d_bits_size (_fragmenter_auto_anon_in_d_bits_size), .auto_anon_in_d_bits_source (_fragmenter_auto_anon_in_d_bits_source), .auto_anon_in_d_bits_data (_fragmenter_auto_anon_in_d_bits_data), .auto_anon_out_a_ready (_clock_gater_auto_clock_gater_in_1_a_ready), // @[HasChipyardPRCI.scala:73:33] .auto_anon_out_a_valid (_fragmenter_auto_anon_out_a_valid), .auto_anon_out_a_bits_opcode (_fragmenter_auto_anon_out_a_bits_opcode), .auto_anon_out_a_bits_param (_fragmenter_auto_anon_out_a_bits_param), .auto_anon_out_a_bits_size (_fragmenter_auto_anon_out_a_bits_size), .auto_anon_out_a_bits_source (_fragmenter_auto_anon_out_a_bits_source), .auto_anon_out_a_bits_address (_fragmenter_auto_anon_out_a_bits_address), .auto_anon_out_a_bits_mask (_fragmenter_auto_anon_out_a_bits_mask), .auto_anon_out_a_bits_data (_fragmenter_auto_anon_out_a_bits_data), .auto_anon_out_a_bits_corrupt (_fragmenter_auto_anon_out_a_bits_corrupt), .auto_anon_out_d_ready (_fragmenter_auto_anon_out_d_ready), .auto_anon_out_d_valid (_clock_gater_auto_clock_gater_in_1_d_valid), // @[HasChipyardPRCI.scala:73:33] .auto_anon_out_d_bits_opcode (_clock_gater_auto_clock_gater_in_1_d_bits_opcode), // @[HasChipyardPRCI.scala:73:33] .auto_anon_out_d_bits_size (_clock_gater_auto_clock_gater_in_1_d_bits_size), // @[HasChipyardPRCI.scala:73:33] .auto_anon_out_d_bits_source (_clock_gater_auto_clock_gater_in_1_d_bits_source), // @[HasChipyardPRCI.scala:73:33] .auto_anon_out_d_bits_data (_clock_gater_auto_clock_gater_in_1_d_bits_data) // @[HasChipyardPRCI.scala:73:33] ); // @[Fragmenter.scala:345:34] TileResetSetter reset_setter ( // @[HasChipyardPRCI.scala:78:34] .clock (auto_clock_in_clock), .reset (auto_clock_in_reset), .auto_clock_in_member_allClocks_uncore_clock (auto_reset_setter_clock_in_member_allClocks_uncore_clock), .auto_clock_in_member_allClocks_uncore_reset (auto_reset_setter_clock_in_member_allClocks_uncore_reset), .auto_clock_out_member_allClocks_uncore_clock (_reset_setter_auto_clock_out_member_allClocks_uncore_clock), .auto_clock_out_member_allClocks_uncore_reset (_reset_setter_auto_clock_out_member_allClocks_uncore_reset), .auto_tl_in_a_ready (_reset_setter_auto_tl_in_a_ready), .auto_tl_in_a_valid (_fragmenter_1_auto_anon_out_a_valid), // @[Fragmenter.scala:345:34] .auto_tl_in_a_bits_opcode (_fragmenter_1_auto_anon_out_a_bits_opcode), // @[Fragmenter.scala:345:34] .auto_tl_in_a_bits_param (_fragmenter_1_auto_anon_out_a_bits_param), // @[Fragmenter.scala:345:34] .auto_tl_in_a_bits_size (_fragmenter_1_auto_anon_out_a_bits_size), // @[Fragmenter.scala:345:34] .auto_tl_in_a_bits_source (_fragmenter_1_auto_anon_out_a_bits_source), // @[Fragmenter.scala:345:34] .auto_tl_in_a_bits_address (_fragmenter_1_auto_anon_out_a_bits_address), // @[Fragmenter.scala:345:34] .auto_tl_in_a_bits_mask (_fragmenter_1_auto_anon_out_a_bits_mask), // @[Fragmenter.scala:345:34] .auto_tl_in_a_bits_corrupt (_fragmenter_1_auto_anon_out_a_bits_corrupt), // @[Fragmenter.scala:345:34] .auto_tl_in_d_ready (_fragmenter_1_auto_anon_out_d_ready), // @[Fragmenter.scala:345:34] .auto_tl_in_d_valid (_reset_setter_auto_tl_in_d_valid), .auto_tl_in_d_bits_opcode (_reset_setter_auto_tl_in_d_bits_opcode), .auto_tl_in_d_bits_size (_reset_setter_auto_tl_in_d_bits_size), .auto_tl_in_d_bits_source (_reset_setter_auto_tl_in_d_bits_source) ); // @[HasChipyardPRCI.scala:78:34] TLFragmenter_TileResetSetter fragmenter_1 ( // @[Fragmenter.scala:345:34] .clock (auto_clock_in_clock), .reset (auto_clock_in_reset), .auto_anon_in_a_ready (_fragmenter_1_auto_anon_in_a_ready), .auto_anon_in_a_valid (_xbar_auto_anon_out_1_a_valid), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_opcode (_xbar_auto_anon_out_1_a_bits_opcode), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_param (_xbar_auto_anon_out_1_a_bits_param), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_size (_xbar_auto_anon_out_1_a_bits_size), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_source (_xbar_auto_anon_out_1_a_bits_source), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_address (_xbar_auto_anon_out_1_a_bits_address), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_mask (_xbar_auto_anon_out_1_a_bits_mask), // @[Xbar.scala:346:26] .auto_anon_in_a_bits_corrupt (_xbar_auto_anon_out_1_a_bits_corrupt), // @[Xbar.scala:346:26] .auto_anon_in_d_ready (_xbar_auto_anon_out_1_d_ready), // @[Xbar.scala:346:26] .auto_anon_in_d_valid (_fragmenter_1_auto_anon_in_d_valid), .auto_anon_in_d_bits_opcode (_fragmenter_1_auto_anon_in_d_bits_opcode), .auto_anon_in_d_bits_size (_fragmenter_1_auto_anon_in_d_bits_size), .auto_anon_in_d_bits_source (_fragmenter_1_auto_anon_in_d_bits_source), .auto_anon_out_a_ready (_reset_setter_auto_tl_in_a_ready), // @[HasChipyardPRCI.scala:78:34] .auto_anon_out_a_valid (_fragmenter_1_auto_anon_out_a_valid), .auto_anon_out_a_bits_opcode (_fragmenter_1_auto_anon_out_a_bits_opcode), .auto_anon_out_a_bits_param (_fragmenter_1_auto_anon_out_a_bits_param), .auto_anon_out_a_bits_size (_fragmenter_1_auto_anon_out_a_bits_size), .auto_anon_out_a_bits_source (_fragmenter_1_auto_anon_out_a_bits_source), .auto_anon_out_a_bits_address (_fragmenter_1_auto_anon_out_a_bits_address), .auto_anon_out_a_bits_mask (_fragmenter_1_auto_anon_out_a_bits_mask), .auto_anon_out_a_bits_corrupt (_fragmenter_1_auto_anon_out_a_bits_corrupt), .auto_anon_out_d_ready (_fragmenter_1_auto_anon_out_d_ready), .auto_anon_out_d_valid (_reset_setter_auto_tl_in_d_valid), // @[HasChipyardPRCI.scala:78:34] .auto_anon_out_d_bits_opcode (_reset_setter_auto_tl_in_d_bits_opcode), // @[HasChipyardPRCI.scala:78:34] .auto_anon_out_d_bits_size (_reset_setter_auto_tl_in_d_bits_size), // @[HasChipyardPRCI.scala:78:34] .auto_anon_out_d_bits_source (_reset_setter_auto_tl_in_d_bits_source) // @[HasChipyardPRCI.scala:78:34] ); // @[Fragmenter.scala:345:34] endmodule
Generate the Verilog code corresponding to the following Chisel files. File Error.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.devices.tilelink import chisel3._ import chisel3.util._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.resources.SimpleDevice import freechips.rocketchip.tilelink.{TLArbiter, TLMessages, TLPermissions} /** Adds a /dev/null slave that generates TL error response messages */ class TLError(params: DevNullParams, buffer: Boolean = true, beatBytes: Int = 4)(implicit p: Parameters) extends DevNullDevice(params, minLatency = if (buffer) 1 else 0, beatBytes, new SimpleDevice("error-device", Seq("sifive,error0"))) { lazy val module = new Impl class Impl extends LazyModuleImp(this) { import TLMessages._ import TLPermissions._ val (in, edge) = node.in(0) val a = if (buffer) {Queue(in.a, 1)} else in.a val da = Wire(chiselTypeOf(in.d)) val idle = RegInit(true.B) val a_last = edge.last(a) val (da_first, da_last, _) = edge.firstlast(da) assert (idle || da_first) // we only send Grant, never GrantData => simplified flow control below a.ready := (da.ready && da_last && idle) || !a_last da.valid := a.valid && a_last && idle da.bits.opcode := TLMessages.adResponse(a.bits.opcode) da.bits.param := 0.U // toT, but error grants must be handled transiently (ie: you don't keep permissions) da.bits.size := a.bits.size da.bits.source := a.bits.source da.bits.sink := 0.U da.bits.denied := true.B da.bits.data := 0.U da.bits.corrupt := edge.hasData(da.bits) if (params.acquire) { val c = if (buffer) {Queue(in.c, 1)} else in.c val dc = Wire(chiselTypeOf(in.d)) val c_last = edge.last(c) val dc_last = edge.last(dc) // Only allow one Grant in-flight at a time when (da.fire && da.bits.opcode === Grant) { idle := false.B } when (in.e.fire) { idle := true.B } c.ready := (dc.ready && dc_last) || !c_last dc.valid := c.valid && c_last // ReleaseAck is not allowed to report failure dc.bits.opcode := ReleaseAck dc.bits.param := VecInit(toB, toN, toN)(c.bits.param(1,0)) dc.bits.size := c.bits.size dc.bits.source := c.bits.source dc.bits.sink := 0.U dc.bits.denied := false.B dc.bits.data := 0.U dc.bits.corrupt := false.B // Combine response channels TLArbiter.lowest(edge, in.d, dc, da) } else { in.d <> da } // We never probe or issue B requests in.b.valid := false.B // Sink GrantAcks in.e.ready := true.B } } File package.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip import chisel3._ import chisel3.util._ import scala.math.min import scala.collection.{immutable, mutable} package object util { implicit class UnzippableOption[S, T](val x: Option[(S, T)]) { def unzip = (x.map(_._1), x.map(_._2)) } implicit class UIntIsOneOf(private val x: UInt) extends AnyVal { def isOneOf(s: Seq[UInt]): Bool = s.map(x === _).orR def isOneOf(u1: UInt, u2: UInt*): Bool = isOneOf(u1 +: u2.toSeq) } implicit class VecToAugmentedVec[T <: Data](private val x: Vec[T]) extends AnyVal { /** Like Vec.apply(idx), but tolerates indices of mismatched width */ def extract(idx: UInt): T = x((idx | 0.U(log2Ceil(x.size).W)).extract(log2Ceil(x.size) - 1, 0)) } implicit class SeqToAugmentedSeq[T <: Data](private val x: Seq[T]) extends AnyVal { def apply(idx: UInt): T = { if (x.size <= 1) { x.head } else if (!isPow2(x.size)) { // For non-power-of-2 seqs, reflect elements to simplify decoder (x ++ x.takeRight(x.size & -x.size)).toSeq(idx) } else { // Ignore MSBs of idx val truncIdx = if (idx.isWidthKnown && idx.getWidth <= log2Ceil(x.size)) idx else (idx | 0.U(log2Ceil(x.size).W))(log2Ceil(x.size)-1, 0) x.zipWithIndex.tail.foldLeft(x.head) { case (prev, (cur, i)) => Mux(truncIdx === i.U, cur, prev) } } } def extract(idx: UInt): T = VecInit(x).extract(idx) def asUInt: UInt = Cat(x.map(_.asUInt).reverse) def rotate(n: Int): Seq[T] = x.drop(n) ++ x.take(n) def rotate(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotate(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } def rotateRight(n: Int): Seq[T] = x.takeRight(n) ++ x.dropRight(n) def rotateRight(n: UInt): Seq[T] = { if (x.size <= 1) { x } else { require(isPow2(x.size)) val amt = n.padTo(log2Ceil(x.size)) (0 until log2Ceil(x.size)).foldLeft(x)((r, i) => (r.rotateRight(1 << i) zip r).map { case (s, a) => Mux(amt(i), s, a) }) } } } // allow bitwise ops on Seq[Bool] just like UInt implicit class SeqBoolBitwiseOps(private val x: Seq[Bool]) extends AnyVal { def & (y: Seq[Bool]): Seq[Bool] = (x zip y).map { case (a, b) => a && b } def | (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a || b } def ^ (y: Seq[Bool]): Seq[Bool] = padZip(x, y).map { case (a, b) => a ^ b } def << (n: Int): Seq[Bool] = Seq.fill(n)(false.B) ++ x def >> (n: Int): Seq[Bool] = x drop n def unary_~ : Seq[Bool] = x.map(!_) def andR: Bool = if (x.isEmpty) true.B else x.reduce(_&&_) def orR: Bool = if (x.isEmpty) false.B else x.reduce(_||_) def xorR: Bool = if (x.isEmpty) false.B else x.reduce(_^_) private def padZip(y: Seq[Bool], z: Seq[Bool]): Seq[(Bool, Bool)] = y.padTo(z.size, false.B) zip z.padTo(y.size, false.B) } implicit class DataToAugmentedData[T <: Data](private val x: T) extends AnyVal { def holdUnless(enable: Bool): T = Mux(enable, x, RegEnable(x, enable)) def getElements: Seq[Element] = x match { case e: Element => Seq(e) case a: Aggregate => a.getElements.flatMap(_.getElements) } } /** Any Data subtype that has a Bool member named valid. */ type DataCanBeValid = Data { val valid: Bool } implicit class SeqMemToAugmentedSeqMem[T <: Data](private val x: SyncReadMem[T]) extends AnyVal { def readAndHold(addr: UInt, enable: Bool): T = x.read(addr, enable) holdUnless RegNext(enable) } implicit class StringToAugmentedString(private val x: String) extends AnyVal { /** converts from camel case to to underscores, also removing all spaces */ def underscore: String = x.tail.foldLeft(x.headOption.map(_.toLower + "") getOrElse "") { case (acc, c) if c.isUpper => acc + "_" + c.toLower case (acc, c) if c == ' ' => acc case (acc, c) => acc + c } /** converts spaces or underscores to hyphens, also lowering case */ def kebab: String = x.toLowerCase map { case ' ' => '-' case '_' => '-' case c => c } def named(name: Option[String]): String = { x + name.map("_named_" + _ ).getOrElse("_with_no_name") } def named(name: String): String = named(Some(name)) } implicit def uintToBitPat(x: UInt): BitPat = BitPat(x) implicit def wcToUInt(c: WideCounter): UInt = c.value implicit class UIntToAugmentedUInt(private val x: UInt) extends AnyVal { def sextTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x) } def padTo(n: Int): UInt = { require(x.getWidth <= n) if (x.getWidth == n) x else Cat(0.U((n - x.getWidth).W), x) } // shifts left by n if n >= 0, or right by -n if n < 0 def << (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << n(w-1, 0) Mux(n(w), shifted >> (1 << w), shifted) } // shifts right by n if n >= 0, or left by -n if n < 0 def >> (n: SInt): UInt = { val w = n.getWidth - 1 require(w <= 30) val shifted = x << (1 << w) >> n(w-1, 0) Mux(n(w), shifted, shifted >> (1 << w)) } // Like UInt.apply(hi, lo), but returns 0.U for zero-width extracts def extract(hi: Int, lo: Int): UInt = { require(hi >= lo-1) if (hi == lo-1) 0.U else x(hi, lo) } // Like Some(UInt.apply(hi, lo)), but returns None for zero-width extracts def extractOption(hi: Int, lo: Int): Option[UInt] = { require(hi >= lo-1) if (hi == lo-1) None else Some(x(hi, lo)) } // like x & ~y, but first truncate or zero-extend y to x's width def andNot(y: UInt): UInt = x & ~(y | (x & 0.U)) def rotateRight(n: Int): UInt = if (n == 0) x else Cat(x(n-1, 0), x >> n) def rotateRight(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateRight(1 << i), r)) } } def rotateLeft(n: Int): UInt = if (n == 0) x else Cat(x(x.getWidth-1-n,0), x(x.getWidth-1,x.getWidth-n)) def rotateLeft(n: UInt): UInt = { if (x.getWidth <= 1) { x } else { val amt = n.padTo(log2Ceil(x.getWidth)) (0 until log2Ceil(x.getWidth)).foldLeft(x)((r, i) => Mux(amt(i), r.rotateLeft(1 << i), r)) } } // compute (this + y) % n, given (this < n) and (y < n) def addWrap(y: UInt, n: Int): UInt = { val z = x +& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z >= n.U, z - n.U, z)(log2Ceil(n)-1, 0) } // compute (this - y) % n, given (this < n) and (y < n) def subWrap(y: UInt, n: Int): UInt = { val z = x -& y if (isPow2(n)) z(n.log2-1, 0) else Mux(z(z.getWidth-1), z + n.U, z)(log2Ceil(n)-1, 0) } def grouped(width: Int): Seq[UInt] = (0 until x.getWidth by width).map(base => x(base + width - 1, base)) def inRange(base: UInt, bounds: UInt) = x >= base && x < bounds def ## (y: Option[UInt]): UInt = y.map(x ## _).getOrElse(x) // Like >=, but prevents x-prop for ('x >= 0) def >== (y: UInt): Bool = x >= y || y === 0.U } implicit class OptionUIntToAugmentedOptionUInt(private val x: Option[UInt]) extends AnyVal { def ## (y: UInt): UInt = x.map(_ ## y).getOrElse(y) def ## (y: Option[UInt]): Option[UInt] = x.map(_ ## y) } implicit class BooleanToAugmentedBoolean(private val x: Boolean) extends AnyVal { def toInt: Int = if (x) 1 else 0 // this one's snagged from scalaz def option[T](z: => T): Option[T] = if (x) Some(z) else None } implicit class IntToAugmentedInt(private val x: Int) extends AnyVal { // exact log2 def log2: Int = { require(isPow2(x)) log2Ceil(x) } } def OH1ToOH(x: UInt): UInt = (x << 1 | 1.U) & ~Cat(0.U(1.W), x) def OH1ToUInt(x: UInt): UInt = OHToUInt(OH1ToOH(x)) def UIntToOH1(x: UInt, width: Int): UInt = ~((-1).S(width.W).asUInt << x)(width-1, 0) def UIntToOH1(x: UInt): UInt = UIntToOH1(x, (1 << x.getWidth) - 1) def trailingZeros(x: Int): Option[Int] = if (x > 0) Some(log2Ceil(x & -x)) else None // Fill 1s from low bits to high bits def leftOR(x: UInt): UInt = leftOR(x, x.getWidth, x.getWidth) def leftOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x << s)(width-1,0)) helper(1, x)(width-1, 0) } // Fill 1s form high bits to low bits def rightOR(x: UInt): UInt = rightOR(x, x.getWidth, x.getWidth) def rightOR(x: UInt, width: Integer, cap: Integer = 999999): UInt = { val stop = min(width, cap) def helper(s: Int, x: UInt): UInt = if (s >= stop) x else helper(s+s, x | (x >> s)) helper(1, x)(width-1, 0) } def OptimizationBarrier[T <: Data](in: T): T = { val barrier = Module(new Module { val io = IO(new Bundle { val x = Input(chiselTypeOf(in)) val y = Output(chiselTypeOf(in)) }) io.y := io.x override def desiredName = s"OptimizationBarrier_${in.typeName}" }) barrier.io.x := in barrier.io.y } /** Similar to Seq.groupBy except this returns a Seq instead of a Map * Useful for deterministic code generation */ def groupByIntoSeq[A, K](xs: Seq[A])(f: A => K): immutable.Seq[(K, immutable.Seq[A])] = { val map = mutable.LinkedHashMap.empty[K, mutable.ListBuffer[A]] for (x <- xs) { val key = f(x) val l = map.getOrElseUpdate(key, mutable.ListBuffer.empty[A]) l += x } map.view.map({ case (k, vs) => k -> vs.toList }).toList } def heterogeneousOrGlobalSetting[T](in: Seq[T], n: Int): Seq[T] = in.size match { case 1 => List.fill(n)(in.head) case x if x == n => in case _ => throw new Exception(s"must provide exactly 1 or $n of some field, but got:\n$in") } // HeterogeneousBag moved to standalond diplomacy @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") def HeterogeneousBag[T <: Data](elts: Seq[T]) = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag[T](elts) @deprecated("HeterogeneousBag has been absorbed into standalone diplomacy library", "rocketchip 2.0.0") val HeterogeneousBag = _root_.org.chipsalliance.diplomacy.nodes.HeterogeneousBag } File Nodes.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy._ import org.chipsalliance.diplomacy.nodes._ import freechips.rocketchip.util.{AsyncQueueParams,RationalDirection} case object TLMonitorBuilder extends Field[TLMonitorArgs => TLMonitorBase](args => new TLMonitor(args)) object TLImp extends NodeImp[TLMasterPortParameters, TLSlavePortParameters, TLEdgeOut, TLEdgeIn, TLBundle] { def edgeO(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeOut(pd, pu, p, sourceInfo) def edgeI(pd: TLMasterPortParameters, pu: TLSlavePortParameters, p: Parameters, sourceInfo: SourceInfo) = new TLEdgeIn (pd, pu, p, sourceInfo) def bundleO(eo: TLEdgeOut) = TLBundle(eo.bundle) def bundleI(ei: TLEdgeIn) = TLBundle(ei.bundle) def render(ei: TLEdgeIn) = RenderedEdge(colour = "#000000" /* black */, label = (ei.manager.beatBytes * 8).toString) override def monitor(bundle: TLBundle, edge: TLEdgeIn): Unit = { val monitor = Module(edge.params(TLMonitorBuilder)(TLMonitorArgs(edge))) monitor.io.in := bundle } override def mixO(pd: TLMasterPortParameters, node: OutwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLMasterPortParameters = pd.v1copy(clients = pd.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) }) override def mixI(pu: TLSlavePortParameters, node: InwardNode[TLMasterPortParameters, TLSlavePortParameters, TLBundle]): TLSlavePortParameters = pu.v1copy(managers = pu.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) }) } trait TLFormatNode extends FormatNode[TLEdgeIn, TLEdgeOut] case class TLClientNode(portParams: Seq[TLMasterPortParameters])(implicit valName: ValName) extends SourceNode(TLImp)(portParams) with TLFormatNode case class TLManagerNode(portParams: Seq[TLSlavePortParameters])(implicit valName: ValName) extends SinkNode(TLImp)(portParams) with TLFormatNode case class TLAdapterNode( clientFn: TLMasterPortParameters => TLMasterPortParameters = { s => s }, managerFn: TLSlavePortParameters => TLSlavePortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLJunctionNode( clientFn: Seq[TLMasterPortParameters] => Seq[TLMasterPortParameters], managerFn: Seq[TLSlavePortParameters] => Seq[TLSlavePortParameters])( implicit valName: ValName) extends JunctionNode(TLImp)(clientFn, managerFn) with TLFormatNode case class TLIdentityNode()(implicit valName: ValName) extends IdentityNode(TLImp)() with TLFormatNode object TLNameNode { def apply(name: ValName) = TLIdentityNode()(name) def apply(name: Option[String]): TLIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLIdentityNode = apply(Some(name)) } case class TLEphemeralNode()(implicit valName: ValName) extends EphemeralNode(TLImp)() object TLTempNode { def apply(): TLEphemeralNode = TLEphemeralNode()(ValName("temp")) } case class TLNexusNode( clientFn: Seq[TLMasterPortParameters] => TLMasterPortParameters, managerFn: Seq[TLSlavePortParameters] => TLSlavePortParameters)( implicit valName: ValName) extends NexusNode(TLImp)(clientFn, managerFn) with TLFormatNode abstract class TLCustomNode(implicit valName: ValName) extends CustomNode(TLImp) with TLFormatNode // Asynchronous crossings trait TLAsyncFormatNode extends FormatNode[TLAsyncEdgeParameters, TLAsyncEdgeParameters] object TLAsyncImp extends SimpleNodeImp[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncEdgeParameters, TLAsyncBundle] { def edge(pd: TLAsyncClientPortParameters, pu: TLAsyncManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLAsyncEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLAsyncEdgeParameters) = new TLAsyncBundle(e.bundle) def render(e: TLAsyncEdgeParameters) = RenderedEdge(colour = "#ff0000" /* red */, label = e.manager.async.depth.toString) override def mixO(pd: TLAsyncClientPortParameters, node: OutwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLAsyncManagerPortParameters, node: InwardNode[TLAsyncClientPortParameters, TLAsyncManagerPortParameters, TLAsyncBundle]): TLAsyncManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLAsyncAdapterNode( clientFn: TLAsyncClientPortParameters => TLAsyncClientPortParameters = { s => s }, managerFn: TLAsyncManagerPortParameters => TLAsyncManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLAsyncImp)(clientFn, managerFn) with TLAsyncFormatNode case class TLAsyncIdentityNode()(implicit valName: ValName) extends IdentityNode(TLAsyncImp)() with TLAsyncFormatNode object TLAsyncNameNode { def apply(name: ValName) = TLAsyncIdentityNode()(name) def apply(name: Option[String]): TLAsyncIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLAsyncIdentityNode = apply(Some(name)) } case class TLAsyncSourceNode(sync: Option[Int])(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLAsyncImp)( dFn = { p => TLAsyncClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = p.base.minLatency + sync.getOrElse(p.async.sync)) }) with FormatNode[TLEdgeIn, TLAsyncEdgeParameters] // discard cycles in other clock domain case class TLAsyncSinkNode(async: AsyncQueueParams)(implicit valName: ValName) extends MixedAdapterNode(TLAsyncImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = p.base.minLatency + async.sync) }, uFn = { p => TLAsyncManagerPortParameters(async, p) }) with FormatNode[TLAsyncEdgeParameters, TLEdgeOut] // Rationally related crossings trait TLRationalFormatNode extends FormatNode[TLRationalEdgeParameters, TLRationalEdgeParameters] object TLRationalImp extends SimpleNodeImp[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalEdgeParameters, TLRationalBundle] { def edge(pd: TLRationalClientPortParameters, pu: TLRationalManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLRationalEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLRationalEdgeParameters) = new TLRationalBundle(e.bundle) def render(e: TLRationalEdgeParameters) = RenderedEdge(colour = "#00ff00" /* green */) override def mixO(pd: TLRationalClientPortParameters, node: OutwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLRationalManagerPortParameters, node: InwardNode[TLRationalClientPortParameters, TLRationalManagerPortParameters, TLRationalBundle]): TLRationalManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLRationalAdapterNode( clientFn: TLRationalClientPortParameters => TLRationalClientPortParameters = { s => s }, managerFn: TLRationalManagerPortParameters => TLRationalManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLRationalImp)(clientFn, managerFn) with TLRationalFormatNode case class TLRationalIdentityNode()(implicit valName: ValName) extends IdentityNode(TLRationalImp)() with TLRationalFormatNode object TLRationalNameNode { def apply(name: ValName) = TLRationalIdentityNode()(name) def apply(name: Option[String]): TLRationalIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLRationalIdentityNode = apply(Some(name)) } case class TLRationalSourceNode()(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLRationalImp)( dFn = { p => TLRationalClientPortParameters(p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLRationalEdgeParameters] // discard cycles from other clock domain case class TLRationalSinkNode(direction: RationalDirection)(implicit valName: ValName) extends MixedAdapterNode(TLRationalImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLRationalManagerPortParameters(direction, p) }) with FormatNode[TLRationalEdgeParameters, TLEdgeOut] // Credited version of TileLink channels trait TLCreditedFormatNode extends FormatNode[TLCreditedEdgeParameters, TLCreditedEdgeParameters] object TLCreditedImp extends SimpleNodeImp[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedEdgeParameters, TLCreditedBundle] { def edge(pd: TLCreditedClientPortParameters, pu: TLCreditedManagerPortParameters, p: Parameters, sourceInfo: SourceInfo) = TLCreditedEdgeParameters(pd, pu, p, sourceInfo) def bundle(e: TLCreditedEdgeParameters) = new TLCreditedBundle(e.bundle) def render(e: TLCreditedEdgeParameters) = RenderedEdge(colour = "#ffff00" /* yellow */, e.delay.toString) override def mixO(pd: TLCreditedClientPortParameters, node: OutwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedClientPortParameters = pd.copy(base = pd.base.v1copy(clients = pd.base.clients.map { c => c.v1copy (nodePath = node +: c.nodePath) })) override def mixI(pu: TLCreditedManagerPortParameters, node: InwardNode[TLCreditedClientPortParameters, TLCreditedManagerPortParameters, TLCreditedBundle]): TLCreditedManagerPortParameters = pu.copy(base = pu.base.v1copy(managers = pu.base.managers.map { m => m.v1copy (nodePath = node +: m.nodePath) })) } case class TLCreditedAdapterNode( clientFn: TLCreditedClientPortParameters => TLCreditedClientPortParameters = { s => s }, managerFn: TLCreditedManagerPortParameters => TLCreditedManagerPortParameters = { s => s })( implicit valName: ValName) extends AdapterNode(TLCreditedImp)(clientFn, managerFn) with TLCreditedFormatNode case class TLCreditedIdentityNode()(implicit valName: ValName) extends IdentityNode(TLCreditedImp)() with TLCreditedFormatNode object TLCreditedNameNode { def apply(name: ValName) = TLCreditedIdentityNode()(name) def apply(name: Option[String]): TLCreditedIdentityNode = apply(ValName(name.getOrElse("with_no_name"))) def apply(name: String): TLCreditedIdentityNode = apply(Some(name)) } case class TLCreditedSourceNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLImp, TLCreditedImp)( dFn = { p => TLCreditedClientPortParameters(delay, p) }, uFn = { p => p.base.v1copy(minLatency = 1) }) with FormatNode[TLEdgeIn, TLCreditedEdgeParameters] // discard cycles from other clock domain case class TLCreditedSinkNode(delay: TLCreditedDelay)(implicit valName: ValName) extends MixedAdapterNode(TLCreditedImp, TLImp)( dFn = { p => p.base.v1copy(minLatency = 1) }, uFn = { p => TLCreditedManagerPortParameters(delay, p) }) with FormatNode[TLCreditedEdgeParameters, TLEdgeOut] File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File Edges.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.tilelink import chisel3._ import chisel3.util._ import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.Parameters import freechips.rocketchip.util._ class TLEdge( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdgeParameters(client, manager, params, sourceInfo) { def isAligned(address: UInt, lgSize: UInt): Bool = { if (maxLgSize == 0) true.B else { val mask = UIntToOH1(lgSize, maxLgSize) (address & mask) === 0.U } } def mask(address: UInt, lgSize: UInt): UInt = MaskGen(address, lgSize, manager.beatBytes) def staticHasData(bundle: TLChannel): Option[Boolean] = { bundle match { case _:TLBundleA => { // Do there exist A messages with Data? val aDataYes = manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportPutFull || manager.anySupportPutPartial // Do there exist A messages without Data? val aDataNo = manager.anySupportAcquireB || manager.anySupportGet || manager.anySupportHint // Statically optimize the case where hasData is a constant if (!aDataYes) Some(false) else if (!aDataNo) Some(true) else None } case _:TLBundleB => { // Do there exist B messages with Data? val bDataYes = client.anySupportArithmetic || client.anySupportLogical || client.anySupportPutFull || client.anySupportPutPartial // Do there exist B messages without Data? val bDataNo = client.anySupportProbe || client.anySupportGet || client.anySupportHint // Statically optimize the case where hasData is a constant if (!bDataYes) Some(false) else if (!bDataNo) Some(true) else None } case _:TLBundleC => { // Do there eixst C messages with Data? val cDataYes = client.anySupportGet || client.anySupportArithmetic || client.anySupportLogical || client.anySupportProbe // Do there exist C messages without Data? val cDataNo = client.anySupportPutFull || client.anySupportPutPartial || client.anySupportHint || client.anySupportProbe if (!cDataYes) Some(false) else if (!cDataNo) Some(true) else None } case _:TLBundleD => { // Do there eixst D messages with Data? val dDataYes = manager.anySupportGet || manager.anySupportArithmetic || manager.anySupportLogical || manager.anySupportAcquireB // Do there exist D messages without Data? val dDataNo = manager.anySupportPutFull || manager.anySupportPutPartial || manager.anySupportHint || manager.anySupportAcquireT if (!dDataYes) Some(false) else if (!dDataNo) Some(true) else None } case _:TLBundleE => Some(false) } } def isRequest(x: TLChannel): Bool = { x match { case a: TLBundleA => true.B case b: TLBundleB => true.B case c: TLBundleC => c.opcode(2) && c.opcode(1) // opcode === TLMessages.Release || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(2) && !d.opcode(1) // opcode === TLMessages.Grant || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } } def isResponse(x: TLChannel): Bool = { x match { case a: TLBundleA => false.B case b: TLBundleB => false.B case c: TLBundleC => !c.opcode(2) || !c.opcode(1) // opcode =/= TLMessages.Release && // opcode =/= TLMessages.ReleaseData case d: TLBundleD => true.B // Grant isResponse + isRequest case e: TLBundleE => true.B } } def hasData(x: TLChannel): Bool = { val opdata = x match { case a: TLBundleA => !a.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case b: TLBundleB => !b.opcode(2) // opcode === TLMessages.PutFullData || // opcode === TLMessages.PutPartialData || // opcode === TLMessages.ArithmeticData || // opcode === TLMessages.LogicalData case c: TLBundleC => c.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.ProbeAckData || // opcode === TLMessages.ReleaseData case d: TLBundleD => d.opcode(0) // opcode === TLMessages.AccessAckData || // opcode === TLMessages.GrantData case e: TLBundleE => false.B } staticHasData(x).map(_.B).getOrElse(opdata) } def opcode(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.opcode case b: TLBundleB => b.opcode case c: TLBundleC => c.opcode case d: TLBundleD => d.opcode } } def param(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.param case b: TLBundleB => b.param case c: TLBundleC => c.param case d: TLBundleD => d.param } } def size(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.size case b: TLBundleB => b.size case c: TLBundleC => c.size case d: TLBundleD => d.size } } def data(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.data case b: TLBundleB => b.data case c: TLBundleC => c.data case d: TLBundleD => d.data } } def corrupt(x: TLDataChannel): Bool = { x match { case a: TLBundleA => a.corrupt case b: TLBundleB => b.corrupt case c: TLBundleC => c.corrupt case d: TLBundleD => d.corrupt } } def mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.mask case b: TLBundleB => b.mask case c: TLBundleC => mask(c.address, c.size) } } def full_mask(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => mask(a.address, a.size) case b: TLBundleB => mask(b.address, b.size) case c: TLBundleC => mask(c.address, c.size) } } def address(x: TLAddrChannel): UInt = { x match { case a: TLBundleA => a.address case b: TLBundleB => b.address case c: TLBundleC => c.address } } def source(x: TLDataChannel): UInt = { x match { case a: TLBundleA => a.source case b: TLBundleB => b.source case c: TLBundleC => c.source case d: TLBundleD => d.source } } def addr_hi(x: UInt): UInt = x >> log2Ceil(manager.beatBytes) def addr_lo(x: UInt): UInt = if (manager.beatBytes == 1) 0.U else x(log2Ceil(manager.beatBytes)-1, 0) def addr_hi(x: TLAddrChannel): UInt = addr_hi(address(x)) def addr_lo(x: TLAddrChannel): UInt = addr_lo(address(x)) def numBeats(x: TLChannel): UInt = { x match { case _: TLBundleE => 1.U case bundle: TLDataChannel => { val hasData = this.hasData(bundle) val size = this.size(bundle) val cutoff = log2Ceil(manager.beatBytes) val small = if (manager.maxTransfer <= manager.beatBytes) true.B else size <= (cutoff).U val decode = UIntToOH(size, maxLgSize+1) >> cutoff Mux(hasData, decode | small.asUInt, 1.U) } } } def numBeats1(x: TLChannel): UInt = { x match { case _: TLBundleE => 0.U case bundle: TLDataChannel => { if (maxLgSize == 0) { 0.U } else { val decode = UIntToOH1(size(bundle), maxLgSize) >> log2Ceil(manager.beatBytes) Mux(hasData(bundle), decode, 0.U) } } } } def firstlastHelper(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val beats1 = numBeats1(bits) val counter = RegInit(0.U(log2Up(maxTransfer / manager.beatBytes).W)) val counter1 = counter - 1.U val first = counter === 0.U val last = counter === 1.U || beats1 === 0.U val done = last && fire val count = (beats1 & ~counter1) when (fire) { counter := Mux(first, beats1, counter1) } (first, last, done, count) } def first(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._1 def first(x: DecoupledIO[TLChannel]): Bool = first(x.bits, x.fire) def first(x: ValidIO[TLChannel]): Bool = first(x.bits, x.valid) def last(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._2 def last(x: DecoupledIO[TLChannel]): Bool = last(x.bits, x.fire) def last(x: ValidIO[TLChannel]): Bool = last(x.bits, x.valid) def done(bits: TLChannel, fire: Bool): Bool = firstlastHelper(bits, fire)._3 def done(x: DecoupledIO[TLChannel]): Bool = done(x.bits, x.fire) def done(x: ValidIO[TLChannel]): Bool = done(x.bits, x.valid) def firstlast(bits: TLChannel, fire: Bool): (Bool, Bool, Bool) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3) } def firstlast(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.fire) def firstlast(x: ValidIO[TLChannel]): (Bool, Bool, Bool) = firstlast(x.bits, x.valid) def count(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4) } def count(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.fire) def count(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = count(x.bits, x.valid) def addr_inc(bits: TLChannel, fire: Bool): (Bool, Bool, Bool, UInt) = { val r = firstlastHelper(bits, fire) (r._1, r._2, r._3, r._4 << log2Ceil(manager.beatBytes)) } def addr_inc(x: DecoupledIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.fire) def addr_inc(x: ValidIO[TLChannel]): (Bool, Bool, Bool, UInt) = addr_inc(x.bits, x.valid) // Does the request need T permissions to be executed? def needT(a: TLBundleA): Bool = { val acq_needT = MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLPermissions.NtoB -> false.B, TLPermissions.NtoT -> true.B, TLPermissions.BtoT -> true.B)) MuxLookup(a.opcode, WireDefault(Bool(), DontCare))(Array( TLMessages.PutFullData -> true.B, TLMessages.PutPartialData -> true.B, TLMessages.ArithmeticData -> true.B, TLMessages.LogicalData -> true.B, TLMessages.Get -> false.B, TLMessages.Hint -> MuxLookup(a.param, WireDefault(Bool(), DontCare))(Array( TLHints.PREFETCH_READ -> false.B, TLHints.PREFETCH_WRITE -> true.B)), TLMessages.AcquireBlock -> acq_needT, TLMessages.AcquirePerm -> acq_needT)) } // This is a very expensive circuit; use only if you really mean it! def inFlight(x: TLBundle): (UInt, UInt) = { val flight = RegInit(0.U(log2Ceil(3*client.endSourceId+1).W)) val bce = manager.anySupportAcquireB && client.anySupportProbe val (a_first, a_last, _) = firstlast(x.a) val (b_first, b_last, _) = firstlast(x.b) val (c_first, c_last, _) = firstlast(x.c) val (d_first, d_last, _) = firstlast(x.d) val (e_first, e_last, _) = firstlast(x.e) val (a_request, a_response) = (isRequest(x.a.bits), isResponse(x.a.bits)) val (b_request, b_response) = (isRequest(x.b.bits), isResponse(x.b.bits)) val (c_request, c_response) = (isRequest(x.c.bits), isResponse(x.c.bits)) val (d_request, d_response) = (isRequest(x.d.bits), isResponse(x.d.bits)) val (e_request, e_response) = (isRequest(x.e.bits), isResponse(x.e.bits)) val a_inc = x.a.fire && a_first && a_request val b_inc = x.b.fire && b_first && b_request val c_inc = x.c.fire && c_first && c_request val d_inc = x.d.fire && d_first && d_request val e_inc = x.e.fire && e_first && e_request val inc = Cat(Seq(a_inc, d_inc) ++ (if (bce) Seq(b_inc, c_inc, e_inc) else Nil)) val a_dec = x.a.fire && a_last && a_response val b_dec = x.b.fire && b_last && b_response val c_dec = x.c.fire && c_last && c_response val d_dec = x.d.fire && d_last && d_response val e_dec = x.e.fire && e_last && e_response val dec = Cat(Seq(a_dec, d_dec) ++ (if (bce) Seq(b_dec, c_dec, e_dec) else Nil)) val next_flight = flight + PopCount(inc) - PopCount(dec) flight := next_flight (flight, next_flight) } def prettySourceMapping(context: String): String = { s"TL-Source mapping for $context:\n${(new TLSourceIdMap(client)).pretty}\n" } } class TLEdgeOut( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { // Transfers def AcquireBlock(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquireBlock a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AcquirePerm(fromSource: UInt, toAddress: UInt, lgSize: UInt, growPermissions: UInt) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.AcquirePerm a.param := growPermissions a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.Release c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleC) = { require (manager.anySupportAcquireB, s"TileLink: No managers visible from this edge support Acquires, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsAcquireBFast(toAddress, lgSize) val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ReleaseData c.param := shrinkPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt (legal, c) } def Release(fromSource: UInt, toAddress: UInt, lgSize: UInt, shrinkPermissions: UInt, data: UInt): (Bool, TLBundleC) = Release(fromSource, toAddress, lgSize, shrinkPermissions, data, false.B) def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAck c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(b.source, b.address, b.size, reportPermissions, data) def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt, corrupt: Bool): TLBundleC = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.ProbeAckData c.param := reportPermissions c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = ProbeAck(fromSource, toAddress, lgSize, reportPermissions, data, false.B) def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink) def GrantAck(toSink: UInt): TLBundleE = { val e = Wire(new TLBundleE(bundle)) e.sink := toSink e } // Accesses def Get(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { require (manager.anySupportGet, s"TileLink: No managers visible from this edge support Gets, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsGetFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Get a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutFull, s"TileLink: No managers visible from this edge support Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutFullFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutFullData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleA) = Put(fromSource, toAddress, lgSize, data, mask, false.B) def Put(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleA) = { require (manager.anySupportPutPartial, s"TileLink: No managers visible from this edge support masked Puts, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsPutPartialFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.PutPartialData a.param := 0.U a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask a.data := data a.corrupt := corrupt (legal, a) } def Arithmetic(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B): (Bool, TLBundleA) = { require (manager.anySupportArithmetic, s"TileLink: No managers visible from this edge support arithmetic AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsArithmeticFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.ArithmeticData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Logical(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (manager.anySupportLogical, s"TileLink: No managers visible from this edge support logical AMOs, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsLogicalFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.LogicalData a.param := atomic a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := data a.corrupt := corrupt (legal, a) } def Hint(fromSource: UInt, toAddress: UInt, lgSize: UInt, param: UInt) = { require (manager.anySupportHint, s"TileLink: No managers visible from this edge support Hints, but one of these clients would try to request one: ${client.clients}") val legal = manager.supportsHintFast(toAddress, lgSize) val a = Wire(new TLBundleA(bundle)) a.opcode := TLMessages.Hint a.param := param a.size := lgSize a.source := fromSource a.address := toAddress a.user := DontCare a.echo := DontCare a.mask := mask(toAddress, lgSize) a.data := DontCare a.corrupt := false.B (legal, a) } def AccessAck(b: TLBundleB): TLBundleC = AccessAck(b.source, address(b), b.size) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } def AccessAck(b: TLBundleB, data: UInt): TLBundleC = AccessAck(b.source, address(b), b.size, data) def AccessAck(b: TLBundleB, data: UInt, corrupt: Bool): TLBundleC = AccessAck(b.source, address(b), b.size, data, corrupt) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt): TLBundleC = AccessAck(fromSource, toAddress, lgSize, data, false.B) def AccessAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, data: UInt, corrupt: Bool) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.AccessAckData c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := data c.corrupt := corrupt c } def HintAck(b: TLBundleB): TLBundleC = HintAck(b.source, address(b), b.size) def HintAck(fromSource: UInt, toAddress: UInt, lgSize: UInt) = { val c = Wire(new TLBundleC(bundle)) c.opcode := TLMessages.HintAck c.param := 0.U c.size := lgSize c.source := fromSource c.address := toAddress c.user := DontCare c.echo := DontCare c.data := DontCare c.corrupt := false.B c } } class TLEdgeIn( client: TLClientPortParameters, manager: TLManagerPortParameters, params: Parameters, sourceInfo: SourceInfo) extends TLEdge(client, manager, params, sourceInfo) { private def myTranspose[T](x: Seq[Seq[T]]): Seq[Seq[T]] = { val todo = x.filter(!_.isEmpty) val heads = todo.map(_.head) val tails = todo.map(_.tail) if (todo.isEmpty) Nil else { heads +: myTranspose(tails) } } // Transfers def Probe(fromAddress: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt) = { require (client.anySupportProbe, s"TileLink: No clients visible from this edge support probes, but one of these managers tried to issue one: ${manager.managers}") val legal = client.supportsProbe(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Probe b.param := capPermissions b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.Grant d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt): TLBundleD = Grant(fromSink, toSource, lgSize, capPermissions, data, false.B, false.B) def Grant(fromSink: UInt, toSource: UInt, lgSize: UInt, capPermissions: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.GrantData d.param := capPermissions d.size := lgSize d.source := toSource d.sink := fromSink d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def ReleaseAck(c: TLBundleC): TLBundleD = ReleaseAck(c.source, c.size, false.B) def ReleaseAck(toSource: UInt, lgSize: UInt, denied: Bool): TLBundleD = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.ReleaseAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } // Accesses def Get(fromAddress: UInt, toSource: UInt, lgSize: UInt) = { require (client.anySupportGet, s"TileLink: No clients visible from this edge support Gets, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsGet(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Get b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutFull, s"TileLink: No clients visible from this edge support Puts, but one of these managers would try to issue one: ${manager.managers}") val legal = client.supportsPutFull(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutFullData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt): (Bool, TLBundleB) = Put(fromAddress, toSource, lgSize, data, mask, false.B) def Put(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, mask: UInt, corrupt: Bool): (Bool, TLBundleB) = { require (client.anySupportPutPartial, s"TileLink: No clients visible from this edge support masked Puts, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsPutPartial(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.PutPartialData b.param := 0.U b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask b.data := data b.corrupt := corrupt (legal, b) } def Arithmetic(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportArithmetic, s"TileLink: No clients visible from this edge support arithmetic AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsArithmetic(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.ArithmeticData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Logical(fromAddress: UInt, toSource: UInt, lgSize: UInt, data: UInt, atomic: UInt, corrupt: Bool = false.B) = { require (client.anySupportLogical, s"TileLink: No clients visible from this edge support logical AMOs, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsLogical(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.LogicalData b.param := atomic b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := data b.corrupt := corrupt (legal, b) } def Hint(fromAddress: UInt, toSource: UInt, lgSize: UInt, param: UInt) = { require (client.anySupportHint, s"TileLink: No clients visible from this edge support Hints, but one of these managers would try to request one: ${manager.managers}") val legal = client.supportsHint(toSource, lgSize) val b = Wire(new TLBundleB(bundle)) b.opcode := TLMessages.Hint b.param := param b.size := lgSize b.source := toSource b.address := fromAddress b.mask := mask(fromAddress, lgSize) b.data := DontCare b.corrupt := false.B (legal, b) } def AccessAck(a: TLBundleA): TLBundleD = AccessAck(a.source, a.size) def AccessAck(a: TLBundleA, denied: Bool): TLBundleD = AccessAck(a.source, a.size, denied) def AccessAck(toSource: UInt, lgSize: UInt): TLBundleD = AccessAck(toSource, lgSize, false.B) def AccessAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } def AccessAck(a: TLBundleA, data: UInt): TLBundleD = AccessAck(a.source, a.size, data) def AccessAck(a: TLBundleA, data: UInt, denied: Bool, corrupt: Bool): TLBundleD = AccessAck(a.source, a.size, data, denied, corrupt) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt): TLBundleD = AccessAck(toSource, lgSize, data, false.B, false.B) def AccessAck(toSource: UInt, lgSize: UInt, data: UInt, denied: Bool, corrupt: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.AccessAckData d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := data d.corrupt := corrupt d } def HintAck(a: TLBundleA): TLBundleD = HintAck(a, false.B) def HintAck(a: TLBundleA, denied: Bool): TLBundleD = HintAck(a.source, a.size, denied) def HintAck(toSource: UInt, lgSize: UInt): TLBundleD = HintAck(toSource, lgSize, false.B) def HintAck(toSource: UInt, lgSize: UInt, denied: Bool) = { val d = Wire(new TLBundleD(bundle)) d.opcode := TLMessages.HintAck d.param := 0.U d.size := lgSize d.source := toSource d.sink := 0.U d.denied := denied d.user := DontCare d.echo := DontCare d.data := DontCare d.corrupt := false.B d } }
module TLError( // @[Error.scala:21:9] input clock, // @[Error.scala:21:9] input reset, // @[Error.scala:21:9] output auto_in_a_ready, // @[LazyModuleImp.scala:107:25] input auto_in_a_valid, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_a_bits_opcode, // @[LazyModuleImp.scala:107:25] input [2:0] auto_in_a_bits_param, // @[LazyModuleImp.scala:107:25] input [3:0] auto_in_a_bits_size, // @[LazyModuleImp.scala:107:25] input [9:0] auto_in_a_bits_source, // @[LazyModuleImp.scala:107:25] input [13:0] auto_in_a_bits_address, // @[LazyModuleImp.scala:107:25] input [7:0] auto_in_a_bits_mask, // @[LazyModuleImp.scala:107:25] input [63:0] auto_in_a_bits_data, // @[LazyModuleImp.scala:107:25] input auto_in_a_bits_corrupt, // @[LazyModuleImp.scala:107:25] input auto_in_d_ready, // @[LazyModuleImp.scala:107:25] output auto_in_d_valid, // @[LazyModuleImp.scala:107:25] output [2:0] auto_in_d_bits_opcode, // @[LazyModuleImp.scala:107:25] output [3:0] auto_in_d_bits_size, // @[LazyModuleImp.scala:107:25] output [9:0] auto_in_d_bits_source, // @[LazyModuleImp.scala:107:25] output auto_in_d_bits_corrupt // @[LazyModuleImp.scala:107:25] ); wire [2:0] da_bits_opcode; // @[Error.scala:38:21] wire _a_q_io_enq_ready; // @[Decoupled.scala:362:21] wire _a_q_io_deq_valid; // @[Decoupled.scala:362:21] wire [2:0] _a_q_io_deq_bits_opcode; // @[Decoupled.scala:362:21] wire [3:0] _a_q_io_deq_bits_size; // @[Decoupled.scala:362:21] wire [9:0] _a_q_io_deq_bits_source; // @[Decoupled.scala:362:21] wire [7:0][2:0] _GEN = '{3'h4, 3'h4, 3'h2, 3'h1, 3'h1, 3'h1, 3'h0, 3'h0}; wire [26:0] _GEN_0 = {23'h0, _a_q_io_deq_bits_size}; // @[Decoupled.scala:362:21] wire [26:0] _a_last_beats1_decode_T = 27'hFFF << _GEN_0; // @[package.scala:243:71] wire [8:0] a_last_beats1 = _a_q_io_deq_bits_opcode[2] ? 9'h0 : ~(_a_last_beats1_decode_T[11:3]); // @[Decoupled.scala:362:21] reg [8:0] a_last_counter; // @[Edges.scala:229:27] wire a_last = a_last_counter == 9'h1 | a_last_beats1 == 9'h0; // @[Edges.scala:221:14, :229:27, :232:{25,33,43}] wire [26:0] _r_beats1_decode_T = 27'hFFF << _GEN_0; // @[package.scala:243:71] wire [8:0] r_beats1 = da_bits_opcode[0] ? ~(_r_beats1_decode_T[11:3]) : 9'h0; // @[package.scala:243:{46,71,76}] reg [8:0] r_counter; // @[Edges.scala:229:27] wire a_q_io_deq_ready = auto_in_d_ready & (r_counter == 9'h1 | r_beats1 == 9'h0) | ~a_last; // @[Edges.scala:221:14, :229:27, :232:{25,33,43}] wire da_valid = _a_q_io_deq_valid & a_last; // @[Decoupled.scala:362:21] assign da_bits_opcode = _GEN[_a_q_io_deq_bits_opcode]; // @[Decoupled.scala:362:21] always @(posedge clock) begin // @[Error.scala:21:9] if (reset) begin // @[Error.scala:21:9] a_last_counter <= 9'h0; // @[Edges.scala:229:27] r_counter <= 9'h0; // @[Edges.scala:229:27] end else begin // @[Error.scala:21:9] if (a_q_io_deq_ready & _a_q_io_deq_valid) // @[Decoupled.scala:51:35, :362:21] a_last_counter <= a_last_counter == 9'h0 ? a_last_beats1 : a_last_counter - 9'h1; // @[Edges.scala:221:14, :229:27, :230:28, :231:25, :236:21] if (auto_in_d_ready & da_valid) // @[Decoupled.scala:51:35] r_counter <= r_counter == 9'h0 ? r_beats1 : r_counter - 9'h1; // @[Edges.scala:221:14, :229:27, :230:28, :231:25, :236:21] end always @(posedge)
Generate the Verilog code corresponding to the following Chisel files. File HasTiles.scala: // See LICENSE.SiFive for license details. package freechips.rocketchip.subsystem import chisel3._ import org.chipsalliance.cde.config._ import org.chipsalliance.diplomacy.bundlebridge._ import org.chipsalliance.diplomacy.lazymodule._ import freechips.rocketchip.devices.debug.TLDebugModule import freechips.rocketchip.diplomacy.{DisableMonitors, FlipRendering} import freechips.rocketchip.interrupts.{IntXbar, IntSinkNode, IntSinkPortSimple, IntSyncAsyncCrossingSink} import freechips.rocketchip.tile.{MaxHartIdBits, BaseTile, InstantiableTileParams, TileParams, TilePRCIDomain, TraceBundle, PriorityMuxHartIdFromSeq} import freechips.rocketchip.tilelink.TLWidthWidget import freechips.rocketchip.prci.{ClockGroup, BundleBridgeBlockDuringReset, NoCrossing, SynchronousCrossing, CreditedCrossing, RationalCrossing, AsynchronousCrossing} import freechips.rocketchip.rocket.TracedInstruction import freechips.rocketchip.util.TraceCoreInterface import scala.collection.immutable.SortedMap /** Entry point for Config-uring the presence of Tiles */ case class TilesLocated(loc: HierarchicalLocation) extends Field[Seq[CanAttachTile]](Nil) /** List of HierarchicalLocations which might contain a Tile */ case object PossibleTileLocations extends Field[Seq[HierarchicalLocation]](Nil) /** For determining static tile id */ case object NumTiles extends Field[Int](0) /** Whether to add timing-closure registers along the path of the hart id * as it propagates through the subsystem and into the tile. * * These are typically only desirable when a dynamically programmable prefix is being combined * with the static hart id via [[freechips.rocketchip.subsystem.HasTiles.tileHartIdNexusNode]]. */ case object InsertTimingClosureRegistersOnHartIds extends Field[Boolean](false) /** Whether per-tile hart ids are going to be driven as inputs into a HasTiles block, * and if so, what their width should be. */ case object HasTilesExternalHartIdWidthKey extends Field[Option[Int]](None) /** Whether per-tile reset vectors are going to be driven as inputs into a HasTiles block. * * Unlike the hart ids, the reset vector width is determined by the sinks within the tiles, * based on the size of the address map visible to the tiles. */ case object HasTilesExternalResetVectorKey extends Field[Boolean](true) /** These are sources of "constants" that are driven into the tile. * * While they are not expected to change dyanmically while the tile is executing code, * they may be either tied to a contant value or programmed during boot or reset. * They need to be instantiated before tiles are attached within the subsystem containing them. */ trait HasTileInputConstants { this: LazyModule with Attachable with InstantiatesHierarchicalElements => /** tileHartIdNode is used to collect publishers and subscribers of hartids. */ val tileHartIdNodes: SortedMap[Int, BundleBridgeEphemeralNode[UInt]] = (0 until nTotalTiles).map { i => (i, BundleBridgeEphemeralNode[UInt]()) }.to(SortedMap) /** tileHartIdNexusNode is a BundleBridgeNexus that collects dynamic hart prefixes. * * Each "prefix" input is actually the same full width as the outer hart id; the expected usage * is that each prefix source would set only some non-overlapping portion of the bits to non-zero values. * This node orReduces them, and further combines the reduction with the static ids assigned to each tile, * producing a unique, dynamic hart id for each tile. * * If p(InsertTimingClosureRegistersOnHartIds) is set, the input and output values are registered. * * The output values are [[dontTouch]]'d to prevent constant propagation from pulling the values into * the tiles if they are constant, which would ruin deduplication of tiles that are otherwise homogeneous. */ val tileHartIdNexusNode = LazyModule(new BundleBridgeNexus[UInt]( inputFn = BundleBridgeNexus.orReduction[UInt](registered = p(InsertTimingClosureRegistersOnHartIds)) _, outputFn = (prefix: UInt, n: Int) => Seq.tabulate(n) { i => val y = dontTouch(prefix | totalTileIdList(i).U(p(MaxHartIdBits).W)) // dontTouch to keep constant prop from breaking tile dedup if (p(InsertTimingClosureRegistersOnHartIds)) BundleBridgeNexus.safeRegNext(y) else y }, default = Some(() => 0.U(p(MaxHartIdBits).W)), inputRequiresOutput = true, // guard against this being driven but then ignored in tileHartIdIONodes below shouldBeInlined = false // can't inline something whose output we are are dontTouching )).node // TODO: Replace the DebugModuleHartSelFuncs config key with logic to consume the dynamic hart IDs /** tileResetVectorNode is used to collect publishers and subscribers of tile reset vector addresses. */ val tileResetVectorNodes: SortedMap[Int, BundleBridgeEphemeralNode[UInt]] = (0 until nTotalTiles).map { i => (i, BundleBridgeEphemeralNode[UInt]()) }.to(SortedMap) /** tileResetVectorNexusNode is a BundleBridgeNexus that accepts a single reset vector source, and broadcasts it to all tiles. */ val tileResetVectorNexusNode = BundleBroadcast[UInt]( inputRequiresOutput = true // guard against this being driven but ignored in tileResetVectorIONodes below ) /** tileHartIdIONodes may generate subsystem IOs, one per tile, allowing the parent to assign unique hart ids. * * Or, if such IOs are not configured to exist, tileHartIdNexusNode is used to supply an id to each tile. */ val tileHartIdIONodes: Seq[BundleBridgeSource[UInt]] = p(HasTilesExternalHartIdWidthKey) match { case Some(w) => (0 until nTotalTiles).map { i => val hartIdSource = BundleBridgeSource(() => UInt(w.W)) tileHartIdNodes(i) := hartIdSource hartIdSource } case None => { (0 until nTotalTiles).map { i => tileHartIdNodes(i) :*= tileHartIdNexusNode } Nil } } /** tileResetVectorIONodes may generate subsystem IOs, one per tile, allowing the parent to assign unique reset vectors. * * Or, if such IOs are not configured to exist, tileResetVectorNexusNode is used to supply a single reset vector to every tile. */ val tileResetVectorIONodes: Seq[BundleBridgeSource[UInt]] = p(HasTilesExternalResetVectorKey) match { case true => (0 until nTotalTiles).map { i => val resetVectorSource = BundleBridgeSource[UInt]() tileResetVectorNodes(i) := resetVectorSource resetVectorSource } case false => { (0 until nTotalTiles).map { i => tileResetVectorNodes(i) :*= tileResetVectorNexusNode } Nil } } } /** These are sinks of notifications that are driven out from the tile. * * They need to be instantiated before tiles are attached to the subsystem containing them. */ trait HasTileNotificationSinks { this: LazyModule => val tileHaltXbarNode = IntXbar() val tileHaltSinkNode = IntSinkNode(IntSinkPortSimple()) tileHaltSinkNode := tileHaltXbarNode val tileWFIXbarNode = IntXbar() val tileWFISinkNode = IntSinkNode(IntSinkPortSimple()) tileWFISinkNode := tileWFIXbarNode val tileCeaseXbarNode = IntXbar() val tileCeaseSinkNode = IntSinkNode(IntSinkPortSimple()) tileCeaseSinkNode := tileCeaseXbarNode } /** Standardized interface by which parameterized tiles can be attached to contexts containing interconnect resources. * * Sub-classes of this trait can optionally override the individual connect functions in order to specialize * their attachment behaviors, but most use cases should be be handled simply by changing the implementation * of the injectNode functions in crossingParams. */ trait CanAttachTile { type TileType <: BaseTile type TileContextType <: DefaultHierarchicalElementContextType def tileParams: InstantiableTileParams[TileType] def crossingParams: HierarchicalElementCrossingParamsLike /** Narrow waist through which all tiles are intended to pass while being instantiated. */ def instantiate(allTileParams: Seq[TileParams], instantiatedTiles: SortedMap[Int, TilePRCIDomain[_]])(implicit p: Parameters): TilePRCIDomain[TileType] = { val clockSinkParams = tileParams.clockSinkParams.copy(name = Some(tileParams.uniqueName)) val tile_prci_domain = LazyModule(new TilePRCIDomain[TileType](clockSinkParams, crossingParams) { self => val element = self.element_reset_domain { LazyModule(tileParams.instantiate(crossingParams, PriorityMuxHartIdFromSeq(allTileParams))) } }) tile_prci_domain } /** A default set of connections that need to occur for most tile types */ def connect(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { connectMasterPorts(domain, context) connectSlavePorts(domain, context) connectInterrupts(domain, context) connectPRC(domain, context) connectOutputNotifications(domain, context) connectInputConstants(domain, context) connectTrace(domain, context) } /** Connect the port where the tile is the master to a TileLink interconnect. */ def connectMasterPorts(domain: TilePRCIDomain[TileType], context: Attachable): Unit = { implicit val p = context.p val dataBus = context.locateTLBusWrapper(crossingParams.master.where) dataBus.coupleFrom(tileParams.baseName) { bus => bus :=* crossingParams.master.injectNode(context) :=* domain.crossMasterPort(crossingParams.crossingType) } } /** Connect the port where the tile is the slave to a TileLink interconnect. */ def connectSlavePorts(domain: TilePRCIDomain[TileType], context: Attachable): Unit = { implicit val p = context.p DisableMonitors { implicit p => val controlBus = context.locateTLBusWrapper(crossingParams.slave.where) controlBus.coupleTo(tileParams.baseName) { bus => domain.crossSlavePort(crossingParams.crossingType) :*= crossingParams.slave.injectNode(context) :*= TLWidthWidget(controlBus.beatBytes) :*= bus } } } /** Connect the various interrupts sent to and and raised by the tile. */ def connectInterrupts(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p // NOTE: The order of calls to := matters! They must match how interrupts // are decoded from tile.intInwardNode inside the tile. For this reason, // we stub out missing interrupts with constant sources here. // 1. Debug interrupt is definitely asynchronous in all cases. domain.element.intInwardNode := domain { IntSyncAsyncCrossingSink(3) } := context.debugNodes(domain.element.tileId) // 2. The CLINT and PLIC output interrupts are synchronous to the CLINT/PLIC respectively, // so might need to be synchronized depending on the Tile's crossing type. // From CLINT: "msip" and "mtip" context.msipDomain { domain.crossIntIn(crossingParams.crossingType, domain.element.intInwardNode) := context.msipNodes(domain.element.tileId) } // From PLIC: "meip" context.meipDomain { domain.crossIntIn(crossingParams.crossingType, domain.element.intInwardNode) := context.meipNodes(domain.element.tileId) } // From PLIC: "seip" (only if supervisor mode is enabled) if (domain.element.tileParams.core.hasSupervisorMode) { context.seipDomain { domain.crossIntIn(crossingParams.crossingType, domain.element.intInwardNode) := context.seipNodes(domain.element.tileId) } } // 3. Local Interrupts ("lip") are required to already be synchronous to the Tile's clock. // (they are connected to domain.element.intInwardNode in a seperate trait) // 4. Interrupts coming out of the tile are sent to the PLIC, // so might need to be synchronized depending on the Tile's crossing type. context.tileToPlicNodes.get(domain.element.tileId).foreach { node => FlipRendering { implicit p => domain.element.intOutwardNode.foreach { out => context.toPlicDomain { node := domain.crossIntOut(crossingParams.crossingType, out) } }} } // 5. Connect NMI inputs to the tile. These inputs are synchronous to the respective core_clock. domain.element.nmiNode.foreach(_ := context.nmiNodes(domain.element.tileId)) } /** Notifications of tile status are connected to be broadcast without needing to be clock-crossed. */ def connectOutputNotifications(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p domain { context.tileHaltXbarNode :=* domain.crossIntOut(NoCrossing, domain.element.haltNode) context.tileWFIXbarNode :=* domain.crossIntOut(NoCrossing, domain.element.wfiNode) context.tileCeaseXbarNode :=* domain.crossIntOut(NoCrossing, domain.element.ceaseNode) } // TODO should context be forced to have a trace sink connected here? // for now this just ensures domain.trace[Core]Node has been crossed without connecting it externally } /** Connect inputs to the tile that are assumed to be constant during normal operation, and so are not clock-crossed. */ def connectInputConstants(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p val tlBusToGetPrefixFrom = context.locateTLBusWrapper(crossingParams.mmioBaseAddressPrefixWhere) domain.element.hartIdNode := context.tileHartIdNodes(domain.element.tileId) domain.element.resetVectorNode := context.tileResetVectorNodes(domain.element.tileId) tlBusToGetPrefixFrom.prefixNode.foreach { domain.element.mmioAddressPrefixNode := _ } } /** Connect power/reset/clock resources. */ def connectPRC(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p val tlBusToGetClockDriverFrom = context.locateTLBusWrapper(crossingParams.master.where) (crossingParams.crossingType match { case _: SynchronousCrossing | _: CreditedCrossing => if (crossingParams.forceSeparateClockReset) { domain.clockNode := tlBusToGetClockDriverFrom.clockNode } else { domain.clockNode := tlBusToGetClockDriverFrom.fixedClockNode } case _: RationalCrossing => domain.clockNode := tlBusToGetClockDriverFrom.clockNode case _: AsynchronousCrossing => { val tileClockGroup = ClockGroup() tileClockGroup := context.allClockGroupsNode domain.clockNode := tileClockGroup } }) domain { domain.element_reset_domain.clockNode := crossingParams.resetCrossingType.injectClockNode := domain.clockNode } } /** Function to handle all trace crossings when tile is instantiated inside domains */ def connectTrace(domain: TilePRCIDomain[TileType], context: TileContextType): Unit = { implicit val p = context.p val traceCrossingNode = BundleBridgeBlockDuringReset[TraceBundle]( resetCrossingType = crossingParams.resetCrossingType) context.traceNodes(domain.element.tileId) := traceCrossingNode := domain.element.traceNode val traceCoreCrossingNode = BundleBridgeBlockDuringReset[TraceCoreInterface]( resetCrossingType = crossingParams.resetCrossingType) context.traceCoreNodes(domain.element.tileId) :*= traceCoreCrossingNode := domain.element.traceCoreNode } } case class CloneTileAttachParams( sourceTileId: Int, cloneParams: CanAttachTile ) extends CanAttachTile { type TileType = cloneParams.TileType type TileContextType = cloneParams.TileContextType def tileParams = cloneParams.tileParams def crossingParams = cloneParams.crossingParams override def instantiate(allTileParams: Seq[TileParams], instantiatedTiles: SortedMap[Int, TilePRCIDomain[_]])(implicit p: Parameters): TilePRCIDomain[TileType] = { require(instantiatedTiles.contains(sourceTileId)) val clockSinkParams = tileParams.clockSinkParams.copy(name = Some(tileParams.uniqueName)) val tile_prci_domain = CloneLazyModule( new TilePRCIDomain[TileType](clockSinkParams, crossingParams) { self => val element = self.element_reset_domain { LazyModule(tileParams.instantiate(crossingParams, PriorityMuxHartIdFromSeq(allTileParams))) } }, instantiatedTiles(sourceTileId).asInstanceOf[TilePRCIDomain[TileType]] ) tile_prci_domain } } File LazyModuleImp.scala: package org.chipsalliance.diplomacy.lazymodule import chisel3.{withClockAndReset, Module, RawModule, Reset, _} import chisel3.experimental.{ChiselAnnotation, CloneModuleAsRecord, SourceInfo} import firrtl.passes.InlineAnnotation import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.nodes.Dangle import scala.collection.immutable.SortedMap /** Trait describing the actual [[Module]] implementation wrapped by a [[LazyModule]]. * * This is the actual Chisel module that is lazily-evaluated in the second phase of Diplomacy. */ sealed trait LazyModuleImpLike extends RawModule { /** [[LazyModule]] that contains this instance. */ val wrapper: LazyModule /** IOs that will be automatically "punched" for this instance. */ val auto: AutoBundle /** The metadata that describes the [[HalfEdge]]s which generated [[auto]]. */ protected[diplomacy] val dangles: Seq[Dangle] // [[wrapper.module]] had better not be accessed while LazyModules are still being built! require( LazyModule.scope.isEmpty, s"${wrapper.name}.module was constructed before LazyModule() was run on ${LazyModule.scope.get.name}" ) /** Set module name. Defaults to the containing LazyModule's desiredName. */ override def desiredName: String = wrapper.desiredName suggestName(wrapper.suggestedName) /** [[Parameters]] for chisel [[Module]]s. */ implicit val p: Parameters = wrapper.p /** instantiate this [[LazyModule]], return [[AutoBundle]] and a unconnected [[Dangle]]s from this module and * submodules. */ protected[diplomacy] def instantiate(): (AutoBundle, List[Dangle]) = { // 1. It will recursively append [[wrapper.children]] into [[chisel3.internal.Builder]], // 2. return [[Dangle]]s from each module. val childDangles = wrapper.children.reverse.flatMap { c => implicit val sourceInfo: SourceInfo = c.info c.cloneProto.map { cp => // If the child is a clone, then recursively set cloneProto of its children as well def assignCloneProtos(bases: Seq[LazyModule], clones: Seq[LazyModule]): Unit = { require(bases.size == clones.size) (bases.zip(clones)).map { case (l, r) => require(l.getClass == r.getClass, s"Cloned children class mismatch ${l.name} != ${r.name}") l.cloneProto = Some(r) assignCloneProtos(l.children, r.children) } } assignCloneProtos(c.children, cp.children) // Clone the child module as a record, and get its [[AutoBundle]] val clone = CloneModuleAsRecord(cp.module).suggestName(c.suggestedName) val clonedAuto = clone("auto").asInstanceOf[AutoBundle] // Get the empty [[Dangle]]'s of the cloned child val rawDangles = c.cloneDangles() require(rawDangles.size == clonedAuto.elements.size) // Assign the [[AutoBundle]] fields of the cloned record to the empty [[Dangle]]'s val dangles = (rawDangles.zip(clonedAuto.elements)).map { case (d, (_, io)) => d.copy(dataOpt = Some(io)) } dangles }.getOrElse { // For non-clones, instantiate the child module val mod = try { Module(c.module) } catch { case e: ChiselException => { println(s"Chisel exception caught when instantiating ${c.name} within ${this.name} at ${c.line}") throw e } } mod.dangles } } // Ask each node in this [[LazyModule]] to call [[BaseNode.instantiate]]. // This will result in a sequence of [[Dangle]] from these [[BaseNode]]s. val nodeDangles = wrapper.nodes.reverse.flatMap(_.instantiate()) // Accumulate all the [[Dangle]]s from this node and any accumulated from its [[wrapper.children]] val allDangles = nodeDangles ++ childDangles // Group [[allDangles]] by their [[source]]. val pairing = SortedMap(allDangles.groupBy(_.source).toSeq: _*) // For each [[source]] set of [[Dangle]]s of size 2, ensure that these // can be connected as a source-sink pair (have opposite flipped value). // Make the connection and mark them as [[done]]. val done = Set() ++ pairing.values.filter(_.size == 2).map { case Seq(a, b) => require(a.flipped != b.flipped) // @todo <> in chisel3 makes directionless connection. if (a.flipped) { a.data <> b.data } else { b.data <> a.data } a.source case _ => None } // Find all [[Dangle]]s which are still not connected. These will end up as [[AutoBundle]] [[IO]] ports on the module. val forward = allDangles.filter(d => !done(d.source)) // Generate [[AutoBundle]] IO from [[forward]]. val auto = IO(new AutoBundle(forward.map { d => (d.name, d.data, d.flipped) }: _*)) // Pass the [[Dangle]]s which remained and were used to generate the [[AutoBundle]] I/O ports up to the [[parent]] [[LazyModule]] val dangles = (forward.zip(auto.elements)).map { case (d, (_, io)) => if (d.flipped) { d.data <> io } else { io <> d.data } d.copy(dataOpt = Some(io), name = wrapper.suggestedName + "_" + d.name) } // Push all [[LazyModule.inModuleBody]] to [[chisel3.internal.Builder]]. wrapper.inModuleBody.reverse.foreach { _() } if (wrapper.shouldBeInlined) { chisel3.experimental.annotate(new ChiselAnnotation { def toFirrtl = InlineAnnotation(toNamed) }) } // Return [[IO]] and [[Dangle]] of this [[LazyModuleImp]]. (auto, dangles) } } /** Actual description of a [[Module]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyModuleImp(val wrapper: LazyModule) extends Module with LazyModuleImpLike { /** Instantiate hardware of this `Module`. */ val (auto, dangles) = instantiate() } /** Actual description of a [[RawModule]] which can be instantiated by a call to [[LazyModule.module]]. * * @param wrapper * the [[LazyModule]] from which the `.module` call is being made. */ class LazyRawModuleImp(val wrapper: LazyModule) extends RawModule with LazyModuleImpLike { // These wires are the default clock+reset for all LazyModule children. // It is recommended to drive these even if you manually drive the [[clock]] and [[reset]] of all of the // [[LazyRawModuleImp]] children. // Otherwise, anonymous children ([[Monitor]]s for example) will not have their [[clock]] and/or [[reset]] driven properly. /** drive clock explicitly. */ val childClock: Clock = Wire(Clock()) /** drive reset explicitly. */ val childReset: Reset = Wire(Reset()) // the default is that these are disabled childClock := false.B.asClock childReset := chisel3.DontCare def provideImplicitClockToLazyChildren: Boolean = false val (auto, dangles) = if (provideImplicitClockToLazyChildren) { withClockAndReset(childClock, childReset) { instantiate() } } else { instantiate() } } File MixedNode.scala: package org.chipsalliance.diplomacy.nodes import chisel3.{Data, DontCare, Wire} import chisel3.experimental.SourceInfo import org.chipsalliance.cde.config.{Field, Parameters} import org.chipsalliance.diplomacy.ValName import org.chipsalliance.diplomacy.sourceLine /** One side metadata of a [[Dangle]]. * * Describes one side of an edge going into or out of a [[BaseNode]]. * * @param serial * the global [[BaseNode.serial]] number of the [[BaseNode]] that this [[HalfEdge]] connects to. * @param index * the `index` in the [[BaseNode]]'s input or output port list that this [[HalfEdge]] belongs to. */ case class HalfEdge(serial: Int, index: Int) extends Ordered[HalfEdge] { import scala.math.Ordered.orderingToOrdered def compare(that: HalfEdge): Int = HalfEdge.unapply(this).compare(HalfEdge.unapply(that)) } /** [[Dangle]] captures the `IO` information of a [[LazyModule]] and which two [[BaseNode]]s the [[Edges]]/[[Bundle]] * connects. * * [[Dangle]]s are generated by [[BaseNode.instantiate]] using [[MixedNode.danglesOut]] and [[MixedNode.danglesIn]] , * [[LazyModuleImp.instantiate]] connects those that go to internal or explicit IO connections in a [[LazyModule]]. * * @param source * the source [[HalfEdge]] of this [[Dangle]], which captures the source [[BaseNode]] and the port `index` within * that [[BaseNode]]. * @param sink * sink [[HalfEdge]] of this [[Dangle]], which captures the sink [[BaseNode]] and the port `index` within that * [[BaseNode]]. * @param flipped * flip or not in [[AutoBundle.makeElements]]. If true this corresponds to `danglesOut`, if false it corresponds to * `danglesIn`. * @param dataOpt * actual [[Data]] for the hardware connection. Can be empty if this belongs to a cloned module */ case class Dangle(source: HalfEdge, sink: HalfEdge, flipped: Boolean, name: String, dataOpt: Option[Data]) { def data = dataOpt.get } /** [[Edges]] is a collection of parameters describing the functionality and connection for an interface, which is often * derived from the interconnection protocol and can inform the parameterization of the hardware bundles that actually * implement the protocol. */ case class Edges[EI, EO](in: Seq[EI], out: Seq[EO]) /** A field available in [[Parameters]] used to determine whether [[InwardNodeImp.monitor]] will be called. */ case object MonitorsEnabled extends Field[Boolean](true) /** When rendering the edge in a graphical format, flip the order in which the edges' source and sink are presented. * * For example, when rendering graphML, yEd by default tries to put the source node vertically above the sink node, but * [[RenderFlipped]] inverts this relationship. When a particular [[LazyModule]] contains both source nodes and sink * nodes, flipping the rendering of one node's edge will usual produce a more concise visual layout for the * [[LazyModule]]. */ case object RenderFlipped extends Field[Boolean](false) /** The sealed node class in the package, all node are derived from it. * * @param inner * Sink interface implementation. * @param outer * Source interface implementation. * @param valName * val name of this node. * @tparam DI * Downward-flowing parameters received on the inner side of the node. It is usually a brunch of parameters * describing the protocol parameters from a source. For an [[InwardNode]], it is determined by the connected * [[OutwardNode]]. Since it can be connected to multiple sources, this parameter is always a Seq of source port * parameters. * @tparam UI * Upward-flowing parameters generated by the inner side of the node. It is usually a brunch of parameters describing * the protocol parameters of a sink. For an [[InwardNode]], it is determined itself. * @tparam EI * Edge Parameters describing a connection on the inner side of the node. It is usually a brunch of transfers * specified for a sink according to protocol. * @tparam BI * Bundle type used when connecting to the inner side of the node. It is a hardware interface of this sink interface. * It should extends from [[chisel3.Data]], which represents the real hardware. * @tparam DO * Downward-flowing parameters generated on the outer side of the node. It is usually a brunch of parameters * describing the protocol parameters of a source. For an [[OutwardNode]], it is determined itself. * @tparam UO * Upward-flowing parameters received by the outer side of the node. It is usually a brunch of parameters describing * the protocol parameters from a sink. For an [[OutwardNode]], it is determined by the connected [[InwardNode]]. * Since it can be connected to multiple sinks, this parameter is always a Seq of sink port parameters. * @tparam EO * Edge Parameters describing a connection on the outer side of the node. It is usually a brunch of transfers * specified for a source according to protocol. * @tparam BO * Bundle type used when connecting to the outer side of the node. It is a hardware interface of this source * interface. It should extends from [[chisel3.Data]], which represents the real hardware. * * @note * Call Graph of [[MixedNode]] * - line `─`: source is process by a function and generate pass to others * - Arrow `β†’`: target of arrow is generated by source * * {{{ * (from the other node) * β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€[[InwardNode.uiParams]]─────────────┐ * ↓ β”‚ * (binding node when elaboration) [[OutwardNode.uoParams]]────────────────────────[[MixedNode.mapParamsU]]→──────────┐ β”‚ * [[InwardNode.accPI]] β”‚ β”‚ β”‚ * β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ ↓ β”‚ * ↓ β”‚ β”‚ β”‚ * (immobilize after elaboration) (inward port from [[OutwardNode]]) β”‚ ↓ β”‚ * [[InwardNode.iBindings]]──┐ [[MixedNode.iDirectPorts]]────────────────────→[[MixedNode.iPorts]] [[InwardNode.uiParams]] β”‚ * β”‚ β”‚ ↑ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[OutwardNode.doParams]] β”‚ β”‚ * β”‚ β”‚ β”‚ (from the other node) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ └────────┬─────────────── β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ (based on protocol) β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.inner.edgeI]] β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ (from the other node) β”‚ ↓ β”‚ * β”‚ └───[[OutwardNode.oPortMapping]] [[OutwardNode.oStar]] β”‚ [[MixedNode.edgesIn]]───┐ β”‚ * β”‚ ↑ ↑ β”‚ β”‚ ↓ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ [[MixedNode.in]] β”‚ * β”‚ β”‚ β”‚ β”‚ ↓ ↑ β”‚ * β”‚ (solve star connection) β”‚ β”‚ β”‚ [[MixedNode.bundleIn]]β”€β”€β”˜ β”‚ * β”œβ”€β”€β”€[[MixedNode.resolveStar]]→─┼────────────────────────────── └────────────────────────────────────┐ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.bundleOut]]─┐ β”‚ β”‚ * β”‚ β”‚ β”‚ ↑ ↓ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ [[MixedNode.out]] β”‚ β”‚ * β”‚ ↓ ↓ β”‚ ↑ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€[[InwardNode.iPortMapping]] [[InwardNode.iStar]] [[MixedNode.edgesOut]]β”€β”€β”˜ β”‚ β”‚ * β”‚ β”‚ (from the other node) ↑ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ [[MixedNode.outer.edgeO]] β”‚ β”‚ * β”‚ β”‚ β”‚ (based on protocol) β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * (immobilize after elaboration)β”‚ ↓ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.oBindings]]β”€β”˜ [[MixedNode.oDirectPorts]]───→[[MixedNode.oPorts]] [[OutwardNode.doParams]] β”‚ β”‚ * ↑ (inward port from [[OutwardNode]]) β”‚ β”‚ β”‚ β”‚ * β”‚ β”Œβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * β”‚ β”‚ β”‚ β”‚ β”‚ β”‚ * [[OutwardNode.accPO]] β”‚ ↓ β”‚ β”‚ β”‚ * (binding node when elaboration) β”‚ [[InwardNode.diParams]]─────→[[MixedNode.mapParamsD]]β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ β”‚ * β”‚ ↑ β”‚ β”‚ * β”‚ β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ β”‚ * β””β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ * }}} */ abstract class MixedNode[DI, UI, EI, BI <: Data, DO, UO, EO, BO <: Data]( val inner: InwardNodeImp[DI, UI, EI, BI], val outer: OutwardNodeImp[DO, UO, EO, BO] )( implicit valName: ValName) extends BaseNode with NodeHandle[DI, UI, EI, BI, DO, UO, EO, BO] with InwardNode[DI, UI, BI] with OutwardNode[DO, UO, BO] { // Generate a [[NodeHandle]] with inward and outward node are both this node. val inward = this val outward = this /** Debug info of nodes binding. */ def bindingInfo: String = s"""$iBindingInfo |$oBindingInfo |""".stripMargin /** Debug info of ports connecting. */ def connectedPortsInfo: String = s"""${oPorts.size} outward ports connected: [${oPorts.map(_._2.name).mkString(",")}] |${iPorts.size} inward ports connected: [${iPorts.map(_._2.name).mkString(",")}] |""".stripMargin /** Debug info of parameters propagations. */ def parametersInfo: String = s"""${doParams.size} downstream outward parameters: [${doParams.mkString(",")}] |${uoParams.size} upstream outward parameters: [${uoParams.mkString(",")}] |${diParams.size} downstream inward parameters: [${diParams.mkString(",")}] |${uiParams.size} upstream inward parameters: [${uiParams.mkString(",")}] |""".stripMargin /** For a given node, converts [[OutwardNode.accPO]] and [[InwardNode.accPI]] to [[MixedNode.oPortMapping]] and * [[MixedNode.iPortMapping]]. * * Given counts of known inward and outward binding and inward and outward star bindings, return the resolved inward * stars and outward stars. * * This method will also validate the arguments and throw a runtime error if the values are unsuitable for this type * of node. * * @param iKnown * Number of known-size ([[BIND_ONCE]]) input bindings. * @param oKnown * Number of known-size ([[BIND_ONCE]]) output bindings. * @param iStar * Number of unknown size ([[BIND_STAR]]) input bindings. * @param oStar * Number of unknown size ([[BIND_STAR]]) output bindings. * @return * A Tuple of the resolved number of input and output connections. */ protected[diplomacy] def resolveStar(iKnown: Int, oKnown: Int, iStar: Int, oStar: Int): (Int, Int) /** Function to generate downward-flowing outward params from the downward-flowing input params and the current output * ports. * * @param n * The size of the output sequence to generate. * @param p * Sequence of downward-flowing input parameters of this node. * @return * A `n`-sized sequence of downward-flowing output edge parameters. */ protected[diplomacy] def mapParamsD(n: Int, p: Seq[DI]): Seq[DO] /** Function to generate upward-flowing input parameters from the upward-flowing output parameters [[uiParams]]. * * @param n * Size of the output sequence. * @param p * Upward-flowing output edge parameters. * @return * A n-sized sequence of upward-flowing input edge parameters. */ protected[diplomacy] def mapParamsU(n: Int, p: Seq[UO]): Seq[UI] /** @return * The sink cardinality of the node, the number of outputs bound with [[BIND_QUERY]] summed with inputs bound with * [[BIND_STAR]]. */ protected[diplomacy] lazy val sinkCard: Int = oBindings.count(_._3 == BIND_QUERY) + iBindings.count(_._3 == BIND_STAR) /** @return * The source cardinality of this node, the number of inputs bound with [[BIND_QUERY]] summed with the number of * output bindings bound with [[BIND_STAR]]. */ protected[diplomacy] lazy val sourceCard: Int = iBindings.count(_._3 == BIND_QUERY) + oBindings.count(_._3 == BIND_STAR) /** @return list of nodes involved in flex bindings with this node. */ protected[diplomacy] lazy val flexes: Seq[BaseNode] = oBindings.filter(_._3 == BIND_FLEX).map(_._2) ++ iBindings.filter(_._3 == BIND_FLEX).map(_._2) /** Resolves the flex to be either source or sink and returns the offset where the [[BIND_STAR]] operators begin * greedily taking up the remaining connections. * * @return * A value >= 0 if it is sink cardinality, a negative value for source cardinality. The magnitude of the return * value is not relevant. */ protected[diplomacy] lazy val flexOffset: Int = { /** Recursively performs a depth-first search of the [[flexes]], [[BaseNode]]s connected to this node with flex * operators. The algorithm bottoms out when we either get to a node we have already visited or when we get to a * connection that is not a flex and can set the direction for us. Otherwise, recurse by visiting the `flexes` of * each node in the current set and decide whether they should be added to the set or not. * * @return * the mapping of [[BaseNode]] indexed by their serial numbers. */ def DFS(v: BaseNode, visited: Map[Int, BaseNode]): Map[Int, BaseNode] = { if (visited.contains(v.serial) || !v.flexibleArityDirection) { visited } else { v.flexes.foldLeft(visited + (v.serial -> v))((sum, n) => DFS(n, sum)) } } /** Determine which [[BaseNode]] are involved in resolving the flex connections to/from this node. * * @example * {{{ * a :*=* b :*=* c * d :*=* b * e :*=* f * }}} * * `flexSet` for `a`, `b`, `c`, or `d` will be `Set(a, b, c, d)` `flexSet` for `e` or `f` will be `Set(e,f)` */ val flexSet = DFS(this, Map()).values /** The total number of :*= operators where we're on the left. */ val allSink = flexSet.map(_.sinkCard).sum /** The total number of :=* operators used when we're on the right. */ val allSource = flexSet.map(_.sourceCard).sum require( allSink == 0 || allSource == 0, s"The nodes ${flexSet.map(_.name)} which are inter-connected by :*=* have ${allSink} :*= operators and ${allSource} :=* operators connected to them, making it impossible to determine cardinality inference direction." ) allSink - allSource } /** @return A value >= 0 if it is sink cardinality, a negative value for source cardinality. */ protected[diplomacy] def edgeArityDirection(n: BaseNode): Int = { if (flexibleArityDirection) flexOffset else if (n.flexibleArityDirection) n.flexOffset else 0 } /** For a node which is connected between two nodes, select the one that will influence the direction of the flex * resolution. */ protected[diplomacy] def edgeAritySelect(n: BaseNode, l: => Int, r: => Int): Int = { val dir = edgeArityDirection(n) if (dir < 0) l else if (dir > 0) r else 1 } /** Ensure that the same node is not visited twice in resolving `:*=`, etc operators. */ private var starCycleGuard = false /** Resolve all the star operators into concrete indicies. As connections are being made, some may be "star" * connections which need to be resolved. In some way to determine how many actual edges they correspond to. We also * need to build up the ranges of edges which correspond to each binding operator, so that We can apply the correct * edge parameters and later build up correct bundle connections. * * [[oPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that oPort (binding * operator). [[iPortMapping]]: `Seq[(Int, Int)]` where each item is the range of edges corresponding to that iPort * (binding operator). [[oStar]]: `Int` the value to return for this node `N` for any `N :*= foo` or `N :*=* foo :*= * bar` [[iStar]]: `Int` the value to return for this node `N` for any `foo :=* N` or `bar :=* foo :*=* N` */ protected[diplomacy] lazy val ( oPortMapping: Seq[(Int, Int)], iPortMapping: Seq[(Int, Int)], oStar: Int, iStar: Int ) = { try { if (starCycleGuard) throw StarCycleException() starCycleGuard = true // For a given node N... // Number of foo :=* N // + Number of bar :=* foo :*=* N val oStars = oBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) < 0) } // Number of N :*= foo // + Number of N :*=* foo :*= bar val iStars = iBindings.count { case (_, n, b, _, _) => b == BIND_STAR || (b == BIND_FLEX && edgeArityDirection(n) > 0) } // 1 for foo := N // + bar.iStar for bar :*= foo :*=* N // + foo.iStar for foo :*= N // + 0 for foo :=* N val oKnown = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, 0, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => 0 } }.sum // 1 for N := foo // + bar.oStar for N :*=* foo :=* bar // + foo.oStar for N :=* foo // + 0 for N :*= foo val iKnown = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, 0) case BIND_QUERY => n.oStar case BIND_STAR => 0 } }.sum // Resolve star depends on the node subclass to implement the algorithm for this. val (iStar, oStar) = resolveStar(iKnown, oKnown, iStars, oStars) // Cumulative list of resolved outward binding range starting points val oSum = oBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, oStar, n.iStar) case BIND_QUERY => n.iStar case BIND_STAR => oStar } }.scanLeft(0)(_ + _) // Cumulative list of resolved inward binding range starting points val iSum = iBindings.map { case (_, n, b, _, _) => b match { case BIND_ONCE => 1 case BIND_FLEX => edgeAritySelect(n, n.oStar, iStar) case BIND_QUERY => n.oStar case BIND_STAR => iStar } }.scanLeft(0)(_ + _) // Create ranges for each binding based on the running sums and return // those along with resolved values for the star operations. (oSum.init.zip(oSum.tail), iSum.init.zip(iSum.tail), oStar, iStar) } catch { case c: StarCycleException => throw c.copy(loop = context +: c.loop) } } /** Sequence of inward ports. * * This should be called after all star bindings are resolved. * * Each element is: `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. * `n` Instance of inward node. `p` View of [[Parameters]] where this connection was made. `s` Source info where this * connection was made in the source code. */ protected[diplomacy] lazy val oDirectPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oBindings.flatMap { case (i, n, _, p, s) => // for each binding operator in this node, look at what it connects to val (start, end) = n.iPortMapping(i) (start until end).map { j => (j, n, p, s) } } /** Sequence of outward ports. * * This should be called after all star bindings are resolved. * * `j` Port index of this binding in the Node's [[oPortMapping]] on the other side of the binding. `n` Instance of * outward node. `p` View of [[Parameters]] where this connection was made. `s` [[SourceInfo]] where this connection * was made in the source code. */ protected[diplomacy] lazy val iDirectPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iBindings.flatMap { case (i, n, _, p, s) => // query this port index range of this node in the other side of node. val (start, end) = n.oPortMapping(i) (start until end).map { j => (j, n, p, s) } } // Ephemeral nodes ( which have non-None iForward/oForward) have in_degree = out_degree // Thus, there must exist an Eulerian path and the below algorithms terminate @scala.annotation.tailrec private def oTrace( tuple: (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) ): (Int, InwardNode[DO, UO, BO], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.iForward(i) match { case None => (i, n, p, s) case Some((j, m)) => oTrace((j, m, p, s)) } } @scala.annotation.tailrec private def iTrace( tuple: (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) ): (Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo) = tuple match { case (i, n, p, s) => n.oForward(i) match { case None => (i, n, p, s) case Some((j, m)) => iTrace((j, m, p, s)) } } /** Final output ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - Numeric index of this binding in the [[InwardNode]] on the other end. * - [[InwardNode]] on the other end of this binding. * - A view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val oPorts: Seq[(Int, InwardNode[DO, UO, BO], Parameters, SourceInfo)] = oDirectPorts.map(oTrace) /** Final input ports after all stars and port forwarding (e.g. [[EphemeralNode]]s) have been resolved. * * Each Port is a tuple of: * - numeric index of this binding in [[OutwardNode]] on the other end. * - [[OutwardNode]] on the other end of this binding. * - a view of [[Parameters]] where the binding occurred. * - [[SourceInfo]] for source-level error reporting. */ lazy val iPorts: Seq[(Int, OutwardNode[DI, UI, BI], Parameters, SourceInfo)] = iDirectPorts.map(iTrace) private var oParamsCycleGuard = false protected[diplomacy] lazy val diParams: Seq[DI] = iPorts.map { case (i, n, _, _) => n.doParams(i) } protected[diplomacy] lazy val doParams: Seq[DO] = { try { if (oParamsCycleGuard) throw DownwardCycleException() oParamsCycleGuard = true val o = mapParamsD(oPorts.size, diParams) require( o.size == oPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of outward ports should equal the number of produced outward parameters. |$context |$connectedPortsInfo |Downstreamed inward parameters: [${diParams.mkString(",")}] |Produced outward parameters: [${o.mkString(",")}] |""".stripMargin ) o.map(outer.mixO(_, this)) } catch { case c: DownwardCycleException => throw c.copy(loop = context +: c.loop) } } private var iParamsCycleGuard = false protected[diplomacy] lazy val uoParams: Seq[UO] = oPorts.map { case (o, n, _, _) => n.uiParams(o) } protected[diplomacy] lazy val uiParams: Seq[UI] = { try { if (iParamsCycleGuard) throw UpwardCycleException() iParamsCycleGuard = true val i = mapParamsU(iPorts.size, uoParams) require( i.size == iPorts.size, s"""Diplomacy has detected a problem with your graph: |At the following node, the number of inward ports should equal the number of produced inward parameters. |$context |$connectedPortsInfo |Upstreamed outward parameters: [${uoParams.mkString(",")}] |Produced inward parameters: [${i.mkString(",")}] |""".stripMargin ) i.map(inner.mixI(_, this)) } catch { case c: UpwardCycleException => throw c.copy(loop = context +: c.loop) } } /** Outward edge parameters. */ protected[diplomacy] lazy val edgesOut: Seq[EO] = (oPorts.zip(doParams)).map { case ((i, n, p, s), o) => outer.edgeO(o, n.uiParams(i), p, s) } /** Inward edge parameters. */ protected[diplomacy] lazy val edgesIn: Seq[EI] = (iPorts.zip(uiParams)).map { case ((o, n, p, s), i) => inner.edgeI(n.doParams(o), i, p, s) } /** A tuple of the input edge parameters and output edge parameters for the edges bound to this node. * * If you need to access to the edges of a foreign Node, use this method (in/out create bundles). */ lazy val edges: Edges[EI, EO] = Edges(edgesIn, edgesOut) /** Create actual Wires corresponding to the Bundles parameterized by the outward edges of this node. */ protected[diplomacy] lazy val bundleOut: Seq[BO] = edgesOut.map { e => val x = Wire(outer.bundleO(e)).suggestName(s"${valName.value}Out") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } /** Create actual Wires corresponding to the Bundles parameterized by the inward edges of this node. */ protected[diplomacy] lazy val bundleIn: Seq[BI] = edgesIn.map { e => val x = Wire(inner.bundleI(e)).suggestName(s"${valName.value}In") // TODO: Don't care unconnected forwarded diplomatic signals for compatibility issue, // In the future, we should add an option to decide whether allowing unconnected in the LazyModule x := DontCare x } private def emptyDanglesOut: Seq[Dangle] = oPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(serial, i), sink = HalfEdge(n.serial, j), flipped = false, name = wirePrefix + "out", dataOpt = None ) } private def emptyDanglesIn: Seq[Dangle] = iPorts.zipWithIndex.map { case ((j, n, _, _), i) => Dangle( source = HalfEdge(n.serial, j), sink = HalfEdge(serial, i), flipped = true, name = wirePrefix + "in", dataOpt = None ) } /** Create the [[Dangle]]s which describe the connections from this node output to other nodes inputs. */ protected[diplomacy] def danglesOut: Seq[Dangle] = emptyDanglesOut.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleOut(i))) } /** Create the [[Dangle]]s which describe the connections from this node input from other nodes outputs. */ protected[diplomacy] def danglesIn: Seq[Dangle] = emptyDanglesIn.zipWithIndex.map { case (d, i) => d.copy(dataOpt = Some(bundleIn(i))) } private[diplomacy] var instantiated = false /** Gather Bundle and edge parameters of outward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def out: Seq[(BO, EO)] = { require( instantiated, s"$name.out should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleOut.zip(edgesOut) } /** Gather Bundle and edge parameters of inward ports. * * Accessors to the result of negotiation to be used within [[LazyModuleImp]] Code. Should only be used within * [[LazyModuleImp]] code or after its instantiation has completed. */ def in: Seq[(BI, EI)] = { require( instantiated, s"$name.in should not be called until after instantiation of its parent LazyModule.module has begun" ) bundleIn.zip(edgesIn) } /** Actually instantiate this node during [[LazyModuleImp]] evaluation. Mark that it's safe to use the Bundle wires, * instantiate monitors on all input ports if appropriate, and return all the dangles of this node. */ protected[diplomacy] def instantiate(): Seq[Dangle] = { instantiated = true if (!circuitIdentity) { (iPorts.zip(in)).foreach { case ((_, _, p, _), (b, e)) => if (p(MonitorsEnabled)) inner.monitor(b, e) } } danglesOut ++ danglesIn } protected[diplomacy] def cloneDangles(): Seq[Dangle] = emptyDanglesOut ++ emptyDanglesIn /** Connects the outward part of a node with the inward part of this node. */ protected[diplomacy] def bind( h: OutwardNode[DI, UI, BI], binding: NodeBinding )( implicit p: Parameters, sourceInfo: SourceInfo ): Unit = { val x = this // x := y val y = h sourceLine(sourceInfo, " at ", "") val i = x.iPushed val o = y.oPushed y.oPush( i, x, binding match { case BIND_ONCE => BIND_ONCE case BIND_FLEX => BIND_FLEX case BIND_STAR => BIND_QUERY case BIND_QUERY => BIND_STAR } ) x.iPush(o, y, binding) } /* Metadata for printing the node graph. */ def inputs: Seq[(OutwardNode[DI, UI, BI], RenderedEdge)] = (iPorts.zip(edgesIn)).map { case ((_, n, p, _), e) => val re = inner.render(e) (n, re.copy(flipped = re.flipped != p(RenderFlipped))) } /** Metadata for printing the node graph */ def outputs: Seq[(InwardNode[DO, UO, BO], RenderedEdge)] = oPorts.map { case (i, n, _, _) => (n, n.inputs(i)._2) } } File BundleBridgeNexus.scala: package org.chipsalliance.diplomacy.bundlebridge import chisel3.{chiselTypeOf, ActualDirection, Data, Reg} import chisel3.reflect.DataMirror import org.chipsalliance.cde.config.Parameters import org.chipsalliance.diplomacy.lazymodule.{LazyModule, LazyRawModuleImp} class BundleBridgeNexus[T <: Data]( inputFn: Seq[T] => T, outputFn: (T, Int) => Seq[T], default: Option[() => T] = None, inputRequiresOutput: Boolean = false, override val shouldBeInlined: Boolean = true )( implicit p: Parameters) extends LazyModule { val node = BundleBridgeNexusNode[T](default, inputRequiresOutput) lazy val module = new Impl class Impl extends LazyRawModuleImp(this) { val defaultWireOpt = default.map(_()) val inputs: Seq[T] = node.in.map(_._1) inputs.foreach { i => require( DataMirror.checkTypeEquivalence(i, inputs.head), s"${node.context} requires all inputs have equivalent Chisel Data types, but got\n$i\nvs\n${inputs.head}" ) } inputs.flatMap(getElements).foreach { elt => DataMirror.directionOf(elt) match { case ActualDirection.Output => () case ActualDirection.Unspecified => () case _ => require(false, s"${node.context} can only be used with Output-directed Bundles") } } val outputs: Seq[T] = if (node.out.size > 0) { val broadcast: T = if (inputs.size >= 1) inputFn(inputs) else defaultWireOpt.get outputFn(broadcast, node.out.size) } else { Nil } val typeName = outputs.headOption.map(_.typeName).getOrElse("NoOutput") override def desiredName = s"BundleBridgeNexus_$typeName" node.out.map(_._1).foreach { o => require( DataMirror.checkTypeEquivalence(o, outputs.head), s"${node.context} requires all outputs have equivalent Chisel Data types, but got\n$o\nvs\n${outputs.head}" ) } require( outputs.size == node.out.size, s"${node.context} outputFn must generate one output wire per edgeOut, but got ${outputs.size} vs ${node.out.size}" ) node.out.zip(outputs).foreach { case ((out, _), bcast) => out := bcast } } } object BundleBridgeNexus { def safeRegNext[T <: Data](x: T): T = { val reg = Reg(chiselTypeOf(x)) reg := x reg } def requireOne[T <: Data](registered: Boolean)(seq: Seq[T]): T = { require(seq.size == 1, "BundleBroadcast default requires one input") if (registered) safeRegNext(seq.head) else seq.head } def orReduction[T <: Data](registered: Boolean)(seq: Seq[T]): T = { val x = seq.reduce((a, b) => (a.asUInt | b.asUInt).asTypeOf(seq.head)) if (registered) safeRegNext(x) else x } def fillN[T <: Data](registered: Boolean)(x: T, n: Int): Seq[T] = Seq.fill(n) { if (registered) safeRegNext(x) else x } def apply[T <: Data]( inputFn: Seq[T] => T = orReduction[T](false) _, outputFn: (T, Int) => Seq[T] = fillN[T](false) _, default: Option[() => T] = None, inputRequiresOutput: Boolean = false, shouldBeInlined: Boolean = true )( implicit p: Parameters ): BundleBridgeNexusNode[T] = { val nexus = LazyModule(new BundleBridgeNexus[T](inputFn, outputFn, default, inputRequiresOutput, shouldBeInlined)) nexus.node } }
module BundleBridgeNexus_UInt1_2( // @[BundleBridgeNexus.scala:20:9] output auto_out_1, // @[LazyModuleImp.scala:107:25] output auto_out_0 // @[LazyModuleImp.scala:107:25] ); wire outputs_1 = 1'h1; // @[HasTiles.scala:78:32] wire childClock = 1'h0; // @[LazyModuleImp.scala:155:31] wire childReset = 1'h0; // @[LazyModuleImp.scala:158:31] wire _childClock_T = 1'h0; // @[LazyModuleImp.scala:160:25] wire nodeOut; // @[MixedNode.scala:542:17] wire x1_nodeOut; // @[MixedNode.scala:542:17] wire outputs_0 = 1'h0; // @[HasTiles.scala:78:32] assign nodeOut = outputs_0; // @[HasTiles.scala:78:32] assign x1_nodeOut = outputs_1; // @[HasTiles.scala:78:32] assign auto_out_1 = x1_nodeOut; // @[MixedNode.scala:542:17] assign auto_out_0 = nodeOut; // @[MixedNode.scala:542:17] endmodule